PLANET ECLIPSE GSL User Manual
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PLANET ECLIPSE GSL User Manual

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Summary of Contents for PLANET ECLIPSE GSL

  • Page 2 GSL for transport and storage. Never look into the barrel or breech area of the GSL whilst the marker is switched on and able to fire.
  • Page 3 CO 2 . manual you must seek expert advice. • Always follow instructions, warnings and guidelines given with any first stage regulator you use with the GSL. Le mode d’emploi est en Anglais. • Use 0.68 inch calibre paintballs only.

  • Page 4: Table Of Contents

    29 PRESET - The Preset Menu 6 Using THE gsL LOAD - The Load Preset Parameter Details on setting up the GSL and information on the user interface. SAVE - The Save Preset Parameter This section is essential reading for everyone. 30 FIRE MODE - The Fire Mode Parameter ROF CAP - The Rate of Fire Cap Parameter Factory Set-up Guide BS ON ROF - The Maximum Rate of Fire Parameter Installing a 9V Battery BS OFF ROF - Rate of Fire with BBSS Off Parameter Switching On the GSL 31 RAMP SETUP - The Ramp Set-up Menu Switching Off the GSL TYPE - The Ramp Type Parameter Firing the GSL RATE - The Linear Ramp Rate Parameter Using the Break Beam Sensor System 32 SEMI SHOTS - The Ramp Start Parameter 10 The GSL Navigation Console KICK IN - The Ramp Kick-In Parameter 11 Installing a Barrel SUSTAIN - The Sustain Rate Parameter 12 Trigger Adjustment RESTART - The Ramp Restart Parameter 14 Attaching a Loader 33 TIMING - The Timing Menu...
  • Page 5 40 TRAINING - The Training Parameter 72 GSL Bolt System SHOT COUNT - The Shot Count Menu 73 GSL Solenoid Assembly GAUGE - The Gauge Parameter 74 GSL Push On Purge System (POPS) Assembly GAUGE MAX - The Gauge Max Parameter 75 Trigger Assembly 41 GAME TIMER - The Game Timer Menu Clamping Feed Tube Assembly GAME - The Game Timer Parameter 76 GSL Circuit Board ALARM - The Alarm Parameter 77 Common Screw Size Chart START - The Start Parameter 78 Common O-ring Size Chart 42 MainTEnanCE 79 MEnU TrEE A guide to cleaning and performing routine maintenance on specific A quick reference guide to the user interface. areas of the GSL. 83 ECLiPsE E-PorTaL 42 The Break Beam Sensor System Information on the Eclipse E-Portal upgrade for GSL.

  • Page 6: Factory Set-Up Guide

    A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Before using the GSL it is important to make sure the SL4 inline regulator, solenoid flow restrictor (SFR) and all electronically controlled parameters are set correctly. All of these can have a negative effect on the performance of the marker if set incorrectly. The steps below will restore the GSL settings to the factory settings.

  • Page 7: Installing A 9V Battery

    9V BaTTErY Ensure that the GSL is switched off. Lay the marker on a flat surface in front of you with the feed tube furthest away and with the barrel pointing to the right. Use a 5/64” (2mm) hex key to remove the two countersunk screws that hold the rubber grip onto the frame (SEE FIGURE 2A) . Peel the grip to the right to expose the circuit board within the frame. Remove the fitted battery by sliding your thumb or finger into the recess below the battery and levering the battery out of the frame (SEE FIGURE 2B) FIG 2A DO NOT pull on the top of the battery to remove it as this can cause the battery terminals to bend and will result in a poor electrical connection. Fit a 9-volt alkaline battery (type PP3, 6LR61 or MN1604) into the recess with the battery terminals away from you. The positive terminal should be on the right hand side, nearest to the front side of the frame (SEE FIGURE 2C) Planet Eclipse recommends using a branded high quality alkaline 9V battery. Budget and rechargeable batteries may cause performance issues. FIG 2B Ensure that all of the wires are within the recess of the frame and away from the trigger, micro-switch and OPTO sensors so as not to interfere with their operation. Replace the rubber grip and screw in the two countersunk screws. DO NOT OVER-TIGHTEN THE GRIP SCREWS. FIG 2C Using THE gEo3.1 7...

  • Page 8: Switching On The Gsl

    (SEE FIGURE 3A) “TURN OFF”. Release the button and re-press it to turn off the GSL. Alternatively double click the button to enter the menu tree then press to turn off the GSL. Firing THE gsL WARNING PLANET ECLIPSE ADVISES NOT TO DRY FIRE/SHOOT THE MARKER WITHOUT PAINTBALLS. PROLONGED DRY FIRING MAY LEAD TO DAMAGE/WEAR OF THE INTERNAL COMPONENTS OF THE MARKER. FIG 3A Pull the trigger to fire the GSL. The entire...

  • Page 9: Using The Break Beam Sensor System

    The Break Beam Sensor System, referred to elsewhere in this manual as ‘BBSS’ is used to detect when a paintball is ready to be fired from the GSL. If no paintball is ready then the BBSS will inhibit the GSL from firing. This prevents the GSL from “chopping” paintballs that are not fully loaded into the marker. To switch off the BBSS, press and hold the button for 0.5 seconds (SEE FIGURE 4A) . The BBSS indicator on the top right of the LCD will change from (enabled) to (disabled). To switch the BBSS back on, press and hold the button for 0.5 second. The indicator will change back to When the BBSS is enabled, the indicator will change depending upon whether the system has detected a ball or not. When no ball has been detected the indicator will look like this . When a ball has been detected the icon changes to look like this . Additional features of the GSL’s Break Beam Sensor System are covered in full on page 23 of this operators manual. FIG 4A When the GSL is turned on, the BBSS is automatically enabled. Using THE gEo3.1 9...

  • Page 10: The Gsl Navigation Console

    THE gsL naVigaTion ConsoLE At the rear of the GSL grip frame you will find the navigation console PrEVioUs / raisE which is used for: (SEE FIGURE 5A) • Turning the GSL on and off using the button. • Scrolling through menus with the and buttons. sELECT • Selecting parameters to edit using the button. • Editing parameters using the and buttons. • Turning the GSL BBSS on and off using the button (push and nEXT / LoWEr hold). • Resetting recorded values using the button (push and hold). • Controlling the game timer with the button (quick push and release). •...

  • Page 11: Installing A Barrel

    (SEE FIGURE 6C) You have now FIG 6B installed the barrel. The Eclipse Barrel Sock that comes with the GSL may differ from that pictured in this manual. Instruction on using the Eclipse Barrel Sock can be found on the Eclipse Barrel Sock warning label. FIG 6C Using THE gEo3.1 11...

  • Page 12: Trigger Adjustment

    TriggEr aDJUsTMEnT The GSL provides the user with the option to use either a micro- switch or an OPTO sensor (default OPTO) as the means for detecting trigger pulls. Before you begin to adjust and set your trigger, you must first select the method of trigger detection that you wish to use by entering the main menu and making your selection from the hardware menu (see page 37). There are five adjustment points on the trigger – the front stop screw, the rear stop screw, the magnet return strength screw, the micro- switch activation screw and the spring return strength screw. Figure 7A Key FIG 7A - Trigger leaf spring - Spring return strength screw - Trigger pin retaining screw - Front stop screw - Magnet return strength screw - Micro-switch activation screw - Rear stop screw - OPTO sensor activation prong The front stop screw is used to set the amount of trigger travel prior to the marker firing. Turn this screw clockwise to reduce the amount of travel. Do not turn the screw too far or the trigger will be pushed past the firing point and the marker will not fire. Turn this FIG 7B screw counter-clockwise to increase the amount of trigger travel (SEE FIGURE 7B) The rear stop screw is used to set the amount of travel after the marker has fired. Turn this screw clockwise to reduce the amount of travel. Do not turn the screw too far or the trigger will be prevented from reaching its firing point and the marker will not work. Turn this screw counter-clockwise to increase the amount of travel (SEE FIGURE FIG 7C 12 Using THE gEo3.1...
  • Page 13 ConTinUED The magnet return strength screw is used to adjust the amount of force with which the trigger is returned to its rest position by the magnet. Turn the screw clockwise to increase the amount of force. Do not turn the screw too far or it will negate the position of the front stop screw. Turn the screw counter-clockwise to reduce the amount of force. Do not turn the screw too far or there may not be enough force to return the trigger (SEE FIGURE 7D) The micro-switch activation screw is used to adjust the point in the trigger pull at which the micro-switch is activated (only if the Trigger parameter on page 37 is set to ‘SWITCH’). Turn the screw clockwise FIG 7D to decrease the amount of trigger travel to the activation point. Turn the screw counter-clockwise to increase the amount of trigger travel to the activation point . Do not set the micro-switch (SEE FIGURE 7E) activation screw too far out when using the OPTO sensors, as the screw can stop against the micro-switch before the trigger prong enters the OPTO sensors. The spring return strength screw is used to adjust the spring strength that returns the trigger to its resting position. Turn the screw clockwise to increase the amount of spring return strength in the trigger pull. Turn this screw counter-clockwise to reduce the amount of spring return strength in the trigger pull. Do not turn the screw too far counter-clockwise or there will not be enough force to return the trigger consistently (SEE FIGURE 7F) FIG 7E When setting the trigger it is important to ensure that the electronic trigger detection is working correctly. When the trigger is fully depressed the Trigger Detection Indicator (TDI) should point upwards . When the trigger is fully released the TDI should point downwards For more information, see understanding the Trigger Detection Indicator (TDI) on page 24 and the Filter menu on pages 34-36. FIG 7F Using THE gEo3.1 13...

  • Page 14: Attaching A Loader

    DO NOT OVER TIGHTEN THE CLAMPING FEED TUBE AS THIS MAY DAMAGE THE LOADER OR FEED TUBE ITSELF. Using a 5/32” hex key or your fingers, turn the sprocket screw of the clamping feed tube counter-clockwise (SEE FIGURE 8A) Release the clamping lever on the feed tube and test (SEE FIGURE 8B) to see if your loader can easily be pushed into the top of the feed tube. If the loader cannot easily be pushed into the feed tube, loosen the sprocket screw of the clamping feed tube a little more by turning FIG 8A it counter-clockwise using a 5/32” hex key or your fingers (SEE FIGURE When you have managed to push your loader into the clamping feed tube, close the clamp to secure it firmly in place . If the (SEE FIGURE 8C) loader is loose then you will need to release the clamp, tighten the sprocket screw slightly by turning it clockwise with a 5/32” hex key or your fingers and close the clamp. Repeat this process as necessary to secure your loader in place. You have now attached a loader to your GSL. Once you have filled your loader and air tank you will then be ready to begin using your GSL. FIG 8B FIG 8C 14 Using THE gEo3.1...

  • Page 15: The Gas Through Pipe

    (SEE FIGURE 9B) (SEE FIGURE 9C) debris or dirt, cleaning as necessary. Screw the pipe section into the nut section fully before attempting to install the gas pipe assembly in the marker . Insert the (SEE FIGURE 9D) o-ring end of the pipe nut section into the SL4 regulator swivel (SEE . Rotate the swivel and gas pipe assembly to align the gas FIGURE 9E) pipe section with the gas port in the frame. Holding the pipe nut section in place inside the SL4 regulator FIG 9D swivel, screw the gas pipe section clockwise to extend it into the frame . If the gas pipe assembly can slide backwards (SEE FIGURE 9F) and forwards, then the pipe is not fully installed and needs to be extended further. The gas pipe only needs to be removed for maintenance procedures that require removal of the SL4 inline regulator or the frame assembly. FIG 9E FIG 9F The GSL and EGO GSL gas pipe sections are not interchangable. Using THE gEo3.1 15...

  • Page 16: Installing A Preset Air System

    NEVER ADD ANY LUBRICANTS OR GREASES INTO THE FILL ADAPTER OF THE AIR SYSTEM REGULATOR ENSURE THAT ALL SCREWS ARE TIGHTENED AND NO PARTS ARE LOOSE BEFORE INSTALLING AN AIR SYSTEM. DO NOT PRESSURISE THE GSL WITHOUT THE BOLT SYSTEM CORRECTLY INSTALLED, AS HIGH PRESSURE GAS WILL BE EMITTED.
  • Page 17 You have now installed a preset air system onto your GSL. FIG 10B High, mid and low pressure output preset air systems can be used with the GSL, providing the GSL has the SL4 inline regulator originally supplied with the marker. The force needed to engage the bonnet may vary depending on the output pressure and internal design of the air system being used.

  • Page 18: Velocity Adjustment

    After each adjustment fire two clearing shots to gain an accurate velocity reading. Never exceed 300fps. High, mid and low pressure output preset air systems can be used with the GSL, providing the GSL has the SL4 inline regulator originally supplied with the marker.

  • Page 19: Solenoid Flow Restrictor

    The restrictor controls the forward stroke of the bolt. As such it has the ability to directly control the velocity of the paintball. It is strongly recommended to chronograph the GSL after adjusting FIG 12B the restrictor. Using THE gEo3.1 19...

  • Page 20: Unloading The Gsl

    UnLoaDing THE gsL WARNING ALWAYS KEEP THE ECLIPSE GSL POINTED IN A SAFE DIRECTION AND ENSURE ALL PERSONS WITHIN RANGE CONTINUE TO WEAR FACE PROTECTION, UNTIL MARKER IS COMPLETELY UNLOADED AND SAFE. Securely attach a barrel blocking device such as the Eclipse Barrel Sock (supplied with the GSL) to the marker as shown in FIGURE 13A Turn off the GSL electronics by holding down the button on the back of the frame. When the screen turns off and the marker speaker emits FIG 13A FIG 13B the ‘off’ tone (if the Sound parameter is enabled), the marker has been...

  • Page 21: Storage And Transportation

    AND LAW ENFORCEMENT PERSONNEL MAY NOT BE ABLE TO DISTINGUISH BETWEEN A PAINTBALL MARKER AND A REAL FIREARM. FOR YOUR OWN SAFETY AND TO PROTECT THE IMAGE OF PAINTBALL, ALWAYS CARRY THE ECLIPSE GSL (OR ANY OTHER PAINTBALL MARKER) IN A SUITABLE MARKER CASE SUCH AS THE ONE IN WHICH IT WAS SUPPLIED.

  • Page 22: The User Interface

    The layout of the run screen is correct at time of printing. However newer versions of the GSL software may have a different layout of the run screen from what is printed in this manual. You may find some icons have been added or removed entirely. If you are unsure about any icons which do not feature in the manual contact your local dealer/service centre or Planet Eclipse directly.

  • Page 23: The Bbss Indicator

    THE BBss inDiCaTor The BBSS is able to switch itself off in the event of a blockage or contamination preventing it from functioning correctly. In this instance, the BBSS will switch itself back on once the blockage is cleared and the correct operation can be resumed. The BBSS indicator on the main screen is used to indicate the eight possible states of the BBSS as follows: BBSS enabled and ball detected BBSS Enabled No Ball Detected The GSL can be fired at the maximum rate of fire determined The GSL cannot be fired. by the chosen firing mode. BBSS Fault Has Been Cleared and no ball detected BBSS Fault Has Been Cleared and Ball Detected The system has been re-enabled. No ball is detected so The system has been re-enabled. A ball is detected and the the GSL cannot be fired. To reset the BBSS icon, use the GSL can be fired at the maximum rate of fire determined by button to switch off the BBSS and then back on again. the chosen firing mode. BBSS Disabled BBSS Fault Detected The GSL can be fired at a maximum rate of fire as set by the The system is disabled. The GSL can only be fired at a BS OFF ROF parameter (see page 30). maximum rate of 2bps less than the maximum rate of fire, up to a maximum of 10 bps. BBSS ENABLED In Training Mode BBSS DISABLED In Training Mode The BBSS has been over-ridden as the user has selected The BBSS has been over-ridden as the user has selected training mode. As the user has chosen to leave the BBSS training mode. As the user has chosen to turn the BBSS on, the achievable rate of fire is limited by the firing mode. off, the achievable rate of fire is limited by the BS OFF ROF parameter (see page 30). THE aUX oUT inDiCaTor The auxiliary socket on the GSL circuit board allows third party products such as loaders or RF transmitters to be interfaced to the GSL.

  • Page 24: The Sound Indicator

    THE soUnD inDiCaTor The sound indicator on the run screen is used to convey if the Sound parameter in the Hardware menu (page 37) is switched on or off. There are two possible conditions that can be indicated: SOUND DISABLED SOUND ENABLED The sound parameter is disabled. The GSL will not make The sound parameter is enabled. The GSL will make any sounds. sounds when switched on and off and when the game timer alarms or times out. THE TriggEr DETECTion inDiCaTor In order for the trigger to be successfully operated it must first be released and then pulled. The trigger detection indicator (TDI) is used to indicate each of the possible trigger states. OPTO SENSOR SELECTED, READING MID-RANGE OPTO SENSOR SELECTED, READING 0% The GSL is configured to use the OPTO sensor to detect The GSL is configured to use the OPTO sensor to detect trigger pulls. The OPTO sensor is currently reading trigger pulls. The OPTO sensor is currently reading 0%, i.e. somewhere between the OPTO release point and the the trigger is fully released. OPTO pull point, i.e. the trigger is half depressed. OPTO SENSOR SELECTED, READING BELOW RELEASE POINT The GSL is configured to use the OPTO sensor to detect MICRO-SWITCH Selected, ACTUATED trigger pulls. The OPTO sensor is currently reading below The GSL is configured to use the micro-switch to detect the OPTO release point, i.e. the trigger is considered trigger pulls. The micro-switch is currently actuated, i.e. ‘released’. the trigger is pulled. OPTO SENSOR SELECTED, READING 100% MICRO-SWITCH SELECTED, NOT ACTUATED The GSL is configured to use the OPTO sensor to detect The GSL is configured to use the micro-switch to detect trigger pulls. The OPTO sensor is currently reading 100%,...

  • Page 25: The Lock Indicator

    THE LoCK inDiCaTor The GSL has a tournament lock which prevents the user from making changes to any parameter that affects the way in which the GSL shoots, without the need for tools. This feature is necessary in order to make the GSL legal for tournament play. To enable or disable the tournament lock see Accessing the Menu System on page 27. When the lock is enabled the lock indictor will show a closed padlock . When the lock is disabled the lock indictor will show an open padlock THE BaTTErY LEVEL inDiCaTor The battery level indicator is used to show the state of the battery within the GSL. When the battery is fresh the indicator will show a ‘full’ battery and as the battery is drained, so will the indicator show the battery emptying. When the battery reaches a point at which the GSL will no longer function reliably, the indicator will start to flash. At this point the battery must be changed immediately. As well as displaying the voltage level of the battery, the indicator also warns if the battery being used has an incorrect voltage to operate the electronics reliably. The icon for a battery with an incorrect voltage output is . If this icon is shown the battery must be replaced immediately. THE gaME TiMEr When the game timer is shown on the run screen then it can be started by pressing the button and the timer will start to count down. The game timer can also be configured to start on a trigger press with the start parameter (see page 41). When the game timer reaches the alarm time the gamer timer will start to flash and the audible alarm will sound every second, provided that the sound parameter is on. When the game timer reaches 00:00, GAME OVER will be displayed and the audible alarm will sound continually, provided that the sound parameter is set to ‘on’. To stop the game timer at any time press and hold the button for 0.5 seconds. To reset the game timer to it’s preset start time, push and hold the button for 0.5 second. The game timer will also be reset whenever the GSL is switched off. THE sHoT CoUnTEr The shot counter will increment every time that the circuit board registers a trigger pull, regardless of whether the shot counter is displayed or not. When the shot counter is displayed on the run screen it can be reset to 0 by pressing and holding the button for 0.5 seconds.

  • Page 26: The Actual Rate Of Fire

    THE aCTUaL raTE oF FirE When the actual ROF is selected for display the run screen will look something like the screen to the right. The value displayed in the top left of the screen represents the number of full cycles completed in a second - the actual rate of fire over that second. The value below it is the maximum actual rate of fire that has been achieved. The graph below this number shows the actual rates of fire achieved over time where each bar represents the amount of pulls in that second. To reset the maximum, press and hold the button for 0.5 second. THE PEaK raTE oF FirE When the peak ROF is selected for display the run screen will look something like the screen to the right, which differs from the display of the actual ROF by the inclusion of the indicator ‘PK’. The value displayed in the top left of the screen represents the maximum rate of fire that has been recorded over the last second. The value below it is the maximum peak rate of fire that has been achieved. The graph below this number shows the peak rates of fire achieved over time. To reset this maximum, press and hold the button for 0.5 seconds. The peak ROF is typically higher than the actual ROF as it is much easier to fire two shots in quick succession than it is to maintain a string over a longer period of time. THE MEnU sYsTEM Behind the run screen is a structured menu system comprised of two layers of menus. Each menu contains a number of menu items and each menu item can either be a parameter or a branch to another menu. Branches have an animated graphic on the right of the display, whereas parameters have their current value. TYPICAL BRANCH On parameter screens a range bar will be displayed where there is a large scale TYPICAL PARAMETER of adjustability in that parameter. The current parameter value is displayed as a TYPICAL PARAMETER box on the range bar which is used to indicate the range of adjustability in the parameter value. value TYPICAL Range Bar At the bottom of the parameter screen the unit for that parameter will be displayed.

  • Page 27: Advanced Setup 27

    aCCEssing THE MEnU sYsTEM To access the Main menu from the run screen double-click the button and the first item on the Main menu will be displayed. Alternatively, push and hold the button for 2 seconds. Some of the parameters in the menu system can have a tournament lock applied to them. This lock can be toggled on and off by pressing the tournament lock button on the circuit board (SEE IN FIGURE 14A) When trying to select a parameter that is locked, the a ‘LOCKED’ message will be briefly displayed. FIG 14A MoVing aroUnD THE MEnUs WARNING THE MARKER CAN BE FIRED WHILE NAVIGATING ALL MENUS AND PARAMETERS. Press and release the button to display the next item on the menu. When the last menu item is displayed, pressing the button will display the first item. Press and release the button to display the previous item on the menu. When the first menu item is displayed, pressing the button will display the last item. When the displayed item is a branch, as indicated by an animation on the right of the screen, press the button to move to another menu. aLTEring ParaMETErs When the displayed item is a parameter, as indicated by a parameter value on the right of the screen, pressing the button will activate the EDIT mode which allows the parameter value to be altered. When EDIT mode is active, the black box surrounding the...

  • Page 28: The Menu System

    THE MEnU sYsTEM The Main menu contains both editable parameters and sub-menus which contain editable parameters. Some of these parameters affect the way the GSL shoots and are tournament locked as standard from the factory.1 The Main menu also contains the TURN OFF option. Selecting this option will immediately turn off the GSL, preventing it from firing. Parameters followed by a * are part of the Smart Menu System and will only be displayed depending on your chosen settings. (e.g. The BS ON ROF parameter will only become available if the ROF CAP parameter is set to on). 1The layout of the Main menu is correct at time of printing. However newer versions of the GSL software may have a different layout of the Main menu, sub-menus and parameters from what is printed in this manual. You may find some parameters have been added or removed entirely. If you are unsure about any parameters which do not feature in the manual contact your local dealer/service centre or Planet Eclipse directly. 28 aDVanCED sETUP...
  • Page 29 > CANCEL: Editing is cancelled and the parameter remains unchanged. Some presets and fire modes may only be available in certain countries and on some models of the GSL. All presets are correct at time of printing. It is the users responsibility to ensure that the loaded preset complies with the event rules the marker is intended to be used in.
  • Page 30 > CANCEL: Cancel editing and leave the parameter unchanged. Bs on roF ParaMETEr* The BS ON ROF parameter is used to set the maximum achievable rate of fire from the GSL. The value of this parameter can be adjusted between 4.0 and 30.0 balls per second in 0.1bps increments. The BS ON ROF parameter will only be displayed if you have set the ROF CAP parameter to ‘ON’. Always calibrate your GSL ROF CAP parameters to the local field BPS meter as readings may vary from meter to meter. Bs oFF roF ParaMETEr The BS OFF ROF parameter is used to control how fast the GSL cycles when the Break Beam Sensor System is disabled. This parameter can be set between 4.0 and 15.0 balls per second and should always be set to the slowest speed of the loading system in use. Always calibrate your GSL ROF CAP parameters to the local field BPS meter as readings may vary from meter to meter.
  • Page 31 MEnU This menu is only available when ramping has been selected with the FIRE Mode parameter and comprises a list of parameters that control the way in which the GSL ramps, as shown below. TYPE ParaMETEr This parameter is used to select the ramping style and has the following choices: > STEP: Step ramping will cause the GSL to shoot in semi-automatic until a number of trigger pulls, set by SEMI SHOTS, have been made at a minimum pull rate, set by KICK IN. At this point the rate of fire will step up to the maximum rate of fire as set by BS ON ROF (or the maximum loader speed if the ROF CAP parameter is set to off).Ramping is maintained as long as the user continues to pull the trigger at a required rate set by SUSTAIN. > LINEAR: Linear ramping will cause the GSL to shoot in semi-automatic until a number of trigger pulls, set by SEMI SHOTS, have been made at a minimum pull rate, set by KICK IN. At this point the rate of fire will equal the rate of trigger pulls increased by the percentage specified by RATE up to a maximum rate of fire as set by BS ON ROF, if the ROF CAP is on. Ramping is maintained as long as the user continues to pull the trigger at a required rate set by SUSTAIN. > CANCEL: Editing is cancelled and no changes are made to the parameter. raTE ParaMETEr* The parameter is only available when LINEAR ramping is selected and is used to set the percentage increase in rate of fire over rate of trigger pulls. For example, if the user is pulling the trigger at a rate of 10 pulls per second and the RATE parameter is set to 50% then the rate of fire is 10 plus 50% extra which is 15 balls per second. This parameter can be set between 0 and 100% in 10% increments. aDVanCED sETUP 31...
  • Page 32 ParaMETEr The parameter sets the number of shots in semi-automatic that are required at the KICK IN rate before ramping will start. The parameter can be set between 3 and 9 pulls in 1 pull increments. KiCK in ParaMETEr This parameter sets the minimum rate at which the user has to pull the trigger in order to start ramping. This parameter can be set between 3.3 and 10.0 pulls per second in 0.1 pulls per second increments. sUsTain ParaMETEr Once the GSL is ramping the user has to continue to pull the trigger at a minimum rate in order to maintain the ramping. This parameter sets this rate and can be between 3.3 and 10.0 pulls per second in 0.1 pulls per second increments. rEsTarT ParaMETEr The RESTART parameter defines the amount of time after the last trigger pull during which the ramp can be restarted with a single trigger pull. If a trigger pull occurs after the RESTART time has expired, then the other ramp start conditions have to be met before ramping will restart. This parameter can be set between 0.0 and 1.0 seconds in 0.1 second increments. 32 aDVanCED sETUP...
  • Page 33 TiMing MEnU These parameters all relate to the control of the solenoid valve. DWELL ParaMETEr The DWELL parameter sets the amount of time that the solenoid is energized and therefore the amount of gas that is released with each shot of the GSL. Setting this parameter too low will result in low velocity shots and/or excessive shot to shot velocity fluctuations. Setting the parameter too high will simply waste gas and make the GSL louder. The DWELL can be set between 0.0 and 30.0 milliseconds. The factory default setting can normally be reduced after a few thousand shots as the GSL ‘beds-in’. FsD CoMP ParaMETEr “First shot drop off” is a reduction in velocity of the first shot fired after an extended period of not firing and is caused by the stiction between dynamic o-rings and the surfaces that they are in contact with. In order to compensate for first shot drop-off this parameter can be set to add extra time to the DWELL parameter for the first shot. This parameter can be set between 0.0 and 5.0 milliseconds. FsD DLY ParaMETEr The time that has to elapse before the FSD COMP is applied to a shot following a previous shot. This parameter can be set between 00:00 and 04:00 minutes. aDVanCED sETUP 33...
  • Page 34 FiLTEr MEnU The parameters on the Filter menu are all used to tune the GSL’s software filters which prevent the GSL from firing unless all of the necessary conditions are met. The factory default settings will be suitable for most set-ups, however certain loader and trigger set-ups may require modification of one or more of these parameters. DEBoUnCE ParaMETEr The DEBOUNCE parameter is used to combat any trigger bounce that might occur in the GSL and can be set between level 1 and level 9 in one level increments. > LEVEL 9: Level 9 providing the most filtering (least ‘bouncy’). > LEVEL 1: Level 1 providing the least filtering (most ‘bouncy’). > CANCEL: Cancel editing and leave the parameter unchanged. EMPTY ParaMETEr In order for the BBSS to function correctly it must first detect that the bolt is fully retracted and the breech is empty, and then detect that a paintball is loaded into the breech before the GSL is allowed to fire. The parameter can be set between 1.0 and 20.0ms in 0.1ms increments. FULL ParaMETEr Tumbling paintballs can take time to settle in the breech before they can be successfully fired. This parameter is used to set the amount of time that a paintball has to be in the breech before the GSL is allowed to fire. This parameter can be set between 1.0 and 20 milliseconds in 0.1ms increments. 34 aDVanCED sETUP...
  • Page 35 PULL TM ParaMETEr The PULL TM parameter is used to set the minimum amount of time that the trigger must be pulled before it is recognised as a valid trigger pull. This parameter can be set between 3.0 and 20.0 milliseconds in 0.1ms increments. rELEasE TM ParaMETEr The RELEASE TM parameter is used to set the minimum amount of time that the trigger must be released before it is recognised as a valid trigger release. This parameter can be set between 3.0 and 25.0 milliseconds in 0.1ms increments. PULL PT ParaMETEr* The PULL PT parameter is only available if OPTO has been selected in the Hardware menu. PULL PT defines the point at which the trigger is considered pulled and is adjustable between 51% and 99% in 1% increments. rELEasE PT ParaMETEr* The RELEASE PT parameter is only available if OPTO has been selected in the Hardware menu. RELEASE PT defines the point at which the trigger is considered released and is adjustable between 1% and 49% in 1% increments. aDVanCED sETUP 35...

  • Page 36: Basic Trigger Filter Set-Up

    BasiC TriggEr FiLTEr sET-UP 95% of trigger bounce problems can be eliminated by utilizing one of the nine fixed DEBOUNCE choices (LEVEL 1-9). In attempting to eliminate trigger bounce it is advisable to try the nine fixed DEBOUNCE choices before attempting any advanced set up of the trigger filters. aDVanCED TriggEr FiLTEr sET-UP In order to optimize the trigger filters it is necessary to have the PULL PT parameter set as high as possible and the RELEASE PT parameter set as low as possible: 1. Select the PULL PT parameter. Observe that the graphical bar rises and falls as the trigger is pulled and released. The actual value of the graphical bar is displayed in the top right of the display. 2. Set the rear stop screw as required, ensuring that the bar is as close to 100% as possible when the trigger is fully depressed against the set screw. It is advisable to allow for some extra travel in the trigger pull once the bar has reached its maximum value. 3. Adjust the PULL PT parameter so that when the trigger is fully depressed the bar settles above the indicator on the left hand side of the screen (see page 35). 4. Select the RELEASE PT parameter. Observe that the graphical bar rises and falls as the trigger is pulled and released. The actual value of the graphical bar is displayed in top right of the display. 5. Set the front stop screw as required, ensuring that the bar is as close to 0% as possible when the trigger is fully released against the set screw. It is advisable to allow for some extra travel in the trigger release once the bar has reached its minimum value. 6. Adjust the RELEASE PT parameter so that when the trigger is fully released the bar settles beneath the indicator on the left hand side of the screen (see page 35). 7. Set the magnet return strength screw and the spring return strength screw as required, making both the spring tension and the return force as strong as possible without compromising the “feel” of the trigger. HarDWarE MEnU This menu comprises parameters that control low level functionality of the GSL electronic hardware. 36 aDVanCED sETUP...
  • Page 37 TriggEr ParaMETEr The GSL is fitted with a dual trigger pull detection system. A non-contact OPTO-electronic trigger sensor arrangement is used to detect trigger movement whilst a micro-switch is used to provide a more traditional tactile feedback for the trigger. The TRIGGER parameter is used to select which system is used. The choices available are as follows: > OPTO: Select the OPTO sensor for trigger pull detection. > SWITCH: Select the micro-switch for trigger pull detection. > CANCEL: Cancel editing and leave the parameter unchanged. soLEnoiD ParaMETEr This parameter controls the amount of power used by the solenoid valve and should normally be left at it’s default ‘LO PWR’ setting. Cold weather (sub 0°C/32°F) will cause lubricants to thicken and increase stiction in the marker system which may cause velocity drop-off and/or shot to shot inconsistency. Increasing the solenoid power will often help to eliminate these problems, but will cause more drain on the battery. The choices available for the parameter are:- > LO PWR: Low power solenoid drive > HI PWR: High power solenoid drive > CANCEL: Cancel editing and leave the parameter unchanged soUnD ParaMETEr The GSL board is capable of emitting a variety of sounds to audibly signal when certain functions have been performed including, but not limited to, powering up, powering off, changing the BBSS mode and resetting various counters and timers. This parameter determines if this feature is switched on or off. Switching it on will cause increased drain on the battery. The choices available for this parameter are: >OFF: Sounds switched off. >ON: Sounds switched on. >CANCEL: Cancel editing and leave the parameter unchanged. TonEs ParaMETEr* This parameter determines if the GSL emits a tone each time any of the pushbuttons on the navigation console are activated. As part of the smart menu system the TONES parameter will only be shown in the Hardware menu if the SOUND parameter is switched ‘ON’. The choices available for this parameter are: >OFF: Tones switched off. >ON: Tones switched on. >CANCEL: Cancel editing and leave the parameter unchanged. aDVanCED sETUP 37...
  • Page 38 BaCKLigHT ParaMETEr This parameter sets the time that the LCD backlight is illuminated after a pushbutton is pressed. The parameter can be set between 00:00 and 00:20 (20 seconds). If set to 00:00 then the backlight will not be illuminated. rED LEVEL ParaMETEr* This parameter sets the percentage of red light in the LCD backlight and can be set between 0% and 100% in 10% increments. grn LEVEL ParaMETEr* This parameter sets the percentage of green light in the LCD backlight and can be set between 0% and 100% in 10% increments. BLU LEVEL ParaMETEr* This parameter sets the percentage of blue light in the LCD backlight and can be set between 0% and 100% in 10% increments. 38 aDVanCED sETUP...
  • Page 39 ConTrasT ParaMETEr The parameter sets the contrast level of the LCD. This parameter is adjustable between 0 and 30 in increments of 1. aUX oUT ParaMETEr This parameter turns on and off the AUX socket on the PCB. The choices available for this parameter are: >OFF: AUX socket switched off. >ON: AUX socket switched on. >CANCEL: Cancel editing and leave the parameter unchanged. DBL CLiCK ParaMETEr This parameter is used to select where double-clicking the button can be used. The choices available for this parameter are: >NONE: Double clicking is disabled entirely. To power up the GSL and enter the Main Menu the user needs to push and hold the button. >POWER UP: Double clicking only works when powering up the GSL. To enter the Main Menu the user still needs to push and hold the button. >ALL: Double clicking works when powering up the GSL and entering the Main Menu. Push and hold still works for these procedures as well. >CANCEL: Cancel editing and leave the parameter unchanged. aUTo oFF ParaMETEr This parameter sets the time that has to elapse before the GSL switches itself off if not used. The parameter can be set between 05:00 and 20:00 minutes. aDVanCED sETUP 39...
  • Page 40 Training ParaMETEr In training mode the GSL simulates the firing cycle so that the user may practice pulling the trigger without wasting air and making lots of noise. The BBSS is overridden in order to simulate paintballs entering the breech and the beeper indicates when a shot is fired. Training mode is indicated with a ‘T’ in the BBSS indicator. > OFF: Training mode is disabled and the GSL functions normally. > ON: Training mode is enabled. > CANCEL: Cancel editing and leave the parameter unchanged. sHoT CoUnT MEnU This menu is comprised of parameters that control the shot counter. gaUgE ParaMETEr This parameter allows the user to toggle the gauge graphic on and off in the shot counter Run Screen. The choices for the GAUGE parameter are: > OFF: Gauge graphic on the shot counter run screen is disabled. > ON: Gauge graphic on the shot counter run screen is enabled. > CANCEL: Cancel editing and leave the parameter unchanged. gaUgE MaX ParaMETEr* The gauge max parameter allows the user to set the number the gauge counts down from every time the GSL is fired. The user can set the gauge from 100 to 2000 in increments of 10. 40 aDVanCED sETUP...
  • Page 41 gaME TiMEr MEnU This menu is comprised of parameters that control the operation of the Game Timer. gaME ParaMETEr This parameter is used to set the Game Time, the time from which the game timer counts down to zero. This parameter can be set between 00:00 and 60:00 minutes in 10 second increments. The factory default is 07:10 (7 minutes 10 seconds). When the game timer reaches 00:00, GAME OVER will be displayed and the audible alarm will sound continually, provided that the SOUND parameter is set to ‘ON’. aLarM ParaMETEr An alarm condition is generated whenever the Game Timer counts down to the time set by the ALARM parameter. This parameter can be set between 00:00 and 10:00 minutes in 10 second increments. When the alarm condition is generated the Game Timer will start to flash and the audible alarm will sound every second, provided that the SOUND parameter is set to ‘ON’. sTarT ParaMETEr This parameter is used to select the event which will cause the Game Timer to begin counting down. This parameter has the following choices: > BUTTON: Pressing the button will start the Game Timer. > TRIGGER: Pulling the trigger will start the Game Timer. > CANCEL: Cancel editing and leave the parameter unchanged. aDVanCED sETUP 41...

  • Page 42: The Break Beam Sensor System

    SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Undo the retaining screw for the Break Beam Eye cover on the left hand side of the GSL using a 5/64” (2mm) hex key (SEE FIGURE 15A) Remove the eye cover to expose the back of the Break Beam Sensor FIG 15A unit . Using a dry cotton bud, carefully remove any...
  • Page 43 (ConTinUED) Remove the rubber detent and using a dry cotton bud clean the detent and its location point in the GSL body, replacing the detent if it is damaged (SEE FIGURE 15D) Reinsert the detent back into the GSL body and place the BBSS back into the designated slot in the body . Ensure that (SEE FIGURE 15E) the sensor is face down in the body i.e. looking into the breech. Replace the eye cover and using a 5/64” hex key, replace the retaining screw to hold the eye cover in place (SEE FIGURE 15F) FIG 15D Repeat the procedure for the opposite side of the GSL. You have now cleaned your Break Beam Sensor System. FIG 15E Ensure that the receiver sensor (indicated by a red mark & red heat shrink) is located on the right-hand side of the marker body.

  • Page 44: The Sl4 Inline Regulator Assembly

    SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Unscrew and remove the gas pipe assembly from the SL4 inline FIG 16A FIG 16B regulator . See page 15 for more information on (SEE FIGURE 16A) removing the gas pipe assembly. Grip the SL4 inline regulator tightly through the rubber sleeve and unscrew the SL4 inline regulator from the GSL body (SEE FIGURE 16B) Pull the foregrip crown down to free it from the GSL body (SEE FIGURE 16C) Inspect the o-ring at the top of the threads on the FRM for damage . Replace and re-lubricate as necessary. (LABELLED FIGURE 16D) Tip both the piston and spring out of the top of the inline regulator (SEE FIGURE 16E) FIG 16C FIG 16D Insert a 1/8” hex key into the adjuster screw assembly in the bottom...
  • Page 45 FIG 16J Take the piston, inspect for damage and clean the 14x2 NBR70 o-ring at the top. Re-lubricate it with a light application of Eclipse Grease (SEE FIGURE 16L) . Place the inline regulator spring over the piston, then insert the piston and spring into the top of the inline regulator body (SEE FIGURE 16M) To replace the foregrip crown, push the crown up onto the body until the FRM threads and body plug are covered (SEE FIGURE 16N) Re-attach the inline regulator to the GSL FRM , then (SEE FIGURE 16O) FIG 16K FIG 16L re-connect the gas pipe fitting (see page 15). Basic cleaning of the SL4 inline regulator is complete. Reset the input pressure to the factory default before suppling the GSL with compressed air. FIG 16M FIG 16N If any o-rings are damaged then replace them. Extra o-rings are available in parts kits available at www.planeteclipse.com...

  • Page 46: Advanced Inline Regulator Maintenance

    . Inspect and clean the regulator seal, turning it over if one side appears excessively worn or damaged or replace if necessary. Inspect and clean the purge poppet or replace if necessary. Place the purge poppet and attached spring in the central hole in the regulator seal, then insert these parts into the adjuster screw FIG 17C FIG 17D (SEE . Ensure is it re-installed correctly, failure to do so may FIGURE 17E) seriously damage the GSL solenoid. With the regulator seal, purge valve and spring installed back into the adjuster screw, replace the adjuster top . Screw (SEE FIGURE 17F) the two parts tightly together using 1/8” and 3/32” hex keys. Refer to the ‘SL4 Inline Regulator Assembly’ section on pages 44-45 to re-assemble the SL4 inline regulator. WARNING IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE PROCEDURE PLEASE CONTACT YOUR NEAREST SERVICE...

  • Page 47: Cleaning The Body Filter

    A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Remove the inline regulator as covered on page 44. Turn the GSL upside down to reveal the body filter inside the body (SEE FIGURE 18A) Using a 5/64” hex key unscrew and remove the retaining screw (SEE...

  • Page 48: Maintaining The Bolt System

    EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. The GSL comes with two bolts. A soft nosed ST3 Bolt and an all FIG 19A FIG 19B metal ST Bolt (see page 72). To install the ST bolt follow the maintenance procedure below, swapping over the bolts. After installation, re-chronograph the GSL and adjust the SL4 inline regulator accordingly. ALWAYS CHECK THE SHOOTING VELOCITY OF THE GSL WITH A CHRONOGRAPH BEFORE USING THE MARKER. Push the bolt bonnet up, unlocking the bolt system (SEE FIGURE 19A) FIG 19C FIG 19D With the bolt bonnet disengaged pull the entire bolt system out of the GSL body (SEE FIGURE 19B) Unscrew and separate the propshaft and bolt can sub-assemblies . Then push the bolt out of the back of the bolt can.
  • Page 49 (ConTinUED) Take the bolt and having cleaned off any old grease, paint or debris, examine the rubber bolt tip for any signs of damage (SEE FIGURE 19J) replacing if necessary. Apply a light film of Eclipse Grease to cover the front end of the bolt and also the internal rear bore of the bolt (SEE FIGURE 19K &19L) . Apply a coat of Eclipse Grease to the rear external Bolt o-ring near the centre of the bolt (SEE FIGURE 19M) FIG 19J FIG 19I Remove excess Eclipse Grease by wiping off with finger. Aim to apply only a very thin film of grease to the components maintained, as excess grease bolt can cause poor performance. Slide the bolt onto the prop shaft and slide the bolt (SEE FIGURE 19N) can over the bolt and screw onto the prop shaft back cap (SEE FIGURE 19O) . The can and propshaft parts should meet when fully screwed together. FIG 19K FIG 19L Finally wipe any excess grease off the bolt tip and insert the complete bolt assembly into the marker body. With the bolt assembly full inserted into the body, push the bolt bonnet down into the body. The bolt bonnet should match the body profile at the rear when correctly located (SEE FIGURE 19P) FIG 19M FIG 19N Remove any excess blobs of Eclipse Grease from the inside and outside of the bolt can. WARNING IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE...

  • Page 50: Advanved Bolt System Maintenance

    aDVanCED BoLT sYsTEM MainTEnanCE WARNING DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON.

  • Page 51: Removing The Frame

    SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Removal of the frame is required for access to the solenoid assembly, trigger bearing carrier assembly and Break Beam Sensor System wires if maintenance on either is required. Disconnect any hosing and unscrew the inline regulator from the Front Regulator Mount (FRM) as detailed in the ‘Cleaning the inline FIG 21A FIG 21B regulator’ section of this Maintenance Guide. Using a 5/64” hex key, remove the four screws that attach the GSL rubber grips to the GSL frame (SEE FIGURE 21A) Unplug the solenoid and the Break Beam Sensor System wiring harnesses from their respective ports on the GSL circuit board (SEE FIGURE 21B) Using a 1/8” hex key, unscrew but DO NOT REMOVE the front frame screw located under the foregrip crown (SEE FIGURE 21C) Using the short arm of a 1/8” hex key, loosen the rear frame screw 2-3 full turns...

  • Page 52: Attaching The Frame

    SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. To install the frame, firstly check the SFR seal is correctly located in the top of the frame , then carefully thread the (SEE FIGURE 22A) solenoid and the Break Beam Sensor System wiring harnesses FIG 22A FIG 22B through the access hole in the top of the frame and line the frame up so that the rear frame screw sits in the access hole (SEE FIGURE 22B) Be careful not to trap or pinch the BBSS or solenoid wires between the body and frame. Slide the frame forward so that it sits completely flush with the GSL body and using the short arm of a 1/8” hex key, tighten the rear frame screw into place . Check that no wires are trapped (SEE FIGURE 22C) before tightening down the rear frame screw. FIG 22C FIG 22D Once the rear frame screw is secure, insert a 1/8” hex key into the front frame screw hole in the foregrip crown and tighten the front screw into place (SEE FIGURE 22D) Connect the solenoid and Break Beam Sensor System wiring harnesses to their respective ports on the GSL circuit board and (SEE . Adjust the wires so that they sit neatly in the grip frame...

  • Page 53: Maintaining The Sfr

    MainTaining THE sFr WARNING DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON.

  • Page 54: The Trigger Assembly

    A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. Having removed the frame completely from the GSL body (see page 51). Unscrew the two M2.5x5 retaining screws which hold the bearing carrier in the frame (SEE FIGURE 24A) Gently lift the bearing carrier and trigger assembly free from the...
  • Page 55 Place the trigger spring over the bearing carrier in its designated groove, align the hole in the trigger spring with the front/left hole in the bearing carrier, then screw the retaining screw into the frame. Tighten both screws with a 5/64” hex key (SEE FIGURE 24J) FIG 24H DO NOT overtighten the retaining screws. Doing so may damage the trigger spring and threads in the frame. You have now stripped and cleaned your GSL trigger assembly. FIG 24I WARNING IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE PROCEDURE PLEASE CONTACT YOUR NEAREST SERVICE PROCEDURE PLEASE CONTACT YOUR NEAREST SERVICE FIG 24J CENTRE.

  • Page 56: The Gsl Solenoid Assembly

    THE gsL soLEnoiD assEMBLY WARNING DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN DE-GAS YOUR MARKER, DISCHARGING ANY STORED GAS IN A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON.
  • Page 57 (ConTinUED) Check the underside of the solenoid valve to ensure that it is free from damage or debris (SEE FIGURE 25F) The solenoid manifold has two gaskets, the top gasket and the bottom gasket as illustrated in . Carefully remove both FIGURE 25G gaskets from the solenoid manifold. Inspect and clean the top and bottom gaskets and the solenoid manifold, replacing any damaged components. Using a small size hex key or flat headed screw driver, gently push the poppet and cap out of the solenoid manifold (SEE FIGURE 25H) FIG 25H FIG 25G Inspect and clean the poppet, paying particular attention to the condition front face and o-rings . If either is damaged (SEE FIGURE 25I) or worn, the poppet will need replacing. Reinsert the poppet into the solenoid manifold in the orientation shown in FIGURE 25J . Then insert the cap, ensuring that it is firmly held in the solenoid manifold. Replace the top and bottom gaskets into their respective grooves in the solenoid manifold as shown in FIGURES 25K AND 25L . Applying a small amount of Eclipse Grease to the surface of the solenoid manifold and gaskets. FIG 25I FIG 25J If the Solenoid Manifold is damaged remember to remove the poppet and cap before disposing of the Solenoid Manifold.
  • Page 58 (ConTinUED) Lastly inspect and clean the large solenoid gasket, replacing if damaged (SEE FIGURE 25M) Apply a small amount of grease to the outer most groove surrounding the solenoid manifold pocket in the GSL body. Then making sure the top solenoid manifold gasket lies flat in the solenoid manifold, insert the solenoid manifold back into the GSL body (SEE FIGURE 25N) Next place the solenoid gasket over the solenoid manifold ensuring that the gasket is secure in its groove in the GSL body (SEE FIGURE . Make sure that the bottom solenoid manifold gasket is flat in its 25O) FIG 25M FIG 25N groove in the solenoid manifold. Place the solenoid valve over the solenoid manifold (SEE FIGURE 25P) making sure the location holes line up with the threads in the GSL body (SEE FIGURE 25Q) Replace the retaining screws which hold the solenoid onto the GSL using a 5/64” hex key . DO NOT over tighten screws (SEE FIGURE 25R) in the solenoid assembly. Maintenance of the solenoid assembly is complete. FIG 25O FIG 25P WARNING IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE IF YOU ARE UNSURE ABOUT PERFORMING A MAINTENANCE...

  • Page 59: The Push On Purge System

    A SAFE DIRECTION, AND REMOVE THE BARREL, LOADER, AIR SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER SYSTEM AND ANY PAINTBALLS TO MAKE THE MARKER EASIER AND SAFER TO WORK ON. EASIER AND SAFER TO WORK ON. THERE IS NO NEED TO REMOVE THE POPS FROM THE GSL FIG 26A FIG 26B FRAME FOR GENERAL MAINTENANCE. IF THE POPS IS REMOVED, ENSURE THE O-RING IS CORRECTLY SEATED BEFORE POPS RE- ATTACHMENT.
  • Page 60 (ConTinUED) Clean and check the condition of the single internal 005 NBR90 o-ring in the front of the POPS insert, replace if necessary (SEE FIGURE 26I) . Lubricate this o-ring liberally using Eclipse grease. Lubricate the narrow end of the POPS pin with a smear of Eclipse grease and push the pin, narrow end first, into the POPS insert so that it sits in the POPS insert and pokes through to the FIG 26J FIG 26I front (SEE FIGURES 26J & 26K) Screw the POPS insert back into the POPS body ensuring that the o-ring end goes in first (SEE FIGURE 26G) Replace the push rod into its designated slot (SEE FIGURE 26L) then side a 004 NBR70 o-rings on both ends of the push rod. Make sure the push rod is centred in the POPS body (SEE FIGURE 26M) FIG 26K FIG 26L Slide the bonnet over the POPS body and align the hole on the bonnet with the front hole on the POPS body (SEE FIGURE 26N) Ensure the spring is on the latch button then slide them both into the POPS body through the hole in the bonnet, spring end first, making sure the latch button pokes out the right side of the bonnet (SEE FIGURE 26O) Push the button down as far as it will go, then (while still holding down the button) slide the bonnet back until the button engages with the POPS body and cannot slide into the forward position FIG 26M FIG 26N (SEE FIGURE 26P) You have now successfully cleaned and maintained the Push On Purge System.

  • Page 61: Fault Finding 61

    The Fault Finding guide covers common symptoms, causes and solutions that are likely to be encountered by the average user. If a issue with the GSL cannot be solved using the Fault Finding guide, contact your nearest Eclipse Service Centre for assistance. SYMPTOM POSSIBLE CAUSE SOLUTION Although a fresh battery has been fitted, the The battery has been fitted incorrectly. Fit the battery correctly with the positive GSL will not switch on. terminal nearest to the side of the frame. The battery has drained on the shelf. Replace with another fresh battery. The battery terminals are not making proper Remove the battery, gently bend the contact with the battery. terminals towards where the battery will sit and then replace the battery. The battery does not seem to last very long. The battery type is of a low quality. Use an alkaline or metal hydride battery. Do not use a low quality or rechargeable battery. The GSL does not fire. The POPS is not engaged. Engage the POPS fully. Solenoid flow restrictor (SFR) set too low. Increase the flow through the SFR. The SFR assembly is blocked. Strip and clean the SFR assembly. Battery quality or level of charge is very low. Install new high quality battery. Battery is flat. Install new high quality battery. Training Mode is enabled. Disable training mode. Trigger and trigger detection method are set Set up the trigger correctly (refer to “Setting up incorrectly. the trigger” section). Trigger detection system is blocked.
  • Page 62 SYMPTOM POSSIBLE CAUSE SOLUTION The GSL does not fire. The micro-switch is not being activated. Adjust the micro-switch activation screw accordingly. The micro-switch is damaged. Replace the circuit board. The PCB is damaged. The solenoid valve is damaged. Replace the solenoid valve. The solenoid valve wires are damaged. Clean, re-lubricate and replace the o-rings on The GSL does not cycle fully. The bolt assembly is dirty or incorrectly the bolt as necessary. lubricated. Increase the Dwell parameter. The Dwell parameter is set too low. A sticky or faulty poppet in the solenoid Check the poppet, clean and replace as necessary. manifold. The GSL is inconsistent. The Dwell parameter is set too low. Increase the Dwell parameter. Increase the flow through the SFR. The SFR is set too low. Using poor quality paintballs. Use better quality paintballs. A poor paintball to barrel bore match. Use a better paintball to barrel bore size match. The inline regulator is supercharging. Strip and clean inline regulator. Strip and clean the body filter. Dirty body filter. Poor / inconsistent air supply into POPS.
  • Page 63 SYMPTOM POSSIBLE CAUSE SOLUTION The GSL degasses very slowly. The body filter is blocked / damaged. Clean the body filter and inspect for damage. Replace if damaged. The GSL leaks from the solenoid assembly. Check that the three solenoid gaskets are Replace any of the solenoid gaskets if they intact and seated in their designated pockets are damaged. both in and around the solenoid manifold. GSL solenoid assembly is over-pressurising. Check the inline regulator output pressure and consequent velocity. Adjust accordingly. Strip and clean the SL4 inline regulator. Replacing the seals as necessary. Debris on / damage to poppet. Clean / replace the poppet. Damaged GSL solenoid valve. Replace the GSL solenoid valve. GSL leaks down the barrel. Front or rear prop shaft 14 x2 NBR 70 o-rings Replace, clean and lubricate 14 x 2 NBR 70 are damaged, dirty or dry. o-rings on prop shaft. Internal 017 NBR 70 o-ring and external 020 Replace, clean and lubricate 017 NBR 70 NBR 70 o-rings on bolt can are damaged, dry o-ring and 020 NBR 70 o-rings on the bolt or dirty. can. Gas vents quickly down the barrel as soon as The bolt is stuck in a forward position. Push the bolt backwards. the GSL is gassed up. Main prop shaft 014x2 o-ring is damaged or Replace with a new 014x2 size o-ring.
  • Page 64 SYMPTOM POSSIBLE CAUSE SOLUTION The GSL is chopping or trapping paint. Clean the break beam sensor system. The break beam sensor system is dirty causing the incorrect detection of paintballs. solenoid. Re-seat the rubber bolt tip. Incorrectly seated rubber bolt tip. Replace the rubber bolt tip. Damaged rubber bolt tip. The GSL has low velocity on the first shot. The FSDO parameters are set too low to Adjust FSD COMP and FSD DLY parameters. overcome o-ring stiction. The GSL has high velocity on the first shot. The FSDO parameters are set too high. Adjust FSD COMP and FSD DLY parameters. Strip, clean and maintain inline regulator. The inline regulator output pressure is creeping. Use an Alkaline or metal hydride battery. Do GSL has velocity drop-off during rapid fire. The battery is poor quality or has insufficient power. not use a low quality or rechargeable battery. Increase the flow through the SFR. The SFR is set too low. Air system/regulator does not flow fast Try another air system/regulator and replace as necessary. enough to keep up. Sticky/over lubricated o-rings in bolt Clean, re-lubricate and replace o-rings on bolt assembly as necessary. assembly. Blocked body filter. Clean/replace the body filter as necessary.
  • Page 65 The break beam sensors are the wrong way Check that the red receiver is on the right- at all. around. hand side of the breech. There is a broken wire or contact, or a short Check the plug on the cables. circuit on either of the break beam sensor cables. Check for cuts or pinches in the sensor cables. Either break beam sensor is back to front. Check that the sensors face each other when installed. The rubber detents are broken / missing. Change the rubber finger detents. Two or more balls are being fed into the Loader feed force is set too high. Reduce the feed force on the loader. breech. The break beam sensor system turns itself off The eye is dirty. Clean the eyes. after firing. The eye is faulty. Replace the eyes. The eye is out of place. Re-install the eyes then check the alignment. When the GSL powers up, the right hand side The trigger is permanently depressed. Adjust the trigger until the selected trigger of the screen is not displayed and the marker detection method is activated when the will not fire. trigger is released. The Fault Finding guide covers common symptoms, causes and solutions that are likely to be encountered by the average user. If a issue with the GSL cannot be solved using the Fault Finding guide, contact your nearest Eclipse Service Centre for assistance. FaULT FinDing 65...

  • Page 66: 66 Service Centres

    ECLiPsE sErViCE CEnTrEs Are you unsure of where to send your GSL to be repaired or serviced? If your local Eclipse dealer can’t assist you, why not contact your nearest certified Eclipse Service Centre and arrange for them to undertake any work that you require. A map listing all of our Service Centres and their contact details can be found in the SUPPORT section of the Planet Eclipse web site at www.planeteclipse.com/site/service-centres For any Technical Support or Customer Service enquiries please ensure that you have registered your product (where applicable) using the Warranty Card in this manual or online prior to contacting the appropriate representative in your region. 66 sErViCE CEnTrEs...

  • Page 67: Technical Resources 67

    Below is a brief overview of what happens when you fire your GSL. The location of parts discussed in the text below can be found on pages 68-69. Assuming the GSL is gassed up and turned on shows the FIGURE 27A air sUPPLY FroM soLEnoiD marker in its idle position. The firing chamber is full of compressed FIG 27A air, the prop shaft is pushed back into the back cap by this compressed air. The bolt is held back by the air in the bolt can. Both the firing chamber and the bolt can are supplied with air via the solenoid valve. Providing a ball is in the breach when the trigger is pulled, a signal is sent to the solenoid valve which shuts off the supply of air to the firing chamber and allows the air in the bolt can to be exhausted. air sUPPLY FroM soLEnoiD FIG 27B This removes the force holding the bolt in its rear position and the bolt is propelled forwards (FIGURE 27B) As the bolt passes the front prop shaft o-ring the firing chamber seal is broken and the air in the firing chamber vents down the bolt, in turn propelling a ball (FIGURE 27C) As air is vented from the firing chamber the force pushing the prop shaft back is overcome by the spring tension in the back cap. The air sUPPLY FroM soLEnoiD FIG 27C spring, along with a small volume of air used to propel the paintball ported to the rear of the propshaft, pushes the prop shaft forward.
  • Page 68 ParTs LisT 68 TECHniCaL rEsoUrCEs...

  • Page 69: Sl4 Inline Regulator Assembly

    ParTs LisT Clamping feed tube assembly Rubber grip Body Body plug Bolt assembly Body FRM o-ring Rubber detent Body filter BBSS unit Body filter Retaining Screw Front frame screw Solenoid Flow Restrictor Rear frame screw Solenoid Flow Restrictor Seal Solenoid assembly SL4 inline regulator assembly Gas pipe Pipe nut...
  • Page 70 Replace and lubricate these o-rings with Eclipse Grease as necessary. The bore size of your SL3 Shaft may vary according to the model of GSL you have. The GSL will only accept COCKER threaded barrels. Do not use any other type of barrel thread. The Eclipse SL3 Shaft front and back barrel sections are not interchangeable with older version shaft front and back barrel sections (including Shaft3 barrel kits).
  • Page 71 The SL4 inline regulator should be reset to factory after re-assembly. PISTON O-RING (14X2 NBR70) Only use the SL4 inline regulator with the GSL. Only use the SL4 GEO spring with the GSL SL4 inline REGULATOR PISTON regulator. If the Purge Poppet assembly is removed for maintenance...

  • Page 72: Gsl Bolt System

    BoLT sYsTEM BOLT BONNET PROP SHAFT BACK CAP PLUNGER 20X2 NBR70 3X1 NBR70 BOLT PIN REAR BUMPER PLUNGER SPRING 14X2 NBR70 ST BOLT PROP SHAFT 14X2 NBR70 14X2 NBR70 015 NBR90 7X1 NBR70 013 NBR70 PROP SHAFT TIP 22X1 NBR90 14X2 NBR70 015 NBR90 RETAINING RING ST3 BOLT ST3 BOLT TIP 017 NBR70 BOLT CAN 020 NBR70 The prop shaft assembly does not need to be fully disassembled for basic maintenance.

  • Page 73: Gsl Solenoid Assembly

    SOLENOID VALVE GASKET SOLENOID MANIFOLD BOTTOM GASKET SOLENOID VALVE M2.5X12 MOUNTING SCREWS The GSL solenoid valve is NON-SERVICEABLE. Any attempt to strip, dismantle or service the solenoid valve will immediately void your Warranty. For more information on the GSL solenoid valve please see page 56. TECHniCaL rEsoUrCEs 73...
  • Page 74 PUsH on PUrgE sYsTEM (PoPs) INSERT 007 NBR70 005 NBR90 POPS BODY 004 NBR70 POPS BONNET PUSH ROD 004 NBR70 POPS SCREW 10-32 UNF X 1” CAP HEAD SOCKET LATCH SPRING LATCH BUTTON 74 TECHniCaL rEsoUrCEs...

  • Page 75: Trigger Assembly

    TriggEr assEMBLY BEARING CARRIER SCREW (M2.5X5 CAP HEAD SOCKET) MICRO-SWITCH SCREW (6-32 UNC X1/2” SOCKET SET) SPRING ADJUSTER SCREW LEAF SPRING (6-32 UNC X3/16” SOCKET SET) TRIGGER PIN LOCKING SCREW (6-32 UNC X1/8” SOCKET SET) BEARING CARRIER TRIGGER PIN FEED SWIVEL O-RING FEED SWIVEL MAGNET (006 NBR70) PRE-TRAVEL ADJUSTER SCREW (6-32 UNC X1/8” SOCKET SET) MAGNET ADJUSTER SCREW (6-32 UNC X1/8” SOCKET SET) TRIGGER POST-TRAVEL ADJUSTER SCREW (6-32 UNC X3/16” SOCKET SET) FEED LEVER FEED INSERT SPROCKET SHORT CLAMPING FEED SCREW FEED TUBE (10-32 UNF X1/2” CAP HEAD SOCKET) CLaMPing FEED TUBE assEMBLY TECHniCaL rEsoUrCEs 75...

  • Page 76: Gsl Circuit Board

    CirCUiT BoarD AUX SOCKET SOLENOID VALVE MICRO-SWITCH SOCKET BBSS SOCKET OPTO TRIGGER SENSORS PUSH BUTTONS E-PORTAL CONNECTOR POSITIVE (+) BATTERY TERMINAL NEGATIVE ( _ ) BATTERY TERMINAL TOURNAMENT LOCK BUTTON LCD DISPLAY 76 TECHniCaL rEsoUrCEs...
  • Page 77 SCREW DESCRIPTION PCB SCREW (3), BEARING CARRIER SCREW (2), NAVIGATION CONSOLE (1) (M2.5 x 5 CAP HEAD SOCKET) SOLENOID SCREW (2) (M2.5 x 12 CAP HEAD SOCKET) RUBBER GRIP SCREW (4), BBSS COVERS SCREW (2) (6-32UNC x 5/16” COUNTERSUNK SOCKET) SHORT FEED NECK SCREW (10-32UNF x 1/2” CAP HEAD SOCKET) POPS SCREW (10-32UNF x1” CAP HEAD SOCKET) Micro-switch SCREW (6-32 UNC x 1/2” SOCKET SET SCREW) TRIGGER ADJUSTMENT SCREW (6-32 UNC x 3/16” SOCKET SET SCREW) TRIGGER PIN RETAINING SCREW (6-32 UNC x 1/8” SOCKET SET SCREW) FRAME SCREW (2), BODY FILTER (1) (10-32 UNF x 3/8 SOCKET BUTTON HEAD) TECHniCaL rEsoUrCEs 77...
  • Page 78 SL4 Swivel Bolt Bumper (Middle) NBR90 POPS Seal 18x2 ST Bolt Tip SL4 Inline Regulator Piston Propshaft (x2) Bolt External SL4 Inline Regulator Adjuster Outside 14x2 Propshaft Retaining Screw Rear Bolt Can External (x2) SL4 Inline Regulator Adjuster Inside Prop Shaft Back Cap Gas Transfer Pipe POPS Insert External Body Plug Feed Tube Swivel Front Regulator Mount (Body) Bolt Can Internal POPS Insert Internal (NBR 90) POPS Push Rod Propshaft Tip SL3 Shaft Barrel Back (body end) Solenoid Flow Restrictor (x2) SL3 Shaft Barrel Back (tip end) Bolt Plunger Propshaft Retaining Screw Front All O-rings are NBR70 durometer unless otherwise stated. 78 TECHniCaL rEsoUrCEs...

  • Page 79: Menu Tree 79

    THE MEnU TrEE The symbol indicates parameters that are locked when the Tournament Lock is on. See Accessing the Menu System on page 27 for instruction on releasing the Tournament Lock. Parameters followed by a * are part of the Smart Menu System and will only be displayed depending on your chosen settings. (e.g. The BS ON ROF parameter will only become available if the ROF CAP parameter is set to on). MAIN MENU TURN OFF Turn off the GSL. PRESET LOAD USER 1 Load the USER 1 settings. Load the USER 2 settings. USER 2 FACTORY Load the default factory settings (semi-automatic). (Default) NPPL Load NPPL compliant settings. Load the PSP 10 balls per second (BPS) compliant settings. PSP 10 PSP 12 Load the PSP 12 balls per second (BPS) compliant settings. Load Millennium Series 2010 compliant settings. MS 10 CANCEL Cancel the load operation. SAVE Save the current settings as the USER 1 settings. USER 1 USER 2 Save the current settings as the USER 2 settings. Cancel the save operation. CANCEL BACK Return to Main Menu. FIRE MODE Select semi-automatic mode of fire.
  • Page 80 0.0 - 5.0 ms First shot drop-off compensation time in milliseconds (ms). (Default 5.0ms) FSD DELAY 00:00 - 04:00 First shot drop-off delay. (Default 00:30) BACK Return to Main Menu. FILTER DEBOUNCE Level 9 Use trigger Debounce level 9 (highest level of trigger bounce filtering). Level 8 - 2 Use trigger Debounce level 8 - 2. (Default LEVEL 5) Level 1 Use trigger Debounce level 1 (lowest level of trigger bounce filtering). Cancel Cancel Debounce selection. EMPTY 1.0 - 20.0 ms Time in milliseconds (ms) that the breech must remain empty before the BBSS looks for a paintball. (Default 4.0ms) FULL 1.0 - 20.0 ms Time in milliseconds (ms) that a paintball must be in the breech for the GSL to be ready to fire. (Default 4.0ms) PULL TM 3.0 - 25.0 ms Time in milliseconds (ms) that the trigger must be pulled for a shot to be fired. (Default 6.0ms) RELEASE TM 3.0 - 25.0 ms Time in milliseconds (ms) that the trigger must be released before a pull can be recorded. (Default 6.0ms) PULL PT* 51 - 99% Percentage at which the trigger OPTO sensor pull point is set (TRIGGER dependant). (Default 85%) RELEASE PT* 1 - 49% Percentage at which the trigger OPTO sensor release point is set (TRIGGER dependant). (Default 15%) BACK Return to Main Menu. 80 MEnU TrEE...
  • Page 81 RED LEVEL* 0 - 100% Percentage of red light in backlight (BACKLIGHT dependant). GRN LEVEL* 0 - 100% Percentage of green light in backlight (BACKLIGHT dependant). BLU LEVEL* 0 - 100% Percentage of blue light in backlight (BACKLIGHT dependant). CONTRAST 0 - 30 LCD contrast level. (Default 14) AUX OUT AUX socket output off. AUX socket output on. (Default) Cancel Cancel AUX socket selection. AUTO OFF 05:00 - 60:00 Time in minutes after which the GSL automatically powers off. (Default 20:00) DBL CLICK NONE Double click is disabled entirely. POWER UP Double click for power up only. ALL Double click is fully enabled. (Default) CANCEL Cancel the double click selection. BACK Return to Main Menu. TRAINING Off Training mode disabled. (Default) Training mode enabled. Cancel Cancel training mode selection.
  • Page 82 (ConTinUED) SHOT COUNT GAUGE Shot gauge off. Shot gauge on. (Default) CANCEL Cancel selection. GAUGE MAX* 100-2000 Shot gauge maximum (reset value) (GAUGE dependant). (Default 140 shots) BACK Return to Main Menu. GAME TIMER GAME 00:00 - 60:00 Countdown game timer start time in minutes. (Default 07:10) ALARM 00:00 - 60:00 Alarm activation time in minutes. (Default 01:00) START Button (Default) Pressing the button starts the Game Timer. Trigger A trigger pull starts the Game Timer. Cancel Cancel Game Timer start selection. BACK Return to Main Menu. EXIT From time to time the software of the GSL may be updated, resulting in changes to the default values for some parameters. For the most up to date default values please consult the online version of this manual at www.planeteclipse.com The arrangement of menus and sub menus displayed in the above menu tree may not be replicated in your marker due to any software updates that may have taken place since printing. 82 MEnU TrEE...

  • Page 83: Eclipse E-Portal

    If you already own an Eclipse E-portal kit (such as the kit included with the Eclipse SLS or CSL markers Ego), this kit will be compatible with the GSL. Minimum system requirements : Monitor Resolution - 1024x768 or higher, CD-ROM drive,Keyboard, Mouse, USB socket, 5MB of hard disk space, 1GHz Processor, 384Mb RAM, Microsoft®...

  • Page 84: Index

    inDEX inDEX Actual Rate of Fire..22, 26 DEBOUNCE..34, 36, 66, 80 Advanced Trigger Filter Setup..36 DWELL..33, 62, 80 Air System..6, 16, 17, 18, 20 E-Portal..83 ALARM..25, 41, 82 EMPTY..34, 80 AUTO OFF..39, 81 EXIT..82 AUX OUT..22, 23, 39, 81 Eye Cover..42, 43 BACKLIGHT..10, 38, 81 Eye Cover Screw..42, 43, 77 Basic Trigger Filter Set-up..36, 64 FACTORY..6, 29, 79 Battery..7, 21, 22, 37,61, 64, 69, 76 FILTER..34, 80 Battery Level Indicator..22, 25 FIRE MODE..30, 79 BBSS Socket..76 Foregrip Crown..44-45, 51-52, 69 Bearing Carrier Assembly..51, 54, 55, 75 Foregrip Sleeve..18, 44, 69 Bearing Carrier Screw..75, 77 Frame..51-52, 69 BLU LEVEL..38, 83 Frame Screw..51-52, 69, 77 Blanking Plug..19,53 Front Stop Trigger Screw..12-13, 36, 75, 77 Body Filter..47, 62, 63, 69, 77 FSD COMP..33, 64, 80 Body Plug..45, 69, 78 FSD DELAY..33, 80 Bolt..48-49, 62-64, 67, 69, 72 FULL..34, 80 Bolt Bumper O-ring..72, 78 GAME..41, 82 Bolt Front O-ring..72, 78 Game Timer..22, 25, 41, 82 Bolt Rear O-ring..72, 78...
  • Page 85 Menu Tree..79-82 Rubber Detent..43, 69 Micro-switch Activation Screw..13, 76, 77 Rubber Grip Screw..77 MS 10..29, 79 Run Screen Layout..22 Navigation Console..10, 22, 69 SL4 Inline Regulator..69 NPPL..29, 79 SAVE..29, 79 Parameters..10, 26, 27, 28 SEMI..30, 79 PCB Retaining Screw..77 SEMI SHOTS..32, 80 Peak Rate of Fire..22, 26 Shaft4 Barrel..11, 70 Pipe Nut..15, 71, 78 SHOT COUNT..22, 25, 40, 82 Plastic Push Button Strip..69 SOLENOID..37, 81 Poppet..14 Solenoid Assembly..56-58, 61, 63, 73 Poppet Cap..14 Solenoid Flow Restrictor (SFR)..6, 19, 53, 61-64, 69, 78 POPS Body..74 Solenoid Manifold..56-58, 62-63, 73 POP Bonnet..74 Solenoid Manifold Bottom Gasket..56-58, 73 POPS Insert..74 Solenoid Mainfold Top Gasket..56-58, 73 POPS Pin..74 Solenoid Retaining Screw..56-58, 73, 77 POP Retaining Screws..74, 77 Solenoid Valve..56-58, 61, 63, 73 PRESET..29, 79 Solenoid Valve Gasket..56-58, 73 Prop Shaft..48-50, 67, 72 SOUND..37, 81 Prop Shaft Back Cap..48-50, 72 Sound Indicator..22, 24 Prop Shaft Back Cap O-ring..48-50, 72, 78 Spring Return Strength Screw..13, 75, 77 Prop Shaft Bumper..48-50, 72...
  • Page 86 noTEs 86 inDEX...
  • Page 87 noTEs inDEX 87...
  • Page 88 MAN0008__EN_PE-GSL-MANUAL-V2 This product is covered by and / or Licensed under one or more of the following patents; G.B. Patents; 2,342,710; 2,345,953; 2,352,022; 2,391,292; 2,391,063; U.S. Patents; 7,836,873; 7,603,995; 7,073,284; 8,104,463; 7,509,953; 7,921,839; 7,089,697; 7,866,307; 8,082,912;7,076,906;7,607,424; 7,980,238;6,311,682; 6,748,938; 6,860,259; 6,941,693; 6,973,748; 5,881,707; 5,967,133; 6,035,843; 6,474,326; 6,637,421; 6,644,295; 6,810,871; 6,901,923; 7,121,272; 7,100,593; 7,610,908; 7,603,997; 7,946,285; 6,349,711; 7,044,119; 7,185,646; 7,461,646; 7,556,032; 7,591,262; 7,617,819; 7,617,820; 7,624,723; 7,640,925; 7,640,926; 7,866,308;  Application Numbers. 12/256,832; 12/613,958; 12/493,777; 11/654,721; 11/747,107; 12/503,504; 11/781,821; 60/832,548; 11/965,886; 10/280,115; 12/511619; 13/182135; 13/334575; 13/165234 Additional U.S. and International Patents may be pending. © 2013 Copyright Planet Eclipse Ltd. Eclipse, Planet Eclipse, the Estar Logo Device, GSL, Ego, Geo, Etek, Etha and EMC are all either design trademarks, registered trademarks or trademarks of Planet Eclipse Ltd. All other trademarks are property of their respective owners. 130 Franklin Street Unit 14 Premier Park, Acheson Way Building L4 & L5 Trafford Park Road, Trafford Park Warren, RI, 02885, USA Manchester, M17 1GA, England Call: +1 401 247 9061 Call: +44(0) 161 872 5572 info.usa@planeteclipse.com info.europe@planeteclipse.com...

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