RNA ESK 2000 Operating Instructions Manual
Controllers for vibratory drive systems
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Summary of Contents for RNA ESK 2000
- Page 1 Operating Instructions Controllers Vibratory Drive Systems ESK 2000...
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Page 2: Table Of Contents
Table of Contents About this document ......................4 Safety information ........................4 2.1. Design of safety directives ....................4 2.2. Fundamental safety directives ..................4 2.3. Personnel ......................... 4 2.4. Intended use ........................5 2.5. Residual hazards......................5 2.5.1. Device ........................5 2.5.2. - Page 3 Declaration of Conformity According to the Low-Voltage Directive 2014/35/EU and Electromagnetic Compatibility Directive 2014/30/EU We hereby declare that the product meets the following requirements: Low-Voltage Directive 2014/35/EC Electromagnetic Compatibility Directive 2014/30/EU Applied harmonised standards: DIN EN 60204 T1 EN 61439-1 Note: Rhein-Nadel-Automation ---------------------------------...
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Page 4: About This Document
About this document Attention Read this document carefully and observe the safety directives before commencing any work. Document description: This document provides assistance in choosing your product. You will also find information on mechanical and electrical installation, operation, product extensions and accessories. Non-observance may cause trouble with the product or the environment, reduce the product lifetime or lead to other damage. -
Page 5: Intended Use
Use of the product in living areas may lead to EMC disturbance. The user is responsible for tak- ing interference suppression measures. • They are optimised for operation of RNA bowl feeders and linear feeders. Observe the limits in- dicated in the technical specification. Attention! •... -
Page 6: Product Information
Product information 3.1. Characteristic features The compact controller is designed for operation of a vibratory or belt feeder drive system. The unit offers the following characteristic features: One feed rate output: Bowl feeder, linear feeder max. 10A, variable or AC capacitor motor max. 3A, not variable Two sensor amplifiers with independently adjustable timers (On/Off delay). -
Page 7: Accessories
4.1. Modes of operation RNA vibratory drive systems employ mechanical spring vibrators which are set to a vibrating frequency near the mains frequency or near double mains frequency depending on weight and/or size. This is why two modes of operation are possible:... -
Page 8: Automatic Mode Change
Vibratory drive systems by RNA do not require the operator to take care of selecting the right operating mode. The operating mode is determined by a code in the RNA vibrating drive connector. A wire jumper from pin 3 to 4 in the connector switches the controller to mode 2: 100 or 120 Hz. In the absence of this wire jumper the controller operates in mode 1: 50 or 60 Hz. -
Page 9: Sensor Connection
4.4. Sensor connection The controller has two sensor inputs which can be used for accumulation checking and/or level monitoring purposes. You can connect sensors of type NPN or PNP. 10K if req‘d Floating contact EGF40 (optical sensor w/o amplifier) Proximity switch, Proximity switch, general, general,... -
Page 10: Status Outputs And Relays
4.5. Status outputs and relays The status outputs are used for remote diagnostics of the controller status or of the links of several controllers with one another. They are designed as freely available NPN-doped transistor circuits and they are floating. With the status output READY the transistor circuit is switched through whenever the controller is connected to power supply and switched on by its power switch closed. -
Page 11: Starting-Up The Controller
The controller display (membrane keypad) On / Off Pressing this button switches off all connected devices. The display shows "OFF". The controller remains ready for operation. Cursor up and cursor down Use these buttons to scroll through the controller menu or set the parameters. Enter Press this button to acknowledge the parameters entered with the cursor. -
Page 12: Main Menu / Setpoint Entry And Display
5.3. Main menu / Setpoint entry and display Display of setpoint or feed rate No entry possible (vibratory feeder) Alternatively: STOP, OFF or AC- CUMULATION (see above) Entry of the codes to change or Enter code. KANAL l KANAL 2 execute the required settings. -
Page 13: Description Of Individual Codes For Controller Programming
Definition: 411. 57. 10. 23.11.99 Device type: 59 = ESK 2001 Date 58 = ESG 2001 Version No. 57 = ESK 2000 Device type 56 = ESG 2000 Internal No. KANAL l Setting the feed rate by external voltage input 0-10V or potentiometer... -
Page 14: Application-Specific Changes To Default Settings
KANAL 2 main menu CODE (*) For RNA feeders with 200 V magnets = 90 % 5.5.2. Code C003 Seal setpoint Objective: Sealing-in the setpoints in the main menu. A direct change of the values is no longer possible. You can only make changes now through code C001. -
Page 15: Code C004 Sensor Input 1 And Code C005 Sensor Input 2
5.5.3. Code C004 sensor input 1 and code C005 sensor input 2 Objective: Activating and setting the sensor inputs Select code KANAL l Set code KANAL 2 CODE Code C004 Sensor 1 input I = active 0 = not active Invert input signal I = Start = 24V DC direction... -
Page 16: Code C006 Sensor Linkage
5.5.4. Code C006 Sensor linkage Objective: Linking of the two previously activated sensor inputs. Select code KANAL l Set code KANAL 2 CODE Code C006 You can activate only one of the eight sensor links. Logic with blowing-off I = active the exit tracks 0 = not active AND logic without blowing... - Page 17 AND logic of the two sensor inputs without blowing-off the exit track. Bowl feeder (channel 1) stops when both sensors are operated. Orienting air can be switched off with delay (4 sec.) via relay K2. OR logic of the two sensor inputs. Bowl feeder (channel 1) stops when one of the two sensors is operated.
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Page 18: Code C008 Cycle Monitoring
5.5.5. Code C008 cycle monitoring Objective: Monitoring of sensors 1 (accumulation check) and/or 2. When activating the cycle monitoring function, the "AND, SOL" links in code C006 must not be activated!!! Select code Set code Code C008 Sensor input 1 is moni- I = active KANAL l KANAL 2... -
Page 19: Code C009 Show Status
5.5.6. Code C009 Show status Objective: Checking of the set vibrating frequency and of the sensor inputs. Select code Set code Code C009 External enabling signal I = active 0 = not active Channel 1 Channel 1 vibrating I = 50 Hz KANAL l KANAL 2 frequency... -
Page 20: Code C100 Setting The Feed Rate By External Voltage Input
5.5.8. Code C100 Setting the feed rate by external voltage input. Objective: Setpoint change by external voltage Select code Set code Code C100 External voltage applica- I = active tion to channel 1 0 = not active Save and return to Return KANAL l main menu... -
Page 21: Code C210 Retrieving Parameters
5.5.10. Code C210 Retrieving parameters Objective: Resetting to default values or retrieving stored application-specific settings Select code Set code Code C210 Factory setting Application-specific pa- rameters Save and return to Return main menu FAC: Select and acknowledge FAC to reset the controller to the factory default settings. US.PA.: Select and acknowledge US.PA to retrieve the application-specific set of parameters previously saved under C143. -
Page 22: Dimensioned Drawing
Dimensioned drawing Rhein-Nadel Automation GmbH VT-BA-ESK2000_EN_2023.docx... -
Page 23: Connection Diagram
Connection diagram Rhein-Nadel Automation GmbH VT-BA-ESK2000_EN_2023.docx... - Page 24 Headquarters Rhein-Nadel Automation GmbH Reichsweg 19-23 D-52068 Aachen Phone: +49 (0)241-5109-0 E-mail: vertrieb@RNA.de www.RNA.de Further RNA group companies: Further manufacturing sites of the RNA Group Lüdenscheid site PSA Zuführtechnik GmbH Rhein-Nadel Automation GmbH Steinäckerstraße 7 Nottebohmstraße 57 D-74549 Wolpertshausen D-58511 Lüdenscheid...
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