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Electrolyte Circulation System
7145240031 V1.1 (01.2013)

Figure 26: Fuse insertion

Figure 27: Master slave configuration

HOPPECKE Electrolyte Circulation System

Installation and Operating Instructions

Copyright HOPPECKE Batterien GmbH & Co. KG, version: V1.0 (Apr 10

th

2012)

18/22

All details in this document are based on state-of-the-art technology.
Our products are subject to constant development. We therefore reserve the right to make changes.

The installation is finished now.

Note: Check cabling and tubes before insertion of the provided fuses into fuse holders (refer to Figure 26).

Figure 26: Fuse insertion

Note: The pump will start automatically after approx. 10s and will run for ca. 60s.

Note: It is important to observe the first pump interval after installation thoroughly. Check the emerging air

bubbles in all cells. If one cell contains more air bubbles than others the air tubes need to be inspected
for any potential leaks or sharp bended sections. Before working on the air tubes remove the fuses
from the fuse holder.

Note: In case of working with larger battery cells (starting from 18 OPzS solar.power 3250 up to 26 OPzS

solar.power 4700) a second pump system is required. For this setup one pump is connected to the cur-
rent sensor (master). The other pump (slave) is switched via an output signal of the master pump (re-
fer to Figure 27).

Figure 27: Master slave configuration

Current sensor

Master

Slave

The installation is finished now.

Note:

Check cabling and tubes before insertion of the provided fuses into fuse holders (refer to Figure 26).

Note:

The pump will start automatically after approx. 10s and will run for ca. 60s.

Note:

It is important to observe the first pump interval after installation thoroughly. Check the emerging air

bubbles in all cells. If one cell contains more air bubbles than others the air tubes need to be inspected
for any potential leaks or sharp bended sections. Before working on the air tubes remove the fuses from
the fuse holder.

Note:

In case of working with larger battery cells (starting from 18 OPzS solar.power 3250 up to 26 OPzS solar.

power 4700) a second pump system is required. For this setup one pump is connected to the current
sensor (master). The other pump (slave) is switched via an output signal of the master pump (refer to
Figure 27).

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Summary of Contents for Electrolyte Circulation System

Page 1: ...Electrolyte Circulation System Installation and Operating Instructions...

Page 2: ...9929 Brilon 2013 HOPPECKE Batterien GmbH Co KG P O Box 1140 D 59914 Brilon All rights reserved even for patent and utility patent applications The distribution and duplication of this document and the...

Page 3: ...w 8 Installation 10 Step 1 Equip battery cells with air tubes 10 Step 2 Connect all air tubes 12 Step 3 Mount the pump and control unit 13 Step 4 Connect air tube to the pump and control unit 14 Step...

Page 4: ...Diesel generators and cost savings Extended battery service life no acid stratification Minimum maintenance costs maintenance free pump system automatically controlled Reduced battery service costs re...

Page 5: ...nse under running water for several minutes1 After swallowing Drink a lot of water immediately and swallow activated carbon1 1 Seek the advice of a medical doctor immediately Danger Work on batteries...

Page 6: ...elf if necessary 9 Wear the appropriate safety clothing and equipment To avoid electrostatic charging all textiles protective shoes and gloves worn while working with batteries must have a surface res...

Page 7: ...Battery terminal connection bolts 1 x DIN cap rail 35 mm for installation of fuse holders 2 x Fuse holders for DIN cap rail mounting 2 x Fuses 2A Air Tubes with connectors 1 x Back pressure valve Conn...

Page 8: ...pump during battery charge periods an inductive current sensor is connected to the pump and control unit The power supply for the pump and control unit comes from the battery 24V 48V Refer also to Fi...

Page 9: ...irculation System 7145240031 V1 1 01 2013 Figure 4 System overview Components Figure 5 System setup for 48V battery systems with cells 18 OPzS solar power 3250 18 OPzS solar power 3250 up to 26 OPzS s...

Page 10: ...also to 3 Please contact your HOPPECKE representative in case you want to use the Electrolyte Circulation System together with an automatic water refill system Attention Important note Before startin...

Page 11: ...bes one into each battery cell Refer also to Figure 9 Note This tube needs to be pushed through the tiny plastic funnel located on top of an empty gauntlet of the positive tubular plate right undernea...

Page 12: ...need to be as short as possible Keep an adequate length of the air tube for connection to the pump and control unit check distance to the location where the pump and control unit shall be mounted Put...

Page 13: ...should be located close to the battery connection terminals This is typically the end which is connected to the battery charging device refer also to Figure 12 Note The maximum distance between the p...

Page 14: ...a closed loop Avoid open or dead ends Note For 48V battery systems with larger cells 18 OPzS solar power 3250 up to 26 OPzS solar power 4700 two electrolyte circulation pumps are required In that case...

Page 15: ...sensor should be attached to the negative battery connection cable refer to Figure 15 This is typically the cable which goes to the charging device Use the provided wire straps for attachment Note Th...

Page 16: ...ersion V1 0 Apr 10 th 2012 14 22 All details in this document are based on state of the art technology Our products are subject to constant development We therefore reserve the right to make changes T...

Page 17: ...umidity rates DIN cap rail and fuse holders needs to be placed in an extra installation box 4 Clip the two fuse holders onto the DIN cap rail refer to Figure 23 Note The fuses must not be inserted 5 P...

Page 18: ...g Instructions Copyright HOPPECKE Batterien GmbH Co KG version V1 0 Apr 10 th 2012 16 22 All details in this document are based on state of the art technology Our products are subject to constant deve...

Page 19: ...t HOPPECKE Batterien GmbH Co KG version V1 0 Apr 10 th 2012 17 22 details in this document are based on state of the art technology ur products are subject to constant development We therefore reserve...

Page 20: ...of working with larger battery cells starting from 18 OPzS solar power 3250 up to 26 OPzS solar power 4700 a second pump system is required For this setup one pump is connected to the cur rent sensor...

Page 21: ...the cover of the pump housing or starting any battery service activities e g topping up demineralized water etc The pump and control unit is equipped with two LED for indication of normal operation g...

Page 22: ...However HOPPECKE recommends replacing the air intake filter every year Error Cause Indication Error Correction Pump is switched off because air pressure ist not reached Detached or leaking air tubes...

Page 23: ...tery charging phase Housing Pump and Control Unit Figure 30 Dimensions of pump and control unit Dimensions in mm refer to Figure 30 pyright HOPPECKE Batterien GmbH Co KG version V1 0 Apr 10 th 2012 21...

Page 24: ...717 mm 7145215707 16 OPzS solar power 2900 717 mm 7145215707 18 OPzS solar power 3250 717 mm 7145215707 20 OPzS solar power 3610 717 mm 7145215707 22 OPzS solar power 3980 717 mm 7145215707 24 OPzS so...

Page 25: ...25 Electrolyte Circulation System 7145240031 V1 1 01 2013 Notizen...

Page 26: ...26 Electrolyte Circulation System 7145240031 V1 1 01 2013 Notizen...

Page 27: ...27 Electrolyte Circulation System 7145240031 V1 1 01 2013 Notizen...

Page 28: ...ect to constant development We therefore reserve the right to make changes HOPPECKE Batterien GmbH Co KG P O Box 1140 D 59914 Brilon Bontkirchener Stra e 1 D 59929 Brilon Hoppecke Phone 49 0 2963 61 0...

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