CN105006962A - Device for directly taking power from electrolytic tank and method thereof - Google Patents

Abstract

The present invention discloses a device for directly taking power from an electrolytic tank and a method thereof. The device comprises a booster module used for raising the voltage of direct current directly outputted by the electrolytic tank, and a voltage stabilizing module which is used for stabilizing the voltage of the direct current directly outputted by the booster module. The device has the advantages of simple structure, easy installation, and easy maintenance.

Description

Directly from the device and method of electrolysis tank power taking

Technical field

The present invention relates to electrolysis tank, particularly relate to directly from the device and method of electrolysis tank power taking.

Background technology

Electrolysis is the important process step in hydrometallurgy, in electrolysis, is all adopt big current low-voltage, and voltage range is not from 0.2 volt to 5.0 volts etc.; Particularly in the technique such as cathode copper, lead and tin, voltage is not higher than 0.5 volt.Therefore, when installing the watch-dog of electrolysis, needing independent supply network to be that watch-dog is powered, the alternating current of 220V is become direct current through ac-dc conversion, electrolysis watch-dog uses.Such supply network cable is numerous, needs to make special crane span structure, installs complicated, difficult in maintenance and cost is huge, and it is very inconvenient to use.

Summary of the invention

In order to solve the deficiencies in the prior art, the invention provides that a kind of structure is simple, the direct device from electrolysis tank power taking of low cost, easy care.

Goal of the invention of the present invention is achieved by the following technical programs:

Directly from a device for electrolysis tank power taking, described device comprises:

Boost module, the galvanic voltage that described boost module directly exports for promoting described electrolysis tank;

Voltage stabilizing module, the galvanic voltage that described Voltage stabilizing module exports for stablizing described boost module.

According to above-mentioned device, alternatively, described boost module comprises further:

First modular converter, described first modular converter is used for the direct current that described electrolysis tank directly exports to be converted to alternating current;

Transformer, described transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Second modular converter, described second modular converter is used for the alternating current after by boosting and is converted to direct current.

According to above-mentioned device, alternatively, described device comprises further:

Detection module, described detection module is used for the change of the output voltage detecting described electrolysis tank directly or indirectly, and transports to adjusting module;

Adjusting module, described adjusting module is used for the change according to described output voltage and adjusts the running parameter of described boost module.

According to above-mentioned device, preferably, the change of output voltage after described detection module detection voltage stabilizing or the change of the output voltage of described electrolysis tank.

According to above-mentioned device, alternatively, described device comprises further:

Rechargeable battery, the direct current after voltage stabilizing is the charging of described rechargeable battery.

According to above-mentioned device, alternatively, described boost module is at least two, is connected in parallel, and the input of each boost module connects different electrolysis tanks.

The present invention also aims to provide a kind of direct method from electrolysis tank power taking, this goal of the invention is achieved by the following technical programs:

Directly from a method for electrolysis tank power taking, said method comprising the steps of:

(A1) boost module promotes the galvanic voltage that described electrolysis tank directly exports;

(A2) the galvanic voltage that described boost module exports is stablized.

According to said method, preferably, the working method of described boost module is:

The direct current that described electrolysis tank directly exports is converted to alternating current by the first modular converter;

Transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Alternating current after boosting is converted to direct current by the second modular converter.

According to above-mentioned method, alternatively, described method is further comprising the steps:

(A3) detection module detects the change of the output voltage of described electrolysis tank directly or indirectly, and transports to adjusting module;

(A4) adjusting module adjusts the running parameter of described boost module according to the change of described output voltage.

According to above-mentioned method, alternatively, parallel connection at least two boost modules, thus promote drive current; The input of described at least two boost modules connects different electrolysis tanks respectively.

Compared with prior art, the present invention has following beneficial effect:

Only provide boost module and Voltage stabilizing module, directly from electrolysis tank power taking, thus substitute complicated independent supply network, to install and easy to maintenance, cost is low.

Accompanying drawing explanation

With reference to accompanying drawing, disclosure of the present invention will be easier to understand.Those skilled in the art it is easily understood that: these accompanying drawings only for illustrating technical scheme of the present invention, and and are not intended to be construed as limiting protection scope of the present invention.In figure:

Fig. 1 is the direct device basic block diagram from electrolysis tank power taking of the embodiment of the present invention.

Embodiment

Fig. 1 and following description describe Alternate embodiments of the present invention and how to implement to instruct those skilled in the art and to reproduce the present invention.In order to instruct technical solution of the present invention, simplifying or having eliminated some conventional aspects.Those skilled in the art should understand that the modification that is derived from these execution modes or replace will within the scope of the invention.Those skilled in the art should understand that following characteristics can combine to form multiple modification of the present invention in every way.Thus, the present invention is not limited to following Alternate embodiments, and only by claim and their equivalents.

Embodiment 1:

Fig. 1 schematically illustrates the structure chart of the direct device from electrolysis tank power taking of the embodiment of the present invention, and as shown in Figure 1, described device comprises:

Boost module, the galvanic voltage that described boost module directly exports for promoting described electrolysis tank; Described boost module specifically comprises:

First modular converter, described first modular converter is used for the direct current that described electrolysis tank directly exports to be converted to alternating current;

Transformer, described transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Second modular converter, described second modular converter is used for the alternating current after by boosting and is converted to direct current;

Voltage stabilizing module, the galvanic voltage that described Voltage stabilizing module exports for stablizing described boost module, the direct current after voltage stabilizing is that electrolysis watch-dog even load is powered.

In order to adapt to the change in voltage of electrolysis tank at different time, described device comprises further:

Detection module, described detection module is used for the change of the output voltage detecting described electrolysis tank directly or indirectly, and transports to adjusting module; Described detection module detects the change of the change of output voltage after voltage stabilizing or the output voltage of described electrolysis tank.

Adjusting module, described adjusting module is used for the change according to described output voltage and adjusts the running parameter of described boost module, thus makes the output voltage stabilization after voltage stabilizing within the scope of normal design.

In order to maintain the power supply to watch-dog even load, when electrolysis tank because safeguard and power-off time, alternatively, described device comprises further:

Rechargeable battery, the direct current after voltage stabilizing is the charging of described rechargeable battery; Make when electrolysis tank power-off, use described rechargeable battery to power for watch-dog even load.

In order to meet the requirement of follow-up heavy load, alternatively, described boost module is at least two, is connected in parallel, thus promotes drive current, and the input of at least two boost modules connects different electrolysis tanks.

The direct method from electrolysis tank power taking of the embodiment of the present invention, is also the course of work of said apparatus, said method comprising the steps of:

(A1) boost module promotes the galvanic voltage that described electrolysis tank directly exports; The working method of described boost module is:

The direct current that described electrolysis tank directly exports is converted to alternating current by the first modular converter;

Transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Alternating current after boosting is converted to direct current by the second modular converter;

(A2) stablize the galvanic voltage that described boost module exports, the direct current after voltage stabilizing is that electrolysis watch-dog even load is powered.

In order to adapt to the change in voltage of electrolysis tank at different time, described method is further comprising the steps:

(A3) detection module detects the change of the output voltage of described electrolysis tank directly or indirectly, and transports to adjusting module; Described detection module detects the change of the change of output voltage after voltage stabilizing or the output voltage of described electrolysis tank;

(A4) adjusting module adjusts the running parameter of described boost module according to the change of described output voltage, as parameter of oscillation, thus makes the output voltage stabilization after voltage stabilizing within the scope of normal design.

In order to meet the requirement of follow-up heavy load, alternatively, described boost module is at least two, is connected in parallel, thus promotes drive current, and the input of at least two boost modules connects different electrolysis tanks.

Embodiment 2:

According to the application examples of device and method in electrolysis of the embodiment of the present invention 1.

In this application examples, boost module comprises the first modular converter, transformer and the second modular converter; Voltage in each electrolysis tank is 0.2-5V, use oscillating circuit to control speed-sensitive switch (i.e. the first modular converter), thus the direct current directly exported by electrolysis tank is converted to alternating current; By step-up transformer, alternating voltage is promoted 40 times, output voltage is 8-20V; The direct current comprising certain pulsation is obtained by rectification, filter circuit (i.e. the second modular converter); The boost module that each electrolysis tank is corresponding is connected in parallel, thus promotes drive current; The DC voltage that the Voltage stabilizing module that each boost module is corresponding exports for stablizing each boost module.

Detect the change of the output voltage of electrolysis tank, adjusting module goes the parameter of the oscillating circuit adjusting boost module according to the change of voltage, makes the voltage stabilization after boosting in normal scope of design.

Due to normal production technology, regular power-off can clear up electrolysis tank, during this period, rechargeable battery continues a certain amount of small-power electric power of supply, is load supplying; In electrolysis tank normal work period, rechargeable battery be in charging and ready state, for load provide power supply or be load supplying by the direct current after voltage stabilizing.

Claims (10)

1., directly from a device for electrolysis tank power taking, it is characterized in that: described device comprises:

Boost module, the galvanic voltage that described boost module directly exports for promoting described electrolysis tank;

Voltage stabilizing module, the galvanic voltage that described Voltage stabilizing module exports for stablizing described boost module.

2. device according to claim 1, is characterized in that: described boost module comprises further:

First modular converter, described first modular converter is used for the direct current that described electrolysis tank directly exports to be converted to alternating current;

Transformer, described transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Second modular converter, described second modular converter is used for the alternating current after by boosting and is converted to direct current.

3. device according to claim 1, is characterized in that: described device comprises further:

Detection module, described detection module is used for the change of the output voltage detecting described electrolysis tank directly or indirectly, and transports to adjusting module;

Adjusting module, described adjusting module is used for the change according to described output voltage and adjusts the running parameter of described boost module.

4. device according to claim 3, is characterized in that: described detection module detects the change of the change of output voltage after voltage stabilizing or the output voltage of described electrolysis tank.

5. device according to claim 1, is characterized in that: described device comprises further:

Rechargeable battery, the direct current after voltage stabilizing is the charging of described rechargeable battery.

6. device according to claim 1, is characterized in that: described boost module is at least two, is connected in parallel, and the input of at least two boost modules connects different electrolysis tanks.

7., directly from a method for electrolysis tank power taking, said method comprising the steps of:

(A1) boost module promotes the galvanic voltage that described electrolysis tank directly exports;

(A2) the galvanic voltage that described boost module exports is stablized.

8. method according to claim 7, is characterized in that: the working method of described boost module is:

The direct current that described electrolysis tank directly exports is converted to alternating current by the first modular converter;

Transformer promotes the voltage of described alternating current, and transports to the second modular converter;

Alternating current after boosting is converted to direct current by the second modular converter.

9. method according to claim 7, is characterized in that: described method is further comprising the steps:

(A3) detection module detects the change of the output voltage of described electrolysis tank directly or indirectly, and transports to adjusting module;

(A4) adjusting module adjusts the running parameter of described boost module according to the change of described output voltage.

10. method according to claim 7, is characterized in that: parallel connection at least two boost modules, thus promotes drive current; The input of described at least two boost modules connects different electrolysis tanks respectively.