KR101567036B1 - Reproducing apparatus of industrial battery and Reproduction method of industrial storage battery using the same apparatus - Google Patents

Abstract

The present invention relates to an apparatus for regenerating industrial batteries and a method of regenerating a battery using the same. More particularly, the present invention relates to a regenerator for regenerating industrial batteries, It is possible to increase the regeneration efficiency of the electrode plate and the capacity recovery rate of the battery more than the conventional technology and to charge the regenerated battery in a short time by using the battery regeneration device equipped with the charging function and the reverse discharge prevention function employing the four- The present invention relates to an industrial battery regenerating apparatus and a method of regenerating an industrial battery using the same, which can prevent the performance of the battery from being deteriorated due to natural discharge of the battery after completion of charging.
An industrial battery regeneration apparatus according to the present invention includes a power supply unit; A polarity checking unit; Measuring unit; An alarm sound generator; A high frequency pulse generator; An overheat prevention control unit; A counter discharge preventing circuit; And a control unit, wherein the method for regenerating a battery using the method comprises: a regenerant preparation step of producing a regenerant solution by mixing an electrolyte solution and a regenerant material; Measuring the rating value of the battery; Piercing step; An electrolyte replenishment step; A regeneration liquid injection step; Battery sealing step; Battery connection step; And a high frequency pulse application and charging step; Wherein the regenerated material is a mixture of 30 g of resin, 20 g of powdered potassium, 10 g of powdered powder, 5 g of lanthanum, 5 g of cerium, 80 g of tourmaline, 8 g of natural carbon, 4 g of conductive carbon, 40 g of gelatin, and 10 g of calico.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an industrial battery regenerating apparatus and an industrial battery regenerating method using the same.

The present invention relates to an apparatus for regenerating industrial batteries and a method for regenerating a rechargeable battery using the rechargeable battery. More particularly, the present invention relates to a rechargeable battery including a rechargeable liquid containing rare earths, It is possible to increase the regeneration efficiency of the electrode plate and the performance recovery rate of the battery more than that of the conventional technology and to charge the regenerated battery in a short time by using the battery regeneration device equipped with the charging function using the four- The present invention relates to an industrial battery recharging apparatus and a method of regenerating an industrial rechargeable battery using the same, which can prevent the performance of the battery from being deteriorated due to the battery being discharged by consuming electricity after the charging is completed .

Generally, batteries used in automobiles, ships, or industrial industries are made up of two metals and electrolytes that have different ionization tendencies. They are composed of a discharge that converts the chemical energy into electrical energy by the chemical reaction of the constituent materials, By repeating the cycle of charging to convert, it functions as a battery, and the chemical reaction of the constituent materials can be represented by the following formula.

However, if the battery is used for a long time, a short circuit occurs in the process of repeated charging and discharging, or when an electric reaction path of the electrode plate is blocked by foreign substances such as sulfate, etc., charging and discharging are not performed smoothly The voltage, capacity, etc. of the battery are reduced. As a result, the battery that has reached its end of life must be replaced.

However, in the case of such industrial waste batteries, waste disposal is not easy because waste sulfuric acid (H ₂ SO ₄ ) is classified as designated waste in accordance with the Enforcement Regulations of the Waste Management Act, and as the waste amount increases, .

The applicant of the present invention has proposed a technique of reducing the amount of waste of a battery by increasing the lifetime of the battery by regenerating the recyclable waste battery to solve the problem as described above and Korean Patent No. 10-0805075, Respectively. In addition to the above-mentioned inventions of applicants, Korean Patent No. 10-0681529 and Korean Patent No. 10-1003881 disclose various techniques for an apparatus and a method for recycling waste batteries.

However, in the conventional techniques as described above, only the method of injecting the regeneration liquid into the waste battery to remove the sulfate, or the method using only the regenerating device that stimulates the electrode plate by applying the high frequency pulse after connecting the battery to the accumulator, The inventor of the present invention can increase the regeneration efficiency by applying the high frequency pulse after injecting the regenerant material, but the performance and the life of the regenerated battery still do not reach to the new product In the process of measuring the initial performance of the battery for the problem and the regeneration of the battery, in the process of charging the battery for 4 to 6 hours, the regenerable battery is damaged due to the shortage of the electrolyte of the battery or is erroneously measured as a non- It is classified as a target battery.

Korean Patent No. 10-0805075 Korean Patent No. 10-0681529 Korean Patent No. 10-1003881

In the present invention, a regenerating material containing a rare earth element is injected into an industrial battery in which sulfate is adhered to an electrode plate of a battery to deteriorate the performance thereof. The regeneration efficiency of the electrode plate is increased, a regenerant material is injected into the battery, It is possible to buffer the battery in a short time and to prevent the battery from spontaneous discharge due to consumption of electric power by the lead wire and the regenerating device after the completion of the charging to improve the efficiency of the regenerating and charging operation of the battery, And to minimize the classification of renewable storage batteries into objects to be discarded, and an industrial storage battery regeneration method using the same.

An industrial battery replay apparatus according to the present invention includes an input unit for inputting a command by a user and a display unit for displaying an operation status of the rechargeable battery recharging apparatus and a status of the rechargeable battery and a high frequency pulse is applied to the rechargeable battery, 1. An industrial battery regeneration apparatus comprising: a power supply unit that receives external commercial power; A polarity checking unit connected to the battery to check the connection state of the battery polarity; A measuring unit connected to the battery to measure the voltage, current, and internal resistance of the battery to measure the performance of the battery; When the measured value of the measurement unit is less than 40% of the storage capacity (RC) of the battery, an alarm sound is generated when the polarity of the terminal of the battery and the terminal connection unit of the battery regenerator are reversed or when the regeneration and charging operation of the battery is completed An alarm sound generator; A high frequency pulse generator for generating a high frequency pulse for removing the sulfate of the battery using the current and voltage generated by the power supply and charging the battery; An overheat prevention control unit for preventing overheating during charging operation of the storage battery; An anti-reverse discharge circuit unit for preventing a reverse discharge of the battery after completion of the charging of the battery; And a control unit for controlling each configuration of the playback apparatus by a command input to the input unit, wherein the control unit includes a job storage unit for storing job status information of the playback apparatus; An anti-discharge preventing control unit for activating the anti-discharge preventing circuit unit after completion of charging operation of the storage battery; And a display control unit for generating a signal for displaying an operating state of the reproducing apparatus and a power storage state on the display unit.

The high frequency pulse generator may further include a first charging operation for supplying a high frequency current of 1 / 5A to the battery to charge the battery for 10 minutes; A second charging operation for supplying a high frequency current of 1 / 10A to the battery to charge the capacitor for 60 minutes; A third charging operation in which a high frequency current of 1 / 20A is supplied to the storage battery to charge the capacitor for 30 minutes; And a charging operation in which a constant current of 1 / 25A is supplied to the battery to charge the battery for 20 minutes.

The method for regenerating an industrial battery according to the present invention is a method for regenerating an industrial battery having an electrolytic solution, comprising: a regenerant preparation step of mixing a regenerant into the electrolytic solution and then shaking the regenerant; A rating value measuring step of measuring the initial voltage and current of the battery to check the state of the battery; A piercing step of piercing each cell of the battery to form an inlet; An electrolyte replenishment step of replenishing an electrolyte solution to each cell by an amount that the electrolyte is evaporated due to insufficiency in the charging / discharging process of the storage battery; A regeneration liquid injecting step of injecting the regeneration liquid into the inlet port; Closing the inlet to seal the cells; A battery connecting step of connecting the battery to a battery regenerating apparatus; And a high-frequency pulse application and charging step of applying a high-frequency pulse to the connected battery to remove sulfate and charge the battery; The regenerated material is prepared by mixing 30 g of resin, 20 g of powdered potassium, 10 g of powdered powder, 80 g of tourmaline, 5 g of lanthanum, 5 g of cerium, 8 g of natural carbon, 4 g of conductive carbon, 40 g of gelatin, and 10 g of calico, and the amount of the regenerant solution injected in the regenerating solution injecting step is determined according to the rating value.

The high frequency pulse applying and charging step may include a first charging step of supplying a high frequency current of 1 / 5A to the battery to charge the capacitor for 10 minutes; A second charging step of supplying a high frequency current of 1 / 10A to the battery to charge the capacitor for 60 minutes; A third charging step of supplying a high frequency current of 1 / 20A to the battery to charge the capacitor for 30 minutes; An equal charge step of supplying a constant current of 1 / 25A to the battery to charge the battery for 20 minutes; And a load test step of checking the performance of the battery by testing the load of the battery. As a result of the load test, the battery having the RC value less than 40% of the new value of the battery is discarded. Frequency pulse applying and charging step is repeatedly performed for 6 to 12 hours according to a load test result, and the load testing step is omitted when charging of the battery is completed.

According to the above-described structure, the industrial battery replay apparatus according to the present invention and the industrial rechargeable battery regeneration method using the same are provided with a rechargeable material containing a rare earth element in an industrial battery having degraded performance, and a high frequency pulse is applied to remove the sulfate, This makes it possible to greatly increase the efficiency of regeneration of the electrode plate. The battery regenerating apparatus can perform the charge operation together with the regeneration operation of the battery, but the battery can be buffered in a short time by the four-stage charging system. The reverse discharge prevention circuit is provided to prevent the discharge of the battery due to the consumption of electricity by the lead wire and the regenerator after the completion of the charging, so that the performance of the regenerated battery can be prevented from being reduced.

In addition, it is possible to classify the batteries which can not be regenerated or the performance of which is low even during the reproducing operation, so that the regenerative accumulator having a predetermined performance or more is produced. However, the case where the regenerable accumulator is discarded is minimized to help suppress the environmental pollution .

1 is a block diagram conceptually showing the configurations of an industrial battery regeneration apparatus according to an embodiment of the present invention;
2 is a circuit diagram showing a circuit configuration of an industrial battery regeneration apparatus according to an embodiment of the present invention;
3 is a flowchart showing an example of the operation process of the industrial battery device according to the present invention.
4 is a perspective view showing an embodiment of an industrial battery regeneration apparatus according to the present invention.
5 is a view showing an example of use of an industrial battery regeneration apparatus according to an embodiment of the present invention.
6 is a flowchart briefly showing an industrial battery recharge method using an industrial battery replay apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, when an element is referred to as being "comprising " another element in the description of the invention or claims, it is not to be construed as being limited to only that element, Elements may be further included.

1 and 2, an industrial battery replay apparatus according to an embodiment of the present invention includes an input unit 1 through which a user inputs a command, a display unit 2 for displaying an operation state of the battery replay apparatus, The power supply unit 100 is supplied with a commercial power supply. A polarity checking unit 200 for checking the connection state of the battery polarity; A measuring unit 300 for measuring the performance of the battery by measuring voltage, current, and internal resistance of the battery; An alarm sound generator 400 for generating an alarm sound according to a measurement result of the measurement unit 300 or a work situation; A high frequency pulse generator 500 for generating a high frequency pulse for removing the sulfate of the battery and charging the battery; An overheat prevention control unit 600 for preventing overheating during a charging operation; An anti-discharge preventing circuit unit 700 for preventing the battery from being naturally discharged by consuming electricity after the charging is completed; And a control unit (800) for controlling each configuration of the playback apparatus by an input command.

The power supply unit 100 is supplied with an external commercial power supply and supplies power to each component of the industrial battery regeneration apparatus. The power supply unit 100 receives AC power having a voltage of 85 to 265 V and a frequency of 50 to 60 Hz, It is preferable to provide a means for converting the alternating current into direct current.

The polarity checking unit 200 is configured to check whether the +, - terminal of the battery matches the connection of the +, - terminal connection unit of the battery replay apparatus. According to the embodiment of the present invention, A signal is transmitted to the control unit 800 to be described later, a message 'REVERSED CONNECTION' is displayed on the display unit 2, and an audible alarm is sounded through the alarm sound generating unit 400.

The measuring unit 300 is configured to check the performance of the battery by measuring the voltage, current, and internal resistance of the battery connected to the battery regeneration apparatus. The measuring unit 300 may measure the internal resistance and compare the initial resistance value and the average resistance value. It is possible to confirm whether the battery is a battery or not, and it is possible to check the regeneration rate of the battery by comparing the voltage value and the current value and comparing the changed value.

The alarm sound generating unit 400 is provided to allow the user to know the current operation status or the battery state through an alarm sound, and an alarm sound set by the signal of the control unit 800 is generated. In an embodiment of the present invention, when the polarity of the battery terminal is connected incorrectly, an alarm sound is generated as many times as the predetermined number of times according to the situation such as when the overheating during operation is detected or when the operation is completed, Respectively.

The high frequency pulse generator 500 generates a high frequency pulse using the power supplied from the power supply unit 100 to stimulate the electrode plate of the battery to remove the sulfate which is fixed to the electrode plate, And charges the regenerated battery. At this time, the high-frequency pulse generating unit 500 generates a high-frequency pulse of 9 kHz to 15 kHz in order to give only a minimum impact to the electrode plate, and supplies a high frequency current of 1 / 5A to the capacity of the accumulator A first charging operation for charging the battery for 10 minutes, a second charging operation for charging the battery for 60 minutes by supplying a high-frequency current of 1 / 10A to the capacity of the battery, supplying a high-frequency current of 1/20 A to the capacity of the battery, A third charging operation for charging the battery, and a 4-step charging operation in which one cycle is performed by supplying a constant current of 1 / 25A to the capacity of the battery and charging the battery for 20 minutes, thereby stabilizing the battery and charging the battery in a short time .

The overheat prevention control unit 600 includes a charging current control unit 610 and a temperature sensing sensor 620 to prevent the battery from being overheated during the charging operation of the storage battery. The charging current controller 610 controls the current supplied to charge the battery to prevent overcharging. The temperature sensor 620 is connected to the terminal of the battery to check the temperature of the battery. When the overheat is detected, It is preferable to send a signal to the controller 800 to stop the charging operation to reach a predetermined temperature (25 DEG C) or to supply a low current. More preferably, the overheat prevention control unit 600 may further include a charge cutoff circuit unit 630 for stopping the charging operation in the event of overheating.

The anti-reverse discharge preventing circuit unit 700 is provided to prevent the electric discharge of the lead wire and the regenerating device when the battery is continuously connected to the reproducing device even after completion of the charging operation, thereby preventing a natural discharge phenomenon. And the battery is supplied with a minute current to prevent the performance of the battery from decreasing.

The control unit 800 controls each configuration of the battery replay apparatus according to a command input through the input unit 1, and a known microcomputer, a microprocessor, or the like can be used. A storage unit 810; An anti-reverse discharge prevention control unit (820) for activating the anti-reverse discharge circuit unit; And a display control unit 830 for generating a signal for indicating the operation status of the battery replay apparatus and the battery condition and performance on the display unit 2. At this time, the job storage unit 810 stores the job status information at regular time intervals. If the regeneration / charging job of the battery is stopped due to a power failure or the like, the status before the job restart is called up, Preferably, the period for storing the job status information is set by selecting a time interval that is most advantageous for a job.

In addition, the industrial battery regeneration apparatus according to the present invention includes a function of selecting and operating an industrial battery voltage of [6 V, 8 V, 12 V], and an automatic mode for performing operations according to basic settings; A charging mode in which only charging is performed in accordance with an inputted command; A discharging mode for discharging the battery to measure the RC (Reserved Capacity) value to check the performance; And a full charge mode in which the full charge of the battery is completed in the shortest time period can be further provided.

An embodiment of a method of regenerating an industrial battery having an electrolytic solution by using the battery regeneration apparatus will be described as follows.

1. Reclaimed liquid production step (S10)

The regenerated material of the industrial battery regeneration method according to the present invention is prepared by mixing 30 g of a resin with 18 g of an electrolytic solution containing 88% of distilled water and 12% of sulfuric acid, 20 g of powdered potassium, 10 g of ground powder, 80 g of tourmaline, 5 g of lanthanum, 5 g of cerium, 8 g of natural carbon, 4 g of conductive carbon, 40 g of gelatin and 10 g of calico.

The resin constituting the regenerated material is a sticky material and is intended to allow the regenerant material to adhere well to the electrode plate of the battery. When the amount of the regenerant material is less than 30 g, the degree of adhesion of the regenerant material to the electrode plate is decreased. The performance of the battery is reduced by interrupting the current flow of the electrode plate.

Potassium powder and powdered powder are components for restoring the deformed part such as the corroded part of the electrode plate or the part where the drop-off phenomenon is generated. When the amount less than the above amount is mixed, a part of the deformed part remains after the regenerating operation. If more than the amount is mixed, unnecessary components are adhered to the electrode plate due to excessive amount, which may interfere with current flow.

Tourmaline is characterized by permanent weak current of 0.06 mA, which is also called tourmaline. It has the property of forming electric field and also has the property of activating the anion to interface, so that the oxidized material is neutralized and reduced. Therefore, the addition of tourmaline to the regenerated material enhances the chemical reaction of the constituent materials, thereby enhancing the electrical conductivity of the battery and enhancing the regeneration performance of the battery. However, when the recycled materials are mixed in an amount less than the above amount, sufficient effect can not be obtained. When the amount is larger than the above amount, the electrical conductivity of the battery increases more than necessary, Lt; / RTI >

Lanthanum and cerium are rare earth metals. Rare earths are chemically stable and have good heat transfer properties. They are used as raw materials for high-tech industries. Among them, lanthanum and cerium are attracting attention as raw materials and catalysts for automotive batteries. . The addition of lanthanum and cerium to the regenerant material improves the conductivity of the battery in which the regenerant is injected. In addition, when the specific gravity of hydrogen gas and oxygen gas in the battery is too small, the battery fails to exhibit its performance, And cerium act as a catalyst for activating the above-mentioned gases, thereby improving the performance of the battery. If lanthanum and cerium are added in an amount less than the above amount, sufficient effect can not be obtained. If the amount of lanthanum and cerium is excessively increased, the conductivity becomes more than necessary, There is a risk of doing this.

Carbon is a substance widely used as an electrode or an electrode material because of its high electrical conductivity. Natural carbon and conductive carbon mixed with a regeneration material of an industrial battery regeneration method according to the present invention also have an effect of enhancing electrical conductivity of a regenerated battery . At this time, as the conductive carbon, carbon black, graphite, fullerene and the like can be used.

The gelatine and calcky added to the regenerated material of the industrial battery regeneration method according to the present invention are formed at the time of charging / discharging and deposited on the electrode plate, thereby functioning to dissolve and remove the sulfate and impurities which cause the degradation of the capacity of the battery and shortening the life span . At this time, if the addition amount of gelatin and calcky is less than the above amount, it is difficult to sufficiently remove the sulfate and impurities, and if the addition amount is larger than the above amount, current flow is rather disturbed.

2. Step of measuring Rating Value (S20)

The initial voltage and current of the battery are measured to confirm the performance and capacity of the battery to be reproduced. The battery capacity tester can be performed using a conventional battery capacity tester.

3. Punching step (S30)

Each cell of the battery to be reproduced is bored to form an inlet through which the electrolyte and the regeneration liquid can be injected. The battery may have 4 or 6 cells depending on the basic capacity, and it is preferable to puncture all the cells constituting the battery.

4. Electrolyte replenishment step (S40)

When the battery is repeatedly charged and discharged, the electrolyte evaporates due to gas generation and high temperature. When the electrolyte is insufficient, the performance of the battery deteriorates. If the electrolyte is insufficient, the electrode plate may be damaged. Is evaporated and replenished by the inlet port by an insufficient amount. The level of the electrolyte solution is preferably determined in consideration of the capacity and capacity of the battery so that the specific gravity of the sulfuric acid contained in the electrolyte is 1.28, and may be determined by reflecting the value indicating the performance or capacity of the conventional battery.

5. Recycled liquid injection step (S50)

The step of injecting the regeneration liquid prepared in the regeneration liquid manufacturing step according to the Rating value measured in the Rating value measurement step is an inlet formed in each cell of the industrial battery.

6. Battery sealing step (S60)

Sealing the inlet formed in each cell of the industrial battery with a clogging means or the like and tightly sealing the electrolyte so that the electrolyte does not leak out during the operation of regenerating the battery or when the user uses the battery.

7. Battery connection step (S70)

And then connecting the battery having the inlet sealing process to the industrial battery regenerating apparatus according to an embodiment of the present invention. At this time, if the polarity of the battery terminal and the terminal connection part of the battery reproducing device do not match, a warning sound is generated and the power supply is cut off to protect the battery and the playback device, and a message [REVERSED CONNECTION] do.

8. High-frequency pulse application and charging step (S80)

A high frequency pulse is applied to a battery connected to a battery regenerator to stimulate the electrode plate to remove sulphate and to regenerate the regenerant material to fill the battery.

The high-frequency pulse applying and charging step S80 according to the present invention includes a first charging step S81 for supplying a high frequency current of 1 / 5A to the capacity of the battery to the industrial battery for 10 minutes; A second charging step (S82) of supplying a high-frequency current of 1 / 10A to the battery and charging the battery for 60 minutes; A third charging step (S83) in which a high-frequency current of 1 / 20A is supplied to the storage battery to charge the storage battery for 30 minutes; An equal charge step (S84) in which the battery is charged with a constant current of 1 / 25A compared to the capacity of the battery for 20 minutes; And a load testing step (S85) of testing the load of the battery to check the performance of the battery.

The first charging step is a step for raising the internal temperature of the battery to 25 ° C which is the optimum temperature for activation of ion action and complete charging in a short time. When the current is more than 1 / 5A or more than 10 minutes Care should be taken as heat generation is intensified and this can interfere with operation.

The second charging step is a step of activating the regenerating material inside the battery to perform a stable function. The secondary charging step dissolves the sulphate fixed to the electrode plate so that the regenerant material is uniformly penetrated to the damaged portions of the electrode plate by the high- do.

The third charging step is a step of firmly adhering the regeneration material to the electrode plate, completing the basic charging capacity of the regenerated battery, and buffering transfer according to the capacity of the battery.

Equalization step is a step that uniformizes the voltage accumulation of each cell of the battery. By uniformizing the voltage of each cell, the voltage is generated but the current does not flow so that the voltage of the virtual image, which is not usable as a real power source, can do.

The load test step is a step of checking the performance by measuring using the internal resistance of the battery, and the battery whose RC value is less than 40% of the new value of the battery as a result of the initial load test is judged to be unregenerable and discarded. At this time, the battery reproducing apparatus sounds an alarm sound, and a message [Cell Bad] is displayed on the display unit 2.

Meanwhile, when the RC value is 40% or more of the new value of the battery as a result of the load test of the battery, the high frequency pulse application and charging step S80 is repeatedly performed for 6 to 12 hours according to the load test result value, The load test step is omitted.

When the battery regeneration and charging operation is completed through the above process, the battery regenerating device sounds an alarm sound and a message 'Finished' is displayed on the display unit 2 to inform the user that the operation is completed. If the battery is continuously connected to the battery regeneration apparatus after the operation is completed, the lead and the regeneration apparatus consume electricity, so that a natural discharge may occur in the battery and the performance of the battery may be deteriorated. In the battery regeneration apparatus according to the present invention, 800 prevent the reverse performance of the battery due to the natural discharge of the regenerated battery by supplying the fine current to the battery.

That is, in the reproducing method using the industrial battery recharge apparatus according to the present invention, after the high-frequency pulse application and charging step (S80), a small current The micro-current supplying step may be further performed.

The industrial battery regenerating apparatus and the industrial battery regeneration method using the same according to the present invention as described above injects a regeneration material containing rare earths into an industrial battery having degraded performance and then applies a high frequency pulse to the accumulator, It is possible to greatly increase the regeneration efficiency of the deformed electrode plate while removing the battery, and the battery regeneration efficiency can be greatly increased, and the battery can be buffered in a short time by the four-stage charging system, so that the battery regeneration device is provided with the anti- It is possible to prevent deterioration of the performance of the battery due to natural discharge after completion of the charging, so that the regeneration efficiency and performance of the battery can be improved as compared with the prior art.

In addition, it is possible to classify the batteries which can not be played back or whose performance is poor even during the reproducing operation, so that only the regenerative accumulators having a predetermined performance or more can be produced. The battery is filled with the electrolyte and the regenerant solution, The battery can be charged in a battery having insufficient electrolyte to prevent the battery having a possibility of being recovered from being damaged, thereby reducing the number of batteries to be disposed of.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The present invention is not limited to the embodiments and the accompanying drawings.

1: input unit 2: display unit
100: Power supply unit 200: Polarity confirmation unit
300: measuring unit 400: alarm sound generating unit
500: high frequency pulse generator 600: overheat prevention controller
610: charge current control unit 620: temperature sensor
630 Charge interruption circuit part 700: Reverse discharge prevention circuit part
800: control unit 810: job storage unit
820: Anti-reverse discharge control unit 830:

Claims (4)

There is provided an industrial battery regeneration apparatus having an input unit for inputting a command by a user and a display unit for displaying an operation status of the battery regeneration apparatus and a battery status and for applying a high frequency pulse to the regenerated battery,
A power supply for receiving external commercial power; A polarity checking unit connected to the battery to check the connection state of the battery polarity; A measuring unit connected to the battery to measure the voltage, current, and internal resistance of the battery to measure the performance of the battery; When the measured value of the measurement unit is less than 40% of the storage capacity (RC) of the battery, an alarm sound is generated when the polarity of the terminal of the battery and the terminal connection unit of the battery regenerator are reversed or when the regeneration and charging operation of the battery is completed An alarm sound generator; A high frequency pulse generator for generating a high frequency pulse for removing the sulfate of the battery using the current and voltage generated by the power supply and charging the battery; An overheat prevention control unit for preventing overheating during charging operation of the storage battery; An anti-reverse discharge circuit unit for preventing a reverse discharge of the battery after completion of the charging of the battery; And a control unit for controlling the respective components of the playback apparatus according to commands input to the input unit,
The control unit may include a job storage unit for storing job status information of the playback apparatus; An anti-discharge preventing control unit for activating the anti-discharge preventing circuit unit after completion of charging operation of the storage battery; And a display control unit for generating a signal for displaying an operating state and a power storage state of the reproducing apparatus on the display unit. The method according to claim 1,
Wherein the high frequency pulse generating unit supplies a high frequency current of 1 / 5A to the battery to charge the battery for 10 minutes; A second charging operation for supplying a high frequency current of 1 / 10A to the battery to charge the capacitor for 60 minutes; A third charging operation in which a high frequency current of 1 / 20A is supplied to the storage battery to charge the capacitor for 30 minutes; And a charging operation in which a constant current of 1 / 25A is supplied to the battery to charge the battery for 20 minutes. 1. A method for regenerating an industrial battery having an electrolytic solution,
A regenerant liquid preparation step of mixing the regenerant into the electrolyte solution and then shaking the regenerant solution;
A rating value measuring step of measuring the initial voltage and current of the battery to check the state of the battery;
A piercing step of piercing each cell of the battery to form an inlet;
An electrolyte replenishment step of replenishing an electrolyte solution to each cell by an amount that the electrolyte is evaporated due to insufficiency in the charging / discharging process of the storage battery;
A regeneration liquid injecting step of injecting the regeneration liquid into the inlet port;
Closing the inlet to seal the cells;
A battery connecting step of connecting the battery to a battery regenerating apparatus; And
A high frequency pulse applying and charging step of applying a high frequency pulse to the connected battery to remove sulfate and charging the battery; And,
The regenerated material was prepared by mixing 30 g of resin, 20 g of powdered potassium, 10 g of powdered powder, 80 g of tourmaline, 5 g of lanthanum, 5 g of cerium, 8 g of natural carbon, 4 g of conductive carbon, 40 g of gelatin , And 10 g of calckey were mixed,
Wherein the amount of the regeneration liquid injected in the regeneration liquid injection step is determined according to the rating value. The method of claim 3,
The high frequency pulse applying and charging step may include: a first charging step of supplying a high frequency current of 1 / 5A to the battery to charge the battery for 10 minutes; A second charging step of supplying a high frequency current of 1 / 10A to the battery to charge the capacitor for 60 minutes; A third charging step of supplying a high frequency current of 1 / 20A to the battery to charge the capacitor for 30 minutes; An equal charge step of supplying a constant current of 1 / 25A to the battery to charge the battery for 20 minutes; And a load testing step of testing the load of the battery to check the performance of the battery,
As a result of the load test, the battery having the RC value less than 40% of the new value of the battery is discarded, and the high frequency pulse application and charging step is repeatedly performed for 6 to 12 hours according to the result of the load test only for the battery having 40% Wherein the load test step is omitted when charging of the battery is completed.

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