KR102318154B1 - Capacity restoration apparatus for secondary battery - Google Patents

Abstract

According to the present invention, when the capacity restoration operation is started after the basic setting of the capacity of the secondary battery, the charging voltage frequency signal of various stages is automatically sent sequentially to the set secondary battery, and the optimal charging voltage frequency signal is recognized according to the response. The charging operation is carried out with the corresponding charging voltage, and whenever the resistance increases during charging, the optimum charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the corresponding charging voltage frequency. The present invention relates to an apparatus for restoring capacity of a secondary battery that maximizes capacity restoration efficiency, wherein the apparatus for restoring capacity of a secondary battery according to the present invention includes a battery connection part to which an electrode of a secondary battery to be charged is connected, and a charging voltage of a secondary battery connected to the battery connection part. A charging voltage frequency setting unit that selects a frequency from among the charging voltage frequencies of several predetermined steps, and starting the charging operation from the charging voltage frequency set through the charging voltage frequency setting unit according to the input of a charging start signal, When the resistance exceeds the predetermined threshold resistance, the charging operation control unit that performs the charging operation while executing the operation of continuing charging by selecting the charging voltage frequency from among the predetermined charging voltage frequencies of the various stages one or more times; is composed

Description

Capacity restoration apparatus for secondary battery

According to the present invention, when the capacity restoration operation is started after the basic setting of the capacity of the secondary battery, the charging voltage frequency signal of various stages is automatically sent sequentially to the set secondary battery, and the optimal charging voltage frequency signal is recognized according to the response. The charging operation is carried out with the corresponding charging voltage, and whenever the resistance increases during charging, the optimum charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the corresponding charging voltage frequency. The present invention relates to a capacity restoration device for a secondary battery that maximizes capacity restoration efficiency.

In general, a secondary battery refers to a battery that converts chemical energy into electrical energy to supply power to an external circuit, receives external power during discharge, and converts electrical energy into chemical energy to store electricity.

Taking a lead-acid battery as an example, a lead-acid battery generates electricity by causing a chemical reaction between an electrode plate including an anode plate made of lead peroxide and a cathode plate made of lead, and an electrolyte solution made of dilute sulfuric acid. will recover

In addition, lead-acid batteries are designed in such a way as to maximize the contact area between the electrode plate and the electrolyte by arranging the positive and negative plates to face each other by connecting several thin plates in parallel. PbSO4) and water are produced, sulfate is attached to the positive and negative plates, and the density of the electrolyte is lowered due to the generated water.

However, in lead-acid batteries, when repeated charging and discharging for a long period of time progresses, the sulfuration phenomenon in which the sulfate adhering to the electrode plate remains without being separated during charging occurs. Thus, the insulating function was performed, thereby reducing the voltage, capacity and specific gravity of the lead-acid battery.

And this is not a problem only for lead-acid batteries, and phenomena similar to the above-mentioned difficulties occurred in most secondary batteries.

To elaborate, most of the secondary batteries have a shortened lifespan due to the above-mentioned difficulties, which leads to the mass production of a relatively large number of waste batteries, making it difficult to dispose of waste batteries in countries around the world. In other words, chemical contamination occurs due to the decomposition of waste batteries. Therefore, in developed countries, it is legal for battery manufacturers and suppliers to collect the required amount of waste batteries. making it possible to dispose of it.

And although the safe treatment of these waste batteries is important, the more important thing to recognize and implement is to restore the waste batteries as much as possible to increase the recycling efficiency.

As a result, various technologies for the restoration of waste batteries have been published, but the restoration efficiency is lower than 20%, which does not give users confidence, and the excessive restoration work of high voltage is carried out to match the profitability of the relatively expensive restoration device. The adverse function of further shortening the battery life was also brought about.

Therefore, there is a need for a method that can significantly improve the recovery efficiency of the waste battery and reduce the mass production of the waste battery through it.

Korean Patent Registration No. 10-1663026 (2016.10.06. Announcement.), “Capacity Restoration Method of Lithium Secondary Battery” Korean Patent Registration No. 10-1963034 (2019.03.27. Announcement), “Method of recovery and reuse of secondary battery” Korean Patent Registration No. 10-1258556 (2013.05.02. Announcement), “Battery restoration system and driving method with real-time diagnosis function”

According to an embodiment of the present invention, when the capacity restoration operation starts after the basic setting of the capacity of the secondary battery, the charging voltage frequency signal of several stages is automatically sequentially sent to the set secondary battery and the optimal charging voltage frequency signal according to the response After recognizing , the charging operation is carried out with the corresponding charging voltage, and whenever the resistance increases during charging, the optimum charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the charging voltage frequency. To provide a capacity restoration device for a secondary battery that maximizes the capacity restoration efficiency of the battery.

In the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention, a battery connection part to which an electrode of a secondary battery to be charged is connected, and a charging voltage frequency of a secondary battery connected to the battery connection part is selected from among predetermined charging voltage frequencies of several stages. In accordance with the input of the charging voltage frequency setting unit, the charging start signal, the charging operation is started from the charging voltage frequency set through the charging voltage frequency setting unit, and when the resistance exceeds a predetermined threshold resistance during charging, the predetermined The charging operation control unit may include a charging operation control unit that performs a charging operation while performing an operation of continuing charging by selecting a charging voltage frequency from among the charging voltage frequencies of several stages one or more times.

In addition, the charging operation control unit performs a pre-charging operation from the charging power for the secondary battery two or more times and then discharging the entire charging power through the pre-charging operations to the secondary battery at once to charge the secondary battery. In the operation, the capacity restoration apparatus of the secondary battery according to an embodiment of the present invention discharges the entire charging power through the pre-charging operations to the secondary battery at one time as the number of times of one charge/discharge, and the number of charge/discharge It may further include a charge/discharge number setting unit for setting the.

In addition, the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention further includes a charging cycle setting unit for setting the number of times of the pre-charging operation, each charging time, and each charging cycle based on the number of times of one charge and discharge. can do.

In addition, the charging operation control unit is a real-time charging voltage frequency of the secondary battery that is charging the operation of re-selecting the charging voltage frequency of another stage after starting the charging operation from the charging voltage frequency set through the charging voltage frequency setting unit before the charging operation starts It may be designed to automatically select based on Therefore, the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention may further include an operation mode selection switch that allows the selection operation of the charging voltage frequencies of the charging operation control unit to be selected from an automatic mode or a manual mode. have. And the operation mode selection switch may include a lighting module that is turned on when the automatic mode is selected for visual confirmation of the selected mode among the automatic mode and the manual mode.

In addition, the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention further includes a load connection part to which a load for discharging is connected, and the charging operation of the charging operation control unit is started while the load for discharging is connected to the load connection part. it may be

In addition, the charging voltage frequency may be set in advance as a charging frequency of a total of 27 stages consisting of three sets of 9 stages as one set.

According to an embodiment of the present invention, when the capacity restoration operation is started after the basic setting of the capacity of the secondary battery, the charging voltage frequency signals of various stages are automatically sent sequentially to the set secondary battery, and the optimal charging voltage according to the response After the frequency signal is recognized, the charging operation proceeds with the corresponding charging voltage, and whenever the resistance increases during charging, the optimal charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the corresponding charging voltage frequency. , the charging efficiency and thus the capacity restoration efficiency of the battery can be maximized.

In particular, when using in automatic mode, if only basic conditions such as the capacity of the rechargeable battery to be restored are set, the above-described charging and restoration work is automatically completed and then ended, so the user's operational convenience is greatly improved while charging efficiency and battery As the capacity restoration efficiency of the product is maximized, the functionality and reliability of the product are greatly increased.

1 is a block diagram illustrating a basic configuration of an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention;
2 is a block diagram illustrating an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention;
3 is a perspective view illustrating an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention as a live-action image;
4 is a perspective view illustrating an operating state of the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention as a live-action image;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of the present invention is an embodiment in which the present invention may be practiced, and reference is made to the accompanying drawings shown by way of example of the embodiment. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment. In addition, it should be understood that the position or arrangement of individual components in each described embodiment may be changed without departing from the spirit and scope of the present invention.

Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the present invention, when a part "includes" a certain component in the whole, this means that other components may be further included, not excluding other components, unless otherwise stated. In addition, the “… wealth", "… The term “module” means a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software.

An apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4 .

1 is a block diagram illustrating a basic configuration of an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention.

As shown, the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention includes a battery connection unit 110 , a charging voltage frequency setting unit 120 , and a charging operation control unit 130 . Before the description, it is self-evident that the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention includes a structure for receiving charging power from an external power source for charging and restoring capacity of the secondary battery. It should be noted that the detailed description and illustration of the corresponding configuration have been omitted.

The battery transfer unit 110 is connected to the electrode of the secondary battery 10 to be charged.

The charging voltage frequency setting unit 120 functions to select the charging voltage frequency of the secondary battery 10 connected to the battery connection unit 110 from among the charging voltage frequencies of several predetermined stages. Here, the charging voltage frequency may be set in advance as a charging frequency of a total of 27 stages consisting of three sets of 9 stages as one set.

The charging operation control unit 130 starts the charging operation starting with the charging voltage frequency set through the charging voltage frequency setting unit 120 according to the input of the charging start signal, and when the resistance during charging exceeds a predetermined threshold resistance The charging operation is performed while the charging voltage frequency is selected again from among the predetermined charging voltage frequencies of the various stages and the charging is continued one or more times.

According to the above configuration, when the capacity restoration operation is started after the basic setting of the capacity of the secondary battery to be restored, the charging voltage frequency signal of several stages is automatically sent sequentially to the set secondary battery in order to optimize the battery according to the response. After recognizing the charging voltage frequency signal, the charging operation is carried out with the corresponding charging voltage, and whenever the resistance increases during charging, the optimum charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the corresponding charging voltage frequency. Accordingly, the charging efficiency and the capacity recovery efficiency of the battery can be remarkably increased.

Next, an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention will be described with reference to FIGS. 2 to 4 .

2 is a block diagram illustrating an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention, and FIG. 3 is a perspective view illustrating an apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention as a live-action image, 4 is a perspective view illustrating an operating state of the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention as a live-action image.

As shown, the apparatus for restoring capacity of a secondary battery according to an embodiment of the present invention includes a battery connection unit 210 , a charging voltage frequency setting unit 220 , a charging operation control unit 230 , and a charging/discharging frequency setting unit 240 . , a charging cycle setting unit 250 , an operation mode selection switch 260 and a load connection unit 270 .

Prior to the description, the basic configuration and operation of the battery connection unit 210, the charging voltage frequency setting unit 220 and the charging operation control unit 230 of this embodiment overlap with the corresponding components described with reference to FIG. 1, but in this embodiment For the sake of overall explanation, I will explain it again. In addition, it is self-evident that the apparatus for restoring the capacity of a secondary battery according to the present embodiment includes a structure for receiving charging power from an external power source for charging and restoring the capacity of the secondary battery. It should be noted that detailed descriptions and illustrations have been omitted.

The battery transfer unit 210 is connected to an electrode of the secondary battery 10 to be charged.

The charging voltage frequency setting unit 220 functions to select the charging voltage frequency of the secondary battery 10 connected to the battery connection unit 210 from among the charging voltage frequencies of several predetermined stages. Here, the charging voltage frequency may be set in advance as a charging frequency of a total of 27 stages consisting of three sets of 9 stages as one set.

The charging operation control unit 230 starts the charging operation starting with the charging voltage frequency set through the charging voltage frequency setting unit 220 according to the input of the charging start signal, and when the resistance during charging exceeds a predetermined threshold resistance The charging operation is performed while the charging voltage frequency is selected again from among the predetermined charging voltage frequencies of the various stages and the charging is continued one or more times. Here, the charging operation control unit 130 performs a pre-charging operation from the charging power for the secondary battery 10 two or more times and then discharging the entire charging power through the pre-charging operations to the secondary battery 10 at once. Thus, the charging operation of the secondary battery 10 may be performed. Accordingly, the apparatus for restoring the capacity of the secondary battery according to the present embodiment includes the charge/discharge frequency setting unit 140 . The charge/discharge frequency setting unit 140 functions to set the number of times of charging and discharging as one charge/discharge number of discharging the entire charging power through the pre-charging operations to the secondary battery at a time.

And the charging method of the above-described charging operation control unit 130 can be implemented through the contents posted in Republic of Korea Patent Registration No. 10-1131664 (Name of the invention: high-efficiency charging device using switching arrangement and charging and discharging), and other Since it can be implemented in various forms through known technology, detailed description and illustration thereof will be omitted in the present embodiment.

In addition, the charging operation control unit 230 is the secondary battery 10 charging the operation of re-selecting the charging voltage frequency of another stage after starting the charging operation from the charging voltage frequency set through the charging voltage frequency setting unit 220 before starting the charging operation. ) may be designed to automatically select based on the real-time charging voltage frequency.

Therefore, the apparatus for restoring the capacity of the secondary battery according to the present embodiment further includes an operation mode selection switch 260 that allows the selection operation of the charging voltage frequencies of the charging operation control unit 230 to be selected from an automatic mode or a manual mode. may include In addition, the operation mode selection switch 260 may include a lighting module 261 that is turned on when the automatic mode is selected for visual confirmation of the selected mode among the automatic mode and the manual mode. In this embodiment, the LED is used as the lighting module 261 as an example, but the present invention is not limited thereto. Various lighting elements may be used within a satisfactory range.

The charging cycle setting unit 250 functions to set the number of times of the pre-charging operation, each charging time, and each charging cycle based on the number of times of charging and discharging once.

The load connection unit 270 is connected to the discharge load 20 . In the secondary battery capacity restoration apparatus according to the present embodiment, the charging operation of the charging operation control unit 230 is started in a state in which the discharging load 20 is connected to the load connection unit 270 .

A process of using the apparatus for restoring capacity of a secondary battery having the above-described configuration will be exemplarily described as follows.

1. A discharge load is connected to the load connection part 270 on the rear side of the device.

2. Turn on the DC Power Supply and set the output voltage to the rated voltage of 15.4V.

3. Connect the secondary battery 10 to be restored to the battery connection part 210 .

4. Turn on the power switch.

5. Operate the charging frequency selection switch of the charging voltage frequency setting unit 220 to select a desired charging voltage frequency.

6. Operate the charging cycle selection switch of the charging cycle setting unit 250 to select a desired cycle.

7. Operate the operation mode selection switch 260 to select a desired operation mode.

8. Operate the charge/discharge frequency selection switch of the charge/discharge count setting unit 240 to select the number of charge/discharge counts.

9. Manipulate the charging start switch to start the restoration work for the secondary battery 10. (LED flickers when discharging starts.)

10. When the charging operation is completed for the number of charging/discharging selected through No. 8, the buzzer inside the device sounds and the LED on the front of the device generates a blinking signal. Hold it until it goes down to 0.22A.

11. When the restoration of the secondary battery 10 is completed, the secondary battery 10 is separated from the device and another secondary battery 10 to be restored is set again.

According to the above configuration, when the capacity restoration operation is started after the basic setting of the capacity of the secondary battery to be restored, the charging voltage frequency signal of several stages is automatically sent sequentially to the set secondary battery in order to optimize the battery according to the response. After recognizing the charging voltage frequency signal, the charging operation is carried out with the corresponding charging voltage, and whenever the resistance increases during charging, the optimum charging voltage frequency is found again and the charging process is repeated with the charging voltage according to the corresponding charging voltage frequency. Accordingly, the charging efficiency and the capacity recovery efficiency of the battery can be remarkably increased.

In addition, it is possible to select and use manual mode and automatic mode. When selecting the automatic mode, if only basic conditions such as the capacity of the secondary battery to be restored are set, the above-described charging and restoration operations are automatically completed and then ended, so the operation and Accordingly, the capacity restoration operation can be performed very easily.

As described above, in the present description, specific matters such as specific components and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments No, various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments and should not be written, and not only the claims described below, but also all of the claims and all equivalents or equivalent modifications to these claims will fall within the scope of the spirit of the present invention.

10: secondary battery 20: load
110.210: battery connection unit 120, 220: charging frequency setting unit
130,230: charge operation control unit 240: charge/discharge count setting unit
250: charging cycle setting unit 260: operation mode selection switch
261: lighting module 270: load connection part

Claims (8)

a battery connection part to which an electrode of a secondary battery to be charged is connected;
a charging voltage frequency setting unit for selecting a charging voltage frequency of the secondary battery connected to the battery connection unit from among predetermined charging voltage frequencies of various stages;
According to the input of the charging start signal, the charging operation is started from the charging voltage frequency set through the charging voltage frequency setting unit. Including; and a charging operation control unit that performs the charging operation while executing the operation of continuing charging by selecting the charging voltage frequency again one or more times;
The charging operation control unit is based on the real-time charging voltage frequency of the secondary battery charging the operation of reselecting the charging voltage frequency of another stage after starting the charging operation from the charging voltage frequency set through the charging voltage frequency setting unit before starting the charging operation A device for restoring capacity of a secondary battery, characterized in that it is designed to be automatically selected as The method of claim 1,
The charging operation control unit performs the charging operation of the secondary battery in such a way that after performing the pre-charging operation two or more times from the charging power for the secondary battery, the entire charging power through the pre-charging operations is discharged to the secondary battery at once proceed,
The secondary battery, characterized in that it further comprises a charge/discharge number setting unit for setting the number of charge/discharge by using discharging the entire charging power through the pre-charging operations to the secondary battery at one time as the number of charge/discharge times. capacity restoration device. 3. The method of claim 2,
The capacity restoration apparatus of the secondary battery, characterized in that it further comprises a charging cycle setting unit for setting the number of times of the pre-charging operation, each charging time, and each charging cycle based on the number of times of one charge and discharge. delete The method of claim 1,
The apparatus for restoring the capacity of a secondary battery, characterized in that it further comprises an operation mode selection switch that allows the selection operation of the charging voltage frequencies of the charging operation control unit to be selected from an automatic mode or a manual mode. 6. The method of claim 5,
The operation mode selection switch is an apparatus for restoring capacity of a secondary battery, characterized in that it includes a lighting module that is turned on when the automatic mode is selected for visual confirmation of the selected mode among the automatic mode and the manual mode. The method of claim 1,
It further comprises a load connection to which a load for discharging is connected,
In a state in which a discharging load is connected to the load connection unit, the charging operation of the charging operation control unit is started. The method of claim 1,
The charging voltage frequency comprises three sets of 9 stages as one set and is preset as a charging frequency of 27 stages in total.

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