KR200331886Y1 - Battery charger and discharger - Google Patents

Abstract

The present invention relates to a battery charger for performing a charge and discharge on a hard-packed battery of the battery manufacturing process. In more detail, the charge / discharge channel is modularized to be detachable from the main board, and various input / output lines of the main board are disposed in front of the main board by using a connection board. It relates to a charger.

The present invention is a main board having a plurality of connection terminals on the upper and lower surfaces, and a charge and discharge channel attached to and detached from the main board by the modular configuration of the channel board and the circuit board, and input and output for input and output of large current and signal flow A connection board having a connection terminal for interconnecting the port and the main board, and cooling means for guiding heat dissipation of the charge / discharge channel to the outside and intensive cooling effect on the charge / discharge channel.

According to the present invention, it is possible to improve the degree of integration while minimizing the number of charging and discharging channels and to minimize the installation space. In addition, not only the ease of channel replacement is provided, but also the pre-processing of various input / output lines and the separation of the wiring and the charger unit are easy, and there is an advantage of improving the cooling efficiency by the centralized cooling method by the duct.

Description

Battery Chargers {BATTERY CHARGER AND DISCHARGER}

The present invention relates to a charge / discharger used as a production facility in the charge and discharge process of the battery manufacturing process. More specifically, the charge / discharge channel can be modularized to be detachable from the main board, and various input / output lines of the main board can be disposed in front of the board using the connection board, and the centralized cooling method by the duct structure can be implemented. It relates to a battery charger.

In general, the battery is to obtain electrical energy by using a chemical or physical reaction, the chemical battery is divided into a primary battery and a secondary battery.

Here, the primary battery uses the electrical energy generated by the chemical change of the material by putting the active material near the electrode in advance, and when the chemical change of the active material is over, the primary battery cannot be regenerated and used as a representative example of the primary battery. A battery is mentioned.

In addition, the secondary battery emits electrical energy so that the functional material can be regenerated by supplying electrical energy to the battery, i.e., charging the battery after the functional material changes, and a representative example of the secondary battery may be a storage battery. At this time, the storage battery is a device that can be used as a power source by generating a direct-current electromotive force by a chemical action composed of a positive and negative electrode plate and an electrolyte. Examples of such accumulators include lead acid batteries, alkaline batteries and lithium batteries. Lithium batteries, which have the advantages of high energy density, light weight, high voltage, pollution-free, high power, high speed charging and excellent lifespan, are in the spotlight. The lithium battery is classified into a lithium ion battery, a lithium ion polymer battery and a lithium metal polymer battery.

Such a lithium battery has a principle that lithium ions in the positive electrode active material are discharged and stored in the carbon layer as the negative electrode active material during charging, and the lithium ions stored in the carbon layer are returned to the positive electrode active material layer during discharge. It is to use.

On the other hand, as an example of the battery manufacturing process, when describing the manufacturing process of the lithium battery having the above-described principles and functions, hard to be assembled in the case after the circuit, terminal or connecting parts to the bare cell It consists of a hard pack process and a charge / discharge process of charging and discharging the hard pack. Here, the shape and shape of the battery is determined according to the use and required characteristics of the product during the hard pack process, the performance of the battery is determined and determined whether or not the battery during the charge and discharge process.

During the charging and discharging process of the manufacturing process, a charging and discharging battery for charging and discharging the battery is used as a production facility. Since charging and discharging of about 10 hours is required per battery, the charging and discharging battery is charged at a time. In order to discharge, there is a need for a structural need to increase the integration degree of the charge and discharge channel and to minimize the installation space.

However, the battery charger and battery according to the prior art has a structure in which a channel board is integrated and fixedly disposed on a main board, and a plurality of circuit boards are fixed to each other by left and right sides to form charge / discharge channels. Although it is configured, the efficiency of channel integration and installation space is inferior, and it is not easy to replace due to the integration of the channel board and the fixing of the circuit board, and there is a problem that a lot of work time is required due to assembly and disassembly.

In addition, in the conventional battery charger and discharge unit, various input / output lines for large current and signal flow are arranged and operated on the left and right sides of the main board, which makes the connection system with other production facilities for charging and discharging complicated and the charger unit (unit). ) Was difficult to separate and there was a problem that causes inconvenience.

In addition, the conventional battery charger has a problem that the cooling efficiency due to the heat dissipation of the charge-discharge channel as a natural cooling structure is inferior.

The present invention was devised to solve the problems of the prior art, and the charge / discharge channel is modularized to be detachable to the main board so that the charge / discharge channel is multi-channel, but the integration density can be minimized and the installation space can be minimized. The purpose is to facilitate channel replacement.

In addition, an object of the present invention is to facilitate the separation of the wire processing and wiring and the charger unit by allowing the front and rear of various input and output lines of the main board using a connection board.

Furthermore, an object of the present invention is to improve the cooling efficiency by intensive cooling by employing a cooling fan and a duct structure in the charger.

1 is an exploded perspective view showing a battery charger and charger according to the present invention.

Figure 2 is a perspective view showing an embodiment of a battery charger according to the present invention.

Figure 3 is a photograph showing a charger unit of the present invention.

4 is a photograph showing an example of a battery charger / discharger in which the charger / discharger unit of FIG. 3 is inserted.

Explanation of symbols on the main parts of the drawings

100: charger unit 110: the main board

111,112 connector 120: charge / discharge channel

121: channel board 122: circuit board

123: terminal pin 130: connection board

131: input and output port 132: connection terminal

140: cooling means 141: air duct

142: cooling fan 150: socket board

In order to achieve the above object, the present invention provides a battery charger comprising a charger unit, wherein the charger unit includes a main board, a channel board, and a circuit board, each having a connection terminal on the upper and lower surfaces thereof. And a connection board having a charge / discharge channel attached to and detached from the main board, an input / output port for input / output of a large current and signal flow, and a connection terminal for interconnection with the main board.

In addition, the charging and discharging unit of the present invention further includes a cooling means for inducing heat dissipation of the charging and discharging channel to the outside and intensive cooling effect on the charging and discharging channel.

Here, the cooling means is composed of an air duct installed above the charge / discharge channel and a cooling fan installed at the rear side of the charge / discharge channel, and the input / output port of the connection board is disposed in one direction in front of the board.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is an exploded perspective view showing a battery charger and charger according to the present invention.

As shown in FIG. 1, the battery charger / discharger according to the present invention has a configuration of a charger / discharge unit 100, and is used to charge / discharge a hard-packed battery as a production facility used in a charge / discharge process during a battery manufacturing process. Production equipment to make

The charger / discharge unit 100 includes a main board 110 having a plurality of connection terminals 111 and 112 at upper and lower surfaces, and a main board 110 having a modular configuration of a channel board 121 and a circuit board 122. Connection board 130 having a charging / discharging channel 120 detached / attached thereto, an input / output port 131 for input / output of a large current and a signal flow, and a connection terminal 132 for interconnection with the main board 110; And a cooling means 140 which induces heat dissipation of the charge / discharge channel 120 to the outside and provides a concentrated cooling effect to the charge / discharge channel 120.

In this case, the plurality of connection terminals 111 provided on the upper surface of the main board 110 are used for coupling and disconnection with the modular charge / discharge channel 120 and at the same time, the connection terminals 132 of the connection board 130. And a function of transmitting signal flows of the charge / discharge channel 120 and the input / output port 131 by interconnection with each other, and have the same formation as or greater than the number of charge / discharge channels 120 provided. It is desirable to. In addition, the connection terminal 112 provided on the bottom edge of the main board 110 provides a more stable coupling force with the connection board 130.

A plurality of chips and various electronic components are mounted on the main board 110.

The channel board 121 of the charge / discharge channel 120 has a structure of one set of two channels, and is attached / removed to the main board 110 by a terminal pin 123 installed on the circuit board 122.

The connection board 130 has a structure in which the input / output port 131 is arranged in one direction in front of the board 130 and the input / output port 131 and the connection terminal 132 are connected to each other by a printing pattern. . In addition, the connection board 130 is provided with a coupling terminal 133 corresponding to the connection terminal 112 on the lower surface of the main board 110 and is coupled to each other.

The cooling means 140 includes an air duct 141 installed above the charge / discharge channel 120 and a cooling fan 142 installed at the rear side of the charge / discharge channel 120.

Referring to the coupling relationship and operation of the battery charger and charger according to the present invention made of such a configuration as follows.

The charge / discharge channel 120 in which the channel board 121 and the circuit board 122 are modularized is provided on the main board 110 in accordance with the design situation. For example, a charge / discharge channel including a charge / discharge channel that forms 64 channels with 32 channel boards is configured to facilitate a multi-channel configuration having a high degree of integration.

In this case, the charge / discharge channel 120 is connected to the main board 110 by male and female coupling between the terminal pin 123 installed on the circuit board 122 and the connection terminal 111 disposed on the upper surface of the main board 110. ) Is mounted on. Here, the charging and discharging channel 120 promotes modularization and is detached / attached to the main board 110 so that the channel can be easily replaced in the case of repair or failure, and the design change can be easily performed. There is an advantage to save.

When the charge / discharge channel 120 is mounted on the main board 110, the connection board 130 is coupled to the bottom surface of the main board 110. At this time, by forming a pattern and utilizing the connection board 130 in which the input / output port 131 is disposed in the front direction in a single direction, it is easy to process and wire a large number of input / output lines that have been arranged left / right using only a main board. It is possible to change the design according to the situation. In addition, the front and back of the various input and output lines can be easily configured or separated device of the charger unit, and can be easily connected with other production equipment used in the battery manufacturing process can be facilitated the production work.

When the charge / discharge channel 120 and the connection board 130 are coupled to the main board 110, the cooling means 140 for intensive cooling of the charge / discharge channel is installed. At this time, the air duct 141 of the cooling means 140 is located on the upper side of the charge and discharge channel 120 is seated / fixed on the main board 110 and the cooling fan 142 is connected to the rear side. Here, the cooling fan 142 provides the air for heat absorption and cooling to the charge and discharge channel 120 to absorb and discharge the heat radiation of the charge and discharge channel 120 to the outside, the air duct 141 of the air flow By preventing the dispersion, centralized cooling is performed in the charge / discharge channel 120.

When the coupling as described above is completed, the coupling structure is fastened on the socket board 150 to configure the charger unit 100. That is, the battery charger / discharger is completed.

On the other hand, the coupling order for the battery charger and charger of the present invention is not limited to the above, it will be obvious that the line before and after the coupling is not determined.

FIG. 2 is a perspective view showing an embodiment of a battery charger and battery according to the present invention. As shown in FIG. 2, the battery charger 1 includes four charger units 100 configured as described above in a housing. Assemble For example, a design having 64 channels per charger unit is a battery charger that constitutes 256 channels in total. Here, the charging and discharging unit 100 itself is a battery charging and discharging unit, it is possible to change the design in a variety of configurations for improving the production efficiency in the battery manufacturing process.

On the other hand, in order to help the improved understanding of the battery charger and battery according to the present invention is shown in Figure 3 the configuration picture of the charger unit, Figure 4 is a perspective view of the battery charger and charger is inserted in Figure 4 as a photograph Indicated.

As described above, according to the battery charger / discharger according to the present invention, the charge / discharge channel may be modularized to be detachable from the main board, thereby improving the integration degree while making the charge / discharge channel multichannel. In addition, the structure is simple, the installation space can be minimized, and the channel is easy to replace.

In particular, the present invention is to facilitate the separation of the line processing and wiring and the charger unit by allowing the front and rear various input and output lines of the main board using a connection board.

Furthermore, the present invention has the advantage of pursuing the stabilization of the device by improving the cooling efficiency by adopting the concentrated cooling method by the duct structure.

Claims (5)

In the battery charger / discharger composed of a charger unit, The charging and discharging unit has a main board having a connection terminal on the upper and lower surfaces, respectively; Charge / discharge channel which is detached / attached to main board by modular structure of channel board and circuit board, A battery charger comprising: a connection board having an input / output port for input / output of high current and signal flow and a connection terminal for interconnection with a main board. The method of claim 1, The charging and discharging unit further comprises a cooling means for inducing heat dissipation of the charging and discharging channel to the outside and intensive cooling effect on the charging and discharging channel. The method of claim 2, The cooling means is an air duct installed on the upper side of the charge and discharge channel; A battery charge / discharger, comprising: a cooling fan installed at a rear side of a charge / discharge channel. The method of claim 1, The input / output port of the connection board is a battery charger, characterized in that arranged in one direction in front of the board. The method of claim 1, The connection board is a battery charger, characterized in that the input and output ports and the connection terminal are interconnected by a printing pattern.