KR102319501B1 - Easy assembling battery power pack - Google Patents

Abstract

The present invention relates to a battery power pack that is easy to assemble, and includes a housing, a battery unit installed in the housing, a battery unit charged with predetermined power, and an external electronic device installed in the housing to be connected, the battery unit an output unit connected to and supplying electricity from the battery unit to the external electronic device; and a voltage conversion module converting a voltage of electricity supplied from the battery unit to the output unit into a voltage suitable for the external electronic device; and a connection unit. and a battery management module connected to the battery unit by and a binding terminal, and a binding pin installed on the other of the battery unit and the battery management module so as to be connected to the binding terminal.
The easy-to-assemble battery power pack according to the present invention has an advantage in that the battery unit and the battery management module are coupled by a binding terminal and a binding pin instead of a connection cable, so that the assembly of the battery unit and the battery management module is excellent.

Description

Easy assembling battery power pack

The present invention relates to an easy-to-assemble battery power pack, and more particularly, to an easy-to-assemble battery power pack in which a battery unit and a battery management module are assembled by binding terminals and binding pins.

A battery pack as an energy storage device is composed of a plurality of battery cells connected in series or in parallel. used as a power supply for

Recently, lithium batteries are mainly used as batteries included in the battery pack as the energy storage device. The lithium batteries include a lithium ion battery using a liquid electrolyte and a lithium polymer battery using a solid polymer.

The battery pack is used as a module by connecting a plurality of lithium-ion batteries in series or in parallel. The battery pack has a structure in which a PCB board including a battery cell and a battery management system (BMS) is combined.

Here, in the battery cell, an electrode stacking unit comprising a positive electrode sheet and a negative electrode sheet is accommodated in a metal casing, and a positive electrode terminal and a negative electrode terminal are provided on an outer surface of the casing.

However, the conventional battery pack has a disadvantage in that assembly is cumbersome because a battery unit including a plurality of battery cells and a battery management system are connected by a plurality of connecting cables.

Registered Patent Publication No. 10-1294207: Fuel Cell Hybrid Power Pack

An object of the present invention is to provide an easy-to-assemble battery power pack in which a battery unit and a battery management module are assembled by binding terminals and binding pins.

An easy-to-assemble battery power pack according to the present invention for achieving the above object includes a housing, installed in the housing, and installed in the housing so that a battery unit charged with predetermined power and an external electronic device can be connected, , an output unit connected to the battery unit for supplying electricity from the battery unit to the external electronic device, and a voltage conversion module for converting a voltage of electricity supplied from the battery unit to the output unit into a voltage suitable for the external electronic device and a battery management module connected to the battery unit by a connection unit and configured to monitor a state of the battery unit or control an operating state of the battery unit, wherein the connection unit includes any one of the battery unit and the battery management module. It includes a binding terminal installed on one of the binding terminals, and a binding pin installed on the other of the battery unit and the battery management module so as to be connected to the binding terminal.

The housing includes an inner frame provided with a plurality of spaces in which the battery unit and the voltage conversion module are accommodated, respectively, an inner space provided to accommodate the inner frame, and an outer frame in which the output unit is installed; The frame has a first main accommodating groove for forming a first accommodating space for accommodating the battery unit on one side thereof, and a second for accommodating the voltage conversion module on one side of an upper side of the first main accommodating groove. A first coupling frame provided with a first sub receiving groove for forming a receiving space, and coupled to one side of the first coupling frame so as to be coupled to the first coupling frame to form the first and second storage spaces a second coupling frame in which a second main receiving groove corresponding to the first main receiving groove is formed on one side of the first receiving groove and having a second sub receiving groove corresponding to the first sub receiving groove; A plurality of contact plates that are respectively installed at both ends of the first and second coupling frames coupled to each other so as to fix the two coupling frames to each other, respectively, and are in contact with both ends of the first and second coupling frames coupled to each other; , a plurality of extension members extending to be bent toward the other side of the first and second coupling frames on the edges of the contact plates so as to be in contact with the other side surfaces of the first and second coupling frames, and the extension members and a fixing unit including a plurality of fixing members for fixing to the other side surfaces of the first and second coupling frames.

A third storage space is provided on the other side of the first and second coupling frames so that the battery management module can be coupled, and the third storage space includes the second storage space so that the battery management module and the battery unit can be interconnected. It is formed to communicate with the first main receiving groove or the second main receiving groove.

The battery unit includes a positive terminal and a negative terminal, a plurality of battery cells for supplying charged power, an upper cell holder member disposed above the battery cells while accommodating the plurality of battery cells, and the battery cells A plurality of electrode connection members installed on the upper cell holder member and the lower cell holder member so as to connect the electrodes of the battery cells adjacent to each other with a lower cell holder member disposed under the battery cell while accommodating a plurality of , a battery connecting member for electrically connecting the adjacent electrode connecting members to each other, wherein the electrode connecting member has an inlet groove drawn in from an edge to the inside by a predetermined depth in a central portion thereof, the upper cell holder member and the lower portion The cell holder member is provided with a plurality of insertion holes so that the end of the battery cell can be inserted, between the insertion holes to prevent the electrode connection member from being separated, to be inserted into the inlet groove of the electrode connection member. A separation prevention protrusion may be formed so as to be able to do so.

The easy-to-assemble battery power pack according to the present invention has an advantage in that the battery unit and the battery management module are coupled by a binding terminal and a binding pin instead of a connection cable, so that the assembly of the battery unit and the battery management module is excellent.

1 is a perspective view of a battery power pack that is easy to assemble according to the present invention;
2 is an exploded perspective view of the easily assembled battery power pack of FIG. 1;
3 is an exploded perspective view of the housing of the easily assembled battery power pack of FIG. 1;
4 is an exploded perspective view of the connection unit of the easily assembled battery power pack of FIG. 1;
5 is an exploded perspective view of the battery unit of the easily assembled battery power pack of FIG. 1 .

Hereinafter, an easy-to-assemble battery power pack according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Since the present invention can have various changes and can have various forms, specific embodiments are illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing each figure, like reference numerals have been used for like elements. In the accompanying drawings, the dimensions of the structures are enlarged than the actual size for clarity of the present invention.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

1 to 5 illustrate an easy-to-assemble battery power pack 100 according to the present invention.

Referring to the drawings, the battery power pack 100, which is easily assembled, is installed in a housing 200, the housing 200, a battery unit 300 charged with a predetermined power, and an external electronic device are connected. an output unit 400 installed in the housing 200 so as to be able to be, and connected to the battery unit 300 to supply electricity from the battery unit 300 to the external electronic device, and the battery unit 300 is connected to the battery unit 300 by a voltage conversion module 500 for converting the voltage of electricity supplied to the output unit 400 into a voltage suitable for the external electronic device, and a connection unit, and the battery unit ( A battery management module 230 for monitoring the state of 300) or controlling the operating state of the battery unit is provided.

The housing 200 has an inner frame 210 provided with a plurality of spaces in which the battery unit 300 and the voltage conversion module 500 are accommodated, respectively, and an inner space 223 so that the inner frame 210 can be accommodated. is provided, and an external frame 220 in which the output unit 400 is installed is provided.

The inner frame 210 includes a first coupling frame 211 , a second coupling frame 212 , and a fixing unit 213 .

The first coupling frame 211 has a first main accommodating groove 231 formed on one side thereof to form a first accommodating space for accommodating the battery unit 300 . The first main receiving groove 231 is formed in the lower portion of the first coupling frame 211, and is formed to be drawn in from one side of the first coupling frame 211 to the other side by a predetermined depth. In addition, the first coupling frame 211 is formed so that the front or rear surface of the first main receiving groove 231 is opened.

In addition, the first coupling frame 211 is a first sub receiving groove 232 for forming a second storage space for accommodating the voltage conversion module 500 on one side of the upper side of the first main receiving groove 231 . ) is formed. The first sub-accommodating groove 232 is formed on the upper portion of the first coupling frame 211 , and is formed to be inserted by a predetermined depth from one side of the first coupling frame 211 to the other side. Here, the first coupling frame 211 is preferably formed so that the front or rear of the first sub-accommodating groove 232 is open.

The second coupling frame 212 is coupled to the first coupling frame 211 to form the first storage space on one side coupled to one side of the first coupling frame 211, the first A second main receiving groove 241 corresponding to the main receiving groove 231 is formed. The second main receiving groove 241 is formed in the lower portion of the second coupling frame 212, and is formed to be drawn in from one side of the second coupling frame 212 to the other side by a predetermined depth. In addition, the second coupling frame 212 is formed so that the front or rear of the second main receiving groove 241 is open.

In addition, the second coupling frame 212 is coupled to the first coupling frame 211 to form the second storage space with a second sub receiving groove 242 corresponding to the first sub receiving groove 232 . ) is formed. The second sub-accommodating groove 242 is formed on the upper portion of the second coupling frame 212, and is formed to be drawn in a predetermined depth from one side of the second coupling frame 212 to the other side. Here, the second coupling frame 212 is preferably formed so that the front or rear surface of the second sub receiving groove 242 is open.

On the other hand, the first and second coupling frames 211 and 212 have a third storage space 243 formed on the other side thereof so that the battery management module 230 for monitoring the state of the battery unit 300 can be coupled thereto. .

The third storage space 243 is formed under the first and second coupling frames 211 and 212, and is formed to be inserted by a predetermined depth in the direction from the other side of the first and second coupling frames 211 and 212 to one side. In addition, the first and second coupling frames 211 and 212 have a plurality of perforated holes 245 on the lower side of the other side so that the third storage space 243 communicates with the first main receiving groove 231 or the second main receiving groove 241 . ) is formed.

The fixing unit 213 is installed at both ends of the first and second coupling frames coupled to each other so as to fix the first and second coupling frames to each other, and includes a plurality of contact plates 251 and a plurality of extensions. A member 252 and a plurality of fixing members (not shown) are provided.

The contact plate 251 is in contact with the front and rear ends of the first and second coupling frames 211 and 212 coupled to each other, respectively, and is formed in a plate shape having a predetermined thickness. Here, the contact plate 251 extends in the vertical direction with a length corresponding to the vertical length of the first and second coupling frames 211 and 212, and corresponds to the width of the first and second coupling frames 211 and 212 coupled to each other. It is preferably formed in a width. In addition, the contact plate 251 is formed with a plurality of through-holes to be penetrated in the front-rear direction.

The extension member 252 is formed to extend to the edge of the contact plates 251 so as to be in contact with the other side of the first and second coupling frames, bent toward the other side of the first and second coupling frames. . The extension member 252 is formed on the upper left and right edges and the lower left and right edges of the contact plate 251 , respectively, and is bent backward or forward of the contact plate 251 . At this time, the first and second coupling frames 211 and 212 coupled to the contact plate 251 between the extension members 252 are assembled to be inserted.

Although not shown in the drawings, the fixing member includes a head portion and a screw portion fixed to the head portion and having a thread formed on an outer circumferential surface. The fixing member is screwed to the other side of the first and second coupling frames 211 and 212 through the extension member 252 to fix the extension member 252 to the first and second coupling frames 211 and 212 . Meanwhile, the fixing member is not limited thereto, and any fixing means capable of fixing the contact plate 251 to the first and second coupling frames 211 and 212 is applicable.

The outer frame 220 includes a body case 221 having an inner space 223 in which the inner frame 210 is accommodated, and a plurality of auxiliary cases 222 coupled to front and rear ends of the body case 221 , respectively. do.

The body case 221 has the inner space 223 provided therein, and the front and rear surfaces of the inner space 223 are opened so that the inner frame 210 can be easily introduced into the inner space 223 . is formed In addition, a handle 224 is provided on the upper surface of the body case 221 so that the user can grip and carry it.

A plurality of auxiliary cases 222 are respectively installed in the body case 221 to close the open front and rear surfaces of the body case 221 . In addition, the body case 221 installed in the front part of the body case 221 is provided with a display window for displaying information on the battery unit 300 provided from the battery management module 230 .

On the other hand, any one of the auxiliary cases 222 is provided with a connection terminal (not shown) to which an external power supply (not shown) for charging the battery unit 300 is connected. The connection terminal is connected to the battery unit 300 through a charging cable to transmit electricity supplied from an external power supply to the battery unit 300 . Here, the external power supply unit is a means capable of supplying electricity to the battery unit 300, and a power source of a building is applied.

The battery unit 300 is accommodated in the first and second main receiving grooves 231,241 of the first and second coupling frames 211 and 212 . The battery unit 300 includes a positive terminal and a negative terminal, a plurality of battery cells 10 supplying charged power, and an upper portion of the battery cell 10 while accommodating a plurality of the battery cells 10 . an upper cell holder member 20-1 disposed on the A plurality of electrode connection members 30 installed in the upper cell holder member 20-1 and the lower cell holder member 20-2 so as to connect the electrodes of the battery cells 10, and the adjacent electrodes are connected Battery connecting members 40 and 50 for electrically connecting the members 30 to each other are provided.

The battery cell 10 may be provided in a form in which an electrode lamination unit composed of a negative electrode sheet and a positive electrode sheet is accommodated inside a metal casing. The battery cell 10 is provided with a positive terminal and a negative terminal. Here, the battery cell 10 may be provided in various types, for example, a nickel-tadmium battery, a nickel-hydrogen battery, or a lithium ion battery.

Preferably, the battery cell 10 can be charged with a large-capacity voltage compared to the size of the battery cell 10 of other types, the power supply is sustainable for a long time after charging, and is composed of one battery. An easy-to-manage lithium-ion battery can be applied.

The upper cell holder member 20-1 and the lower cell holder member 20-2 are formed of a synthetic resin material to accommodate the battery cells 10 and to protect the battery cells 10 from external impact. configuration for it. The upper cell holder member 20-1 and the lower cell holder member 20-2 are formed in the same shape, and a plurality of inserts penetrated in the vertical direction so that the upper or lower ends of the battery cells 10 can be inserted and accommodated. A hole is formed. That is, the lower end of the battery cell 10 is inserted into the insertion holes of the lower cell holder member 20-2, and the upper end of the battery cell 10 is inserted into the insertion holes of the upper cell holder member 20-1. Thus, a plurality of battery cells 10 are accommodated between the upper cell holder member 20-1 and the lower cell holder member 20-2.

On the other hand, the upper cell holder member 20-1 and the lower cell holder member 20-2 are interposed between the insertion holes to prevent the electrode connection member 30 from being separated, and an electrode connection member 30 to be described later. The separation prevention protrusion 25 is formed so that it can be inserted into the inlet groove 31 of the.

A plurality of electrode connection members 30 are connected in series to the upper cell holder member 20-1 and the lower cell holder member 20-2 stacked together in the vertical direction. That is, the electrode connection member 30 electrically connects the battery cells 10 accommodated in the upper cell holder member 20-1 and the lower cell holder member 20-2 between the insertion holes. At this time, the electrode connection member 30 is disposed at the upper and lower portions of the upper cell holder member 20-1 and the lower cell holder member 20-2 so that the front and rear ends contact the ends of the adjacent battery cells 10, respectively. It is welded to the electrode portion of the upper and lower ends of the battery cell (10).

The electrode connection member 30 may be made of nickel or a nickel alloy. In addition, the electrode connection members 30 are connected to the plurality of battery connection members 40 and 50 for connection of signal lines. On the other hand, the electrode connection member 30 is formed in the center, the lead-in groove 31 drawn in from the edge to a predetermined depth. A plurality of the inlet grooves 31 are formed between the front and rear ends of the electrode connection member 30 , respectively, on the left and right sides of the electrode connection member 30 .

Each battery cell 10 and the battery management module 230 must be connected to check the respective voltages of the battery cells 10 . For this purpose, the battery connecting members 40 and 50 are connected to each battery cell 10 . ) is soldered to the electrode connection member 30 to correspond to the position and is electrically connected. That is, the battery connecting members 40 and 50 are respectively disposed on the upper and lower portions of the battery cell 10 to be electrically connected to the electrode connecting member 30 .

The signal lines connected to the battery connection members 40 and 50 are connected to the battery management module 230 for controlling the battery cells 10 , and the battery cells 10 are charged and discharged by the battery management module 230 . This is controlled.

The battery management module 230 is connected to the battery unit 300 by a connection unit. Here, the battery management module 230 is for monitoring the state of the battery unit 300 or controlling and managing the operating state of the battery unit 300, and it is preferable that a conventional PCB for Battery Management Systems (BMS) is applied. do.

The connection unit includes a plurality of binding terminals installed in the battery management module 230 and a plurality of binding pins installed on the battery connection members 40 and 50 of the battery unit 300 to be connected to the binding terminals. .

A plurality of the binding terminals are respectively installed at the upper and lower ends of the battery management module 230 . The binding pins are respectively installed at the edges of the battery connection members 40 and 50 so as to be coupled to the binding terminals. The binding pin is preferably formed to protrude outwardly with respect to the battery connection members 40 and 50 so as to be easily coupled to the binding terminal.

Meanwhile, in the illustrated example, the structure in which the binding terminal is installed in the battery management module 230 and the binding pin is installed in the battery unit 300 is illustrated, but the present invention is not limited thereto, and the binding pin is installed in the battery management module 230 . installed, and the binding terminal may be installed on the battery connecting members 40 and 50 .

The output unit 400 is installed in the auxiliary case 222 coupled to the front of the body case 221 , a connection terminal 401 to which an external electronic device can be connected, and the connection terminal 401 from the battery unit 300 . ) and a power line (not shown) connected to the battery unit 300 and the connection terminal 401 to transmit electricity. At this time, although not shown in the drawings, a switching member may be installed in the power line to intermittently transmit electricity. The switching member is controlled by the battery management module 230 .

The voltage conversion module 500 is disposed in the first and second sub-accommodating grooves 232 and 242 of the first and second coupling frames 211 and 212 . At this time, the voltage conversion module 500 is connected to the power line of the output unit 400 to convert the voltage of electricity supplied from the battery unit 300 to the output unit 400 into a voltage suitable for the external electronic device. Here, the voltage conversion module 500 is a DC/DC converter or a DC/AC converter is applied, but is not limited thereto, and any voltage conversion means capable of converting an electric voltage is applicable.

On the other hand, the voltage conversion module 500 is not shown in the drawing, it is installed on the charging cable to convert the voltage of electricity supplied from the external power supply to the battery unit 300 into a voltage suitable for the battery cell 10 of the battery unit. may be

The battery power pack 100, which is easy to assemble according to the present invention configured as described above, has a dual structure of an outer frame 220 and an inner frame 210 in which a housing 200 for accommodating the battery unit 300 is coupled to each other. Since the battery unit 300 can be more robustly protected even when an external shock is applied, the housing 200 is easily separated and coupled to each other, so that the assembly is excellent.

The description of the presented embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not intended to be limited to the embodiments presented herein, but is to be construed in the widest scope consistent with the principles and novel features presented herein.

100: Easy-to-assemble battery power pack
200: housing
210: inner frame
211: first coupling frame
212: second coupling frame
213: fixed unit
220: outer frame
221: body case
222: auxiliary case
223: inner space
224: handle
230: battery management module
231: first main storage groove
232: first sub storage groove
241: second main storage groove
242: second sub storage groove
251: contact plate
252: extension member
300: battery unit
400: output unit
401: connection terminal
500: voltage conversion module

Claims (4)

housing;
a battery unit installed in the housing and charged with a predetermined power;
an output unit installed in the housing so that an external electronic device can be connected and connected to the battery unit to supply electricity from the battery unit to the external electronic device; and
a voltage conversion module for converting a voltage of electricity supplied from the battery unit to the output unit into a voltage suitable for the external electronic device; and
A battery management module connected to the battery unit by a connection unit, and monitoring a state of the battery unit or controlling an operating state of the battery unit; and
The connecting unit is
a binding terminal installed in any one of the battery unit and the battery management module; and
and a binding pin installed on the other one of the battery unit and the battery management module so as to be connected to the binding terminal;
the housing is
an inner frame provided with a plurality of spaces in which the battery unit and the voltage conversion module are accommodated, respectively; and
An inner space is provided so that the inner frame can be accommodated, and an outer frame in which the output unit is installed; and
The inner frame is
A first main accommodating groove for forming a first accommodating space for accommodating the battery unit is formed on one side thereof, and a second accommodating space for accommodating the voltage conversion module on one side of an upper side of the first main accommodating groove. A first coupling frame provided with a first sub-accommodating groove for forming a;
A second main receiving groove corresponding to the first main receiving groove on one side coupled to one side of the first coupling frame so as to be coupled to the first coupling frame to form the first and second storage spaces a second coupling frame formed with a second sub-accommodating groove corresponding to the first sub-accommodating groove;
The first and second coupling frames are respectively installed at both ends of the first and second coupling frames coupled to each other so as to be mutually fixed to each other, and are respectively in contact with both ends of the mutually coupled first and second coupling frames. A plurality of contact plates, and a plurality of extension members extending to be bent toward the other side of the first and second coupling frames at the edges of the contact plates so as to be in contact with the other side surfaces of the first and second coupling frames; , A fixing unit including a plurality of fixing members for fixing the extension member to the other side of the first and second coupling frame;
Easy-to-assemble battery power pack.
delete According to claim 1,
A third storage space is provided on the other side of the first and second coupling frames so that the battery management module can be coupled, and the third storage space includes the second storage space so that the battery management module and the battery unit can be interconnected. Formed to communicate with the first main receiving groove or the second main receiving groove,
Easy-to-assemble battery power pack.
4. The method of claim 3,
the battery unit
a plurality of battery cells including a positive terminal and a negative terminal and supplying charged power;
an upper cell holder member disposed above the battery cells while accommodating the plurality of battery cells;
a lower cell holder member disposed under the battery cells while accommodating the plurality of battery cells;
a plurality of electrode connection members installed on the upper cell holder member and the lower cell holder member to connect the electrodes of the battery cells adjacent to each other; and
and a battery connection member for electrically connecting the adjacent electrode connection members to each other;
The electrode connection member is formed with a lead-in groove in the center of which is drawn in from an edge to a predetermined depth,
The upper cell holder member and the lower cell holder member are provided with a plurality of insertion holes so that an end of the battery cell can be inserted, and between the insertion holes to prevent separation of the electrode connection member, the electrode connection A separation prevention protrusion is formed so that it can be inserted into the inlet groove of the member,
Easy-to-assemble battery power pack.

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