KR200467903Y1 - Connection apparatus for battery tab - Google Patents

Abstract

The present invention relates to a battery tab connecting device, and in particular, one or more battery cells are combined to form a battery module, while the battery tab and the battery tab respectively formed in the battery cell to connect so that the electricity can be energized The present invention relates to a battery tab connecting device that can be connected and fixed so as to be easily energized with a bolt.
One or more embodiments of the present invention include one or more battery cells each having a battery tab for forming a positive (+) and a negative (-) electrode; And a fixing frame supporting the one or more battery cells which are installed between each of the one or more battery cells and coupled to each other. A vertical surface protruding from the vertical surface, a horizontal surface bent and extended from the vertical surface, and a screw hole penetrating through the horizontal surface, wherein the fixing frame protrudes upward from the upper side to support the lower ends of the battery tabs to be connected to each other. It includes, and the battery tabs of both sides are inserted into the screw hole includes a bolt for connecting and fixing the battery tabs of both sides so as to enable electricity.

Description

Connection apparatus for battery tab

The present invention relates to a battery tap connecting device, and in particular, one or more battery cells are combined to form a battery module, each one or more battery cells are formed in each of the battery cells in order to connect so as to enable energization of one selected in series and parallel It relates to a battery tab connecting device having a simple structure so that the battery tab can be easily fixed.

In general, unlike primary batteries, rechargeable and rechargeable secondary batteries are under active research in the development of advanced fields such as digital cameras, cellular phones, notebook computers, and hybrid vehicles. Examples of secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, and lithium secondary batteries. Among these, lithium secondary batteries (hereinafter collectively referred to as lithium batteries) are used as power sources for portable electronic devices with an operating voltage of 2.0 to 4.2V or more, or used in high-power hybrid vehicles by connecting several in series or in parallel. Compared to nickel-cadmium batteries or nickel-metal hydride batteries, the operating voltage is three times higher, and the energy density per unit weight is also excellent, and thus the use is rapidly increasing.

The lithium battery includes a battery cell in which a tab for inputting and outputting power is formed, and a casing for casing the cell. Herein, a cell accommodated in the case is referred to as a unit called a battery cell, and a plurality of battery cells are connected to form one battery module.

High power lithium batteries are required in hybrid vehicles and the like, and the above battery modules are stacked in tens to hundreds, and each battery cell is connected in series or in parallel to obtain a high voltage.

Here, in order to achieve the battery module as described above, in order to connect a plurality of battery cells in series or in parallel, a conductor is inserted between the battery tab and the battery tab in which power is supplied from the battery cell, and then bonded by welding. The work to be covered is carried out, but the conventional method, such as the number of processes takes a long time, there is a problem that productivity and work efficiency is low.

Therefore, the present invention is conceived to solve the conventional problems as described above, the object of the present invention is to form a battery tab, and between the battery tab of both sides by simply installing a separate fixing member therebetween simply The present invention provides a battery tab connecting device that can be fastened so as to be electrically connected as one selected from serial and parallel.

The present invention includes the following embodiments in order to achieve the above object.

One or more embodiments of the present invention include one or more battery cells each having a battery tab for forming a positive (+) and a negative (-) electrode; And a fixing frame supporting the one or more battery cells which are installed and coupled to each other between the one or more battery cells, wherein the battery tabs are formed to be overlapped with each other toward the battery tabs of the other battery cells so as to be perpendicular to each other. A vertical surface protruding from the vertical surface, a horizontal surface bent and extended from the vertical surface, and a screw hole penetrating through the horizontal surface, wherein the fixing frame protrudes upward from the upper side to support the lower ends of the battery tabs to be connected to each other. It includes, and the battery tabs of both sides are inserted into the screw hole includes a bolt for connecting and fixing the battery tabs of both sides so as to enable electricity.

In the second embodiment of the present invention, the battery tab has a stage extending from the horizontal plane to the horizontal, the first fastening end extending to the upper surface having a lower height than the horizontal plane, and has a thickness thinner than the thickness of the horizontal plane It further includes any one selected from the second fastening ends extending to a height corresponding to the upper surface of the horizontal plane.

In a third embodiment of the present invention, the horizontal surface is preferably formed to extend in the opposite direction from the positive (+) battery tab and the negative (-) battery tab.

In the fourth embodiment of the present invention, the fixing member is preferably formed integrally with the fixing frame.

In the fifth embodiment of the present invention, the fixing member is formed separately from the fixing frame, the bolt is in communication fastening is fixed.

In the sixth embodiment of the present invention, one or more battery cells each formed with a battery tab to form a positive and negative electrode; And a fixing frame supporting the one or more battery cells which are installed and coupled to each other between the one or more battery cells, wherein the battery tab has an inclined surface that is upwardly directed toward the battery tab of the other battery cell and is formed through the inclined surface. And one or more screw holes, wherein the fixing frame has a fixing member that is separated and formed as a conductor that is held in close contact between the battery tabs on both sides, and the inclined surface is inserted into one or more screw holes respectively formed on the inclined surface. And a bolt for communicating with and fixing the fixing member.

The present invention is formed so that the battery tabs can overlap each other by molding and can be easily fixed by connecting the battery tabs on both sides so that the number of manufacturing steps can be reduced. Since it is not necessary and can be dedicated to a general worker, there is less burden on labor costs, which can reduce manufacturing costs.

1 is a perspective view showing a first embodiment of a battery tab connecting device according to the present invention,
Figure 2 is a side cross-sectional view showing a first embodiment of a battery tab connecting device according to the present invention,
3 is a perspective view illustrating a battery module including a first embodiment of a battery tab connection device according to the present invention;
4 is a perspective view showing a second embodiment of a battery tab connection device according to the present invention;
Figure 5 is a side cross-sectional view showing a second embodiment of the battery tab connecting device according to the present invention,
6 is a perspective view showing a third embodiment of a battery tab connection device according to the present invention.

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

1 is a perspective view showing a first embodiment of a battery tab connecting device according to the present invention, Figure 2 is a side cross-sectional view showing a first embodiment of the battery tab connecting device according to the present invention.

1 and 2, the first embodiment of the battery tab connecting device according to the present invention is formed in each of the battery tab (11, 12, 11 ', 12') to form a positive and negative electrode, respectively And one or more battery cells 10 and 10 'connected to one selected from and in parallel with each other, and the one or more battery cells 10 and 10' installed between each of the one or more battery cells 10 and 10 'to be coupled to each other. The fixing frame 30 and the bolt 20 for fixing the battery tabs (11, 11 ', 12, 12').

The battery tabs 11 are formed to overlap each other with the battery tabs 11 'having different polarities on the other side, and thus, the battery tabs 11 and 12 through which the positive and negative powers are energized in the first battery cell; In the two battery cells, each of the battery tabs 11 'and 12' includes a positive power supply.

The positive and negative battery tabs 11, 11 ′, 12, and 12 ′ are vertical planes 112, 112 ′, 122, 122 ′ that are upward from the top of the battery cells 10, 10 ′, and the vertical plane 112. , 112 ', 122, and 122', which are bent and extended horizontally (111, 111 ', 121, 121'), and the threaded hole formed in the horizontal plane (111, 111 ', 121, 121') ( 113, 113 ', 123, 123', respectively. The horizontal planes 111, 111 ′, 121, 121 ′ extend in opposite directions to face battery tabs having different polarities of adjacent battery cells. For example, in the first battery cell 10, a positive battery tab 11 is located at one side and a negative battery tab 12 is located at the other side, and the first battery cell 10 is located at the first battery cell 10. In close contact with the second battery cell 10 ', a negative (-) battery tab 11' is positioned on one side and a positive (+) battery tab 12 'is located on the other side.
Accordingly, horizontal surfaces 111 and 111 ′ in a direction in which the positive battery tab 11 of the first battery cell 10 and the negative battery tab 11 ′ of the second battery cell 10 ′ face each other. ) Is extended. In addition, the negative battery tab 12 of the first battery cell 10 and the positive battery tab 12 'of the second battery cell 10' have a horizontal plane in opposite directions. 121, 121 ') are extended.

The battery tabs 11 and 11 'of the first battery cell 10 on one side and the second battery cell 10' on the other side in one or more battery cells 10 and 10 'including the configuration of the first embodiment. The horizontal surfaces 111 and 111 ′ face each other in the first battery tab 11 of the first battery cell 10 and the second battery tab 11 ′ of the second battery cell 10 ′. It extends in the viewing direction, respectively, so that the screw holes 113 and 113 'respectively formed on the horizontal surfaces 111 and 111' coincide and overlap. Here, the first battery tab 11 is a positive (+) battery tab 11 of the first battery cell 10, the second battery tab 11 'is negative (-) of the second battery cell 10' ) Is a battery tab 11 '.

The fixed frame 30 is inserted between the one or more battery cells 10 and 10 'so that the front and rear surfaces are in close contact with the first battery cell 10 and the second battery cell 10', respectively. (10, 10 '). Here, the fixing frame 30 is a fixing member 31 which is in close contact with the lower side of the horizontal surfaces 111 and 111 'of the first battery tab 11 and the second battery tab 11 ′ protruding upward from the upper end. It includes.

The fixing member 31 may be selectively adopted any one of a conductor or an insulator. For example, if the two battery tabs overlap each other like the configuration of the first embodiment and the following second embodiment, it is possible to apply an insulator, but the battery tabs 11 and 11 of both sides, as in the configuration of the third embodiment, described below. If ') is spaced apart, the conductor is applied.

Since the fixing member 31 is tightly fixed between both battery tabs 11 and 11 ′, the fixing member 31 may prevent stress due to the fastening of the bolt 20 and at the same time, may alleviate the shock due to vibration or shaking. The bonding force between the battery tabs 11 and 11 'is maintained for a long time. In addition, in the first embodiment, the fixing member 31 is preferably configured to be integral with the fixing frame 30.

The bolt 20 extends in a direction facing each other from the battery tabs 11 and 11 ′ on both sides thereof, and when the horizontal surfaces 111 and 111 ′ overlap so that the thread holes 113 coincide with each other, the screw holes 113 and 113 ') is inserted into and communicated with the fixing member 31, thereby fixing the battery tabs 11 and 11' on both sides.

Alternatively, in the present invention, it is also possible to fasten the bolt 20 as described above, but it is also possible to fix the horizontal plane 111 and the horizontal plane 111 'by welding, which is a designer within the scope of the technical idea of the present invention. This is one of the applications.

The configuration of the first embodiment of the present invention is as described above, and the operation of the first embodiment including the configuration as described above will be described in more detail with reference to FIG. 3 below.

3 is a perspective view illustrating a battery module including a first embodiment of a battery tab connection device according to the present invention.

Referring to FIG. 3, the assembly process of the battery module including the first embodiment of the battery tab connection device according to the present invention includes one or more battery cells 10 and 10 ′, and the one or more battery cells 10 and 10. Interconnecting one or more fixing frames 30 fixed between ') and positive and negative battery tabs 11, 11 ′, 12, 12 ′ respectively formed in the one or more battery cells 10, 10 ′ and Prepare one or more bolts 20 to secure.

First, the worker is in close contact with the fixed frame 30 on the front or rear of the first battery cell 10, and the second battery cell 10 'in close contact with the front of the fixed frame 30. The third battery cell (not shown) is brought into close contact with the front surface of the second battery cell 10 '. As described above, the fixing frame 30 is fastened between the plurality of battery cells 10 and 10 ′ to support the fixing frame 30 and to dissipate heat and heat generated by pressurization.

At this time, the worker has a positive (+) battery tab of the first battery cell 10 in the first battery cell 10 on one side and the second battery cell 10 'on the other side (hereinafter referred to as a first battery tab). The horizontal surfaces 111 and 111 ′ of the 11 and 11 battery tabs (hereinafter referred to as second battery tabs) 11 ′ of the second battery cell 10 ′ extend in a direction facing each other. Install. Therefore, the horizontal surface 111 of the first battery tab 11 and the horizontal surface 111 'of the second battery tab 11' overlap each other in a state where the screw holes 113 and 113 'are coincident with each other.

In addition, the first battery cell 10 and the second battery cell 10 'include positive (+) and negative (-) battery tabs 11 and 11', respectively, and the first battery cell 10 Positive battery tab 11 and positive battery tab 12 'of second battery cell 10', negative battery tab 12 and second battery of first battery cell 10 Since the negative battery tab 11 'of the cell 10' is formed with horizontal surfaces 111, 111 ', 121, and 121' such that silver extends in opposite directions, the one or more battery cells are connected in series. It is very easy.

When the plurality of battery cells 10 and 10 'and the fixing frame 30 are fastened as described above, the worker may bolt the bolts 20 and 113 in a state where the horizontal surfaces 111 and 111' of both sides overlap each other. Positive battery tabs (hereinafter referred to as first battery tabs) 11 and negative battery tabs (hereinafter referred to as second battery tabs) overlapping each other by inserting the bolts 20 into 113 '). By tightening (11 ') firmly.

Preferably, the bolt 20 is fastened through the screw holes 113 and 113 ′, and the bolt 20 may be firmly fixed by being connected to the fixing member 31.

That is, the present invention does not require a highly specialized manpower such as welding between the two battery tabs in the configuration of the battery module as described above, simply by inserting and fastening the bolt 20 is simple and very easy to work. Do.

The present invention is a connection device for connecting between battery tabs 11 and 11 'respectively formed in one or more battery cells 10 and 10' by using a bolt 20, in addition to the configuration of the first embodiment described above. It includes various embodiments that can be connected and secured by bolts 20 by molding (11, 11 '). Hereinafter, a second embodiment of the battery tab connection device according to the present invention will be described with reference to FIGS. 4 and 5.

4 is a perspective view showing a second embodiment of the battery tab connecting device according to the present invention, Figure 5 is a side cross-sectional view showing a second embodiment of the battery tab connecting device according to the present invention.

4 and 5, a second embodiment of the present invention includes one or more battery tabs 11, 11 ′, 12, and 12 ′ through which positive and negative powers are energized, respectively. A fixed frame 30 installed between each of the battery cells 10 and 10 ', the one or more battery cells 10 and 10' and supporting the one or more battery cells, and the battery tabs 11 and 11 '. And a bolt 20 for fixing.

The positive and negative battery tabs 11, 11 ′ (12, 12 ′) are vertical planes 112, 112 ′, 122, 122 ′ that are upward from the top, and the vertical planes 112, 112. ', 122, 122') are horizontal planes (111, 111 ', 121, 121') that are bent horizontally and fastening ends (114, 114) that extend from the horizontal planes (111, 111 ', 121, 121'). ', 124, 124' and threaded holes 113, 113 ', 123, 123' formed through the fastening ends 114, 114 ', 124, 124', respectively. Here, the horizontal surfaces 111, 111 ′, 121, 121 ′ extend toward battery tabs 11, 11 ′ having different polarities in adjacent battery cells, and the battery tabs 11, 12 having the same polarity are adjacent to each other. Extend in the opposite direction.

Here, the fastening ends 114 and 114 'have a thickness that is thinner than the first fastening ends 114 extending to an upper surface having a lower height than the horizontal planes 111 and 111', and the horizontal planes 111 and 111 '. One of the second fastening ends 114 ′ having a lower surface extending to a height corresponding to the upper surfaces of the horizontal surfaces 111 and 111 ′ is formed to be in close contact with the top surface of the first fastening ends 114. .

That is, the first fastening end 114 and the second fastening end 114 ′ are interlocked with each other. For example, a positive (+) battery tab formed in the first battery cell 10 on one side ( Hereinafter, when the first fastening end 114 is formed in the first battery tab 11, the second battery cell positioned with the first battery cell 10 and the fixed frame 30 interposed therebetween. A second fastening end 114 ′ that engages with the first fastening end 114 is formed at a negative battery tab (hereinafter referred to as a second battery tab) 11 ′ formed at 10 ′). .

The fixed frame 30 is inserted between the one or more battery cells 10 and 10 'so that the front and rear surfaces are in close contact with the first battery cell 10 and the second battery cell 10' on one side and the other side, respectively. Both battery cells 10 and 10 'are supported. Here, the fixing frame 30 includes a fixing member 31 which is in close contact with the lower side of the horizontal surfaces 111 and 111 ′ of one side and the other side protruding upward from the upper end.

Here, the fixing member 31 is separated from the fixing frame 30 so that the first fastening end 114 and the second fastening end 114 'are mutually formed at both battery tabs 11 and 11'. After being engaged to overlap, it is inserted between the empty spaces at the lower side to absorb the shock caused by vibration or shaking to prevent the coupling force from weakening. To this end, the fixing member 31 has an elastic force, it is preferable to apply a plastic material having a high heat resistance.

The bolt 20 extends in a direction facing each other from the battery tabs 11 and 11 ′ on both sides thereof so that the screw holes 113 and 113 ′ coincide with each other, so that the first fastening end 114 and the second fastening end ( When 114 'is overlapped, it is inserted into the screw holes 113 and 113' so as to allow the battery tabs 11 and 11 'to be electrically energized.

6 is a perspective view showing a third embodiment of the present invention.

Referring to FIG. 6, according to the third embodiment of the present invention, one or more battery cells 10 and 10 ′ in which battery tabs 11 and 11 ′ respectively form positive and negative electrodes are formed. ) And a fixing frame 30 installed between each of the one or more battery cells 10 and 10 'to support the one or more battery cells 10 and 10' and fixing the battery tabs 11 and 11 '. It includes a bolt 20 to make.

The battery tabs 11 are inclined surfaces 115 and 115 'that are upwardly directed toward the battery tabs 11' of the other battery cell 10 'and at least one penetrating through the inclined surfaces 115 and 115'. And the holes 113 and 113 '.

The fixing frame 30 includes a fixing member 31 that supports the battery tabs 11 and 11 ′ on both sides as electrical conductors so as to be energized. The fixing member 31 is fixed to the inclined surfaces 115 and 115 'by the bolt 20 on the upper surface of the fixing frame 30 in a configuration separate from the fixing frame 30.

The bolt 20 is inserted into one or more threaded holes 113 and 113 'formed on the inclined surfaces 115 and 115' of the battery tabs 11 and 11 ', respectively, to fix the inclined surfaces 115 and 115'. The member 31 is communicated and fastened.

In the third embodiment, the worker seats the fixed frame 30 on the front surface of the first battery cell 10 on one side, and seats the second battery cell 10 'on the rear surface of the fixed frame 30. At this time, the first inclined surface 115 formed in the first battery cell 10 and the second inclined surface 115 'of the second battery tab 11' formed in the second battery cell 10 'face each other. Upwards to incline in a direction.

In this case, the first inclined surface 115 and the second inclined surface 115 'are not in contact with each other and are spaced apart from each other by a predetermined distance. Therefore, the operator inserts the fixing member 31 between the first inclined surface 115 and the second inclined surface 115 '. In addition, the operator inserts a bolt 20 into each of the one or more threaded holes 113 and 113 ′ formed in the first inclined surface 115 and the second inclined surface 115 ′ so as to communicate with the fixing member 31. Tighten. Therefore, the fixing member 31 is in close contact with the first inclined surface 115 and the second inclined surface 115 ′, and thus, the fixed frame 30, the first battery cell 10, and the second battery cell 10 ′ are in close contact with each other. ) Is fixed at the top.

Here, the present invention fixes the battery tabs 11 and 11 'on both sides with the bolt 20, and fastens the bolt 20 because the fixing member 31 is inserted and supported between the battery tabs 11 and 11'. Stress between the battery tabs 11 and 11 ′ may be prevented, and the bolt 20 may be prevented from being separated by the impact of shaking or vibration.

In addition, in the third embodiment, since the battery tabs 11 and 11 'are fixed to each other in a non-contact state, the fixing member 31 is constituted of a conductor.

The present invention connects the battery tabs so as to be energized as one selected in series and parallel as described above, but inserts the bolts 20 into the molded battery tabs and fastens the operation, thereby increasing the production per hour compared to the conventional method. Can be.

In addition, as described above, the present invention can connect the battery tabs on both sides through a bolt in a selected manner in series and parallel, but fixing the battery tabs on both sides by welding instead of the bolt 20 is also within the scope of the technical idea of the present invention. Corresponds to

Although the present invention has been described in detail with respect to the embodiments described, it will be apparent to those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention, and such modifications and modifications belong to the appended utility model claims.

10: first battery cell 10 ': second battery cell
11: first battery tab 11 ': second battery tab
20: bolt 30: fixed frame
31: fixing member 111, 111 ': horizontal plane
112, 112 ': Vertical plane 113, 113': Thread hole
114: First Decision 114 ': Second Decision

Claims (6)

One or more battery cells in which battery tabs forming positive and negative electrodes are connected in series or in parallel; And
It includes a fixed frame for supporting the one or more battery cells are installed between each of the one or more battery cells are coupled to each other,
The battery tab has a vertical surface protruded vertically from the top to be formed to overlap each other in order to overlap the battery tab of the other battery cell, a horizontal surface that is bent and extended from the vertical surface, and a screw hole formed through the horizontal surface ,
The fixing frame includes a fixing member protruding upward from the upper side to support the lower end of the battery tab is connected to each other,
When the battery tabs of both sides are overlapped is inserted into the screw hole includes a bolt for connecting and fixing the battery tabs on both sides so as to conduct electricity,
The battery tab extends horizontally by forming a stage in the horizontal plane, the first fastening end extending to an upper surface having a lower height than the horizontal surface, and having a thickness thinner than the thickness of the horizontal surface and extending to a height coinciding with the upper surface of the horizontal surface. Battery tab connection device comprising any one selected from the second fastening stage. delete The battery tab connecting device of claim 1, wherein the horizontal planes respectively formed on the positive battery tab and the negative battery tab extend in opposite directions. The method of claim 1, wherein the fixing member
Battery tab connection device formed integrally with the fixed frame. The method of claim 1, wherein the fixing member
Battery tab connection device is formed separately from the fixing frame, the bolt is connected to be fixed in communication. One or more battery cells each having a battery tab forming positive and negative electrodes; And
It includes a fixed frame for supporting the one or more battery cells are installed between each of the one or more battery cells are coupled to each other,
The battery tab has an inclined surface which is upwardly directed toward the battery tab of the other battery cell and at least one screw hole formed through the inclined surface,
The fixing frame has a fixing member which is formed separately as a conductor to be in close contact between the battery tabs on both sides,
And a bolt inserted into one or more screw holes respectively formed on the inclined surface to fix the inclined surface and the fixing member in communication with each other.

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