KR200462517Y1 - case for storage battery - Google Patents

Abstract

The present invention relates to a case for a battery, in which a plurality of pole plates are installed inward, and a case is provided with a cover in which pole poles are connected to the pole plates to discharge and charge power, and are disposed around the outer periphery of the case. And a case body having a pole and the cover installed at an upper portion thereof, the case body having a case space in which a plurality of pole plates are disposed inward, and disposed inside the case body, and having a lower portion of the pole plate supported on the inner lower surface thereof. Protruding away from each other in the upper direction, each having a support space inwardly apart from each other, and includes a support formed with a plurality of support grooves through which each of the support spaces communicate.

Description

Battery Case {case for storage battery}

The present invention relates to a battery case.

In general, a storage battery is composed of a positive and negative electrode plate and an electrolytic solution, and is a device that can generate a direct current electromotive force by a chemical action to be used as a power source. Batteries can convert chemical energy into electrical energy, and this state is called discharge. Electric energy can be supplied from another power source and converted into chemical energy to accumulate. This state is called charging. The battery which is repeatedly charged and discharged is called a storage battery or a secondary battery.

That is, the storage battery is connected to a device that requires power in a charged state and supplies the required power, and is charged to be used again when it is discharged by supplying power.

Batteries supply electrical energy through chemical action of charging and discharging. By-products are stored inside the case, and by-products accumulate inside the case due to aging due to prolonged use and deterioration due to frequent charging and discharging. As the short-circuit phenomenon occurs by the accumulated by-products, there is a problem in that the life of the battery is shortened.

That is, a lead-acid battery mainly used in the storage battery is a secondary battery capable of charging and discharging to supply electric power from an automobile or the like. Lead-acid batteries use dilute sulfuric acid (H ₂ SO ₄ ) as an electrolyte, lead-acid peroxide (PbO ₂ ) on the positive electrode, and sponge-like lead (Pb) on the negative electrode as an active material of the electrode. When connected to a circuit, the active material of the positive electrode and the negative electrode changes (discharges) to lead sulfate (PbSO ₄ ) as electricity flows. On the contrary, when the current flows from the outside, the lead sulfate changes to lead peroxide and sponge phase recharge (charge). The principle is to use.

Such a lead-acid battery alternately overlaps a positive electrode plate and a negative electrode plate coated with an active material therein, and serves as a secondary battery that is supplied with power while being charged and discharged by the above-described action. The active material described above has a problem in that an internal short occurs when the battery is contacted with an alternating positive or negative electrode plate that accumulates inside the case due to battery aging and deterioration when the battery is used for a long time.

The problem to be solved by the present invention is to support the plurality of pole plates inside the battery case while being distributed to the active material generated between the pole plates to improve the support efficiency of the pole plate while preventing the internal short phenomenon caused by the active material accumulation to increase the life It is to provide a battery case that is.

In the battery case according to an embodiment of the present invention is a case having a cover provided with a plurality of pole plates are installed inward, the pole is connected to the pole plate to discharge and charge power, the outer periphery of the case It is disposed in the opening and the cover is installed in the upper pole and the cover, the case body having a case space in which a plurality of the pole plate is disposed inward, and disposed inside the case body, the lower portion of the pole plate And a support having a plurality of support grooves protruding away from each other in an upward direction on the inner lower surface so as to be supported, each having a support space therebetween, and having a plurality of support grooves through which the support spaces communicate. The support is projected on the inside of the case body in a state that the pole plate is supported on the top It is possible to prevent the internal short from being generated in contact with the electrode plate by accumulation while being dispersed through the support groove when moving to the support space communicating with the support groove communicating with the support groove communicated when the active material is generated in the electrode plate. The supports may be positioned to face each other so that the support grooves communicating with the support spaces may cross each other so as to be formed at different positions in directions facing each other so that the active materials may be dispersed.

In addition, it is disposed on one side of the support, and may be further provided with a reinforcement body disposed on the side of the support and the inner lower surface of the case body, respectively, to reinforce the side of the support.

And, protruding upward in the center of the inner bottom surface of the case body, hemispherical protrusion protruding in the center of the inner surface of the case space, and protruding upward in the center of the hemispherical protrusion, The support may further include a bar protrusion protruding in a bar shape from the center of the hemispherical protrusion to the upper direction, wherein the hemispherical protrusion and the bar protrusion protrude in the center of the inner lower surface of the case body and communicate with the support groove. It may protrude to disperse accumulation of active material that is transferred to the space.

According to an embodiment of the present invention, a plurality of pole plates having a polarity is installed inside the storage battery, and is supported by a plurality of supports for supporting the pole plates on the inner bottom surface of the case having a polar axis connected to match the polarity at the top thereof. The space is provided, and each space is provided so as to communicate with each other, the active material generated in the pole plate is dispersed to the position in communication with the inside of the space to prevent the internal short caused by the contact of the pole plate by accumulation provides an effect that the life is increased. .

In addition, the central position of the case is provided with a hemispherical protrusion protruding in the hemispherical shape and a bar protrusion protruding from the center of the hemispherical protrusion so that the whole contacting the hemispherical protrusion and the bar protrusion when moving to a supported space in which the active materials are in communication with each other It is uniformly dispersed in the space to provide the effect that the internal short due to the accumulation of the active material is prevented.

In addition, the support for forming a space to be supported while supporting the plurality of pole plates is provided with a reinforcement that is reinforced to the side to provide an effect that the strength is improved by reinforcing the support to maintain the space supported in the state supporting the pole plate. .

1 is a partial cutaway perspective view showing a state in which a battery case according to an embodiment of the present invention is installed.
FIG. 2 is a cross-sectional view illustrating the battery case of FIG. 1.
FIG. 3 is a side sectional view showing a battery case of FIG. 1. FIG.
4 is a partially cutaway plan view illustrating a main part of a battery case of FIG. 1;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated by like reference numerals throughout the specification.

Then, the battery case according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

1 is a partially cutaway perspective view illustrating a state in which a battery case according to an embodiment of the present invention is installed, FIG. 2 is a front cross-sectional view illustrating a battery case of FIG. 1, and FIG. 3 illustrates a battery case of FIG. 1. It is a side sectional drawing, and FIG. 4 is a partially cutaway top view which shows the principal part of the battery case of FIG.

1 to 4, the battery case 100 according to an embodiment of the present invention has a plurality of pole plates 10 installed therein, and is connected to the pole plates 10 at the top thereof to discharge and charge power. The cover 20 which is provided with the pole column 30 is provided. That is, various parts of the storage battery 1 may be inserted and supported so that energy charged and discharged through the pole column 30 may be exchanged.

The case 100 includes a case body 110 on which a cover 20 is disposed and an electrode plate 10 disposed inwardly, a support 120, and a protrusion 130. The case body 110 is disposed at the outer circumference of the case, and is open to install the pole column 30 and the cover 20 on the upper side, and has a case space 111 in which a plurality of pole plates 10 are disposed inward. . The case body 110 is provided in the form of a box of a substantially rectangular parallelepiped, and a plurality of pole plates 10 having polarities are disposed inwardly by chemical action, and a pole column 30 connected to the pole plate 10 is provided on an upper portion thereof. Cover 20 is arranged.

The support part 120 includes a support body 121 supporting the plurality of pole plates 10 inside the case body 110, and a reinforcement body 124. The support body 121 is disposed inside the case body 110 and protrudes apart from each other in the upper direction on the inner lower surface so that the lower part of the pole plate 10 is supported, and each of the support spaces 122 is spaced inward from each other. In addition, a plurality of support grooves 123 are formed through which the support spaces 122 communicate with each other.

That is, the support 121 is projected inside the case body 110, the support is communicated to the support groove 123 communicated when the active material is generated in the pole plate 10 in a state where the pole plate 10 is supported on the upper portion When moving to the space 122, it can be prevented that the internal short is generated by contacting the pole plate 10 by accumulation while being distributed through the support groove 123.

In addition, the support bodies 121 may be moved to disperse each other so that the support grooves 123 which are positioned at positions facing each other are mutually intersected so that the support grooves 123 communicating with the support spaces 122 are formed at different positions in a direction facing each other. have. That is, the support grooves 123 are respectively disposed at mutually intersecting positions and are formed at mutually intersecting positions which are different from each other in directions opposite to each other of the plurality of supports 121 disposed at mutually opposite positions, respectively. It can be effectively dispersed through the support groove 123 formed at the position where the active material moved to the inside of the intersection.

The reinforcement body 124 is disposed on one side of the support body 121, and is disposed on the side surface of the support body 121 and the inner lower surface of the case body 110 to reinforce the side surface of the support body 121. . The reinforcement body 124 is installed to be reinforced on the case body 110 by one side or both sides according to the installation position of the support body 121, thereby reinforcing the strength of the support body 121 to improve the support efficiency.

The protrusion 130 includes a hemispherical protrusion 131 protruding from the inner center of the case body 110, and a bar protrusion 132. The hemispherical protrusion 131 protrudes upward in the center of the inner lower surface of the case body 110 and protrudes in the hemispherical shape in the center of the inner surface of the case space 111. The hemispherical protrusion 131 protrudes in the upper direction at the center position inwardly of the case body 110 and is provided in the hemispherical shape so as to protrude in the center so that the active materials gathered in the central direction are dispersed. That is, the support space 122 along the hemispherical protrusion 131 protruded in the center when the active material moved to the support body 121 facing each other moves inward of the support space 122 in communication with the support groove 123. By dispersing so as to be distributed throughout, the efficiency of dispersing the active material so as not to accumulate at the central position of the support space 122 is improved.

The bar protrusion 132 protrudes upward in the center of the hemispherical protrusion 131 and protrudes in a bar shape from the center of the hemispherical protrusion 131 in the upward direction. The bar protrusion 132 protrudes from the center of the hemispherical protrusion 131 to protrude in the form of a bar to the top of the hemispherical protrusion 131 so as to be dispersed without dispersing the active material on the top of the hemispherical protrusion 131.

That is, the hemispherical protrusions 131 and the bar protrusions 132 are distributed in the center of the inner bottom surface of the case body 110 to disperse the accumulation of the active material that is moved to the support space 122 which is in communication with the support groove 123. To protrude.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments or constructions. Of the right.

100: case 110: case body
111 case space 120 support
121 support body 122 support space
123: support groove 124: reinforcement
130: protrusion 131: hemispherical protrusion
132: bar protrusion

Claims (3)

In the case which is provided with a plurality of pole plates inward, the cover is provided with a pole is connected to the pole plate in the upper portion is discharged and charged,
A case body disposed around an outer circumference of the case and having a case space in which an upper portion of the pole column and the cover are installed, and a plurality of pole plates disposed inwardly;
Is disposed in the inner side of the case body, and projected apart from each other in the upper direction on the inner lower surface so that the lower portion of the electrode plate is supported, each having a support space inwardly apart from each other, each of the support space is penetrated to communicate Support formed with a plurality of support grooves
Including;
The support is protruded inside the case body and dispersed through the support groove when moved to the support space communicated with the support groove communicated at the time of generation of the active material from the pole plate while the pole plate is supported thereon. While being in contact with the electrode plate by accumulation can prevent the occurrence of an internal short,
The supports may be positioned at positions facing each other so that the support grooves communicating with the support spaces may cross each other so as to be formed at different positions in directions facing each other so that the active materials may be dispersed.
Battery case. The method of claim 1,
And a reinforcement body disposed on one side of the support, the reinforcement being disposed on the side of the support and the inner lower surface of the case body to reinforce the side of the support. The method of claim 1,
A hemispherical protrusion protruding upward in the center of the inner lower surface of the case body and protruding in the hemispherical shape in the center of the inner surface of the case space;
Protruding in the upper direction in the center of the hemispherical protrusion, the bar-shaped protrusion protruding in the form of a bar in the upper direction from the center of the hemispherical protrusion
Further provided,
The hemispherical protrusion and the bar protrusion may protrude in the center of the inner lower surface of the case body to protrude to disperse accumulation of active material that is transferred to the support space communicated with the support groove.
Battery case.

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