JP5147151B2 - Control valve type lead acid battery - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lead storage battery suitably used for in-vehicle use. More specifically, the present invention relates to a control valve type lead storage battery having a valve structure for discharging gas generated inside a battery case to the outside by charging or the like.
[0002]
[Prior art]
In a lead-acid battery mounted on an automobile, a control valve type provided with a valve structure for releasing the gas generated inside the battery case by charging or the like as a structure of the battery case, and such a valve structure There is an open type that is not provided. The control valve type battery case does not require rehydration work and is usually called a sealed type. On the other hand, a lead storage battery provided with an open battery case normally uses a flowing electrolyte and is called a liquid battery.
[0003]
Conventionally, a liquid type is widely used as a lead storage battery for automobiles. Since a liquid lead-acid battery may leak, it is generally installed in a space other than a space for accommodating passengers and cargo, such as an engine room.
[0004]
In contrast, a control valve type lead-acid battery absorbs oxygen gas generated in the battery during charging by the negative electrode, and discharges oxygen gas and hydrogen gas to the outside of the battery case during normal use. The gas is discharged to the outside by the control valve at the time of overcharge or abnormality. Such a control valve type lead-acid battery also has a maintenance-free characteristic that does not require rehydration work.
[0005]
For these reasons, control valve-type lead-acid batteries have recently been widely used for automobiles. When installed in automobiles, they are separate from places where engine maintenance is difficult in daily inspections and engine rooms. It is designed to be installed in the luggage room (trunk room). Furthermore, it may be installed in a space connected to the living space in the passenger compartment such as the lower part of the seat. For this reason, vehicle design is also performed without particularly limiting the installation position of the lead storage battery.
[0006]
In a valve-regulated lead-acid battery mounted in a living space or the like in an automobile, the gas discharged through the valve body to the outside of the battery case may contain oxygen gas and hydrogen gas as main components and also contain sulfuric acid mist. Oxygen gas and hydrogen gas may react due to sparks such as static electricity, and sulfuric acid mist may adhere to the metal part and corrode its surface. For this reason, it is necessary to ensure the safety of the passenger | crew in the vehicle interior which is a living space by discharging | emitting the gas generate | occur | produced at the time of an overcharge or abnormality not only outside the battery case but the exterior of a vehicle interior.
[0007]
In control valve-type lead-acid batteries for in-vehicle use, a collective gas discharge part that collects the gas generated in each cell of the battery case is provided inside the battery case, and an exhaust hose is provided in the collective gas discharge part. It is connected and the structure which discharges | emits gas outside a vehicle interior is employ | adopted. Thereby, there is no possibility that gas will flow into the vehicle interior, which is a living space in the automobile, and the safety of passengers in the vehicle interior is ensured.
[0008]
An example of an on-vehicle control valve type lead-acid battery equipped with such a collective gas discharge channel is shown in FIGS. FIG. 3 is a perspective view of a control valve type lead storage battery, and FIG. 4 is a longitudinal sectional view showing a configuration of a main part of the control valve type lead storage battery.
[0009]
This control valve type lead-acid battery has a battery case body 1 that accommodates a positive electrode plate, a negative electrode plate, a separator, an electrolytic solution, and the like. As shown in FIG. 2, the battery case main body 1 is formed in a hollow rectangular parallelepiped shape whose upper surface is opened by a synthetic resin, and the inside thereof is parallel to each other along the width direction of the battery case main body 1. It is divided into a plurality of cell chambers 1c by a plurality of partition walls 1b. In each cell chamber 1c, a plurality of positive plates, a plurality of negative plates in a stacked state with respect to each positive plate via a separator, and a non-fluidized electrolyte are accommodated, respectively. ing. An inner lid 2 is attached to the upper portion of the battery case main body 1, and the opened upper surface of the battery case main body 1 is airtightly closed by the inner lid 2.
[0010]
The inner lid 2 is formed of a synthetic resin in a hollow rectangular parallelepiped shape whose lower surface is opened, and each side surface 2e thereof is abutted against each side surface 1a of the battery case body 1 in an airtight state. In addition, a plurality of ribs 2d that are abutted in an airtight state on the respective partition walls 1b provided in the battery case body 1 project vertically downward from the upper surface portion 2a of the inner lid 2 in parallel with each other. It is provided as follows. By the ribs 2 d, the inside of the inner lid 2 is partitioned in an airtight state into spaces corresponding to the cell chambers 1 c in the battery case body 1.
[0011]
A cylindrical valve hole portion 2 b is provided on the upper surface portion 2 a of the inner lid 2 for each internal space of the inner lid 2 corresponding to each cell chamber 1 c in the battery case body 1. The valve hole portions 2 b are arranged in a straight line along the longitudinal direction of the inner lid 2. Each valve hole 2b passes through the upper surface 2a and protrudes above the upper surface 2a, and a rubber valve 2c is provided above each valve hole 2b protruding above the upper surface 2a. Yes.
[0012]
A pair of upper lids 3 are provided on the upper surface 2 a of the inner lid 2. Each upper lid 3 is formed in a linearly extending hollow rectangular parallelepiped shape with an open lower surface, and covers each group of a plurality of valve hole portions 2b divided by the center portion of the inner lid 2 as a boundary. Are arranged in a straight line along the longitudinal direction of the inner lid 2. The space inside each upper lid 3 is a gas flow path 3a through which gas discharged from the corresponding cell chamber 1c of the battery case body 1 through the valve hole 2b flows in a lump.
[0013]
Exhaust hole portions 3b for exhausting the gas flowing through the gas flow path 3a collectively are provided on the end surface of each upper lid 3 adjacent to one side surface 2e of the inner lid 2. An exhaust hose (not shown) is connected to the exhaust hole 3b. The exhaust hole portion 3b usually has a diameter of about 6 to 8 mm so that an exhaust hose for exhausting gas is connected to the outside of the vehicle.
[0014]
When gas is generated in the cell chamber 1c in the battery case 1 due to overcharging or the like, the internal pressure of the cell chamber 1c increases, and the rubber valve 2c provided in the valve hole 2b corresponding to the cell chamber 1c is pushed up. Thus, the valve hole 2b is opened. Thereby, the gas generated in the cell chamber 1c flows into the gas flow path 3a in the upper lid 3 through the valve hole portion 2b, and is discharged from the collective exhaust hole 3b to the outside of the vehicle compartment by the exhaust hose. Discharged.
[0015]
U.S. Pat. Nos. 5,298,344, 5,281,492, and 4916034 each disclose a control valve type lead storage battery in which a collective gas discharge passage is provided in the upper part of the battery case.
[0016]
[Problems to be solved by the invention]
In the conventional valve-regulated lead-acid battery shown in FIGS. 3 and 4, the gas flow path 3 a that is an internal space of the upper lid 3 provided in the inner lid 2 is used to discharge gas discharged from each cell chamber 1 c in the battery case 1. Therefore, the upper lid 3 is in a state of protruding from the inner lid 2. Since the upper area of the inner lid 2 has a space, a configuration for easily flowing the gas generated from each cell chamber 1c by providing a hollow upper lid 3 on the inner lid 2 is easy. Can be formed.
[0017]
In some cases, a part of the inner lid protrudes upward, and a gas discharge path is formed in the interior for flowing the gas discharged from each cell chamber in a lump.
[0018]
In recent years, from the viewpoint of environmental measures, there has been a strong demand for improving fuel efficiency by reducing the size and weight of vehicles, and lead-acid batteries for vehicles are also required to be reduced in size and weight. However, in the configuration in which the inner lid 2 is provided with a hollow upper lid 3 projecting upward and the gas discharge channel is formed inside the upper lid 3, the overall height of the battery case is increased and the battery can be downsized. Disappear.
[0019]
Moreover, in the structure which provides the hollow upper cover 3 on the inner cover 2, it differs from the shape of the battery case of a normal control valve type lead acid battery, and also differs from the shape of the battery case of an open type lead acid battery. For this reason, there is a possibility that the production cost may increase, for example, it is necessary to use special equipment different from equipment for manufacturing a normal battery case.
[0020]
The present invention solves such a problem, and its object is to collect the gas emitted from each cell chamber without making the shape and size of the battery case greatly different from that of a normal battery case. Then, it is providing the control valve type lead acid battery which can be discharged | emitted outside a battery case.
[0021]
[Means for Solving the Problems]
The control valve type lead-acid battery of the present invention includes a battery case body that is internally partitioned into a plurality of cell chambers, and an airtight space corresponding to each cell chamber of the battery case body. It is attached to the upper part of the battery case main body, and the upper surface portion thereof is provided with a valve hole portion that communicates with each cell chamber, and a groove-like recess portion that communicates with each cell chamber via each valve hole portion. Each of the valve lids is formed by a rubber plate that is provided so as to block the valve hole part in the inner cover provided and the concave part of the inner cover and is configured by a rubber plate. A flat rubber plate valve body that opens the gas passage, and a gas flow path through which the gas that has passed through each valve hole flows is formed above the valve body and in the recess of the inner lid. comprising a flat upper cover for closing the recess of the lid, and middle lid end of the gas flow path in middle lid An exhaust chamber formed in the end portion on the side so as to be positioned below the concave portion of the inner lid and above the cell chamber, and the exhaust chamber is formed on the bottom surface of the concave portion of the inner lid The gas channel communicates with the gas channel through a vent and communicates with the outside through an exhaust hole provided in the side surface of the inner lid. The gas channel is in the form of a sheet having air permeability. The rubber plate valve is configured by an elastic body that presses the rubber plate valve body, and the flat plate-like upper lid is placed on the valve hole portions of the plurality of cell chambers via the elastic body. The body is pressed, and thereby the above object is achieved.
[0024]
The elastic body is a sponge sheet.
[0025]
The inner lid is provided with an airtight sheet that seals a gap between the upper lid fitted into the concave portion of the inner lid and the concave portion in an airtight state.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0027]
FIG. 1 is an external perspective view showing an example of an embodiment of a control valve type lead storage battery of the present invention, and FIG. 2 is a cross-sectional view of the main part thereof. The control valve type lead storage battery of the present invention is for vehicle use, and has a battery case body 10 that accommodates a positive electrode plate, a negative electrode plate, a separator, an electrolytic solution, and the like. As shown in FIG. 2, the battery case body 10 is formed in a hollow rectangular parallelepiped shape whose upper surface is opened by a synthetic resin, and the insides thereof are parallel to each other along the width direction of the battery case body 10. A plurality of cell chambers 13 are partitioned by a plurality of partition walls 12. Each cell chamber 13 accommodates a plurality of positive plates, a plurality of negative plates that are stacked on each positive plate via a separator, and a non-fluidized electrolyte. ing.
[0028]
An inner lid 20 is attached to the upper part of the battery case main body 10, and the opened upper surface of the battery case main body 10 is airtightly closed by the inner lid 20.
[0029]
The inner lid 20 is made of a synthetic resin into a relatively thin hollow rectangular parallelepiped whose lower surface is opened, and each side surface 20a is abutted against each side surface 11 of the battery case body 10 and joined in an airtight state. ing. In addition, a plurality of ribs 21 that are abutted against each partition wall 12 provided in the battery case body 10 and are joined in an airtight state are provided on the upper surface portion 22 of the inner lid 20 that covers the opened upper surface of the battery case body 10. These are provided in a state of projecting vertically downward. By the ribs 21, the inside of the inner lid 20 is airtightly partitioned into spaces corresponding to the cell chambers 13 inside the battery case body 10.
[0030]
A concave portion 23 extending along a direction orthogonal to each rib 21 is formed at a substantially central portion in the width direction of the upper surface portion 22 of the inner lid 20. The recess 23 has a length along the longitudinal direction of the inner lid 20 so as to be located in an upper region of all the partitioned spaces inside the inner lid 20. The bottom surface 23a of the recess 23 is provided with a cylindrical valve hole portion 25 that protrudes into each space in the inner lid 20 formed corresponding to each cell chamber 13. Thus, each space in the inner lid 20 and the inside of the recess 23 communicate with each other.
[0031]
An exhaust chamber 26 in an airtight state is provided in one end of the inner lid 20 in the longitudinal direction. The exhaust chamber 26 communicates with the recess 23 through a vent 27 provided at an end of the bottom surface 23 a of the recess 23. Further, the exhaust chamber 26 communicates with the outside through a cylindrical exhaust hole portion 28 provided so as to penetrate the side surface 20 a of the inner lid 20. An exhaust hose is connected to the exhaust hole portion 28, and when the control valve type lead-acid battery is mounted on an automobile, the gas in the exhaust chamber 26 is exhausted to the outside by the exhaust hose. The
[0032]
In the recess 23 formed in the upper surface portion 22 of the inner lid 20, a rubber plate valve body 40 that is a plate-like valve body is provided in contact with the bottom surface 23 a of the recess 23. The rubber plate valve body 40 covers all the valve hole portions 25 provided in the bottom surface 23a of the recess 23, and the end of the bottom surface 23a so that the exhaust port 27 provided in the end portion of the bottom surface 23a is exposed. It arrange | positions in the state which does not cover a part. Therefore, the rubber plate valve body 40 closes the valve hole portions 25 respectively provided corresponding to the cell chambers 13 in the battery case body 10. The bottom surface 23a of the recess 23 and the rubber plate valve body 40 are hermetically sealed with a liquid sealant such as silicon oil.
[0033]
On the rubber plate valve body 40, a sheet-like pressing mat 50 is provided in a laminated state. The presser mat 50 is fitted over the entirety of the recess 23, and therefore, one end of the presser mat is in a state of facing the exhaust port 27 provided at the end of the bottom 23 a in the recess 23. Yes. The sheet-like presser mat 50 is made of, for example, a sponge sheet that is an air-permeable elastic body.
[0034]
In the recess 23, a flat-plate upper lid 30 is fitted on the pressing mat 50, and the recess 23 is closed by the upper lid 30. The upper lid 30 has a flat plate shape made of synthetic resin, and the upper surface of the upper lid 30 is at the same level as the upper surface of the upper surface portion 22 so as not to protrude from the upper surface portion 22 of the inner lid 20. The outer peripheral edge of the upper lid 20 is welded to the peripheral edge of the recess 23 by ultrasonic waves.
[0035]
The upper lid 30 presses the presser mat 50, whereby the presser mat 50 presses the rubber plate valve body 40 with a predetermined pressure. The rubber plate valve element 40 pressed by the pressing mat 50 opens each valve hole 25 when the internal pressure of each cell chamber 13 rises and falls within a predetermined range.
[0036]
From the valve hole 25 opened by the rubber plate valve body 40, the gas in each cell chamber 13 flows out and flows through the presser mat 50 having air permeability. Therefore, the presser mat 50 forms a gas flow path connected to the exhaust port 27 between the rubber plate valve 40 and the upper lid 30.
[0037]
An airtight sheet 80 is attached to the upper surface portion 22 of the inner lid 20 so as to cover the upper lid 30. The airtight sheet 80 is sealed with an airtight pressure-sensitive adhesive so as to improve the sealing performance of the gap formed between the outer edge of the upper lid 30 and the side wall of the recess 23 of the inner lid 20. Is pasted.
[0038]
As shown in FIG. 1, each terminal 90 of the control valve type lead-acid battery passes through the upper surface portion 22 of the inner lid 20 and protrudes above the inner lid 20.
[0039]
In the control valve type lead storage battery having such a configuration, the inner lid 20 is airtightly joined to the battery case body 10, and each rib 21 of the inner lid 20 is airtight with respect to each partition wall 12 of the battery case body 10. By being joined, the plurality of cell chambers 13 formed inside the battery case body 10 are airtight by the ribs 21 of the inner lid 20. In such a state, when oxygen gas or hydrogen gas is generated in any one of the cell chambers 13 due to an overcharged state or an abnormal state, and the internal pressure of the cell chamber 13 increases, the valve hole 25 is closed. The rubber plate valve body 40 to be pressed is pressurized. When the internal pressure of the cell chamber 13 is equal to or higher than a predetermined value set in advance, the rubber plate valve body 40 portion that closes the valve hole portion 25 corresponding to the cell chamber 13 resists the pressing force of the pressing mat 50. And the valve hole 25 is opened.
[0040]
The gas in the cell chamber 13 flows out from the opened valve hole 25. In this case, since the presser mat 50 constituted by the sponge sheet does not lose air permeability even when compressed, the gas flowing out from the cell chamber 13 through the valve hole 25 flows into the presser mat 50. Then, the inside of the holding mat 50 flows. Since one end of the presser mat 50 faces the exhaust port 27 provided on the bottom surface 23a of the recess 23, the gas flowing through the presser mat 50 passes through the exhaust port 27 and passes through the inner lid. It flows into the exhaust chamber 26 provided in the end portion of 20. The gas that has flowed into the exhaust chamber 26 is discharged to the outside of the battery case through an exhaust hole 28 that communicates the exhaust chamber 26 with the outside.
[0041]
When an exhaust hose is connected to the exhaust hole 28, the gas in the exhaust chamber 26 is exhausted, for example, outside the vehicle compartment of the automobile by the exhaust hose.
[0042]
In any of the cell chambers 13, when the internal pressure rises due to the generation of gas and the closing of the valve hole 25 by the rubber plate valve body 40 is released, the gas in the cell chamber 13 is suppressed by a sponge sheet. The air flows into the exhaust chamber 26 through the mat 50 and is discharged from the exhaust chamber 26 to the outside through the exhaust port 28. Accordingly, the gas flowing out from each cell chamber 13 flows through the holding mat 50 to the exhaust chamber 26 all at once.
[0043]
The rubber plate valve 40 and the holding mat 50 arranged in the groove-like recess 23 are each formed in a thin sheet shape, and the recess is so as to be at the same level as the upper surface of the upper surface portion 22 in the inner lid 20. The upper lid 30 fitted in the inner space 23 is accommodated in the recessed portion 23 in a compressed state. Accordingly, the holding mat 50 serving as the gas flow path is in a state of being accommodated in the concave portion 23 formed in the inner lid 20, and there is no possibility that the height of the entire battery case increases.
[0044]
In particular, since the rubber plate valve body 40 is pressed by the pressing mat 50 formed of a sponge sheet, the rubber plate valve body 40 does not need to be thickened to reliably close the valve hole portion 25 and can be thinned. Also by this, since the depth of the concave portion 23 in the inner lid 20 can be suppressed to be small, the thickness of the upper surface portion 22 in the inner lid 20 can be further reduced, and it is further ensured that the overall height of the battery case is increased. Can be suppressed.
[0045]
The outer peripheral edge portion of the upper lid 30 fitted in the concave portion 23 of the inner lid 20 and the peripheral edge portion of the concave portion 23 are welded by ultrasonic waves. When the upper lid 30 and the concave portion 23 are welded by ultrasonic waves, it is necessary to form a protrusion called a director on either the outer peripheral edge portion of the upper lid 30 or the peripheral edge portion of the concave portion 23. In the control valve type lead storage battery of the present embodiment, an airtight sheet 80 is attached to the upper surface of the upper surface portion 22 of the inner lid 20 so as to cover the upper lid 30, and the concave portion 23 and the upper lid 30 formed in the inner lid 20. The sealing performance of the gap is ensured. For this reason, it is not necessary to ultrasonically weld the outer edge portion of the upper lid 30 and the peripheral edge portion of the concave portion 23 over the entire circumference so that airtightness is obtained over the entire circumference. As a result, it is not necessary to continuously form a protrusion called a director formed on one of the outer peripheral edge of the upper lid 30 and the peripheral edge of the recess 23, and the protrusion is formed intermittently. And can be ultrasonically welded.
[0046]
Thus, it is not necessary to ensure the airtightness over the entire circumference of the concave portion 23 and the upper lid 30 of the inner lid 20, and a protrusion is intermittently formed on either the concave portion 23 or the upper lid 30 of the inner lid 20. In the case of ultrasonic welding, it can also be used as an inner lid and an upper lid of a battery case in a normal control valve type lead-acid battery not provided with a gas flow path.
[0047]
The airtight sheet 80 can be subjected to various displays such as a lead storage battery handling display and a product number display. As described above, by performing various displays on the airtight sheet 80, it is not necessary to separately attach a label provided with a product number display or the like, thereby improving productivity.
[0048]
【Effect of the invention】
Since the control valve type lead-acid battery of the present invention is thus provided with a recess in the inner lid and the valve body and the gas flow path are formed in the recess, the overall height of the battery case may increase. There is no, and it can reduce in size.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an example of an embodiment of a control valve type lead storage battery of the present invention.
FIG. 2 is a longitudinal sectional view of a main part of the control valve type lead storage battery.
FIG. 3 is a perspective view of a conventional control valve type lead-acid battery.
FIG. 4 is a longitudinal sectional view of an essential part of the control valve type lead-acid battery.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Battery case body 11 Side wall 12 Partition 13 Cell chamber 20 Inner lid 21 Rib 22 Upper surface part 23 Recess 23a Bottom surface 25 Valve hole part 26 Exhaust chamber 27 Exhaust port 28 Exhaust hole part 30 Upper cover 40 Rubber plate valve body 50 Holding mat 80 Airtight sheet

Claims (3)

A battery case body internally partitioned into a plurality of cell chambers;
It is attached to the upper part of the battery case body so that an airtight space corresponding to each cell chamber of the battery case body is formed inside, and a valve hole communicating with each cell room on the upper surface part thereof And an inner lid provided with a groove-like recess that communicates with each cell chamber via each valve hole,
In the recess of the middle lid is provided to close all valves holes, and is constituted by a rubber plate, by the internal pressure of the cell chamber is increased, plate-shaped rubber to open the respective valve holes A plate disc ,
A flat plate-like upper lid that closes the concave portion of the inner lid so that a gas flow path through which the gas that has passed through each valve hole portion is formed above the valve body and in the concave portion of the inner lid;
Comprising
The inner lid has an exhaust chamber formed so as to be positioned below the concave portion of the inner lid and above the cell chamber in the end portion of the gas flow path in the inner lid.
The exhaust chamber communicates with the gas flow path through a vent formed in the bottom surface of the concave portion of the inner lid, and communicates with the outside through an exhaust hole provided in a side surface of the inner lid. And
The gas flow path is formed of an elastic body that is air-permeable and presses the rubber plate valve body,
A control valve type lead-acid battery in which the flat upper cover presses the rubber plate valve mounted on the valve hole portions of the plurality of cell chambers via the elastic body . The elastic body, valve-regulated lead-acid battery according to claim 1 which is a sponge sheet.   The control valve type lead-acid battery according to claim 1, wherein the inner lid is provided with an airtight sheet that seals a gap between the upper lid fitted into the concave portion of the inner lid and the concave portion in an airtight state.

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