JP2002260622A - Seal plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sealing plate 1, having a breather function and capable of retaining the internal pressure of a pressure container to be approximately constant, previously requiring no excess spaces for absorbing raised pressure in the pressure container and realizing small size of the pressure container by this space. SOLUTION: The sealing plate 1 closes an opening of the pressure container for storing a substance to be stored, such as a battery element and an electrolytic liquid and has a communication flow passage for communicating the inside and the outside of the pressure container; and a function membrane is 10 disposed so as to shield the communication flow passage 6. The function film 10 has gas permeability and a liquid impermeability and breather function for ventilating the inside and the outside of the pressure container and an explosion-proof function, such that an internal pressure is urgently released to the outside by rupturing this function membrane 10, when the internal pressure of the pressure container is raised rapidly.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery (including a primary battery and a secondary battery) or a capacitor (including an electrolytic capacitor and an electric double layer capacitor) or the like for accommodating a battery element, an electrolyte solution, and the like. The present invention relates to a sealing plate for closing an opening of a pressure vessel.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 4, a battery or the like having a case 52 for accommodating a container 53 such as a battery element and an electrolytic solution, and a sealing plate 54 for closing an opening 52a of the case 52. Pressure vessel 51 is known, and sealing plate 54
Is provided with a pair of electrode terminals 55 and an explosion-proof valve 56 for rupture when the internal pressure of the pressure vessel 51 rises abnormally and releasing this internal pressure to the outside.

However, in this prior art,
Since the explosion-proof valve 56 is formed of a rubber material and the rubber material is generally relatively large in elasticity, the burst pressure varies widely, and it is difficult to control the burst pressure. There are inconveniences.

Further, the above-mentioned prior art has an explosion-proof function by means of an explosion-proof valve 56. However, the inside and outside of the pressure vessel 51 are ventilated in order to suppress a rise in temperature when an electrolyte or the like reacts or a rise in internal pressure due to gas generation. Therefore, it does not have a breather function for maintaining the internal pressure of the pressure vessel 51 substantially constant. Therefore, it is necessary to secure an extra space in the pressure vessel 51 in advance in order to suppress the increase in the internal pressure in the pressure vessel 51. Therefore, the capacity of the pressure vessel 51 cannot be reduced, and the pressure vessel 51 can be downsized. There is an inconvenience that you cannot do it.

[0005]

SUMMARY OF THE INVENTION In view of the above, the present invention has a breather function and can keep the internal pressure of a pressure vessel substantially constant, so that excess pressure for absorbing a rising pressure is previously stored in the pressure vessel. The purpose of the present invention is to provide a sealing plate that can reduce the size of the pressure vessel without the need for providing a space, and in addition, the size of the burst pressure as an explosion-proof valve can be relatively easily adjusted. It is an object to provide a controllable sealing plate.

[0006]

In order to achieve the above object, a sealing plate according to claim 1 of the present invention is a sealing plate for closing an opening of a pressure vessel for accommodating a container such as a battery element and an electrolyte. And a communication channel communicating between the inside and the outside of the pressure vessel, and a functional membrane arranged to block the communication channel, wherein the functional membrane has gas permeability and liquid impermeability. A breather function for ventilating the inside and outside of the pressure vessel, and an explosion-proof function for urgently releasing the internal pressure to the outside by bursting this functional film when the internal pressure of the pressure vessel rises rapidly. It is characterized by the following.

[0007] The sealing plate according to claim 2 of the present invention comprises:
The above-mentioned sealing plate according to claim 1, wherein the functional film is obtained by subjecting a film-like porous body made of a resin material to a water-repellent treatment.

[0008] The sealing plate according to claim 3 of the present invention comprises:
In the above-mentioned sealing plate according to claim 1 or 2, a functional film rupture accelerating portion comprising a projection or the like which comes into contact when the functional film is deformed by receiving the internal pressure of the pressure vessel and accelerates the rupture thereof is provided on the functional film mounting side. It is characterized by being provided.

In the sealing plate according to the first aspect of the present invention having the above structure, a functional film is provided instead of the explosion-proof valve made of a rubber material in the prior art, and the functional film has both a breather function and an explosion-proof function. With the former, the breather function of the former makes it possible to keep the internal pressure of the pressure vessel almost constant, and the explosion-proof function of the latter prevents sudden accumulation of pressure that could lead to the explosion of the pressure vessel. It is possible to do.

As a functional film having such a function,
As described in claim 2, it is preferable that a water-repellent treatment is performed on a film-shaped porous body made of a resin material, and when the functional film is made of a resin material, Since the elasticity is generally smaller than that of the rubber material, the magnitude of the burst pressure can be controlled relatively easily.

According to a third aspect of the present invention, when the functional membrane is deformed by receiving the internal pressure of the pressure vessel, the functional membrane rupture accelerating portion comprising a projection or the like which contacts and accelerates the rupture of the functional membrane is provided on the functional membrane mounting side. In this case, it becomes easier to specify the timing of the rupture of the functional film.

Incidentally, the present application includes the following technical matters.

That is, in order to achieve the above object, one invention proposed by the present application is to provide a sealing material for an explosion-proof function in the prior art for a sealing plate for a primary, a secondary battery, a capacitor and a fuel cell. Explosion-proof valve)
It has a functional film, and the functional film has a pressure resistance, and when the internal pressure of the capacitor rises abnormally, the sealing material bursts and the function of stopping the capacitor function is added to the functional film. In addition, a cylindrical projection is provided on the main body side of the sealing plate, and the diameter and height thereof can be arbitrarily set to control the burst pressure of the functional film. It is.

Further, the present invention has the following features. Seal material (explosion-proof valve) is abolished. The functional film is as follows. -A film of a continuous porous body made of PTFE and subjected to a water-repellent treatment. -This functional film has a property of permeating gas, not permeating liquid. The burst pressure when the internal pressure rises abnormally with respect to the normal internal pressure can be set arbitrarily.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a plan view of a sealing plate 1 according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along line AA of FIG. FIG. 3 is an enlarged half sectional view taken along line BB in FIG. 1, and is a half sectional view of the breather unit 5.

A sealing plate (also referred to as a seal plate) 1 according to the embodiment is a pressure vessel (see FIG. 1) such as a battery (including a primary battery and a secondary battery), a fuel cell, a capacitor (including a capacitor), or an electric double layer. It is not shown, but closes the opening of the case in the prior art (see FIG. 4 according to the prior art), and is configured as follows.

First, a lid-shaped sealing plate body (also referred to as a sealing plate in a narrow sense) 2 for closing the opening of the pressure vessel.
The sealing plate body 2 is formed as a disk-shaped molded product from a resin material made of a predetermined polymer material such as bakelite or polyphenylene sulfide (PPS).

As shown in FIG. 1, when the flat surface of the sealing plate main body 2 is regarded as a clock face, a pair of electrode terminals 3, 3 are provided at the three o'clock position and the nine o'clock position. A breather unit 5 is provided at the two o'clock position. Explosion-proof valves are not provided separately.

As shown in FIG. 2, a pair of electrode terminals 3, 3
Are provided as aluminum terminals embedded in the resin sealing plate body 2 so as to penetrate the sealing plate body 2 in the thickness direction thereof. Buried flange portion 4 is provided integrally.

As shown in an enlarged manner in FIG.
Is configured as follows.

First, a hole-shaped communication channel 6 penetrating in the thickness direction is provided at a predetermined position on the plane of the sealing plate body 2, and the communication channel is located on the lower surface of the sealing plate body 2. A concave functional film mounting space 7 is provided on the same axis as that of the functional film mounting space 6, and an annular seal mounting space 8 is provided on the bottom surface of the functional film mounting space 7. And the holding member 11 into which the functional film 10 is inserted.
Is held by

First, the functional film 10 is a continuous porous film made of ethylene tetrafluoride resin (PTFE) which has been subjected to a water-repellent treatment. Its characteristics are gas permeability and gas permeability. It has liquid impermeability. When the internal pressure of the pressure vessel becomes higher than the atmospheric pressure, the functional film 10 opens the pressure to the outside, and when the internal pressure of the pressure vessel becomes lower than the atmospheric pressure, sucks the atmosphere to release the pressure vessel. It is formed into a film or a plane by a porous material so as to maintain the inside at atmospheric pressure, and a PTFE material excellent in chemical resistance is processed by a stretching method to form a film-like porous material. At the same time, the porous body is coated with a fluorine-based chemical and subjected to a water-repellent treatment, so that not only the surface thereof but also the inside of the porous body is subjected to the water-repellent treatment with the fluorine-based chemical. The size of the pores of the porous body is about 0.05 to 1 μm in actual size. Therefore,
By satisfying these conditions, when the differential pressure between the inside and outside of the pressure vessel is about 0.01 kg / cm ^2, a breather function is performed to keep the internal pressure of the pressure vessel constant, and thus the pressure accumulation over a relatively long time And a leaker for preventing leakage of an enclosed liquid such as an electrolytic solution.

The material of the functional film 10 includes the above-mentioned PTFE
Besides, polyethylene, polypropylene, polyvinylidene fluoride, cellulose acetate, polysulfone, polyacrylonitrile, polyamide or polyimide can be applied, the production method is selected by the material, the stretching method,
There are a track etching method, a melt phase separation method, a phase inversion method, a composite membrane method and the like, and the stretching method is suitable for PTFE as described above.

Here, the stretching method means that after the crystalline polymer is plasticized by applying heat or adding a plasticizer, it is stretched in a perpendicular direction to give a strain to the film, and the periphery of the crystal region is formed. This is a method of forming pores by spreading, and there is a microfiltration membrane such as polyethylene, polypropylene or PTFE.

In addition to the above-described breather function, the functional film 10 bursts when the internal pressure of the pressure vessel suddenly rises, so that the internal pressure is urgently released from the communication channel 6 to the outside. It also has an explosion-proof function to
That is, the functional film 10 also serves as a valve element of the explosion-proof valve.

In connection with the explosion-proof function, the sealing plate main body 2 is located on the inner peripheral side of the seal accommodating space 8 at the periphery of the lower end opening of the communication channel 6 to promote the rupture of the protruding functional film. The part 12 is provided integrally with the functional film 10.

The functional film rupture accelerating portion 12 includes the functional film 10
Is provided for contacting and promoting the rupture of the functional membrane rupture accelerating portion 12 when deformed by receiving the internal pressure of the pressure vessel. In this embodiment, the functional membrane rupture accelerating portion 12 has a substantially cross-sectional shape. It is provided as an annular projection having a rectangular shape. The inner diameter dimension φa of the projection is preferably 1.5 to 2.5 mm, and the height b of the projection is preferably about 0.2 to 1.0 mm. However, depending on the material and physical properties of the functional film 10, other dimensions may be used. Applicable.

In a state before the functional film 10 is deformed by receiving the internal pressure of the pressure vessel, the functional film 10 held between the sealing member 9 and the holding member 11 and the functional film rupture promoting portion 12 Is provided with a slight gap 13 as shown in FIG.
2 is non-contact. Then, when the functional film 10 is deformed to some extent due to an increase in the internal pressure of the pressure vessel, the functional film 10 comes into contact with the functional film rupture accelerating portion 12, is pressed, and eventually ruptures. The gap 13 is initially set between the functional film 10 and the functional film rupture accelerating portion 12 because the sealing member 9 pressed against the sealing plate body 2 by the holding member 11 has a predetermined sealing surface pressure. The purpose of this is to minimize the contact of the functional film 10 with the functional film rupture accelerating portion 12 as much as possible and to prevent the damage in advance as much as possible.

The seal member 9 is formed in a ring shape with a predetermined rubber-like elastic material such as silicon rubber, ethylene propylene diene rubber or VMQ, so that the outer periphery of the functional film 10 and the gap between the sealing plate main body 2 and the holding member 11 are formed. Prevents liquid from passing through. The illustrated seal member 9 is provided with annular bead portions 9a integrally on upper and lower surfaces thereof to further enhance the sealing performance.

The holding member 11 is formed in a ring shape from a resin material or an aluminum material made of a predetermined polymer material such as PPS, and is press-fitted into the functional film mounting space 7 from the inside thereof with a predetermined press-fitting allowance. Have been. Its function is to hold the sealing member 9 and the functional film 10 in the mounting spaces 7 and 8 as described above, and to appropriately compress the sealing member 9 to generate a predetermined sealing surface pressure. The method of fixing the holding member 11 to the sealing plate body 2 may be welding, bonding, or the like, in addition to the press-fitting described above. The inner peripheral space 11a forms a part of the ventilation channel together with the communication channel 6.

When the sealing plate 1 having the above structure is attached to the opening of the container body by means such as caulking, welding or bonding, the functional film 10 provided on the breather unit 5 has a breather function first. Therefore, the inside and outside of the pressure vessel are ventilated by the breather function, that is, when the internal pressure of the pressure vessel becomes higher than the atmospheric pressure, the pressure is released to the outside, and when the internal pressure of the pressure vessel becomes lower than the atmospheric pressure, the atmosphere is sucked. To maintain the inside of the pressure vessel at atmospheric pressure. Therefore, even if it is not necessary to provide an extra space in the pressure vessel in advance, it is possible to suppress a rise in temperature and a rise in internal pressure due to gas generation when the electrolytic solution or the like reacts. The size of the pressure vessel can be reduced.

Since the functional film 10 has an explosion-proof function as well as a breather function, the functional film 10 ruptures when the internal pressure of the pressure vessel rises so rapidly that the breather unit 5 cannot cover it. The internal pressure is urgently released from the communication channel 6 to the outside of the pressure vessel. Therefore, it is possible to prevent the pressure vessel 1 from exploding due to abnormal pressure accumulation.

The functional film 10 made of a resin material such as PTFE has a smaller elasticity than a conventional rubber explosion-proof valve. Therefore, the magnitude of the burst pressure can be controlled relatively easily.

Further, a protruding functional film rupture accelerating portion 12 is provided integrally with the functional film 10 on the inner peripheral side of the seal accommodating space 8 on the peripheral edge of the lower end opening of the communication channel 6 in the sealing plate body 2. Therefore, when the functional film 10 is deformed due to an increase in the internal pressure of the pressure vessel, the functional film 10 comes into contact with the functional film rupture accelerating portion 12 and is ruptured reliably. Therefore, in order to easily specify the timing at which the functional film 10 ruptures,
The magnitude of the burst pressure can be more easily controlled.

The sectional shape of the functional film rupture accelerating portion 12 is not limited to the rectangular shape shown in the figure, but may be a pointed shape such as a V-shaped, U-shaped or triangular shape. Also, the projection may be provided at one or more locations on the circumference instead of the ring.

Furthermore, in the above embodiment, since the functional film 10 exhibits both the breather function and the explosion-proof function, it is not necessary to provide a breather unit having a single function and an explosion-proof valve. Therefore, there is also an effect that the occupied space can be reduced and the number of parts and the number of assembling steps can be reduced as compared with the case where these are installed together.

[0038]

The present invention has the following effects.

First, in the sealing plate according to the first aspect of the present invention having the above structure, since the functional film has a breather function, the inside and outside of the pressure vessel are ventilated by the breather function, When the internal pressure of the container becomes higher than the atmospheric pressure, the pressure is released to the outside, and when the internal pressure of the pressure container becomes lower than the atmospheric pressure, the air is sucked and the inside of the pressure container is maintained at the atmospheric pressure. Therefore, even if it is not necessary to provide an extra space for absorbing the rising pressure in the pressure vessel in advance, it is possible to suppress a rise in temperature and a rise in internal pressure due to gas generation when the electrolyte or the like reacts. And the pressure vessel can be reduced in size.

Further, since the functional film has an explosion-proof function in addition to the breather function, when the internal pressure of the pressure vessel rises so rapidly that the breather cannot cover the internal pressure, the internal pressure is reduced. Emergency release from the communication channel to the outside of the pressure vessel. Therefore, it is possible to prevent the pressure vessel from exploding due to abnormal pressure accumulation.

Further, since the functional film has both a breather function and an explosion-proof function, it is not necessary to separately provide a breather unit having a single function and an explosion-proof valve. Therefore, the occupied space can be reduced and the number of parts and the number of assembling steps can be reduced as compared with the case where both are provided separately.

In addition to the above, in the sealing plate according to the second aspect of the present invention having the above structure, the functional film is obtained by performing a water-repellent treatment on a film-like porous body made of a resin material. Therefore, this functional film generally has a lower elasticity than a rubber material. Therefore, the magnitude of the burst pressure can be controlled relatively easily.

Also, the present invention has the above-mentioned structure.
In the sealing plate, because the functional membrane rupture promoting portion consisting of a projection or the like that contacts when the functional membrane is deformed by receiving the internal pressure of the pressure vessel and promotes the rupture is provided on the functional membrane mounting side, It becomes easier to specify the timing of the rupture of the functional film. Therefore, the magnitude of the burst pressure can be more easily controlled.

[Brief description of the drawings]

FIG. 1 is a plan view of a sealing plate according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along line AA in FIG.

FIG. 3 is an enlarged half sectional view taken along line BB in FIG. 1;

FIG. 4 is a cross-sectional view showing a mounted state of a sealing plate according to a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Sealing plate 2 Sealing plate main body 3 Electrode terminal 4 Buried flange part 5 Breather part 6 Communication channel 7 Functional membrane mounting space 8 Seal mounting space 9 Sealing member 9a Bead part 10 Functional film 11 Holding member 11a Inner peripheral space 12 Functional film rupture Promoter 13 gap

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI theme coat ゛ (reference) // F17C 13/06 301 H01G 9/00 301Z

Claims (3)

[Claims] 1. A sealing plate (1) for closing an opening of a pressure vessel for accommodating a container such as a battery element and an electrolyte, and a communication flow path (6) for communicating between inside and outside of the pressure vessel. The functional membrane (1) arranged so as to block the communication channel (6)
0), wherein the functional membrane (10) has a gas-permeable and liquid-impermeable breather function for ventilating the inside and outside of the pressure vessel, and when the internal pressure of the pressure vessel sharply rises A sealing plate having an explosion-proof function of urging the internal pressure to the outside by rupture of the functional film (10). 2. The sealing plate according to claim 1, wherein the functional film (10) is a film-shaped porous body made of a resin material and subjected to a water-repellent treatment. 3. The functional film rupture accelerating portion according to claim 1, wherein the functional film (10) comes into contact when the internal pressure of the pressure vessel is deformed and deforms to contact and promote the rupture thereof. (12) The sealing plate, wherein the sealing plate is provided on the functional film mounting side.