WO2011122424A1 - Diaphragm - Google Patents

Abstract

Disclosed is a diaphragm having a flexible film portion and an outer peripheral flange portion integrally provided on the peripheral edge of the film portion, said outer peripheral flange portion being provided between and held by a first housing and a second housing, wherein the film portion is prevented from rising upward when the diaphragm is attached to the housings. The outer peripheral flange portion has a first pressed surface which is one surface of the diaphragm in the thickness direction and which is in close contact with the first housing, and a three-dimensional shape composed of a projected portion or a recessed portion, on the first pressed surface. When the outer peripheral flange portion is attached to the first housing and the second housing while being compressed and deformed therebetween, the three-dimensional shape defines voids in the thickness direction between the outer peripheral flange portion and the first housing.

Description

Diaphragm

The present invention relates to a diaphragm, and more particularly to a diaphragm suitable for use as an accumulator or the like of a vehicle hydraulic control device.

Conventionally, as shown in FIG. 5, a diaphragm 1 made of a rubber-like elastic body is known which has a membrane portion 2 which is flexibly deformed and an outer peripheral flange portion 3 integrally provided on a peripheral portion of the membrane portion 2. The diaphragm 1 is used, for example, as an accumulator of a hydraulic control device for a vehicle and attached to a pressure chamber 32 in a housing 31. With the action of pressure, the membrane portion 2 is flexibly deformed to change the volume of the pressure chamber 32. , And open and close the vent 33.

Recently, as shown in FIG. 6A, in the diaphragm 1 of the above outline, a diaphragm of a type in which one surface 2a in the thickness direction of the film portion 2 and one end surface 3a in the thickness direction of the outer peripheral flange portion 3 are disposed on the same plane. As shown in FIG. 6 (B), the diaphragm 1 is mounted by the outer peripheral flange 3 being sandwiched between the upper and lower housings 31A and 31B, and at this time, the membrane 2 is set as an initial movement posture. The one surface 2a is in contact with the flat portion 35 of the housing 31A on the upper and lower sides of the drawing provided with the vent holes 33.

However, according to the diaphragm 1 of FIGS. 6 (A) and 6 (B), the outer peripheral flange portion 3 is largely compressed and deformed when mounted between the pair of housings 31A and 31B. As shown in (C), the one surface 2a of the film portion 2 may be separated from the flat portion 35 of the lower housing 31A, and in such a case, the film portion 2 is prevented from rising to be accurate. It is necessary to secure the initial movement attitude.

JP 2007-269298 A (FIG. 18)

SUMMARY OF THE INVENTION In view of the foregoing, it is an object of the present invention to provide a diaphragm capable of suppressing the occurrence of a floating phenomenon on a film portion when the diaphragm is attached to a housing.

In order to achieve the above object, the diaphragm according to claim 1 of the present invention has a membrane portion which is flexibly deformed and an outer peripheral flange portion integrally provided on a peripheral edge portion of the membrane portion, the outer peripheral flange portion In the diaphragm held by being fitted between the pair of first housings and the second housing, the outer peripheral flange portion is one surface in the thickness direction of the diaphragm, and is in close contact with the first housing. 1) A pressed surface, and a solid shape having a convex portion or a recessed portion on the first pressed surface, and the outer peripheral flange portion is mounted by being compressed and deformed between the first housing and the second housing In the state, the three-dimensional shape is characterized in that a thickness direction space is formed in the thickness direction between the outer peripheral flange portion and the first housing.

The diaphragm of the present invention has a membrane portion which is flexibly deformed and an outer peripheral flange portion integrally provided on a peripheral edge portion of the membrane portion, and the outer peripheral flange portion is between the pair of first housing and the second housing In the case where the membrane portion is seated on the first housing, for example, when used as an accumulator of a fluid pressure control device for a vehicle, the state of having the membrane portion seated in the first housing is an initial movement posture. When a differential pressure is generated between the space and the space between the diaphragm and the second housing, the membrane part operates to move away from the first housing, and according to the configuration of claim 1, (1) A space in the thickness direction can be easily formed between the outer peripheral flange portion and the first housing simply by giving a three-dimensional shape to the pressed surface, and the first housing and the second housing of the outer peripheral flange portion can be formed by the space in the thickness direction. By absorbing the deformation due to the compression from the housing, the membrane portion under the influence of the deformation in the state where the diaphragm is mounted between the first housing and the second housing, that is, in the initial movement posture in which the above differential pressure is not generated. Floating from the first housing can be suppressed.

In the diaphragm according to claim 2 of the present invention, in the diaphragm according to claim 1 described above, the three-dimensional shape is an annular protrusion provided at a radial center of the first pressed surface, the outer periphery In the state where the flange portion is mounted by being compressed and deformed between the first housing and the second housing, the thickness direction air gap is formed radially outward of the annular projection of the first pressed surface. I assume.

According to the configuration of claim 2, by forming the thickness direction void radially outward of the annular protrusion of the first pressed surface by the annular protrusion, the volume of the thickness direction void can be sufficiently secured. Deformation due to compression from the first housing and the second housing of the flange portion can be more easily absorbed.

In the diaphragm according to claim 3 of the present invention, in the diaphragm according to claim 1 or 2, the outer peripheral flange portion is mounted between the first housing and the second housing. The outer diameter of the diaphragm is set between the outer peripheral surface of the outer peripheral flange portion and at least one of the first and second housings so as to form a radial gap in the radial direction of the diaphragm.

According to the configuration of the third aspect, the radial air gap makes it easier to absorb deformation due to compression from the first housing and the second housing of the outer peripheral flange portion.

In the diaphragm according to a fourth aspect of the present invention, in the diaphragm according to any one of the first to third aspects, the outer peripheral flange portion is the other surface in the thickness direction of the diaphragm and the second housing It is characterized in that it has a second pressed surface to be pressed, and a three-dimensional shape including a convex portion or a recessed portion on the second pressed surface.

According to the configuration of claim 4, it is possible to easily form a gap in the thickness direction between the outer peripheral flange portion and the second housing simply by giving a solid shape to the second pressed surface, and the outer periphery by the gap in the thickness direction It is easier to absorb deformation due to compression from the first and second housings of the flanges.

Furthermore, a diaphragm supporting structure according to a fifth aspect of the present invention is a diaphragm supporting structure in which the first housing and the second housing sandwich the diaphragm, wherein the diaphragm is any one of the first to fourth aspects. It is characterized by having a diaphragm of

According to the fifth aspect of the present invention, in the diaphragm supporting structure, the diaphragm according to any one of the first to fourth aspects can suppress the floating of the membrane portion from the first housing.

The present invention has the following effects.

That is, in the present invention, as described above, the gap in the thickness direction or the radial direction is set around the outer peripheral flange portion, and the escape place of the rubber-like elastic body at the flange deformation is secured. As it is absorbed by the escape area, the influence of the deformation is less likely to extend to the film portion on the inner peripheral side. Therefore, it is possible to suppress the occurrence of the floating phenomenon on the film portion, and to ensure the correct initial movement posture.

It is a figure which shows the diaphragm which concerns on the Example of this invention, (A) is a half cutting sectional view in the mounting state before, and (B) is a principal part enlarged view of (A). It is a figure which shows the same diaphragm, (A) is a half cutting sectional view in the wearing state, (B) is a principal part enlarged view of (A). It is a figure which shows the diaphragm which concerns on the other Example of this invention, (A) is a half cutting sectional view in the mounting state before, and (B) is a principal part enlarged view of (A). It is a figure which shows the same diaphragm, (A) is a half cutting sectional view in the wearing state, (B) is a principal part enlarged view of (A). Sectional drawing which shows the mounting state of the diaphragm which concerns on a prior art example It is a figure which shows the diaphragm which concerns on a comparative example, (A) is a half cutting sectional view in the mounting state before, mounting (B) is a half cutting sectional view in the mounting state, (C) is a half cutting sectional view in a failure generating state

Next, an embodiment of the present invention will be described with reference to the drawings.

As shown in FIGS. 1 and 2, the diaphragm 1 according to the embodiment is formed into a disk shape by a predetermined rubber-like elastic body, and the flexible deformable membrane portion 2 and the peripheral portion of the membrane portion 2 It integrally has an annular outer peripheral flange portion (peripheral attachment portion) 3 provided. The diaphragm 1 according to this embodiment is used as an accumulator of a vehicle hydraulic control apparatus that performs ABS control, ESC control, etc., and the outer peripheral flange portion 3 is between the pair of upper and lower housings 31A and 31B in the figure. By being pinched, the pressure chamber 32 (see FIG. 2) in the housings 31A and 31B is mounted. The lower housing 31A in FIG. 1 is provided with a vent 33, and the upper housing 31B is provided with a communication hole 39 communicating with, for example, the hydraulic fluid flow path of the vehicle hydraulic device.

As a detailed structure of the diaphragm 1, the film portion 2 is formed in a flat plate shape having a uniform thickness over the entire surface (except when the thick portion 4 described later is provided), and the vent 33 is provided. It has one surface 2a facing one housing (first housing) 31A and the other surface 2b on the opposite side. The outer peripheral flange portion 3 is set to a thickness larger than the membrane portion 2 and is formed into a substantially rectangular cross section, and one end face in the thickness direction is pressed against the one housing 31A provided with the vent hole 33 The other end surface is a pressed surface (second pressed surface) 3b that is pressed by the other housing (second housing) 31B. The first surface 3a to be pressed and the one surface 2a of the film portion 2 are disposed on the same plane to form a flush flat surface. The second pressed surface 3 b protrudes in the thickness direction more than the other surface 2 b of the film portion 2.

Incidentally, in order to suppress that the membrane part 2 interferes with the vent hole 33 (the membrane part 2 bites into the vent hole 33) at the time of operation of the diaphragm 1, a recess 5 is formed in the tip surface 4a in the plane center of the membrane part 2. The thick portion 4 provided is integrally molded, and correspondingly, the recess 34 into which the thick portion 4 is fitted is provided at the opening peripheral portion of the vent 33 in one housing 31A. The thick portion 4 and the recess 34 are not essential components, and may not be provided.

In one housing 31A provided with the air vent 33, a flat portion 35 is provided in which one surface 2a of the membrane portion 2 contacts substantially the entire surface. An annular mounting portion 36 (see FIG. 2) for mounting the outer peripheral flange portion 3 of the diaphragm 1 is provided between the pair of housings 31A and 31B. Therefore, an annular step portion 37 is provided on one housing 31A. Is formed to form the outer peripheral wall 36a of the mounting portion 36, and the other housing 31B is provided with an annular stopper portion 38 having a projecting shape, and the inner peripheral wall 36b of the mounting portion 36 is formed.

The dimension c (see FIG. 2) in the thickness direction of the mounting portion 36 is set smaller than the dimension d (see FIG. 1) in the thickness direction in the free state of the outer peripheral flange portion 3 (c <d). The dimension φe (see FIG. 2) in the width direction (radial direction) of the mounting portion 36 is set larger than the dimension φf (see FIG. 1) in the width direction in the free state of the outer peripheral flange portion 3 (φe> φf) . Further, the gap g (see FIG. 2) between the flat portion 35 of one housing 31A and the stopper portion 38 of the other housing 31B is the same as the thickness dimension h (see FIG. 1) of the membrane portion 2 or It is set to be slightly larger than the thickness dimension h (g ≧ h).

Assuming that the diaphragm 1 is mounted between the pair of housings 31A and 31B on the premise of the above, the film portion 2 is in contact with the flat surface portion 35 of the one housing 31A with the one surface 2a as shown in FIG. Becomes an initial movement posture, and pressure is applied to the diaphragm 1 in the initial movement posture, so that the film portion 2 is separated from the flat portion 35 of the housing 31A. The outer peripheral flange portion 3 is compressed and deformed when mounted between the housings 31A and 31B as shown in FIG. 1 to FIG. 2, but even if the outer peripheral flange portion 3 is compressed and deformed in this manner, the membrane portion 2 Is supposed to be in contact with the flat portion 35 of the housing 31A. However, as described above, depending on the cross-sectional shape of the diaphragm 1, as shown in FIG. 6C, the membrane portion 2 is already in the housing 31A in the initial posture where the outer peripheral flange portion 3 is attached to the housings 31A and 31B. In this case, it is necessary to take measures against such a case, because it may float away from the flat portion 35.

Therefore, the inventors of the present invention have made the present invention, and in conjunction with this, propose the following embodiments.

That is, as shown in FIG. 1, in the diaphragm 1 according to the embodiment, the first pressed surface 3a of the outer peripheral flange portion 3 is provided with a three-dimensional shape 7 on a plane, and this three-dimensional shape 7 is shown in FIG. As shown, when the outer peripheral flange portion 3 is mounted between the housings 31A and 31B and compressed and deformed, the outer peripheral flange portion is suppressed to suppress the occurrence of the floating phenomenon on the film portion 2 due to the deformation of the outer peripheral flange portion 3. A thickness direction air gap 8 (shown in FIG. 2), which is a clearance space at the time of flange deformation, is set between 3 and one of the housings 31A.

Specifically, the three-dimensional shape 7 is provided as a projection 9 provided at the radial center of the first pressed surface 3a, and by providing such a projection 9, it is on the outer peripheral side of the projection 9 in the mounted state. A gap 8 in the thickness direction is set between the first pressed surface 3 a of the outer peripheral flange portion 3 and the bottom surface 36 c of the housing mounting portion 36. The projection 9 is formed in an arc shape in a cross section cut by a plane including the central axis of the diaphragm 1 shown in FIG. 1 and extends over the entire circumference of the first pressed surface 3a in a plan view seen from the lower side of FIG. Is formed in an annular shape, but the shape in plan view is not limited to an annular shape, and if it does not cause a problem in the sealability, the plurality of projections are not annular but in the circumferential direction on the first pressed surface 3a It may be arranged side by side.

Further, when the outer peripheral flange portion 3 is mounted between the housings 31A and 31B, the outer peripheral flange portion 3 has a radial gap between the outer peripheral surface 3c of the outer peripheral flange portion 3 and the outer peripheral wall 36a of the housing mounting portion 36. It is set to the outside diameter size which can form 10 (shown in FIG. 2). A protrusion (not shown) may be provided on a part of the outer peripheral surface 3 c of the outer peripheral flange portion 3 and the protrusion may be in contact with the outer peripheral wall 36 a of the housing mounting portion 36.

In addition, although the second pressed surface 3b of the outer peripheral flange portion 3 may be a flat surface, in this embodiment, the second pressed surface 3b is also provided with a three-dimensional shape 11 of a part on a plane, Specifically, this three-dimensional shape 11 is provided as a projection 12 at the center in the radial direction of the second pressed surface 3b, and by providing such a projection 12, as shown in FIG. A thickness direction air gap 13 is set between the second pressed surface 3 b of the outer peripheral flange portion 3 and the bottom surface 36 d on the opposite side of the housing mounting portion 36 on the outer peripheral side. Similar to the projection 9, the projection 12 is formed in an arc shape in a cross section taken along a plane including the central axis of the diaphragm 1 shown in FIG. 1 and has a second pressed surface 3b However, the plan view shape is not limited to an annular shape, and if there is no problem with the sealability, the plurality of projections are not arranged in a circle, but are circumferentially arranged. It may be a structure.

According to the diaphragm 1 having the above-described configuration, the first pressed surface 3a of the outer peripheral flange portion 3 is provided with a three-dimensional shape 7 in a plan view, that is, the projection 9, thereby providing the outer peripheral flange portion 3 on the outer peripheral side of the projection 9. A gap 8 in the thickness direction is formed between the first pressed surface 3 a and the bottom surface 36 c of the housing mounting portion 36. The thickness direction air gap 8 has a size that absorbs elastic deformation of the outer peripheral flange portion 3 due to vertical compression shown in FIGS. 1 and 2 when the diaphragm 1 is mounted between the first housing 31A and the second housing 31B. It has become. Therefore, even if the outer peripheral flange portion 3 is compressed and deformed, the effect is less likely to be applied to the film portion 2, so that it is possible to suppress the occurrence of the floating phenomenon as shown in FIG. The thickness direction air gap 8 may be provided not only on the outer peripheral side of the projection 9 but also on the inner peripheral side.

In addition, in the embodiment, a radial gap 10 is formed between the outer peripheral surface 3 c of the outer peripheral flange portion 3 and the outer peripheral wall 36 a of the housing mounting portion 36. When the diaphragm 1 is mounted between the first housing 31A and the second housing 31B, the radial air gap 10 absorbs a part of elastic deformation of the outer peripheral flange portion 3 due to vertical compression shown in FIGS. doing. Together with the thickness direction air gap 8, the air gap that absorbs the elastic deformation of the outer peripheral flange portion 3 can be further enlarged, and the occurrence of the floating of the film portion 2 can be more easily suppressed.

Furthermore, in the present embodiment, the third pressed surface 3b of the outer peripheral flange portion 3 is also provided with the three-dimensional shape 11, that is, the protrusion 12, so that the second pressed surface 3b and the housing mounting portion on the outer peripheral side of the protrusion 12 A thickness direction air gap 13 is formed between the bottom surface 36 d of 36. This thickness direction air gap 13 also absorbs part of elastic deformation of the outer peripheral flange portion 3 due to vertical compression shown in FIGS. 1 and 2 when the diaphragm 1 is mounted between the first housing 31A and the second housing 31B. doing. In combination with the thickness direction gap 8 and the radial direction gap 10, the gap that absorbs the elastic deformation of the outer peripheral flange portion 3 can be further enlarged, and the occurrence of the floating of the film portion 2 can be further easily suppressed. The thickness direction air gap 13 may be formed not only on the outer peripheral side of the projection 12 but also on the inner peripheral side.

In addition, a plurality of convex portions such as the projections 9 and 12 having the three- dimensional shapes 7 and 11 may be provided in parallel to the first pressed surface 3a or the second pressed surface 3b of the outer peripheral flange portion 3, respectively. In this case, the gaps 8, 13 in the thickness direction are provided between the protrusions 9, 12 as a relief for the rubber-like elastic material.

The three- dimensional shapes 7 and 11 may be recesses instead of the projections 9 and 12, etc. In this case, the first pressed surface 3a or the second pressed surface 3b of the outer peripheral flange portion 3 In the state of being in direct contact with and pressed against the bottom surfaces 36c and 36d of the housing mounting portion 36, the air gaps 8 and 13 serving as escape areas of the rubber-like elastic body are between the outer peripheral flange 3 and the bottom surfaces 36c and 36d of the housing mounting portion 36. It is set. A plurality of recesses may also be provided in parallel. In FIGS. 3 and 4 shown as another embodiment, the upper three-dimensional shape 11 provided on the second pressed surface 3b of the upper and lower three- dimensional shapes 7 and 11 is formed by the groove-shaped recess 14.

Each of the air gaps 8, 10 and 13 acts as a relief for the rubber-like elastic body when the outer peripheral flange portion 3 is compressed and deformed while being sandwiched between the housings 31A and 31B. In a state in which the compression deformation is completed (the state in which the mounting operation is completed), a part or the whole may disappear (the rubber-like elastic material is filled and it does not exist as a space).

DESCRIPTION OF SYMBOLS 1 diaphragm 2 film | membrane part 2a one surface 2b other surface 3 outer periphery flange part 3a 1st to-be-pressed surface 3b 2nd to-be-pressed surface 3c outer peripheral surface 4 thick part 4a front end surface 5 recess 7, 11 solid shape 8, 13 thickness Directional air gap 9, 12 Projection 10 Radial air gap 14, 34 Recess 31, 31A, 31B Housing 32 Pressure chamber 33 Air vent 35 Flat portion 36 Mounting portion 36a Outer peripheral wall 36b Inner peripheral wall 36c, 36d Bottom surface 37 Stepped portion 38 Stopper portion 39 Communication Hole

Claims (5)

1. The flexible film has a membrane portion that deforms flexibly, and an outer peripheral flange portion integrally provided on the peripheral edge portion of the membrane portion, and the outer peripheral flange portion is held by being held between a pair of first housing and second housing At the diaphragm being
   The outer peripheral flange portion is one surface in the thickness direction of the diaphragm, and has a first pressed surface closely attached to the first housing, and a three-dimensional shape including a convex portion or a recessed portion on the first pressed surface. Have
   The three-dimensional shape is a thickness direction in the thickness direction between the outer peripheral flange portion and the first housing in a state where the outer peripheral flange portion is mounted by being compressed and deformed between the first housing and the second housing. A diaphragm characterized by forming an air gap.
2. The three-dimensional shape is an annular protrusion provided at a radial center of the first pressed surface, and the outer peripheral flange portion is mounted by being compressed and deformed between the first housing and the second housing. 2. The diaphragm according to claim 1, wherein the thickness direction air gap is formed radially outward of the annular protrusion of the first pressed surface.
3. The diameter of the diaphragm between the outer peripheral surface of the outer peripheral flange portion and at least one of the first and second housings in a state where the outer peripheral flange portion is mounted between the first housing and the second housing. The diaphragm according to claim 1 or 2, wherein an outer diameter dimension capable of forming a radial gap in a direction is set.
4. The outer peripheral flange portion is the other surface in the thickness direction of the diaphragm, and has a second pressed surface to be pressed by the second housing, and a solid shape including a convex portion or a recessed portion on the second pressed surface. The diaphragm according to any one of claims 1 to 3, characterized in that:
5. A diaphragm support structure comprising a diaphragm held by a first housing and a second housing, comprising: the diaphragm according to any one of claims 1 to 4 as the diaphragm.

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