JPH0472994B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] This invention relates to a wax-type thermally responsive expansion and contraction device for controlling movable members used in a range from low to high temperatures, such as autochoke of automobile carburetors. be.

[Conventional technology]

Conventionally, a wax-type heat-responsive expansion and contraction device has contained wax and a sleeve with a flange made of mechanically strong rubber such as nitrile rubber or acrylic rubber in a metal container, and a plunger is placed inside the sleeve. the flange of the flanged sleeve is interposed between the open end surface of the container and a cover slidably inserted into the intermediate portion of the plunger; A structure is known in which the periphery of the cover is fixed to the periphery of the open end of the container while the flange is compressed by the cover to seal the joint.

On the other hand, rubbers with high mechanical strength such as nitrile rubber and acrylic rubber have superior bending resistance, abrasion resistance, and tensile strength compared to heat-resistant rubbers such as silicone rubber and fluorinated silicone rubber. However, when used for a long time in a high-temperature environment, a large compression set occurs, which means that the ability to return to the original dimensions is significantly reduced.

For this reason, in the case of a wax-type heat-responsive expansion device that uses a flanged sleeve made of rubber with high mechanical strength such as nitrile rubber or acrylic rubber, if it is used in a high-temperature environment for a long time, the flange of the rubber flanged sleeve will deteriorate. A problem occurs in that a large compression permanent strain occurs, and the pressure force of the flange against the open end surface of the container and the cover is reduced, and the sealing performance between the flange and the open end surface of the container and the cover is reduced.

As a countermeasure to this problem, it is possible to use a flanged sleeve made of heat-resistant rubber such as silicone rubber or fluorinated silicone rubber, but heat-resistant rubber has poor bending resistance and abrasion resistance, and low tensile strength. Therefore, there is a risk that the sleeve, which is the sliding deformation portion of the flanged sleeve, will wear out or break at an early stage.

[Purpose and structure of the invention]

The object of the present invention is to provide a wax-type thermally responsive expansion and contraction device that can advantageously solve the above-mentioned problems.
is accommodated, and the flange 6 of the rubber plunger pressing member 3 is fixed to the opening end surface of the container 1 and the cover 7 which is slidably fitted into the plunger 5 and fixed to the periphery of the opening of the metal container 1. In the wax-type heat-responsive expansion and contraction device, which is interposed between the flange 6 and the heat-resistant rubber seal plate 8 superposed thereon, the flange 6 and the heat-resistant rubber seal plate 8 are placed between the open end surface of the container 1 and the cover 7. The gist is a wax-type thermally responsive expansion and contraction device characterized by being interposed and tightened.

〔Example〕

Next, the present invention will be explained in detail using illustrated examples.

1 and 2 show a first embodiment of the present invention, in which a metal container 1 is filled with wax 2 and a rubber made of mechanically strong rubber such as nitrile rubber or acrylic rubber. A sleeve 4 of the plunger pressing member 3 consisting of a flanged sleeve is housed, and a conical portion is formed at the end of the sleeve 4 of the metal plunger 5 that is slidably inserted into the sleeve 4. The back surface of the flange 6 of the plunger pressing member 3 is coated with a heat-resistant material (high temperature resistance, low temperature resistance) such as silicone rubber or fluorinated silicone rubber.
An annular sealing plate 8 made of rubber is fixed together with vulcanization adhesive, and the annular sealing plate 8 is attached to the container 1.
A cover abutting end surface 17 is provided on the outside of the opening of the container 1, and the cover abutting end surface 17 abuts on the sealing end surface 16 on the inside of the opening of the container 1.
is arranged to be offset from the sealing end surface 16 in the longitudinal direction of the plunger. In addition, the sleeve 4
An annular sealing plate 9 made of tetrafluoroethylene is fixed in advance to the opening end surface of the plunger 5 by vulcanization adhesive, and a metal cover 7 is slidably fitted to the middle part of the plunger 5. .

An O-ring 10 is fitted into an annular groove provided inside the distal end of the cover 7, and a retaining ring 11 made of a snap spring is fitted into the annular groove provided inside the distal end of the cover 7. The sleeve end with the flange 6 and the annular seal plate 9 and the open end of the container 1 are fitted, and a step provided inside the base end side of the cover 7 is formed on the cover abutting end surface 17 of the opening of the container 1. With the sealing end face 16 of the opening of the container 1 and the cover 7 provided, the flange 6 and the annular seal plate
is compressed, and in this state, the proximal edge of the cover 7 is fixed to the container 1 by caulking.

FIGS. 3 and 4 show a second embodiment of the present invention, in which an annular seal plate 8 and a flange 6 are manufactured separately, and an annular locking plate is provided on the outer periphery of the seal plate 8. A protrusion 12 is integrally arranged, and the annular locking protrusion 12 and the end of the cylindrical portion 13 provided at the base end of the cover 7 are connected to an annular locking groove provided on the opening end surface of the container 1. The container 1 and the cover 7 are fixed by caulking the edge of the cylindrical body fitted into the cylindrical body 14 and connected to the outside of the open end of the container 1.
is omitted, but the other configurations are the same as in the first embodiment.

5 and 6 show a third embodiment of the present invention, in which a plunger pressing member 3 is made of a flanged sleeve made of rubber with high mechanical strength such as nitrile rubber or acrylic rubber. A heat-resistant protective layer 15 made of a heat-resistant rubber such as silicone rubber or fluorinated silicone rubber is previously provided integrally on the outer surface of the sleeve 4 and the back surface of the flange 6 located inside the container by vulcanization adhesion. The configuration is similar to that of the second embodiment.

FIG. 7 shows a fourth embodiment of the present invention, in which wax 2 is housed in a metal container 1,
A disk-shaped sealing plate 8 made of heat-resistant rubber as described above is attached to the sealing end surface 16 of the opening of the container 1.
The diaphragm-shaped plunger pressing member 3 made of rubber with high mechanical strength as described above is in contact with the peripheral edge thereof, and is superimposed on the sealing plate 8. A compressively deformable rubber piston 19 is fitted into the proximal end of the center hole 18, and the plunger 5 and the rubber piston are slidably fitted into the center hole 18. A sealing plate 9 is interposed between the sealing plate 9 and the sealing end face 1 of the opening of the container.
The flange 6 and the seal plate 8 are tightened between the flange 6 and the cover 7, and the step inside the proximal end of the cover 7 is abutted against the cover abutting end surface 17 of the opening of the container 1. An end edge of a cylinder connected to the base end of the cover 7 is fixed to the container 1 by caulking.

In each of the above embodiments, the cover abutting end surface 17
is arranged to be offset toward the bottom of the container than the sealing end surface 16, but conversely, the sealing end surface 1
6 may be arranged to be offset toward the container bottom side with respect to the cover abutting end surface 17.

Wax-type thermal expansion device at low temperature (e.g. -40℃)
℃) to high temperatures (for example, 120℃), it is appropriate to use silicone rubber or fluorinated silicone rubber, which has low and high temperature resistance, as the heat-resistant rubber constituting the seal plate 8. However, in the case of a wax-type thermally-responsive expansion device that is used in the range of about 0°C to high temperature (for example, 120°C), a rubber that has only high temperature resistance, such as Viton, is used as the heat-resistant rubber constituting the seal plate 8. May be used.

A layer of sealing material made of heat-resistant rubber may also be integrally provided on the surface of the flange 6 by vulcanization adhesion.
Further, as shown in FIG. 6, if an annular groove is provided at the seal plate contact portion on the open end surface of the container 1, the sealing performance can be improved.

〔Effect of the invention〕

According to this invention, in the wax type thermally responsive expansion and contraction device having the rubber plunger pressing member 3,
The flange 6 of the plunger pressing member 3 and the heat-resistant rubber sealing plate 8 superposed thereon are interposed between the open end surface of the container 1 and the cover 7 and are tightened, so that the plunger pressing member 3
is made of rubber that does not have heat resistance as in the past, and when the wax-type heat-responsive expansion and contraction device is used in a high-temperature environment for a long time, even if a large compression permanent strain occurs in the flange 6 of the rubber plunger pressing member 3. Since no large compression set occurs in the heat-resistant rubber seal plate 8 superimposed on the flange 6, the pressure force between the flange 6 and the heat-resistant rubber seal plate 8, the opening end surface of the container 1, and the cover 7 is reduced. Therefore, while ensuring the mechanical strength of the rubber plunger pressing member 3, the connection between the rubber plunger pressing member 3, the container 1, and the cover 7 can be prevented by simple means. This has the effect of improving the high temperature sealing properties between the two.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional side view of a wax-type thermally responsive expansion and contraction device according to a first embodiment of the present invention, and FIG. 2 is an enlarged longitudinal sectional side view of a portion thereof. FIG. 3 is a longitudinal sectional side view of a wax-type thermally responsive expansion and contraction device according to a second embodiment of the present invention, and FIG. 4 is an enlarged longitudinal sectional side view of a portion thereof. FIG. 5 is a longitudinal sectional side view of a wax-type thermally responsive expansion and contraction device according to a third embodiment of the present invention, and FIG. 6 is an enlarged longitudinal sectional side view of a portion thereof. FIG. 7 is a longitudinal sectional side view of a wax type thermally responsive expansion and contraction device according to a fourth embodiment of the present invention. In the figure, 1 is a metal container, 2 is wax,
3 is a plunger pressing member, 4 is a sleeve, 5 is a plunger, 6 is a flange, 7 is a cover, 8 is a seal plate made of heat-resistant rubber, 12 is an annular locking protrusion, 13 is a cylindrical portion, and 14 is an annular locking groove. , 15 is a heat-resistant protective layer,
16 is an end surface for sealing, 17 is an end surface for cover abutment,
18 is a center hole, and 19 is a rubber piston.

Claims (1)

[Claims] 1 Wax 2 is housed in a metal container 1, and a flange 6 on a rubber plunger pressing member 3
is interposed between the opening end surface of the container 1 and a cover 7 that is slidably fitted into the plunger 5 and fixed to the periphery of the opening of the metal container 1, and is fastened to the wax. In the heat-responsive expansion and contraction device, the flange 6 and the heat-resistant rubber seal plate 8 superposed thereon are connected to the open end surface of the container 1 and the cover 7.
A wax-type thermally responsive expansion and contraction device characterized by being interposed between and tightened.