JP3991533B2 - Thermostat switch - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a thermostat switch that is turned on / off according to an ambient temperature.
[0002]
[Prior art]
A cross-sectional view of a conventional thermostat switch is shown in FIG. The thermostat switch body 1 is a bottomed cylindrical body 2 in which a contact portion 10 to be described later is housed in a housing recess 2a and a substantially disk-shaped body housing recess 2a on one side. A projecting base portion 3a that fits with the inner recess 3 is configured to include an inner lid 3 that is attached to the body 2 so as to close the opening of the housing recess 2a, and a cap 4 that is fitted to the body 2.
[0003]
A pair of terminals 5 and 6 made of a conductive material are provided through the bottom surface of the body 2. One terminal 5 includes a terminal piece 5a fixed to the bottom surface of the body 2 and a protruding piece 5b protruding in a direction substantially orthogonal to the terminal piece 5a from the end of the terminal piece 5a on the housing recess 2a side. The fixed contact 7 is provided on the surface of the projecting piece 5b facing the bottom surface of the body 2. A contact spring piece 8 to which a movable contact 9 is fixed is fixed to the end of the other terminal 6 on the side of the housing recess 2a. The contact spring piece 8 is formed by bending a strip of a conductive material having elasticity, and a contact portion 8b and a fixing portion 8c are integrally formed at both ends of a substantially arc-shaped bent portion 8a. A movable contact 9 that comes into contact with and away from the fixed contact 7 is fixed to the tip of the terminal 6, and the fixed portion 8 c protrudes into the housing recess 2 a so that the movable contact 9 faces the fixed contact 7. It is fixed at the end. Here, a contact portion 10 is constituted by the fixed contact 7 and the movable contact 9.
A round hole 3 b that penetrates the inner lid 3 is formed in the center of the inner lid 3. A cylindrical pin 11 is inserted into the round hole 3 b so as to be movable up and down, and the lower end of the pin 11 is in contact with the contact portion 8 b of the contact spring piece 8. Further, a step portion 3 c that is one step lower is formed on the upper surface of the inner lid 3, and a dome-shaped bimetal 12 is disposed on the step portion 3 c with the opening portion facing downward. Bimetal 12 is held between.
[0005]
Here, when the temperature of a heat source (not shown) outside the thermostat switch rises (or falls), the temperature change of the heat source is transmitted to the bimetal 12 via the cap 4, and the central portion of the bimetal 12 is lower in FIG. 12. It is displaced to. At this time, the pin 11 moves downward according to the displacement of the bimetal 12, and the movable contact 9 pushes and deflects the contact spring piece 8 in a direction away from the fixed contact 7, so that the movable contact 9 is dissociated from the fixed contact 7. The contact portion 10 is turned off. On the other hand, when the temperature of the heat source decreases (or increases), the temperature change of the heat source is transmitted to the bimetal 12 through the cap 4, the central portion of the bimetal 12 is displaced upward in the figure, and the movable contact 9 is separated from the fixed contact 7. Since there is no force to push and deflect the contact spring piece 8 in the direction, the spring return force of the contact spring piece 8 moves the contact spring piece 8 so that the movable contact 9 approaches the fixed contact 7 and the contact portion 10 is turned on. It becomes a state.
[0006]
[Problems to be solved by the invention]
In the thermostat switch having the above configuration, the bimetal 12 that is displaced according to the temperature outside the container body 1 is disposed in the container body 1, and the bimetal 12 is surrounded by the container body 1. There was a problem that the response speed of the switch was slow.
[0007]
In order to improve the response speed of the switch, as shown in FIG. 13, a thermostat switch in which an opening 4a is provided on the upper surface of the cap 4 and the bimetal 12 faces the opening 4a has been proposed. Foreign matter such as dust or dust enters the storage recess 2a that stores the contact portion 10 through the portion 4a or the round hole 3b, and foreign matter such as dust or dust that has entered the body 1 enters the contact portion 10. There was a problem that the contact reliability of the contact portion 10 deteriorated due to adhesion.
[0008]
The present invention has been made in view of the above problems, and an object thereof is to provide a thermostat switch that improves the response speed of the switch and prevents the contact reliability of the contact portion from being lowered. There is.
[0009]
[Means for Solving the Problems]
  In order to achieve the above object, in the first aspect of the present invention, a contact portion comprising a fixed contact and a movable contact that comes in contact with and separates from the fixed contact;Formed in a dome shapeAccording to temperature changeThe central partA movable part that is displaced and displaced, a drive part that is driven in accordance with the displacement of the movable part, opens and closes both contacts, and a container that houses the above parts, and an opening that communicates with the interior of the container on the surface of the container A movable part is arranged inside the container so as to face the opening, and a sealing means for sealing at least a part inside the container containing the contact part is provided inside the container.In the thermostat switch, the sealing means is formed of a flexible material, is formed in a dome shape, a central portion on which the movable portion is placed, and a circular portion in which the circumferential portion of the central portion is coupled to the inner peripheral surface. The drive unit is configured with a columnar protrusion that protrudes from a surface opposite to the surface on which the movable portion is placed in the center portion.Since the movable part is arranged inside the container so as to face the opening, the response speed of the movable part to the temperature change outside the container can be improved, and inside the container, Since a sealing means is provided to seal at least the part inside the container housing the contact part, foreign matter such as dust or dust that has entered the container body from the opening is attached to the contact part, It can prevent that the contact reliability of a part falls.Moreover, since the drive unit is formed integrally with the sealing means, the number of parts is reduced compared to the case where the drive unit and the sealing means are formed separately, and the drive unit is placed inside the container. Since the member for positioning becomes unnecessary, the number of parts can be further reduced and the assembly workability is improved. Furthermore, since the sealing means is formed of a flexible material, even if the sealing means is deformed in accordance with the displacement of the movable part, a force that prevents the movable part from being displaced is generated in the sealing means. Can be prevented.
[0010]
  In the invention of claim 2, in the invention of claim 1, the sealing meansYesThe gap between the moving part and the container is sealed, the movable part is arranged inside the container so as to face the opening, and the sealing means is a gap between the movable part and the container Can prevent foreign matter such as dust and dirt from entering the inside of the container from the opening, and prevent foreign matter from adhering to the contact part and lowering the contact reliability of the contact part. And since the sealing means is formed from the material which has flexibility, even if the sealing means deform | transforms according to the displacement of a movable part, the force which prevents the displacement of a movable part to a sealing means It can be prevented from occurring.
[0011]
  In the invention of claim 3, in the invention of claim 1, the sealing meansIs openSince the entire mouth is covered and the sealing means covers the entire opening, foreign matter such as dust and dirt can be prevented from entering the inside of the container from the opening, and foreign matter can adhere to the contact part. The contact reliability of the contact portion can be prevented from being lowered, and the sealing means is formed of a flexible material. Even if the sealing means is deformed in accordance with the displacement of the movable portion. Thus, it is possible to prevent the sealing means from generating a force that hinders the displacement of the movable part.
[0014]
  Claim4In the invention of claim 1, in the invention of claim 1, the body is a body in which a housing recess for housing the movable portion, the driving portion, and the contact portion is formed.And yieldIt is composed of a cap fitted to the body from the opening side of the recess, and an elastic locking piece protruding toward the body side is provided on the back surface of the cap and locked to the body part corresponding to the locking piece When the cap is assembled into the body from the opening side of the storage recess, the locking piece provided on the cap elastically locks with the locked portion. Since the cap and the body can be coupled with one touch, it is not necessary to prepare a special jig for coupling the cap and the body, and the workability of the assembly work is improved. Moreover, since the cap is made of a heat-resistant material, a thermostat switch that can be used even in a high-temperature atmosphere can be realized.
[0015]
  Claim5In the invention of claim 1, in the invention of claim 1, the sealing means isIn an atmosphere of at least 200 ° CSince the sealing means is formed of a material having heat resistance, the thermostat switch that can be used even in a high-temperature atmosphere can be realized.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
[0017]
  (Reference example 1)
  According to the present inventionThermostat switchReference exampleWill be described with reference to FIGS. The thermostat switch body 1 has a cylindrical shape with a bottom and a synthetic resin body 2 that houses a contact portion 10 to be described later in a housing recess 2a, and a substantially disc-shaped body 2 that houses the body 2 on one side. A projecting base 3a that fits into the recess 2a protrudes, and a synthetic resin inner lid 3 that is attached to the body 2 so as to close the opening of the storage recess 2a, and from the opening side of the storage recess 2a The metal cap 4 is covered with the body 2 and fixed by caulking to the body 2.
[0018]
A pair of terminals 5 and 6 made of a conductive material are provided through the bottom surface of the body 2. One terminal 5 includes a terminal piece 5a fixed to the bottom surface of the body 2 and a protruding piece 5b protruding in a direction substantially orthogonal to the terminal piece 5a from the end of the terminal piece 5a on the housing recess 2a side. The fixed contact 7 is provided on the surface of the projecting piece 5b facing the bottom surface of the body 2. A contact spring piece 8 to which a movable contact 9 is fixed is fixed to the end of the other terminal 6 on the side of the housing recess 2a. The contact spring piece 8 is formed by bending a strip of a conductive material having elasticity, and a contact portion 8b and a fixing portion 8c are integrally formed at both ends of a substantially arc-shaped bent portion 8a. A movable contact 9 that comes into contact with and away from the fixed contact 7 is fixed to the tip of the terminal 6, and the fixed portion 8 c protrudes into the housing recess 2 a so that the movable contact 9 faces the fixed contact 7. It is fixed at the end. Here, a contact portion 10 is constituted by the fixed contact 7 and the movable contact 9.
[0019]
On the upper surface of the inner lid 3, a round hole 3b penetrating the inner lid 3 is opened substantially in the center, and a cylindrical pin 11 serving as a drive unit is inserted into the round hole 3b so as to be movable up and down. The lower end of the pin 11 is in contact with the contact portion 8 b of the contact spring piece 8. Here, between the inner lid 3 and the cap 4, a sealing member (sealing means) 14 that seals at least the housing recess 2 a of the body 2 that houses the contact portion 10 is interposed.
[0020]
The sealing member 14 is formed of a flexible material such as rubber, and has an annular portion 14a that has a substantially rectangular cross section and whose upper and lower surfaces are in contact with the upper surface of the inner lid 3 and the inner surface of the cap 4, respectively. , And a thin central portion 14b formed in a dome shape and having a circumferential portion coupled to the inner circumferential surface of the annular portion 14a. A dome-shaped bimetal 12 serving as a movable portion is disposed in the central portion 14 b of the sealing member 14 with the opening facing downward. The bimetal 12 is formed in a round hole-shaped opening 4 a formed on the upper surface of the cap 4. I'm here. Since the inner diameter of the opening 4a is smaller than the outer diameter of the bimetal 12, the bimetal 12 does not fall out of the opening 4a. In addition, a step 3d that is one step lower is formed on the upper surface of the inner lid 3 corresponding to the annular portion 14a of the sealing member 14, and the sealing member 14 is positioned by the step 3d.
[0021]
When assembling this switch, the protrusion 3a of the inner lid 3 is fitted into the storage recess 2a of the body 2 in a state where the contact portion 10 is incorporated in the storage recess 2a of the body 2. The inner lid 3 is placed on the body 2 so as to close the opening of 2a, and the pin 11 is inserted into the round hole 3b of the inner lid 3. Then, the sealing member 14 is placed on the inner lid 3 so that the protruding direction of the central portion 14b is upward, the bimetal 12 is placed on the central portion 14a of the sealing member 14, and then the cap 4 is stored. The cap 4 is fixed to the body 2 by covering the body 2 from the opening side of the recess 2 a, caulking the peripheral wall 4 b of the cap 4, and engaging with the flange 2 b protruding from the peripheral surface of the body 2. At this time, the bimetal 12 is held between the sealing member 14 and the cap 4.
[0022]
Here, when the temperature of a heat source (not shown) outside the thermostat switch rises (or falls), the central portion of the bimetal 12 is displaced downward in FIG. At this time, the pin 11 moves downward in the figure according to the displacement of the bimetal 12, and the movable contact 9 pushes and deflects the contact spring piece 8 in a direction away from the fixed contact 7. The contact portion 10 is turned off. At this time, the central portion 14b of the sealing member 14 is pressed and bent downward in the drawing according to the displacement of the bimetal 12, but the sealing member 14 is formed of a flexible material and has a thickness of the central portion 14b. Is formed with such a thickness that the strength of the central portion 14b can be secured and a force that prevents the displacement of the bimetal 12 is not generated when the bimetal 12 is deformed according to the displacement of the bimetal 12. A force that prevents the displacement of the bimetal 12 does not occur.
[0023]
On the other hand, when the temperature of the heat source is lowered (or raised), the central portion of the bimetal 12 is displaced upward in the drawing, and the force that pushes and deflects the contact spring piece 8 in the direction in which the movable contact 9 moves away from the fixed contact 7 is lost. By the spring return force of the contact spring piece 8, the contact spring piece 8 moves in the direction in which the movable contact 9 approaches the fixed contact 7, and the contact portion 10 is turned on. Further, the central portion 14b of the sealing member 14 is also moved upward in the figure by the elastic restoring force, and returns to the state shown in FIG.
[0024]
  in this way,thisIn the thermostat switch, since the bimetal 12 is exposed to the outside through the opening 4 a provided in the cap 4, compared with the case where the bimetal 12 is surrounded by the body 1, the temperature change outside the body 1 is prevented. The response speed of the bimetal 12 is improved. In addition, since the housing recess 2a that houses the contact portion 10 is sealed by the sealing member 14, dust such as dust or dust that has entered the inside of the container body 1 from the opening 4a houses the contact portion 10. Intrusion into the storage recess 2a can be prevented, and the contact reliability of the contact portion 10 can be ensured.
[0025]
In addition, you may use the material which has heat resistance like silicone rubber, for example as a material of the sealing member 14 mentioned above, By forming the sealing member 14 with a material which has heat resistance, it is 200 degreeC or more, for example. A thermostat switch that can be used even in a high-temperature atmosphere can be realized.
[0026]
  (Reference example 2)
  Reference exampleFIG. 5 shows a cross-sectional view of the thermostat switch.Explained in Reference Example 1In the thermostat switch, a sealing member 14 is interposed between the inner lid 3 and the cap 4.Reference exampleIn this thermostat switch, instead of the sealing member 14, a thin film 15 formed in a substantially circular shape from a flexible material is placed on the upper surface of the inner lid 3, and the cross-sectional shape is substantially circular on the thin film 15. An annular seal member 16 formed in the above is placed. In addition, a bimetal 12 is placed substantially at the center of the thin film 15, and the bimetal 12 is exposed to the outside from the opening 4 a of the cap 4. The configuration other than the thin film 15 and the seal member 16 isReference Example 1Since it is substantially the same as a thermostat switch, the same code | symbol is attached | subjected to the same component and the description is abbreviate | omitted.
[0027]
Here, since the thin film 15 and the sealing member 16 are sandwiched between the upper surface of the inner lid 3 and the inner surface of the cap 4, the contact portion 10 is formed by the sealing means composed of the thin film 15 and the sealing member 16. The storage recess 2a to be stored can be sealed. In addition, since the film thickness of the thin film 15 is thin enough, when the bimetal 12 displaces, the force which prevents the displacement of the bimetal 12 is not generated in the thin film 15.
[0028]
  in this way,Reference exampleIn the thermostat switch, since the housing recess 2a in which the contact portion 10 is housed is sealed by the sealing means including the thin film 15 and the seal member 16,Reference example 1In the same manner as described above, it is possible to prevent foreign matter such as dust or dirt that has entered the inside of the container 1 from the opening 4a from entering the storage recess 2a that stores the contact portion 10, and the contact reliability of the contact portion 10 can be improved. It can be secured. Further, since the bimetal 12 is exposed to the outside through the opening 4 a provided in the cap 4, the bimetal 12 with respect to the temperature change outside the body 1 is compared with the case where the bimetal 12 is surrounded by the body 1. Improves the response speed.
[0029]
In addition, as a material of the thin film 15 mentioned above, you may use the material which has heat resistance like a polyimide resin, for example, by forming the thin film 15 with a material which has heat resistance, for example, high temperature atmosphere of 200 degreeC or more It is possible to realize a thermostat switch that can also be used below.
[0030]
  (Embodiment1)
  The thermostat switch of this embodiment is demonstrated with reference to FIG.6 and FIG.7.Reference Example 1In the thermostat switch, the sealing member 14 and the pin 11 are formed separately, and the inner lid 3 is provided to support the pin 11. However, in the thermostat switch of this embodiment, the central portion of the sealing member 14 is provided. A substantially cylindrical projection 14c for driving the contact portion 10 is formed integrally with the sealing member 14 at the approximate center of the lower surface of 14b. The projection 14c constituting the drive unit is integrated with the sealing member 14. Therefore, it is not necessary to provide a member for supporting the driving portion (projecting portion 14c), and the inner lid 3 is eliminated. The configuration other than the sealing member 14 isReference Example 1Since it is the same as a thermostat switch, the same code | symbol is attached | subjected to the same component and the description is abbreviate | omitted.
[0031]
Here, when the temperature of a heat source (not shown) outside the thermostat switch rises (or falls), the central portion of the bimetal 12 is displaced downward in FIG. At this time, the central portion 14 b of the sealing member 14 is bent according to the displacement of the bimetal 12, the protruding portion 14 c provided on the central portion 14 b moves downward in the figure, and the movable contact 9 moves away from the fixed contact 7. Therefore, the movable contact 9 is dissociated from the fixed contact 7 and the contact portion 10 is turned off. On the other hand, when the temperature of the heat source is lowered (or raised), the central portion of the bimetal 12 is displaced upward in the drawing, and the force that pushes and deflects the contact spring piece 8 in the direction in which the movable contact 9 moves away from the fixed contact 7 is lost. By the spring return force of the contact spring piece 8, the contact spring piece 8 moves in the direction in which the movable contact 9 approaches the fixed contact 7, and the contact portion 10 is turned on. Further, the central portion 14b of the sealing member 14 is also moved upward in the figure by the elastic restoring force, and returns to the state shown in FIG.
[0032]
As described above, the sealing member 14 is formed of a flexible material such as rubber, and the protrusion 14c constituting the driving unit is formed integrally with the sealing member 14, so that the number of parts As a result, assembly workability is improved. Further, since the protruding portion 14c is formed integrally with the sealing member 14, there is no need to separately provide a member for positioning the protruding portion 14c. Therefore, the inner lid 3 for supporting the pin 11 constituting the driving portion. Therefore, the number of parts can be reduced and the assembly workability is improved.
[0033]
In the present embodiment, the portion that presses the contact spring piece 8 is formed of the same material as the sealing member 14, but as shown in FIGS. 8A and 8B, It may be made of a material different from that of the sealing member 14, provided with a pressing portion 14d that presses the contact spring piece 8, and the pressing portion 14d and the sealing member 14 may be formed simultaneously.
[0034]
  (Reference example 3)
  Other reference examplesThe thermostat switch will be described with reference to FIGS. 9 and 10. FIG.Reference Example 1In the thermostat switch, the bimetal 12 and the sealing member 14 are formed separately,Reference exampleIn this thermostat switch, the bimetal 12 and the sealing member (sealing means) 17 are integrally formed. The configuration of the thermostat switch other than the bimetal 12 and the sealing member 14 isReference Example 1Since it is the same as a thermostat switch, the same code | symbol is attached | subjected to the same component and the description is abbreviate | omitted.
[0035]
Here, the sealing member 17 is formed of a flexible material such as rubber, for example. The sealing member 17 has an annular shape with a cross-sectional shape formed in a substantially rectangular shape. The bimetal 12 and the seal member 17 are molded so as to be coupled to the peripheral surface. Thus, since the bimetal 12 is formed integrally with the seal member 17, the number of parts is reduced, and the bimetal 12 is positioned on the upper surface of the inner lid 3, so that the assembly workability is improved.
[0036]
  still,Reference exampleThen, rubber is used as the material of the seal member 17, but the material of the seal member 17 is not limited to rubber, and any material may be used as long as it is flexible. For example, a gel material may be used as the material 17.
[0037]
  Also mentioned aboveReference example 2In this thermostat switch, the thin film 15 and the bimetal 12 constituting the sealing means may be integrally formed. For example, by bonding the thin film 15 to the bimetal 12, the number of parts can be reduced and the assembly workability can be reduced. Will improve.
[0038]
  (Reference example 4)
  Reference exampleThe thermostat switch will be described with reference to FIG. Embodiment 1 described aboveAnd Reference Examples 1 to 3In the thermostat switch, the cap 4 is caulked and fixed to the body 2,Of this reference exampleThe thermostat switch is shown in FIG.Reference example 3In this thermostat switch, the cap 4 and the body 2 are coupled by concave-convex fitting. The configuration other than the cap 4 isReference example 3Therefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0039]
  Reference exampleThen, the cap 4 is resin-molded with a heat-resistant molding material such as LCP, for example, and a claw piece 4 c that protrudes inwardly protrudes from the opening edge of the peripheral wall 4 b of the cap 4. Thus, when the cap 4 is attached, if the cap 4 is pushed into the body 2 side from above the body 2 and the inner lid 3 with the opening edge of the peripheral wall 4b facing downward, the claw piece 4c provided on the peripheral wall 4b The peripheral wall 4b of the cap 4 is pushed outward by contacting the peripheral surface of the lid 3 and the body 2, and when the cap 4 is further pushed into the body 2, the claw pieces 4c of the cap 4 are formed on the peripheral surface of the body 2. The cap 4 is fixed to the body 2 by being engaged with the edge of the flange 2b. Here, a locking piece is constituted by the peripheral wall 4 b and the claw piece 4 c of the cap 4, and a locked portion is constituted by the flange portion 2 b of the body 2.
[0040]
  By the way, when the bimetal 12 is housed inside the container 1 as in a conventional thermostat switch, a resin molded product could not be used for the cap 4 in order to improve the thermal conductivity as much as possible. Embodiment 1 described aboveAnd Reference Examples 1 to 4Then, since the opening 4a is formed in the cap 4 and the bimetal 12 is exposed, the response speed of the bimetal 12 to the temperature change of the heat source is improved. Therefore, it is possible to use a resin molded product for the cap 4. It was. Therefore, the cap 4 can be fixed to the body 2 with one touch by covering the cap 4 from above the body 2 and fitting the claw pieces 4c to the edge of the flange 2b as described above. Assembling workability is improved without requiring a special jig as in the case of caulking and fixing to the body 2. Embodiment1 and Reference Examples 1 and 2Of course, in the thermostat switch, the body 2 and the cap 4 may be concavo-convexly fitted as in the present embodiment.
[0041]
【The invention's effect】
  As described above, the invention of claim 1 is a contact portion comprising a fixed contact and a movable contact that is in contact with and away from the fixed contact;Formed in a dome shapeAccording to temperature changeThe central partA movable part that is displaced, a drive part that is driven in accordance with the displacement of the movable part, opens and closes both contacts, and a container that houses the above parts, and an opening that communicates with the interior of the container on the surface of the container The movable part is arranged inside the container so as to face the opening, and a sealing means for sealing at least a part inside the container containing the contact part is provided inside the container.In the thermostat switch, the sealing means is formed of a flexible material, is formed in a dome shape, a central portion on which the movable portion is placed, and a circular portion in which the circumferential portion of the central portion is coupled to the inner peripheral surface. The drive unit is configured with a columnar protrusion that protrudes from a surface opposite to the surface on which the movable portion is placed in the center portion.Since the movable part is arranged inside the container so as to face the opening, the response speed of the movable part to the temperature change outside the container can be improved, and inside the container, Since a sealing means is provided to seal at least the part inside the container housing the contact part, foreign matter such as dust or dust that has entered the container body from the opening is attached to the contact part, There is an effect that it is possible to prevent the contact reliability of the portion from being lowered.Moreover, since the drive unit is formed integrally with the sealing means, the number of parts is reduced compared to the case where the drive unit and the sealing means are formed separately, and the drive unit is placed inside the container. Since the member for positioning becomes unnecessary, the number of parts can be further reduced and the assembly workability is improved. Furthermore, since the sealing means is formed of a flexible material, even if the sealing means is deformed in accordance with the displacement of the movable part, a force that prevents the movable part from being displaced is generated in the sealing means. Can be prevented.
[0042]
  The invention of claim 2 is the sealing means according to claim 1 of the invention.YesThe gap between the moving part and the container is sealed, the movable part is arranged inside the container so as to face the opening, and the sealing means is a gap between the movable part and the container Can prevent foreign matter such as dust and dirt from entering the inside of the container from the opening, and prevent foreign matter from adhering to the contact part and lowering the contact reliability of the contact part. And since the sealing means is formed from the material which has flexibility, even if the sealing means deform | transforms according to the displacement of a movable part, the force which prevents the displacement of a movable part to a sealing means There is an effect that it can be prevented from occurring.
[0043]
  The invention of claim 3 is the sealing means according to claim 1 of the invention.Is openSince the entire mouth is covered and the sealing means covers the entire opening, foreign matter such as dust and dirt can be prevented from entering the inside of the container from the opening, and foreign matter can adhere to the contact part. The contact reliability of the contact portion can be prevented from being lowered, and the sealing means is formed of a flexible material. Even if the sealing means is deformed in accordance with the displacement of the movable portion. There is an effect that it is possible to prevent the sealing means from generating a force that hinders the displacement of the movable portion.
[0046]
  Claim4According to the first aspect of the present invention, in the first aspect of the present invention, the body is a body having a housing recess for housing the movable portion, the drive portion, and the contact portion.And yieldIt is composed of a cap fitted to the body from the opening side of the recess, and an elastic locking piece protruding toward the body side is provided on the back surface of the cap and locked to the body part corresponding to the locking piece When the cap is assembled into the body from the opening side of the storage recess, the locking piece provided on the cap elastically locks with the locked portion. Since the cap and the body can be coupled with one touch, it is not necessary to prepare a special jig for coupling the cap and the body, and the workability of the assembly work is improved. In addition, since the cap is formed of a heat-resistant material, there is an effect that a thermostat switch that can be used even in a high-temperature atmosphere can be realized.
[0047]
  Claim5In the invention of claim 1, in the invention of claim 1, the sealing means isIn an atmosphere of at least 200 ° CSince the sealing means is formed of a material having heat resistance, the thermostat switch that can be used even in a high-temperature atmosphere can be realized.
[Brief description of the drawings]
[Figure 1]Reference exampleIt is sectional drawing of 1 thermostat switch.
2A and 2B show a sealing member used in the above, in which FIG. 2A is a cross-sectional view, and FIG. 2B is a top view.
3A is a front view of the same, and FIG. 3B is a top view of the same.
FIG. 4 is an exploded perspective view of the above.
[Figure 5]Reference exampleIt is sectional drawing of the thermostat switch of 2.
FIG. 6 is an embodiment.1It is sectional drawing of a thermostat switch.
7A and 7B show a sealing member used in the above, in which FIG. 7A is a cross-sectional view and FIG. 7B is a top view.
8A and 8B show another sealing member used in the above, in which FIG. 8A is a cross-sectional view and FIG. 8B is a top view.
FIG. 9Reference example 3It is sectional drawing of a thermostat switch.
10A and 10B show a seal member used in the above, in which FIG. 10A is a cross-sectional view, and FIG. 10B is a top view.
FIG. 11Reference example 4It is sectional drawing of a thermostat switch.
FIG. 12 is a cross-sectional view of a conventional thermostat switch.
FIG. 13 is a cross-sectional view of another conventional thermostat switch.
[Explanation of symbols]
  1 body
  2 Body
  2a storage recess
  3 Inner lid
  3b round hole
  4 Cap
  4a opening
  10 Contact part
  11 pins
  12 Bimetal
  14 Sealing member
  14b center

Claims (5)

A contact part composed of a fixed contact and a movable contact that comes into contact with and away from the fixed contact, a movable part that is formed in a dome shape and whose central part is displaced according to a temperature change, and is driven according to the displacement of the movable part. A drive unit that opens and closes the contact and a container that houses each of the above-described parts, and an opening that communicates with the interior of the container is provided on the surface of the container, and the movable part is disposed inside the container so as to face the opening. In a thermostat switch in which a sealing means for sealing at least a portion inside the container in which the contact portion is accommodated is provided inside the container , the sealing means is formed of a flexible material and has a dome shape. A central portion that is formed and on which the movable portion is placed, and an annular portion in which the circumferential portion of the central portion is coupled to the inner circumferential surface, and is opposite to the surface on which the movable portion is placed in the central portion. this constituted the driving portion in a cylindrical projections protruding from the surface Thermostat switch characterized by. Sealing means thermostatic switch according to claim 1, wherein the sealing the gap between the moving parts and the device body. Thermostatic switch according to claim 1, wherein the sealing means, characterized in that covering the entire open mouth. The body is composed of a body in which a storage recess for storing the movable part, the drive part, and the contact part is formed, and a cap that is fitted to the body from the opening side of the storage recess. 2. The thermostat according to claim 1 , wherein a locking piece having elasticity projecting toward the side is provided, and a locked portion on which the locking piece is unevenly locked is provided at a portion of the body corresponding to the locking piece. switch. 2. The thermostat switch according to claim 1, wherein the sealing means is formed of a material having heat resistance in an atmosphere of at least 200.degree .

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