JP6388439B2 - Pressure switch for oil pressure detection - Google Patents

Description

  The present invention relates to a pressure switch that switches by opening and closing a contact portion that is linked to a diaphragm that responds to changes in oil pressure.

As a pressure switch for detecting a change in oil pressure, for example, it is widely known as a pressure switch for detecting oil pressure in preparation for engine equipment.
That is, an engine for a vehicle needs to warn that the oil pressure is lowered because there is a possibility of seizure when the oil pressure in the engine is lowered.

FIG. 12 is a cross-sectional view showing an example of a pressure switch that detects a change in engine oil pressure and notifies an alarm when the oil pressure is abnormally reduced in preparation for the engine equipment.
In addition, this figure has shown the switch state before attaching to engine equipment.
As shown in the drawing, the pressure switch includes a metallic body 11 having a threaded portion 11a that is screwed into the engine equipment, and an electrically insulating terminal base 12 that is crimped to the body 11 and integrated. It has.

A disc-shaped diaphragm 13 made of a flexible material such as rubber is disposed in the internal space formed by the body 11 and the terminal base 12, and the internal space is separated from the pressure chamber 14 by the diaphragm 13. The contact chamber 15 is divided into two.
The peripheral portion of the diaphragm 13 is sandwiched and fixed between the fixed contact 16 and the body 11.

The periphery of the fixed contact 16 is clamped and fixed between the body 11 and the terminal base 12, and a push block 17 is provided inside the fixed contact 16 so as to be movable up and down.
That is, the lower surface of the push block 17 is brought into contact with the diaphragm 13, and the interlocking portion 17 a is brought into contact with the movable contact 18 through the hole 16 a of the fixed contact 16.

The movable contact 18 is always joined to the fixed contact 16 by the spring force of the coil spring 20 provided between the movable contact 18 and the terminal 19.
That is, the oil pressure is not applied to the diaphragm 13 before the pressure switch is attached to the engine equipment. Therefore, the diaphragm 13 does not change, and the movable contact 18 is joined to the fixed contact 16 as shown in the figure.
The terminal 19 is connected to the pressure detection circuit of the engine facility via a cord.

  In the pressure switch configured as described above, when the screw portion 11a is screwed and attached to the engine equipment, the engine oil enters the pressure chamber 14 through the connection hole 11b provided in the screw portion 11a, and the diaphragm 13 fluctuates due to the oil pressure. To do.

That is, when the engine oil enters the pressure chamber 14, the diaphragm 13 is curved and deformed upward by the oil pressure, so that the push block 17 moves upward against the spring force of the coil spring 20. Separate from the fixed contact 16.
As a result, the switching path including the terminal 19, the coil spring 20, the movable contact 18, the fixed contact 16, and the body 11 is opened, and the switch OFF signal is sent to the pressure detection circuit, and the pressure detection circuit is normal in oil pressure. Confirm.

When the engine oil drops below a predetermined value, the diaphragm 13 is not deformed by the oil pressure, so that the push block 17 is in the lowered position, and the movable contact 18 is joined to the fixed contact 16 by the spring force of the coil spring 20. ing.
As a result, the switching path is closed and a switch ON signal is sent, so that it is recognized by the pressure detection circuit that the oil pressure has dropped abnormally. In this case, an alarm is notified to the driver or the like.

On the other hand, the above-described pressure switch is provided with a vent hole 21 formed in the terminal base 12, and the vent chamber 21 communicates the contact chamber 15 with the atmospheric pressure.
That is, because the contact chamber 15 is hermetically sealed by providing the O-ring 22 near the body 11 for crimping the terminal base 12, the contact chamber 15 becomes an airtight chamber, and there is a problem in the deformation operation or contact operation of the diaphragm 13. Since this may occur, the contact chamber 15 is maintained at atmospheric pressure through the vent hole 21.

Further, a selectively permeable sheet (ventilated sheet) 23 is bonded to the outlet of the vent hole 21, and the selectively permeable sheet 23 is held by a cover 24 that is locked and fixed to the terminal base 12.
The selectively permeable sheet 23 prevents water from entering through the vent hole 21 and keeps the contact chamber 15 at atmospheric pressure.

Accordingly, the selectively permeable sheet 23 is a sheet member that allows only gas to pass and prevents the passage of a solution (for example, water), prevents water from entering the contact chamber 15 from the vent hole 21, and allows the fixed contact 16 or the movable contact. 18 and the like are not corroded by the submerged water.

Japanese Patent No. 5382446

  In the above-described conventional pressure switch, cracks or the like occur in the diaphragm 13 due to use over time, and therefore, oil may pass through the diaphragm 13 and flow into the contact chamber 15 from the pressure chamber 14.

  In this case, the oil that is about to flow out of the switch through the vent hole 21 is once blocked by the selectively permeable sheet 23. However, when the oil pressure is strong, the selectively permeable sheet 23 is The sheet 23 may be peeled off and the oil may flow out of the switch from the gap of the cover 24.

If oil flows out of the switch, the oil is depleted and causes engine seizure, and the oil that flows out drops on the road.
As a result, the dripping of oil from the engine is a serious problem as a serious failure.
Therefore, in view of the above circumstances, an object of the present invention is to provide a pressure switch that can reliably prevent oil leaking outside the switch regardless of a switch failure such as a diaphragm failure.

  In order to achieve the above object, as a first aspect of the present invention, a diaphragm is disposed in an internal space formed between the body and the terminal base, and the internal space is separated from the contact chamber and the pressure chamber by the diaphragm. In the pressure switch for oil pressure detection, the contact base is provided with a contact portion that opens and closes in conjunction with the diaphragm that responds to a change in the pressure of oil applied to the pressure chamber. A ventilation hole that communicates the outside with the contact chamber, a selectively permeable sheet that prevents the intrusion of an aqueous solution such as water entering from the ventilation hole, and the penetration into the contact chamber based on breakage such as cracks in the diaphragm. An oil receiving member for preventing the oil from flowing out of the vent hole is proposed.

  As a second invention, in the pressure switch of the first invention described above, a cover member is provided for covering the hole opening of the vent hole formed in the terminal base, and the cover member is opposed to the hole opening. And a cover vent hole communicating the concave portion with the outside of the cover member, and the permselective sheet has a cover vent hole formed on the inner surface of the concave portion. A pressure switch is proposed in which the oil receiving member is fixed in a position to close the hole and the oil receiving member is loosely disposed in the concave portion.

  As a third invention, in the pressure switch of the second invention, the selectively permeable sheet is fixed at a position closing a hole of a cover vent hole formed outside the cover member, and the oil receiving member. Proposes a pressure switch characterized by being loosely fitted in the concave portion.

  As a fourth invention, in the pressure switch of the first invention described above, the terminal base is formed with an accommodation recess communicated with the vent hole on the outer side, and the permeation opening is selectively transmitted through the opening of the accommodation recess. A pressure switch is proposed in which an adhesive sheet is fixed, and an oil receiving member formed of a rubber member having swelling and rebound resilience is loosely fitted and fixed in the housing recess.

As a fifth invention, there is proposed a pressure switch characterized in that in the pressure switch of the fourth invention described above, the oil receiving member is formed of a powdery oil-solidifying material for solidifying oil.

As a sixth invention, a pressure switch according to any one of the first to third inventions described above is characterized in that the oil receiving member is movably disposed in response to oil pressure. To do.

In the pressure switch of the first invention, the contact chamber communicates with the outside of the switch through a permselective sheet that closes the vent hole, the contact chamber is maintained at atmospheric pressure, and the diaphragm and the contact portion operate smoothly. It is a switch.
On the other hand, when the diaphragm is destroyed due to use over time and the oil enters the contact chamber from the pressure chamber, the oil flowing out from the vent hole is blocked by the oil receiving member, so that the oil does not leak out of the switch.

Further, in a state where the diaphragm is broken and oil flows into the contact chamber, the oil pressure before and after the diaphragm becomes equal, so the diaphragm does not change.
For this reason, since the contact portion remains closed, there is no case where the contact portion is opened and the switch OFF signal is output as if it is a normal operation, even though oil has leaked.

  In the pressure switch of the second invention, a cover member formed with a concave portion facing the hole of the vent hole and a cover vent hole is attached to the terminal base, and is formed on the inner surface of the concave portion of the cover member. A selectively permeable sheet is fixed to a position where the hole of the cover vent hole is closed, and an oil receiving member is loosely fitted in the concave portion.

That is, according to this pressure switch, the gas that passes through the permselective sheet and the gas that passes around the oil receiving member that is loosely fitted pass through the vent hole, and the contact chamber is maintained at atmospheric pressure.
In other words, since the oil receiving member is loosely fitted in the concave portion, there is a small gap between the oil receiving member and the inner wall of the concave portion, and gas passes through this gap. To do.

When oil flows into the contact chamber, the oil receiving member is pushed by the oil flowing out of the vent hole and overlaps the selectively permeable sheet, and the oil receiving member closes the hole of the cover vent hole. .
As a result, oil does not leak out of the switch through the vent hole or the cover vent hole.

  In the pressure switch of the third invention, a cover member is provided in the same manner as the pressure switch of the second invention, and the selectively permeable sheet is fixed at a position where the hole of the cover vent formed outside the cover member is closed. As a configuration.

In the pressure switch of this invention, as in the second invention, the contact chamber is maintained at atmospheric pressure by the gas passing around the permselective sheet and the oil receiving member.
When oil enters the contact chamber, the oil receiving member is pushed by the oil flowing out from the vent hole and joined to the inner surface of the concave portion, so that the oil receiving member closes the hole of the cover vent hole. To do.

  A pressure switch according to a fourth aspect of the present invention includes a housing recess communicated with a vent hole outside the terminal base, and a selectively permeable sheet is fixed to a position that closes the opening of the housing recess, and the pressure recess is further disposed in the housing recess. An oil receiving member made of a rubber member having swelling property and rebound resilience is loosely fitted.

In this pressure switch as well, the contact chamber is maintained at atmospheric pressure by the selectively permeable sheet and the gas passing around the oil receiving member.
When oil enters the contact chamber, the oil receiving member expands due to the oil that has entered the accommodation recess through the vent hole, so that the oil receiving member blocks oil leaking from the accommodation recess.

The pressure switch of the fifth invention is characterized in that the oil receiving member provided in the pressure switch of the fourth invention is formed of a powdered oil-solidifying material that solidifies oil.
In this pressure switch, since the oil receiving member is a powdered oil-solidifying material, gas passes through the oil receiving member, so that the contact chamber is at atmospheric pressure by the gas passing through the selectively permeable sheet and the oil receiving member. To be kept.
When the oil enters the contact chamber, the oil receiving member is solidified by the oil that has entered the housing recess through the vent hole, and the oil outflow from the housing recess is blocked.

  A pressure switch according to a sixth invention is the pressure switch according to any one of the first to third inventions described above, wherein the oil catching member is movably disposed so that the oil catching member moves in response to the oil pressure. The vent hole is closed to prevent oil from flowing out.

It is a front view of the pressure switch for oil pressure detection shown as a 1st embodiment of the present invention. It is the sectional view on the AA line on FIG. It is a front view which shows the cover with which the pressure switch of 1st Embodiment mentioned above was equipped. It is a rear view of an above-mentioned cover. FIG. 4 is a sectional view taken along line BB in FIG. 3. It is CC sectional view taken on the line in FIG. It is sectional drawing similar to FIG. 6 which shows the state which assembled | attached the selectively permeable sheet and the oil receiving member to the said cover. It is sectional drawing similar to FIG. 2 of the pressure switch shown as 2nd Embodiment. It is sectional drawing similar to FIG. 2 of the pressure switch shown as 3rd Embodiment. It is sectional drawing similar to FIG. 2 of the pressure switch shown as 4th Embodiment. It is sectional drawing similar to FIG. 2 of the pressure switch shown as 5th Embodiment. It is sectional drawing of the pressure switch shown as a prior art example.

Next, a pressure switch according to an embodiment of the present invention will be described with reference to the drawings.
1 is a front view of the pressure switch shown as the first embodiment, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, and FIGS. 3 to 6 are views showing a cover provided in the pressure switch shown in FIG. is there.

As can be seen from these drawings, in the pressure switch of the first embodiment, a terminal base 32 is integrally attached to a body 31 with a threaded portion 31a by caulking similarly to the conventional example, and these body A disc-shaped diaphragm 33 made of a flexible material such as rubber is disposed in the internal space formed by the terminal 31 and the terminal base 32, and the internal space is separated from the pressure chamber 34 and the contact chamber 35 by the diaphragm 33. 2 minutes.
An O-ring 36 that seals the internal space is provided near the crimping stop.

In the internal space formed by the body 31 and the terminal base 32, a fixed contact 37 and a movable contact 38 are provided as in the conventional example.
That is, the movable contact 38 is pushed by the interlocking portion 39a of the push block 39 that interlocks with the fluctuation of the diaphragm 33, moves away from the fixed contact 37, and is switched off.

Further, the interlocking portion 39a of the push block 39 is brought into contact with the movable contact 38 through the hole 37a of the fixed contact 37. When the diaphragm 33 is not changed, the movable contact 38 is provided between the terminal 40 and the push block 39. The coil spring 41 is always in contact with the fixed contact 37 by the spring force of the coil spring 41 and is in the switch ON state.
The terminal 40 is connected to the oil pressure detection circuit by a cord.

On the other hand, the terminal base 32 of the pressure switch is provided with a vent hole 42 formed sideways.
The vent hole 42 communicates the contact chamber 35 with the outside of the switch and keeps the contact chamber 35 at atmospheric pressure as in the conventional example.

The pressure switch is provided with a cover 43 screwed to the terminal base 32 so as to cover the vent hole 42.
The cover 43 is formed in a short column shape having a circular cross section as shown in FIGS. 3 to 6, a screw portion 43 a is provided on the outer peripheral portion, and the screw portion 43 a is screwed onto the screw portion 32 a of the terminal base 32. is there.

The cover 43 is for arranging the permselective sheet 44 and the oil receiving member 45 so as to face the air hole 42.
These permselective sheets 44 are the same as those described as the conventional example, and the oil receiving member 45 is an elastic material such as a rubber member, and is a rubber that blocks the passage of air and aqueous solution (including oil). It is formed of an elastic member such as a member.

That is, on the back side of the cover 43, a concave portion 43b formed so as to oppose the vent hole 42 is provided, and an arc convex portion 43c is provided at a quarter of the inner wall surface of the concave portion 43b. .
The cover 43 has a first cover vent hole 43d facing the hole in the same direction as the vent hole 42, and a second cover vent hole orthogonal to the first cover vent hole 43d. 43e is formed.

As shown in FIGS. 4 and 7, the cover 43 formed in this way is attached to the bottom surface of the concave portion 43b with a permselective sheet 44 before being screwed to the terminal base 32, and the first cover vent hole 43d. Further, the disk-shaped oil receiving member 45 is slidably fitted (freely fitted) so as to be in contact with the circular arc convex portion 43c of the concave portion 43b.

The cover 43 in which the selectively permeable sheet 44 and the oil receiving member 45 are assembled in this manner is screwed into the screw portion 32a of the terminal base 32 and attached thereto, as shown in FIG. 2, so that the selectively permeable sheet 44 and the oil receiving member 45 are attached. 45 can be arranged close to the opening of the vent hole 42 to face each other.

In the pressure switch of the first embodiment configured as described above, the engine oil enters the pressure chamber 34 from the connection hole 31b when the screw portion 31a is screwed and attached to the engine equipment.
Therefore, when the engine oil that has entered the pressure chamber 34 is equal to or greater than a predetermined value, the diaphragm 33 receives the oil pressure, and the middle part thereof moves and fluctuates upward.
Therefore, since the switch circuit including the terminal 40, the coil spring 41, the movable contact 38, the fixed contact 37, and the body 31 is cut off and a switch OFF signal is output, the pressure detection circuit confirms that the oil pressure is normal.

On the other hand, when the pressure of the engine oil entering the pressure chamber 34 is decreasing, the diaphragm 33 does not fluctuate, so that the movable contact 38 contacts the fixed contact 37 as shown in FIG.
Therefore, since the switch circuit outputs an ON signal, the pressure detection circuit detects an abnormal drop in the oil pressure and notifies the driver of an alarm.

On the other hand, in the pressure switch of this embodiment, unless the diaphragm 33 is destroyed, oil does not flow into the contact chamber 35. Therefore, the vent hole 42, the selectively permeable sheet 44, the first and second cover vent holes 43d and 43e are provided. Since the gas flows through the contact chamber 35, the contact chamber 35 is maintained at atmospheric pressure.
Although the oil receiving member 45 does not allow air to pass therethrough, a gap 43f (FIG. 4) between the surrounding gaps, that is, the inner wall of the concave portion 43b that hits between the plurality of circular arc convex portions 43c and the outer peripheral portion of the oil receiving member 45. Air flows from (see).

Further, when the diaphragm 33 is broken due to aged use or the like and the oil flows into the contact chamber 35 from the pressure chamber 34, the oil tries to flow out of the switch through the vent hole 42. However, in this case, the oil receiving member 45 is pushed by the oil and joined to the selectively permeable sheet 44 to close the hole of the first cover vent hole 43d.

As a result, the oil that is about to flow out of the vent hole 42 is blocked by the oil receiving member 45 and does not leak out of the switch.
In addition, since the oil receiving member 45 is joined to the selectively permeable sheet 44 by oil, the selectively permeable sheet 44 is not broken or peeled off due to the oil pressure.

FIG. 8 is a sectional view similar to FIG. 2 showing the pressure switch of the second embodiment.
The pressure switch according to the second embodiment has a configuration in which a cover 51 similar to the cover 43 described above is fitted and fixed to the side portion of the terminal base 32.
The cover 51 has a concave portion 51a formed on the side surface facing the vent hole 42, and further has a cover vent hole 51b that communicates the bottom surface of the concave portion 51a with the outside of the cover. In addition, an oil receiving member 52 is slidably disposed (freely fitted) in the concave portion 51a and is selectively permeable at a position where the hole of the cover vent hole 51b formed on the outer surface of the cover is closed. The adhesive sheet 53 is attached.
The rest of the configuration is the same as that of the pressure switch of the first embodiment described above, so the same members and parts are denoted by the same reference numerals and description thereof is omitted.

The oil receiving member 52 and the selectively permeable sheet 53 have the same configuration as the oil receiving member 45 and the selectively permeable sheet 44 of the first embodiment described above, and the cover 51 is recessed in the terminal base 32. It can be fixed to the shape using an adhesive or the like.

In the pressure switch configured as described above, the contact chamber 35 normally passes through the permselective sheet 53, the cover vent hole 51b, the gap 51c between the oil receiving member 52 and the inner wall surface of the concave portion 51a, and the vent hole 42. Since the gas flows through the passage, the contact chamber 35 can be maintained at atmospheric pressure.
Further, when the oil enters the contact chamber 35 due to the destruction of the diaphragm 33, the oil receiving member 52 is pushed by the oil flowing out from the vent hole 42, so that the oil receiving member 52 is joined to the bottom surface of the concave portion 51. Then, the hole of the cover vent hole 51b is closed.
Therefore, oil does not leak out of the switch.

FIG. 9 is a cross-sectional view similar to FIG. 2 showing the pressure switch of the third embodiment.
In the pressure switch of the third embodiment, an accommodation recess 61 communicated with the vent hole 42 is formed directly on the side of the terminal base 32, an oil receiving member 62 is disposed in the accommodation recess 61, and The selectively permeable sheet 63 is pasted at a position where the opening of the housing recess 61 is closed.
The permselective sheet 63 has the same configuration as the permselective sheet 44 of the first embodiment described above, but the oil receiving member 62 is formed of a rubber member having swelling property and rebound resilience.
Others are the same as the pressure switch of the first embodiment described above.

In the pressure switch of the third embodiment, gas flows through the permselective sheet 63, the gap 61a between the periphery of the oil receiving member 62 and the inner wall surface of the housing recess 61, and the vent hole 42. Maintained at atmospheric pressure.
Further, when the oil enters the contact chamber 35 due to the destruction of the diaphragm 33, the oil flowing out from the vent hole 42 enters the accommodation recess 61, so that the oil receiving member 62 expands due to the permeation of the oil, and the inside of the accommodation recess 61 Occlude.
Therefore, oil does not leak out of the switch.

FIG. 10 is a sectional view similar to FIG. 2 showing the pressure switch of the fourth embodiment.
In the pressure switch of the fourth embodiment, an accommodation recess 71 is formed in the terminal base 32 in the same manner as the pressure switch shown in FIG. 9, and a powdery oil solidifying material that solidifies oil is received in the accommodation recess 71. The selective permeable sheet 73 is attached to a position that is loaded as the member 72 and further closes the opening of the housing recess 71.
The permselective sheet 73 has the same configuration as the permselective sheet 44 of the first embodiment described above, but the oil receiving member 72 is a powdery oil-solidifying material.
Others are the same as the pressure switch of the first embodiment described above.

In the pressure switch of the fourth embodiment, since the gas flows through the selectively permeable sheet 73, the powdery oil receiving member 72, and the vent hole 42, the contact chamber 35 is maintained at atmospheric pressure.
Further, when oil enters the contact chamber 35, the oil flowing out from the vent hole 42 enters the accommodation recess 71 and penetrates into the oil receiving member 72.
Therefore, the oil receiving member 72, which is an oil-solidifying material, is solidified and the inside of the housing recess 71 is closed to block outflow of oil.

FIG. 11 is a cross-sectional view similar to FIG. 2 showing the pressure switch of the fifth embodiment.
The pressure switch according to the fifth embodiment includes an accommodation recess 81 formed in the terminal base 32 so that an opening is exposed in the contact chamber 35, and a vent hole 42 in which the accommodation recess 81 communicates with the outside of the terminal base 32. The oil receiving member 82 is disposed in the housing recess 81, and the selectively permeable sheet 83 is attached to the position where the hole of the vent hole 42 formed outside the terminal base 32 is closed. .
The oil receiving member 82 and the selectively permeable sheet 83 have the same configuration as that of the first embodiment described above.
The rest of the configuration is the same as that of the pressure switch of the first embodiment.

In the pressure switch having the above-described configuration, the gas flows through the gap 81a between the permselective sheet 83, the vent hole 42, the oil receiving member 82 and the inner wall surface of the housing recess 81, and the contact chamber 35 is brought to atmospheric pressure. Retained.
Further, when the oil enters the contact chamber 35, the oil receiving member 82 is pushed by the oil and moves so as to come into pressure contact with the bottom surface of the storage recess 81, thereby closing the hole of the vent hole 42 and the vent hole 42. To prevent oil from spilling out.
Therefore, oil does not leak out of the switch.

The present invention can be applied to a pressure switch that detects a change in the pressure of engine oil of a vehicle.

31 Body 32 Terminal base 33 Diaphragm 34 Pressure chamber 35 Contact chamber 37 Fixed contact 38 Movable contact 39 Push block 40 Terminal 42 Vent hole 43 Cover 43a Screw part 43b Recessed part 43d First cover vent hole 43e Second cover vent hole 43f Gap 44 Permselective sheet 45 Oil receiving member

Claims (6)

A diaphragm is disposed in an internal space formed between the body and the terminal base, and the internal space is divided into a contact chamber and a pressure chamber by the diaphragm, and the contact chamber is filled with oil added to the pressure chamber. In the pressure switch for oil pressure detection provided with a contact portion that opens and closes in conjunction with the diaphragm that responds to a pressure change,
In the terminal base, a vent hole that communicates the outside with the contact chamber, a selectively permeable sheet that prevents intrusion of an aqueous solution such as water entering from the vent hole, and
A pressure switch comprising: an oil receiving member that prevents oil that has entered the contact chamber from flowing out of the vent hole based on breakage such as cracks in the diaphragm. The pressure switch according to claim 1,
A cover member is provided to cover the hole opening of the vent hole formed in the terminal base, and the cover member has a concave portion facing the hole opening, and the concave portion and the outside of the cover member communicate with each other. Formed cover vent holes,
Further, the permselective sheet is fixed at a position where a hole of a cover vent hole formed on the inner surface of the concave portion is closed, and the oil receiving member is loosely fitted in the concave portion. Features pressure switch. The pressure switch according to claim 1 ,
A cover member is provided to cover the hole opening of the vent hole formed in the terminal base, and the cover member has a concave portion facing the hole opening, and the concave portion and the outside of the cover member communicate with each other. Formed cover vent holes,
The permselective sheet is fixed to a position where a hole of a cover vent hole formed outside the cover member is closed, and the oil receiving member is loosely fitted in the concave portion. pressure switch. The pressure switch according to claim 1,
The terminal base is formed with an accommodation recess communicating with the vent hole on the outer side, and a selectively permeable sheet is fixed to the opening of the accommodation recess, and the swelling and rebound resilience are accommodated in the accommodation recess. A pressure switch comprising an oil receiving member formed of a rubber member having a loose fit. The pressure switch according to claim 1 ,
The terminal base is formed with an accommodation recess communicated with the vent hole on the outer side, a selectively permeable sheet is fixed to the opening of the accommodation recess, and the oil is solidified in the accommodation recess. A pressure switch comprising the oil receiving member formed of a solid oil-solidifying material. In the pressure switch according to any one of claims 1 to 3,
The pressure switch, wherein the oil receiving member is disposed so as to be movable in response to oil pressure.

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