KR102009043B1 - Pressure sensor - Google Patents

Abstract

assignment
C0 ₂ Even when used for the detection of pressure such as a flow path through which a high-pressure refrigerant, such as a passage, can be prevented from being damaged by high pressure, and a safe pressure sensor is provided.
Resolution
A pressure detecting element 2, a base 4 on which the pressure detecting element is fixed to the inner surface, a receiving member 5 disposed to face the base, a diaphragm 6 sandwiched between the base and the receiving member, The base and the receiving member in a state where the diaphragm is sandwiched therebetween are provided with a holding member 13 for sandwiching both of them to prevent the two from being separated from each other, and a liquid enclosed in a space between the base and the diaphragm. The pressure sensor (1) in which the pressure in the space between the diaphragms is transmitted to the pressure detecting element through the diaphragm and the liquid. Since the holding member 13 is provided, even when repeated high pressure is added between the base and the receiving member, both are not separated, and even when the base and the receiving member are welded and joined, the cracking of the welded part is avoided. This can prevent damage to the pressure sensor.

Description

Pressure sensor {PRESSURE SENSOR}

TECHNICAL FIELD This invention relates to a pressure sensor. Specifically, It is related with the liquid encapsulation type pressure sensor which enclosed the liquid in the hydraulic pressure space which accommodated the pressure detection element.

Conventionally, a pressure sensor encapsulates a liquid in a pressure receiving space in which a pressure detecting element is housed, and transmits a pressure applied from the outside to the pressure detecting element through the liquid to output a voltage signal corresponding to the external pressure from the pressure detecting element. Has been proposed.

As an example of the liquid encapsulated pressure sensor, Patent Document 1 includes a cover member connected to a pressure inlet tube for introducing pressure from the outside and a through hole formed at the bottom, and connected to a pressure detecting element and a welded portion along the outer periphery. By forming at least a portion of the longitudinal section from the outer circumference of the lid member to the through hole in an L-shape, the welded portion at the time when the fluid pressure acts on the inner surface of the lid member A pressure sensor is described which reduces the force in one rotational direction and prevents the fracture of the welded portion.

Patent Document 1: Japanese Patent Application Laid-Open No. 2005-303097

However, in the pressure sensor described in the patent document, the breakdown resistance is improved by preventing the welded portion of the lid member from breaking, but C0 ₂ When used for the detection of the pressure of a refrigerant path, such as a refrigeration apparatus or an air conditioning apparatus using a high-pressure refrigerant such as this, repeated high pressure is applied to the welded portion or the like, which may cause cracking in the welded portion and lead to breakage. .

Accordingly, the present invention has been made to solve the above problems, and even when used for detection of a pressure such as a flow path through which a high pressure refrigerant such as C0 ₂ passes, it is possible to prevent breakage due to high pressure and to provide a safe pressure sensor. The purpose.

MEANS TO SOLVE THE PROBLEM In order to achieve the said objective, this invention is a pressure sensor, Comprising: A pressure detection element, the pressure detection element is fixed to an inner surface, the base which has a periphery part, and is arrange | positioned facing the base, and the support provided with a periphery part. The diaphragm sandwiched between the member, the periphery of the base and the periphery of the receiving member, and the base and the receiving member in a state where the diaphragm is sandwiched between the base and the receiving member so as to prevent them from being separated from each other. A holding member and a liquid enclosed in a space between the base and the diaphragm, and a pressure in the space between the receiving member and the diaphragm is transmitted to the pressure detecting element through the diaphragm and the liquid. The holding member is formed in a cylindrical shape, and one opening end thereof is the base or the receiving part. It engages with one peripheral edge of the ash, and the other open end is welded and joined with the peripheral edge of either the base or the receiving member.

In addition, according to the present invention, since the sandwiching member supports the base and the receiving member in a state where the diaphragm is held by the sandwiching member to prevent the two from being separated from each other, a repetitive high pressure is added between the base and the receiving member. Even when the two are not separated from each other, even when the base and the receiving member are welded to each other, cracking of the welded portion can be avoided and damage to the pressure sensor can be prevented.

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As described above, according to the present invention, even in the case where the detection of the pressure of the flow path such as a high-pressure refrigerant is passed through, such as C0 _2, it is possible to prevent damage due to high pressure and to provide a safe pressure sensor.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows one Embodiment of the pressure sensor which concerns on this invention, (a) is a top view, (b) is sectional drawing along the line A-A of (a).

EMBODIMENT OF THE INVENTION Next, the form for implementing this invention is demonstrated in detail, referring drawings.

1 shows an embodiment of a pressure sensor according to the present invention, in which the pressure sensor 1 is arranged to face the pressure detecting element 2, the base 4, and the base 4. The receiving member 5, the diaphragm 6 sandwiched between the base 4 and the receiving member 5, and the base 4 and the receiving member 5 in a state where the diaphragm 6 is sandwiched and supported are also provided. It is provided with the clamping member 13 which clamps. Liquid (oil) is sealed in the hydraulic pressure space 7 between the base 4 and the diaphragm 6.

The pressure detection element 2 is fixed to the base 4 in the hydraulic pressure space 7. The pressurizing space 8 as a pressure introduction space is formed between the receiving member 5 and the diaphragm 6, and the inner space of the inflow pipe 3 through which the refrigerant flows is communicated with the pressurizing space 8.

The base 4 is formed in the shape of a lid, and the pressure detecting element 2 is fixed to the lower surface of the base 4. The receiving member 5 is formed in the shape of a plate with an upper opening, and the inflow pipe 3 is soldered and fixed to the central opening. The outer periphery of the diaphragm 6 is sandwiched between the shade of the base 4 and the shade of the receiving member 5, and these three members 4 to 6 are the outer periphery of the diaphragm 6. Is welded at the same time by laser welding or the like on the outer peripheral portion that is exposed (welding portion 14) and is integrated. After the liquid (oil) is injected from the filling hole (not shown) formed through the base 4, the filling hole is blocked by the ball 9 in the hydraulic pressure space 7. .

The clamping member 13 is formed in a cylindrical shape and supports the base 4 and the receiving member 5 in a state where the diaphragm 6 is sandwiched to prevent the two from being separated from each other. The upper opening end 13a formed from the upper part of the clamping member 13 toward the inner side engages with the peripheral part 4c of the base 4, and the lower opening end 13b is the peripheral part of the receiving member 5 ( For example, it is laser-welded to 5a) (welding part 15). This welding may be made over the whole circumference of the lower opening end part 13b, and may be made in part on the main surface. In addition, the welding between the clamping member 13 and the peripheral portion 5a may be performed at the lower end side of the clamping member 13 so that the welding member 14 is separated as far as possible from the heat affected zone.

In addition, the clamping member 13 may be attached up and down. That is, the upper opening end part 13a may be engaged with the peripheral part 5a of the receiving member 5, and the lower opening end part 13b may be laser-welded to the peripheral part 4c of the base 4. As shown in FIG.

The pressure detecting element 2 is, for example, a piezo element, which is also called a piezoelectric element as a kind of ferroelectric. When a force such as vibration or pressure is applied, a voltage is generated. Stretch when voltage is applied.

The pressure detecting element 2 has a wire 10 connected to the output lead pins 11 (11A to 11c) and the adjustment lead pins 12 (12A-12E) through which the through holes 4a formed in the base 4 are inserted. It is electrically connected through. The output lead pin 11 is for outputting the voltage signal corresponding to the pressure detected by the pressure detection element 2 to the outside, and the adjustment lead pin 12 is used for voltage correction etc. at the time of manufacture.

The through hole 4a of the base 4 is plugged so that there is no liquid (oil) leakage by the hermetic seal b after inserting the output lead pin 11 and the adjustment lead pin 12. . Although the output lead pin 11 is abbreviate | omitted, it is connected to the board | substrate at the upper end part, and the board | substrate is further connected to the connector and the lead wire for external outputs.

In the pressure sensor 1 having the above-described configuration, the pressure in the pressurized space 8 changes due to the pressure change of the refrigerant flowing in from the inflow pipe 3, and the diaphragm 6 is deformed. By the deformation of the diaphragm 6, the pressure of the liquid (oil) enclosed in the hydraulic space 7 changes, and the pressure change propagates to the pressure detection element 2. The pressure detected by the pressure detecting element 2 is converted into a voltage, at which time a predetermined voltage correction in accordance with the characteristics of the pressure sensor 1 is performed. The voltage signal after the correction is transmitted to the external output lead wire through the output lead pin 11, the board and the connector.

When the pressure sensor 1 is used to detect the pressure of the refrigerant flow path of the air conditioning equipment using high pressure refrigerant such as CO ₂ , the high pressure of the refrigerant flowing from the inlet pipe 3 is applied to the pressurized space 8. It is applied repeatedly, and a large force acts repeatedly in the direction of separating the base 4 and the receiving member 5, but in addition to the receiving member 5 and the diaphragm 6 are integrated in the weld 14, Since the base 4 and the receiving member 5 in a state where the diaphragm 6 is held by the clamping member 13 are held in place, there is no fear of cracking or the like in the welded portion 14, and the pressure sensor ( The damage of 1) can be effectively prevented.

1 pressure sensor 2 pressure detecting element
3: inlet tube 4: base
4a: through hole 4b: hermetic thread
4c: peripheral part 5: receiving member
5a: peripheral part 6: diaphragm
7: pressure space 8: pressure space
9: ball 10: wire
11 (11A to 11C): Output lead pin 12 (12A to 12E): Adjustment lead pin
13: sandwiching member 13a: upper opening end
13b: downward opening end 14, 15: welding part

Claims (2)

A pressure detection element,
A base having the pressure detecting element fixed to the inner surface and having a periphery;
A receiving member disposed opposite the base and having a periphery;
A diaphragm supported between the periphery of the base and the periphery of the receiving member;
A holding member for sandwiching both the base and the receiving member in a state where the diaphragm is held by the diaphragm so as to prevent them from being separated from each other;
A liquid enclosed in a space between the base and the diaphragm,
Pressure in the space between the receiving member and the diaphragm is transmitted to the pressure detecting element through the diaphragm and the liquid,
The holding member is formed in a cylindrical shape, one opening end engaging with one of the periphery of the base or the receiving member, and the other opening end with the other peripheral portion of the base or the receiving member. Pressure sensor, characterized in that the welded joint. delete

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