JP4751703B2 - Sensor fixing device for fluid machinery - Google Patents

Description

  The present invention relates to a sensor fixing device for a fluid machine.

For example, a temperature sensor is attached to a fluid machine used as a compressor of an air conditioning system for a vehicle in order to prevent overheating. A sensor fixing device for fixing a temperature sensor has a sensor pocket provided in a housing of a fluid machine (see, for example, Patent Document 1). The sensor fixing device has a lid member that prevents the temperature sensor from coming off from the sensor pocket, and the lid member is fixed to the housing by a screw.
JP-A-6-330860

However, when the lid member of the sensor fixing device is screwed, the operator must screw the lid member with one hand using an air driver or the like while fixing the lid member at an appropriate position. Such a screwing operation is complicated for the operator and causes a decrease in the assembling property of the sensor fixing device.
The present invention has been made in view of such a problem, and an object thereof is to provide a sensor fixing device for a fluid machine that is excellent in assemblability.

In order to achieve the above object, according to the present invention, a sensor pocket that opens at the outer surface of the housing of the fluid machine and accommodates at least a part of the sensor, and a contact member that contacts the sensor from the outside of the housing And a connecting portion that is integrally formed with the abutting member and connects the abutting member and the housing to each other , and the connecting portion is formed at a rod extending from the abutting member, and at a tip of the rod. The housing has a protrusion protruding from the outer surface of the housing, and a groove formed on the protrusion, extending in a direction orthogonal to the rod and having an open end at one end. A receiving portion that engages with a hook, and the protrusion allows the hook to move in an extending direction of the receiving portion so as to engage the receiving portion from an open end of the receiving portion, The fluid machine of the sensor fixing device provided to the direction in which the hook after moving in the direction of extension of receiving portion extension of the receiving portion, characterized in Rukoto which having a retaining portion for restricting the moving in the opposite direction (Claim 1).

In the sensor fixing device for a fluid machine according to the first aspect of the present invention, the connecting portion is formed integrally with the lid member, and the hook engages with the receiving portion from the opening end of the receiving portion during assembly. The hook and the receiving portion are allowed to move in the extending direction of the receiving portion so that the hook and the receiving portion are engaged with each other, and after the moving in the extending direction of the receiving portion, the hook is opposite to the extending direction of the receiving portion. Since the hooks from the receiving portion are prevented from coming off by the retaining means for restricting the movement of the sensor, the assembly is easy and the sensor is securely fixed.

FIG. 1 shows a fluid machine 2 as a compressor of a vehicle air conditioner.
The fluid machine 2 has a compression unit in the housing 4, and the compression unit executes a refrigerant gas suction process, a suction refrigerant gas compression process, and a compressed refrigerant gas discharge process. An electromagnetic clutch 6 is provided at one end of the housing 4, and engine power is intermittently transmitted to the compression unit via the electromagnetic clutch 6. That is, when electric power is supplied to the solenoid of the electromagnetic clutch 6, the drive side unit and the driven side unit are connected in the electromagnetic clutch 6 by the electromagnetic force of the solenoid.

In FIG. 1, reference numeral 8 denotes an electric wire for supplying power to the solenoid of the electromagnetic clutch 6, and the electric wire 8 is connected to the temperature sensor 10. The temperature sensor 10 is electrically connected to the drive circuit of the fluid machine 2 through the electric wire 12, and the temperature sensor 10 can be intermittently connected between the electric wire 8 and the electric wire 12.
More specifically, the temperature sensor 10 has a function as a thermostat, and normally, electric power from the drive circuit is supplied to the electromagnetic clutch 6 through the electric wire 12, the temperature sensor 10 and the electric wire 8. Thereby, the electromagnetic clutch 6 will be in a connection state and the fluid machine 2 will operate | move. During the operation of the fluid machine 2, when the temperature of the compressed refrigerant gas increases and the temperature of the housing 4 exceeds the set temperature, the temperature sensor 10 electrically disconnects between the electric wires 8 and 12. Thereby, the coupled state of the electromagnetic clutch 6 is released regardless of the operation of the drive circuit, the operation of the fluid machine 2 is stopped, and the fluid machine 2 is prevented from being overheated.

2 shows an enlarged view of the vicinity of the temperature sensor 10 of FIG. 1, and the temperature sensor 10 is fixed to the fluid machine 2 by the sensor fixing device of one embodiment of the present invention.
More specifically, the temperature sensor 10 includes a cylindrical portion 14 and a head portion 16 connected to one end of the cylindrical portion 14 as shown in FIG. The electric wires 8 and 12 extend from one of the four side surfaces of the head portion 16, and the side surface of the head portion 16 opposite to the side surface has a semi-cylindrical shape with a slightly larger radius of curvature than the cylindrical portion 14. It is composed of a curved surface.

As shown in FIGS. 3 and 4, the sensor fixing device has a cylindrical recess formed in the housing 4 as the sensor pocket 18, and the sensor pocket 18 accommodates the cylindrical portion 14 of the temperature sensor 10. A silicon resin layer 19 is formed between the bottom surface of the sensor pocket 18 and the cylindrical portion 14 of the temperature sensor 10.
The sensor pocket 18 opens at the outer surface of the housing 4, and a wall 20 having a U-shaped planar shape protrudes from the vicinity of the opening edge of the sensor pocket 18. The wall 20 has a linear part parallel to each other and a curved part connecting the ends of the linear part. The wall 20 surrounds the head portion 16 except for the side surface from which the electric wires 8 and 12 extend, and the curved portion of the wall 20 contacts the curved surface of the head portion.

On the other hand, the sensor fixing device includes a metal fastener 22, which prevents the temperature sensor 10 from coming off from the sensor pocket 18 and the wall 20.
More specifically, the fastener 22 has a belt-like plate portion 24 that comes into contact with the end surface of the head portion 16 of the temperature sensor 10 from the outside, and rod portions 26 are connected to both ends of the plate portion 24 at a right angle. At the tips of these rod portions 26, hooks 28 projecting toward each other are formed, and a pair of receiving portions 30 that can be engaged with the hooks 28 are formed in the vicinity of the base of the straight portion of the wall 20. The receiving portions 30 have a groove shape substantially parallel to the outer surface of the housing 4, and each receiving portion 30 has an open end on the curved portion side of the wall 20.

A pair of wedge-shaped projections 32 are formed on the surface of the plate portion 24 on the temperature sensor 10 side, and the projections 32 sandwich the head portion 16 from both sides in the length direction of the plate portion 24.
Further, the plate portion 24 is formed with a wide portion 34 protruding in the width direction from the center thereof. The wide portion 34 is formed in the curved portion of the wall 20 and is in contact with the side surface of the stopper 36 that protrudes further than the straight portion.

  In order to fix the temperature sensor 10 to the fluid machine 2 by the sensor fixing device described above, first, the cylindrical portion 14 of the temperature sensor 10 is disposed in the sensor pocket 18. Thereafter, the temperature sensor 10 is fixed by the fastener 22. At this time, after the hook 28 of the fastener 22 is slid into the receiving portion 30 from the opening end, the wide portion 34 completely gets over the stopper 36. The fastener 22 is moved substantially in parallel with the straight portion of the wall 20, that is, in the substantially width direction of the plate portion 24. When the wide portion 34 of the fastener 22 gets over the stopper 36, the hook 28 and the receiving portion 30 engage with each other in a state where the plate portion 24 is in contact with the end surface of the head portion 16 of the temperature sensor 10. On the other hand, the wide portion 34 of the clip 22 that has passed over the stopper 36 abuts against the portion of the stopper 36 that protrudes beyond the end surface of the head portion 16, and the movement of the clip 22 in the reverse direction is restricted.

According to the sensor fixing device described above, the fastener 22, that is, the plate portion 24, the rod portion 26, and the hook 28 are integrally formed. Therefore, when the temperature sensor 10 is attached to the fluid machine 2, the sensor fixing device is Easy to assemble.
Further, according to this sensor fixing device, it is only necessary to engage the hook 28 and the receiving portion 30 during assembly, and the assembly is easy.

Furthermore, according to this sensor fixing device, the hook 28 is prevented from coming off from the receiving portion 30 when the wide portion 34 abuts against the stopper 36, so that the temperature sensor 10 is fixed securely.
The present invention is not limited to the above-described embodiment, and various modifications are possible. For example, the fastener 22 may be made of resin.

  Further, elasticity may be imparted to the rod portion 26 of the fastener 22, and in this case, even if the receiving portion 30 does not have an open end, the spacing between the hooks 28 can be increased by elastic deformation of the rod portion 26. In this case, the hook 28 and the receiving part 30 can be engaged. In this case, even if the stopper 36 is not provided, the hook 28 is prevented from coming off from the receiving portion 30 due to the elasticity of the rod portion 26.

  Furthermore, although the protrusion 32 of the fastener 22 may be omitted, it is preferable that the protrusion 32 prevents the temperature sensor 10 from rattling.

It is a top view of the fluid machine to which the sensor fixing device of one embodiment of the present invention is applied. It is an enlarged view of the sensor fixing device vicinity of FIG. It is a perspective view which decomposes | disassembles and shows schematically the sensor fixing device of FIG. It is sectional drawing which follows the IV-IV line of FIG.

Explanation of symbols

2 Fluid machine 4 Housing 10 Temperature sensor 18 Pocket 22 Fastener 24 Plate part (contact member)
26 Rod part (connecting part)
28 Hook (connection part)

Claims (1)

A sensor pocket that opens at the outer surface of the housing of the fluid machine and houses at least a portion of the sensor;
A contact member that contacts the sensor from the outside of the housing;
A contact portion formed integrally with the contact member, and connecting the contact member and the housing ;
The connecting portion includes a rod extending from the contact member, and a hook formed at a tip of the rod,
The housing has a protrusion protruding from the outer surface of the housing, and a receiving portion formed on the protrusion, extending in a direction orthogonal to the rod and having a groove shape having an open end at one end, and engaging the hook. Have
The protrusion allows the hook to move in the extending direction of the receiving part so that the hook engages with the receiving part from the open end of the receiving part, while the hook is moved in the extending direction of the receiving part. sensor fixing device of the fluid machine according to claim Rukoto which having a retaining portion for restricting that to the direction of extension of the receiving portion moves in the opposite direction.

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