JP2002303263A - Control valve for variable displacement compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a compactly designable control valve with solenoid control for a variable displacement compressor. SOLUTION: The control valve with solenoid control for a variable displacement compressor has a valve element 16 with a valve port 15 formed between an inlet port 12 and an outlet port 13 and controlling flow rate by varying opening of the valve port 15, a pressure sensitive bellows 30 driving opening and closing of the valve element 16, and a solenoid exciting means 26. The solenoid exciting means 26 is provided with a solenoid assembly 43, a stationary attractor 24 and a plunger 27 attracted to the stationary attractor 24 by excitation of the solenoid assembly 43. The plunger 27 is linked with the valve element 16 at its tip side and a housing part 28 housing the pressure sensitive bellows 30 is formed in its interior.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control valve for a variable displacement compressor for controlling the displacement of a variable displacement compressor used in an on-vehicle air conditioner or the like, and more particularly to a control valve for a pressure sensitive bellows and a solenoid exciting means. The present invention relates to a variable displacement compressor control valve with electromagnetic control.

[0002]

2. Description of the Related Art As a variable displacement type compressor used in an air conditioner mounted on a vehicle, a swash plate type variable displacement type compressor in which a discharge capacity is changed by variably setting a tilt angle of a swash plate in accordance with crankcase pressure. Compressors are well known and control the pressure in the crankcase of a swash plate type variable displacement compressor.
The control valve for a variable displacement compressor is a flow control valve that controls the pressure in the crankcase by introducing discharge pressure into the crankcase of the swash plate type variable displacement compressor.

A control valve for a variable displacement compressor is disclosed in
As disclosed in JP-A-268974, a valve housing in which a valve port is formed between an inlet port and an outlet port, and a flow rate control is performed by increasing or decreasing an opening degree of the valve port provided in the valve housing. 2. Description of the Related Art There is known a control valve for a variable displacement compressor with electromagnetic control, which has a valve body, a pressure-sensitive bellows for opening and closing the valve body, and a solenoid exciting means.

A control valve for a variable displacement compressor with electromagnetic control basically opens and closes a valve body by expanding and contracting a pressure-sensitive bellows in response to a suction pressure of the compressor to open and close a valve port. The crank chamber pressure is controlled according to the suction pressure by increasing or decreasing the opening, and when the cooling load is large, the valve body is biased in the valve closing direction by excitation of the solenoid exciting means to reduce the opening of the valve port, and the crank chamber is reduced. Control is performed to increase the discharge capacity of the variable displacement compressor by approaching the pressure to the suction pressure.

[0005]

The control valve for a variable displacement compressor with electromagnetic control as described above performs control to achieve the intended purpose. However, a conventional variable displacement compressor with electromagnetic control is used. The control valve for use is large in size because the pressure-sensitive bellows and the solenoid exciting means are arranged side by side in the opening and closing direction of the valve body.
There is a problem that it is difficult to make a compact design. An important requirement is to make a control valve for a variable displacement compressor as an in-vehicle component compact.

Further, in a conventional control valve for a variable displacement compressor with electromagnetic control, a solenoid assembly (electromagnetic coil portion), which is an electric component of solenoid excitation means, is caulked to a valve housing, and the solenoid assembly is connected to a valve. The structure cannot be retrofitted to the housing, and the assembly workability is lacking, and the solenoid assembly cannot be easily replaced according to the required characteristics of the control valve, or the solenoid assembly cannot be easily replaced during maintenance. . The present invention has been made in view of such problems, and the object thereof is to:
To provide a control valve for a variable displacement compressor with electromagnetic control, which can be compactly designed, and can be retrofitted to the valve housing with a solenoid assembly, and has excellent structure for mounting and replacing the solenoid assembly. is there.

[0007]

In order to achieve the above object,
In the control valve for a variable displacement compressor according to the present invention, a valve port is formed between an inlet port and an outlet port, and a valve body that controls a flow rate by increasing or decreasing the opening degree of the valve port, and opening and closing the valve body A control valve for a variable displacement compressor with electromagnetic control having a pressure-sensitive bellows to be driven and a solenoid exciting means, wherein the solenoid exciting means comprises a solenoid assembly,
A fixed suction element, and a plunger that is attracted to the fixed suction element by excitation of the solenoid assembly, and the plunger is connected to the valve body at a distal end thereof,
An accommodation portion for accommodating the pressure-sensitive bellows is formed therein, and the pressure-sensitive bellows is arranged in the plunger. In the control valve for a variable displacement compressor according to the present invention configured as described above, the pressure-sensitive bellows is housed in the housing formed in the plunger, and the pressure-sensitive bellows is arranged in the plunger to reduce the size. Can be planned.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a control valve for a variable displacement compressor according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 shows a first embodiment of a control valve for a variable displacement compressor according to the present invention. The control valve for a variable displacement compressor is indicated generally by the reference numeral 10. The variable displacement compressor control valve 10 has a valve housing 11. The valve housing 11 has an inlet port 12, an outlet port 13, and a valve chamber 14 and a valve port 15 formed between the inlet port 12 and the outlet port 13.
A valve body 16 is provided in the valve chamber 14 so as to be movable in the vertical direction (valve shaft direction) as viewed in FIG. The valve element 16 has a large-diameter valve land 17, and the valve land 17 is connected to the valve port 15.
The opening and closing of the valve port 15 is quantitatively increased or decreased by contacting with or separating from the valve port 15.

One end (upper end) of the valve housing 11
A valve guide member 18 is swaged to the valve member, and the valve guide member 18 guides the movement of the valve body 16 in the valve axial direction by a guide hole 19. The bottom of the guide hole 19 and the valve body 16
A valve closing spring 20 for urging the valve body 16 downward, that is, in the valve closing direction as viewed in FIG. An O-ring 2 is provided at the other end (lower end) of the valve housing 11.
1. A mounting flange portion 23a formed at one end of the plunger tube 23 is caulked and fixedly connected via a spacer 22. Thereby, the cylindrical plunger tube 23 is fixed to the valve housing 11 at a position concentric with the valve body 16. A fixed suction element 24 of a solenoid exciting means 26 is concentrically fixed to the tip (the other end) of the plunger tube 23 by welding or the like. Fixed suction element 24
Is constituted by a circular cross section member having an outer diameter equal to the outer diameter of the plunger tube 23, and the outer peripheral surface of the plunger tube 23 and the outer peripheral surface of the fixed suction element 24 are concentric and flush with each other.

The valve housing 11 cooperates with the cylindrical portion 23b of the plunger tube 23 and the fixed suction element 24 at the other end thereof to define a plunger housing / pressure sensing chamber 25 having a closed structure. The plunger 27 of the solenoid exciting means 26 is provided in the plunger housing / pressure sensing chamber 25 so as to be movable in the vertical direction (valve shaft direction) as viewed in FIG. The plunger 27 is slidably engaged with the cylindrical portion 23b of the plunger tube 23, in other words, the plunger tube 2
The third cylindrical portion 23b houses the plunger 27 slidably in the axial direction. Further, as shown, equalizing passages 55a and 55b for equalizing the pressures at the upper end and the lower end of the valve body 16 are formed in the valve housing 11 and the valve guide member 18 so that the plunger can be accommodated. The refrigerant gas having the suction pressure Ps flowing into the pressure-sensitive chamber 25 is supplied to the pressure equalizing paths 55a and 55b.
Through the valve guide member 18.

The plunger 27 has a pressure-sensitive bellows 3 inside.
0 (pressure-sensitive bellows housing inner cylindrical portion) is formed in a cup shape, and the end member 29 fixed to the distal end side (upper end side) abuts the stem portion 16a of the valve body 16. ing. The valve body 16 has the distal end of the stem portion 16a pressed against the end member 29 by the spring force of the valve closing spring 20, and the spring force of the valve closing spring 20 responds to the plunger 27 and the end member 29 moving down. When the valve is closed and the plunger 27 and the end member 29 are moved upward, the plunger 27 and the end member 29 are moved in the valve opening direction against the spring force of the valve closing spring 20. As shown, the state in which the end member 29 is in contact with the end surface 11a of the valve housing 11 is the maximum valve open state.

A pressure-sensitive bellows 30 is disposed inside the pressure-sensitive bellows housing inner cylindrical portion 28. The pressure-sensitive bellows 30 includes a metal bellows main body 31, an end member 33 and an end member 34 fixed to both ends of the bellows main body 31 and also serving as a stopper that defines a vacuum chamber 32 inside the bellows main body.
It is constituted by a stopper member 35 fixed to the end member 34 and a bellows internal spring 36 provided between the end members 33 and 34. The external pressure, that is, the pressure of the pressure-sensitive bellows housing inner cylinder 28 and the vacuum The valve body 16 expands and contracts in the valve axis direction according to the pressure difference with the chamber 32.

One end member 33 of the pressure-sensitive bellows 30
Is engaged with the end member 29 of the plunger 27, and a compression coil spring 37 is provided between the end members 33 and 29. An adjust plug 39 is screw-engaged with the fixed suction element 24 via an O-ring 38 in an airtight state, and one end of a connecting rod 40 is fixedly connected to the adjust plug 39. The connecting rod 40 is connected to the plunger 2
7 penetrates through the through-hole 27 a formed in the pressure-sensitive bellows accommodating inner cylindrical portion 28, and is engaged with the other end member 34 of the pressure-sensitive bellows 30 at this protruding end. In other words, the other end member 34 of the pressure-sensitive bellows 30 is connected to the adjustment plug 39 by the connecting rod 40.

The adjusting plug 39 has a hexagon wrench hole 3
9a is formed, and the screw engagement position of the adjusting plug 39 with respect to the fixed suction element 24 can be adjusted with a hexagon wrench. The initial state of the pressure-sensitive bellows 30 can be adjusted by adjusting the screw engagement position of the adjust plug 39 with respect to the fixed suction element 24. Also, the valve housing 11
A working fluid pressure port 51 for guiding working fluid pressure into the plunger housing / pressure sensing chamber 25 is formed in the plunger housing / pressure sensing chamber 25.
A through hole 29a for guiding the inside is formed through.

The seat plate 41 attached to the plunger 27
Plunger spring 4 for urging plunger 27 in a direction to separate plunger 27 from stationary suction element 24
2 are installed. Outside the plunger tube 23 and the fixed suction element 24, a cylindrical solenoid assembly 43 of the solenoid exciting means 26 is fitted in a detachable manner so that it can be inserted and removed.
It is fixedly mounted by a ring 45.

The solenoid assembly 43 includes a cup-shaped solenoid case 46, a ring-shaped end cover 47 fixed to an open end of the solenoid case 46, a coil bobbin 48 provided in the solenoid case 46, and a coil bobbin 48. It is constituted by a wound winding portion 49 and a wiring portion 50, and is excited by energization of the winding portion 49, and against the force of the plunger spring 42, the plunger 2 is turned on.
7 is attracted to or brought close to the fixed suction element 24.

As shown in FIG. 1, the control valve 10 for a variable displacement compressor has a valve housing 11 inserted into a valve mounting hole 101 formed in a case 100 of the variable displacement compressor. O-rings 52, 53, 54 for hermetically separating the ports 12, 13, 51 of the housing 11 are mounted respectively. When the control valve 10 for a variable displacement compressor is attached to the case 100, the inlet port 12 communicates with the discharge pressure passage 102, the outlet port 13 communicates with the crank chamber passage 103, and the suction pressure passage 51 with the working fluid pressure port 51. Communicate with 104. The solenoid assembly 43 is outside the valve mounting hole 101 for heat radiation.

Next, the operation of the control valve 10 for a variable displacement compressor having the above configuration will be described. Suction pressure passage 1
When the suction pressure of the variable displacement compressor is applied to the working fluid pressure port 51 from the pressure chamber 04 and the suction pressure acting on the pressure-sensitive bellows 30 in the pressure-sensitive bellows accommodating inner cylinder 28 rises, the pressure-sensitive bellows 30 contracts. As a result, the end member 29 and the plunger 27 move toward the fixed adsorber 24 against the spring force of the plunger spring 42, and with this movement, the valve body 16 is moved in the valve closing direction by the spring force of the valve closing spring 20. And the opening of the valve port 15 decreases. As a result, the flow rate introduced into the crank chamber by the discharge fluid of the variable displacement compressor is reduced, the crank chamber pressure is reduced, and the displacement of the variable displacement compressor is increased.

On the other hand, the pressure-sensitive bellows accommodating inner cylindrical portion 28
When the suction pressure acting on the pressure-sensitive bellows 30 in the inside decreases,
The pressure-sensitive bellows 30 expands, thereby causing the end member 2 to move.
9. The plunger 27 is moved away from the fixed adsorber 24 by the spring force of the plunger spring 42, and the valve body 16 is pushed in accordance with this movement to open the valve against the spring force of the valve closing spring 20. , And the opening of the valve port 15 increases. As a result, the flow rate introduced into the crank chamber by the discharge fluid of the variable displacement compressor increases, and the crank chamber pressure increases, so that the displacement of the variable displacement compressor decreases.

When power is supplied to the winding 49 of the solenoid assembly 43, the winding 49 is excited, and the plunger 27 and the end member 29 are fixed to the fixed suction element against the spring force of the plunger spring 42. Adsorbs or approaches 24. As a result, the valve element 16 moves in the valve closing direction due to the spring force of the valve closing spring 20, the opening of the valve port 15 decreases, and the flow introduced into the crank chamber by the discharge fluid of the variable displacement compressor decreases. However, the crank chamber pressure decreases and the displacement of the variable displacement compressor increases.

When the energization of the winding 49 of the solenoid assembly 43 is stopped, the winding 49 is demagnetized, and the plunger 27 and the end member 29 return to their original positions by the spring force of the plunger spring 42. The body 16 moves in the valve opening direction, the opening degree of the valve port 15 increases, and the flow introduced into the crank chamber by the discharge fluid of the variable displacement compressor increases.
Accompanying this, the crank chamber pressure rises and the displacement of the variable displacement compressor decreases.

As described above, the control valve 10 for a variable displacement compressor accommodates the pressure-sensitive bellows 30 in the pressure-sensitive bellows accommodating inner cylindrical portion 28 formed in the plunger 27.
In particular, the size in the valve shaft direction can be reduced to achieve compactness. Further, the initial state of the pressure-sensitive bellows 30 can be adjusted by the adjustment plug 39, and the control characteristics of the control valve 10 for the variable displacement compressor can be adjusted. Further, since the cylindrical solenoid assembly 43 is fixedly attached to the outside of the plunger tube 23 and the fixed suction element 24 so as to be able to be inserted and removed, the solenoid assembly 43 can be retrofitted to the valve housing 11, The mounting and replacement of the solenoid assembly 43 can be easily performed.

Further, instead of the pressure equalizing path for equalizing the pressure between the upper end and the lower end of the valve body 16 shown in the first embodiment of FIG. 1, a valve as shown in the second embodiment of FIG. Equalizing passages 55 a ′ and 55 b ′ may be formed in the housing 11 and the valve guide member 18 so that the refrigerant gas having the pressure Pc of the crank chamber of the outlet port 13 flows into the valve guide member 18.

3 to 6 show Embodiments 3 to 6 of the control valve for a variable displacement compressor according to the present invention. In this embodiment, the inlet port 12 communicates with the crank chamber passage, the outlet port 13 communicates with the discharge pressure passage, and the working fluid pressure port 51 communicates with the suction pressure passage. 3 to 6, the same reference numerals as those shown in FIG. 1 denote the same or equivalent parts as those in FIG. 1, and a description thereof will be omitted.

In the control valve 10 for a variable displacement compressor according to the third embodiment shown in FIG. 3, a conical compression coil spring is used as the valve closing spring 20 instead of the cylindrical compression coil spring. The valve closing spring 20 is mounted between the valve body 16 and the valve housing 11.

In the control valve 10 for a variable displacement compressor according to the fourth embodiment shown in FIG. 4, a valve element 16 for adjusting the opening of a valve port 15 is used. It has a portion 16a.

In the control valve 10 for a variable displacement compressor according to the fifth embodiment shown in FIG. 5, an adjusting spring retainer 56 is screw-engaged with an upper end portion of a valve housing 11, and the adjusting spring retainer 56 A valve closing spring 20 is mounted between the valve body 16 and the valve body 16. The adjusting spring retainer 56 has an inlet port 12 serving as a hexagon wrench hole.
Are formed through. In this embodiment, the set spring load of the valve closing spring 20 can be adjusted by adjusting the screw engagement position of the adjusting spring retainer 56 with respect to the valve housing 11, thereby controlling the control characteristics of the control valve 10 for the variable displacement compressor. Can be adjusted.

In the control valve 10 for a variable displacement compressor according to the sixth embodiment shown in FIG. 6, a press-fit spring retainer 57 is press-fitted and fixed to the upper end portion of the valve housing 11 so that the fixed position can be adjusted. The valve-closing spring 20 is mounted between the press-fit spring retainer 57 and the valve body 16. The inlet port 12 is formed through the press-fit spring retainer 57. In this embodiment, the set spring load of the valve closing spring 20 can be adjusted by adjusting the press-fitting fixed position of the press-fit spring retainer 57 with respect to the valve housing 11, thereby adjusting the control characteristics of the control valve 10 for the variable displacement compressor. it can.

[0030]

As can be understood from the above description, according to the control valve for a variable displacement compressor according to the present invention, the pressure-sensitive bellows is disposed in the accommodating portion for accommodating the pressure-sensitive bellows formed in the plunger. Therefore, the control valve for the variable displacement compressor can be made compact.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a first embodiment of a control valve for a variable displacement compressor according to the present invention.

FIG. 2 is a sectional view showing Embodiment 2 of the control valve for a variable displacement compressor according to the present invention.

FIG. 3 is a sectional view showing a third embodiment of the control valve for a variable displacement compressor according to the present invention.

FIG. 4 is a sectional view showing Embodiment 4 of a control valve for a variable displacement compressor according to the present invention.

FIG. 5 is a sectional view showing a fifth embodiment of the control valve for a variable displacement compressor according to the present invention.

FIG. 6 is a sectional view showing Embodiment 6 of a control valve for a variable displacement compressor according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Control valve for variable displacement compressors 12 Inlet port 13 Outlet port 15 Valve port 16 Valve element 24 Fixed suction element 26 Solenoid exciting means 27 Plunger 28 Housing (pressure-sensitive bellows housing inner cylinder) 30 Pressure-sensitive bellows 43 Solenoid set Three-dimensional

Continuation of the front page (72) Inventor Masayuki Imai 7-17-24 Todoroki, Setagaya-ku, Tokyo F-term in Fujikoki Co., Ltd. (Reference) 3H045 AA04 AA12 AA27 BA12 CA02 CA03 CA13 CA23 DA12 DA15 EA13 EA27 EA33 EA42 3H056 AA01 BB32 CA06 CB02 CD01 CD03 DD05 GG03 GG08 GG13 3H076 AA06 BB32 CC05 CC20 CC84 CC85 CC92 CC93 3H106 DA05 DA12 DA23 DB02 DB12 DB23 DB32 DC02 DC17 DD05 EE34 GA15 HH01 KK23 KK34

Claims (1)

[Claims] A valve port is formed between an inlet port and an outlet port, a valve body for controlling a flow rate by increasing or decreasing an opening degree of the valve port, a pressure-sensitive bellows for opening and closing the valve body, and a solenoid exciting means. A control valve for a variable displacement compressor with electromagnetic control, comprising: a solenoid exciting means comprising: a solenoid assembly; a fixed suction element; and a plunger which is attracted to the fixed suction element by exciting the solenoid assembly. The plunger is connected to the valve body at the distal end side, and a housing portion for housing the pressure-sensitive bellows is formed therein, and the pressure-sensitive bellows is disposed in the plunger. A control valve for a variable displacement compressor.