JP2001124229A - Solenoid valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solenoid valve capable of saving the power by canceling the refrigerant pressure on a valve element of the solenoid valve having a port of large diameter used in a refrigeration cycle of an air conditioner. SOLUTION: In this solenoid valve, the chamber of a valve body is demarcated from an equalizing chamber provided on a suction piece side by a diaphragm. A valve element assembly comprises a valve element guide of cup-shaped section and the valve element having a communication hole formed in a center part and a transverse hole communicated with this communication hole, the diameter of the port ϕa of a valve seat part is equal to the contour ϕb of the valve element guide stored in the equalizing chamber, the low-pressure refrigerant is introduced in the equalizing chamber through the communication hole an the transverse hole in the valve element in a non-energizing condition, the pressure of the refrigerant on the valve element is canceled thereby, and the valve element is opened only by the spring force of a compression coil spring.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solenoid valve having a large-diameter valve port for use in a refrigeration cycle of an air conditioner, and more particularly to saving power by canceling a refrigerant pressure acting on a valve body. The present invention relates to a solenoid valve described above.

[0002]

2. Description of the Related Art FIG. 3 is a longitudinal sectional view of a conventional pilot type solenoid valve used in a refrigeration cycle of an air conditioner, and FIG. 4 is an enlarged longitudinal sectional view of a valve portion of the pilot type solenoid valve. . The pilot-type solenoid valve 30 is interposed between an expansion valve and an evaporator in a vehicle-mounted air conditioner or the like. A refrigerant in a liquid / gas mixed state flows as a fluid. And a tubular mounting base 37 with a flange 36 screwed to the valve main body 31, and a yoke 43, a coil 44, a suction element 45, and a set screw 46 fixed to the valve main body 31 via the tubular mounting base 37. , A plunger tube 49, a rubber packing 47, etc., and a substantially bottomed cylindrical solenoid 53. Numeral 54 is an airtight packing.

[0003] The tubular mount 3 in the valve body 31
7, a valve chamber 34 is formed, and the valve chamber 3
A stepped cylindrical valve seat 35 is protruded at the center of 4, and a refrigerant inlet 32 is opened in the valve chamber 34.
The refrigerant outlet 33 is opened via the valve seat 35.

In the plunger tube 49 of the solenoid 53, a plunger 48 having a conical pilot valve body 51 protruding downward at the front end is slidably fitted. This plunger 48 is fitted with the plunger 48. The suction element 45
Is constantly urged toward the valve seat 35 side (downward) by the main coil spring 50 compressed between them.

The plunger 48 and the valve seat 3
5 and the state that can be separated from them, that is,
A main valve body 40 is disposed so as to be slidable in the vertical direction within the tubular mount 37, and a pilot chamber having a volume (minimum volume) S 'is provided between the main valve body 40 and the plunger 48. 52 are formed.

The main valve body 40 is composed of a cylindrical base portion 38 and a cylindrical outer peripheral portion 39 fitted and fixed to the base portion 38, and a central portion of the base portion 38 extends vertically therethrough. A pilot orifice 42, which is opened and closed by an auxiliary valve body 51 protruding from the plunger 48, is formed to selectively communicate and shut off the pilot chamber 52 with the refrigerant outlet 33. The main valve body 40
A pressure equalizing hole 41 for communicating the pilot chamber 52 with the valve chamber 34 is formed in the cylindrical outer peripheral portion 39. In addition, d1 shown in FIG. 4 is a valve diameter, d2 is the main valve body 40.
It is the outline of.

[0007] The pilot type solenoid valve 30 described above is used.
The volume S ′ of the pilot chamber 52 formed between the main valve body 40 and the plunger 48 is 60 mm ^{3 to} 70 mm.
Is about ^3, the valve capacity is due JISB8619A characteristics, for example, a nominal 3.49kw (3000kcl /
h), at most 6.74 kw (5800 kcl / h). In the pilot solenoid valve 30 having such a configuration, when the solenoid 53 is energized and turned on to turn it on, the plunger 48 is pulled up toward the suction element 45 (upward) against the urging force of the main coil spring 50. Then, the pilot valve element 51 separates from the main valve element 40 and opens the pilot orifice 42.

Accordingly, the main valve body 40 and the plunger 48
Is discharged to the refrigerant outlet 33 through the pilot orifice 42 to reduce the pressure in the pilot chamber 52, and the pressure in the pilot chamber 52 is reduced to the pressure in the refrigerant inlet 32 and the valve chamber 34. (The pressure of the refrigerant inlet 32 and the valve chamber 34> the pressure of the pilot chamber 52 ≧ the pressure of the refrigerant outlet 33).
As shown in FIG. 4, the valve is lifted upward by a differential pressure between the pressure in the pilot chamber 52 and the pressure in the valve chamber 34, is separated from the valve seat 35, and is in an open state. In this valve open state, the refrigerant flowing from the refrigerant inlet 32 into the valve chamber 34 flows out between the main valve body 40 and the valve seat 35 to the refrigerant outlet 33.

On the other hand, when the energization of the solenoid 53 is released and the solenoid 53 is turned off, the plunger 48 is pushed down to the valve seat 35 side (downward) by the urging force of the main coil spring 50, and the auxiliary valve body 51 is moved. The pilot orifice 42 is closed by being pressed against the main valve body 40, and the main valve body 40 is moved to the valve seat 35 side by the pressure flowing into the pilot chamber through the equalizing hole 41 and the clearance between the main valve body 40 and the inner peripheral surface of the tubular mount 37. And is pressed against it, and the valve is closed. In this closed state, the space between the valve seat 35 and the refrigerant outlet 33 is shut off, and the outflow of the refrigerant is prevented.

[0010]

However, the conventional pilot-operated solenoid valve requires (1) two valve elements, a main valve and a pilot valve, which increases the cost.
(2) Since the outer dimension d2 of the main valve body 40 is more than twice as large as the dimension d1 of the valve diameter, not only the valve body becomes larger, but also a differential pressure acts on the pilot valve (sub valve). Therefore, a large capacity coil power is required. There was a problem.

[0011]

SUMMARY OF THE INVENTION The present invention has been made in view of the problems of the conventional pilot-type solenoid valve, and is directed to a solenoid valve having a large-diameter valve port used for a refrigeration cycle of an air conditioner. The chamber of the valve body and the pressure equalizing chamber provided on the suction element side are partitioned by a diaphragm, and as a valve body assembly, a valve body guide having a cup-shaped cross section and a communication hole formed at the center and a communication hole are formed in the communication hole. The valve body is formed with a connecting lateral hole, and the valve diameter of the valve seat is set to φa, and when the external shape of the valve guide housed in the pressure equalizing chamber is set to φb, the size is set to φa = φb. When not energized, the low-pressure refrigerant communicates with the pressure equalizing chamber through the communication hole and the lateral hole of the valve element, cancels the pressure of the refrigerant acting on the valve element, and opens the valve element only by the spring force of the compression coil spring. By letting Providing solenoid valve reduce costs and power consumption can be reduced and it is an object.

That is, in the solenoid valve of the present invention, a valve body 1 having a refrigerant inlet 2 and a refrigerant outlet 3 is provided with a chamber having a stepped portion 4a in which an upper portion thereof is stepped open. 4, a valve seat 5 is provided at the bottom of the chamber 4, and a pressure equalizing chamber 6 for accommodating a valve body guide is provided at a lower central portion in a stepped portion 4a of the chamber, and a vertical pressure chamber is provided at an upper central portion. A suction element 8 provided with a hole 7 is airtightly fixed via a diaphragm 9, and a valve body guide 10 having a cup-shaped cross section is housed in the pressure equalizing chamber 6 so as to be slidable in the vertical direction. In the chamber 4 partitioned by the diaphragm 9, a packing 11 is fixed to the lower surface, and a valve body 14 provided with a communication hole 12 at the center and a lateral hole 13 connected to the communication hole 12 is accommodated. The lower surface of the valve body 14 The compression coil spring 15 for biasing the body 14 upwardly provided, further wherein said valve body guide 10 and the valve body 1
4 is fixed airtightly and integrally through a diaphragm 9, and a plunger 17 is slidably inserted in a vertical direction into a plunger tube 16 fixed to an upper portion of the suction element 8. A needle 18 is fixed to the lower end of the jar 17, an electromagnetic coil 19 is disposed around the plunger tube 16, the valve diameter of the valve seat 5 is φa, and a valve body housed in the pressure equalizing chamber 6. Guide 10
Is set to the dimension of φa = φb when the outer shape of φb is φb. When energized, the needle 18 is pushed down to push down the valve body 14 against the compression coil spring 15 to close the valve. The pressure of the high-pressure refrigerant acting on the valve element 14 is canceled by the communication hole 12, the lateral hole 13 and the pressure equalizing chamber 6 formed in the valve element, and the valve element 14 is pushed upward only by the spring force of the compression coil spring 15. The valve is opened.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the structure of a solenoid valve according to the present invention will be described with reference to the drawings. FIG. 1 is a longitudinal sectional view showing a state in which an electromagnetic valve according to the present invention is open, and FIG.
It is a longitudinal cross-sectional view in which a solenoid valve is in a closed state. The solenoid valve of the present invention includes a valve body 1, a suction element 8, a valve body guide 10, a diaphragm 9, a valve body 14, a compression coil spring 15, a plunger tube 16, a plunger 17, and an electromagnetic coil 19.
It is composed of

The valve body 1 is provided with a chamber 4 having a stepped portion 4a by opening the upper portion thereof in a stepped manner, and a valve seat 5 is provided at the bottom of the chamber 4. The valve body 1 is provided with a refrigerant inlet 2 and a refrigerant outlet 3, which are connected to the chamber 4.

The suction element 8 is hermetically fixed to the stepped portion 4a of the chamber via a diaphragm 9. The suction element 8 has an opening at its lower center and a valve guide 10 to be described later. A pressure equalizing chamber 6 for accommodating therein is provided, and a vertical hole 7 is provided in an upper central portion.

The valve body guide 10 has a longitudinal section formed in a cup shape.
The inside is slidably housed vertically.

The valve element 14 is housed in the chamber 4 defined by the diaphragm 9. The valve element 14 has a packing 11 fixed to the lower surface thereof and a communication hole 12 formed in the center thereof. The communication hole 1
2 is provided with a horizontal hole 13 leading to the second hole. Further, the valve element 14 is connected to the valve element guide 10 through the diaphragm 9.
Is air-tightly and integrally fixed below.

The plunger tube 16 is connected to the suction element 8.
The plunger 17 is inserted into the plunger tube 16 so that the plunger 17 can slide vertically. In addition, this plunger 1
A needle 18 is fixed to the lower end of the valve element 7.
Is pushed down. The electromagnetic coil 19 is disposed around the plunger tube 16.

In the solenoid valve according to the present invention, the valve body 1
In order to cancel the high pressure refrigerant pressure acting on 4,
When the valve diameter of the valve seat 5 is φa and the outer shape of the valve guide 10 housed in the pressure equalizing chamber 6 is φb, φa = φb.

Therefore, in the solenoid valve of the present invention, when energized, as shown in FIG.
7, the needle 18 is pushed down, and the valve body 1
4 is pressed downward against the compression coil spring 15 to close the valve seat 5.

When the power is not supplied, as shown in FIG.
The force F1 for pushing down the valve body and the force F2 for pushing up the valve element due to the high-pressure refrigerant in the chamber 4 are offset. The pressure in the pressure equalizing chamber 6 is equal to the pressure of the low pressure refrigerant because the pressure of the low pressure refrigerant flows through the communication hole 12 and the horizontal hole 13 formed in the valve body 14 into the pressure equalizing chamber 6. Therefore, the valve element 1
The pressure difference between the refrigerants acting on the valve body 4 is canceled, and the valve body 14 is pushed upward only by the spring force of the compression coil spring 15 to open the valve seat 5.

Although the above embodiment has been described with reference to the normally open type, it goes without saying that the same effect can be obtained even with the normally closed type.

[0023]

According to the present invention, the chamber of the valve body and the pressure equalizing chamber provided on the suction element side are partitioned by the diaphragm, and the valve body assembly communicates with the valve body guide having a cup-shaped cross section and the center. In addition to forming a hole and a valve body forming a horizontal hole connected to this communication hole, the valve diameter of the valve seat portion is φa, and the outer shape of the valve body guide housed in the pressure equalizing chamber is φb. When it is not energized, the pressure is set to φa = φb, and when not energized, the low-pressure refrigerant is communicated to the pressure equalizing chamber through the communication hole and the lateral hole of the valve element, and the pressure of the high-pressure refrigerant acting on the valve element is canceled to compress the coil. Since the valve body is opened only by the spring force of the above, even a solenoid valve having a large-diameter valve port used for a refrigeration cycle of an air conditioner does not require a conventional pilot-type solenoid valve. For,
It is possible to reduce the cost of parts and save power as compared with the conventional product.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing a state in which an electromagnetic valve according to the present invention is open.

FIG. 2 is a longitudinal sectional view of the solenoid valve according to the present invention in a closed state.

FIG. 3 is a longitudinal sectional view of a conventional pilot type solenoid valve.

FIG. 4 is an enlarged vertical sectional view of a valve portion of a conventional pilot type solenoid valve.

[Explanation of symbols]

1 Valve body 2 Inlet
3 Outlet 4 Chamber 4a Stepped part
5 Valve seat 6 Equalizing chamber 7 Vertical hole
8 Suction element 9 Diaphragm 10 Valve guide 1
DESCRIPTION OF SYMBOLS 1 Packing 12 Communication hole 13 Side hole
14 Valve element 15 Compression coil spring 16 Plunger tube
17 Plunger, 18 Needle 19 Electromagnetic coil φa Valve diameter of valve seat part φb Outline of valve body guide

Claims (1)

[Claims] A refrigerant inlet (2) and a refrigerant outlet (3)
The valve body (1) provided with a valve (4) is provided with a chamber (4) having a stepped portion (4a) with an upper portion opened stepwise, and a valve seat (5) is provided at the bottom of the chamber (4). ) Is provided, and the stepped portion (4a) of the chamber is provided with a pressure equalizing chamber (6) for accommodating a valve body guide in a lower central portion and a vertical hole (7) in an upper central portion. The child (8) is airtightly fixed via a diaphragm (9), and a valve body guide (10) having a cup-shaped cross section is housed slidably in the vertical direction in the pressure equalizing chamber (6). In the chamber (4) defined by the diaphragm (9), a packing (11) is fixed to the lower surface, and a communication hole (12) at the center and the communication hole (12) are provided.
A compression coil spring (15) for urging the valve element (14) upward is provided on the lower surface of the valve element (14) provided with a lateral hole (13) connected to the valve element (14). Further, the valve body guide (10) and the valve body (14) are hermetically and integrally fixed via a diaphragm (9), and the plunger tube (16) fixed to the upper part of the suction element (8). A plunger (17) is slidably inserted in the vertical direction and the plunger (17)
A needle (18) is fixed to the lower end of the plunger tube, and an electromagnetic coil is provided around the plunger tube (16).
(19) is arranged, and when the valve diameter of the valve seat (5) portion is φa and the outer shape of the valve body guide (10) housed in the pressure equalizing chamber (6) is φb, the dimension becomes φa = φb. When the power is turned on, by pushing down the needle (18),
The valve body (14) is pushed downward against the compression coil spring (15) to close the valve, and when no electricity is supplied, the communication hole (12), the lateral hole (13) and the pressure equalizing chamber ( According to 6), the pressure of the high-pressure refrigerant acting on the valve element (14) is canceled, and the valve element (14) is pushed upward by only the spring force of the compression coil spring (15) to open the valve. Solenoid valve.