JPH0596656U - solenoid valve - Google Patents

Abstract

(57) [Abstract] [Purpose] To improve quietness during operation while avoiding variations in the stroke of the valve element during manufacturing. In a solenoid valve in which a cushioning portion 8 made of fluororubber is provided at an end of the plunger 14 on the core 2 side, a cap 5 made of fluororubber is provided to cover the end of the core 2 on the plunger 14 side. Even if the thickness L ₁ of the cushioning portion 8 is such that sink marks are not generated during formation, the apparent thickness L _{1 of the} cushioning portion 8 is increased by the cap 5, and the impact at the time of contact between the plunger 14 and the core 2 is further alleviated. To be done.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a solenoid valve that ensures quietness during operation.

[0002]

[Prior Art]

 2. Description of the Related Art Conventionally, for example, a solenoid valve shown in FIG. 2 has been known as a solenoid valve that has been kept quiet during operation. The electromagnetic valve 21 is an air control valve provided in an engine of an automobile, and the electromagnetic valve 21 has a resin main body 22 and a solenoid 23 provided at one end of the main body 22. A first boat 24 and a second port 25 are integrally formed in the main body 22, and a valve chamber 26 and a seat 27 that connect the ports 24 and 25 to each other are formed inside the first boat 24 and the second port 25.

The solenoid 23 is integrally formed on one end side of the main body 22 to form one end side of the valve chamber 26, a core 29 inserted in the bobbin 28, and a coil 30 wound around the bobbin 28. And have. At one end of the core 29 located inside the valve chamber 26, a medium diameter portion 29a to which the spring 31 is fitted and a regulation portion 29b having a diameter smaller than that of the medium diameter portion 29a protruding at the tip thereof are formed. .. The core 29 is connected to the yoke 32 embedded in the main body 22 at the other end of the core 29.

On the other hand, a cylindrical guide 33 is fitted in the valve chamber 26, and a plunger 34 biased toward the seat 27 by the spring 31 is slidably accommodated in the guide 33. ing. The plunger 34 has a hole 34a penetrating the axial center thereof filled with fluororubber as a cushioning material, and a valve portion 35 is formed at one end of the plunger 34 with the fluororubber filled therein. The valve portion 35 is pressed against the sheet 27. The hole 34a is formed at the other end of the plunger 34 so that its opening diameter is larger than that at the one end side, and the other end of the plunger 34 is filled by filling the inside with fluorine rubber. A buffer portion 36 is formed in the portion. The inner circumference of the opening of the hole 34a is covered with fluororubber.

In this configuration, when the plunger 34 reciprocates due to the electromagnetic force of the solenoid 33 and the repulsive force of the spring 31, the valve portion 35 is made of fluororubber, so that the plunger 34 and the seat 27 come into contact with each other. Impact on contact is mitigated. Further, when the movement of the plunger 34 is regulated by the core 29, the regulation portion 29b of the core 29 comes into contact with the buffer portion 36 made of fluororubber, so that the impact at the time of the regulation is alleviated. Therefore, in the solenoid valve 1, by mitigating the impact at both ends in the operation direction of the plunger 34, the impact sound generated due to the operation of the plunger 34 is reduced and the quietness during the operation is secured. There is.

[0006]

[Problems to be solved by the device]

 However, in such a conventional solenoid valve 21, in order to reduce the impact when the plunger 34 abuts on the core 29 and reduce the impact sound at the time of such abutment, the thickness of the buffer portion 36 of the plunger 34 is reduced. It is necessary to make L thick, but if this is thickened due to molding, sink marks will be generated in the buffer portion 36 on the surface facing the core 29 (regulating portion 29b) and the stroke of the plunger 34 will vary. There was a limit to increase the thickness L of the portion 36.

The present invention has been made in view of such conventional problems, and it is possible to improve quietness during operation while avoiding variation in stroke of the valve body during manufacturing. The purpose is to provide a possible solenoid valve.

[0008]

[Means for Solving the Problems]

 In order to solve the above problems, in the present invention, when a valve body slidably accommodated in a main body is operated in one direction by an electromagnetic force of a solenoid, the valve body is provided at one end in an operating direction of the valve body. In a solenoid valve in which a cushioning portion made of a cushioning material comes into contact with the core of the solenoid to restrict movement of the valve element, a core side cushioning portion made of a cushioning material in which the cushioning portion abuts the core is provided. I decided. Further, the cushioning portion is formed by a cap made of a cushioning material which is covered by the mounting portion protruding from the general portion of the core, and the cap is fitted in the fitting groove formed on the general portion side of the mounting portion. It is desirable to have a ridge that fits.

[0009]

[Action]

 In the above configuration, when the valve body is actuated by the electromagnetic force of the solenoid, the cushioning portion of the valve body comes into contact with the core-side cushioning portion, so that the actuation of the valve body is restricted. At this time, both the shock absorbing part of the valve body and the shock absorbing part of the core side are made of shock absorbing material, that is, a material having a cushioning property such as resin or rubber. Moderated by both departments. Further, in this case, since the core-side cushioning portion is provided, the apparent thickness of the cushioning portion of the valve body, for example, the thickness along the operating direction of the valve body of the core-side cushioning portion In the case of the same, since it is doubled, it is possible to increase the degree of impact relaxation described above without increasing the thickness of the buffer portion of the valve body. In addition, since the core-side cushioning portion is made of a cushioning material, deterioration over time due to friction, which may occur when the cushioning portion of the valve body comes into contact with the core, that is, metal, is prevented.

Further, the cushioning portion is formed by a cap made of a cushioning material which is provided on the mounting portion protruding from the general portion of the core, and the fitting is formed on the general portion side of the mounting portion. When the protrusion is fitted in the groove, the core side cushioning portion can be provided on the core at a relatively low cost, and the cap does not come off.

[0011]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view showing an electromagnetic valve 1 of the present invention. The electromagnetic valve 1 has a resin main body 22 and a solenoid 23 provided on one end side of the main body 22. As can be seen from the drawing, the solenoid valve 1 of the present invention has a major part of the configuration similar to that already described with reference to FIG. Omit it.

The core 2 of the solenoid 23 is fitted in the valve chamber 26. The core 2 has a general portion 3 having substantially the same diameter as the valve chamber 26, and a mounting portion 4 projecting from one end side of the general portion 3, and the mounting portion 4 is continuous with the general portion 5. The fitting groove 4a is formed in the portion to be formed. Further, the mounting portion 4 is covered with a cap 5 which is made of fluororubber as a cushioning material and constitutes a core side cushioning portion. The cap 5 has a ridge 5a protruding inward at the opening edge thereof, and the ridge 5a is fitted into the fitting groove 4a of the mounting portion 4 to prevent the cap 5 from coming off from the mounting portion 4. ing.

On the other hand, the plunger 6, which is a valve element housed in the valve chamber 26 of the main body 22, has a hole 6a penetrating the shaft center thereof filled with fluororubber, and has one end side thereof. Has a valve portion 7 made of fluororubber. The opening diameter of the hole 6a at the other end of the plunger 6 is larger than that at the one end side. The other end side of the plunger 6 is filled with the other end portion of the hole 6a and the opening diameter The buffer portion 8 is formed of fluororubber formed to have the same diameter as that of the protruding portion. Further, the thicknesses (L ₁ and L _{2 in the} figure) of the buffer portion 8 and the cap 5 along the operating direction of the plunger 6 are such that sink marks do not occur during the molding.

In such a configuration, when the solenoid 23 is excited and the plunger 6 is actuated by an electromagnetic force, the buffer portion 8 of the plunger 6 comes into contact with the cap 5 covered by the core 2 so that the plunger 6 moves. Regulated. At this time, the impact at the time of contact between the two is mitigated by the cap 5 of the core 2 and the buffer portion 8 of the plunger 6 formed of fluororubber, and the impact sound between the plunger 6 and the core 2 is very slight. Becomes

Moreover, at this time, even if the thickness L ₁ of the cushioning portion 8 of the plunger 6 is such that sink marks do not occur during molding, as in the case of the conventional example, the cap 5 provided on the core 2 As a result, the apparent thickness of the cushioning portion 8 along the operating direction of the plunger 6 is doubled (L ₁ + L ₂ ), so that the degree of cushioning the impact at the time of contact between the plunger 6 and the core 2 is increased more than ever before. can do. Therefore, it is possible to further improve the quietness of the solenoid valve while avoiding the occurrence of sink marks in the cushioning portion 8 during manufacturing and variations in the stroke of the plunger 6.

Further, since the cap 5 is made of a cushioning material, deterioration with time due to friction that may occur when the cushioning portion 8 of the plunger 6 contacts the core 2, that is, the metal is prevented. Therefore, it becomes possible to improve the durability and reliability of the solenoid valve 1.

Further, in the present embodiment, the core-side cushioning portion is formed by the cap 5 made of the cushioning material, which is covered with the mounting portion 4 protruding from the general portion 3 of the core 2, and the cap 5 is formed by the general portion 3. Since the structure has the protrusion 5a that fits into the fitting groove 4a formed on the side, the core-side cushioning portion of the present invention can be provided on the core 2 at a relatively low cost. Moreover, it is possible to prevent the cap 5 from coming off from the mounting portion 4.

[0018]

[Effect of the device]

 As described above, according to the present invention, in the solenoid valve in which the cushioning portion made of the cushioning material is provided at one end in the operating direction of the valve body, the core side cushioning portion made of the cushioning material in which the cushioning portion of the valve body contacts the core of the solenoid. By providing the above, the apparent thickness increases while the thickness of the buffer portion of the valve body in the operating direction of the valve body is set to a thickness that does not cause sink marks during molding. Therefore, the degree of impact relaxation when the valve body abuts on the core is increased as compared with the conventional case, and the impact sound between the core and the valve body becomes smaller than before. Therefore, it is possible to further improve the quietness of the solenoid valve while avoiding variations in the stroke of the valve element that occur in the buffer portion during manufacturing.

Moreover, since the core-side cushioning portion is made of a cushioning material, deterioration of the cushioning portion of the valve body over time due to friction of both sides, which is a concern when the cushioning portion of the valve body comes into contact with the core, that is, metal. It can be avoided in advance. Therefore, it becomes possible to improve the durability and reliability of the solenoid valve.

Further, the cushioning portion is formed by a cap made of a cushioning material which is provided on the mounting portion protruding from the general portion of the core, and the cap is fitted into the fitting groove formed in the mounting portion. When the protrusion is provided, the core-side buffer portion can be provided on the core at a relatively low cost, and furthermore, the cap can be prevented from coming off from the mounting portion.

[Brief description of drawings]

FIG. 1 is a longitudinal sectional view showing a first embodiment of the present invention.

FIG. 2 is a vertical sectional view showing a conventional example.

[Explanation of symbols]

 1 Solenoid valve 2 Core 3 General part 4 Mounting part 4a Fitting groove 5 Cap (core side buffer part) 5a Projection 6 Plunger (plunger) 6a hole 8 Buffer part 23 Solenoid

Claims (2)

[Scope of utility model registration request] 1. When a valve body slidably accommodated in the main body is actuated in one direction by an electromagnetic force of a solenoid, a shock-absorbing portion made of a shock-absorbing material is provided at one end of the valve body in the operation direction. An electromagnetic valve in which movement of the valve element is restricted by contact with a core of a solenoid, wherein a core side cushioning portion made of a cushioning material with which the cushioning portion abuts is provided on the core. 2. The shock-absorbing portion is formed by a cap made of a shock-absorbing material which is covered by a mounting portion projecting from the general portion of the core, and the cap is formed on the general portion side of the mounting portion. The solenoid valve according to claim 1, wherein the solenoid valve has a protrusion that fits in the groove.