JPH0614648U - Electromagnetic actuator - Google Patents

Abstract

(57) [Abstract] [Purpose] Electromagnetic actuation in which a movable core is housed in a guide cylinder formed by coaxially coupling a magnetic cylinder to a fixed core via a non-magnetic cylinder so that the movable core can move toward and away from the fixed core. In the device, a dedicated component for avoiding the close contact of the movable core with the fixed core is unnecessary, and the number of components is reduced. [Structure] The fixed core 2 of the movable core 31 is attached to the non-magnetic cylinder 33.
A restriction piece 33a that restricts the proximity limit to 6 is provided integrally so as to project inward in the radial direction.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an electromagnetic operating device in which a movable core is housed in a guide cylinder formed by coaxially coupling a magnetic cylinder to a fixed core via a non-magnetic cylinder so that the movable core can be moved toward and away from the fixed core.

[0002]

[Prior art]

 Conventionally, such an electromagnetic actuating device is known from, for example, Japanese Patent Laid-Open No. 63-318379.

[0003]

[Problems to be solved by the device]

 By the way, if the movable core comes into contact with the fixed core when the movable core moves close to the fixed core, when the movable core is moved away from the fixed core, the residual core keeps the movable core in close contact with the fixed core, resulting in a responsiveness. descend. Therefore, in the above-mentioned conventional one, a spacer made of a non-magnetic material is provided between the movable core and the fixed core in order to avoid the close contact of the movable core with the fixed core.

An object of the present invention is to provide an electromagnetic actuating device which can contribute to reduction of the number of parts by eliminating the need for a dedicated part for avoiding the close contact of the movable core with the fixed core.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, according to the present invention, the non-magnetic cylinder is integrally provided with a restriction piece for restricting the proximity of the movable core to the fixed core so as to project inward in the radial direction.

[0006]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings.

1 to 3 show an embodiment of the present invention. FIG. 1 is a longitudinal sectional view of a solenoid valve, FIG. 2 is an enlarged view of part 2 of FIG. 1, and FIG. FIG.

First, in FIG. 1, the solenoid valve is composed of a switching valve device 5 and an electromagnetic actuating device 6 for driving the switching valve device 5.

The switching valve device 5 includes a valve housing 7 and a spool valve body 8 slidably fitted in the valve housing 7. The valve housing 7 has a block-shaped housing main portion 9 and a cover 10 coupled thereto. The housing main portion 9 has, in order from the electromagnetic actuator 6 side, a first fitting hole 11, a sliding hole 12 having a smaller diameter than the first fitting hole 11, and a sliding hole 12. The second fitting hole 13 having a large diameter is coaxially formed. Further, the cover 10 is provided with a cylindrical projection 14 fitted in the second fitting hole 13 so as to form a recess 15 therein, and between the housing main portion 9 and the cover 10. A spring chamber 16 is formed, and this spring chamber 16 is communicated with a reservoir (not shown) via a release passage 17 formed in the cover 10.

The spool valve element 8 has one end facing the first fitting hole 11 and is slidably fitted in the sliding hole 12, and the other end of the spool valve element 8 is a spring. It projects into the chamber 16. A return spring 18 that is contracted between the spool valve body 8 and the cover 10 is housed in the spring chamber 16, and the spool valve body 8 is springed toward one end side (the upper end side in FIG. 1). Be energized. Moreover, in the housing main portion 9, a step portion 19 is formed between the sliding hole 12 and the second large diameter hole 13 and abuts on the step portion 19 to restrict the movement of the spool valve body 8 to the one end side. The control collar 20 is provided integrally with the spool valve body 8.

The housing main portion 9 has a pair of input passages 22 that are connected to a single input port 21 and open to the inner surface of the sliding hole 12 at positions axially spaced from each other.₁, 22₂And those input passages 22₁, 22₂The same space as that between the two input passages 22 is provided.₁, 22₂A pair of output passages 23 that open to the inner surface of the sliding hole 12 at the disengaged position₁, 23₂And a pair of annular recesses 24 are provided on the outer surface of the spool valve body 8.₁, 24₂Is provided. Thus, both annular recesses 24₁, 24₂Means that when the spool valve body 8 is in the upward movement position as shown in FIG.₁And output path 23₁Between and input passage 22₂And output passage 23₂When the spool valve body 8 is moved downward from the upward movement position shown in FIG. ₁ And output passage 23₁Between and input passage 22₂And output passage 23₂The spool valve body 8 is provided so as to block the spaces from each other.

In the electromagnetic actuator 6, a fixed core 26 formed of a magnetic material in a cylindrical shape is integrally provided at one end thereof with a flange 27 that extends outward in the radial direction and is joined to the housing main portion 9 of the valve housing 7. A cylindrical protrusion 28 that is provided and is fitted into the first fitting hole 11 of the housing main portion 9 is integrally provided so as to protrude. Thus, a fluid chamber 29 is formed between the fixed core 26 and the housing main portion 9 in a state where the flange 27 is connected to the housing main portion 9, and the spool valve body 8 of the switching valve device 5 has a fluid chamber 29 and a fluid chamber 29. A communication hole 30 for communicating the spring chamber 16 and the spring chamber 16 is formed.

Referring also to FIG. 2, a movable core 31 facing the fixed core 26 on the side opposite to the switching valve device 5 is housed in a guide cylinder 32 so that the movable core 31 can move toward and away from the fixed core 26. The guide cylinder 32 has a magnetic core 34 coaxially coupled to the fixed core 26 via a non-magnetic cylinder 33, and a seal member 36 at the end of the magnetic cylinder 34 opposite to the fixed core 26. The movable core 31 is housed in a working chamber 37 formed in a guide tube 32, which is formed by fitting a lid member 35.

The fixed core 26 and the magnetic tube 33 are fitted to both ends of the non-magnetic tube 33, and the fixed core 26, the non-magnetic tube 33, and the magnetic tube 34 are coaxially fitted by brazing in the fitted state. The guide tube 32 is formed by being connected.

Referring also to FIG. 3, on the inner surface of the non-magnetic cylinder 33, there are integrally formed a plurality of restricting pieces 33 a ... The protruding pieces 33a, which are provided in a protruding manner, restrict the proximity of the movable core 31 to the fixed core 26 by contacting the end surface of the movable core 31 on the fixed core 26 side. That is, when the movable core 31 is located away from the fixed core 26, the distance L ₁ between the movable core 26 and the restriction piece 33a is set smaller than the distance L ₂ between the movable core 31 and the fixed core 26. To be done.

A cylindrical sleeve 38 is coaxially press-fitted and fixed to the fixed core 26, and one end of a rod 39 which slidably penetrates the sleeve 38 is press-fitted and fixed to the movable core 31. The other end of the rod 39 coaxially contacts the spool valve body 8 of the switching valve device 5. Further, a spring 40 having a load smaller than that of the return spring 18 in the switching valve device 5 is interposed between the movable core 31 and the lid member 35, and the rod 39 causes the spool valve body to rotate due to the spring force of the spring 40. 8, the movable core 31 is urged by the spring force of the return spring 18 in a direction away from the fixed core 26.

The fixed core 26 has a plurality of through holes 41 ... Connecting the working chamber 37 and the fluid chamber 29, and the movable core 31 has a plurality of through holes 42. .

A coil assembly 46, which is formed into a cylindrical shape by covering a coil 44 wound around a bobbin 43 with a mold portion 45 made of synthetic resin, surrounds a part of the guide cylinder 32 and the fixed core 26. The coil assembly 46 is sandwiched between a cover 47 that covers the outer end of the guide cylinder 32 and the flange 27, and one end of which is coupled to the flange 27 to surround the coil assembly 46. The other end of the cover is caulked to the outer peripheral edge of the cover 47.

In such an electromagnetic actuating device 6, in the demagnetized state of the coil 44, the movable core 3 1 is separated from the fixed core 26 by the spring force of the return spring 18 as shown in FIGS. 1 and 2. When the coil 44 is excited, the movable core 31 is attracted to the fixed core 26 side against the spring force of the return spring 18, whereby the spool valve body 8 is driven downward through the rod 39 in FIG. Will be.

Explaining the operation of this embodiment, when the coil 44 is excited, the movable core 31 is attracted to the fixed core 26 side. However, the proximity of the movable core 31 to the fixed core 26 is restricted by the restriction pieces 33a. It is regulated, and the movable core 31 does not come into contact with the fixed core 26. Therefore, when the coil 44 is switched from the excited state to the demagnetized state, the movable core 31 does not remain in close contact with the fixed core 26 due to the residual magnetism of the fixed core 26, and is separated from the fixed core 26 of the movable core 31. The movement in the direction will be carried out quickly and smoothly.

Moreover, the restricting pieces 33a are integrally provided on the inner surface of the non-magnetic cylinder 33 used for connecting the magnetic cylinder 34 to the fixed core 26 in the guide cylinder 32, and fix the movable core 31. Since a dedicated part such as a spacer for avoiding contact with the core 26 is not required, the number of parts can be reduced.

Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the present invention described in the scope of claims for utility model registration. It is possible to make small design changes.

For example, the present invention can be widely applied not only to an electromagnetic valve but also to an electromagnetic actuating device in which the moving stroke of a movable core with respect to a fixed core is used for a drive stroke.

[0024]

[Effect of device]

 As described above, according to the present invention, the non-magnetic cylinder is integrally provided with the restricting piece for restricting the proximity of the movable core to the fixed core so as to project inward in the radial direction and thus is integrally provided. It is possible to prevent the movable core from sticking to the fixed core by eliminating the need for dedicated parts such as, and it is possible to contribute to a reduction in the number of parts.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a solenoid valve.

FIG. 2 is an enlarged view of part 2 of FIG.

FIG. 3 is a cutaway perspective view of a non-magnetic cylinder.

[Explanation of symbols]

 6 Electromagnetic Actuator 26 Fixed Core 31 Movable Core 32 Guide Cylinder 33 Non-Magnetic Cylinder 33a Restricting Piece 34 Magnetic Cylinder

Claims (1)

[Scope of utility model registration request] 1. A guide tube (32) in which a magnetic tube (34) is coaxially coupled to a fixed core (26) via a non-magnetic tube (33) and moves into and away from the fixed core (26). In the electromagnetic actuating device in which the movable core (31) is accommodated, the non-magnetic cylinder (33) includes the movable core (3
An electromagnetic actuating device, characterized in that a restriction piece (33a) for restricting the proximity limit of 1) to the fixed core (26) is integrally provided so as to protrude inward in the radial direction.