JPS5940076A - Solenoid valve - Google Patents

Abstract

PURPOSE:To simplify the manual operation of the solenoid valve by a method wherein the main body of the valve is equipped with a push button device, supported slidably along the moving axial line of a movable iron core and equipped woth a pin projected from the main body of the valve. CONSTITUTION:When first cap 21 is pushed, the cap 21 is deformed by the elasticity thereof to push the pin 18, first valve body 13 is pressed against first valve seat 2 and the second valve body 14 is separated from the second valve seat 3, therefore, the first valve seat maintains a closed condition due to the force of a spring 20 and a hydraulic pressure. When the second cap 40 is pushed, the pin 39 with a flange is pushed and the movable iron core 32 is pushed toward first fixed iron core under the interposition of a push rod 38. At this time, a valve rod 16 is pushed to press the second valve body 14 against the second valve seat 3, the first valve seat 2 is released and this condition is maintained.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to electromagnetic light, particularly to a manual operating device for bistable solenoid valves.

Conventional bistable solenoid valves have two solenoids and one permanent magnet disposed between the solenoids, and the movable iron core is moved between two positions (F) by alternate energization of the solenoids. In the case of an N solenoid valve configured to allow the permanent magnet to be held at position i7 even after deenergization of the a' resolenoid, the manual operating device is separately attached to the solenoid valve. However, the present invention solves the following drawbacks,
The object of the present invention is to provide a solenoid valve with a simple structure and a hand J operating device.

The present invention achieves the object of -1- by using a simple push-button device to control the movable iron of the valve body, that is, the solenoid, without fundamentally changing the structure of conventional solenoid valves consisting of a valve body and a solenoid device. This was achieved by creating a solenoid valve with a manual operation device that does not move.

The 4th and 6th details of the present invention will be explained based on the embodiment shown in the drawings.

In FIG. 1, a valve body 1 has a first valve seat 2 and a second valve W3 that are arranged substantially on the same axis.
The first passage 5 passing through the IN bow 1-4 of the valve body is open 1.
A second flow path 7 communicating with the EX boat 6 of the valve body is opened in the second valve W3.

A first valve chamber 8 facing the first valve seat 2 and a second valve chamber 9 facing the second valve seat 3 are formed in the valve body 1.

The first valve chamber 8 and the second valve chamber 9 are the first valve seat 2 and the second valve seat 3.
A plurality of pieces (3 in the embodiment of SO1) are formed on the outer circumference of the
1? il) through the communication path 10. At least one of the communicating passages 10 has a third flow passage (2) open therein which passes through the OUT bow 1-11 of the valve body 1.

A first valve body 13 is disposed in the first valve chamber 8, and a first valve body 4 is disposed in the second valve chamber 9. The first valve body 13 is made of rubber or the like.
The second valve body 14 is made of abrasive material and held by the boulder 15, and the second valve body 14 is also made of elastic material and held by the valve stem 1G.

The first light chamber 8 is sealed by a lid 17 screwed onto the valve body 1. A pin 18 is inserted into the lid j7 so as to pass through it, and the pin 17 is prevented from falling off from the lid 18 by a collar I9. The #W19 also acts as a spring p1, and a spring 20 is installed between the collar 19 and the first valve body 2 or 21. 1 valve J412 is being pressed. M.I.
An elastic cap 21 is fixed to 7 as a first pusher 7t11.

As shown in FIG. 2, the boulder 15 has an annular plate 15a.
and a plurality of leg parts 15b, in the illustrated embodiment, three leg parts 15b,
The annular plate 1521 has a valve body ■3 located inwardly between the legs 15b.
The insertion has been fixed. The leg portion 15b extends through the communication passage 10 from the first valve chamber 8 to the second valve chamber 9 and is guided in a sliding manner. Furthermore, the length of the leg portion 15'b is such that when the end thereof is in contact with the second valve seat 14, the valve body 13 is not in contact with the first valve seat 2. That is, when one valve body is in contact with the valve seat, the other valve body is set away from the valve seat.

The circular hole 22 forming the second valve chamber 9 of the valve body 1 has a non-grinded hole 1.
Cylindrical protrusion 24 of solenoid case 23 consisting of 71 bodies
is rotatably inserted and closes the second valve chamber 9.

In 1, the cylindrical hole 22 is formed as a two-stage hole, but this is not necessarily the case, and a simple cylindrical hole may be used. A 9-shaped groove 25 is formed in the protruding portion 24, and the tip portion 2 of a plurality of 11-female threads 26 screwed into the valve body 1 is formed in the protruding portion 24.
7 is coming in. [14 The female screw 26 functions to prevent the solenoid case 23 from falling off in the axial force direction 11- with respect to the valve body (+1), and also serves to prevent the solenoid case 23 from falling off in the direction of the axial force 11-.
1・9 iQ'l of the simple slope of '1! Using 11-1
Pushing in the female screw 26 serves to fix the solenoid case at the desired position relative to the valve body.

It is also possible to use a pin 26' in which some of the plurality of 11-holes are inserted and fixed into the valve body.

Inside the solenoid case 23, there is a permanent magnet 41 provided with two 1"& wires 30 (30a and 301), two 1" wires 30, and a permanent magnet 41 between the winding 30 and the permanent C4'.
A solenoid 28 having two magnetic yokes surrounding the stone 41 is provided 4J. The solenoid 28 is supported inside the solenoid case 23 by a support 31 made of magnetic material. Two fixed iron cores 33 and 34 are provided C) which are placed in positions surrounded by the windings 30.I or 30b so as to be sandwiched between them. A distance adjusting member 35 is also provided between the q-ri 29 and the q-line 30. The distance adjusting member 35 functions to adjust the suction force.

The solenoid case 23 is closed by the lid 361, and at this time, the lid 3G presses and fixes the noid 28 to the solenoid case 23 with the interposition of the presser metal fitting 37.

A through hole 33a is formed in the first fixed core 33 to slidably guide the valve rod 16 having the second valve body 14. The end portion of the valve 416 having the second valve body 14 and the first fixed iron core 33
By forming the surface between the rows into a tapered shape, space can be saved.Second fixed iron core 3
4 is fitted with a push rod 38 so as to be able to penetrate through it.

j? 736 has a tsuba;] Kipin 39 is YuL! It is attached to the '4B so that it does not fall off and also protrudes to the outside. An elastic cap 40 is fixed to the lid 36 and is used as a second push ξ1]. IIJiII
+ Pi i, lTI 1.1322 are formed in the iron core 32 so that the pressure balance on both sides of the movable iron core 32 is maintained.

The operation of a solenoid valve will be explained.

The movable iron core 32 is moved toward the button body 1 by the f=J force of IIIJ0a on the lower side of the solenoid 28, and is held in that position by the permanent magnet 41 even after the force is removed. At this time, valve stem 1
6 is pressed downward in the figure, and the second valve body 14 is moved to the second -J*
Rj 3 and closes the third flow path 7. At the same time, the first valve element 13 is pushed downward in the figure by the valve stem 16 via the boulder 15 so as to separate from the first valve lug 2.

As a result, the first channel 5 is opened, and the IN boat 4 and the first flow path 5 are opened.
The valve chamber 8 communicates with the valve chamber 8, and therefore the IN boat and the ONT boat communicate with each other.

- side winding 30b of the solenoid 28 (7) Due to the N force, the movable iron core 32 moves to the side opposite to the valve body 1,
It is held in that position by a permanent magnet 41. At this time, the force that presses the valve stem 16 downward in the figure is released, and the valve stem 16 is pressed toward the first side by the spring 20 via the first body 13, that is, the holder 15. Therefore, the second valve body 14 separates from the second valve seat 3, opening the third flow path 7. At the same time, the first valve body 13 comes into pressure contact with the first valve seat 2, and the first flow path 5 is closed. As a result, the connection between the IN bow 1-4 and the 141st chamber 8 is cut off, and the I'F.

The X-boat 6 and the OIJ T-boat 1-11 communicate with each other via the second valve chamber 9.

During manual operation, a, b, cap on the valve body side, i.e.
When the cap 21 is pressed, the first tenth knob 21 is elastically deformed and the first valve 18 is pressed, forcing the first valve body 13 into the first valve head 2 and pushing the second valve body 14 into the second position. Do not leave valve seat 3. spring 20
The force is set to be greater than the force acting on the first valve body I3 due to fluid pressure when the first valve seat 2 is in the closed state, and the first valve seat 2 is maintained in the closed state. When the cap on the side away from the valve body, that is, the second cap 40, is pushed, the second cap 40 is elastically deformed, the three flange pins are pushed, and under the intervention of the push rod 38, The nJ moving iron core 32 is pushed C toward the first fixed iron core 33. At this time, the valve stem 1G is pushed so that the second valve 14 comes into pressure contact with the second valve seat 3, and the -force first valve 111j2 is released. The valve body 14 is held in the second state by the fluid pressure in the second valve chamber 9.

According to the present invention, the movable iron core, the valve body, and the valve body are formed to be movable along almost the same axis, so that the valve body can be moved manually by using two push buttons provided at both ends of the axis. It is now possible to make /1 item.

Furthermore, the present invention allows the direction of the electric wire lead-in 1'l of the solenoid valve to be freely and easily selected.

Moreover, this was made possible by a solenoid valve with an IVi'i car structure.

[Brief explanation of drawings]

FIG. 1 is a front partial sectional view of a solenoid valve according to the present invention, and FIG.
21 is a perspective view 1 of the boulder. ■...Valve body 2.3...Valve 1? +412.
14... Valve body I6... Valve stem 18... Pin
20... Spring 21... Cap (first push button) 23... Solenoid case 30... Solenoid 32... Movable iron core 33.3
4...Fixed iron core 39...Pin, IO, Ki, Knob (second pusher) IM! J115711December 1411 '+11'' 1) Nagashaku Wakasugi Kazuo Tono 1 1G f'l front, J11 Jl157 I1 Special, γ1
Narrowing 1 No. 149154 shi)2
Name of the invention: Solenoid valve: 3r mountain position, leap 1≦ from the old ゛1≦...Patent issued η
r1 person,)4i:mau)・Mr. Y?・Kano・(fl・) Konan Electric Co., Ltd. 1 agent II: +11 east; some ports 1 meter west? Kyoto 2
1'1132i%, No. 1 tail 1. Mr. Tsukehill name
b)', l11'' (6313) fJ+ wisteria
Takehisa -1-4+Lee, τ 5? +li ll'ffi <7 C)') l
l f・111 call II 57 Fl 11
Month 12 11': If=jA l l Showa 5
71411130116 Specification subject to amendment 7, Cleaning of the specification of the contents of the amendment @ (no change in content)

Claims (1)

[Claims] (1) In a solenoid valve that has a 41' main body and a solenoid device attached to the valve main body, the solenoid device has two fixed cores and a movable core that is movable between the two cores. , a solenoid surrounding each iron core, and a valve seat provided in the valve body so as to be movable between a position in contact with the valve seat and a position away from the valve seat. -1 A valve body that directly or indirectly abuts the movable core and a spring that presses the valve body toward the movable core are provided, and the valve body is provided with a movement axis of the movable core. Install a first push nail device having a pin that is slidably supported along the solenoid device and protrudes from the valve body. An electromagnetic light device characterized in that a second push button device having a pin that can contact the movable iron core is provided, and a pin of the first push button device has a seat for the spring.