JPH09280406A - Double solenoid type solenoid valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a solenoid valve in which one solenoid of a double solenoid can be easily changed. SOLUTION: A solenoid valve is provided with a solenoid box 63 in which first and second solenoids 66, 66' are arranged parallel to each other, a pilot valve main body 62 connected to the lower part of it, and a valve main body 61 connected to the lower part of it, and in which a pressurizing fluid port P, fluid discharging ports R1 , R2 , and two output side ports A, B are provided on the outer surface and a valve main shaft 4 to be vertically moved by opening and closing of first and second pilot valves is provided. An axial bolt 65 for connecting the solenoid box 63 to the pilot valve main body 62 through between first and second solenoids 66, 66' is provided, a backup solenoid capable of being easily changed in using is provided as a self-reset solenoid valve, a three- way selector valve 67 capable of changing fluid passages is provided, and changing between a self-reset solenoid valve and a self-hold solenoid valve is facilitated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double solenoid type solenoid valve applied to an actuator or the like used in automatic machine equipment.

[0002]

2. Description of the Related Art Electromagnetic switching valves that control the operation of actuators include single solenoid electromagnetic valves that operate a switching valve with one solenoid, and double solenoid electromagnetic valves that operate a switching valve with two sets of solenoids.

The single solenoid solenoid valve is a self-reset type solenoid valve in which the switching valve shaft returns to its original position when the energization of the solenoid is stopped. A conventional air-operated single solenoid solenoid valve is shown in FIG. Will be explained.

In FIGS. 2 (a) and 2 (b), reference numeral 35 is a valve main body in which a valve main shaft 44 is fitted. A pilot valve main body 36 and a molded solenoid 37 are fitted with a plunger 38, and are driven linearly so as to be drawn into the solenoid 37 by magnetic force when energized.

A plunger spring 39 is urged to push the plunger 38 out of the solenoid 37 when the magnetic force of the solenoid 37 disappears due to the stop of energization. A plunger pin 41 is attached to an end portion of the plunger 38 and causes the flapper 43 to interlock with the operation of the plunger 38.

Reference numeral 42 is a large-diameter piston, and when the solenoid 37 is excited, air pressure is applied to its back. 45 is a valve main shaft 44
Is a lip seal that is attached to the valve body 35 and seals between the valve ports of the valve body 35. 46 is a small diameter piston, and the pressure of pressurized air is constantly applied to this small diameter piston 46. 47 is an end cover.

When the solenoid 37 is excited, the plunger 3
8 and the flapper 43 open the pressurized air circuit to apply pressurized air to the large-diameter piston 42, the pressing force of the large-diameter piston 42 prevails due to the difference in pressure receiving area from the small-diameter piston 46, and the valve main shaft 44 Moves, and the pressurized air supplied from the port P is sent from the port A to an air actuator (not shown) as shown in FIG. 2B. The exhaust air of the air actuator passes through the space partitioned by the valve main shaft 44 from the port B and is discharged to the outside air from the port R ₂ .

When the current of the solenoid 37 is cut off, the pressurized air circuit is closed by the plunger 38 and the flapper 43, and the back pressure of the large-diameter piston 42 becomes the same as the outside air, the small-diameter piston 46 pushes the valve. The main shaft 44 is shown in FIG.
The pressure is supplied from the port P to the air actuator (not shown).

Exhaust gas from the air actuator passes through a space switched by the valve main shaft 44 from the port A and is discharged to the outside air from the port R ₁ . That is, this single solenoid solenoid valve is a self-reset type.

The double solenoid solenoid valve is a self-holding solenoid valve that holds the position of the switching valve shaft when the solenoid was energized immediately before, even if the energization of the solenoid was stopped.
An outline of a conventional air-operated double solenoid solenoid valve will be described below with reference to FIG.

The structure of the double solenoid solenoid valve shown in FIG. 3 is almost the same as the above-mentioned single solenoid solenoid valve on the left side (S ₁ side, solenoid 37 side), and therefore its explanation is omitted and different parts are shown. Only will be described.

In FIG. 3, reference numeral 49 is a valve body, which is the valve main shaft 4
4 is fitted inside. 55 is the pilot valve body, 56 is
In the solenoid housing, mold in the solenoid housing 56
Solenoid 37 is on the left side (S₁Side) and mold
Solenoid 37 'is on the right side (S _TwoSide) is installed.

38 'is a plunger on the S ₂ side. The plunger spring 39 stops the solenoid 3 when the energization is stopped.
When the magnetic force of 7'disappears, the plunger 38 'is urged to be pushed out of the solenoid 37'. A plunger pin 41 'is attached to the end of the plunger 38' to interlock the flapper 43 'with the movement of the plunger 38'.

Mold solenoid 3 on the S ₁ and S ₂ sides
When 7, 37 'are excited at the same time, the pressurized air circuit is opened in the pilot valve, and the pressurized air pressure is applied to both the large diameter piston 42 and the small diameter piston 46 in the same manner as the single solenoid type, and the pressure receiving area is reduced. Due to the difference, the pushing force of the large-diameter piston 42 prevails and the valve main shaft 44 moves downward to switch the main valve.

The coil current of the mold solenoid 37 on the S ₁ side is cut off and the solenoid 37 is not excited,
When the pilot valve closes the pressure side and the back pressure of the large-diameter piston 42 is the atmospheric pressure, the S ₂ side mold solenoid 3
When 7'is energized, the plunger 38 'is pulled into the solenoid 37', the pilot valve opens the pressurized air circuit, and the pressurized air passes through the air passage in the valve body 49 to allow the small-diameter piston 46 to move. It is guided to the back and pushes the valve main shaft 44 upward.

After this, the S ₂ side mold solenoid 37 '
Even if the coil current is cut off, the flapper 43 'opens, and the back pressure of the small-diameter piston 46 becomes the outside air pressure, the valve main shaft 44 has a frictional force acting between the lip seal 45 and the through hole of the valve body 49. The valve main shaft 44 is held in a state of being pushed up without moving.

That is, by delaying the cutoff timing of the coil current of the S ₂ side mold solenoid 37 'slightly from the cutoff timing of the coil current of the S ₁ side mold solenoid 37, this double solenoid solenoid valve has a self-holding function. Will have.

In an automatic machine equipment or the like which uses a plurality of actuators, the specifications of the equipment must be changed to change the actuators or control methods. Therefore, the solenoid valve is changed from the self-reset type to the self-hold type, or On the contrary, there are times when it is necessary to change. In this case, the solenoid valve must be removed from the working fluid piping or manifold block and replaced with another type of solenoid valve, but this work requires a lot of labor and time, and the factory production line must be stopped for a long time. This is a situation that must be met.

In such a case, there is a solenoid valve which can be easily changed to either a self-reset type solenoid valve or a self-holding type solenoid valve without replacing the solenoid valve itself.
Although it is introduced in No. 30, this solenoid valve will be outlined with reference to FIG.

In FIG. 4, a small diameter piston 22 is provided at one end of a valve shaft 17 having a plurality of valve bodies 18 inserted into the main body 11.
However, a large-diameter piston (not shown) is provided at the other end on the side of the pilot valve body 12, and the pilot pressure acts on each of them to move the valve shaft 17 in a switching manner.

A first operation passage for communicating the fluid in the air supply port P with a large diameter pressure chamber (not shown) is opened and closed by a first solenoid (not shown), and a second operation passage 34 for communicating with the small diameter pressure chamber 24 is not shown. It is designed to be opened and closed by the second solenoid. Further, a bypass passage 50 that connects the air supply port P and the small diameter pressure chamber 24 is formed.

On the small-diameter piston 22 side of the housing 13, there is provided a switching member 51 capable of switching between a self-returning position and a self-holding position. The switching member 51 includes
Bypass passage 50 and small diameter pressure chamber 2 in the self-return position
The bypass communication hole 51b for communicating with the No. 4 and the second operation passage communication hole 51a for communicating the second operation passage 34 and the small diameter pressure chamber 24 in the case of the self-holding position are opened.

According to the solenoid valve having such a structure,
If the switching member 51 is set to the self-returning position and only the first solenoid is operated, a single solenoid type solenoid valve is set, and if both switching solenoids are operated to the self-holding position, a double solenoid type solenoid valve is set. Is set to.

Therefore, the specifications of the solenoid valve can be changed in a short time without replacing the solenoid valve itself. The position of the switching member 51 is changed by attaching / detaching mounting bolts and changing the mounting angle of the switching member 51 with respect to the housing 13.

[0025]

SUMMARY OF THE INVENTION In an automatic machine equipment or the like which uses a plurality of actuators, the specification of the equipment is changed and the actuator and the control method must be changed. From self-holding to
Or vice versa, sometimes it is necessary to change. In such a case, it is useful to have a solenoid valve that can be easily changed to either a self-reset type or a self-holding type with the same solenoid valve without replacing the solenoid valve itself.

Also in the conventional solenoid valve, the self-return type solenoid valve (single solenoid solenoid valve) is changed to the self-holding type solenoid valve (double solenoid solenoid valve) with the solenoid valve attached to the equipment as described above. There were things that could be done, but to change it, it was necessary to attach and detach multiple bolts, which required a considerable amount of work.

Further, although two solenoid parts are provided, when used as a self-reset type solenoid valve, one solenoid is useless and long, and it can be effectively used for backup and the like. Was desired. The present invention seeks to solve the above problems.

[0028]

[Means for Solving the Problems]

(1) The invention according to claim 1 is a solenoid casing in which first and second solenoids each having a plunger are arranged in parallel inside, and are coupled to a lower portion of the solenoid casing and driven by the respective plungers. The first and second pilot valves have a built-in pilot valve main body, and a pressurized fluid port, a fluid discharge port and two output side ports are provided on the outer surface of the pilot valve main body, which are connected to the lower portion of the pilot valve main body. A large-diameter piston driven by the pressurized fluid supplied from the first pilot valve is provided in the upper portion, and a small-diameter piston driven by the pressurized fluid supplied from the second pilot valve is provided in the lower portion. In a double solenoid type solenoid valve having a valve body with a valve main shaft that moves up and down in a vertical direction, a solenoid valve is provided between the first and second solenoids of the solenoid housing. A through hole provided parallel to the axial direction of the solenoid valve, and an axial bolt that tightens and fixes the solenoid casing so as to be integrated with the pilot valve main body through the through hole, and loosen the coaxial bolt to secure the solenoid casing. It is characterized in that the first and second solenoids can be exchanged by turning.

In the present invention, since the solenoid housing is fastened and fixed so as to be integrated with the pilot valve body by the axial bolt penetrating the through hole provided in the middle of the first and second solenoids, The solenoid can be replaced by loosening the shaft bolt and rotating the solenoid casing with the shaft bolt as the rotation center axis.

Therefore, when the double solenoid type solenoid valve is used as a self-reset type solenoid valve which can be realized by a single solenoid, it means that a backup solenoid which can be easily replaced is provided, and the reliability can be improved. Becomes

(2) In a second aspect of the invention, a solenoid casing in which first and second solenoids each having a plunger are arranged parallel to each other, and the solenoid casing is connected to the lower portion of the solenoid casing, is connected to the solenoid casing. A pilot valve body having first and second pilot valves driven by a plunger, and a pilot fluid body connected to a lower portion of the pilot valve body, and a pressurizing fluid port, a fluid discharge port, and two output sides on its outer surface. A large diameter piston provided with a port and driven by a pressurized fluid supplied from the first pilot valve is provided at an upper portion, and a small diameter piston driven by a pressurized fluid supplied from the second pilot valve is provided at a lower portion A double solenoid type solenoid valve provided with a valve main body having a built-in valve main shaft that moves up and down is provided in the valve main body, a pressurized fluid port, a first fluid Of the pressurizing working fluid passage to which the pilot valve is connected, the fluid passage to which the outlet of the second pilot valve is connected, and the fluid passage connected to the back of the small diameter piston. By switching the three-way switching valve, the pressurized working fluid passage is closed, and the fluid passage from the second pilot valve is connected to the fluid passage to the small-diameter piston to form a self-holding solenoid valve.
The self-return type solenoid valve can be formed by closing the fluid passage from the pilot valve and connecting the pressurized working fluid passage to the fluid passage to the small diameter piston.

In the present invention, the pressurizing working fluid passage provided in the valve body and connected to the pressurizing port is provided at the intersection of the fluid passage from the outlet of the second pilot valve and the fluid passage to the back of the small diameter piston. The self-holding solenoid valve is formed in such a state that the pressurized fluid passage is closed and the fluid passage to the second pilot communicates with the fluid passage to the small diameter piston by switching the three-way switching valve. And again
Since the fluid passage from the second pilot valve is closed and the pressurized working fluid passage and the fluid passage to the small diameter piston communicate with each other to form the self-return type solenoid valve, the self-return type and the self-hold type Realize a solenoid valve that can be easily changed.

(3) The invention according to claim 3 is characterized in that the double solenoid type solenoid valve according to the invention (1) is provided with the three-way switching valve according to the invention (2). .

Since the present invention is provided with the shaft bolt and the three-way switching valve, when it is used as a self-returning solenoid valve, it is equipped with a backup solenoid to improve reliability and to improve self-reliability. To realize a solenoid valve that can be easily changed between the return type and self-holding type.

[0035]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A double solenoid type solenoid valve according to an embodiment of the present invention will be described with reference to FIG.

In FIG. 1, reference numeral 61 is a valve body, which is the valve main shaft 4
4 is fitted inside. 62 is a pilot valve main body provided on the upper part of the valve main body 61, 63 is a solenoid casing provided on the upper part of the pilot valve main body 62, and the solenoid 66 is installed on the left side (S ₁ side) in the solenoid casing 63. , the solenoid 66 'is disposed to the right (S ₂ side).

Reference numeral 65 is an axial bolt for attaching the solenoid casing 63 to the pilot valve main body 62, and the two solenoids 66, 66 'are arranged symmetrically with respect to the axis of the axial bolt 65. Reference numeral 64 denotes a lid provided on the upper portion of the solenoid casing 63, which is mounted on the solenoid casing 63 with bolts or the like after accommodating the solenoids 66 and 66 '.

Plungers 38 and 38 'are fitted in the solenoids 66 and 66', respectively, and packings 38a and 38'a are attached to the tips of the plungers 38 and 38 ', respectively. The solenoids 66, 66 'drive the plungers 38, 38' in a linear direction so as to be drawn into the solenoids 66, 66 'when an electric current is passed through the respective coils and a magnetic force is excited.

Numeral 39 is a plunger spring provided under each of the plungers 38, 38 '. When the energization of each coil is stopped and the magnetic force of the solenoids 66, 66' disappears, the plungers 38, 38 'are solenoid-operated. It is urged to push out from inside 66, 66 '. Four
1, 41 'are plunger pins, and the plungers 38, 3
Attached to the end of 8 ', the flappers 43, 43' are interlocked with the movement of the plungers 38, 38 '.

An air valve which is opened and closed by the packings 38a and 38'a of the plungers 38 and 38 'is formed in the pilot valve body 62, and at the same time, the flapper 4 is opened.
Air valves that are opened and closed by 3, 43 'are formed. Each of these air valves has a plunger pin 41, 41'.
The lower side is always closed when the upper side is opened, and the lower side is always opened when the upper side is closed.

Flapper 43 of pilot valve body 62
Below the air valve that is opened and closed by the air cylinder 6
2c is provided in which a large-diameter piston 42 is inserted so as to be slidable in the axial direction.

On the side surface of the valve body 61, a port P for pressurized air, a port A to which an air pipe to an air actuator (not shown) is connected, a port B, or a port for discharging return air from the port A or B. R ₁ and R ₂ are provided, and these ports are switched by the valve main shaft 44.

The valve main shaft 44 is provided with a lip seal 4 at an important point.
5 is fitted to seal between the valve port passages of the working air of the valve body 61, and a large diameter piston 42 is provided at the upper end of the valve main shaft 44 and a small diameter piston 46 is provided at the lower end thereof. The small-diameter piston 46 is inserted into an air cylinder 61d provided in the lower portion of the valve body 61, has a sealed periphery, and is slidable in the axial direction in an airtight state.

Reference numerals 61a and 61b are pressurized air passages communicating with the pilot valve, and 61c is an air cylinder 61d.
Is a pressurized air passage communicating with. Further, 62b is an exhaust passage for discharging the air from the pilot valve to the outside. Reference numeral 67 is a manual three-way switching valve provided in a portion where one ends of the pressurized air passages 61a, 61b, 61c are gathered.

Next, the operation of the air actuated double solenoid type solenoid valve according to this embodiment will be described. In the solenoid valve according to this embodiment, the three-way switching valve 67 can be switched between the self-holding position and the self-returning position. First, the case where the three-way switching valve 67 is set to the self-holding position will be described. .

In this case, the three-way switching valve 67 is shown in FIG.
In this state, the pressurized air passage 61a is closed, and the pressurized air passage 61b from the pilot valve on the S ₂ side and the pressurized air passage 61 to the air cylinder 61d of the small diameter piston 46.
Open c and.

In this state, the solenoid 66 is excited,
When the plunger 38 is pulled into the solenoid 66, the flapper 43 closes the exhaust passage 62b, and the packing 38a opens to open the pressurized air circuit, air pressure is applied to the large-diameter piston 42.

At the same time, the solenoid 66 'is energized, the plunger 38' is drawn into the solenoid 66 ', the flapper 43' closes the exhaust passage 62b, the packing 38'a part opens, and the pressurized air circuit 61b opens. The compressed air passes from the three-way switching valve 67 through the air passage 61c and passes through the small diameter piston 4
It is guided to the cylinder 61d of No. 6 and tries to press the valve main shaft 44 upward.

However, since the large-diameter piston 42 is also supplied with the pressurized air of the same pressure, the pushing force of the large-diameter piston 42 wins due to the difference in the pressure receiving area with the small-diameter piston 46, and the valve main shaft 44 moves downward. The pressurized air supplied from port P is sent from port A to an air actuator (not shown). The exhaust air of the air actuator enters the valve body 61 from the port B, and the valve main shaft 44 and the lip seal 45
The air is discharged from the port R ₂ through the space partitioned by.

In this state, when the current for exciting the solenoid 66 on the S ₁ side is cut off, the solenoid 66 loses its magnetic force, the plunger 38 comes out of the solenoid 66 by the urging force of the plunger spring 39, and the pressurized air is packed. It is cut off by 38a, the flapper 43 is opened, and the cylinder 62c becomes atmospheric pressure.

At this time, the S ₂ side mold solenoid 3
Keeping 7'excited keeps plunger 3
8'is pulled into the solenoid 37 'and flapper 43'
Closes the exhaust passage 62b, and the plunger packing 38'a
Keeps the pressurized air circuit open, and the pressurized air passes through the pressurized air passage 61b in the valve body 61 and the three-way switching valve 6
7 passes through the air passage 61c, is guided to the cylinder 61d of the small diameter piston 46, and pushes the valve main shaft 44 upward.

After that, the current of the S ₂ side solenoid 37 'is cut off, the plunger 38' escapes from the solenoid 66 ', the pressurized air is cut off by the packing 38'a, the flapper 43' opens and the inside of the cylinder 61d is closed. Even at atmospheric pressure, the valve main shaft 44 does not move due to the frictional force acting between the lip seal 45 and the through hole of the valve body 61, and the switching position of the valve main shaft 44 is maintained.

That is, the double solenoid solenoid valve can have a self-holding function by delaying the cutoff of the current of the S ₂ side solenoid 66 ′ a little later than the cutoff of the coil current of the S ₁ side solenoid 66.

Next, the case where the three-way switching valve 67 is set to the self-return position will be described. In this case, the three-way switching valve 6
7 is in the state shown in FIG. 1B, and the pressurized air passage 61b from the pilot valve on the S ₂ side is closed, and the pressurized air passage 61a and the air passage 61c to the cylinder 61d of the small diameter piston 46 are opened.

In this state, the solenoid 66 is excited,
When the plunger 38 is pulled into the solenoid 66, the flapper 43 closes the exhaust passage 62b, and the packing 38a opens to open the pressurized air circuit, air pressure is applied to the large-diameter piston 42. The small-diameter piston 46 has a pressurized air passage 61a.
The pressure of pressurized air is constantly applied through.

Large-diameter piston 42 for the same air pressure
Due to the difference in pressure receiving area between the small-diameter piston 46 and the small-diameter piston 46, the pushing force of the large-diameter piston 42 wins and the valve main shaft 44 moves downward, and the pressurized air supplied from the port P is sent from the port A to an air actuator (not shown). To be The exhaust air of the air actuator enters the valve main body 61 from the port B, passes through the space partitioned by the valve main shaft 44, and is discharged to the outside air from the port R ₂ .

The coil current of the solenoid 37 is cut off,
When the plunger 38 comes out and the packing 38a closes the pressurized air circuit, the flapper 43 communicates with the exhaust air passage 62b and the inside of the cylinder 62c becomes atmospheric pressure, the valve main shaft 44 is moved upward by the pushing force of the small diameter piston 46. , And switches each port, and pressurized air supplied from port P is sent from port B to an air actuator (not shown).

The exhaust air of the air actuator enters the valve main body 61 from the port A, passes through the space switched by the valve main shaft 44, and is discharged to the atmosphere from the port R ₁ . That is, this solenoid valve operates in the same manner as a self-resetting single solenoid solenoid valve. At this time, the S ₂ -side solenoid 66 ′ and the pilot valve do not act and are in an idle state.

In the air-operated double solenoid type solenoid valve according to this embodiment, when used as the self-reset type as described above, the solenoid 66 'on the S ₂ side and the pilot valve are in the idle state, and the solenoid The casing 63 is fastened and fixed so as to be integrated with the pilot valve main body 62 by an axial bolt 65 penetrating a through hole provided in the middle of the two sets of solenoids 66, 66 '.

Therefore, the solenoid 66 and the solenoid 66 'can be exchanged by loosening the shaft bolt 65 and turning the solenoid casing 63 with the shaft bolt 65 as the rotation center axis. Therefore, when the double solenoid type solenoid valve is used as the self-reset type solenoid, the backup solenoid valve can be easily replaced. In addition,
This mechanism is also applicable to the solenoid valve shown in FIG.

[0061]

According to the present invention, a solenoid housing in which first and second solenoids are arranged in parallel with each other, and a pilot valve main body which is connected to a lower portion of the solenoid housing and has first and second pilot valves built therein are provided. , And a valve main shaft which is connected to the lower part thereof and is provided with a pressurized fluid port, a fluid discharge port and two output side ports on the outer surface and which moves up and down by opening and closing the first and second pilot valves. In a double solenoid type solenoid valve provided with a valve body, by using an axial bolt penetrating between the first and second solenoids and connecting the solenoid casing to the pilot valve body, use as a self-reset type solenoid valve At times, a backup solenoid that can be easily replaced is provided to improve reliability, and a three-way switching valve that can switch the fluid passages is provided to allow self-returning and self-holding types. Changes during realizes easy electromagnetic.

[Brief description of drawings]

FIG. 1 is an explanatory view of a double solenoid electromagnetic valve according to an embodiment of the present invention, (a) is an overall explanatory view in a state of a self-holding type solenoid valve, and (b) is a three-direction in a self-resetting type state. It is explanatory drawing only of a switching valve.

FIG. 2 is an explanatory view of a conventional single solenoid solenoid valve,
(A) is an explanatory view when the solenoid coil is not energized, and (b) is an explanatory view when it is energized.

FIG. 3 is an explanatory diagram of an example of a conventional double solenoid solenoid valve.

FIG. 4 is an explanatory view of another example of a conventional double solenoid solenoid valve.

[Explanation of symbols]

 38, 38 'Plunger 42 Large-diameter piston 44 Valve main shaft 46 Small-diameter piston 61 Valve body 61a, 61b, 61c Pressurized air passageway 62 Pilot valve body 63 Solenoid casing 65 Axial bolt 66, 66' Solenoid 67 Three-way switching valve

Claims (3)

[Claims] 1. A solenoid casing in which first and second solenoids each having a plunger are arranged in parallel inside, and first and second solenoids coupled to a lower portion of the solenoid casing and driven by the respective plungers. A pilot valve body having a built-in pilot valve, and a bottom surface of the pilot valve body, which is coupled to a lower portion of the pilot valve body and provided with a pressurized fluid port, a fluid discharge port, and two output ports.
A large-diameter piston driven by the pressurized fluid supplied from the second pilot valve is provided in the upper portion, and a small-diameter piston driven by the pressurized fluid supplied from the second pilot valve is provided in the lower portion to move up and down. In a double solenoid type solenoid valve having a valve main body with a valve main shaft built-in, a through hole provided parallel to the axial direction of the solenoid in the middle of the first and second solenoids of the solenoid casing, and the through hole are provided. It is provided with an axial bolt for tightening and fixing the solenoid casing so as to be penetrated and integrated with the pilot valve main body, and the first and second solenoids can be exchanged by loosening the coaxial bolt and rotating the solenoid casing. Double solenoid type solenoid valve featuring. 2. A solenoid casing in which first and second solenoids each having a plunger are arranged in parallel inside, and first and second solenoids coupled to the lower part of the solenoid casing and driven by the respective plungers. A pilot valve body having a built-in pilot valve, and a bottom surface of the pilot valve body, which is coupled to a lower portion of the pilot valve body and provided with a pressurized fluid port, a fluid discharge port, and two output ports.
A large-diameter piston driven by the pressurized fluid supplied from the second pilot valve is provided in the upper portion, and a small-diameter piston driven by the pressurized fluid supplied from the second pilot valve is provided in the lower portion to move up and down. A double solenoid type solenoid valve provided with a valve body having a valve main shaft built-in, wherein a pressurized working fluid passage is provided in the valve body, the pressurized fluid port is connected to the first and second pilot valves, and Is equipped with a three-way switching valve provided at the intersection of the fluid passage connected to the outlet of the pilot valve and the fluid passage connected to the back of the small-diameter piston, and the pressurized fluid working passage is closed by switching the three-way switching valve. , A self-holding solenoid valve is formed with the fluid passage from the second pilot valve communicating with the fluid passage to the small-diameter piston, and the fluid passage from the second pilot valve is closed to perform pressurization operation. Double solenoid type solenoid valve, characterized in that made it possible to form a self-resetting type solenoid valve body passage in a state where communication with the fluid path to the small-diameter piston. 3. The double solenoid type solenoid valve according to claim 1, further comprising the three-way switching valve according to claim 2.