KR101091630B1 - Solenoid valve - Google Patents

Abstract

The present invention is to improve the maintainability and assemblage, by applying a valve cover unit having an opening is formed, the assembly and disassembly structure is applied to fix the magnetic coil assembly integrally forming the connector housing to the valve body, Easily dissipate heat generated from the magnetic coil assembly to improve heat dissipation,

By including an exhaust unit mounted on the valve cover, it prevents water or foreign matter from entering the air hole from the outside to improve airtightness and durability, and to reduce the noise generated during the discharge of compressed air,

By installing a strainer with a net through the screwing method on the supply port and the discharge port of the valve body, it can be applied to the discharge port regardless of the flow direction of the compressed air, thereby preventing foreign substances from entering the compressed air into the valve body. To make

A supply port through which compressed air is supplied, and a valve body having a discharge port formed at one side thereof; A plunger mounted to the inside of the valve body by interposing an elastic member between the base plate disposed on the valve body and the valve body; A magnetic coil assembly mounted on an upper portion of the valve body and integrally formed with a connector housing receiving current; A valve cover unit mounted to a valve body at an upper portion of the base plate while covering the outer side of the magnetic coil assembly; And an exhaust unit mounted at an upper center of the valve cover unit and configured to discharge compressed air used in the valve body and the magnetic coil assembly to the atmosphere.

Solenoid Valve, Valve Cover Unit, Exhaust Unit, Compressed Air

Description

Solenoid Valve {SOLENOID VALVE}

The present invention relates to a solenoid valve, and more particularly, is used to supply compressed air, applies a structure that can be assembled and disassembled, and prevents the inflow of moisture or foreign matter from the outside, while maintaining the maintenance, assembly and The present invention relates to a solenoid valve for improving heat dissipation.

In general, a solenoid valve is a valve used to control the flow of a fluid or gas, and generates an electromagnetic force by a change of an electrical switch to convert electrical energy into mechanical energy to block or pass the flow of a fluid or gas, or to change the direction. To make it possible.

That is, when electric power is applied, electromagnetic force is generated by the solenoid coil, and the core installed inside becomes an electromagnet, and the spool is moved by the magnetic force of the core to open or close a passage through which a fluid or gas flows or to change direction.

As shown in FIG. 7, the solenoid valve 1 according to the related art includes a valve body 10 having a supply port 11 and a discharge port 13 to which a pump pressure is supplied, and the valve body 13. Equipped with a valve cover 15 is provided with a magnetic coil assembly (not shown) for generating an electromagnetic force to receive electricity to operate the plunger (not shown) inside the valve body (13).

In this case, the valve cover 15 is assembled to the valve body 10 through a caulking method while completely wrapping the magnetic coil assembly.

The valve cover 15 includes a lead wire 19 connected to the magnetic coil assembly to be connected to a connector housing 17 provided to be electrically connected to the magnetic coil assembly for supplying current to the magnetic coil assembly. It is withdrawn from the valve cover 15 to the outside.

The lead wire 19 is connected to the connector housing 17 and the outside of the solenoid valve 1.

In addition, an exhaust port 21 is formed at an upper portion of the valve cover 15, and the exhaust port 21 directly discharges compressed air to the outside through the operation of the solenoid valve 1 or is connected to a separate connection tube to connect the solenoid valve. (1) The compressed air inside is discharged to the outside.

On the other hand, the valve body 15, as shown in Figure 8, is provided with a mesh 23 for filtering foreign matter present in the compressed air supplied to the supply port 11, this mesh 23 ) Is mounted inside the supply port 11 by an interference fit while passing through a screw portion formed inside the supply port 11.

However, as the conventional solenoid valve 1 is mounted on the valve body 10 by the caulking method while the valve cover 15 completely surrounds the magnetic coil assembly, the magnetic coil assembly is repaired in case of failure. Is made of an impossible structure, when disassembling the solenoid valve (1) has the disadvantage that it is impossible to reassemble and reuse.

Accordingly, it is difficult to reduce the weight of the parts, and due to the valve cover 15 completely enclosing the magnetic coil assembly, there is a problem that heat dissipation is deteriorated due to failure to dissipate heat generated in the magnetic coil assembly to the outside.

In addition, the conventional solenoid valve 1 has a separate assembly process for connecting the connector housing 17 to which the current is supplied with the lead wire 19 is added, and the lead wire 19 drawn out of the valve cover 15 is added. Moisture can penetrate the magnetic coil assembly through) and requires a waterproofing treatment. The lead wire 19 is connected by vibration generated from the outside.

On the other hand, the mesh 23 is mounted to the supply port 11 by the interference fit only, it can not be applied to the discharge port 13 which changes the flow direction of the compressed air discharge or inflow through the discharge port 13 There is also a disadvantage that can not filter the foreign matter inside the compressed air.

In addition, when the exhaust port 21 formed in the valve cover 15 is exposed to the outside, exhaust noise is increased when the compressed air is discharged, and moisture or foreign matter is introduced from the outside through the exhaust port 21. In addition, the airtightness and durability of the solenoid valve 1 are inferior, and the merchandise is impaired.

Therefore, the present invention has been invented to solve the problems as described above, an object of the present invention is to form an opening for fixing the magnetic coil assembly integrally formed with the connector housing to the valve body, and can be assembled and disassembled By applying the valve cover unit to which the structure is applied, it is to provide a solenoid valve to improve the maintainability and assembly, and to easily dissipate heat generated from the magnetic coil assembly through the opening to improve heat dissipation.

Another object of the present invention comprises an exhaust unit mounted to the exhaust pipe for discharging the compressed air to the outside, thereby preventing moisture or foreign matter from entering the exhaust port from the outside to improve airtightness and durability, and It is to provide a solenoid valve to reduce the noise generated during the discharge.

Another object of the present invention by mounting a strainer is applied to the supply port and the discharge port of the valve body through the screwing method, it is possible to apply to the discharge port irrespective of the flow direction of the compressed air, the compressed air flowing into the valve body It is to provide a solenoid valve to prevent the entry of foreign matter inside.

Solenoid valve according to an embodiment of the present invention for achieving this object, in the solenoid valve for generating the electromagnetic force to control the flow of fluid or gas, a supply port for supplying compressed air to the lower portion is formed, one side A valve body in which a discharge port is formed; A plunger mounted to the inside of the valve body by interposing an elastic member between the base plate disposed on the valve body and the valve body; A magnetic coil assembly mounted on an upper portion of the valve body and integrally formed with a connector housing receiving current; A valve cover unit mounted to a valve body at an upper portion of the base plate while covering the outer side of the magnetic coil assembly; And an exhaust unit mounted at an upper center of the valve cover unit and configured to discharge compressed air used in the valve body and the magnetic coil assembly to the atmosphere.

The valve cover unit has a mounting hole formed in the center of the upper surface, at least one opening is formed around the outer peripheral surface of the side, the cover cap is wrapped around the outside of the magnetic coil assembly; And an air hole formed in the mounting hole of the cover cap, and having an air hole formed therein, an insertion portion inserted into the magnetic coil assembly, and a protrusion portion protruding from the mounting hole to mount the exhaust unit. It is characterized by consisting of pipes.

The cover cap is formed in each of the openings on each side in the shape of a rectangle, each corner portion is wrapped with the magnetic coil assembly, the supporter for fastening with the valve body on the upper portion of the base plate, characterized in that each formed integrally It is done.

Each of the supporters may be bent end portions corresponding to the base plate to form mounting ends, and each mounting end may be provided with a bolt hole and fastened to the valve body through bolts.

O-ring is interposed between the cover cap and the magnetic coil assembly.

The exhaust unit may include a drain sheet inserted into the air hole at the protrusion of the exhaust pipe to open and close the air hole; An inner cover disposed on an upper portion of the protrusion and connected to the drain sheet and fitted to an outer side of the protrusion; And an exhaust path formed therein to move the air discharged to the exhaust pipe, and at least one exhaust hole formed at an outside thereof to be connected to the exhaust path, surrounding the outside of the inner cover, and fixed to the protrusion It is characterized by consisting of a cover.

The inner cover has a locking protrusion formed at an upper portion thereof, a fitting protrusion at which the drain sheet is fitted at a lower portion thereof, and at least one fixed end formed at an outer circumferential surface of the inner cover to be fixed to the outer circumferential surface of the protrusion.

The fixed end is characterized in that three are formed along the outer circumference of the inner cover.

The exhaust hole of the outer cover is formed spaced apart at four places along the circumference of the outer circumferential surface with respect to the center of the outer cover, characterized in that it is formed through the upper and lower portions of the outer cover.

O-rings are interposed between the valve body and the base plate and between the base plate and the magnetic coil assembly.

The valve body further includes a strainer mounted to the supply port and the discharge port to filter foreign matter inside the compressed air flowing into the valve body,

The strainer has a strainer body formed in a cylindrical shape; A net fixedly mounted to one side of the strainer body; And tool projections each protruding toward the center of the strainer body from both sides on an inner circumferential surface of the strainer body.

The strainer body is characterized in that the mounting flange having a diameter larger than the diameter of the strainer body is integrally formed along the outer peripheral surface of the other side.

The mounting flange is formed with a screw thread on the outer circumferential surface, characterized in that screwed to each of the supply port and the discharge port of the valve body through the screw thread.

According to the solenoid valve according to the embodiment of the present invention as described above, the valve cover unit having an opening is formed to secure the magnetic coil assembly which integrally forms the connector housing to the valve body, the assembly and disassembly structure is applied By applying, there is an effect of improving the maintainability and assemblability, and easily dissipate heat generated from the magnetic coil assembly through the opening to improve heat dissipation.

In addition, the solenoid valve according to the embodiment of the present invention by applying the magnetic coil assembly formed integrally with the connector housing, by removing the lead wire and the connector housing assembly process separate from the lead wire drawn from the conventional magnetic coil assembly, wiring connection and moisture penetration phenomenon Can be prevented, there is an effect to reduce the manufacturing cost and improve the waterproofness.

In addition, the solenoid valve according to an embodiment of the present invention comprises an exhaust unit mounted on the exhaust pipe for discharging the compressed air to the outside, thereby preventing moisture or foreign matter from entering the air hole from the outside to improve airtightness and durability It also improves and reduces the noise generated when the compressed air is discharged.

In addition, the solenoid valve according to an embodiment of the present invention by mounting the strainer is applied to the supply port and the discharge port of the valve body by screwing method, it is possible to apply to the discharge port that changes the flow direction of the compressed air to the valve body It also has the effect of preventing foreign matter from entering the compressed air.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not restrictive of the invention, It should be understood that various equivalents and modifications may be present.

1 and 2 are a perspective view and an exploded perspective view of a solenoid valve according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along line AA of Figure 1, Figure 4 is applied to a solenoid valve according to an embodiment of the present invention 5 is an exploded perspective view of a valve body applied to a solenoid valve according to an embodiment of the present invention, and FIG. 6 is a perspective view of a strainer applied to a solenoid valve according to an embodiment of the present invention.

Referring to the drawings, the solenoid valve 100 according to an exemplary embodiment of the present invention is an opening 145 to fix the magnetic coil assembly 131 to the valve body 110 integrally forming the connector housing 131. Is formed, and by applying the valve cover unit 140 to which the structure capable of assembling and disassembling improves maintainability and assemblability, and easily dissipates heat generated from the magnetic coil assembly 130 through the opening 145. To improve heat dissipation.

In addition, the solenoid valve 100 according to the exemplary embodiment of the present invention includes an exhaust unit 150 mounted to the exhaust pipe 143 for discharging the compressed air to the outside, thereby preventing moisture or foreign matter from the outside. By preventing the inflow into the exhaust pipe 143 to improve the airtightness and durability, to reduce the noise generated during the discharge of the compressed air, to the supply port 111 and the discharge port 113 of the valve body 110 By mounting the strainer 160 to which the mesh 163 is applied through the screwing method, foreign matters inside the compressed air introduced into the valve body 110 can be applied to the discharge port 113 regardless of the flow direction of the compressed air. To prevent this from entering.

To this end, the solenoid valve 100 according to the embodiment of the present invention, as shown in Figure 1 and 2, the valve body 110, plunger 120, magnetic coil assembly 130, the valve cover unit ( 140, and the exhaust unit 150, which will be described in more detail for each component as follows.

First, the valve body 110 is formed with a supply port 111 through which compressed air is supplied, and a discharge port 113 is formed at one side.

The base plate 121 is disposed above the valve body 110, and the plunger 120 is mounted into the valve body 110 through the elastic member 123 between the valve bodies 110.

The elastic member 123 is preferably made of a coil spring.

The plunger 120 opens and closes the supply port 111 and the discharge port 113 according to the operation of the solenoid valve 1.

Here, the O-ring (OR) is interposed between the valve body 110 and the base plate 121, the O-ring (OR) to seal between the valve body 110 and the base plate 121 to maintain the airtight To be equipped.

In the present embodiment, the magnetic coil assembly 130 is disposed on the valve body 110, the connector housing 131 is supplied to the upper one side is integrally formed.

The magnetic coil assembly 130 is supplied with electricity through the connector housing 131 to generate an electromagnetic force therein, which is applied to a general solenoid valve and a detailed description thereof will be omitted.

That is, in the present embodiment, the magnetic coil assembly 130 in which the connector housing 131 is integrally formed may remove a conventional lead wire, thereby preventing moisture from penetrating into the magnetic coil assembly 130 to be waterproof. In this way, the lead wire is prevented from being externally vibrated, thereby smoothly supplying electricity through the connector housing 131.

Here, an O-ring (OR) is interposed between the magnetic coil assembly 130 and the upper surface of the base plate 121, the O-ring (OR) is sealed between the base plate 121 and the magnetic coil assembly 130 by airtight It is preferable to be mounted to maintain the.

The magnetic coil assembly 130 is mounted to the valve body 110 from the top of the base plate 121 through the valve cover unit 140 surrounding the outside.

In this embodiment, the valve cover unit 140 is composed of a cover cap 141 and the exhaust pipe 143.

First, the cover cap 141 has a mounting hole 142 is formed in the center of the upper surface, at least one or more openings 145 is formed around the outer peripheral surface of the side, and wrapped around the outside of the magnetic coil assembly 130 Lose.

In addition, the exhaust pipe 143 is fixedly mounted in the mounting hole 142 of the cover cap 141, and an air hole 144 is formed therein, and an insertion part inserted into the magnetic coil assembly 130. 145 and a protrusion 146 protruding from the mounting hole 142 to which the exhaust unit 150 is mounted.

Here, the cover cap 141 is formed in each of the openings 145 on each side in a quadrangular shape, each of the corners in the state wrapped around the magnetic coil assembly 130, in the upper portion of the base plate 121 Supporters 147 for fastening with the valve body 110 are formed integrally with each other.

The supporters 147 are bent end portions corresponding to the base plate 121, and mounting ends 148 are formed, respectively, and bolt holes 149 are formed in each mounting end 148 to form a bolt 200. It is fastened to the valve body 110 through.

That is, the cover cap 141 is mounted on the exhaust pipe 143, and then wrapped around the magnetic coil assembly 130 through the supporters 147, the valve body in the upper portion of the base plate 121 By being fixedly mounted to the 110 through the bolt 200, the magnetic coil assembly 130 is fixed on the base plate 121 at the top of the valve body 110.

Meanwhile, an O-ring (OR) is interposed between the cover cap 141 and the magnetic coil assembly 130, and the o-ring (OR) seals between the cover cap 141 and the magnetic coil assembly 130 to be hermetically sealed. Is equipped to maintain.

In the present embodiment, the exhaust unit 150 is mounted in the upper center of the valve cover unit 140, and discharges the compressed air used in the valve body 110 and the magnetic coil assembly 130 to the atmosphere. do.

As shown in FIG. 2 and FIG. 3, the exhaust unit 150 includes a drain sheet 151, an inner cover 153, and an outer cover 155.

First, the drain sheet 151 is inserted into the air hole 144 in the protrusion 145 of the exhaust pipe 143 to open and close the air hole 144.

The drain seat 151 opens and closes the air hole 144 according to whether the compressed air is discharged from the solenoid valve 100, and closes the air hole 144 when the compressed air is not discharged. It prevents the inflow of water or foreign substances from the outside.

The inner cover 153 is connected to the drain sheet 151 on an upper portion of the protrusion 145 and fitted to an outer side of the protrusion 145.

Here, the inner cover 153 has a locking protrusion 152 is formed in the upper portion, a fitting protrusion 154 is formed in the lower portion, the drain sheet 151 is fitted, the outer circumferential surface on the outer peripheral surface of the protrusion 145 At least one fixed end 156 is formed to be fitted and fixed.

In the present embodiment, three fixed ends 156 are preferably formed along the outer circumference of the inner cover 153.

The outer cover 155 has an exhaust path 157 formed therein so that the air discharged to the exhaust pipe 143 is moved, and at least one exhaust hole 158 is formed outside the exhaust path 157. ).

The outer cover 155 surrounds the outside of the inner cover 153 and is fixedly mounted to the protrusion 146.

Here, the exhaust hole 158 of the outer cover 155 is formed spaced apart at four places along the outer circumference of the outer surface relative to the center of the outer cover 155, the upper and lower portions of the outer cover 155 It is formed through.

That is, when the compressed air is not discharged through the exhaust pipe 143, the exhaust unit 150 configured as described above, as shown in (S1) of FIG. 4, the air hole 144 of the exhaust pipe 143. ) To prevent moisture and foreign matter from flowing in through the exhaust hole 158 and the exhaust passage 157 of the outer cover 155 from the outside.

On the other hand, when the compressed air is discharged through the exhaust pipe 143, as shown in (S2) of Figure 4, the drain sheet 151 is bent toward the inner cover 153 side to open the air hole 144 Open.

Then, the compressed air exits through the opened air hole 144 and is discharged to the outside through each of the exhaust holes 158 along the exhaust path 157 of the outer cover 155.

On the other hand, the valve body 110, as shown in Figure 5, mounted on the supply port 111 and the discharge port 113 to filter the internal foreign matter of the compressed air flowing into the interior of the valve body 110. It further comprises a strainer 160 to be.

As shown in FIG. 6, the strainer 160 includes a strainer body 161, a mesh 163, and a tool protrusion 165, which will be described below in more detail.

First, the strainer body 161 is formed in a cylindrical shape.

One side of the strainer body 161 is fixed to the mesh 163 is mounted.

Here, the mesh 163 is preferably made of metal lath.

Here, the strainer body 161 is integrally formed with a mounting flange 167 having a diameter larger than the diameter of the strainer body 161 along the circumference of the other outer peripheral surface on the opposite side on which the net 163 is mounted.

The tool protrusion 165 protrudes toward the center of the strainer body 161 at both sides on an inner circumferential surface of the strainer body 161.

Here, the mounting flange 167 is formed with a thread (N) on the outer circumferential surface, and is screwed to the supply port 111 and the discharge port 113 of the valve body 110 through the thread (N), respectively. .

On the other hand, the supply port 111 and the discharge port 113 is threaded through a tapping operation on the inner peripheral surface in order to connect the nipple or hose connector, not shown.

That is, when the strainer 160 is mounted on the supply port 111 and the discharge port 113, the screw N is rotated by rotating the strainer body 161 while the tool spans the tool protrusion 165. Screwed through) is fastened and fixed to the supply port 110 and the discharge port 113.

Accordingly, the strainer 160 to which the mesh 163 is applied can be fixedly mounted by screwing the discharge port 113, which has not been applicable to the mesh, which is conventionally mounted in the flow direction of the compressed air. The foreign substance inside the compressed air may be prevented from flowing into the body 110.

Therefore, when applying the solenoid valve 100 according to the embodiment of the present invention configured as described above, in order to fix the magnetic coil assembly 130, which integrally forms the connector housing 131 to the valve body 110 The opening 145 is formed, and by applying the valve cover unit 140 to which the structure capable of assembling and disassembling is applied, it improves the maintainability and assemblability, and is generated from the magnetic coil assembly 130 through the opening 145. It is easy to dissipate heat to improve heat dissipation.

Solenoid valve 100 according to an embodiment of the present invention by applying the magnetic coil assembly 130 is formed integrally with the connector housing 131, eliminating the connector housing assembly process separate from the lead wire drawn out from the conventional magnetic coil assembly. This can prevent the wiring connection and moisture penetration, reducing the manufacturing cost and improving waterproof.

In addition, the solenoid valve 100 according to the embodiment of the present invention comprises an exhaust unit 150 mounted to the exhaust pipe 143 for discharging the compressed air to the outside, so that moisture or foreign matter from the outside is air holes By preventing the flow into the (144) to improve the airtightness and durability of the solenoid valve, it is possible to reduce the noise generated during the discharge of the compressed air.

In addition, the solenoid valve 100 according to an embodiment of the present invention by mounting the strainer 160 to which the mesh 163 is applied to the supply port 111 and the discharge port 113 of the valve body 110 by screwing. In addition, it is possible to apply to the discharge port 113 in which the flow direction of the compressed air is changed to prevent the foreign substances in the compressed air into the valve body 110 to be introduced.

As mentioned above, although this invention was demonstrated by the limited embodiment and drawing, this invention is not limited by this and is given by the person of ordinary skill in the art to the following, Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a perspective view of a solenoid valve according to an embodiment of the present invention.

2 is an exploded perspective view of a solenoid valve according to an embodiment of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is an operational state diagram of an exhaust unit applied to a solenoid valve according to an embodiment of the present invention.

5 is a partially cutaway perspective view of a valve body applied to a solenoid valve according to an embodiment of the present invention.

6 is a perspective view of a strainer applied to a solenoid valve according to an embodiment of the present invention.

7 is a perspective view of a solenoid valve according to the prior art.

8 is a partially cutaway perspective view of a valve body applied to a solenoid valve according to the prior art.

Claims (13)

In a solenoid valve for generating an electromagnetic force to control the flow of fluid or gas, A supply port through which compressed air is supplied, and a valve body having a discharge port formed at one side thereof; A plunger mounted to the inside of the valve body by interposing an elastic member between the base plate disposed on the valve body and the valve body; A magnetic coil assembly mounted on an upper portion of the valve body and integrally formed with a connector housing receiving current; A valve cover unit configured to cover the outside of the magnetic coil assembly and an exhaust pipe fixedly mounted to the cover cap to be mounted as a valve body on an upper portion of the base plate while covering the outside of the magnetic coil assembly. ; And A solenoid valve mounted to an upper center of the valve cover unit, the exhaust unit configured to discharge compressed air used in the valve body and the magnetic coil assembly to the atmosphere. The method of claim 1, The cover cap has a mounting hole formed in the center of the upper surface, at least one opening is formed around the outer peripheral surface of the side, The exhaust pipe is fixedly mounted to the mounting hole of the cover cap, an air hole is formed therein, and includes an insertion portion inserted into the magnetic coil assembly and a protrusion protruding from the mounting hole. Solenoid valve. 3. The method of claim 2, The cover cap is formed in each of the openings on each side in the shape of a rectangle, each corner portion is wrapped with the magnetic coil assembly, the supporter for fastening with the valve body on the upper portion of the base plate, characterized in that each formed integrally Solenoid valve. The method of claim 3, The supporter is a solenoid valve, characterized in that the end portion corresponding to the base plate is bent to form a mounting end, each mounting end is formed with a bolt hole is fastened to the valve body through the bolt. 3. The method of claim 2, The solenoid valve, characterized in that the O-ring is interposed between the cover cap and the magnetic coil assembly. 3. The method of claim 2, The exhaust unit is A drain sheet inserted into the air hole from the protrusion of the exhaust pipe to open and close the air hole; An inner cover disposed on an upper portion of the protrusion and connected to the drain sheet and fitted to an outer side of the protrusion; And An exhaust path is formed therein so that the air discharged to the exhaust pipe is moved, and at least one exhaust hole is formed at the outside to be connected to the exhaust path, and an outer cover which is fixed to the protrusion and surrounds the outside of the inner cover. Solenoid valve, characterized in that consisting of. The method of claim 6, The inner cover is a solenoid valve, characterized in that the engaging projection is formed on the upper portion, the fitting projection for fitting the drain sheet is formed in the lower portion, the outer circumferential surface is formed at least one fixed end is fixed to the outer circumferential surface of the protrusion. The method of claim 7, wherein Solenoid valve is characterized in that the three fixed end is formed along the outer circumference of the inner cover. The method of claim 6, The exhaust hole of the outer cover is formed at four locations spaced apart along the outer circumferential side of the outer cover with respect to the center of the outer cover, characterized in that it is formed through the upper and lower portions of the outer cover. The method of claim 1, O-ring is interposed between the valve body and the base plate, and between the base plate and the magnetic coil assembly, respectively. The method of claim 1, The valve body further includes a strainer mounted to the supply port and the discharge port to filter foreign matter inside the compressed air flowing into the valve body, The strainer is A strainer body formed in a cylindrical shape; A net fixedly mounted to one side of the strainer body; And A solenoid valve, characterized in that consisting of tool projections each protruding toward the center of the strainer body on both sides on the inner peripheral surface of the strainer body. The method of claim 11, The strainer body is a solenoid valve, characterized in that the mounting flange having a diameter larger than the diameter of the strainer body integrally formed along the outer peripheral surface of the other side. The method of claim 11, The mounting flange has a thread is formed on the outer circumferential surface, the solenoid valve, characterized in that screwed to each of the supply port and the discharge port of the valve body through the thread.

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