KR200187886Y1 - Electromagnetic valve - Google Patents

Abstract

The present invention is composed of the main body of the flow path to form a prefabricated structure, the plunger to open and close the flow path malfunctions, when the flow control problem occurs, disassemble the main body to solve the plunger malfunction to smooth the flow control and semi-permanent life The electromagnet valve which can be made, the electromagnet valve is a main body provided with a flow passage through the passage therein and communicate with the passage at a predetermined position on the outer circumference, and a flow passage through the center of the body and one end of the flow path is the main body A sealing member fastened and assembled to one side of the passage of the main body so as to communicate with a flow path, a bushing inserted into and fixed to one side of the passage of the main body facing the sealing member, and the bushing is fixed to be inserted into a bobbin in which the coil is wrapped to supply power. An electromagnet which generates magnetic force when applied, and is fixed to the outer end of the bushing to be magnetized to the electromagnet When the occurrence of the magnetic induction member and the sealing member is movable between the sealing member and the induction member is attached to the induction member when a magnetic force is generated in the induction member to open the flow path of the sealing member and the A plunger which seals the flow path of the sealing member when no magnetic force is generated in the guide member, and an elastic member interposed between the guide member and the plunger to provide a restoring force so that the plunger can close the flow path of the sealing member. It is characterized by including.

Description

Electromagnetic valve

The present invention relates to an electromagnet valve for fluid control that selectively opens and closes a flow path by plunger reciprocating according to the presence or absence of magnetic force caused by power supply / short circuit. When the plunger that opens and closes the flow path malfunctions, the main body can be disassembled to solve the malfunction.

Electromagnet valves control the flow of equipment or devices that automatically control the flow of fluid, that is, the refrigerant of the cooling system or the working fluid of the hydraulic and pneumatic systems. The flow of fluid is controlled by selectively opening or closing the flow path.

As an example, when the electromagnet valve is applied to the refrigerator, when the inside of the refrigerator is below the set temperature, when the power is shorted to the electromagnet under control of the control, the plunger moves to block the refrigerant flow path formed in the main body to stop the refrigerant flow. When the inside of the refrigerator is above the set temperature, the power is applied to the electromagnet, and when the magnetic force is generated, the plunger is reversed by the magnetic force to open the refrigerant passage, thereby circulating the open passage. Allows you to selectively adjust the temperature within the set temperature range.

1 shows a conventional electromagnet valve 1 operated as above. As shown in the drawing, the electromagnet 4 is inserted into and fixed to the outer circumference of the bushing 3 inserted into one side of the main body 2, and the magnetic force is generated by supplying power to the electromagnet 4 inside and outside the bushing 3. When the induction member (5) having a magnetic is fixed, the induction member (5) when the induction member (5) is magnetic between the induction member (5) and the main body (2) flow path (6) Plunger 7 is attached to the opening to open the flow path (6) and is restored to its original position when the induction member (5) is not magnetic due to a power short circuit to block the flow path (6), the induction An elastic member 8 is interposed between the member 5 and the plunger 7 to provide a restoring force so that the plunger 7 can block the flow path 6 when the induction member 5 is not magnetic.

The main body 2 is integrally formed, and a flow path 6 having an inlet and an outlet is formed in the body so that fluid flows, and a passage through which the bushing 3 is inserted and fixed at one side of the flow path 6 ( 9 is provided to communicate with the flow path (6).

When the electromagnet 4 fixed to the bushing 3 is fixed to a hollow cylindrical body-shaped bobbin 11 in the center of the housing 10 like a conventional electromagnet, power is applied to the bobbin 11. The coil 12 generating the magnetic force is wound. The magnetic force generated by the coil 12 causes the induction member 5 to attract the magnetic force to pull the plunger 7 to open the flow path 6.

By the way, the conventional electromagnet valve 1 is configured as described above, the main body 2 is composed of a single body, one end of the bushing (3) to the passage (9) of the main body 2 is brazed fixed, the main body 2 as described above Since the main body 2 and the bushing 3 cannot be disassembled after the bushing 3 is fixed to the shaft), the plunger 7 that opens and closes the flow path 6 malfunctions, causing problems in fluid control. Was not possible.

Therefore, in controlling the flow path 6 of the main body 2, the plunger 7 is not driven correctly according to a command or when the flow path 6 is blocked, the elastic force of the elastic member 8 is weakened, so that the plunger 7 is strongly flown. (6) If the plunger (7) malfunctions due to various minor causes such as leaking of the flow path (6), it is impossible to repair the malfunction, and it is not only cumbersome to replace the new electromagnet valve. There was a problem of high cost.

Moreover, in order to replace the new electromagnet valve as described above, it is often necessary to down the system to which the electromagnet valve is applied for a certain time, so that the system operation becomes unstable.

The present invention has been made to solve the above-mentioned conventional problems, and the technical problem is that the plunger for opening and closing the flow path by forming a main body in which the flow path is formed is malfunctioning, so that the fluid control is disassembled when the problem occurs It is to provide an electromagnet valve that can smoothly control the fluid and semi-permanently use it by repairing the plunger malfunction.

The electromagnet valve has a main body having a passage therein and having a passage in communication with the passage at a predetermined position on an outer circumference thereof, and one side of the passage of the main passage such that the passage passes through the center of the body and one end of the passage communicates with the main passage. A sealing member fastened and assembled to the sealing member, a cylindrical bushing inserted into the passage opening of the main body opposite to the sealing member, and an electromagnet having magnetic force generated in the coil when the bushing is fixed to be inserted to supply power; When the magnetic force is generated in the induction member is fixed to the outer end of the bushing when the magnetic force is generated in the coil and the magnetic induction member is movable between the sealing member and the induction member is applied to the power supply Is attached to the induction member to open the flow path of the sealing member and seal the flow path of the sealing member when power is not applied And an elastic member interposed between the induction member and the plunger to provide a restoring force so that the plunger can seal the flow path of the sealing member when magnetic force is not generated in the coil due to the power supply short circuit. When the malfunction of the plunger for opening and closing the flow path inside the main body is characterized in that to disassemble the sealing member to handle the malfunction.

1 is a front sectional view of a conventional electromagnet valve,

Figure 2a is a front sectional view of an electromagnet valve according to the present invention, a view of a state before the sealing member is assembled,

Figure 2b is a front sectional view of an electromagnet valve according to the present invention, a state in which the sealing member is assembled,

3 is a right side view of the electromagnet valve according to the present invention.

Explanation of symbols on the main parts of the drawings

15 electromagnet valve 16 body

18: bushing 19: guide member

20: plunger 21: elastic member

22: electromagnet 24: sealing member

Hereinafter, on the basis of the accompanying drawings will be described in detail the configuration of each embodiment of the present invention. Figure 2a is a front sectional view of the electromagnet valve according to the present invention, a state before the sealing member is assembled, Figure 2b is a front sectional view of the electromagnet valve according to the present invention, a view of the sealing member assembled state, Figure 3 is a right side view of the electromagnet valve according to the present invention.

Electromagnet valve 15 of the present invention is a bushing 18 is inserted into one side of the passage 17 of the body 16, as shown in the figure is fixed to the brazing, the induction member 19 at the inner end of the bushing (18) Is fixed and the plunger 20 is movably installed between the guide member 19 and the main body 16 passage 17, and an elastic member 21 is disposed between the guide member 19 and the plunger 20. It is interposed. In addition, an electromagnet 22 which generates magnetic force when the power is supplied is inserted into and fixed to an outer circumference of the bushing 18, and a flow path is formed inside the passage 16 of the main body 16 opposite to the bushing 18. The sealing member 24 through which 23 is penetrated is fastened and fastened.

The main body 16 is provided with a passage 17 so that the bushing 18 and the sealing member 24 can be fixed in communication. The bushing 18 is inserted into one end of the passage 17. A brazing is fixed, and a thread 25 is formed at an end portion of the passage 17 facing the bushing 18, and the sealing member 24 is fastened and fixed to the thread 25. The flow path 26 is communicated with the passage 17 so that the fluid can flow at a predetermined position of the outer circumference of the main body 16. And an outer ring receiving groove 28 is formed on the outside of the screw thread 25 so that the airtight O ring 27 is seated, and the sealing member 24 is fastened and fixed to the outer ring of the O ring receiving groove 28. When the flange receiving groove 30 for receiving the flange 29 of the sealing member 24 is formed.

The position of the flow path 26 of the main body 16 is perforated at a proper position of the inner end of the screw thread 25, that is, a position which does not interfere with the end of the sealing member 24 when the sealing member 24 is assembled. will be good.

The bushing 18, which is brazed and fixed to one side of the passage 17 of the main body 16, has a hollow cylindrical shape to provide a space for controlling the flow path by moving the plunger 20 therein. The bushing 18 may be separately configured as shown in the drawing and inserted into the passage 17 of the main body 16 to be brazed. Alternatively, the bushing 18 may be integrally formed with the main body 16 by integrally processing the main body 16. There will be.

When the electric power is applied to the electromagnet 22 and the magnetic force is generated in the electromagnet 22, the induction member 19 attracts the flow path by attracting the plunger 20 which blocks the flow path of the main body 16 by magnetizing at the same time. It will function to open.

The plunger 20 has a property of a magnetic body to be in close contact with the induction member 19 when the induction member 19 is magnetic, and the flow path 23 of the sealing member 24 at one end of the body. In order to cut off, the seal 31 is inserted and fixed to alleviate the shock generated when the close contact with the projection 36 at the end of the flow path 23 and to maintain airtightness, and the elastic member at the end opposite to the seal 31 The storage chamber 20a which accommodates 21 is recessed.

The plunger 20 configured as described above is installed between the induction member 19 and the sealing member 24 so that the induction member 19 comes into close contact with the induction member 19 when the induction member 19 is magnetic. The flow path 23 of the flow path 23 is opened and, on the contrary, when the induction member 19 is not magnetic, it is moved by the elastic force of the elastic member 22 so that the seal 31 at the end thereof has the protrusions of the flow path 23. 36) It is in close contact with the tip to block the flow of fluid.

The elastic member 21 may be used in various forms, but a conventional coil spring is preferably used. The elastic member 21 is interposed between the guide member 19 and the plunger 20 so that the plunger 20 is a flow path 23 of the sealing member 24 when the guide member 19 is not magnetic. ) To provide a force to move the plunger 20 to block.

The electromagnet 22 fitted to the outer circumference of the bushing 18 is fixed to the bobbin 33 inside the housing 32 as usual, and the coil 34 is wound around the bobbin 33 so that power can be applied. When the coil 34 generates a magnetic force to magnetize the induction member 19.

The sealing member 24 which is fastened and fixed to the thread 25 of the main body 16 to seal one side of the passage 17 is configured such that a flow path 23 penetrates inside the body to allow fluid to flow therethrough. At the periphery, a thread 35 is formed to be fastened to the main body 16. The flow path 23 of the sealing member 24 is connected to the plunger 20 in which one end of the protrusion 36 is reciprocated in accordance with the presence or absence of power supply when the sealing member 24 is fastened to the main body 16. It is preferable to be formed to be parallel to the moving direction of the plunger 20 and to be located at the center of the plunger 20 axis to be opened and closed by.

The sealing member 24 has a mounting groove 37 is recessed in a predetermined width and depth so that the airtight O-ring 27 may be fitted inside the rear of the screw thread 35, and at one side of the mounting groove 37. The flange 29 is formed to protrude so as to be in close contact with the side wall of the flange 29 of the main body 16, and both sides of the flange 29 are rotated by using a tool to facilitate screwing. A fastening protrusion 38 having a flat portion 38a formed thereon protrudes a predetermined length.

The following describes the assembly of the subject innovation and its use state configured as described above. 2A is a state before the sealing member 24 is assembled. In this state, the fastening member 38 of the sealing member 24 is rotated in the open passage 17 of the main body 16 to fasten and fix the sealing member 24 to complete the assembly as shown in FIG. ) And the flow path 23 of the sealing member 24 are continuously assembled with the flow path of the predetermined system so as to control the system fluid.

After that, when the control of the system selectively supplies power to the electromagnet 22, the plunger 20 is in close contact with the induction member 19 when the induction member 19 becomes magnetic by the electromagnet 22. The flow path 23 of the sealing member 24 assembled to the main body 16 is opened. On the contrary, when the induction member 19 is not magnetic, the plunger 20 is applied to the elastic force of the elastic member 21. By controlling the fluid flow of the system by blocking the flow path 23 of the sealing member 24 by the movement.

As such, when the plunger 20 controls the fluid of the system, if the plunger 20 is not driven correctly according to the command of the control due to some reason, that is, the plunger (which is frequently blocked when the flow path 23 of the sealing member 24 is blocked) 20 and the restoring elasticity of the elastic member 21 by the reciprocating motion is weakened so that the plunger 20 does not strongly adhere to the inlet of the flow path 23 of the sealing member 24 or the seal fixed to the plunger 20 ( 31 wears, if fluid leaks from the flow path 23 of the sealing member 24, the sealing member 24 is disassembled and the elastic member 21 and the seal 31 are exchanged for fluid control. Make sure you do it correctly.

Here, when disassembling and fastening by rotating the sealing member 24, it is possible to easily perform disassembly and assembly by rotating the fastening protrusion 38 using a tool.

The failure cause of the plunger 20 has been described as an example of the weakening of the elastic force of the elastic member 21 and the wear of the seal 31, but the sealing member 24 also when the plunger 20 malfunctions due to other causes ) Can be removed to eliminate the cause of the failure.

The present invention is constructed as described above, when the main body is assembled, that is, when the sealing member is fastened and fixed to one side of the passage of the main body, the operation of the plunger for controlling the flow path inside the main body does not operate according to the command of the control, or when the flow path is closed. When leakage occurs, the sealing member can be disassembled to easily deal with the failure.

Therefore, since the electromagnet valve can be used semi-permanently, the cost of replacing the electromagnet valve can be reduced, and the operation time of the electromagnet valve can be reduced, thereby increasing the operating time of the system, thereby increasing the productivity of the system.

Claims (2)

A main body having a passage therein and having a flow passage in communication with the passage at a predetermined position at an outer circumference thereof; A sealing member through which a flow path passes through the center of the body and is fastened and assembled to one side of the passage of the main body so that one end of the flow path communicates with the main body flow path; A cylindrical bushing inserted into and fixed to a passage opening of the main body facing the sealing member; An electromagnet having magnetic force generated in the coil when the bushing is inserted and fixed; An induction member fixed to the bushing outer end to be magnetic when the magnetic force is generated in the coil; It is movably received between the sealing member and the induction member to be attached to the induction member when the induction member is magnetic, to open the flow path of the sealing member, when the induction member is not magnetic A plunger for sealing the flow path; An elastic member interposed between the guide member and the plunger and providing a restoring force so that the plunger can seal the flow path of the sealing member when a magnetic force is not generated in the power supply short circuit, Here, the electromagnet valve, characterized in that when the malfunction of the plunger for opening and closing the flow path inside the main body to handle the malfunction by disassembling the sealing member. The method of claim 1, wherein the sealing member is formed with a screw thread to be fastened to the main body on the outer periphery of the body, the mounting groove is a predetermined width and depth so that the airtight O-ring can be fitted on the inner rear of the thread It is concave, the mounting groove is formed on one side of the flange to protrude so as to be in close contact with the flange receiving groove side wall of the main body, the outside of the flange is formed with a flat portion on both sides to facilitate the screwing by rotating with a tool Electromagnet valve, characterized in that the fastening protrusion protrudes a predetermined length.