KR200180775Y1 - Solenoid valve structure - Google Patents

Abstract

The present invention relates to a solenoid valve for controlling the flow of refrigerant, which is employed in electrical appliances requiring general cooling or freezing effects, and the plunger is fixed from the refrigerant outlet to enable the flow of the refrigerant while the flow of the refrigerant is blocked. The present invention relates to a solenoid valve structure designed to prevent noise generated when contacting a fixed core when being sucked toward the core. The present invention is a solenoid valve comprising a refrigerant pipe formed to flow the refrigerant, an electromagnet generating an electromagnetic field to maintain or block the flow of the refrigerant, and a plunger suctioned toward the fixed core to open the refrigerant discharge hole according to the suction force of the electromagnetic field. And manufacturing a fixed core that sucks the plunger under the influence of the electromagnetic field generated by the electromagnet as an integrated body, and forming a coating part coated with Teflon or fluorocarbon on the inner surface of the refrigerant pipe and the outer circumferential surface of the plunger corresponding to the operation range of the plunger. It features.

Description

Solenoid Valve Structure {SOLENOID VALVE STRUCTURE}

The present invention relates to a solenoid valve for controlling the flow of refrigerant, which is employed in electrical appliances that require general cooling or freezing effects. In particular, the plunger is connected to the refrigerant inlet to enable the flow of refrigerant in a state where the flow of the refrigerant is blocked. The present invention relates to a solenoid valve structure designed to prevent noise generated when contacting a fixed core when attracted to the fixed core.

For example, in a refrigerator or the like, in order to achieve a cooling effect using a refrigerant, a solenoid valve that maintains or blocks a refrigerant flow is used as suction and reaction of the plunger are possible by suction and repulsion of the electromagnet.

However, in the conventional solenoid structure, when releasing the refrigerant while blocking the flow of the refrigerant, the plunger closing the refrigerant outlet is sucked toward the fixed core and, for example, makes a pleasant indoor environment by contacting while generating a squeaking noise. There was a problem with the harm. In addition, as shown in FIG. 3, the fixed core part contacting the plunger 16 is composed of the fixed core 27, the washer 28, and the support piece 29, which makes the manufacturing process complicated and consequently increases the manufacturing cost. There was a downside. In addition, there was a disadvantage that the inner surface of the refrigerant pipe is contacted and worn with the movement of the plunger.

Accordingly, the present invention is to improve the problems of the conventional solenoid valve, and the manufacturing process is simplified and the cost is simplified by manufacturing the fixed core part composed of the fixed core, the washer, and the support piece to suck the plunger without manufacturing separately. The purpose is to provide a solenoid valve structure that can reduce the cost. In addition, another object of the present invention is to provide a solenoid valve structure that can achieve low noise as well as lubricity, wear resistance and heat resistance during operation of the plunger by coating Teflon or fluorine carbon on the inner surface of the refrigerant pipe and the outer circumferential surface of the plunger to which the plunger is built. To provide.

1 is a view schematically showing a state in which a solenoid valve and a refrigerant pipe to which the present invention is applied are coupled.

2 is a schematic internal structural diagram of a solenoid valve according to an embodiment of the present invention. 3 is a schematic configuration diagram of a fixed core portion of a conventional solenoid valve.

Explanation of symbols on the main parts of the drawings

10 ------ Solenoid Valve 11 ------ Refrigerant Suction Line

12 ------ Refrigerant discharge line 14 ------ Refrigerant discharge hole

15 ------ Spring 16 ------ Plunger

17 ------ Fixed Core 18 ------ Valve Ball

20 ------ Bracket 21 ------ Electromagnet

22 ------ Bolt 24 ------ Groove

25 ------ shading coil

30 ------ Refrigerant line section inserted into bracket

In order to achieve the above object, the solenoid valve structure according to the present invention, a refrigerant pipe formed to flow the refrigerant, an electromagnet generating a magnetic field to maintain or block the flow of the refrigerant, and to open the refrigerant discharge hole according to the suction force of the magnetic field In a solenoid valve composed of a plunger suctioned toward the fixed core, a fixed core for sucking the plunger under the influence of the electromagnetic field generated by the electromagnet is manufactured integrally, and the inner surface of the refrigerant pipe corresponding to the operating range of the plunger and the outer circumferential surface of the plunger Characterized in that the coating portion coated with Teflon or fluorocarbon.

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

1 is a view schematically showing a state in which a solenoid valve and a refrigerant pipe are coupled to which the present invention is applied, and FIG. 2 is an internal structural diagram of a solenoid valve according to an embodiment of the present invention.

In FIG. 1 and FIG. 2, reference numeral 20 denotes a bracket installed to surround an electromagnet 21 generating an electromagnetic field, and a hole 23 having a predetermined diameter is inserted in the center thereof so that a portion 30 of a refrigerant pipe to be described later is inserted. Formed.

The refrigerant pipe is composed of a suction pipe 11 for sucking the refrigerant supplied from the refrigerant supply unit (not shown) and a discharge pipe 12 for discharging the refrigerant to flow toward the cooler. These suction pipes 11 and the discharge pipe 12 are schematically The discharge hole 14 is formed at the portion coupled to each other to discharge the refrigerant sucked through the suction pipe 11 toward the discharge pipe 12.

In the portion 30 occupying a predetermined length of the refrigerant pipe, repulsion from the fixed core 17 toward the discharge hole 14 depending on whether an electromagnetic field is generated by the electromagnet 21 so as to open or close the discharge hole 14. The plunger 16 which suctions from the discharge hole 14 toward the fixed core 17 is incorporated. That is, the refrigerant pipe portion 30 formed to have a predetermined length horizontally from the coupling portion for coupling the suction pipe 11 and the discharge pipe 12 is a portion for the interior of the plunger 16. At this time, the refrigerant pipe portion 30 having the plunger 16 embedded therein is inserted into the hole 23 formed in the bracket 20.

On the other hand, in the end of the refrigerant pipe portion 30 for the built-in plunger 16, the fixed core 17 to maintain the suction contact with the plunger 16 under the influence of the electromagnetic field when the electromagnet 21 generates an electromagnetic field Is soldered and fixed. That is, since a bolt coupling groove (not shown) is formed at one side of the fixing core 17 to bolt the bolt through a bolt coupling groove (not shown) formed at one side of the bracket 20. (22) By being coupled (with an electromagnet), the refrigerant pipe portion 30, the bracket 20 and the electromagnet 21 are fixed.

A groove 24 having a predetermined depth is formed at one end of the plunger 16, and in the groove 24, the plunger 16 is moved toward the fixed core 17 according to the suction force by the electromagnetic field of the electromagnet 21. A spring 15 having elasticity is installed so that the plunger 16 does not directly hit the fixed core 17 when being sucked and is kept in soft contact through a buffering action. In addition, the coating part 26 coated with Teflon or fluorine carbon on the inner surface of the refrigerant pipe and the outer circumferential surface of the plunger corresponding to the operating range when the plunger 16 is attracted to the fixed core 17 or repulsed from the fixed core 17. ) To achieve heat resistance, wear resistance and lubricity during operation of the plunger 16, as well as to reduce noise.

Reference numeral 25 denotes a shading coil for removing the residual magnetic field, and 18 denotes a valve ball provided at one end of the plunger 16 to substantially open or close the refrigerant discharge hole 14.

The operation of the solenoid valve of the present invention configured as described above is as follows.

For convenience of description, a refrigerator will be described as an example, and the plunger 16 is repulsed from the fixed core 17 as the refrigerant discharge hole 14 is closed, that is, the electromagnet 21 is not operated. 18, it is assumed that the refrigerant discharge hole 14 is closed. At this time, the shading coil 25 removes the residual magnetic field of the electromagnetic field generated by the electromagnet 21, the spring 15 is of course maintained in the expanded state.

In this state, when the internal temperature of the refrigerator rises above a certain temperature, the refrigerant must flow in the refrigerant pipe to cool the interior of the refrigerator again. Accordingly, the electromagnet 21 is operated by an external power source to generate an electromagnetic field, and the plunger 16 is attracted to the fixed core 17 by the suction force of the electromagnetic field, where the plunger 16 directly fixes the fixed core 17. It is kept in a suction contact with the fixed core 17 while being cushioned by the compression of the spring 15 without being contacted while hitting. Accordingly, the refrigerant discharge hole 14 is opened, so that the refrigerant flows toward the cooler through the discharge pipe 12 to perform the cooling operation in the refrigerator.

Then, when the internal temperature of the refrigerator falls below a certain temperature, the power supply to the electromagnet 21 is cut off and the electromagnetic field is lost. The plunger 16 is repelled from the fixed core 17 and moved toward the discharge hole 14. The valve ball 18 portion of the plunger 16 is to close the discharge hole 14 to block further refrigerant flow.

Although the above-described solenoid valve structure has been described in detail with reference to a specific embodiment such as a refrigerator, the present invention is not limited thereto, and any modifications and changes can be made within the scope of the technical idea of the present invention.

That is, in the above-described embodiment, the refrigerator has been described as an electric product, for example. However, the present invention is not limited thereto, and the present invention can be applied to any product to which the solenoid valve is applied.

In addition, the installation of the buffering spring in the groove formed in the plunger has been described as an example, but is not limited thereto. It is also possible to form the groove in the fixing core and form the spring.

According to the solenoid valve structure of the present invention as described above, the manufacturing process is simplified and the cost can be reduced by integrally manufacturing the fixed core portion composed of the fixing core, the washer and the support piece so as to suck the plunger separately. In addition, by coating Teflon or fluorine carbon on the inner surface of the refrigerant pipe in which the plunger is moved, it is possible to achieve low noise as well as lubricity, wear resistance and heat resistance during operation of the plunger.

Claims (1)

A refrigerant tube formed to flow the refrigerant, an electromagnet 21 generating an electromagnetic field to maintain or block the flow of the refrigerant, and fixed to open the refrigerant discharge hole 14 in accordance with a suction force of the electromagnetic field generated from the electromagnet 21 In the solenoid valve 10 composed of the plunger 16 sucked toward the core 17, The fixed core 17 which sucks the plunger 16 under the influence of the electromagnetic field generated by the electromagnet 21 is manufactured integrally, and the inner surface of the refrigerant pipe and the plunger 16 corresponding to the operating range of the plunger 16 are integrated. A solenoid valve structure, characterized in that the outer peripheral surface is coated with Teflon or fluorocarbon coating (26).