JP2018031432A - solenoid valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent bad influence such as rusting of a plunger portion and a pole tooth, on a solenoid valve by making dew condensation water hardly accumulated in a hole portion by using a water absorption member.SOLUTION: In a solenoid valve 100 in which a plunger portion is inserted to a valve body unit 110 having a coil case 121, an electromagnetic coil unit 120 having an annular electromagnetic coil 122 disposed in the coil case, a circular column-shaped valve body 112, and a cylindrical plunger portion 111 vertically disposed on a top face of the valve body, and a hole portion formed at the center of the coil case, a sheet-like water absorption member 130 is disposed between the hole portion and the plunger portion, and a part of the water absorption member is projected from the solenoid valve to discharge the dew condensation water to the external.SELECTED DRAWING: Figure 5

Description

  The present invention relates to an electromagnetic valve used for controlling the flow rate of fluid flowing through a pipe.

  An electromagnetic valve used for controlling the flow rate of fluid flowing through a pipe is assembled by inserting a valve body unit into an electromagnetic coil unit. The valve body unit has a cylindrical valve body and a bottomed cylindrical plunger portion standing on the upper surface of the valve body. An inflow port is provided on the outer peripheral side surface of the valve body, and an outflow port is provided in the lower part. A joint pipe connected to a refrigerant pipe or the like is connected to each of the inlet and the outlet. This joint pipe is a pipe having an outer diameter that is substantially the same as the inner diameter of the inlet or outlet, and a refrigerant pipe or the like is connected to the tip of the pipe. A flow path connecting the inlet and the outlet is formed inside the valve body. A rod-shaped valve body made of metal is provided inside the plunger portion. The flow path in the valve body is provided with a conical valve body tip for adjusting the amount of fluid flowing in the flow path. By moving the valve body in the vertical direction, the gap between the tip of the valve body and the opening at the tip on the inner side of the outlet can be increased or decreased, and the amount of fluid flowing out from the outlet can be adjusted.

  The electromagnetic coil unit has an annular coil case and a similarly annular electromagnetic coil provided in the coil case. A hole portion into which the plunger portion of the valve body unit is inserted is formed in the central portion of the coil case. A plurality of pole teeth made of metal are provided on the surface of the hole. This pole tooth is connected to the stator around which the electromagnetic coil is wound. When a current is passed through the electromagnetic coil, the magnetic flux generated by the electromagnetic coil passes through the pole through the stator and reaches the valve body. Make it easy to do.

  When this solenoid valve is used in a refrigeration cycle such as an air conditioner, a refrigerant pipe is connected to the joint pipe connected to each of the inlet and outlet of the valve body of the solenoid valve, Refrigerant flows. When this refrigerant is a low-temperature refrigerant, the valve body is also cooled, and condensed water adheres to the valve body. The adhering condensed water flows along the plunger of the valve body unit and flows into the hole of the coil case of the electromagnetic coil unit. Condensed water that has flowed into the hole accumulates in the gap between the plunger and the hole. This accumulated dew condensation water may adversely affect the operation of the solenoid valve. For example, when an air conditioner is installed near the sea, the accumulated condensed water may contain salt, and even if the plunger is made of rust-resistant stainless steel, rust is generated and the When the rust blocks the gap between the plunger portion and the hole portion and the operator tries to remove the electromagnetic coil unit and the plunger portion in order to maintain the electromagnetic valve, the plunger portion may be difficult to remove. In addition, the accumulated dew condensation water rusts the metal pole teeth on the surface of the hole, and this rust may block the gap between the plunger and the hole, making it difficult to remove the plunger. Furthermore, the pole teeth rusted and there was a possibility that the pole teeth had holes and condensed water entered the coil case. Therefore, there is a method of galvanizing to make the pole teeth difficult to rust. (See Patent Document 1)

JP 2013-228000 A

  However, when the electrode teeth of the solenoid valve are galvanized, the cost of the solenoid valve is increased. Furthermore, galvanization prevents the teeth from rusting because the zinc is ionized and melts when water is attached, so if all the condensed water stays in contact and the zinc is completely ionized, There was also a problem of rusting due to condensed water.

  Therefore, an object of the present invention is to prevent the electromagnetic valve from being adversely affected by the condensed water accumulated in the hole.

  In order to solve the above-described problems, an electromagnetic valve according to the present invention is provided on a coil case, an electromagnetic coil unit having an annular electromagnetic coil provided in the coil case, a cylindrical valve body, and an upper surface of the valve body. In a solenoid valve having a valve body unit having a provided bottomed cylindrical plunger portion, and the plunger portion is inserted into the hole portion provided in the center of the coil case, a sheet shape is provided between the hole portion and the plunger portion. The water absorbing member is disposed, and a part of the water absorbing member protrudes from the electromagnetic valve.

  In addition, pole teeth made of metal are provided on the surface of the hole.

  According to the electromagnetic valve of the present invention, by using the water absorbing member, it is possible to prevent the electromagnetic valve from being adversely affected by the fact that the condensed water hardly accumulates in the hole portion and the plunger portion, the pole teeth, and the like rust. .

It is a side view of the solenoid valve concerning the embodiment of the present invention. It is a decomposition | disassembly side view when the solenoid valve of FIG. 1 is decomposed | disassembled. It is a downward perspective view when the solenoid valve concerning the embodiment of the present invention is seen from the lower part. It is a decomposition | disassembly lower perspective view when the solenoid valve of FIG. 3 is decomposed | disassembled. It is sectional drawing which showed the cross section of the solenoid valve cut | disconnected by the AA line of FIG. It is a side view at the time of arrange | positioning the electromagnetic valve of this invention sideways.

(Embodiment)
A solenoid valve according to an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a side view of a solenoid valve. FIG. 2 is an exploded side view when the electromagnetic valve of FIG. 1 is disassembled. FIG. 3 is a lower perspective view of the electromagnetic valve as viewed from below. 4 is an exploded lower perspective view when the electromagnetic valve of FIG. 3 is disassembled. FIG. 5 is a cross-sectional view showing a cross section of the electromagnetic valve cut along line AA in FIG. In addition, the side with the electromagnetic coil unit 120 described later is the upper side, and the side with the valve body unit 110 described later is the lower side.

  As shown in FIGS. 1 to 5, the electromagnetic valve 100 of the present embodiment is assembled by inserting the bottomed cylindrical plunger portion 111 of the valve main body unit 110 into the hole portion 123 of the electromagnetic coil unit 120. A water absorbing sheet 130 is provided on the electromagnetic valve 100 as described later.

  The valve body unit 110 includes a valve body 112 and a bottomed cylindrical plunger portion 111 erected on the upper surface of the valve body 112. An inflow port 113 is provided on the outer peripheral side surface of the valve body 112, and an outflow port 114 is provided in the lower part. Joint pipes 141 and 142 connected to the refrigerant pipes and the like are connected to the inlet 113 and the outlet 114, respectively. The joint pipes 141 and 142 are pipes having outer diameters that are substantially the same as the inner diameters of the inlet 113 and the outlet 114. A flow path 115 that connects the inlet 113 and the outlet 114 is formed inside the valve body 112. Inside the plunger portion 111, a rod-shaped valve body 117 made of metal is provided. The flow path 115 in the valve body 112 is provided with a tip portion 116 of a conical valve body 117 for adjusting the amount of refrigerant flowing in the flow path 115. By moving the valve body 117 in the vertical direction by the magnetic force of an electromagnetic coil 122 described later, the gap 151 between the valve body distal end 116 and the opening 118 at the distal end on the inner side of the outlet 114 can be increased or decreased. The flow rate of the refrigerant flowing out from the outlet 114 can be adjusted.

  In addition, although the valve main body unit 110 of this embodiment integrates the valve main body 112 and the plunger part 111 which were each formed separately, this invention is not limited to this.

  The electromagnetic coil unit 120 includes a coil case 121 formed in an annular shape and an annular electromagnetic coil 122 provided in the coil case 121. A hole 123 into which the plunger 111 of the valve body unit 110 is inserted is formed at the center of the lower surface 121a of the coil case 121. A plurality of pole teeth 124 made of metal are provided on the surface of the hole 123. Since the plunger portion 111 of the valve body unit 110 is inserted, the hole portion 123 has an inner diameter that is substantially equal to the dimension obtained by adding the thickness of the two pole teeth 124 to the outer diameter of the plunger portion 111. The pole teeth 124 are connected to a stator (not shown) around which the electromagnetic coil 122 is wound. When a current is passed through the electromagnetic coil 122, the magnetic flux generated in the electromagnetic coil 122 passes through the pole teeth 124 via the stator. Thus, it is easy to reach the valve body 117. The electromagnetic coil 122 is connected to a lead wire (not shown) for supplying power.

  The water absorbing sheet 130 is a water absorbing member that absorbs water, and is disposed so as to be sandwiched between the plunger portion 111 of the valve body unit 110 and the hole portion 123 of the electromagnetic coil unit 120. The water absorbing sheet 130 is formed of a nonwoven fabric or the like, has a thickness that is held between the hole portion 123 and the plunger portion 111, and has a rectangular shape. A part of the water absorbent sheet 130, in this embodiment, one end 131 at the tip of the water absorbent sheet 130 protrudes from the electromagnetic valve 100. Since the one end 131 is in contact with air, the water absorbed by the water absorbent sheet 130 evaporates from the one end 131. Further, the operator installs the electromagnetic valve 100 so that the one end portion 131 faces downward in the gravity direction in a state where the electromagnetic valve 100 is installed. Thereby, the dew condensation water absorbed by the water absorbing sheet 130 is easily diffused to the lower end 131 by gravity. In addition, as shown in FIG. 6, the solenoid valve 100 may be arranged sideways so that the side with the electromagnetic coil unit 120 is on the left side and the side with the valve body unit 110 is on the right side. In this case, since the water absorbing sheet 130 is disposed below the surface of the hole 123 in the gravity direction, the condensed water that accumulates below the hole 123 in the gravity direction is easily absorbed by the water absorbing sheet 130.

  Next, a process in which condensed water enters the hole 123 of the electromagnetic coil unit 120 will be described. When the electromagnetic valve 100 is used in an air conditioner (not shown) or the like, when the low-temperature refrigerant flows into the valve body 112 from the inlet 113 of the valve body 112 and flows out of the outlet 114, the valve body 112 is cooled. As the surrounding air is cooled by the cooled valve body 112, moisture in the cooled air is condensed on the outside of the valve body 112, and condensed water adheres. The attached condensed water flows through the plunger portion 111 of the valve body unit 110 and flows to the coil case 121 of the electromagnetic coil unit 120. The condensed water that has flowed up to the coil case 121 enters the gap 161 between the plunger portion 111 of the valve body unit 110 and the hole portion 123 of the electromagnetic coil unit 120 and accumulates in the hole portion 123.

  Next, the function of the water absorbing sheet 130 will be described. The condensed water collected in the hole 123 of the electromagnetic coil unit 120 is absorbed by the water absorbing sheet 130. The absorbed condensed water is diffused to the one end portion 131 of the water absorbing sheet 130 by a capillary phenomenon. The condensed water diffused to the one end 131 evaporates when it comes into contact with air. By drying the one end portion 131, the condensed water in the other end portion 132 in contact with the hole portion 123 of the water absorbent sheet 130 is diffused into the one end portion 131. Accordingly, the other end portion 132 of the water absorbent sheet 130 is also dried and can absorb the dew condensation water, so that the water absorbent sheet 130 can absorb the dew condensation water in the hole 123. By repeating this flow, the condensed water accumulated in the hole 123 can be discharged into the air from the one end 131 of the water absorbent sheet 130.

  From the above, the condensed water collected in the hole of the electromagnetic coil unit can be brought out of the solenoid valve by the water absorbent sheet of the present embodiment so that the condensed water and the air can be brought into contact with each other. It can be easily evaporated. Therefore, it is possible to prevent the pole teeth from being particularly rusted without the dew condensation water accumulated in the hole portion adversely affecting the operation of the solenoid valve.

100 Solenoid valve 110 Valve body unit 120 Electromagnetic coil unit 130 Absorbent sheet

Claims (2)

A coil case, and an electromagnetic coil unit having an annular electromagnetic coil provided in the coil case;
A valve body unit having a cylindrical valve body and a bottomed cylindrical plunger portion erected on the upper surface of the valve body;
In the electromagnetic valve in which the plunger portion is inserted into the hole provided in the center of the coil case,
A sheet-like water absorbing member is disposed between the hole and the plunger,
A part of the water absorbing member protrudes from the solenoid valve.   The electromagnetic valve according to claim 1, wherein pole teeth made of metal are provided on a surface of the hole.

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