KR20060118694A - Solenoid valve controlled the pumping - Google Patents

Abstract

An electromagnetic valve for controlling water supply is provided to sequentially insert a nipple and a restriction element into an accommodation section and finish them with a cover installed by a high frequency fusion method. An electromagnetic valve for controlling water supply includes a first accommodation section(30) and a second accommodation section(40), a polygonal nipple, and a cover. The first and second accommodation sections have an opened upper surface and have a stepped shape. The nipple is inserted into the first and second accommodation sections. The cover is bonded to an upper portion of an inlet by a high frequency fusion method. After the nipple is inserted into the accommodation holes, it is finished by the cover installed in a high frequency fusion method.

Description

Solenoid valve controlled the pumping

1 is a schematic cross-sectional view showing the configuration of a typical electromagnet valve.

2 is a cross-sectional view showing the configuration of the electromagnet valve of the present invention.

3 is a plan view showing a cut along the line A-A of FIG.

Figure 4 is a perspective view showing an exploded nipple and suppression element applied to the electromagnet valve in the present invention.

Explanation of symbols for the main parts of the drawings

10: body 11: electromagnet

12: movable core 20: constant flow control unit

30: first accommodating part 32: second accommodating part

40: Inhibition factor

The present invention relates to an electromagnet valve for controlling water supply, and more particularly, to an electromagnet valve for water supply control in which an assembly structure is stable and watertightness is improved.

Various electromagnet valves, which are installed at appropriate locations on the water supply line directly connected to the water supply pipe, to control the water supply of water supplied from the water supply pipe, have been developed and used to date. Such electromagnet valves are used in refrigerators, water purifiers, coffee machines, etc. In addition, it is additionally installed in all devices requiring water supply control.

As an example of such electromagnet valves, the electromagnet valve for water supply control of the refrigerator is randomly and selectively quantitatively supplied to each of the dispenser or the ice maker through the constant flow controller as shown in FIG. 1. Control.

More specifically, the electromagnet valve is composed of a pair of main body 10 and the constant flow rate control unit 20 to roughly divide the water supply of each of the dispenser and the ice maker, each of the main body 10 And a valve chest 14 having a valve seat 13 opened and closed by a movable iron core 12 driven by an electromagnet 11, and a lower portion of the valve chest 14 is successively connected to a dispenser and an ice maker, respectively. The outlet 15 is provided so that the hose to be connected is directly connected by inserting.

And the constant flow rate control unit 20 is a conduit that is directly connected to the water supply pipe side to the nipple (23) is provided on one side and the other side is connected to the main body 10 is connected to the branch 21 is installed in the insert type (22) is connected to the binding nut (24) is provided with an inlet (25) for introducing water from the water supply pipe, and has a space of a predetermined width between the inlet (25) and the connecting pipe (21) A chamber 27 is provided to temporarily receive the water flowing through the water inlet 25 and to reduce the water pressure (water head pressure) and to quantify the water by the flow rate control sheet 26.

The electromagnet valve for the water supply control of the refrigerator configured as described above is a constant technology of water supply control, which is required to fill in the ice maker, and the water supply control for ice making is to be supplied constantly regardless of the fluctuating water pressure in the water supply pipe. It is.

In the electromagnet valve configured as described above, the water inlet 25 of the flow rate adjusting unit 20 is essentially provided with a metal nipple 23 for the connection of the conduit 22 connected to the water supply pipe side. 23) is inserted into the fixed flow rate control unit 20 of the synthetic resin produced by a suitable injection process. Here, the nipple 23 is equipped with a multi-column pillar or a rotation control element for preventing the rotation in response to the screw tightening force of the binding nut 24 for the connection of the conduit 22 in the insert state.

However, when the nipple 23 is installed on the inlet 25 side of the synthetic resin flow rate adjusting unit 20 in the insert method, the manufacturing cost is increased due to poor workability and workability, and the installation structure is not stable. That is, the fixed flow rate control unit 20 and the metal nipple 23 made of synthetic resin, which are produced through the injection process, are mutually heterogeneous, and the shrinkage action necessarily generated during the curing process of the injection molding is performed around the nipple 23. A gap is formed, and the clearance caused by the gap is leaked due to the head pressure applied in the chamber 27 of the constant flow control unit 20, in which the installation state is unstable, such as the inflow of foreign substances and the nipple 23 flows. Is becoming a major factor.

Therefore, the failure of the product is frequent, and the reliability of the product is deteriorated due to leakage.

The present invention has been made in consideration of the above circumstances, and its object is to sequentially and insertably assemble the nipples and the suppression elements in the receiving portion provided on the inlet side of the constant flow control portion and finish with a cover installed by high frequency fusion. By processing, the nipple provides an electromagnet valve in which the installation structure is stable, robust, and watertightness and productability are improved.

Another object of the present invention is to provide an electromagnet valve that can be supplied at a low price by reducing the defect and improving the productivity by making the electromagnet valve in a simple assembly type.

The object of the present invention is achieved by providing an electromagnet valve which is applied to all other equipment for controlling water supply such as a refrigerator or a water purifier or a coffee machine, and the electromagnet valve is opened and closed by a movable iron driven by an electromagnet. A valve chest having a valve seat and at least one main body having an outlet port through which a hose connected to a use side is inserted in series with a lower part of the valve chest, and having a water outlet; The other side is provided with a water inlet is provided with a polygonal nipple is provided on the other side is connected to the conduit that is directly connected to the water supply pipe connected to the binding nut to provide an inflow passage of the water supplied from the water supply pipe, and the inlet and the connection pipe Between the phase having a space of a predetermined width flowing through the inlet An electromagnet valve provided with a constant flow rate control unit having a chamber for temporarily accommodating water and dropping water pressure (water head pressure) and simultaneously quantitatively discharging the water by a flow rate control sheet. A first accommodating part and a second accommodating part having an upper surface open in a step shape, and a polygonal restraining element configured to control the rotation by receiving the nipple on a polygonal nipple inserted into the first and second accommodating parts; It includes a cover that is joined to the upper part of the inlet and covered with high frequency fusion, and then the nipple and the suppression element are sequentially inserted into the receiving holes, and then the cover is installed by the high frequency fusion.

Next, an embodiment of the present invention will be described in detail with reference to the drawings. 2 and 3 show in detail the electromagnet valve according to the present invention.

The present invention shows an example of the electromagnet valve for the water supply control of the refrigerator as an example, and the water supplied from the water supply pipe to the dispenser or the ice maker, respectively, optionally and quantitatively control the water supply.

The electromagnet valve of the present invention is composed of at least one or more main bodies 10 and the constant flow rate control unit 20 to largely divide the water supply of the dispenser and the ice maker.

First, the main bodies 10 each have a valve chest 14 having a valve seat 13 which is opened and closed by a movable iron core 12 driven by an electromagnet 11, and the lower portion of the valve chest 14 The outlet 15 is provided so that the hose connected to each of the dispenser and the ice maker can be connected directly.

And the constant flow rate control unit 20 is provided with a connection pipe 21 is connected to each of the main body 10 is branched on one side and the conduit 22 directly connected to the water supply pipe side on the other side to the binding nut 24 Inlet 25 is provided with a nipple 23 is connected to the water supply pipe is connected to the water inlet, and the inlet 25 has a space of a predetermined width between the inlet 25 and the connection pipe 21 A chamber 27 is provided to temporarily receive the water flowing through the trough and to reduce the water pressure (water head pressure) and to quantitatively discharge the water by the flow control sheet 26. Reference numeral 28 is a filter.

This configuration is the same as in the prior art, and in the present invention, it is a key and characteristic technique of the present invention to improve the installation structure of the nipple 23 for guiding the inflow of water from the inlet 25. In more detail, the nipple 23 is conventionally installed in the inlet 25 in an insert manner to improve the assembly structure in order to solve the problem of leakage caused by shrinkage or the like.

In detail, the present invention has a polygonal first accommodating part 30 and a cylindrical second accommodating part 32 having an upper surface open to the inlet 25 of the flow rate adjusting part 20 and provided in a step shape. Configure Here, the polygonal first accommodating part 30 shows an example of a substantially hexagonal shape.

The nipple 23 is installed across the first accommodating portion 30 and the second accommodating portion 32 configured as described above, and the polygonal surface portion 23a provided on the circumferential wall of the nipple 23 in the first accommodating portion 30. ) Is positioned and the lower end of the polygonal surface portion 23a of the nipple 23 is tightly inserted into the second accommodating portion 32 by the packing 29.

At this time, the polygonal surface portion 23a of the nipple 23 is inserted at an appropriate interval in the first accommodating portion 30 to maintain a space in which the suppressing element to be described later is interposed, wherein the polygonal angle of the nipple 23 is The surface portion 23a may be tightly inserted corresponding to the first accommodating portion 30 so that the nipple 23 may be firmly inserted and fixed in the inlet 25.

In addition, between the polygonal first accommodating portion 30 and the polygonal first accommodating portion 23a of the nipple 23, it is closely inserted corresponding to the polygonal first accommodating portion 30 so as to accommodate the nipple 23 by the lower inner side and rotate it. There is a polygonal suppression element 40 to control the.

In addition, a cover 50 for covering the upper side of the nipple 23 and the suppression elements 40 sequentially inserted into the first and second accommodation portions 30 and 32 is provided at the opening of the upper surface of the inlet 25. . The cover 50 will be bonded to the upper portion of the inlet 25 by high frequency fusion or spin fusion.

Meanwhile, the polygonal first accommodating part 30 is provided with braking holes 30a having a predetermined depth at each hexagonal side thereof, and the suppression element 40 has respective braking holes corresponding to the braking holes 30a. Each of the braking pieces 40a is inserted into the 30a so that the restraining element 40 can be stably and firmly held in the first accommodating part 30.

The suppression structure that prevents the nipple 23 from being rotated at the inlet 25 is to provide a more stable structure corresponding to the screw tightening force applied when the conduit 22 is connected to the nipple 23.

When explaining the effect of the electromagnet valve of the present invention, the present invention is to sequential and insert the nipple and the restraining element in the receiving portion provided on the inlet side of the constant flow rate control unit by finishing the cover with a cover installed by high frequency fusion In addition, the nipple makes the installation structure stable and robust, and improves watertightness and productability.

In another aspect, the present invention is to provide an electromagnet valve that can be supplied at a low price by reducing the defects, improve productivity by making the electromagnet valve in a simple assembly type.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be changed within the scope of the claims.

Claims (4)

At least one main body having a valve chest having a valve seat opened and closed by a movable iron core driven by an electromagnet, and an outlet port through which a hose connected to a use side is inserted in series with a lower portion of the valve chest; Inlet port is provided with a connection pipe connected to each of the main body and the branch is connected to the water supply pipe on one side and connected to the water supply pipe to the binding nut to install a polygonal nipple to provide an inflow passage of water supplied from the water supply pipe And has a space of a predetermined width between the water inlet and the connection pipe to temporarily receive the water flowing through the water inlet, and to reduce the water pressure (water head pressure) and at the same time by the flow control sheet. Electromagnet equipped with a constant flow rate control unit is provided with a chamber to quantitatively discharge the water As a valve, A first accommodating part and a second accommodating part having a polygonal upper surface which is open at an inlet of the flow rate adjusting part and is provided in a step shape; The polygonal nipples inserted into the first and second accommodation portions; And It includes a cover that is bonded to the high frequency fusion bonded to the upper portion of the inlet, Here, the electromagnet valve, characterized in that the finishing treatment with a cover which is installed by the high frequency fusion after inserting the nipple into the receiving holes. At least one main body having a valve chest having a valve seat opened and closed by a movable iron core driven by an electromagnet, and an outlet port through which a hose connected to a use side is inserted in series with a lower portion of the valve chest; Inlet is provided with a connection pipe connected to each of the main body and branched on one side and a conduit connected directly to the water supply pipe on the other side is connected to the coupling nut is provided with a polygonal nipple to provide an inflow passage of water supplied from the water supply pipe And has a space of a predetermined width between the water inlet and the connection pipe to temporarily receive the water flowing through the water inlet, and to reduce the water pressure (water head pressure) and at the same time by the flow control sheet. Electromagnet equipped with a constant flow rate control unit is provided with a chamber to quantitatively discharge the water As a valve, A first accommodating part and a second accommodating part having a polygonal upper surface which is open at an inlet of the flow rate adjusting part and is provided in a step shape; And A polygonal suppression element configured to accommodate the nipple on the polygonal nipple inserted into the first and second accommodation portions corresponding to the first accommodation portion on the polygon to control the rotation of the nipple; And It includes a cover that is bonded to the high frequency fusion bonded to the upper portion of the inlet, Here, the electromagnet valve, characterized in that the nipple and the suppression elements are sequentially inserted into the receiving holes and then closed with a cover which is installed by high frequency fusion. The method of claim 2, Electromagnet valve having braking holes of a predetermined depth on each side of the first receiving hole on the polygon. The method according to claim 2 or 3, Electromagnet valve having braking pieces which are respectively inserted into the braking holes on each side of the suppression element on the polygon.

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