KR200252479Y1 - Pressure reducing valve for water - Google Patents

Abstract

The present invention relates to a pressure reducing valve for water supply to the tap water supplied from the water pipe to the appropriate pressure to reduce the pressure, and in particular, it is easy to control the flow rate of the flow rate and a small amount of flow control, but with a small force The present invention relates to the provision of a pressure reducing valve for water which can be made and is semi-permanent.

Water pressure reducing valve according to the present invention is the water supply pipe side connection portion 11 is formed on one side and the boiler housing connection portion 12 is formed on the other side, and one side of the side is provided with the strainer 21 The lower part having a water hole 22 communicating with the water pipe side connection part 11 and opened / closed by the valve disc 31 is assembled and installed inside the valve housing 10 in a state of communicating with the boiler side connection part 12. And a guide structure 20 through which a valve shaft 30 having a valve disc 31 for opening and closing the water passage 22 is freely supported in the axial direction through the central portion thereof, and the valve shaft. It comprises a control shaft 40 is assembled to the upper portion of the valve housing 10 for the movement adjustment of the 30, the valve shaft 30 between the valve shaft 30 and the lower adjustment shaft 40 ) Is provided with a first spring (50) for downwardly firing, Characterized by a configuration in which the lower group of valve shaft 30 is a second spring 60 is installed upstream of the valve shaft 30 has a smaller spring force than the first spring 50 is elastic.

Description

Water pressure reducing valve {PRESSURE REDUCING VALVE FOR WATER}

The present invention relates to a pressure reducing valve for water used to reduce the pressure of the water supplied from the water pipe to a pressure suitable for the operation of the boiler, and to be introduced into the boiler. In addition, the present invention relates to the provision of a pressure reducing valve for water, which is designed so that the flow rate adjustment range is wide and a small amount of flow rate adjustment is possible, and the adjustment work can be easily performed with a small force.

For example, in a facility that heats water to make hot water, and circulates the hot water through a pipe to supply or heat it where necessary, a boiler for heating circulation of water is used. Currently, almost all types of boiler facilities have tap water. Supply is being used.

The tap water supplied to the boiler through the pressure reducing valve of the present invention is different depending on the region and the height of the zone even in the same tap water supply area.The tap water supply water pressure is required to operate the boiler. If it is higher, it is necessary to lower it to an appropriate water pressure and then flow it into the boiler.

The pressure reducing valve used for this purpose typically has a guide structure in which a flow path for pressure reduction is formed in a valve housing in which a water pipe side connection part is formed on one side and a boiler side connection part is formed on the other side, and penetrates through the center of the valve housing. In this case, a valve shaft which can be moved in the axial direction by a handle operation is installed, and the valve shaft is formed at the end of the valve shaft in which the valve disk for adjusting the opening degree of the end of the flow path formed in the guide structure is installed. In the conventional valve, since the entire valve shaft is rotated in the axial direction only by the rotational operation force of the operator with respect to the shaft to make the necessary adjustments, the valve is much forced to operate the valve, and structurally minute adjustment of the flow rate and Not only is it difficult to shut off completely, but it Words or has had such a life to premature wear or damage between moving parts will be short and poor tightness problems.

Accordingly, an object of the present invention is to provide a further improved pressure reducing valve for water, which can effectively solve the above-mentioned problems as described above, thereby maintaining and maintaining excellent operation performance and lifespan.

1 is a front view showing a part of the pressure reducing valve according to the present invention;

Figure 2 is a front view of the pressure gauge coupled to the pressure reducing valve of Figure 1;

Explanation of symbols on the main parts of the drawings

10: valve housing 11: water pipe side connection 12: boiler side connection

13 pressure gauge mounting portion 20 guide structure 21 strainer

22: water hole 23: diaphragm 30: valve shaft

31 valve disc 40 adjustment shaft 50 first spring

51,52: spring seat 60: second spring 70: handle

80: pressure gauge

The present invention for achieving the above object is a valve housing connected to the water pipe side connection portion is formed on one side and the boiler side connection portion, and the side is provided with a strainer is in communication with the water pipe side connection portion and the lower part of the water supply hole A guide structure in which the valve shaft having a valve disc for opening and closing the water passage is freely installed in the valve housing in a state in communication with the side connection portion and freely installed in the valve housing; It includes an adjustment shaft which is assembled to the upper portion of the valve housing for adjusting the movement of the valve shaft, a first spring is installed between the valve shaft upper portion and the lower adjustment shaft lower spring is installed, the lower portion of the valve shaft A second to upwardly eject the valve shaft with a less elastic force than the first spring It provides a pressure reducing valve for water, characterized in that the spring is installed.

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

In the drawing, reference numeral 10 denotes a valve housing, in which a water pipe side connection part 11 is formed on one side and a boiler side connection part 12 is formed on the other side.

The guide structure 20 configured as shown in the valve housing 10 is assembled and installed, the upper portion of the guide structure 20 is hermetically closed by the diaphragm 23 of the elastic material, the lower portion of the valve disc ( 31) is formed through the opening and closing hole 22, the side that is surrounded by the inner wall surface of the valve housing 10 is provided with a strainer 21 is provided and the side one side where the strainer 21 is installed It is comprised so that it may communicate with the water pipe side connection part 11. That is, the guide structure 20 is a valve in a state in which one side of the side in which the strainer 21 is installed is in communication with the water pipe-side connecting portion 11 and the lower portion with the water supply hole 22 is in communication with the boiler-side connecting portion 12. It is installed inside the housing 10.

The valve shaft 30 for the operation of the valve disc 31 is assembled and installed in a state capable of moving in the axial direction at the center of the guide structure 20 installed as described above. The upper end of the diaphragm 23 is hermetically penetrated, the spring seat 51 is assembled and installed, and the valve disc 31 is coupled to the lower end of the valve shaft 30 passing through the water passage 22. .

The upper part of the valve housing 10 is installed by screwing the adjustment shaft 40 for the movement operation of the valve shaft 30, the lower end of the adjustment shaft 40 is located inside the valve housing 10 A spring spring 52 is positioned so that the first spring 50 for downwardly firing the valve shaft 30 in accordance with the movement of the adjustment shaft 40 between the spring shaft 51 of the upper end of the valve shaft 30. ) Is interposed, the operation handle 70 is assembled to the upper end portion penetrating out of the valve housing 10 of the adjustment shaft 40.

On the other hand, between the lower end of the valve disc 31 of the valve shaft 30 is installed and the inner bottom surface of the valve housing 10 has a less elastic force than the first spring 50 to raise the valve shaft 30 A second spring 60 is provided for installation.

One side of the boiler side connection portion 12 may be formed with a pressure gauge installation portion 13, the pressure gauge 80 is assembled.

In operation, between the lower end of the adjustment shaft 40 and the upper end of the valve shaft 30 in a state in which the handle 70 is rotated to one side and the adjustment shaft 40 is raised up as much as possible on the valve housing 10. The first spring 50 located in the first spring 50 immediately after the resilient force does not act on the valve shaft 30 but in this state by turning the adjusting shaft 40 reversely and the adjusting shaft 40 starts to descend. It is installed so that the pressure of the shot pressure 50 of the 50 acts on the valve shaft 30, so that only the upward shot force of the second spring 60 in the state in which the adjustment shaft 40 as far as possible to operate the valve shaft The valve shaft 30 and the valve disc 31 are actuated to the maximum position by acting on the valve 30, so that the water passage 22 in the lower center of the guide structure 20 is opened by the valve disc 31. Closed so that the fluid flow between the water pipe shaft connection portion 11 and the boiler side connection portion 12 is complete It is in the blocked state.

When the adjusting shaft 40 is rotated in the above state and lowered on the valve housing 10, the pressing force of the lowering adjusting shaft 40 acts on the first spring 50, and thus, the first spring. 50 begins to press down the valve shaft 30, and the downward pressing force gradually increases as the adjustment shaft 40 descends. At this time, since the elastic force of the first spring 50 is greater than the elastic force of the second spring 60, the valve shaft 30 begins to overcome the elastic force of the second spring 60 and descends. The valve disc 31 coupled to the valve shaft 30 descends to open the water supply hole 22 in the lower center of the guide structure 20 so that the tap water introduced from the water pipe side connection part 11 is the guide structure. It is to be able to flow toward the boiler side connection portion 12 through the side and the lower part of the central hole (22) is installed in the strainer 21 of the (20), in this process tap water coming from the water pipe side connection portion 11 While passing through the guide structure, the pressure is reduced toward the connection to the boiler side connection portion 12. Here, the flow rate and corresponding water pressure of the tap water passing through the water hole 22 in the lower center of the guide structure 20 to the boiler side connection portion 12 is the pressure of the valve disc 31 for the water hole 22. Since it depends on the opening degree, the degree of decompression for the desired tap water can be adjusted according to the use condition.

In the process of adjusting the opening degree of the valve disc 31 as described above, the movement of the valve shaft 30 enables the difference in elasticity between the first and second springs 50 and 60 and the adjustment shaft 40. Since the change of the pressing force due to the lifting and lowering of the c) is made subtlely, the adjustment work is made less smoothly than before, and the smooth adjustment work is made. Advantages such as broadening are obtained.

In a preferred embodiment of the present invention, the guide structure 20 is made of a synthetic resin, such as acetal resin, thereby making the guide structure 20 and the assembly of the entire valve assembly valve valve while being easier At the time of movement of 30, the wear and tear at the portion which guides the movement is minimized, so that the failure of the valve is reduced and the movement of the valve shaft 30 can be made more smoothly.

Through the strainer 21 is installed on the side of the guide structure 20, foreign substances in the supply water is filtered to further reduce the failure of the valve and boiler.

The pressure gauge mounting portion 13 formed on the boiler side connection part 12 may be installed by coupling the pressure gauge 80 as shown in the example of FIG. 2 to accurately adjust and set the desired water pressure during the adjustment operation.

The present invention has the effect that it is possible to provide a pressure reducing valve for water supply to maintain a semi-permanent life due to the configuration, operation as described above is more excellent in pressure reduction performance for tap water, easy to operate and less trouble.

Claims (3)

The water pipe side connection part 11 is formed in one side, and the valve housing 20 in which the boiler side connection part 12 is formed in the other side, and one side part thereof communicates with the said water pipe side connection part 11, and the water flow of the lower center is carried out. The ball 22 is assembled to the inside of the valve housing 10 in communication with the boiler side connection portion 12 and a valve having a valve disc 31 for opening and closing the water passage 22 in the center thereof. Guide structure 20, the shaft 30 is freely supported in the movement in the axial direction, and the adjusting shaft 40 is installed on the upper portion of the valve housing 10 for the movement adjustment of the valve shaft 30 It is configured to include, and the first spring 50 is installed between the valve shaft 30 and the adjusting shaft 40 to downwardly shot the valve shaft 30 with a pressing force corresponding to the moving position of the adjusting shaft 40 And a lower shot than the first spring 50 in the lower portion of the valve shaft 30 The water works have pressure reducing valve according to claim 2, characterized by the configuration in which the spring 60 is installed upstream of the valve shaft 30 is elastic. The pressure reducing valve for water supply according to claim 1, wherein a strainer (21) is provided at the side of the guide structure (20). The water pressure reducing valve according to claim 1 or 2, wherein the guide structure (20) is made of acetal resin.