KR20160001032U - One body valve with spindle valve and over-pressure safety valve - Google Patents

Abstract

The present invention relates to a combined valve which is operated by manual and overpressure, in which a manually operated angle valve for installing a pressure gauge and an overpressure prevention device for operating an overpressure in an alarm check valve are housed in a single body.
By installing separate valves, it is possible to reduce the installation space and the processing area, and reduce the dual function of each product. By reducing the material cost, the number of parts and the size, it is possible to reduce the cost and the volume. Which is operated by overpressure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an integral valve comprising a spindle operation valve and an overpressure operation valve,

The alarm check valve installed in the fire sprinkler supply piping is equipped with a pressure gauge to confirm the pressure difference between the primary side and the secondary side divided by the boundary of the crepe and to check the balance of the difference. An angle valve for opening and closing with a spindle is provided at the previous step.

In addition, in order to overcome the overpressure on the secondary side, an overpressure prevention check valve is additionally installed on the alarm check valve to eliminate overpressure.

The present invention relates to a valve that integrates a spindle angle valve for installing a pressure gauge and an overpressure prevention valve separately provided in an alarm check valve.

An angle valve for installing a pressure gauge has a "ㅗ" type three-way branch pipe, and a screw for coupling with a spindle screw is formed on the inner circumferential surface of the spindle insertion pipe for the body, and the volume of the spindle, A packing for forming an opening / closing surface 22 on a body 1 having a large volume so as to supply a sufficient flow rate to the space reduced by occupation, and a spindle provided with a packing disk member, When the knob located at the outside is rotated to rotate the spindle coupled with the handle, the spindle tube handle is opened by the screw formed in the inner tube of the body, the packing member and the packing disk reciprocate to the inlet, And when the valve is opened, the fluid that has entered the inner tube is converted to a direction to transfer the fluid to the outlet In half a manually operated valve for installation between the angle check valve and pressure gauge.

The overpressure prevention valve is a valve which has a "ㅗ" type three-way branch pipe and shrinks the spring to form an outlet when the pressure exceeds a certain pressure (usually 8 kgf / ㎠). In order to achieve this, a body inlet is formed and a spring is installed in the inside of the spring, and a disk for supporting the packing and the packing is installed in the lower part of the spring. In the upper part, a groove for inserting the upper part of the spring is assembled, Which is automatically operated by the pressure between the alarm check valve and the discharge connection pipe.

Since the spindle angle valve for installing the pressure gauge and the overpressure prevention valve are separately provided on the secondary side of the alarm check valve and the various pipes are installed in a congested manner, the dual devices and materials are inputted and the inefficient structure is formed.

This design is based on the existing independent and separately installed an angle valve for the pressure gauge and an overpressure prevention valve which are installed on the alarm check valve as an integrated unit, thereby reducing the volume of the parts and the components, thereby enhancing the stability and improving the function and convenience. .

The inlet and outlet ports of both valves are integrated into a common device, and a valve driving device for opening and closing a valve for each of the valves is formed to have a function of a discharge port.

In addition, when replacing pressure gauge or overpressure prevention valve, it is possible to replace and replace piping so as to minimize the downtime of piping in operation and to prevent the leakage of alarm check valve. I want to.

In order to achieve this, in order to accommodate three or four branch tubes of two bodies and six branch tubes, which are conventionally composed of two body valves of three branch tubes, into one body valve, One side of the pipe serves as a common intake pipe for the angle valve and the overpressure prevention valve, and the other side serves as a pipe for installing a spindle as a drive device of the angle valve. Vertically, one side forms a pressure gauge- A packing and a packing disk installed on both sides of the spring, and a pipe for installing a coupling hole having a spring insertion and support groove. In particular, a hole is formed in the coupling hole to perform a function of a discharge port Or the piping for installing the overpressure prevention device is reduced so as to arrange the three branch pipes of the trunk, and the overpressure prevention device We want to create a housing on the spindle.

Therefore, the structure of pressure gauge installation line and overpressure prevention valve installation channel can be replaced behind the opening and closing valves of the fluid, so that the alarm check valve can be replaced without stopping, thereby minimizing the exposure to the fire risk.

By providing an open / close valve between the overpressure prevention valve and the alarm check valve, it is possible to minimize risk exposure to fire by replacing the overpressure prevention valve as well as the pressure gauge with a convenient structure to replace the alarm check valve without stopping or loss of function. It is possible to reduce the number of processing parts for forming each mounting hole on the secondary side of the check valve itself, reduce each body and product, reduce the material cost and processing part of each product, Due to the nature of the piping installed around the complex and many obstacles to simplify the structure and the advantages and benefits can be expected.

Fig. 1 is a representative view of the present invention
Fig. 2 shows another embodiment of the present invention
Figure 3 is a cross-

The valve of the present invention has a valve body having an opening and closing port (12) formed at the boundary between the body and the bypass line of the branch pipe, and a pipe at the other side is connected to a screw And the outer channel is formed with a moving groove 14 made of a small threaded portion and is screwed with a spindle 2 inserted into the moving groove 14 and is brought into close contact with the O-ring 8 of the spindle, It is a branch tube that forms a pipeline that moves. And a screw is formed on the inner side in order to provide an overpressure prevention device using the function of a spring, and a spring for preventing overpressure is installed and supported And the external thread is used to form a connecting screw for connecting the external connecting pipe.

The spindle to be inserted into the body thus formed forms an opening / closing surface 22 for opening and closing the opening / closing part of the body. In the middle, an outer circumferential surface thread 21 An O-ring groove 24 for providing an O-ring 8 for securing airtightness is formed in contact with the moving groove of the body, and an operating knob 23 is formed for rotating the spindle and inserted into the valve body do. In order to prevent the coupled spindle from being detached, a screw is formed on the outer circumferential surface of the moving groove of the body so as to prevent the detachment of the spindle with respect to the axis.

The overpressure prevention device is a device for controlling the pressure generated inside the piping at a predetermined level or less. That is, the valve is a device that automatically opens the valve when the internal pressure of the pipe exceeds a certain pressure. This device has a function of causing the spring (3) to shrink or stretch when a certain pressure is exceeded. To this end, a fixing ring 6 having a fixing screw 63 screwed with a female thread of the valve mounting housing is fixed to the valve mounting housing to fix the spring on one side of the spring. At this time, the stationary ring forms an overpressure outlet (61) at the center of the stationary ring to discharge the overpressure fluid. In the lower part of the spring, a packing disk for opening and closing the valve and a packing disk are provided for the supporting structure for providing the packing with flexibility. The upper and lower parts of the packing disk are provided with a spring insertion rod 51 to be inserted into the spring at the upper part thereof and a packing mounting member 52 to be installed at the lower part thereof so as to open and close the valve by spring action. The outer circumferential surface of the disk forms a concavity and convexity so that the protruding portion can be moved up and down without any clearance by joining the disk to the inner circumferential surface of the spring housing so that the linear guide function of the spring can be secured and the function of airtightness is further improved . The indentation provides a clearance through which the fluid can escape when the valve is opened, thereby providing a passage through which the fluid is drawn into the spring housing and leads to the outlet. The structure for allowing the fluid coming in through the overpressure inlet 71 of the spring housing to be introduced into the spring housing has a structure in which a hole or a gap is formed between the inner circumferential surface of the spring tube and the disk and the packing or a hole is formed in the packing disk. So that the overpressure fluid is drawn in and eventually drained through the overpressure outlet 61.

Meanwhile, as shown in FIG. 2, the valve for preventing the overpressure by the spring to be opened and closed by the overpressure may be installed in the spring housing extended to the body of the spindle. That is, when the spindle body is formed by extending the body of the spindle so that the fluid can be absorbed in the rear portion of the spindle opening face 22 when the pressure is overpressed, the spindle body is connected to the flow path formed inside the spindle The over-pressure protection device structure described can be installed on the spindle body. In order to do this, if the overpressure absorption hole 25 is formed behind the opening / closing surface of the spindle to form the spring housing and the inner pipe, the number of the branch pipes of the valve body can be reduced.

The packing body 1 includes a body 1, a spindle 2, a spring 3, a packing 4, a packing disk 5, a stationary ring 6, an inner pipe thread 11, a gate 12, an outlet 13, (22).

Claims (3)

A spindle 2 having an O-ring formed by forming an O-ring mounting groove and an outer circumferential surface thread 21 on which an opening / closing surface and an opening / closing surface 22 are formed and a screw is formed on the outer circumferential surface, And an opening and closing port 12 formed with a hole for opening and closing the spindle. The other side duct is provided with an inner pipe thread 11 having an inner circumferential surface formed with a thread for the spindle insertion pipe and a moving groove 14 made of a minuscanner And a body (1) having at least one mounting hole for installing an external device on a side channel of the branch pipe,
A spring housing having a screw threaded portion 72 formed at its upper portion to form an overpressure inlet 71 for allowing a hole to be formed in the bottom surface of the body tube to communicate therewith, A packing is provided on one side of the packing disk formed with rims and rims are formed, and the other side is inserted into the spring, the other side of the spring is formed with a protrusion for insertion into the spring and a discharge part, A spindle operation valve that is formed by coupling an overpressure prevention device formed by an overpressure prevention device with a fixed body coupled to the spring housing and a valve The method according to claim 1,
The spindle operation valve and the overpressure operation valve, which are formed by forming four or more branch conduits, one of the side branch pipes of the body, the inner side of which is a spring housing for installing an overpressure prevention device, Integrated valve. The method of claim 1,
Pressure suction hole 25 is formed behind the opening and closing surface of the spindle so that the inner circumferential surface of the overpressure inlet 71 on the bottom surface of the spring housing through which the spindle body extends is used as a spring housing for inserting the overpressure prevention device, A valve that integrally forms a spindle operation valve and an over-pressure operation valve that are configured to form an external connection pipe by forming a corner and a screw.

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