KR101700126B1 - Pressure reducing valve structure for fire fighting - Google Patents

Abstract

The present invention provides a pressure reducing valve structure for firefighting. The pressure reducing valve structure for firefighting comprises: a valve body part having an inlet port through which fire water flows in one side and an outlet port through which the fire water flowing in the other side flows out and forming a main flow path connecting the inlet port and the outlet port; a decompression unit disposed on the flow path connecting the inlet port and the outlet port, for reducing pressure of outflowing fire water; and a valve cooling unit installed at an outer periphery of the valve body part to cool the valve body part to a predetermined cooling temperature when an external temperature value reaches a set temperature.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure relief valve structure,

The present invention relates to a pressure reducing valve structure for a fire extinguisher, and more particularly, to a fire extinguishing valve structure for a fire extinguishing valve, more specifically, when a valve body is exposed to a flame, To a fire extinguishing valve structure capable of effectively preventing a temperature rise of a fire water from being damaged by a rubber component disposed inside a valve body by cooling the fire extinguisher to a predetermined temperature so as not to overheat the fire extinguisher.

Normally, in a fire fighting system, the indoor sprinkler system and the indoor fire hydrant system must satisfy the regulations that the radiation pressure of the fire water at each end should not exceed 12 kg / cm 2 (sprinkler) and 7 kg / cm 2 (indoor fire hydrant) do.

Since the water pressure exceeding the prescribed pressure is supplied through the pump, for example, it is necessary to reduce the pressure through the decompression device before supplying the sprinkler or the indoor fire hydrant pipe, and then supply the fire water of the reference pressure according to the legal regulations.

1 is a cross-sectional view showing a generally used fire-fighting pressure reducing valve.

1, the conventional indoor decompression reducing valve includes an inlet 10, an outlet 20, a valve stem 30, an opening / closing plate 32, a pressure adjusting pipe 34, a height adjuster 36, A handle 40, and the like.

The fire water flows in the arrow direction through the inlet 10 and flows out to the outlet 20 through the inside of the valve.

In the conventional pressure reducing valve, the upper handle 40 is rotated to raise the opening / closing plate 32 attached to the valve rod 30, thereby opening the opening which is the passage through which the fire water flows.

Then, the fire water flowing through the inlet 10 flows out through the outlet 20 after passing through the opening in the interior.

At this time, when the pressure of the fire water flowing out through the outlet 20 is higher than a certain level, the high-pressure fire water flows into the lower portion of the valve through the pressure control pipe 34 communicating with the outlet 20 and the lower portion of the valve, (36) is lowered.

Since the height adjusting portion 36 is attached to the lower portion of the valve rod 30, the valve rod 30 is also lowered as the height adjusting portion 36 is lowered.

As a result, the opening / closing plate 32 attached to the valve rod 30 descends and the size of the opening is reduced to control the amount of the water discharged.

Thus, the pressure reducing valve shown in Fig. 1 is a valve capable of reducing the pressure of the fire-fighting water flowing out to the outflow port.

However, in the structure of the inside of the fire suppression reducing valve, the rubber material is used for the disk. In such a case, when the fire suppression reducing valve is caught in the flame by the fire, the rubber material causes serious damage due to high heat have.

However, if the flame is surrounded by a valve, the fire water itself is heated by the temperature rise of the inlet and the outlet, thereby efficiently cooling the valve. There is no problem.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water purifier which is configured such that when the valve body is exposed to a flame, the temperature of the water flowing into the inlet port and flowing out through the outlet port is made constant to a predetermined temperature, And a valve body for cooling the valve body to prevent damage of the rubber part disposed inside the valve body and to effectively prevent the temperature rise of the fire-fighting water.

In a preferred aspect, the present invention provides a reduced pressure relief valve structure.

Wherein the valve body is formed with an inlet port through which the fire water flows in one side and an outlet port through which the fire water flowing in the other side flows out and forms a main flow path connecting the inlet port and the outlet port; A decompression unit disposed on the flow path connecting the inlet port and the outlet port and reducing the pressure of the outflow water; And a valve cooling unit installed at an outer periphery of the valve body to cool the valve body to a predetermined cooling temperature when an external temperature value reaches a set temperature.

The valve cooling unit includes a cooling body body disposed around the valve body and having a cooling water circulation passage formed therein, a cooling water circulator circulating the cooling water in the cooling water circulation passage so as to have a predetermined cooling temperature, A second temperature sensor for measuring an internal temperature of the valve body, and a controller for driving the cooling water circulator.

The controller preferably drives the cooling water circulator such that the fire temperature and the cooling temperature are set and the external temperature reaches the fire temperature so that the internal temperature reaches the cooling temperature.

The valve body may be formed with an auxiliary flow path for connecting the inlet port and the outlet port to form a flow path for the water-purifying water.

Wherein the auxiliary flow path is provided with a three-way valve which is adjacent to the cooling water circulating flow path and which is driven under the control of the controller to form any one of the main flow path and the auxiliary flow path, It is preferable that when the external temperature reaches the fire temperature, the main flow passage is closed by using the three-way valve, and the auxiliary flow passage is opened.

Preferably, the valve cooling portion is detachably installed on an outer periphery of the valve body portion.

It is preferable that a lifting plate is provided on the auxiliary flow path so as to adjust the flow path area of the auxiliary flow path so as to reduce the pressure of the water discharge water flowing out to the outflow port to a predetermined pressure.

Preferably, the end of the outlet is provided with a cap to be screwed, and the cap is formed of a thermal expansion material. When the fire temperature is reached, the cap thermally expands and the screw is released from the end of the outlet.

In the present invention, when the valve body is exposed to the flame, the temperature of the fire-fighting water flowing into the inlet port and flowing out through the outlet port is made constant so as to achieve a predetermined temperature, and the valve body itself is cooled to a predetermined temperature, It is possible to prevent the damage of the rubber part disposed inside the valve body part and to effectively prevent the temperature rise of the water heater.

1 is a cross-sectional view showing a generally used fire-fighting pressure reducing valve.
2 is a view showing a structure of a pressure reducing valve structure for a fire extinguisher according to the present invention.
3 is a view showing an example in which the auxiliary flow path according to the present invention is formed.
4 is a view showing a structure of a pressure reducing valve structure for a fire in which a cap is installed.
5 is a view showing the installation state of the cap according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fire suppression valve structure will be described with reference to the accompanying drawings.

FIG. 2 is a view showing a structure of a pressure reducing valve structure according to the present invention, and FIG. 3 is a view showing an example of forming an auxiliary flow path according to the present invention.

2, the fire suppression valve structure according to the present invention has an inlet 101 through which fire water flows in one side and an outlet 102 through which fire water flowing in the other side flows out. The inlet 101, A valve body portion 100 forming a main flow path 110 connecting the inlet port 101 and the outlet port 102 to each other and a valve body 100 disposed on the flow path connecting the inlet port 101 and the outlet port 102, The valve body 100 is provided with a pressure reducing part 200 and a valve body 100. The valve body 100 is cooled to a predetermined cooling temperature when the temperature of the valve body 100 reaches a predetermined temperature And a valve cooling unit 300.

The valve cooling unit 300 includes a cooling unit body 310 disposed around the valve body 100 and having a cooling water circulation flow path 311 formed therein, A cooling water circulator 320 for circulating the cooling water at a predetermined cooling temperature, a first temperature sensor 330 for measuring an external temperature of the valve body 100, And a controller 350 for driving the cooling water circulator 320. The second temperature sensor 340 measures the temperature of the cooling water circulated by the cooling water circulator 320,

It is preferable that the controller 350 drives the cooling water circulator 320 such that the fire temperature and the cooling temperature are set and the external temperature reaches the fire temperature so that the internal temperature reaches the cooling temperature Do.

The valve body 100 may be formed with an auxiliary flow path 400 connecting the inlet 101 and the outlet 102 to form a flow path for the water.

The auxiliary flow path 400 is adjacent to the cooling water circulating flow path 311. The inflow port 101 is driven in accordance with the control of the controller to supply inflow water to the main flow path or the auxiliary flow path 400 A three-way valve 410 is provided.

 When the external temperature reaches the fire temperature, the controller 350 closes the main flow path and opens the auxiliary flow path 400 using the three-way valve 410.

The main flow path is a flow path connecting the inlet 101 to the outlet 102 and the auxiliary flow path 400 is formed when the inlet 101, the auxiliary flow path 400 and the outlet 102 are formed.

The valve cooling unit 300 may be detachably installed on the outer circumference of the valve body 100. Therefore, it is easy to replace and install the valve cooling part from the valve body part by detachment in the module type.

Here, the valve cooling units may be formed as a pair to be coupled to each other, and a sealing ring may be provided therebetween.

In the interior of the valve cooling portion to be coupled to each other, a receiving groove is formed to receive the valve body portion.

A lifting plate (not shown) is installed on the auxiliary passage 400 so as to adjust the passage area of the auxiliary passage 400 to reduce the pressure of the water discharged to the outlet 102 to a predetermined pressure . The lifting plate is connected to a rod projecting to the outside, and the rod can be raised and lowered by the expansion and contraction action of the cylinder.

FIG. 4 is a view showing a structure of a pressure reducing valve structure for a fire in which a cap is installed, and FIG. 5 is a view showing an installation state of a cap according to the present invention.

4 and 5, at the end of the outlet 102, a cap 500 to be screwed (S) is further installed.

The cap 500 is formed of a thermal expansion material and when the fire temperature is reached, the cap 500 is thermally expanded so that the screw connection S can be released and removed from the end of the outlet 102.

According to the above-described configuration and operation, in the embodiment of the present invention, when the valve body portion is exposed to the flame, the temperature of the water-heating water flowing into the inlet port and flowing out through the outlet port is made constant to a predetermined temperature, It is possible to prevent the rubber component disposed inside the valve body from being damaged and to prevent the temperature rise of the water heater efficiently by cooling the valve body to a predetermined temperature so as not to overheat.

Although the present invention has been described with respect to specific embodiments thereof, it will be apparent that various modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: valve body portion
200:
300: valve cooling section
400: auxiliary flow path
500: cap

Claims (4)

A valve body portion having an inlet port through which the fire water flows in one side and an outlet port through which the fire water flowing in the other side flows out and forms a main flow passage connecting the inlet port and the outlet port;
A decompression unit disposed on the flow path connecting the inlet port and the outlet port and reducing the pressure of the outflow water; And
And a valve cooling unit installed on an outer periphery of the valve body to cool the valve body to a predetermined cooling temperature when the external temperature reaches a preset fire temperature,
The valve-
A cooling body disposed on an outer periphery of the valve body and having a cooling water circulation passage formed therein,
A cooling water circulator circulating the cooling water in the cooling water circulation channel so as to have a predetermined cooling temperature,
A first temperature sensor for measuring an external temperature of the valve body,
A second temperature sensor for measuring an internal temperature of the valve body,
And a controller for driving the cooling water circulator,
Wherein the controller is configured to drive the cooling water circulator such that the fire temperature and the cooling temperature are set so that the internal temperature reaches the cooling temperature when the external temperature reaches the fire temperature,
Wherein a cap for screwing is further provided at an end of the outlet,
Wherein the cap is formed of a thermal expansion material, and when the fire temperature is reached, the cap is thermally expanded to unlock the screw so that the cap is detached from the end of the outlet.
delete The method according to claim 1,
In the valve body portion,
An auxiliary flow path for connecting the inlet port and the outlet port to form a flow path for the water-purifying water,
Wherein the auxiliary flow path is adjacent to the cooling water circulation flow path,
Wherein the inlet port is provided with a three-way valve which is driven under the control of the controller to form any one of the main flow path and the auxiliary flow path,
Wherein the controller closes the main flow path by using the three-way valve and opens the auxiliary flow path when the outside temperature reaches the fire temperature.
delete

Images