KR20100065836A - Frozen to burst prevention valve for pipe - Google Patents

Abstract

PURPOSE: A pipe freezing prevention valve is provided to release pressure within a flow pipe and prevent a pipe from freezing by automatically transferring an opening valve. CONSTITUTION: A pipe freezing prevention valve comprises a hollow valve body(110), a fluid drain unit, and a pair of support members(130). The fluid drain unit is movably installed inside the valve body and discharges fluid by opening a valve body when pressure inside a flow pipe increases. A pair of support members are combined in the lower part of the valve body and prevent a fluid drain unit from being separated from a valve body. The fluid drain unit comprises a stop member(122), a stem member(123), an elastic member(124), an upper/lower force transmitting member(125,126), and an opening and closing member(121). The stop member restricts the moving distance of the opening and closing member.

Description

Frozen To Burst Prevention Valve For Pipe

The present invention relates to a pipe freeze protection valve, and more particularly, a pipe which can prevent freezing accidents in a pipe by completely discharging water in a pipe before the pipe freezes because the temperature of the outside air falls below the freezing point temperature of the water. It relates to a freeze protection valve.

In general, heating and cooling using water as a heat exchange medium are variously used in air-conditioning and air conditioning facilities, refrigeration and freezing facilities, and industrial facilities. In particular, water-cooled condensers, heat exchange coils of air-conditioning air conditioners, and evaporative cooling towers are exposed to sub-zero atmospheric temperatures or have the potential of freezing accidents due to problems of management failure.

These freezing accidents cause damage to buildings due to leakage of water as well as water resources loss, and enormous repair costs for repairing freezing facilities require efforts and measures to prevent them.

The water flowing inside the sealed pipeline does not freeze in the flow state, but when the flow reaches the freezing temperature, the water freezes and changes from liquid to solid, resulting in volume expansion (approximately 10%). If the pressure increase is not accepted by the pipeline or equipment, freezing is generated.

As a general countermeasure for preventing such freezing accidents, there are methods such as heat insulation, heating facilities, heating devices, mixing a brine which is an antifreeze in the fluid, and drainage to continuously flow the water in the pipe. An apparatus was required and there were problems such as water loss.

Meanwhile, a technology related to a freeze protection valve has been proposed to prevent freezing of pipes. By operating the freeze protection valve, the water in the pipe is drained by measuring the temperature in the pipe and operating the valve at or below a preset temperature. When some water in the pipe freezes by inserting the spring, the volume expands and the spring is pushed out by the increase of the pressure in the pipe.

However, in the case of a device that operates the valve according to the temperature change in the pipe, electricity has to be supplied separately in the valve, and in the case of the device that discharges water due to an increase in the pressure inside the pipe due to volume expansion, As a frequent operation, there was a problem in that the valve does not function properly, such as the valve is operated even when the pressure in the pipe increases.

The present invention for solving the above problems is provided with a plate spring having a working distance of about half of the operating distance of the coil spring in the pipe, when the pressure in the flow pipe increases by a certain amount, opening and closing by operation of the plate spring It is an object of the present invention to provide a pipe freeze prevention valve that can automatically prevent the pipe freeze by releasing the pressure in the flow pipe is automatically transferred.

In addition, it is another object to provide a pipe freeze protection valve having a structure that maintains an open state when opening and closing the valve by the operation of the spring, and simply returns to the original position after opening the valve.

Further, another object of the present invention is to provide a pipe freeze prevention valve in which a valve opening / closing operation can be performed without having a separate electric equipment in the pipe freezing prevention valve.

In the pipe freeze prevention valve according to the present invention for achieving the above object is a pipe freeze prevention valve for preventing the freezing of the flow pipe is coupled to the pipe port is formed in the lower portion of the flow pipe flowing fluid, the pipe port One side is coupled to, the valve body of the inner hollow open at both ends; A fluid discharge means movably coupled to the inside of the valve body and discharging the fluid by opening the valve body when the pressure in the flow pipe increases; And a pair of support members coupled to a lower portion of the valve body and preventing the fluid discharge means from being separated from the valve body.

Preferably, the valve body is characterized in that the thread is formed on the upper outer peripheral surface and the lower inner peripheral surface, a plurality of discharge holes through which the fluid is discharged in the middle portion is formed.

More preferably, the valve body is characterized in that the valve step is formed on the inner peripheral surface through which the inlet hole through which the fluid is introduced.

More preferably, the fluid discharge means is inserted and coupled to the inside of the valve body, the opening and closing member to block or flow the flow of fluid discharged through the pipe port; A stop member coupled to the inside of the valve body and simultaneously coupled to a lower portion of the open / close member and limiting a moving distance of the open / close member; A stem member penetrating the stop member to be coupled to the inside of the valve body and vertically moving by a pressure of a fluid transmitted through the opening / closing member; An elastic member coupled to the stem member and elastically deformed by a movement of the stem member; And an upper / lower load transfer member coupled to each of the upper and lower sides of the elastic member at the same time as the upper and lower load transfer members are coupled to the stem member and transfer a force to the elastic member when the stem member is moved. do.

More preferably, the stop member is screwed to the lower portion of the valve body.

Also more preferably, the elastic member is a through-hole is formed in the center, characterized in that the plate spring to form a constant slope from the center to the outer peripheral surface.

More preferably, the upper and lower load transfer members are each screwed to the stem member side, and the gap between the upper load transfer member and the lower load transfer member is adjustable.

Also more preferably, the fluid discharge means is coupled to the upper end of the opening and closing member, characterized in that the airtight member is further provided to prevent the fluid from leaking through the inlet hole of the valve step formed on the inner peripheral surface of the valve body do.

On the other hand, preferably, the pair of support members are each characterized in that a pair of nut holes are formed in the edge portion, the bolt is inserted into the nut hole has a structure coupled to each other.

According to the pipe freeze protection valve according to the present invention as described above, by providing a plate spring having a working distance of about half the operating distance of the coil spring in the pipe, when the pressure in the flow pipe increases by a certain amount of operation of the spring spring By opening and closing the valve is automatically transferred to the effect of relieving the pressure in the flow pipe to prevent pipe freezing.

In addition, the valve opening and closing operation can be made without having a separate electric equipment in the pipe freeze protection valve, there is an effect that can reduce the production cost of the valve by simplifying the structure of the valve.

Hereinafter, a pipe freeze protection valve according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the accompanying drawings, Figure 1 is an exploded perspective view showing the structure of the pipe freeze protection valve according to an embodiment of the present invention, Figure 2 is a perspective view of the coupling of Figure 1 and Figure 3 of the pipe freeze protection valve according to an embodiment of the present invention A cross section showing the internal structure.

The pipe freeze protection valve 100 according to the present invention is coupled to the pipe port 210 branched to measure the temperature of water and the like on one side of the flow pipe 200 in which water flows in the pipeline to allow the outside air to be below freezing temperature. When falling, the water in the pipe is frozen to prevent the freezing flow pipe 200 due to excess of the receiving pressure in the pipe.

Referring to the drawings, the pipe freeze protection valve 100 according to the present invention comprises a valve body 110, a fluid discharge means 120, and a pair of support members 130.

First, the valve body 110 according to the present invention is coupled to one side of the pipe port 210 formed as a lower portion of the flow pipe 200, both ends of the inner hollow member. Threads 110a and 110b are formed on the upper outer circumferential surface and the lower inner circumferential surface of the valve body 110, respectively, so that the thread 110a of the upper outer circumferential surface can be coupled to the piping port 210, and the thread 110b of the lower inner circumferential surface thereof. The stop member 122, which will be described later, enables the coupling.

In addition, a plurality of discharge holes 112 are formed in the middle of the valve body 110 so that water in the flow pipe 200 may be discharged. In addition, a valve step 111 formed through the center of the inlet hole 111 through which the water can flow through the pipe port 210 is formed in the valve body 110. The inlet hole 111 is opened or closed by the opening and closing member 121 to be described later, the water in the flow pipe 200 introduced through the inlet hole 111 is discharged through the outlet hole 112.

The discharge hole 112 is the water in the flow pipe 200 is lowered below the freezing temperature when the pressure in the flow pipe 200 increases, the opening and closing member 121 is pushed to the bottom, the opening and closing member 121 is completely downward If it is pushed out, it is opened.

The fluid discharge means 120 according to the present invention is coupled to the inside of the valve body 110 so as to be movable, the means for discharging water by opening the inlet 111 when the pressure in the flow pipe 200 increases, It comprises an opening and closing member 121, the stop member 122, the stem member 123, the elastic member 124, the upper load transfer member 125 and the lower load transfer member 126.

Opening and closing member 121 to block or flow the flow of water discharged through the discharge hole 112, the upper end of the opening and closing member 121, the airtight member to prevent leakage through the inlet hole 111 127 is further provided. The hermetic member 127 is made of a flexible material, and preferably has a property of not being corroded by water.

In addition, the stop member 122 according to the present invention is coupled to the lower portion of the opening and closing member 121 to limit the distance that the opening and closing member 121 can move inside the valve body 110. The distance within which the opening / closing member 121 may move may be a distance enough to open the discharge hole 112 of the valve body 110 by the movement of the opening / closing member 121. The stop member 122 is preferably screwed to the lower portion of the valve body (110).

In addition, the stem member 123 according to the present invention is moved by the increase in the pressure in the flow pipe 200 is transmitted through the opening and closing member 121, which transmits the force to the elastic member 124 side to be described later elastic member 124 is elastically deformed so that the opening and closing member 121 can open the discharge hole 112.

In addition, the elastic member 124 according to the present invention is coupled through the stem member 123 and elastically deformed by the movement of the stem member 123 to open and close the opening and closing member 121. The elastic member 124 is formed with a through hole (not shown) in the center, it is preferable to use a plate spring to form a constant slope from the center to the outer peripheral surface.

Here, the plate spring has a convex convex shape to the upper side, and when pressure is transmitted from the opening and closing member 121, the convex portion of the upper portion is forced to deform horizontally and when the horizontal deformed horizontally elastically the center The convex elastically deformed downwardly opens and closes the opening member 121 to completely open the inlet hole 111 and at the same time to open the outlet hole 112 of the valve body 110 so that the water in the flow pipe 200 falls out. To get out.

The discharge hole 112 is continuously opened to allow the water to completely escape to the outside, and when a slight force is applied from the outside, the plate spring is deformed into a convex shape to the upper portion of the original shape, and is opened and closed. The 121 closes the inlet hole 111 and the outlet hole 112 again.

In addition, the upper and lower load transfer member 126 is coupled to the stem member 123, but coupled to the upper and lower sides of the elastic member 124, the elastic member 124 side during the vertical movement of the stem member 123 To transfer the force transmitted to the opening and closing member 121 to. Preferably, the upper and lower load transfer members 126 are screwed to the stem member 123 side, respectively, and have a structure capable of adjusting an interval between the upper load transfer member 125 and the lower load transfer member 126. .

A pair of support members 130 according to the present invention is coupled to the lower portion of the valve body 110 serves to prevent the fluid discharge means 120 is separated from the valve body (110). A pair of nut holes 131 and 132 are formed at the edges of each of the pair of supporting members 130, and bolts 140 are inserted into the nut holes 131 and 132 to be coupled to each other. Have

4 to 6 of the accompanying drawings, the state of use of the pipe freeze protection valve according to an embodiment of the present invention, will be described below with reference to the operation state of the pipe freeze protection valve according to the present invention configured as described above. .

When the temperature of the outside air falls below the freezing temperature, the pressure in the flow pipe 200 increases, and when the pressure increases, the pressure is transmitted to the opening / closing member 121 to push the opening / closing member 121. As a result, a force is transmitted to the stem member 123, and the upper load transfer member 125 of the stem member 123 applies a force to the elastic member 124.

When a force is applied to the elastic member 124, the cone-shaped spring is horizontally elastically deformed downward, and when a little more force is applied in the horizontal state, the deformation is instantaneously made convex downward. The discharge hole 112 of the valve body 110 is completely opened, and the water in the flow pipe 200 is completely discharged to the outside.

Then, after the water in the flow pipe 200 is completely discharged, if the lower side of the stem member 123 is pushed up to the outside, the elastic member 124 is returned to its original state, and the discharge hole 112 again It is blocked so that the water flows in the flow pipe 200.

Elastic member 124 according to an embodiment of the present invention is a plate spring, the central portion has a convex shape to the upper or lower, when the force is applied to the center is bent horizontally to apply a little more force in the horizontal state If the shape is reversed has the property of changing.

As a result, unlike the conventional valve using the coil spring, the operation distance of the opening and closing member 121 can be reduced by half.

1 is an exploded perspective view showing the structure of a pipe freeze protection valve according to an embodiment of the present invention;

2 is a perspective view of the combination of FIG.

3 is a cross-sectional view showing the internal structure of the pipe freeze protection valve according to an embodiment of the present invention; And

4 to 6 is a state diagram used in the pipe freeze protection valve according to an embodiment of the present invention.

※ Explanation of symbols for main parts of drawing

100: pipe freeze prevention valve 110: valve body

120: fluid discharge means 121: opening and closing member

122: stop member 123: stem member

124: elastic member 125, 126: upper and lower load transfer member

127: airtight member 130: support member

200: flow piping 210: piping port

Claims (9)

In the pipe freeze prevention valve coupled to the pipe port formed in the lower portion of the flow pipe flowing fluid to prevent freezing of the flow pipe, One side is coupled to the pipe port, both ends of the inner hollow valve body; A fluid discharge means movably coupled to the inside of the valve body and discharging the fluid by opening the valve body when the pressure in the flow pipe increases; And And a pair of support members coupled to a lower portion of the valve body and preventing the fluid discharge means from being separated from the valve body. The method of claim 1, The valve body has a thread formed on the upper outer circumferential surface and the lower inner circumferential surface, a plurality of discharge holes through which the fluid is discharged in the middle portion formed through the pipe freeze prevention valve. 3. The method of claim 2, The valve body is a pipe freeze prevention valve, characterized in that the valve stepped through the inlet hole through which the fluid flows is formed on the inner peripheral surface. The method according to any one of claims 1 to 3, The fluid discharge means is inserted and coupled to the inside of the valve body, opening and closing member to block or flow the flow of the fluid discharged through the pipe port; A stop member coupled to the inside of the valve body and simultaneously coupled to a lower portion of the open / close member and limiting a moving distance of the open / close member; A stem member penetrating the stop member to be coupled to the inside of the valve body and vertically moving by a pressure of a fluid transmitted through the opening / closing member; An elastic member coupled to the stem member and elastically deformed by a movement of the stem member; And And an upper and lower load transfer member coupled to each of the upper and lower sides of the elastic member at the same time as the upper and lower load transfer members are coupled to the stem member, and transfer a force to the elastic member side when the stem member is moved. Piping freeze valve. The method of claim 4, wherein The stop member is a pipe freeze prevention valve, characterized in that screwed to the lower portion of the valve body. The method of claim 4, wherein The elastic member is a pipe freeze prevention valve, characterized in that the through-hole is formed in the center, the plate spring to form a constant slope from the center to the outer peripheral surface. The method of claim 4, wherein The upper / lower load transfer member is screwed to the stem member side, the pipe freeze prevention valve, characterized in that the gap between the upper load transfer member and the lower load transfer member is adjustable. The method of claim 4, wherein The fluid discharge means is coupled to the upper end of the opening and closing member, the pipe freeze prevention valve, characterized in that the airtight member is further provided to prevent the fluid leakage through the inlet hole of the valve step formed on the inner peripheral surface of the valve body. The method of claim 1, Each of the pair of supporting members has a structure in which a pair of nut holes are formed at an edge portion thereof, and the bolts are inserted into the nut holes to be mutually coupled to each other.

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