KR20010100106A - Frozen to burst prevention device for water pipe - Google Patents

Abstract

The present invention relates to a freeze protection device of a water pipe, the object is to automatically discharge the water in the water pipe immediately before freezing to prevent its freezing.

To this end, according to the freeze protection device of the water pipe 10 according to the present invention, in the direction in which the rotational packing 42 opens the drain hole 31 through the spiral bimetal 50 that contracts when the outside air temperature falls below the freezing point temperature. It rotates a predetermined angle, and the water in the water pipe 10 is discharged automatically by this. On the other hand, when the spiral bimetal 50 is maintained above the freezing point temperature and expanded, the rotary packing 42 rotates in the direction of closing the drain hole 31 so that water is not discharged. Therefore, the drainage hole 31 is automatically opened mechanically under the condition of the freezing point temperature, which is concerned about freezing, so that the freezing of the water pipe 10 is prevented.

Description

Frozen to burst prevention device for water pipes

The present invention relates to a freeze protection device for water pipes, and more particularly, to a freeze protection device for water pipes capable of preventing the freezing of water pipes by automatically discharging a small amount of water in the pipeline immediately before freezing of the water pipes exposed to the atmosphere. will be.

Conventionally, in order to prevent a water pipe from freezing from a cold wave, the method of spirally winding a constant temperature heating wire to a water pipe or a water valve is disclosed.

In other words, if the constant temperature heating wire is wrapped around the water supply pipe and the power is applied at a time when the water pipe freezing is concerned, the heat generated from the constant temperature heating wire keeps the water pipe at a constant temperature, thereby preventing the water pipe freezing due to the temperature decrease in winter. .

However, in this conventional method, it is of course difficult to install the constant temperature heating wire, and there is a hassle for the user to apply power.

In addition, the power supply is difficult to use in an area that is difficult to use, even in the event of a power failure in the winter there is a problem that the water pipe is freezing.

The present invention is to solve such a problem, an object of the present invention is to provide a freeze protection device for water pipes that can prevent the freezing by automatically discharging the water in the water pipes when the outside temperature falls below the freezing point temperature. will be.

In addition, another object of the present invention is to provide a freeze protection device of a water pipe that is automatically operated automatically according to the temperature change of the outside air without supplying a separate power.

Figure 1 is a side cross-sectional view of the freeze protection of the water pipe according to the present invention, showing a state in which the drain hole is open.

Figure 2 is a perspective view showing the internal structure of the freeze protection device according to the present invention.

Figure 3 shows the operating state of the freeze protection device according to the present invention, it shows a state in which the drain hole is closed.

Figure 4 shows the operating state of the freeze protection device according to the present invention, it shows a state in which the drain hole is open.

* Description of the symbols for the main parts of the drawings *

20. Casing 21. Upper casing

22. Lower casing 30. Compartment wall

31 .. drainage 40. valve means

41..Valve housing 42.Rotary packing

50.Spiral bimetal

The present invention for achieving this object is;

A casing having an inlet connected to the water pipe and an outlet communicating with the atmosphere; A partition wall partitioning the casing into an inlet-side space communicating with the inlet and an outlet-side space communicating with the outlet, and having a drainage hole communicating therewith; Valve means disposed in the outlet side space to open and close the drain hole of the partition wall; It is installed in the outlet side space and the outer end is fixed and the inner end is connected to the valve means characterized in that it has a spiral bimetal for operating the valve means to open the drain hole while shrinking when the ambient temperature falls below the freezing point temperature.

In addition, the valve means is usually provided with a lower portion in the partition wall, and the valve housing in which the drain hole is perforated on the side, rotatably installed in a state in close contact with the inside of the valve housing and drained so as to communicate with the drain hole when a predetermined angle rotates in one direction. Rotational packing provided with a flow path, characterized in that it comprises a connecting rod for connecting the inner end of the spiral bimetal and the central portion of the rotational packing.

In addition, the valve housing is provided to be installed in the partition wall;

The spiral bimetal is placed directly below the rotary packing built into the valve housing so that the water discharged through the drainage channel can fall and collide, and the rotary packing rotates in the direction to close the drain hole while expanding when water above the freezing point is discharged. It is characterized by.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the freeze protection device of the water pipe according to the present invention is directly connected to the middle of the water pipe 10, the casing 20 to which the water in the pipeline flows, and the inside of the casing 20 in the inlet side space A partition wall 30 partitioned into (A) and a water discharge side space B and provided with drain holes 31 so as to communicate with each other, valve means 40 for opening and closing the drain hole 31 of the partition wall 30; The valve means 40 is provided with a helical bimetal 50 that operates according to the ambient temperature.

The casing 20 has an upper casing 21 having an inlet 21a formed therein so as to be connected to the water pipe 10, and a lower casing having an outlet 22a formed at a lower edge of the upper casing 21. (22) is provided. That is, the casing 20 is a partition plate 30 and the valve means 40 and the spiral bimetal 50 is installed between the upper casing 21 and the lower casing 22 to seal them, and the inside of the water A space for circulation is formed. At this time, the inlet 21a of the casing 20 is directly coupled to the water pipe 10 through the ring-shaped connecting member 11 so as to communicate with the inside of the water pipe 10.

The partition wall 30 communicates the inner space of the casing 20 with the inlet 21 so that water enters and the water outlet side B communicates with the outlet 22a so that water flows outward. The valve means 40 is installed in the center thereof.

That is, the valve means 40 is integrally provided at the center of the partition wall 30, and the valve housing 41 in which the drain hole 31 is drilled in the side surface 41b is rotatable inside the valve housing 41. It is installed and the rotary packing 42 is provided in the drainage passage 42a in the axial direction so as to communicate with the drain hole 31, and the connecting rod connecting the rotary packing 42 and the inner end 52 of the spiral bimetal 50 ( 43).

The valve housing 41 is provided in the direction in which it enters the center part of the partition wall 30, Comprising: It consists of the cylindrical shape which has the upper surface 41a and the normal side surface 41b, and the lower part opened.

The rotary packing 42 is injection molded into a cylindrical shape through the elastic rubber and maintained in close contact with the inner circumference of the valve housing 41. As a result, when the rotary packing 42 slightly rotates in the forward direction so that the drain passage 42a is shifted from the drain hole 31, the drain hole 31 is surely closed so that the water in the water inlet-side space A is not discharged. On the other hand, when the rotary packing 42 is rotated by a predetermined angle in the reverse direction and the drainage passage 42a and the drain hole 31 coincide with each other, the water in the water inlet-side space A flows into the water outlet-side space B through the drain hole 31. Get out. The rotational movement of the rotary packing 42 is made through the spiral bimetal 50 connected through the connecting rod 43.

And the spiral bimetal 50 is disposed at the bottom of the water exit side space (B), the outer end 51 is firmly fixed through the fixing member 53 and the inner end 52 is connected to the connecting rod 43 It is composed of a kind of winding shape composed of free ends. The spiral bimetal 50 has a low temperature characteristic and is manufactured in the shape of a spiral by joining two kinds of metal plates having different thermal expansion rates. The spiral bimetal 50 rotates with the connecting rod 43 while shrinking or expanding insensitively with temperature change. Rotate 42 in the forward and reverse directions.

At this time, it is preferable to set the degree of contraction and expansion of the spiral bimetal 50 such that the end portions of the drain hole 31 and the drain passage 42a communicate with each other or are displaced through the spiral bimetal 50. That is, when the spiral bimetal 50 maintains the expanded state (when the ambient temperature is equal to or higher than the freezing point temperature), the drain hole 31 and the drain passage 42a are kept in a misaligned state, while the spiral bimetal 50 contracts. In this case (when the ambient temperature is below the freezing point temperature), it is preferable to set the degree of expansion and contraction of the helical bimetal 50 to the extent that the ends of the drain hole 31 and the drain passage 42a coincide.

This helical bimetal 50 is disposed directly below the rotary packing 42 to expand the helical bimetal 50 again when the temperature of the discharged water is above the freezing point temperature. That is, even when the ambient temperature is below the freezing point temperature, when water is continuously discharged above the freezing point temperature, the spiral bimetal 50 is also maintained at the freezing point temperature while colliding with the water, whereby the spiral bimetal 50 is again. Rotating packing 42 is operated in the direction of closing the drain hole 31 while expanding.

Next, the operation of the freeze protection device according to the present invention configured as described above and the effects thereof will be described.

First, when the ambient temperature is above the freezing point temperature, since the spiral bimetal 50 is in an expanded state, as shown in FIG. 3, the position of the rotary packing 42 in the valve housing 41 is determined by the drain hole 31. The end of the drain passage 42a is maintained in a displaced state. Accordingly, except for the winter season when the weather falls to the sub-zero temperature, the drain hole 31 is kept blocked by the rotary packing 42 so that water is not discharged.

On the other hand, when the outside air temperature falls below the freezing point temperature in winter, when the freezing of the water pipe 10 is concerned, as shown in Figs. 1 and 4, the spiral bimetal 50 is contracted in the direction of the arrow "D" connection The rotary packing 42 rotates together with the rod 43. As a result, the drain hole 31 and the drain passage 42a are gradually communicated with each other, so that the water in the water pipe 10 flows into the inlet side space A while the outlet hole 31 is discharged from the outlet side space B. Through 22a). As a result, the water in the water pipe 10 is gradually discharged to the outside, so that the water pipe 10 is not freezes even in winter when the water temperature is maintained at sub-zero temperatures.

At this time, the water falling into the water outlet side space B through the drain hole 31 and the drain passage 42a is discharged to the outside while hitting the spiral bimetal 50 located directly below the rotary packing 42.

In addition, after the water of the water pipe 10 exposed to the air is completely discharged, relatively warm water existing in the water pipe buried in the ground may be discharged through the drain hole 31 and the drain passage 42a.

This warm water collides with the spiral bimetal 50, as described above. As a result, the spiral bimetal 50 that has been contracted gradually rises in temperature and expands again, whereby the rotary packing 42 rotates in the direction of closing the drain hole 31 so that water is no longer discharged (see FIG. 3). .

In addition, when the spiral bimetal 50 is contracted again due to the influence of the outside temperature after a certain time has elapsed, the rotary packing 42 rotates in the direction of opening the drain hole 31 again (see FIG. 4).

Therefore, the valve means 40 of the freeze protection device is automatically opened in winter when the water pipe 10 is freezing, and thus the water pipe 10 can be prevented without additional management. In addition, even in a condition where the freezing is concerned, the discharged water and the helical bimetal 50 exchange heat, so that the opening and closing operation of the drain hole 31 is automatically repeated, thereby preventing waste of water.

On the other hand, when water is continuously flowing through the water pipe 10, even if the ambient temperature is below the freezing point temperature, it is obvious that the actual temperature of the water pipe 10 is maintained above the freezing point temperature. Accordingly, since the actual temperatures of the casing 20 and the spiral bimetal 50 directly connected to the middle of the water pipe 10 are also equal to or higher than the freezing point temperature, when the water in the water pipe 10 flows, the drain hole 31 is closed. Is maintained (see FIG. 3).

In addition, the technical idea is that the freeze protection device is installed in the middle of the water pipe (10) as an example, even if installed on the water valve or water meter side can prevent their freezing.

As described in detail above, according to the freeze protection device of the water pipe according to the present invention, the rotating packing rotates a predetermined angle in the direction of opening the drain hole through the spiral bimetal contracted when the outside air temperature falls below the freezing point temperature, As a result, water in the water pipe is automatically discharged. On the other hand, when the spiral bimetal is kept above the freezing point temperature and expanded, the rotating packing rotates in the direction of closing the drain hole so that water is not discharged. Therefore, the drainage hole is automatically opened mechanically under the condition of the freezing point temperature, which is concerned about freezing, so that the freezing of the water pipe is prevented.

Claims (3)

A casing 20 having an inlet 21a connected to the water pipe 10 and an outlet 22a communicating with the atmosphere; A partition wall in which the inside of the casing 20 is divided into an inflow side space A communicating with the inlet 21a and an outlet side space B communicating with the outlet 22a, and a drain hole 31 communicating therewith is provided. 30; Valve means (40) disposed in the outlet side space (B) to open and close the drain hole (31) of the partition wall (30); It is installed in the water outlet side space (B) and the outer end 51 is fixed and the inner end 52 is connected to the valve means 40 so that when the ambient temperature falls below the freezing point temperature, the drain hole 31 is opened Water pipe freeze protection device characterized in that it comprises a spiral bimetal (50) for operating the valve means (40) as possible. The method of claim 1, The valve means 40 is; A valve housing 41 having a lower portion open to the partition wall 30 and having a perforated drainage hole 31 at a side surface 42b; Rotating packing 42 is rotatably installed in close contact with the inside of the valve housing 41 and provided with a drainage passage 42a so as to communicate with the drain hole 31 at a predetermined angle in one direction. The freeze block of the water pipe, characterized in that it comprises a connecting rod (43) connecting the central portion of the rotary packing (42) and the inner end (52) of the spiral bimetal (50). The method of claim 2, The valve housing (41) is provided to be installed in the partition wall (30); The helical bimetal 50 is disposed directly below the rotary packing 42 embedded in the valve housing 41 so that water discharged through the drain passage 42a falls and collides with each other. Water pipe freeze protection device, characterized in that for rotating when the rotary packing 42 in the direction of closing the drain hole 31 while being expanded.