KR20150004116U - a pipe with froze and burst Protection - Google Patents

Abstract

The present invention relates to a refrigerant tube having a freezing prevention device for preventing the refrigerant tube from being ruptured due to expansion during freezing of the refrigerant by inserting a tube having a certain inner diameter while being sealed with a space inside the refrigerant tube.

Description

[0001] The present invention relates to a pipe with froze and burst protection,

The present invention relates to a refrigerant tube having a freezing prevention device for preventing the refrigerant tube from being ruptured due to expansion during freezing of the refrigerant by inserting a tube having a certain inner diameter while being sealed with a space inside the refrigerant tube.

Generally, heating and cooling using water as a heat exchange medium are widely used in air conditioning and air conditioning equipment, refrigeration and freezing facilities, and industrial facilities.

Particularly, the water-cooled condenser, the heat exchanger coil of the air conditioner, and the evaporative cooling tower are exposed to the subzero atmosphere temperature, and the problem of the management noises implies the possibility of the accident of the pipe rupture.

Such a frost accident causes not only water loss but also damages of buildings caused by water leakage and loss of huge repair cost for repair work of the frosted facilities, so efforts and countermeasures are needed to prevent such damage.

Water flowing in the closed channel does not freeze in the flow state, but when it reaches the freezing temperature in the stopped flow state, the water freezes and changes phase from liquid to solid to cause volume expansion, and the pressure increase due to this volume expansion If it can not be accommodated in ducts or devices, it will generate frost.

As a general countermeasure for preventing such a frost accident, there is a method such as thermal insulation, a heating device, a heating device, a mixing of brine as an antifreeze in the fluid, and a drainage for continuously flowing the water in the pipe. However, A device was required and there was a problem such as water loss.

As a method for solving such problems, a conventional anti-freeze valve is disclosed in Japanese Patent No. 975674. As shown in FIG. 1, the anti-freeze valve 100 includes a valve body 110, A pipe 120, a receiver 130, and an on-off valve 140.

The valve body 110 is preferably a cylindrical pipe having an upper portion and a lower portion. The valve body 110 is threaded so that the coupling pipe 120 and the receiver 130 can be screwed into the valve body 110, A through hole 110a for discharging water flowing through the connection pipe 120 is formed in a side surface of the connection pipe 110. The connection pipe 120 is connected to a pipe port 210, the upper and lower portions are screwed into the piping port 210 and the valve body 110, respectively.

An opening and closing valve 140 and a compression spring 150 are provided on the upper portion of the container 130. The opening and closing valve 140 opens and closes the outlet of the connection pipe 120, A compression spring support 144 is provided

However, the above-described freeze prevention valve is disadvantageous in that the piping port 210 is provided only at an arbitrary place and can not easily cope with the pressure change generated in the entire flow piping 200, thereby reducing the effect of preventing freezing.

In order to solve the above-mentioned problems, it is an object of the present invention to provide a refrigerator which can prevent the freezing of the refrigerant tube by forming a constant expansion region while controlling the amount of refrigerant to be constant, A refrigerant tube having a freezing prevention device for preventing freezing of the refrigerant in the entire refrigerant pipe so that circulation of the refrigerant can be facilitated, .

In order to achieve the above object, the present invention provides a refrigerant tube having a frost preventing device having a structure in which a tube of a closed structure having a space is inserted inside a refrigerant tube.

The refrigerant tube of the present invention is provided with a cooling fin, and the refrigerant tube is connected to the refrigerant tube through a header.

Further, the refrigerant tube of the present invention provides a refrigerant tube having a straight main tube and a curved joint tube connected to each other through coupling means, and the coupling means is a bolt and a nut.

In addition, the tube of the present invention provides a refrigerant tube having a freezing prevention device to which a helical supporting membrane is further connected.

Then, the tube of the present invention is formed into a straight line sealed at both ends, and is provided with a freezing prevention device which is suspended inside the main tube.

As described above, according to the present invention, it is possible to prevent the freezing of the refrigerant tube by forming a constant expansion region while regulating the amount of the refrigerant to be constant and to prevent the freezing of the refrigerant tube. Of course, the inside of the refrigerant tube is easily cleaned, the circulation of the refrigerant is facilitated, and the effect of preventing the freezing of the refrigerant tube as a whole can be obtained.

1 is a side view showing a conventional state of installing a freeze prevention valve.
2 is an installation state diagram of a refrigerant tube equipped with a device for preventing freezing according to the present invention.
FIGS. 3 and 4 are sectional side views and sectional views of the refrigerant tube according to the present invention, respectively.
5 and 6 are cross-sectional views illustrating the expansion state of the refrigerant tube according to the embodiment of the present invention.
7 is a perspective view of the refrigerant pipe according to the present invention.

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

3 and 4 are cross-sectional views of the refrigerant tube according to the present invention and FIGS. 4 and 5 are sectional views of the refrigerant tube according to the present invention. FIGS. 5 and 6 are cross- FIG. 7 is a perspective view illustrating a refrigerant pipe according to an embodiment of the present invention. FIG. 7 is a perspective view illustrating a refrigerant pipe according to an embodiment of the present invention.

The present invention has a structure in which a tube 500 having a closed structure having a space is inserted into the inside of the refrigerant pipe 510 and restricts the amount of the refrigerant r flowing in the contraction space and the refrigerant pipe 510 flowing through the refrigerant pipe 510 Respectively.

The refrigerant pipe 510 is connected to the refrigerant pipe 510 through a header 530 while the refrigerant pipe 510 is provided with a cooling fin 515.

The coolant pipe 510 is connected to the straight main pipe 511 and the curved joint pipe 513 through a coupling means 520.

At this time, the coupling means 520 is selected from a bolt / nut coupling structure connecting the main pipe and the joint pipe, or welding connecting the main pipe and the joint pipe.

In addition, the spiral support film 505 is integrally connected to the outer diameter side of the tube 500.

Subsequently, the tube 500 is formed so as to correspond to the entire length of the straight main tube 511 or the main tube to be connected to each other, so that both ends thereof are sealed to have a sealing structure.

In this case, the tube 500 is formed in various shapes such as a circle or an ellipse having a space inside, and is installed to float on the surface of the refrigerant r filled in the refrigerant tube 510.

The operation of the present invention constructed as described above will be described.

As shown in FIGS. 2 to 7, the present invention is characterized in that a tube 500 of a closed structure having a space is inserted into the inside of the refrigerant pipe 510, and the refrigerant r The expansion of the refrigerant tube 510 can be prevented.

In the present invention, the amount of the refrigerant injected into the refrigerant pipe 510 is always controlled by the tube 500 so that the amount of the refrigerant injected into the refrigerant pipe 510 becomes a predetermined amount or less, Thereby making it possible to form a space for expansion, thereby solving the problem that the refrigerant pipe 510 ruptures.

The refrigerant pipe 510 is provided with a cooling fin 515 on its outer diameter side so that heat transfer is facilitated and the refrigerant pipe can be supported through the header 530.

At this time, the refrigerant pipe 510 is prevented from being ruptured by the tube 500 disposed inside thereof, so that the cooling fins 515 and the header 530 outside the refrigerant pipe are exchanged for replacement at the time of the rupture of the refrigerant pipe 510 The inconvenience of separating is eliminated.

In addition, the refrigerant pipe 510 may be continuously and zigzagly bent so as to have a desired heat transfer area, and the linear main pipe 511 and the curved joint pipe 513 may be connected to each other through the coupling means 520 do.

At this time, the refrigerant pipe 510 may be provided with a length corresponding to the entire length of the refrigerant pipe 510, and a plurality of unit tubes corresponding to the straight main pipe made of the main pipe and the joint pipe may be installed do.

In addition, when the spiral support film 505 is integrally connected to the outer diameter side of the tube 500, the tube 500 is positioned at a predetermined position of the refrigerant tube 510 and the support film 505 is spirally formed, Flow is facilitated.

At this time, the tube 500 is formed in various shapes such as a circle, an ellipse, a star, or the like having a space inside.

In addition, the tube 500 may be installed so as to float on the refrigerant r filled in the refrigerant pipe 510 without a separate supporting film 505.

At this time, the tube 500 has a space when it is inserted into the inner diameter side of each main pipe, which is a straight line, and is formed in a straight line sealed at both ends. The tube 500 floats on the surface of the refrigerant filled in the refrigerant pipe, And the rupture of the refrigerant tube is prevented by the formation of the space.

500 ... tube 505 ... support membrane
510 ... refrigerant pipe 515 ... cooling pin
530 ... header

Claims (1)

A tube of a closed structure having a space inside the refrigerant tube is inserted,
Wherein the coolant pipe is connected to a straight main pipe through a joint pipe through a coupling means and the coupling means is selected from a bolt / nut connection and a welding connection,
The tube has a length corresponding to the length of the main tube and has a space on the inner diameter side and is formed in a straight line sealed at both ends so as to float above the refrigerant moving along the main tube to form a space between the refrigerant and the main tube The refrigerant tube having a freeze prevention device installed therein.

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