KR101490391B1 - Cooling Tube for Ice Link - Google Patents

Abstract

The present invention discloses a connection structure of a cooling pipe for an ice link in which adjustment of a cooling pipe is facilitated even if deformation occurs due to cooling of the cooling pipe.
The connection structure of the ice-link cooling pipe according to the present invention includes a main cooling pipe 10 connected to a freezer, a ball valve 20 protruding from the main cooling pipe 10 by a predetermined length, Pressure hose 30 and a cooling pipe 40 connected to the other end of the high-pressure hose 30. The high-pressure hose 30 is made of a flexible rubber material, 40 is made of high density polyethylene.
In the present invention, a high-pressure hose is installed between the main cooling pipe and the cooling pipe, so that the high-pressure hose is flexibly moved in accordance with the expansion and contraction of the cooling pipe. Also, So that maintenance and repair can be performed quickly.

Description

[0002] Cooling Tube for Ice Link [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure of a cooling pipe for an ice link, and more particularly to a connection structure of a cooling pipe for an ice link.

Generally, the ice sheet (ice plate) of ice rinks is connected to the freezer by a cooling tube arranged at a certain interval on the floor of indoor or outdoor, circulating brine or freon gas inside the cooling pipe by refrigerant, And the water filled in the outdoor floor is cooled.

FIG. 1 is a perspective view showing a cooling pipe provided in a conventional ice link. In a typical ice link, a main cooling pipe 2 for receiving a coolant from a freezer (not shown in the figure) is provided outside the track 1, A cooling pipe branch pipe 3 connected to a plurality of holes (not shown) formed in the main cooling pipe 2 is formed along the track shape and the cooling pipe branch pipe 3 is connected to the track 1 And anchor strips 4 for fixing the anchor strips 4 are provided.

A spacing space 5 is provided in the horizontal direction between the cooling pipe tubes 3 installed in the track to maintain a constant spacing therebetween.

The main cooling pipe (2) has a circulation process of supplying coolant to the coolant branch pipe (3) after receiving the coolant from the freezer, circulating it again to the cooler, and performing heat exchange with water to cool the coolant whose temperature has risen again.

Each of the cooling pipe tubes 3 is bent in a U-band shape so that refrigerant is supplied from the main cooling pipe 2 and then exchanges heat with water and then returns to the main cooling pipe 2 .

That is, a nipple (not shown in the figure) protrudes by a predetermined length from the main cooling pipe 2, and the cooling pipe tube 3 is directly coupled to the nipple.

Since the conventional cooling pipe tube 3 is maintained in a state of being cooled by the coolant refrigerant, the length of the cooling pipe tube 3 is expanded and contracted, and the lengths of the cooling pipe tube 3 vary depending on the cooling temperature do.

As a result, the fixing position of the cooling pipe tube 3 may be distorted or a part of the cooling pipe tube 3 may be deformed. In order to fix the deformed or deformed cooling pipe tube 3 in place, The separation or coupling between the cooling pipe 2 and the cooling pipe branch pipe 3 is not easily performed, and there is a problem that the maintenance of the cooling pipe is difficult due to the troublesomeness of the operation.

In addition, since the main cooling pipe 2 and the cooling pipe 3 are not made of flexible material in the related art, there is a problem that it is very difficult to separate or join the cooling pipe 3 for repair or replacement.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a connection structure of a cooling pipe for an ice link in which a cooling pipe can be easily adjusted even if deformation occurs due to cooling of the cooling pipe There is.

In order to achieve the above object, a connection structure of a cooling pipe for an ice-

A main cooling pipe 10 connected to the freezer,

A ball valve 20 protruding from the main cooling pipe 10 by a predetermined length,

A high-pressure hose 30 having one end tied to the ball valve 20,

And a cooling pipe (40) bound to the other end of the high pressure hose (30)

The high-pressure hose 30 is made of a flexible rubber material,

The cooling pipe 40 is characterized by being high-density polyethylene.

The cooling pipe (40) is connected to the auxiliary cooling pipe (15) so that the refrigerant is circulated.

The high pressure hose 30 is provided with a first union 31 coupled to the valve connecting pipe 22 and a second union 32 coupled to the first connecting member 33,

And an expansion part (34) is formed to connect the second connection member (35) to the first connection member (33).

In the present invention, a high-pressure hose is provided between the main cooling pipe and the cooling pipe, so that the high-pressure hose is flexibly moved in accordance with the expansion and contraction of the cooling pipe, and the cooling pipe is also installed for the first time So that maintenance and repair can be performed quickly.

In addition, the present invention has the effect that a ball valve is provided in the cooling pipe, and the cooling pipe can be controlled as required.

1 is a perspective view showing a conventional ice-link cooling pipe connection structure.
2 is a perspective view showing a connection structure of a cooling pipe for an ice link according to the present invention.
3 is a plan view showing a connection structure of a cooling pipe for an ice link according to the present invention.
4 is a plan view showing a connection structure of a cooling pipe for an ice link according to the present invention.
5 is an exemplary view showing a state in which a cooling pipe is adjusted by a modification of the cooling pipe according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a connection structure of a cooling pipe for an ice link according to the present invention, FIG. 3 is a plan view showing a connection structure of a cooling pipe for an ice link according to the present invention, And FIG. 5 is an exemplary view showing a state in which a cooling pipe is adjusted by a modification of the cooling pipe according to the present invention.

2 and 5, the connection structure of the ice-cooling cooling pipe according to the present invention includes a main cooling pipe 10 connected to a freezer, a ball valve (not shown) protruded from the main cooling pipe 10 by a predetermined length A high pressure hose 30 having one end connected to the ball valve 20 and a cooling pipe 40 connected to the other end of the high pressure hose 30.

The main cooling pipe 10 is connected to a freezer (not shown in the figure) installed on the outside of the ice link, and the auxiliary cooling pipe 15 (not shown) is connected to the cooling pipe 40, The main cooling pipe 10 and the auxiliary cooling pipe 15 have a larger diameter than the diameter of the cooling pipe 40.

A ball valve 20 is connected to the main cooling pipe 10 and the auxiliary cooling pipe 15 at regular intervals and the ball valve 20 is used when the cooling pipe 40 is to be shut off And is normally kept open.

That is, the ball valve 20 is provided with a handle 21 for opening and closing the ball valve 20 by a manager or the like, and a valve connecting pipe 22 is connected to one side of the ball valve 20, 22 are formed with threads (not shown in the drawing).

The high-pressure hose 30 is made of a soft rubber material so as to be freely deformed in its morphology. The first union 31 is rotatably coupled to one side of the high-pressure hose 30, A second union 32 is rotatably coupled.

The high pressure hose 30 is provided with a first connecting member 33 and a second connecting member 35 so that the cooling pipe 40 is connected to the high pressure hose 30. A second union 32 is provided to one side of the first connecting member 33, (Not shown in the figure) is formed so as to be engaged with the first connection member 33, and an expansion portion 34 is formed at the other side of the first connection member 33. [

The second connection member 35 is connected to the expansion portion 34 and the cooling pipe 40 is connected to the second connection member 35 by a socket 41. The socket 41 is connected to the expansion / And the cooling pipe 40 is made of HDPE (High Density Poly Ethylene) material having excellent chemical resistance, flexibility and waterproofing property.

The main cooling pipe 10 of the present invention is connected to a freezer and a ball valve 20 is installed at a predetermined interval in the main cooling pipe 10. The ball valve 20 is cooled And a pipe 40 is connected.

A high pressure hose 30 is connected to the end of the ball valve 20 and a cooling pipe 40 is connected to the high pressure hose 30. The cooling pipe 40 is connected to the auxiliary pipe 30, And is connected to the cooling pipe (15).

In the refrigerator, the refrigerant is cooled to a low temperature and sent to the main cooling pipe (10), and the refrigerant is supplied to the cooling pipe (40) through the main cooling pipe (10). The refrigerant at such a low temperature is supplied to the cooling pipe 40 so that the cooling pipe 40 is kept at a low temperature state and the refrigerant is circulated through the auxiliary cooling pipe 15 to the freezer.

As a result, the ice link is maintained in a frozen state, and expansion and contraction of the cooling pipe (40) occurs as cold coolant is introduced into the cooling pipe (40).

As the cooling pipe 40 is expanded and contracted, the initial fixing position of the cooling pipe 40 is changed or changed as shown in FIG. 5, and the manager performs the maintenance such that the cooling pipe 40 is in place.

That is, the manager pushes or pulls the cooling pipe 40 to move the cooling pipe 40 to the initial fixing position. At this time, since the high pressure hose 30 is made of a flexible rubber material, it moves freely.

As described above, according to the present invention, the flexible high-pressure hose 30 is connected, and by adjusting the installation position of the cooling pipe 40, it is possible to maintain the icing of the ice link more favorably.

Since the main cooling pipe 10 and the auxiliary cooling pipe 15 and the cooling pipe 40 are connected to each other by the flexible high pressure hose 30 made of a flexible material, There is an advantage in that it becomes easy.

10: main cooling pipe 15: auxiliary cooling pipe
20: Ball valve 21: Handle
22: valve connecting tube 30: high pressure hose
31: first union 32: second union
33: first connecting member 34:
35: second connecting member 40: cooling pipe
41: Socket

Claims (3)

A main cooling pipe 10 and an auxiliary cooling pipe 15 connected to the refrigerator;
A ball valve 20 protruding from the main cooling pipe 10 and the auxiliary cooling pipe 15 by a predetermined length;
A high pressure hose 30 having one end connected to the ball valve 20 on the side of the main cooling pipe 10;
A cooling pipe (40) disposed on the other end side of the high pressure hose (30) and connected to the auxiliary cooling pipe (15) so that the refrigerant is circulated; And
And a connecting member (33, 35) connecting the high-pressure hose (30) and the cooling pipe (40)
The connecting members 33 and 35 include a first connecting member 33 coupled to the high pressure hose 30 and a second connecting member 35 coupled to the first connecting member 33,
The first connection member 33 is formed with an expanded portion 34 for allowing the second connection member 35 to be coupled with the inner surface of the expanded portion 34 and the second connection member 35, The outer surface is screw-
The high-pressure hose 30 is made of a flexible rubber material,
Wherein the cooling pipe (40) is high-density polyethylene. delete delete

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