KR20140003964U - radiator structure - Google Patents

Abstract

The present invention relates to a radiator structure capable of being detachably installed to effectively reduce overheating and deterioration of components due to a rise in temperature occurring during operation of a high-pressure LNG pump.
Since the first radiator 110 and the second radiator 120 are detachably fixed to the pipe 1 by fixing means, the radiator structure of the present invention can be detached and used depending on the ambient temperature such as the winter season or the summer season.

Description

Radiator structure

The present invention relates to a radiator structure, and more particularly, to a radiator structure that can be detachably attached to an LNG pump so as to effectively reduce overheating and performance deterioration due to a rise in temperature during operation of a high-pressure LNG pump.

For example, during the operation of a high-pressure LNG pump installed in an LNG base, a temperature rise occurs on the sliding surface of a mechanical seal, and it is conducted to the other component side through piping, resulting in overheating and deterioration of components.

The conventional pump is installed by fixing a radiator to a piping line by welding in order to dissipate heat generated from a mechanical seal interfering surface. However, it is inconvenient to remove the radiator when heat is not needed as in the winter season.

It is an object of the present invention to provide a radiator structure that can be detachably coupled to a pipe through which heat generated by driving of a high-pressure pump is conducted.

According to an aspect of the present invention, there is provided a heat dissipator structure in which heat generated by driving a high-pressure pump is conducted to a pipe,

A first radiator having a first sleeve having a first support surface which is in surface contact with the upper surface of the pipe and a plurality of first heat dissipating fins fixed at an interval on an outer circumferential surface of the first sleeve;

A second sleeve having a second support surface that is in surface contact with the lower surface of the pipe and a second heat dissipation member having a plurality of second heat dissipation fins fixed at an interval on an outer circumferential surface of the second sleeve;

And fixing means for detachably fixing the first heat discharging body and the second heat discharging body.

In the present invention, the fixing means fixes the first sleeve and the second sleeve with bolts and nuts.

Since the first heat discharging body 110 and the second heat discharging body 120 are detachably fixed to the pipe 1 by means of fixing means, the present invention radiator structure can be detached and used according to the ambient temperature such as the winter season or the summer season.

1 is a perspective view showing a state in which a radiator structure according to the present invention is mounted on a pipe,
2 is an exploded perspective view of the radiator structure of the present embodiment.

The radiator structure of the present embodiment is detachably installed in a piping through which heat generated on the interference surface of the mechanical seal during the operation of the high pressure LNG pump is conducted.

1 and 2, the radiator structure of the present embodiment includes a first sleeve 111 having a first support surface 111a that is in surface-contact-contact with the upper surface of the pipe 1, (110) having a plurality of first heat-radiating fins (112) fixed at an interval on the outer circumferential surface of the first heat-radiating fin (111); A second sleeve 121 having a second support surface 121a which is in surface contact with the lower surface of the pipe 1 and a plurality of first and second support surfaces 121a and 121b fixed to the outer circumferential surface of the second sleeve 121 at regular intervals, A second heat discharging body 120 having heat dissipating fins 121a; And fixing means for detachably fixing the first heat discharging body 110 and the second heat discharging body 120.

The fixing unit may fix the first sleeve 110 and the second sleeve 120 with a bolt (not shown) and a nut (not shown), and a conventional clamp may be used.

When the pump (not shown) is activated, the heat is continuously generated on the relative sliding surface of the mechanical seal and circulated through the pipe 1. The heat conducted through the pipe 1 passes through the radiator structure 100).

The heat conducted to the pipe 1 is radiated through the first and second sleeves 111a and 121a through the first and second heat dissipating fins 112 and 122 and flows into the first and second sleeves 111a) 121a and the number of the first and second heat-radiating fins 112 and 122 may vary depending on the temperature range of generated heat.

In addition, since the difference between the summer temperature and the winter temperature (± 35 ° C. or more) occurs, the radiator 100 is attached to reduce the temperature in summer, and the radiator 100 is removed in winter Temperature can be maintained.

110 ... first heat radiator 111 ... first sleeve
112 ... first heat dissipating fin

Claims (2)

A heat dissipator structure, comprising: a heat dissipation structure that is installed in a pipe through which heat generated by driving of a high-pressure pump is conducted,
A first sleeve 111 having a first support surface 111a which is in surface contact with the upper surface of the pipe 1 and a second support surface 111b which is fixed to the outer surface of the first sleeve 111 by a plurality of first A first heat discharging body 110 having heat dissipating fins 112;
A second sleeve 121 having a second support surface 121a which is in surface contact with the lower surface of the pipe 1 and a plurality of first and second support surfaces 121a and 121b fixed to the outer surface of the second sleeve 121 at regular intervals, A second heat discharging body 120 having heat dissipating fins 121a;
And fixing means for detachably fixing the first heat discharging body (110) and the second heat discharging body (120).
The radiator structure according to claim 1, wherein the fixing means fixes the first sleeve (110) and the second sleeve (120) with bolts and nuts.

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