KR19990033485U - Conduit support means of heat exchanger - Google Patents

Abstract

The present invention relates to a conduit support structure of a heat exchanger, and more particularly, to a structure for supporting and fixing a conduit of a heat exchanger to a tube plate, and to reduce the weight of the heat exchanger and to prevent damage to the conduit and to reduce labor. It would be.

The present invention provides a conduit by zigzag-fixing the conduit (5) between the pipe plates (1) (1 ') such as galvanized steel sheets or stainless steel plates in the support holes (4) formed in the pipe plates (1) (1'). 5) the heat exchanger in which the pins 3 are fitted at right angles to each other and fixed to each other, and the horizontal support plates 2 and 2 'are joined to the upper and lower portions of the tube plates 1 and 1'. The non-ferrous metal ring 24 having the same or smaller hardness as the rubber or the conduit 5 is installed in the conduit 5 so that the conduit 5 contacts the ring 24.

When the ring 24 is formed of rubber, grooves are integrally formed around the outside, and when the ring 24 is formed of a non-metallic ring, the semi-finished product 240 having the hook piece 241 formed on one side is formed in the support hole 4. After fitting, the engaging piece 241 is clinched on the other side so as to be in close contact with one side of the tube plate 1, 1 'to complete the ring 24.

Description

Conduit Support Structure of Heat Exchanger {CONDUIT SUPPORT MEANS OF HEAT EXCHANGER}

The present invention relates to a conduit support structure of a heat exchanger, and more particularly, to a structure for supporting and fixing a conduit of a heat exchanger to a tube plate.

As is well known, the heat exchanger zigzags the conduits between the tube plates 1, 1 ', as shown in FIG. 1, closes the fins 3 at right angles to the conduit, and closes the tube plate 1, 1'. The horizontal support plates (2) and 2 'are welded to the upper and lower sides of the bar. The structure for supporting the conduit of the conventional heat exchanger to the tube plate is as shown in FIGS. 1 and 4. In order to form a support hole (4) and loosely insert the conduit (5), the diameter of the conduit (5) is usually enlarged to fix the conduit (5) in close contact with the support hole (4).

On the other hand, the tube plate (1) 1 'also serves as a frame of the heat exchanger together with the support function of the conduit (5) and the horizontal support plate (2) (2'), and the tube plate (1) (1 ') In order to reduce the weight, a galvanized steel sheet having a thickness of 2 mm or less is usually used, and a conduit 5 uses a copper tube having a thickness of about 0.2 mm and a good thermal conductivity.

In addition, as shown in FIG. 5, when the support plate 4 is formed in the tube plate 1, 1 'using the tube material 1 and 1' of the same material and thickness as in FIG. ), The ring-shaped support portion 14 is formed integrally to increase the contact area between the conduit 5 and the tube plate 1, 1 '.

However, the former can be reduced in weight by using a galvanized steel sheet having a thickness of 2 mm or less. However, since the contact area between the tube plates 1, 1 'and the conduit 5 is small, fins during the installation or use of the heat exchanger ( 3) When external force or wind pressure is applied to the tube plate 1, 1 'and the horizontal support plate 2, 2', the tube plate 1, 1 'and the conduit 5 do not maintain a right angle and are deformed. Conduit (5) when the conduit (5) fixing part of the conduit (5) is broken or the diameter of the conduit (5) is enlarged to fix the conduit (5) in close contact with the support hole (4). Since the hardness thereof is smaller than that of 1 ', the conduit 5 is likely to be broken.

In order to correct the above drawbacks, it is possible to consider thickening the thickness of the tube plate 1, 1 ', but in this case, it is impossible to reduce the weight and the cost is high, and the practicality is slim.

The latter can be reduced in weight by using a galvanized steel sheet of 2 mm or less, and the conduit 5 and the tube plate 1, 1 'are provided around the support holes 4 of the tube plate 1, 1'. Although the contact area is increased by the ring-shaped support portion 14 formed in the contact area, the contact area is increased and there is no risk of damage to the conduit 5. However, the support plate 4 and the support portion 14 are provided in the tube plates 1 and 1 '. ), The inner surface of the support portion 14 must be burred in order to remove wrinkles, etc., formed by pressing or the like, and the end portion of the support portion 14 should be polished, etc. There is a problem that the productivity is low and the cost rises.

In addition, in recent years, in order to increase durability of the heat exchanger, the tendency to use the stainless steel sheet equal to the thickness of the galvanized steel sheet is increased. Since molding is impossible, only the configuration as shown in FIG. 4 can be used, resulting in the same problems as the former.

The object of the present invention is to provide a conduit support structure of a heat exchanger capable of reducing the weight of the heat exchanger and preventing breakage of the conduit and reducing the workmanship by correcting the above problems.

In order to achieve the above object, the present invention provides a heat exchanger in which a conduit is fixed between pipes in a zigzag through a support hole formed in a pipe plate, and a pin is fitted at right angles to the conduit between the pipe plates. A ring is installed around the conduit so that the conduit contacts the ring.

1 is a side view of a heat exchanger;

FIG. 2 is a cross-sectional view of an embodiment of the present invention along the line AA ′ of FIG. 1. FIG.

Figure 3 is a molded state of the copper ring of the embodiment of the present invention.

4 is a cross-sectional view of a conventional one taken along line AA ′ of FIG. 1.

5 is a cross-sectional view of another conventional one taken along the line AA ′ of FIG. 1.

<Description of the code used in the main part of the drawing>

1, 1 ': tube plate 4: support hole 5: conduit 24: ring

1 and 2, the present invention provides a support hole in which a conduit 5 is formed in a tube plate 1, 1 'between a tube plate 1, 1' such as a galvanized steel plate or a stainless steel plate. 4) to the heat exchanger in which the pipes are fixed in a zigzag manner, the pins (3) are inserted into the conduits (5) at right angles and tightly fixed, and the horizontal support plates (2) and (2 ') are joined to the upper and lower portions of the pipe plates (1, 1'). In this case, a non-ferrous metal ring 24 having the same or smaller hardness as the rubber or the conduit 5 and the hardness of the support hole 4 is provided so that the conduit 5 contacts the ring 24.

When the ring 24 is formed of rubber, grooves are integrally formed around the outside, and when the ring 24 is formed of a non-metallic ring, the semi-finished product 240 having the hook piece 241 formed on one side is formed in the support hole 4. After fitting, the engaging piece 241 is clinched on the other side so as to be in close contact with one side of the tube plate 1, 1 'to complete the ring 24.

Reference numerals 6 and 6 'are inlets and outlets of the heat exchange fluid or the heat exchange fluid.

As described above, the thicknesses of the tube plates 1 and 1 'are the same as those of the conventional art, and the ring 24 is provided around the support hole 4 to achieve weight reduction, and at the same time, the conduit 5 and the tube plate 1 (1 ') can greatly increase the contact area, which makes the conduit (5) firmly fixed. Therefore, even if an external force is applied to the heat exchanger, damage to the conduit (5) can be prevented and the life of the heat exchanger can be greatly extended. In addition, the labor cost is reduced and productivity is improved.

The ring 24 is made of rubber having a smaller hardness than the copper pipe used as the conduit 5 or made of a nonmetal having the same hardness as the conduit 5, thereby expanding the diameter of the conduit 5 to form a tube plate ( 1) In the case of the rubber ring 24, the rubber ring 24 deforms and the non-metallic ring is fixed even if the external force is applied to the conduit 5 or the tube plate 1, 1 'or the like. In the case of 24, since the conduit 5 and the non-metallic ring 24 are deformed at the same time, breakage of the conduit 5 is more noticeable than in the case where the conventional conduit 5 is smaller than the hardness of the tube plate 1, 1 '. I can give it to you.

In addition, since the use of the stainless steel tube plate (1) (1 ') and can prevent the breakage of the conduit, the durability of the heat exchanger is increased.

As described above, the present invention has the same thickness as that of the conventional plate, and by installing a rubber or non-metal ring around the support hole, the heat exchanger can be reduced in weight and the contact area between the conduit and the tube plate can be greatly increased. Since the conduit is firmly fixed, even if an external force acts on the heat exchanger, damage to the conduit can be prevented and the life of the heat exchanger can be extended, and the labor cost can be reduced and productivity can be improved to reduce the cost.

In addition, the ring has the same or significantly smaller hardness as the copper pipe used as the conduit, so that when the conduit is fixed to the pipe plate by expanding the diameter of the conduit, the ring or the ring and the conduit deforms, thereby significantly reducing the damage of the conduit compared to the conventional one. In addition, the tube sheet can also use a stainless steel sheet can increase the durability of the heat exchanger.

Claims (2)

A heat exchanger in which a conduit is zigzagly fixed between pipes through a support hole formed in the pipe plate, and a pin is fitted at right angles to the conduit between the pipe plates so that a ring is installed around the support hole so that the conduit contacts the ring. Conduit support structure of heat exchanger as much as possible. The conduit support structure of a heat exchanger according to claim 1, wherein the hardness of the ring is selected from the same or less material than the conduit.