KR102145546B1 - A bracket for maintaining interval of Heat exchanger - Google Patents

Abstract

The present invention is a heat exchanger bracket for maintaining a space between a heat exchanger, which can be inserted in a one-touch manner, so that assembly is easy, and a tension part is provided to provide a binding force and at the same time, a heat exchanger capable of absorbing vibrations generated from the heat exchanger and reducing noise. Provides a bracket for maintaining the gap.

Description

A bracket for maintaining interval of Heat exchanger

The present invention relates to a bracket for maintaining a heat exchanger spacing, and more particularly, it is possible to insert in a one-touch manner, so that assembly is easy, and a tension part is provided to provide a binding force, and at the same time, it absorbs vibration generated from the heat exchanger and reduces noise It relates to a heat exchanger spacing bracket that can be reduced.

In general, heat exchangers are used in refrigeration, refrigeration or heating systems. A heat exchanger uses a refrigerant or a heat medium to give or take away heat from a target object.In particular, a wire type condenser is a wire-shaped fin that increases the heat exchange area between the tube through which the refrigerant or heat flows inside and the outside. Is composed.

Such a wire condenser can be manufactured in multiple layers. In this case, in order to effectively exert the function of a heat exchanger, it is important to maintain the spacing between each tube layer. In the past, a'c' shaped metal bracket is inserted between the tube layers. Then, the brackets and pins were tightened with bolts and nuts or screws to fix them.

However, in this case, if the fastening force is too strong during fastening of screws, etc., the wire to be fastened may be deformed or damaged, resulting in leakage of refrigerant or fruit, and there was a problem in that assembly and productivity were deteriorated by having to fasten each fastening member .

As an apostle to solve this problem, there is a Korean Utility Model Registration No. 20-463512.

In the prior art, as a bracket made of a material having an elastic force, a bracket for maintaining a spacing of a heat exchanger that can be assembled by simply inserting between tubes is disclosed.

Due to the bracket structure, it can be said that the assembly properties have been improved, but in the heat exchanger, vibration is inevitably generated by the flow of heat or refrigerant into the tube. At this time, noise due to contact between the bracket for maintaining the gap and the tube and fins It was confirmed that other problems occurred.

In addition, in the prior art, the same spacing is physically enforced without taking into consideration the spacing between fins and tubes slightly different according to manufacturing tolerances, thereby causing a burden on the heat exchanger.

(Patent Document 1) Korean Utility Model Registration 20-0463512 Y1

Accordingly, the present invention was devised to solve the above problems.

In order to provide a bracket for maintaining a gap that does not burden the heat exchanger in consideration of manufacturing tolerances and minimizing the noise problem caused by the insertion of the bracket for maintaining the gap as well as improving the assemblability due to easy assembly of the bracket for maintaining the gap in the heat exchanger. do.

In order to solve the above problems, the present invention is a bracket for maintaining a gap of a heat exchanger including a gap maintaining part 120 and an insertion fixing part 140, wherein the insertion fixing part 140 is a tube 10 It is inserted between a plurality of fins 20 provided in the, and the spacing part 120 provides a bracket for maintaining the heat exchanger spacing, characterized in that formed to have a length shorter than the spacing between the tubes 10.

In addition, the thickness of the insertion fixing part 140 is smaller than the thickness of the tube 10, and the insertion fixing part 140 has a space to provide a space between the bracket and the pin 23 for maintaining the gap. It is preferable that the part 142 is provided.

In addition, the gap maintaining portion 120 is formed of a pair of bars, it is preferable that the second gap 121 is positioned between the pair of bars.

In addition, it is preferable to further include a tension unit 130 connecting the pair of bars.

In addition, it is preferable that the tension unit 130 is formed in a pair, and a support unit 110 is provided at one end of any one of the tension units 130.

In addition, it is preferable that the support part 110 extends parallel to the spacing part 120 but is spaced apart from the insertion fixing part 140.

In addition, it is preferable that the support part 110 is formed to have a length shorter than the interval between the tubes 10.

In addition, the insertion fixing part 140 may include a close contact fixing part 141 that is in close contact with one of the pins 22 of the pins 20; And it is preferable to include a locking portion 143 is formed extending in the longitudinal direction of the tube 10 from the close contact fixing portion 141 is engaged with any one of the pins 22.

In addition, it is preferable that the other pins 21 and 23 adjacent to the pin 22 of the pins 20 do not contact the bracket for maintaining the gap.

In addition, the locking portion 143 is a pair, and the gap maintaining portion 120 is preferably positioned between the pair of insertion fixing portions 140.

In addition, the number of the locking portions 143 is n, the gap maintaining portion 120 is n-1, and is located between each of the locking portions 143, where n is a natural number of 3 or more. desirable.

In addition, the locking portion 143 positioned at the outermost of the locking portions has a slant inclined toward the outside, and the locking portion 143b positioned in the inner side of the locking portions has slanting slanted toward both sides, It is preferable that the third gap 144 is located in the center.

According to the present invention, the bracket for maintaining the gap is tightly bound between the fins to prevent microscopic vibration and shaking of the heat exchanger, the tube and the fin, as well as provide a solid binding force with a simple assembly by the gap maintaining unit and the insertion fixing unit can do.

In addition, by reducing the contact with the pins without lowering the binding force compared to the existing bracket for maintaining the spacing, it is possible to solve the problem of noise caused by the existing bracket for maintaining the spacing in contact with too many pins.

In addition, since a large number of gaps are provided, the life of the equipment can be prolonged because it does not burden the heat exchanger.

Figure 1 is a perspective view for explaining the use of the bracket for maintaining the gap according to the present invention.
2 is a perspective view of a bracket for maintaining a gap according to the present invention.
3 is a cross-sectional view of a first embodiment of a bracket for maintaining a gap according to the present invention.
4 is a cross-sectional view of a second embodiment of a bracket for maintaining a gap according to the present invention.
5 is a cross-sectional view of a third embodiment of a bracket for maintaining a gap according to the present invention.

Hereinafter, a bracket for maintaining a gap according to the present invention will be described with reference to the drawings.

The bracket for maintaining the spacing according to the present invention can be applied to any heat exchanger, but the refrigerant moves to the inside and is formed by bending in a zigzag, the tube 10 is provided in multiple layers, and the tube 10 is perpendicular to the longitudinal direction of the tube 10. A heat exchanger comprising a plurality of fins 20 provided on the upper and lower sides of) will be described as an example.

For convenience of explanation, some of the tubes 10a and 10b will be referred to as 10a and 10b, and some of the fins 20 will be referred to as 21, 22 and 23.

In addition, the longitudinal direction of the tube 10 means the advancing direction of the tube, that is, the left-right direction in FIGS. 3 to 5, and the direction perpendicular to the longitudinal direction of the tube 10 means the vertical direction in FIGS. 3 to 5 . However, it should be noted that each direction described in the appended claims does not necessarily mean that it must be the same as the corresponding direction, and includes a slight gap that is distorted according to manufacture or use.

First, a bracket for maintaining a gap according to a first embodiment will be described with reference to FIGS. 1 to 3.

The bracket 100 for maintaining a gap according to the present invention includes a support part 110, a gap maintaining part 120, a tension part 130, and an insertion fixing part 140. In other words, when the function is divided into the center, the bracket 100 for maintaining the gap supports the gap maintaining unit 120 and the insertion fixing unit 140, which serve as the core function of maintaining the gap, and the gap maintaining unit 120 It can be said that it includes a tension part 130 and a support part 110 for.

The spacing holding part 120 is provided in a direction perpendicular to the length direction of the tube 10 and is formed to be shorter than the spacing between the tubes 10.

In other words, as shown in the drawing, the gap maintaining unit 120 is formed of a pair of bars, and a second gap 121 is positioned between the pair of bars. Through this second gap 121, the gap maintaining portion 120 is shorter than the gap between the tubes 10.

In this way, since the gap maintaining unit 120 is formed shorter than the gap between the tubes 10, noise is prevented because the gap maintaining bracket 100 can move with a gap even in the slightest vibration of the tube 10. And no burden on the heat exchanger.

In the case of adopting the short spacing part 120, the binding force between the pins 20 may be lowered, and a tension part 130 is provided to prevent this.

The tension unit 130 is a structure that connects each bar of the gap maintaining unit 120 formed of a pair of bars, and is made of a pair to support from the left and right of the gap maintaining unit 120 formed of a pair of bars. It is desirable.

In addition, it is more preferable that the tension unit 130 has a semicircular shape so that the gap maintaining unit 120 can be bound while maintaining a clearance.

It is preferable that the support part 110 is further provided at one end of the pair of tension parts 130 to further increase the binding force.

The support unit 110 may function to increase the binding force of the tension unit 130 and at the same time function as an additional function of maintaining a gap.

To this end, the support part 110 is installed at one end of the tension part 130, but is installed in a direction perpendicular to the length direction of the tube 10, that is, parallel to the spacing part 120, and the gap between the tubes 10 It is preferable that it is formed shorter and is located between the insertion fixing portions 140.

In other words, it is preferable that the first gap 111 is formed on both sides of the support part 110 so that the support part 110 and the insertion fixing part 140 are slightly spaced apart.

Through this, when the right end of the insertion fixing part 140 receives mutually pressing force, the support part 110 may function to maintain the gap.

Insertion fixing unit 140 serves to be fixed by inserting a bracket for maintaining the gap.

To this end, the insertion fixing part 140 may include a close contact fixing part 141 that is tightly fixed to any one of the pins 20; And it is preferable to include a locking portion 143 that is formed extending in the longitudinal direction of the tube 10 from the contact fixing portion 141 is engaged with one of the pins 22.

In order to minimize noise due to vibration of the tube 10, the thickness of the insertion fixing part 140 is preferably smaller than the thickness of the tube 10. If the thickness of the tube 10 is the same, the insertion fixing part 140 comes into contact with all the pins 20 before and after the tube 10, thereby causing excessive noise between the pin 20 and the bracket 100 for maintaining the gap. This is because it occurs.

In order to minimize noise due to vibration of the tube 10, it is preferable that a space holding unit 142 providing a space between the bracket for maintaining the gap and the pin 23 is further provided outside the insertion fixing unit 140 Do. This is because the contact between the pin 23 and the bracket for maintaining the gap can be avoided, and the more contact is avoided, the more noise due to vibration of the tube 10 can be prevented.

Due to the structure of the insertion fixing part 140, the bracket for maintaining the gap contacts only one pin 22 among the plurality of pins 20 and does not contact other pins 21 and 23 adjacent thereto. Since noise is generated when the pin and the bracket for maintaining the gap are in contact with each other, the contact with the pin is minimized, and since it must be inserted and provided with a fixing force, the structure is in contact with only one pin 22.

A bracket for maintaining a gap according to a second embodiment will be described with reference to FIG. 4.

It is a structure in which two brackets for maintaining spacing according to the first embodiment are combined into a pair.

It is the same as the bracket for maintaining the gap according to the first embodiment, but the locking part 143a of the central insertion fixing part 140 is fixed only to either of the upper or lower pins.

A bracket for maintaining a distance according to a third embodiment will be described with reference to FIG. 5.

Same as the bracket for maintaining the gap according to the second embodiment, but the outermost locking part 143 has a slant that is inclined toward the outside, whereas the locking part 143b located inside has a slant that is inclined toward both sides. Has.

In particular, since the third gap 144 of the locking portion 143b positioned inside is positioned, it is possible to provide a clearance and minimize noise.

5 shows a case in which the tube is in three rows, but it goes without saying that it is possible to use more than that.

When n is a natural number of 3 or more, if the number of tubes is n, the number of locking portions 143 is n, and the gap maintaining portion 120 is n-1, and will be positioned between each of the locking portions 143.

10, 10a, 10b: tube
20, 21, 22, 23: pin
100, 100a, 100b: bracket for maintaining the gap
110: support
111: first gap
120: gap maintaining unit
121: second gap
130: tension part
140: insertion fixing unit
141: tight fixation
142: space maintenance unit
143, 143a, 143b: locking part
144: third gap

Claims (14)

A pair of insertion fixing portions 140 which are inserted between the plurality of pins 20 provided in the tube 10 and are provided to be parallel to each other; And
A bracket for maintaining a space between a heat exchanger comprising a space maintaining part 120 formed in a vertical direction to the insertion fixing part 140,
The gap maintaining unit 120,
Including a pair of bars each protruding in a vertical direction so as to face each other on the pair of insertion fixing portions 140,
The pair of bars are spaced apart from each other by a second gap 121,
The heat exchanger gap maintenance bracket,
It characterized in that it further comprises a tension unit 130 for elastically connecting the pair of bars by extending both ends from the side of the bar,
Bracket for maintaining heat exchanger clearance.
The method of claim 1,
The thickness of the insertion fixing part 140 is smaller than the thickness of the tube 10, and
The insertion fixing part 140, characterized in that it is provided with a space holding unit 142 providing a space between the bracket and the pin 23 for maintaining the gap,
Bracket for maintaining heat exchanger clearance.
delete delete The method of claim 1,
The tension unit 130 is characterized in that consisting of a pair facing around the pair of bars,
Bracket for maintaining heat exchanger clearance.
The method of claim 5,
Characterized in that the support portion 110 is provided at one end of the tension portion of any one of the pair of tension portions 130,
Bracket for maintaining heat exchanger clearance.
The method of claim 6,
The support part 110 is extended parallel to the spacing part 120 and is spaced apart from the insertion fixing part 140,
Bracket for maintaining heat exchanger clearance.
The method of claim 7,
The support portion 110 is characterized in that formed in a length shorter than the interval between the tubes (10),
Bracket for maintaining heat exchanger clearance.
The method of claim 1,
The insertion fixing part 140,
A close contact fixing portion 141 that is closely fixed to any one of the pins 20; And
It characterized in that it comprises a locking portion 143 that is formed extending in the longitudinal direction of the tube 10 from the close contact fixing portion 141 and is engaged with any one of the pins 22,
Bracket for maintaining heat exchanger clearance.
The method of claim 9,
Among the pins 20, the other pins 21 and 23 adjacent to the one of the pins 22 do not contact the bracket for maintaining the gap,
Bracket for maintaining heat exchanger clearance.
The method of claim 9,
The locking part 143 is a pair,
The spacing maintaining portion 120 is characterized in that located between the pair of insertion fixing portions 140,
Bracket for maintaining heat exchanger clearance.
The method of claim 9,
The locking portions 143 are n,
The spacing maintenance portion 120 is n-1, and is located between each of the locking portions 143,
Wherein n is a natural number of 3 or more,
Bracket for maintaining heat exchanger clearance.
The method of claim 12,
The locking part 143 located at the outermost of the locking parts has a slant inclined toward the outside,
The locking part (143b) located on the inner side of the locking part has a slant inclined toward both sides, and a third gap 144 is located in the center,
Bracket for maintaining heat exchanger clearance.
The bracket for maintaining the heat exchanger space according to any one of claims 1, 2, and 5 to 13;
The tube 10 is formed by moving the refrigerant inward, bending in a zigzag, and provided in multiple layers; And
Including a plurality of fins 20 provided respectively on the upper side and the lower side of the tube 10 perpendicular to the longitudinal direction of the tube 10,
heat exchanger.

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