CN215524278U - Suspension type anti-vibration heat exchanger - Google Patents

Abstract

The utility model discloses a suspended anti-vibration heat exchanger which comprises a left connecting plate and a right connecting plate, wherein the inner wall surfaces of the left connecting plate and the right connecting plate are respectively fixed with a fixed connecting plate, a plurality of connecting through holes are formed in the fixed connecting plates, and the connecting through holes correspond to and are communicated with mounting through holes formed in the left connecting plate or the right connecting plate. Its heat exchange coil's horizontal body is not directly fixed with left connecting plate and right connecting plate, its horizontal body card is put on the bellying in fixed connection plate's connect the via hole, it does not adopt welded fastening, when making the operation, the vibration transmission that produces is passed on for fixed connection plate after left connecting plate and the right connecting plate again, deformation through the bellying, reduce the vibration of transmitting for horizontal body, reduce the shake of transmitting for horizontal body, thereby it is not hard up to reduce to block between horizontal body and the radiating fin, guarantee the firmness and the heat transfer effect of equipment, the noise abatement, and service life is prolonged.

Description

Suspension type anti-vibration heat exchanger

The technical field is as follows:

the utility model relates to the technical field of refrigeration equipment, in particular to a suspension type anti-vibration heat exchanger.

Background art:

among the current heat exchanger, it generally has two fixed plates, install heat exchange coil between two fixed plates, adopt the card to put fixedly between its heat exchange coil's body and the fixed plate, weld fixture again, and when the installation, the fixed plate is fixed on equipment, when equipment is operated, the fixed plate can be given in the vibration that its compressor operation produced, and the fixed plate can give heat exchange coil with the vibration transmission, heat exchange coil is giving radiating fin in the transmission, live time is of a specified duration, the welded connection department of its heat exchange coil and fixed plate can produce the crackle, the card department of putting between heat exchange coil and the radiating fin also can produce not hard up, lead to the card to put firmly inadequately, thereby noise increase and influence heat transfer effect, influence the result of use.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides a suspended anti-vibration heat exchanger, wherein a transverse pipe body of a heat exchange coil pipe is not directly fixed with a left connecting plate and a right connecting plate, and the transverse pipe body is clamped on a protruding part in a connecting through hole of a fixed connecting plate and is not fixed by welding, so that when vibration generated in operation is transmitted to the left connecting plate and the right connecting plate and then to the fixed connecting plate, the vibration transmitted to the transverse pipe body is reduced through the deformation of the protruding part, the vibration of the transverse pipe body is reduced, the clamping looseness between the transverse pipe body and a radiating fin is reduced, the firmness and the heat exchange effect of equipment are ensured, the noise is reduced, and the service life is prolonged.

The scheme for solving the technical problems is as follows:

the utility model provides a floated anti-vibration heat exchanger, including left connecting plate and right connecting plate, all be fixed with fixed connection board on the internal face of left side connecting plate and right connecting plate, the shaping has a plurality of connect the via hole on the fixed connection board, connect the via hole and correspond and communicate with each other with the installation through hole that has on left connecting plate or the right connecting plate, heat exchange coil's horizontal body plug bush is in the installation through hole that has on left connecting plate and the right connecting plate, the shaping has a plurality of bellyings on connect the via hole's the inside wall, heat exchange coil's horizontal body plug bush is at the connect the via hole that corresponds, the bellyings press on heat exchange coil's the lateral wall of horizontal body.

All transverse tube bodies of the heat exchange coil are inserted into the jacks of all the radiating fins, and all the radiating fins are positioned between the left connecting plate and the right connecting plate.

An extension sleeve body part is formed on the inner side wall of the jack, and all transverse pipe bodies of the heat exchange coil pipe are clamped on the corresponding extension sleeve body part.

The lateral wall shaping of connecting through-hole department has the extension that extends left or right, and the shaping has the bellying on extension and the inside wall of connecting through-hole, and all bellyings use the center of connecting through-hole as the center equipartition on the inside wall of connecting through-hole and extension.

The extension part is inserted and sleeved in the mounting through hole of the left connecting plate or the right connecting plate.

The fixed connecting plate is fixed on the left connecting plate or the right connecting plate through bolts or rivets.

The radiating fins are corrugated bent plates.

The utility model has the following outstanding effects:

its heat exchange coil's horizontal body is not directly fixed with left connecting plate and right connecting plate, its horizontal body card is put on the bellying in fixed connection plate's connect the via hole, it does not adopt welded fastening, when making the operation, the vibration transmission that produces is passed on for fixed connection plate after left connecting plate and the right connecting plate again, deformation through the bellying, reduce the vibration of transmitting for horizontal body, reduce the shake of transmitting for horizontal body, thereby it is not hard up to reduce to block between horizontal body and the radiating fin, guarantee the firmness and the heat transfer effect of equipment, the noise abatement, and service life is prolonged.

Description of the drawings:

FIG. 1 is a partial schematic view of the construction of a heat sink fin of the mounting portion of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a partial structural view at the fixed connection plate.

The specific implementation mode is as follows:

in an embodiment, as shown in fig. 1 to 4, a suspension type anti-vibration heat exchanger includes a left connection plate 10 and a right connection plate 20, a fixed connection plate 30 is fixed on inner wall surfaces of the left connection plate 10 and the right connection plate 20, a plurality of connection through holes 31 are formed on the fixed connection plate 30, the connection through holes 31 correspond to and communicate with installation through holes 11 formed on the left connection plate 10 or the right connection plate 20, a transverse tube of a heat exchange coil 40 is inserted into the installation through holes 11 formed on the left connection plate 10 and the right connection plate 20, a plurality of protrusions 311 are formed on inner side walls of the connection through holes 31, the transverse tube of the heat exchange coil 40 is inserted into the corresponding connection through holes 31, and the protrusions 311 are pressed against outer side walls of the transverse tube of the heat exchange coil 40.

Further, all the transverse tubes of the heat exchange coil 40 are inserted into the insertion holes of all the heat dissipation fins 50, and all the heat dissipation fins 50 are located between the left connecting plate 10 and the right connecting plate 20.

Furthermore, an extending sleeve part 51 is formed at the inner side wall of the insertion hole, and all the transverse tubes of the heat exchange coil 40 are clamped on the corresponding extending sleeve part 51.

Further, an extension portion 32 extending leftwards or rightwards is formed on a side wall of the connecting through hole 31, protrusions 311 are formed on inner side walls of the extension portion 32 and the connecting through hole 31, and all the protrusions 311 are uniformly distributed on the inner side walls of the connecting through hole 31 and the extension portion 32 with the center of the connecting through hole 31 as the center.

Further, the extension 32 is inserted into the mounting through hole 11 of the left or right connection plate 10 or 20.

Further, the fixed connection plate 30 is fixed to the left connection plate 10 or the right connection plate 20 by bolts or rivets.

Further, the heat dissipation fins 50 are corrugated bent plates.

When the heat exchange coil is used, the side walls of the left connecting plate 10 and the right connecting plate 20 are both formed with bent edges which are fixed on equipment, when the equipment runs, generated vibration is firstly transmitted to the left connecting plate 10 and the right connecting plate 20 and then transmitted to the fixed connecting plate 30, and the fixed connecting plate 30 is transmitted to the transverse pipe body of the heat exchange coil 40;

and because the shaping has bellying 311 on extension 32 and connect the inside wall of hole 31, all bellying 311 use connect the center of hole 31 as the central equipartition on connect the inside wall of hole 31 and extension 32, heat exchange coil 40's horizontal body card is put between corresponding connect the all bellying 311 of hole 31, and certain deflection has between the bellying 311, during the vibration transmission, deformation through bellying 311, can reduce the vibration, thereby reduce its vibration volume of transmitting the horizontal body for heat exchange coil 40, make heat exchange coil 40's reduction vibration, thereby greatly reduced heat exchange coil 40 and above it the not hard up problem of card between the radiating fin 50 put, guarantee that its card is put firmly, guarantee its life, thereby guarantee its heat transfer effect.

The above embodiments are only for illustrating the utility model and are not to be construed as limiting the utility model, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model, therefore, all equivalent technical solutions also belong to the scope of the utility model, and the scope of the utility model is defined by the claims.

Claims (7)

1. The utility model provides a floated anti-vibration heat exchanger, includes left connecting plate (10) and right connecting plate (20), its characterized in that: all be fixed with fixed connection board (30) on the internal wall of left side connecting plate (10) and right connecting plate (20), the shaping has a plurality of connect the via hole (31) on fixed connection board (30), connect the via hole (31) and left connecting plate (10) or right connecting plate (20) on installation through-hole (11) that have correspond and communicate with each other, the horizontal body plug bush of heat transfer coil (40) is in installation through-hole (11) that have on left connecting plate (10) and right connecting plate (20), the shaping has a plurality of bellyings (311) on the inside wall of connect the via hole (31), the horizontal body plug bush of heat transfer coil (40) is at connect the via hole (31) that correspond, bellyings (311) press on the lateral wall of the horizontal body of heat transfer coil (40).

2. A suspended anti-vibration heat exchanger according to claim 1, wherein: all transverse tube bodies of the heat exchange coil (40) are inserted into the insertion holes of all the heat dissipation fins (50), and all the heat dissipation fins (50) are located between the left connecting plate (10) and the right connecting plate (20).

3. A suspended anti-vibration heat exchanger according to claim 2, wherein: an extension sleeve body part (51) is formed on the inner side wall of the jack, and all transverse pipe bodies of the heat exchange coil (40) are clamped on the corresponding extension sleeve body part (51).

4. A suspended anti-vibration heat exchanger according to claim 1, wherein: the side wall of connect through-hole (31) department shaping has extension (32) that extend left or right, and the shaping has bellying (311) on the inside wall of extension (32) and connect through-hole (31), and all bellying (311) use the center of connect through-hole (31) as the center equipartition on the inside wall of connect through-hole (31) and extension (32).

5. A suspended anti-vibration heat exchanger according to claim 4, wherein: the extension part (32) is inserted and sleeved in the mounting through hole (11) of the left connecting plate (10) or the right connecting plate (20).

6. A suspended anti-vibration heat exchanger according to claim 1, wherein: the fixed connecting plate (30) is fixed on the left connecting plate (10) or the right connecting plate (20) through bolts or rivets.

7. A suspended anti-vibration heat exchanger according to claim 2, wherein: the radiating fins (50) are corrugated bent plates.

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