CN212962174U - Condenser right end plate with good heat conduction effect - Google Patents

Abstract

The embodiment of the utility model provides a relate to the air conditioning equipment field, disclose a condenser right side end plate that heat conduction effect is good. The utility model comprises an end plate body, wherein the end plate body is provided with a plurality of mounting holes; the cambered enclosing plate is connected to the end plate body so that an accommodating cavity is formed between the cambered enclosing plate and the end plate body; the partition plate is arranged in the accommodating cavity and is vertical to the surface of the end plate body, which is far away from the radiating pipe; and the blowing wind direction of the cooling fan is parallel to the surface of the end plate body close to the cambered surface coaming. The embodiment of the utility model provides a condenser right side end plate that the heat conduction effect is good can solve the hot-air that produces around the higher copper pipe of condenser end plate department's inside condensing agent temperature easily along the end plate around the lower copper pipe of inside condensing agent temperature, reduces the problem of the heat conduction cooling capacity of end plate department copper pipe.

Description

Condenser right end plate with good heat conduction effect

Technical Field

The embodiment of the utility model provides a relate to the air conditioning equipment field, in particular to condenser right side end plate that heat conduction effect is good.

Background

With the development of economy and the improvement of living standard, the air conditioning equipment is widely used in daily life. The condenser in the air-conditioning equipment is a key equipment in the refrigeration process of the air-conditioner, the condenser is mounted between the air outlet of the compressor and the throttling device, the high-temperature high-pressure gas discharged from the air-conditioning compressor, such as Freon, enters the condenser, and the refrigerant Freon is cooled by heat dissipation of the copper pipe and the aluminum foil in the condenser, so that the pressure is unchanged and the temperature is reduced in the cooling and condensation process, and the gas is converted into liquid.

Copper tubes in condensers are typically arranged in rows of bent coils and are secured at bends at both ends using end plates. Because the one end and the high temperature gas intercommunication of the multirow copper pipe of upper and lower range upon range of, the other end and the gaseous intercommunication of low temperature, the condensing engine changes from hot to cold in the copper pipe, in order to make the copper pipe part thinner, the whole shared space of condenser is less, can set up the bending length of copper pipe at the end plate shorter, the bending radius is less, thereby can appear that the copper pipe flows more slowly in the bending region of end plate department the condensation agent, the condensation agent cooling rate slows down, and then cause the condensation agent in the upper row copper pipe in the end plate department and arrange the great condition of difference of condensation agent temperature in the lower row, the hot air that produces around the copper pipe that inside condensation agent temperature is higher easily is bounced to around the copper pipe that inside condensation agent temperature is lower along the end plate, reduce the.

The inventor finds that the following problems exist in the practical operation: the hot air generated around the copper pipe with higher temperature of the internal condensing agent at the end plate of the condenser is easy to bounce around the copper pipe with lower temperature of the internal condensing agent along the end plate, and the heat conduction and cooling capacity of the copper pipe at the end plate is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a condenser right side end plate that heat conduction effect is good for can solve the hot-air that produces around the higher copper pipe of the inside condensing agent temperature of condenser end plate department along the end plate easily around the lower copper pipe of inside condensing agent temperature, reduce the problem of the heat conduction cooling capacity of end plate department copper pipe.

In order to solve the technical problem, the embodiment of the utility model provides a condenser right end plate with good heat conduction effect, which comprises an end plate body, wherein the end plate body is provided with a plurality of mounting holes for mounting a radiating pipe; the cambered enclosing plate is connected to the end plate body so that an accommodating cavity is formed between the cambered enclosing plate and the end plate body; the partition plate is arranged in the containing cavity, one end of the partition plate is connected to the end plate body, the other end of the partition plate is abutted to the surface, close to the end plate body, of the cambered enclosing plate, and the partition plate is perpendicular to the surface, far away from the radiating pipe, of the end plate body; and the blowing wind direction of the cooling fan is parallel to the surface of the end plate body close to the cambered surface coaming.

In addition, the partition plate is movably coupled to the end plate body such that the partition plate is displaced in a direction parallel to a surface of the end plate body near the partition plate. Through setting up the division board and movably being connected with the end plate body for the division board carries out the displacement along the end plate body surface, removes suitable position with the division board according to the in-service use condition, separates high temperature copper pipe and low temperature copper pipe.

In addition, the end plate body is equipped with the spout, and the division board is connected with the sliding block, sliding block and spout cooperation so that the sliding block drives the division board and moves along the spout. Through setting up the spout at the end plate body to make the sliding block on the division board slide along the spout, make the division board more stable when carrying out the displacement along the end plate body surface, it is more nimble to slide.

In addition, the partition board is rotatably connected with the sliding block, and the partition board rotates by taking the direction vertical to the surface of the end plate body as a rotating shaft. Through setting up the division board into rotatably being connected with the sliding block for the division board can rotate on the sliding block, makes when the high temperature copper pipe and low temperature copper pipe upper and lower position interchange when the air conditioner heats, can adapt to adjustment radiator fan's wind direction.

In addition, the bottom that the cambered surface bounding wall is close to the surface of end plate body is equipped with the collecting tank, and collecting tank one end is connected outside cambered surface bounding wall, the other end extends to and holds the chamber. The bottom of the inner side surface of the cambered surface coaming plate, which is close to the air conditioner base, is provided with the flow collecting groove, so that condensed water is collected when the condensed water formed by air condensation drips on the surface of the outer wall of the copper pipe, and other electronic elements in the air conditioner are prevented from being damaged.

In addition, the cambered surface bounding wall is equipped with first locating hole. Through set up first locating hole on the cambered surface bounding wall for the cambered surface bounding wall can be fixed in inside the air conditioner through first locating hole.

In addition, still include adjusting device, adjusting device includes butt plate and support column, and the butt plate is movably connected with the support column, and the butt plate is kept away from the surface butt of end plate body and with cambered surface bounding wall and with butt plate fixed connection. Through setting up adjusting device for after butt joint board and cambered surface bounding wall are fixed, move the cambered surface bounding wall by the butt joint board and carry out the high position adjustment along the support column, and then drive the condenser and wholly carry out the high position adjustment, the holistic installation of the condenser of being convenient for and debugging.

In addition, the support column is provided with a telescopic piece, the abutting plate is connected with the telescopic piece, and the telescopic piece drives the abutting piece to do lifting motion. Through using the extensible member, drive the butt joint board and carry out elevating movement, and then drive the condenser whole height position adjustment that carries on.

In addition, the abutting plate is provided with a second positioning hole. Through setting up the second locating hole at the butt joint board for can carry out fixed connection to butt joint board and cambered surface bounding wall through first locating hole on second locating hole and cambered surface bounding wall

In addition, the cambered surface bounding wall is connected with end plate body detachably. Through setting up the cambered surface bounding wall and being connected with end plate body detachably, be convenient for keep in repair the inboard component of cambered surface bounding wall with cambered surface bounding wall and end plate body separation, the change of keeping in repair of cambered surface bounding wall when needs.

The utility model discloses embodiment is through setting up the division board on the end plate body for prior art to set up radiator fan on the division board, the division board can separate the higher copper pipe of inside condensing agent temperature and the lower copper pipe of inside condensing agent temperature and keep apart, in order to prevent that hot air bullet to near the lower copper pipe of inside condensing agent temperature, lead to the lower copper pipe heat conduction cooling capacity variation of inside condensing agent temperature. Meanwhile, the heat radiation fan blows towards the copper pipe with the higher temperature of the internal condensing agent, when the copper pipe with the higher temperature of the internal condensing agent radiates, hot air is prevented from being ejected to the position near the copper pipe with the lower temperature of the internal condensing agent, the heat conduction cooling efficiency of the copper pipe at the end plate is further improved, the cambered surface coaming is arranged on the end plate body and forms a containing cavity with the end plate body, the copper pipe is located in the containing cavity, and the heat conduction cooling efficiency of the copper pipe at the end plate is prevented from being influenced by the hot air in other directions.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic structural view of a right end plate of a condenser with good heat conduction effect according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of a right end plate of a condenser with good heat conduction effect according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a right end plate of a condenser with good heat conduction effect according to a second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not constitute any limitation to the specific implementation manner of the present invention, and the embodiments may be mutually incorporated and referred to without contradiction.

With the development of economy and the improvement of living standard, the air conditioning equipment is widely used in daily life. The condenser in the air-conditioning equipment is a key equipment in the refrigeration process of the air-conditioner, the condenser is mounted between the air outlet of the compressor and the throttling device, the high-temperature high-pressure gas discharged from the air-conditioning compressor, such as Freon, enters the condenser, and the refrigerant Freon is cooled by heat dissipation of the copper pipe and the aluminum foil in the condenser, so that the pressure is unchanged and the temperature is reduced in the cooling and condensation process, and the gas is converted into liquid.

Copper tubes in condensers are typically arranged in rows of bent coils and are secured at bends at both ends using end plates. Because the one end and the high temperature gas intercommunication of the multirow copper pipe of upper and lower range upon range of, the other end and the gaseous intercommunication of low temperature, the condensing engine changes from hot to cold in the copper pipe, in order to make the copper pipe part thinner, the whole shared space of condenser is less, can set up the bending length of copper pipe at the end plate shorter, the bending radius is less, thereby can appear that the copper pipe flows more slowly in the bending region of end plate department the condensation agent, the condensation agent cooling rate slows down, and then cause the condensation agent in the upper row copper pipe in the end plate department and arrange the great condition of difference of condensation agent temperature in the lower row, the hot air that produces around the copper pipe that inside condensation agent temperature is higher easily is bounced to around the copper pipe that inside condensation agent temperature is lower along the end plate, reduce the.

The inventor finds that the following problems exist in the practical operation: the hot air generated around the copper pipe with higher temperature of the internal condensing agent at the end plate of the condenser is easy to bounce around the copper pipe with lower temperature of the internal condensing agent along the end plate, and the heat conduction and cooling capacity of the copper pipe at the end plate is reduced.

The first embodiment of the present invention relates to a right end plate of a condenser with good heat conduction effect, as shown in fig. 1 to 2, which comprises an end plate body 100, wherein the end plate body 100 is provided with a plurality of mounting holes 110 for mounting a heat dissipation pipe; the cambered enclosing plate 200 is connected to the end plate body 100, so that an accommodating cavity 210 is formed between the cambered enclosing plate 200 and the end plate body 100; the partition plate 300 is arranged in the accommodating cavity 210, one end of the partition plate 300 is connected to the end plate body 100, the other end of the partition plate 300 abuts against the surface of the cambered enclosing plate 200 close to the end plate body 100, and the partition plate 300 is perpendicular to the surface of the end plate body 100 far away from the radiating pipe; the heat dissipation fan 400 is fixedly connected to the partition plate 300, and the blowing wind direction of the heat dissipation fan 400 is parallel to the surface of the end plate body 100 close to the cambered coaming 200.

In the working process of the condenser, after the interface above the radiating copper pipe is communicated with high-temperature gas and the interface below the radiating copper pipe is communicated with the low-temperature liquid discharge port, the condensing agent in the upper row of radiating copper pipes in the plurality of radiating copper pipes is higher in temperature, the condensing agent in the lower row of radiating copper pipes is lower in temperature, and the condensing agent flows from the high-temperature interface to the low-temperature interface in the radiating copper pipes. The heat dissipation fan 400 on the partition plate 300 blows air towards the upper row of heat dissipation copper pipes to cool the upper row of heat dissipation copper pipes in the bending area of the end plate body 100, and simultaneously blows out high-temperature hot air generated around the outer surface of the upper row of heat dissipation copper pipes upwards to prevent the hot air from rebounding to the periphery of the lower row of heat dissipation copper pipes, thereby reducing the heat conduction and cooling capacity of the lower row of heat dissipation copper pipes. The both sides of cambered surface bounding wall 200 are connected with two edges that end plate body 100 paralleled respectively to make and form one between cambered surface bounding wall 200 and the end plate body 100 and hold chamber 210, the heat dissipation copper pipe all is located in holding chamber 210 in the bending region of end plate department, in order to cool off in holding chamber 210, prevents that outside hot-air from causing the influence to the heat conduction cooling capacity of the bending region of heat dissipation copper pipe in end plate department.

The separation plate 300 is movably coupled with the end plate body 100 such that the separation plate 300 is displaced in a direction parallel to a surface of the end plate body 100 near the separation plate 300. Through setting up the division board 300 and being movably connected with end plate body 100 for the division board 300 surface carries out the displacement, with dividing board 300 removal to suitable position according to the in-service use condition, separates high temperature copper pipe and low temperature copper pipe.

The end plate body 100 is provided with a sliding slot 120, the partition plate 300 is connected with a sliding block 310, and the sliding block 310 is matched with the sliding slot 120, so that the sliding block 310 drives the partition plate 300 to move along the sliding slot 120. Through set up spout 120 at end plate body 100 to make sliding block 310 on the division board 300 slide along spout 120, make division board 300 more stable when carrying out the displacement along end plate body 100 surface, it is more nimble to slide.

The partition plate 300 is rotatably coupled to the slide block 310, and the partition plate 300 is rotated about a rotation axis perpendicular to the surface of the end plate body 100. The partition plate 300 is rotatably connected to the sliding block 310, so that the partition plate 300 can rotate on the sliding block 310, and the air direction of the cooling fan 400 can be adaptively adjusted when the upper and lower positions of the high-temperature copper pipe and the low-temperature copper pipe are interchanged during heating of the air conditioner.

The bottom of the cambered enclosing plate 200 close to the surface of the end plate body 100 is provided with a collecting groove 220, one end of the collecting groove 220 is connected to the cambered enclosing plate 200, and the other end extends out of the accommodating cavity 210. Through set up the collection groove 220 in the bottom that is close to the air conditioner base of cambered surface bounding wall 200 inboard surface, collect the comdenstion water when the comdenstion water that copper pipe outer wall surface formed because the air condensation drips, prevent to cause the damage to other electronic component in the air conditioner.

The cambered enclosure 200 is provided with a first positioning hole 230. By arranging the first positioning hole 230 on the cambered enclosing plate 200, the cambered enclosing plate 200 can be fixed inside the air conditioner through the first positioning hole 230.

The cambered coaming 200 is detachably connected with the end plate body 100. Through setting up cambered surface bounding wall 200 and end plate body 100 detachably and being connected, be convenient for when needs maintain with cambered surface bounding wall 200 and end plate body 100 separation, maintain the change to the inboard component of cambered surface bounding wall 200.

In this embodiment, by disposing the partition plate 300 on the end plate body 100 and disposing the heat dissipation fan 400 on the partition plate 300, the copper pipe with a higher temperature of the internal coolant and the copper pipe with a lower temperature of the internal coolant can be separated and isolated by the partition plate 300, so as to prevent the hot air from being flicked to the vicinity of the copper pipe with a lower temperature of the internal coolant, which leads to the deterioration of the heat conduction and cooling capability of the copper pipe with a lower temperature of the internal coolant. Meanwhile, the heat radiation fan 400 blows towards the copper pipe with the higher temperature of the internal condensing agent, when the copper pipe with the higher temperature of the internal condensing agent is cooled, hot air is prevented from being bounced to the position near the copper pipe with the lower temperature of the internal condensing agent, the heat conduction cooling efficiency of the copper pipe at the end plate is further improved, the cambered surface coaming 200 is further arranged on the end plate body 100 and forms a containing cavity 210 with the end plate body 100, the copper pipe is located in the containing cavity 210, and the heat conduction cooling efficiency of the copper pipe at the end plate is prevented from being influenced by the hot air in other directions.

The utility model discloses a second embodiment relates to a condenser right side end plate that the heat conduction effect is good. The second embodiment is substantially the same as the first embodiment, and mainly differs therefrom in that: as shown in fig. 3, the adjusting device 500 is further included, the adjusting device 500 includes an abutting plate 510 and a supporting column 520, the abutting plate 510 is movably connected with the supporting column 520, and the abutting plate 510 abuts against the surface of the curved coaming 200 away from the end plate body 100 and is fixedly connected with the abutting plate 510.

The supporting column 520 is provided with an expansion piece 521, the abutting plate 510 is connected with the expansion piece 521, and the expansion piece 521 drives the abutting piece 510 to move up and down. By using the telescopic member 521, the abutting plate 510 is driven to perform a lifting motion, and then the condenser is driven to perform a height position adjustment as a whole.

The abutting plate 510 is provided with a second positioning hole 511. By arranging the second positioning hole 511 on the abutting plate 510, the abutting plate 510 and the cambered enclosing plate 200 can be fixedly connected through the second positioning hole 511 and the first positioning hole 230 on the cambered enclosing plate 200

In this embodiment, through setting up adjusting device 500 for after butt joint board 510 is fixed with cambered surface bounding wall 200, drive cambered surface bounding wall 200 by butt joint board 510 and carry out the height position adjustment along support column 520, and then drive the whole height position adjustment that carries out of condenser, the holistic installation of condenser of being convenient for and debugging.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and claims of the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (10)

1. The utility model provides a condenser right side end plate that conduction effect is good which comprises:

the heat dissipation pipe comprises an end plate body, wherein the end plate body is provided with a plurality of mounting holes for mounting the heat dissipation pipe;

the cambered surface coaming plate is connected to the end plate body so as to form an accommodating cavity between the cambered surface coaming plate and the end plate body;

the partition plate is arranged in the accommodating cavity, one end of the partition plate is connected to the end plate body, the other end of the partition plate abuts against the surface, close to the end plate body, of the cambered enclosing plate, and the partition plate is perpendicular to the surface, far away from the radiating pipe, of the end plate body;

and the heat dissipation fan is fixedly connected to the partition plate, and the blowing direction of the heat dissipation fan is parallel to the surface of the end plate body close to the cambered surface coaming.

2. The right thermally conductive condenser end plate of claim 1, wherein the separator plate is movably connected to the end plate body such that the separator plate is displaced in a direction parallel to a surface of the end plate body adjacent to the separator plate.

3. The right end plate of the condenser with good heat conduction effect as claimed in claim 2, wherein the end plate body is provided with a sliding groove, the partition plate is connected with a sliding block, and the sliding block is matched with the sliding groove so that the sliding block drives the partition plate to move along the sliding groove.

4. The condenser right end plate with good heat conduction effect as claimed in claim 3, wherein the partition plate is rotatably connected to the sliding block, and the partition plate is rotated around a rotation axis perpendicular to the surface of the end plate body.

5. The condenser right end plate with good heat conduction effect as claimed in claim 1, wherein a flow collecting groove is arranged at the bottom of the cambered enclosing plate close to the surface of the end plate body, one end of the flow collecting groove is connected to the cambered enclosing plate, and the other end of the flow collecting groove extends out of the accommodating cavity.

6. The right end plate of the condenser with good heat conduction effect as claimed in claim 1, wherein the cambered enclosing plate is provided with a first positioning hole.

7. The condenser right end plate with good heat conduction effect of claim 6, further comprising an adjusting device, wherein the adjusting device comprises a butt plate and a supporting column, the butt plate is movably connected with the supporting column, and the butt plate is abutted to the surface, away from the end plate body, of the cambered enclosing plate and is fixedly connected with the butt plate.

8. The condenser right end plate with good heat conduction effect according to claim 7, wherein the supporting column is provided with an expansion piece, the abutting plate is connected with the expansion piece, and the expansion piece drives the abutting piece to move up and down.

9. The condenser right end plate with good heat conduction effect as claimed in claim 8, wherein the abutting plate is provided with a second positioning hole.

10. The condenser right end plate with good heat conduction effect as claimed in claim 1, wherein the cambered enclosing plate is detachably connected with the end plate body.

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