CN112594914B - Heat radiation structure of air conditioning unit - Google Patents

Abstract

The invention discloses a heat dissipation structure of an air conditioning unit, which comprises a bottom plate, a shell, a vertical partition plate, a cooling pipe, a frame and a base, the whole structure of the device is compact, a main body is formed by combining the shell, a cover plate, a baffle plate, the vertical partition plate and a transverse partition plate, the whole device has high disassembly and assembly convenience, and an independent semi-closed space is formed inside by matching the vertical partition plate with the transverse partition plate, so that cold air and outdoor air can be in contact with the radiating fins for a longer time inside, the heat exchange efficiency is improved, meanwhile, the time for the heat dissipation fins to contact with the outside can be effectively reduced, the probability of blockage of the heat dissipation fins is reduced, when the internal temperature is higher, the rotating speed of the fan is increased, negative pressure is formed in the inner part, at the moment, air pushes the adjusting plate to extrude the elastic sheet and contract inwards, a pore is formed between the adjusting plate and the seal strip for more air to enter, and then the dynamic adjustment air input, the two sets of crisscross dirt boards that disturb that set up simultaneously can block the large granule debris in the air and the dust superficial.

Description

Heat radiation structure of air conditioning unit

Technical Field

The invention relates to the technical field of air conditioning units, in particular to a heat dissipation structure of an air conditioning unit.

Background

The air conditioner is a device for regulating and controlling the parameters of temperature, humidity, flow rate and the like of the ambient air in a building or a structure by manual means, generally comprises a cold source or heat source device, a cold and hot medium transmission and distribution system, a tail end device and other auxiliary devices, and mainly comprises a refrigeration host, a water pump, a fan and a pipeline system, wherein the tail end device is responsible for utilizing the cold and heat transmitted and distributed to specifically treat the air state so as to ensure that the air parameters of the target environment meet certain requirements, and the working principle of the air conditioner is mainly that, when the refrigerant changes from gas state to liquid state, a large amount of heat is released, and when the refrigerant changes from liquid state to gas state, a large amount of heat is absorbed, the principle of the air conditioner is that the cooling or heating requirement is achieved mainly through heat exchange, and in the cooling process of the air conditioner, the outdoor end generates a large amount of heat when compressing a refrigerant, so that a heat dissipation structure is needed.

The air conditioner that uses at present is at cryogenic in-process, can produce a large amount of comdenstions water, the source of comdenstion water is the moisture in the air, and the temperature of comdenstion water is low, the processing method to the comdenstion water that generates at present mainly directly discharges, can't carry out recycle to microthermal comdenstion water, and in the refrigerated stage of air conditioner, the higher outdoor air temperature of temperature is also high, consequently can reduce holistic radiating efficiency, only improve radiating efficiency through keeping high air flow, consequently can increase the consumption, and heat radiation fins takes place the jam easily, present air conditioner heat dissipation end is direct fixed mounting subaerial simultaneously, the roughness requirement on ground is higher, produce ponding easily between bottom and the ground simultaneously, cause the part to corrode easily, consequently, there is the drawback when using.

Disclosure of Invention

In view of the above, the present invention is directed to a heat dissipation structure of an air conditioning unit, so as to solve the above-mentioned shortcomings of the prior art, in the refrigeration process of the air conditioner, a large amount of condensed water is generated, the source of the condensed water is the moisture in the air, the temperature of the condensed water is low, the existing method for treating the generated condensed water is mainly direct discharge, the low-temperature condensed water cannot be recycled, and in the refrigeration stage of the air conditioner, the outdoor air temperature is high, so the overall heat dissipation efficiency is reduced, the heat dissipation efficiency is improved only by maintaining high air flow, so the power consumption is increased, and the heat dissipation fins are easily blocked, meanwhile, the heat dissipation end of the prior air conditioner is directly fixed on the ground, the requirement on the flatness of the ground is high, and meanwhile, water is easily accumulated between the bottom and the ground, the corrosion of the parts is easily caused, and therefore, there is a problem that the use of the steel sheet is disadvantageous.

In order to achieve the purpose, the invention adopts the following technical scheme:

a heat dissipation structure of an air conditioning unit comprises a bottom plate, a shell, a vertical partition plate, a cooling pipe, a frame and a base, wherein two groups of clamping grooves are formed in two sides of the bottom plate, and two clamping grooves are symmetrically formed in each group of clamping grooves relative to the central axis of the bottom plate; the top end of the bottom plate is provided with a shell, and one side of the shell is provided with a cover plate; the vertical partition plate is arranged between the shell and the cover plate, the top end of the vertical partition plate is connected with the inner wall of the top of the cover plate in a clamping manner, and the bottom of the vertical partition plate is connected with the inner wall of the bottom of the shell in a clamping manner; the three cooling pipes are arranged at equal intervals and are arranged between the vertical partition plate and the cover plate; the frame is arranged between the shell and the vertical partition plate; the base is provided with two about the axis of bottom plate is the symmetry formula, and two bases all set up the below at the bottom plate.

Furthermore, the shell comprises a baffle plate, a fan and an exhaust window, the baffle plate is arranged at the lower part of one side of the shell, which is far away from the cover plate, and a first filter window is arranged in the baffle plate; the two fans are symmetrically arranged relative to the central axis of the shell, and the two fans are both arranged on the upper part of the inner side of the shell; the exhaust window is arranged at the top of the shell.

Further, the cover plate comprises an air groove and a second filter window; the air groove is arranged at the top of the cover plate; the second filter window is installed on one side, far away from the shell, of the air duct.

Furthermore, the first filter window comprises dust disturbing plates, seals, adjusting plates and elastic pieces, wherein the dust disturbing plates are arranged in two groups in a staggered manner, each group of dust disturbing plates are arranged at equal intervals, and the two groups of dust disturbing plates are arranged on one side, far away from the vertical partition plate, in the first filter window; the two sealing strips are symmetrically arranged about the central axis of the first filter window, are respectively arranged at two ends of one side, close to the vertical partition plate, in the first filter window, and are both in a slotted structure; the adjusting plate is arranged in the first filter window, and the upper end and the lower end of the adjusting plate are tightly attached to the two sealing strips; the shell fragment is the symmetry formula about the axis of first filter window and is provided with two, and the both ends of two shell fragments are connected with two slide rails respectively to the slide rail is installed respectively at the inside both ends of first filter window, and the front side of two shell fragments is connected with the both ends that the regulating plate is close to perpendicular baffle one side respectively simultaneously.

Furthermore, the vertical partition plate comprises three groups of pipe hoops and a transverse partition plate, the pipe hoops are arranged at equal intervals, two pipe hoops are symmetrically arranged in each group, and the three groups of pipe hoops are all arranged on one side of the vertical partition plate close to the cover plate; the transverse partition plate is installed on the lower portion of the front side of the vertical partition plate, and meanwhile, the transverse partition plate is connected with the inner wall of the front portion of the bottom plate in a clamping mode.

Furthermore, the cooling pipe comprises a first end cover, a second end cover, a first inner pipe, a water inlet pipe, a water discharge pipe, an inner connecting pipe and a filling groove, two ends of the cooling pipe are respectively connected with two pipe hoops in the same group, the first end cover and the second end cover are respectively arranged at the top and the bottom of the cooling pipe, the first inner pipe is arranged in the first end cover, and the first inner pipe penetrates through the first end cover and is communicated with the air inlet pipe; a second inner pipe is arranged in the second end cover and penetrates through the bottom of the second end cover to be communicated with the air delivery pipe; the three water inlet pipes are arranged at equal intervals, one ends of the three water inlet pipes are respectively arranged on one side of the first end cover, and the other ends of the three water inlet pipes penetrate through the cover plate; the three water discharging pipes are arranged at equal intervals, one ends of the three water inlet pipes are respectively arranged on one side of the second end cover, and the other ends of the three water discharging pipes penetrate through the cover plate; the two inner connecting pipes are arranged at equal intervals, and two ends of the two inner connecting pipes are respectively communicated with the three second end covers; the filling groove is formed between the outer wall and the inner wall of the cooling pipe, the bottom of the filling groove is of a mesh structure, and the diameter of the inner wall of the cooling pipe is equal to the inner diameters of the first inner pipe and the second inner pipe; the air inlet pipes penetrate through the top of the cover plate and are communicated with the second filter window; the air delivery pipe sequentially penetrates through the lower part of the vertical partition plate and the transverse partition plate, a vacuum pump is arranged in the middle of the air delivery pipe, and the vacuum pumps are arranged between the shell and the transverse partition plate; the filling member is filled in the filling groove.

Furthermore, the frame comprises three refrigerant pipes and welding plates, the three refrigerant pipes are arranged at equal intervals and are arranged in the frame in an S-shaped structure, and two ends of the three refrigerant pipes respectively penetrate through two sides of the shell; the welding plates are distributed at equal intervals, the welding plates are welded on the outer wall of the refrigerant pipe, and meanwhile, each radiating fin is welded at two ends of each welding plate.

Furthermore, the bases comprise fixing pieces, springs and cushion pads, the fixing pieces are symmetrically arranged in two groups, the two groups of fixing pieces are respectively arranged on one side of the tops of the two bases, and meanwhile, two fixing pieces are symmetrically arranged in each group; one end of each spring is fixed at one end of each fixing piece close to the central axis of each fixing piece, the other end of each spring is provided with a clamping piece, the bottoms of the clamping pieces are connected with the sliding grooves, and the sliding grooves are formed in the top of the base; the blotter be the symmetry formula and be provided with two sets ofly, and two sets of blotters are installed respectively in top one side of two bases to every group blotter all is the symmetry formula and is provided with two.

Furthermore, the spring, the clamping piece and the sliding groove form a telescopic structure, and the clamping piece is connected with the bottom plate through the clamping groove respectively.

Compared with the prior art, the invention has obvious advantages and beneficial effects, and specifically, the technical scheme includes that:

1. according to the invention, the device is compact in integral structure, the main body is formed by combining the shell, the cover plate, the baffle plate, the vertical partition plate and the transverse partition plate, the whole device has high disassembly and assembly convenience, and an independent semi-closed space is formed inside by matching the vertical partition plate with the transverse partition plate, so that cold air and outdoor air can be in contact with the radiating fins for a longer time inside, the heat exchange efficiency is improved, meanwhile, the contact time of the radiating fins and the outside can be effectively reduced, and the blocking probability of the radiating fins is reduced.

2. According to the invention, the cooling pipe, the first end cover and the second end cover are arranged, recovered condensate water is conveyed into the first end cover through the water inlet pipe, the condensate water can be naturally filled into the filling groove under the action of gravity, the filling groove is divided into four spaces at equal angles, each space is filled with a plurality of filling pieces, the filling pieces are made of stainless steel, the filling pieces are mutually combined to form a large number of irregular channels, the flowing time of the condensate water among the filling pieces can be greatly increased, the residence time of the condensate water in the filling groove is prolonged, the internal temperature of the cooling pipe is further continuously reduced, external air enters the interior of the cooling pipe through the air inlet pipe, is rapidly cooled, is conveyed to a semi-closed space formed by matching the vertical partition plate with the horizontal partition plate through the air conveying pipe, and cools the cooling fins.

3. According to the invention, the cooling pipe, the first end cover and the second end cover are arranged in a split structure, so that the assembly and disassembly convenience is higher, the interiors of the cooling pipe, the first end cover and the second end cover can be cleaned conveniently, the reduction of the working efficiency caused by blockage is avoided, meanwhile, the filling piece made of stainless steel cannot pollute condensed water, and the condensed water is convenient to discharge or use for a second time.

4. In the invention, the first filter window, the dust disturbing plate, the seal strip, the adjusting plate, the elastic sheet and the slide rail are arranged, in order to ensure that the air can keep the cooling effect when passing through the cooling pipe, the three vacuum pumps are all designed at low flow rate, so that the amount of cold air conveyed to the upper part of the transverse partition plate is not in direct proportion to the exhaust amount of the fan, the air intake can be compensated through the first filter window, the air intake can be compensated through the slotted structures in the seal strips at the upper end and the lower end in the first filter window under the normal state, when the internal temperature is higher, the rotating speed of the fan is increased, negative pressure is formed in the fan, the air can push the adjusting plate to extrude the elastic sheet and contract inwards, a hole is formed between the adjusting plate and the seal strips, more air can enter, the air intake is further dynamically adjusted, and meanwhile, the two groups of dust disturbing plates which are arranged in a staggered mode can block large-particle impurities and floating dust in the air.

5. The device is provided with three refrigerant pipes, the three refrigerant pipes are of an S-shaped structure, a plurality of small-area copper welding plates are welded on the outer walls of the three refrigerant pipes, the problem of low heat conduction efficiency is solved while relatively low production cost is kept, the wavy heat dissipation fins are made of metal aluminum, the thickness of the heat dissipation fins is low, the heat dissipation fins are welded at two ends of the welding plates, and heat exchange efficiency is further improved.

In the invention, a bottom plate, clamping grooves, bases, a fixing piece, springs, clamping pieces, sliding grooves and cushion pads are arranged, wherein four clamping grooves are symmetrically formed in two ends of the bottom plate respectively, chamfers are arranged at two ends of the bottom plate, the two bases are firstly respectively installed on the ground in the integral installation process, then the bottom plate is horizontally placed above the two bases and vertically pressed downwards, the chamfer structure at the bottom of the bottom plate can push the four clamping pieces to slide towards the fixing piece along the sliding grooves and start to extrude the springs until the springs rebound to drive the four clamping pieces to be mutually clamped with the clamping grooves, the integral installation speed is improved, the cushion pads made of rubber materials provide an additional supporting effect for the bottom plate, the problem that accumulated water on the ground corrodes the bottom plate is effectively avoided, and meanwhile, the spring enables the bottom plate to shake in a small range in the horizontal direction through self contraction and rebound in the use process, the shock generated when the device is started can be absorbed, and the overall practicability is improved.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic front view of a heat dissipating structure of an air conditioning unit according to the present invention;

FIG. 2 is a schematic perspective view of a heat dissipating structure of the air conditioning unit of the present invention;

FIG. 3 is a schematic diagram of a side view of a vertical section of the heat dissipating structure of the air conditioning unit of the present invention;

FIG. 4 is a schematic view of a connection structure of a cooling pipe in the heat dissipation structure of the air conditioning unit according to the present invention;

FIG. 5 is a schematic diagram of a partial cross-sectional structure of a cooling tube in the heat dissipation structure of the air conditioning unit according to the present invention;

FIG. 6 is a schematic structural diagram of a side view of a vertical section of a cooling pipe in the heat dissipation structure of the air conditioning unit according to the present invention;

fig. 7 is a front view schematic diagram of a frame in the heat dissipation structure of the air conditioning unit of the present invention;

FIG. 8 is a schematic cross-sectional view of a cooling tube in the heat dissipation structure of the air conditioning unit of the present invention;

FIG. 9 is a schematic perspective view of a filler member in the heat dissipating structure of the air conditioning unit of the present invention;

fig. 10 is a rear view schematic diagram of a first filter window in the heat dissipation structure of the air conditioning unit according to the present invention;

fig. 11 is a schematic vertical cross-sectional side view of a first filter in the heat dissipation structure of the air conditioning unit of the present invention;

fig. 12 is a schematic view of a heat dissipation structure of the air conditioning unit of the present invention at a point a enlarged in fig. 3;

fig. 13 is a schematic diagram of a heat dissipation structure of the air conditioning unit according to the present invention, which is enlarged at B in fig. 5.

The reference numbers are as follows:

1. a base plate; 2. a card slot; 3. a housing; 4. a cover plate; 5. a baffle plate; 6. a first filter window; 6001. a dust disturbing plate; 6002. a seal; 6003. an adjusting plate; 6004. a spring plate; 6005. a slide rail; 7. a vertical partition plate; 8. an air duct; 9. a cooling pipe; 10. a first end cap; 11. a second end cap; 12. a first inner tube; 13. an air inlet pipe; 14. a water inlet pipe; 15. a second filter window; 16. a second inner tube; 17. a wind delivery pipe; 18. a drain pipe; 19. an inner connecting pipe; 20. filling the groove; 21. a pipe hoop; 22. a vacuum pump; 23. a diaphragm plate; 24. a frame; 25. a refrigerant pipe; 26. welding the plate; 27. heat dissipation fins; 28. a fan; 29. an exhaust window; 30. a base; 31. a fixing member; 32. a spring; 33. a fastener; 34. a chute; 35. a cushion pad; 36. and a filling member.

Detailed Description

Referring to fig. 1 to 13, which show specific structures of preferred embodiments of the present invention, a heat dissipation structure of an air conditioning unit includes: the cooling device comprises a bottom plate 1, a shell 3, a vertical partition plate 7, a cooling pipe 9, a frame 24 and a base 30, wherein a group of clamping grooves 2 are formed in two sides of the bottom plate 1, and two clamping grooves 2 are symmetrically arranged on each group of clamping grooves 2 relative to the central axis of the bottom plate 1; a shell 3 is arranged at the top end of the bottom plate 1, and a cover plate 4 is arranged on one side of the shell 3; the vertical partition plate 7 is arranged between the shell 3 and the cover plate 4, the top end of the vertical partition plate 7 is connected with the inner wall of the top of the cover plate 4 in a clamping manner, and the bottom of the vertical partition plate 7 is connected with the inner wall of the bottom of the shell 3 in a clamping manner; three cooling pipes 9 are arranged at equal intervals, and the three cooling pipes 9 are arranged between the vertical partition plate 7 and the cover plate 4; the frame 24 is mounted between the housing 3 and the vertical partition 7; the base 30 is provided with two about the axis of bottom plate 1 is the symmetry formula, and two bases 30 all set up the below at bottom plate 1.

Specifically, the whole shell of device forms through bottom plate 1 and the concatenation of apron 4, and inside separates into three independent space through erecting baffle 7 and cross slab 23, is convenient for control the air current of inside, and whole the higher dismouting convenience that has simultaneously.

In the embodiment, the casing 3 comprises a baffle 5, a fan 28 and an exhaust window 29, the baffle 5 is installed at the lower part of one side of the casing 3 far away from the cover plate 4, and the first filter window 6 is arranged inside the baffle 5; two fans 28 are symmetrically arranged about the central axis of the housing 3, and the two fans 28 are both mounted on the upper part of the inner side of the housing 3; the exhaust window 29 is opened at the top of the housing 3.

Specifically, the fan 28 is convenient to drive the internal air flow to be rapidly exhausted through the exhaust window 29, so that the heat dissipation effect is improved.

In this embodiment, the cover plate 4 includes a wind groove 8 and a second filter window 15; the air duct 8 is arranged at the top of the cover plate 4; the second filter window 15 is arranged on the side of the air duct 8 far away from the shell 3.

Specifically, the second filter window 15 is convenient for filtering the airflow entering the cooling pipe 9, and the use safety is improved.

In this embodiment, the first filter window 6 includes two dust disturbing plates 6001, a seal 6002, an adjusting plate 6003 and an elastic sheet 6004, the dust disturbing plates 6001 are arranged in two groups in a staggered manner, each dust disturbing plate 6001 is arranged at equal intervals, and the two dust disturbing plates 6001 are both installed on one side of the first filter window 6 away from the vertical partition plate 7; the number of the seals 6002 is two and is symmetrically arranged about a central axis of the first filter window 6, the two seals 6002 are respectively installed at two ends of one side of the first filter window 6, which is close to the vertical partition 7, and the two seals 6002 are both in a slotted structure; the adjusting plate 6003 is arranged inside the first filter window 6, and the upper end and the lower end of the adjusting plate 6003 are tightly attached to the two seals 6002; the shell fragment 6004 is provided with two about the axis of first window 6 is the symmetry formula, and the both ends of two shell fragments 6004 are connected with two slide rails 6005 respectively to slide rail 6005 installs respectively at the inside both ends of first window 6 of straining, and the front side of two shell fragments 6004 is connected with the both ends that regulating plate 6003 is close to upright baffle 7 one side respectively simultaneously.

Specifically, the dirt board 6001 that disturbs that the alternating expression set up can block the large granule debris in the air and the dust of floating, and when the inside temperature of device was higher, the rotational speed of fan 28 improved, forms the negative pressure in inside, and outside air can promote regulating plate 6003 extrusion shell fragment 6004 and the shrink inwards this moment, and the hole appears between regulating plate 6003 and the strip of paper used for sealing 6002, supplies more air to get into, and then the dynamic adjustment air input.

In this embodiment, the vertical partition plate 7 includes three groups of pipe hoops 21 and a transverse partition plate 23, the pipe hoops 21 are arranged at equal intervals, two pipe hoops 21 are symmetrically arranged in each group, and the three groups of pipe hoops 21 are all installed on one side of the vertical partition plate 7 close to the cover plate 4; the transverse clapboard 23 is arranged at the lower part of the front side of the vertical clapboard 7, and the transverse clapboard 23 is clamped and connected with the inner wall of the front part of the bottom plate 1.

Specifically, the cooling pipe 9 is convenient to fix through the pipe hoop 21, and the practicability is improved.

In this embodiment, the cooling pipe 9 includes a first end cover 10, a second end cover 11, a first inner pipe 12, a water inlet pipe 14, a water outlet pipe 18, an inner connecting pipe 19, and a filling groove 20, two ends of the cooling pipe 9 are respectively connected with two pipe hoops 21 of the same group, the first end cover 10 and the second end cover 11 are respectively installed at the top and the bottom of the cooling pipe 9, the first inner pipe 12 is arranged in the first end cover 10, and the first inner pipe 12 penetrates through the first end cover 10 and is communicated with the air inlet pipe 13; a second inner pipe 16 is arranged in the second end cover 11, and the second inner pipe 16 penetrates through the bottom of the second end cover 11 and is communicated with an air delivery pipe 17; the number of the water inlet pipes 14 is three, one ends of the three water inlet pipes 14 are respectively arranged on one side of the first end cover 10, and the other ends of the three water inlet pipes 14 penetrate through the cover plate 4; the number of the drain pipes 18 is three, one ends of the three water inlet pipes 14 are respectively arranged on one side of the second end cover 11, and the other ends of the three drain pipes 18 penetrate through the cover plate 4; two inner connecting pipes 19 are arranged at equal intervals, and two ends of the two inner connecting pipes 19 are respectively communicated with the three second end covers 11; the filling groove 20 is formed between the outer wall and the inner wall of the cooling pipe 9, the bottom of the filling groove 20 is of a mesh structure, and the diameter of the inner wall of the cooling pipe 9 is equal to the inner diameter of the first inner pipe 12 and the inner diameter of the second inner pipe 16; the air inlet pipes 13 penetrate through the top of the cover plate 4 and are communicated with the second filter windows 15; the air delivery pipe 17 sequentially penetrates through the lower part of the vertical partition plate 7 and the transverse partition plate 23, a vacuum pump 22 is arranged in the middle of the air delivery pipe 17, and the vacuum pumps 22 are arranged between the shell 3 and the transverse partition plate 23; the filling groove 20 is filled with a filling member 36.

Specifically, inside filling groove 20 was filled to packing 36, can form a large amount of irregular passageways, made the comdenstion water can greatly increased at the flow time between packing 36, improved the dwell time of comdenstion water in filling groove 20 and then continuously reduced the inside temperature of cooling tube 9, after the air entered into cooling tube 9 inside, can rapid cooling, improved the holistic cooling effect of device.

In this embodiment, the frame 24 includes three refrigerant pipes 25 and three welding plates 26, the three refrigerant pipes 25 are arranged at equal intervals, and all the three refrigerant pipes 25 are installed inside the frame 24 in an "S" shape, and two ends of each of the three refrigerant pipes 25 respectively penetrate through two sides of the housing 3; the welding plates 26 are distributed at equal intervals, the welding plates 26 are welded on the outer wall of the refrigerant pipe 25, and meanwhile, each radiating fin 27 is welded at two ends of the welding plate 26 respectively.

Specifically, a plurality of small-area copper welding plates 26 are welded on the outer walls of the three refrigerant pipes 25, so that the problem of low heat conduction efficiency is solved while relatively low production cost is kept, the wavy heat dissipation fins 27 are made of metal aluminum, the thickness of the heat dissipation fins 27 is low, and the heat dissipation fins 27 are welded at two ends of the welding plates 26, so that the heat exchange efficiency is further improved.

In this embodiment, the base 30 includes two sets of fixing members 31, two springs 32 and two buffer pads 35, the two sets of fixing members 31 are symmetrically disposed, and the two sets of fixing members 31 are respectively mounted on one side of the tops of the two bases 30, and meanwhile, two fixing members 31 are symmetrically disposed in each set; one end of each spring 32 is fixed at one end of the fixing member 31 close to the central axis of the fixing member 31, the other ends of the springs 32 are provided with clamping members 33, the bottoms of the clamping members 33 are connected with the sliding grooves 34, and the sliding grooves 34 are formed in the top of the base 30; the blotter 35 be the symmetry formula and be provided with two sets ofly, and two sets of blotters 35 are installed respectively in top one side of two bases 30 to every group blotter 35 all is the symmetry formula and is provided with two.

Specifically, the bottom plate 1 is flatly placed above the two bases 30 and vertically pressed downwards, the chamfering structure at the bottom of the bottom plate 1 can push the four clamping pieces 33 to slide towards the fixing piece 31 along the sliding groove 34 and start to extrude the spring 32 until the spring 32 rebounds to drive the four clamping pieces 33 to be clamped with the clamping groove 2, and the overall installation speed is improved.

In this embodiment, the spring 32, the engaging member 33 and the sliding slot 34 form a telescopic structure, and the engaging member 33 is connected to the bottom plate 1 through the engaging slot 2.

Specifically, the spring 32 allows the bottom plate 1 to shake in a small range in the horizontal direction through self contraction and rebound, so that the shock generated when the device is started can be absorbed, and the overall practicability is improved.

The working principle of the invention is as follows: when the cooling device is used, firstly, an external power supply is switched on, the three vacuum pumps 22 are started simultaneously to drive external air to pass through the second filter windows 15 and enter the three air inlet pipes 13 simultaneously, then, an external water circulation device is switched on to drive condensate water to enter the first end cover 10 through the water inlet pipe 14, the condensate water is naturally filled in the filling groove 20 under the action of gravity, the water flow flows along gaps among the filling pieces 36 in the filling groove 20 and is discharged through the water discharge pipe 18 after finally flowing into the second end cover 11, so that water circulation is completed, the temperature in the cooling pipe 9 can be continuously reduced in the process that the condensate water is filled in the filling pieces 36 and flows, air can be rapidly cooled after entering the cooling pipe 9 through the air inlet pipes 13 and the first inner pipe 12 and is conveyed to the upper part of the transverse partition plate 23 through the second inner pipe 16 and the air conveying pipe 17, then, the two fans 28 are started, and air above the auxiliary transverse partition plate 23 can be rapidly discharged through the air discharge window 29, at this moment, partial air passes through the two groups of dust disturbing plates 6001, enters the inside of the device through the grooves of the two sealing strips 6002, is fully mixed with cold air discharged by the air delivery pipe 17, and then is fully contacted with the heat radiating fins 27, the welding plate 26 and the refrigerant pipe 25, so as to cool the refrigerant pipe 25, the welding plate 26 and the heat radiating fins 27, when the temperature inside the device is continuously increased, the rotating speed of the two fans 28 is increased, so that negative pressure is formed inside the device, the external air can push the adjusting plate 6003 to extrude the elastic sheet 6004 and contract inwards to a flat state, the two ends of the elastic sheet 6004 slide along the slide rail 6005, at this moment, a gap is formed between the edge of the adjusting plate 6003 and the sealing strips 6002, so that more air enters, further, the air inflow is dynamically adjusted, and the heat radiating effect is improved by increasing the air circulation.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (4)

1. The utility model provides an air conditioning unit's heat radiation structure which characterized in that: the cooling device comprises a bottom plate (1), vertical partition plates (7), cooling pipes (9), a frame (24) and a base (30), wherein two groups of clamping grooves (2) are formed in two sides of the bottom plate (1), and two clamping grooves (2) are symmetrically arranged on the central axis of the bottom plate (1); a shell (3) is installed at the top end of the bottom plate (1), and a cover plate (4) is installed on one side of the shell (3); the vertical partition plate (7) is arranged between the shell (3) and the cover plate (4), the top end of the vertical partition plate (7) is connected with the inner wall of the top of the cover plate (4) in a clamping manner, and the bottom of the vertical partition plate (7) is connected with the inner wall of the bottom of the shell (3) in a clamping manner; three cooling pipes (9) are arranged at equal intervals, and the three cooling pipes (9) are arranged between the vertical partition plate (7) and the cover plate (4); the frame (24) is arranged between the shell (3) and the vertical partition plate (7); two bases (30) are symmetrically arranged about the central axis of the bottom plate (1), and the two bases (30) are both arranged below the bottom plate (1);

the shell (3) comprises a baffle (5), a fan (28) and an exhaust window (29), the baffle (5) is arranged at the lower part of one side of the shell (3) far away from the cover plate (4), and a first filter window (6) is arranged in the baffle (5); two fans (28) are symmetrically arranged relative to the central axis of the shell (3), and the two fans (28) are both arranged on the upper part of the inner side of the shell (3); the exhaust window (29) is arranged at the top of the shell (3), and the cover plate (4) comprises an air duct (8) and a second filter window (15); the air groove (8) is arranged at the top of the cover plate (4); the second filtering window (15) is arranged on one side, far away from the shell (3), of the air groove (8), the first filtering window (6) comprises two groups of dust disturbing plates (6001), a sealing strip (6002), an adjusting plate (6003) and an elastic sheet (6004), the two groups of dust disturbing plates (6001) are arranged in a staggered mode, each group of dust disturbing plates (6001) are arranged at equal intervals, and meanwhile, the two groups of dust disturbing plates (6001) are arranged on one side, far away from the vertical partition plate (7), in the first filtering window (6); the number of the sealing strips (6002) is two, which are symmetrically arranged about the central axis of the first filter window (6), the two sealing strips (6002) are respectively arranged at the upper end and the lower end of one side, which is close to the vertical partition plate (7), of the first filter window (6), and the two sealing strips (6002) are both in a slotted structure; the adjusting plate (6003) is arranged inside the first filter window (6), and the upper end and the lower end of the adjusting plate (6003) are tightly attached to the two seals (6002); the elastic sheets (6004) are symmetrically arranged about the central axis of the first filter window (6), two ends of each elastic sheet (6004) are respectively connected with the two slide rails (6005), the two slide rails (6005) are respectively arranged at the upper end and the lower end inside the first filter window (6), the front sides of the two elastic sheets (6004) are respectively connected with one side of the adjusting plate (6003) close to the vertical partition plate (7), the air inflow can be compensated through the slotted structures in the seals at the upper end and the lower end inside the first filter window in a normal state, when the internal temperature is higher, the rotating speed of the fan is increased, negative pressure is formed inside, at the moment, the air pushes the adjusting plate to extrude the elastic sheets and contract inwards, pores are formed between the adjusting plate and the seals, more air enters, the air inflow is dynamically adjusted, the vertical partition plate (7) comprises pipe hoops (21) and transverse partition plates (23), and the pipe hoops (21) are provided with three groups at equal intervals, two pipe hoops (21) are symmetrically arranged in each group, and three groups of pipe hoops (21) are arranged on one side, close to the cover plate (4), of the vertical partition plate (7); the transverse partition plate (23) is arranged at the lower part of the front side of the vertical partition plate (7), meanwhile, the transverse partition plate (23) is connected with the inner wall of the front part of the bottom plate (1) in a clamping mode, the cooling pipe (9) comprises a first end cover (10), a second end cover (11), a first inner pipe (12), a water inlet pipe (14), a water outlet pipe (18), an inner connecting pipe (19) and a filling groove (20), two ends of the cooling pipe (9) are respectively connected with two pipe hoops (21) in the same group, the first end cover (10) and the second end cover (11) are respectively arranged at the top and the bottom of the cooling pipe (9), the first inner pipe (12) is arranged in the first end cover (10), and meanwhile, the first inner pipe (12) penetrates through the first end cover (10) and is communicated with the air inlet pipe (13); a second inner pipe (16) is arranged in the second end cover (11), and the second inner pipe (16) penetrates through the bottom of the second end cover (11) and is communicated with an air delivery pipe (17); three water inlet pipes (14) are arranged at equal intervals, one ends of the three water inlet pipes (14) are respectively arranged at one sides of the three first end covers (10), and the other ends of the three water inlet pipes (14) penetrate through the cover plate (4); three drain pipes (18) are arranged at equal intervals, one ends of the three water inlet pipes (14) are respectively arranged at one sides of the three second end covers (11), and the other ends of the three drain pipes (18) penetrate through the cover plate (4); two inner connecting pipes (19) are arranged at equal intervals, and two ends of the two inner connecting pipes (19) are respectively communicated with the three second end covers (11); the filling groove (20) is formed between the outer wall and the inner wall of the cooling pipe (9), the bottom of the filling groove (20) is of a mesh structure, and meanwhile, the diameter of the inner wall of the cooling pipe (9) is equal to the inner diameter of the first inner pipe (12) and the second inner pipe (16); the air inlet pipe (13) penetrates through the top of the cover plate (4) and is communicated with the second filter window (15); the air delivery pipe (17) sequentially penetrates through the lower part of the vertical partition plate (7) and the transverse partition plate (23), a vacuum pump (22) is installed in the middle of the air delivery pipe (17), and meanwhile, the vacuum pump (22) is installed between the shell (3) and the transverse partition plate (23); the filling groove (20) is filled with a filling member (36).

2. The heat dissipation structure of an air conditioning unit according to claim 1, characterized in that: the frame (24) comprises three refrigerant pipes (25) and welding plates (26), the three refrigerant pipes (25) are arranged at equal intervals, the three refrigerant pipes (25) are arranged in the frame (24) in an S-shaped structure, and two ends of the three refrigerant pipes (25) respectively penetrate through two sides of the shell (3); the welding plates (26) are distributed at equal intervals, the welding plates (26) are welded on the outer wall of the refrigerant pipe (25), and meanwhile, each radiating fin (27) is welded at two ends of the welding plates (26).

3. The heat dissipation structure of an air conditioning unit according to claim 2, characterized in that: the base (30) comprises fixing pieces (31), springs (32) and cushion pads (35), two groups of the fixing pieces (31) are symmetrically arranged, the two groups of the fixing pieces (31) are respectively arranged on one side of the tops of the two bases (30), and meanwhile, two fixing pieces (31) are symmetrically arranged in each group; one end of the spring (32) is fixed at one end of the fixing piece (31) close to the central axis of the fixing piece (31), the other end of the spring (32) is provided with a clamping piece (33), the bottom of the clamping piece (33) is connected with the sliding groove (34), and the sliding groove (34) is formed in the top of the base (30); the blotter (35) are that the symmetry formula is provided with two sets ofly, and install respectively in top one side of two bases (30) two sets of blotters (35), and every group blotter (35) all are the symmetry formula and are provided with two.

4. The heat dissipating structure of an air conditioning unit according to claim 3, wherein: the spring (32), the clamping piece (33) and the sliding groove (34) form a telescopic structure, and the clamping piece (33) is connected with the bottom plate (1) through the clamping groove (2).

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