CN212720250U - High-efficient radiating air conditioner radiating fin structure - Google Patents
High-efficient radiating air conditioner radiating fin structure Download PDFInfo
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- CN212720250U CN212720250U CN202021103072.6U CN202021103072U CN212720250U CN 212720250 U CN212720250 U CN 212720250U CN 202021103072 U CN202021103072 U CN 202021103072U CN 212720250 U CN212720250 U CN 212720250U
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- heat dissipation
- air conditioner
- fin
- plate washer
- installation plate
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Abstract
The utility model discloses a high-efficient radiating air conditioner radiating fin structure, including the heat dissipation base, installation plate washer before the top one side swing joint of heat dissipation base has, one side swing joint that the heat dissipation base kept away from the preceding installation plate washer has the back installation plate washer, be provided with the fin between preceding installation plate washer and the back installation plate washer, the cooling bath has been seted up on the surface of fin. The utility model discloses a heat dissipation base and radiator fan, radiator fan installs inside the heat dissipation base, and radiator fan installs threely, can produce a large amount of heats after the air conditioner is opened, first cooling tube and fin carry out the radiating operation simultaneously this moment, after decomposing the heat through first cooling tube and fin, a large amount of heats stop inside outer machine, the time has been of a specified duration and will make the radiating effect obviously descend, will stop at the inside heat extraction of outer machine through installing the radiator fan in the heat dissipation base this moment and discharge, thereby reach high-efficient radiating effect.
Description
Technical Field
The utility model belongs to the technical field of the air conditioner heat dissipation, concretely relates to high-efficient radiating air conditioner radiating fin structure.
Background
The radiator achieves the purpose of strengthening heat transfer by additionally arranging fins on a common base pipe. The base pipe can be a steel pipe; a stainless steel tube; copper tubing, and the like. The fins can also be made of steel belts; stainless steel band, copper band, aluminium band, etc., the finned radiator can be divided into winding fins on the structural form of the fin; stringing sheets; welding a sheet type; and (5) rolling into sheets. At present, the most widely used is the steel-aluminum composite finned tube, the pressure resistance of a steel tube and the efficient heat conducting performance of aluminum are utilized, although the cost is low, efficient heat dissipation cannot be achieved, most fins are made of aluminum, and the fins are easy to age after a long time. However, various air conditioner radiating fin structures on the market still have various problems.
If the grant publication number is CN109595966A discloses a heat sink heat dissipation fin, it realizes the non-perpendicular setting of the flow guiding surface on the side of the sealing strip departing from the inner turbulent flow sheet and the composite board, when the air flow contacts with the flow guiding surface, the air flow will not be rebounded, the air intake efficiency is improved, so that the heat on the heat dissipation fin can be taken away by the air flow more, thereby improving the heat dissipation efficiency, but the problems of high-efficiency heat dissipation and aging of the heat dissipation fin of the existing air conditioner are not solved, and in order to solve these existing problems, we provide a high-efficiency heat dissipation air conditioner heat dissipation fin structure.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-efficient radiating air conditioner radiating fin structure to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high-efficient radiating air conditioner radiating fin structure, includes the heat dissipation base, installation plate washer before the top one side swing joint of heat dissipation base, the top swing joint of preceding installation plate washer has first cooling tube, the top of first cooling tube is provided with the import nut, the bottom swing joint of preceding installation plate washer has the second cooling tube, the top of second cooling tube is provided with the export nut, one side swing joint that the heat dissipation base kept away from preceding installation plate washer has the after-mounting plate washer, be provided with the fin between preceding installation plate washer and the after-mounting plate washer, the cooling bath has been seted up on the surface of fin, the drainage groove has been seted up to the both sides of fin.
The first cooling pipe and the second cooling pipe are fixedly connected through a connecting elbow.
Fixed mounting holes are formed in the two sides of the bottom end of the heat dissipation base.
And an air inlet pipe is arranged at the top end of the rear mounting baffle plate.
And a drain pipe is arranged at the bottom end of the rear mounting baffle.
The surface of the radiating fin is provided with a plurality of cooling pipe mounting holes.
A plurality of radiating fans are arranged inside the radiating base.
One end of the heat dissipation base is provided with a power supply interface.
Compared with the prior art, the beneficial effects of the utility model are that:
(1) the utility model discloses a set up heat dissipation base and radiator fan, radiator fan installs inside the heat dissipation base, and radiator fan installs threely, can produce a large amount of heats after the air conditioner is opened, first cooling tube and fin carry out the radiating operation simultaneously this moment, after decomposing the heat through first cooling tube and fin, a large amount of heats stop inside outer machine, the time has been of a specified duration and will make the radiating effect obviously descend, will stop at the inside heat extraction of outer machine through installing the radiator fan in the heat dissipation base this moment and discharge, thereby reach high-efficient radiating effect.
(2) The utility model discloses a setting is through setting up the fin, cooling bath and drainage tank have been seted up on the surface of fin, when the air conditioner is when heating, the radiator can produce a large amount of heats, and the heat of radiator is when meetting the moisture in the air, vapor can condensate water, most radiators need rely on the heat to evaporate fin surface comdenstion water, the process is slow and can have remaining water to stay on the fin, lead to the ageing yielding of fin, will redundant moisture direction cooling bath through seting up at the drainage tank on fin surface this moment, the cooling bath flows moisture direction base, thereby reach the effect of protection fin.
Drawings
Fig. 1 is a schematic view of the overall structure of a heat dissipation fin structure of an air conditioner with high heat dissipation efficiency of the present invention;
fig. 2 is a schematic view of a heat sink mounting structure in the structure diagram 1 of the heat sink fin for an air conditioner with high heat dissipation efficiency of the present invention;
fig. 3 is a top view of the structure of the heat dissipating fin of the air conditioner with high heat dissipation efficiency of the present invention;
fig. 4 is a schematic view of the mounting structure of the heat dissipation base in the structure diagram 1 of the heat dissipation fin of the air conditioner with high heat dissipation efficiency of the present invention;
fig. 5 is the utility model relates to a back installation plate washer mounting structure sketch map in high-efficient radiating air conditioner radiating fin structure chart 1.
In the figure: 1. a heat sink; 2. connecting the elbow; 3. an inlet nut; 4. a baffle plate is arranged in front; 5. an outlet nut; 6. a first cooling pipe; 7. a baffle plate is arranged at the back; 8. a cooling tube mounting hole; 9. a heat dissipation base; 10. fixing the mounting hole; 11. a heat radiation fan; 12. an air inlet pipe; 13. a drain pipe; 14. a cooling tank; 15. a water filtering tank; 16. a power interface; 17. a second cooling tube.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Please refer to fig. 1-5, the utility model provides a high-efficient radiating air conditioner radiating fin structure, including heat dissipation base 9, top one side swing joint of heat dissipation base 9 has preceding installation plate washer 4, the top swing joint of preceding installation plate washer 4 has first cooling tube 6, the top of first cooling tube 6 is provided with import nut 3, the bottom swing joint of preceding installation plate washer 4 has second cooling tube 17, the top of second cooling tube 17 is provided with export nut 5, one side swing joint that heat dissipation base 9 kept away from preceding installation plate washer 4 has rear mounting plate washer 7, be provided with fin 1 between preceding installation plate washer 4 and the rear mounting plate washer 7, cooling bath 14 has been seted up on the surface of fin 1, water filtering groove 15 has been seted up to fin 1's both sides.
Through connecting elbow 2 fixed connection between first cooling tube 6 and the second cooling tube 17, through setting up connecting elbow 2, and connecting elbow 2's the pure copper material of use, when first cooling tube 6 and second cooling tube 17 need turn to when being connected, connecting elbow 2 is semi-circular, and first cooling tube 6 and second cooling tube 17 are connected respectively at both ends to reach the effect of connecting first cooling tube 6 and second cooling tube 17.
Fixed mounting hole 10 has all been seted up to the bottom both sides of heat dissipation base 9, and through setting up fixed mounting hole 10, when needs install whole heat abstractor, through fixed mounting hole 10 installation screw to reach fixed heat abstractor's effect.
The top end of the rear mounting baffle 7 is provided with an air inlet pipe 12, and when the radiator is opened, air is conveyed into the radiator through the air inlet pipe 12 by arranging the air inlet pipe 12, so that the effect that air flow passes through the radiator is achieved.
The bottom end of the rear mounting baffle 7 is provided with a drain pipe 13, and by arranging the drain pipe 13, when the heat dissipation device cannot discharge water flow due to alternate generation of cold and heat, water is guided to a cooling tank 14 through a water filtering tank 15, and the cooling tank 14 collects the water flow and then flows to the drain pipe 13, so that the effect of discharging the water flow is achieved.
A plurality of cooling tube mounting holes 8 are formed in the surface of the radiating fin 1, and by means of the cooling tube mounting holes 8, when the cooling tubes need to penetrate through the radiating fin 1, the diameters of the cooling tube mounting holes 8 are identical to those of the cooling tubes, so that the effect of facilitating plug transfer is achieved.
The inside of heat dissipation base 9 is provided with a plurality of radiator fan 11, through setting up radiator fan 11, the sealed effect of adoption of radiator fan 11, when the heat dissipation function produced a large amount of comdenstion water, sealed radiator fan 11 can not intake to reach the effect that prevents the comdenstion water and get into the inside messenger motor of radiator fan 11 and damage, and radiator fan 11 uses high temperature resistant material, avoids being in work damage under the high temperature mode for a long time.
One end of the heat dissipation base 9 is provided with a power interface 16, and by arranging the power interface 16, when a power supply needs to be input to the heat dissipation fan 11, the power supply of the host is connected to the power interface 16, so that the effect of providing the power supply for the heat dissipation fan 11 is achieved.
The utility model discloses a theory of operation and use flow: through the arrangement of the heat dissipation base 9 and the heat dissipation fan 11, the heat dissipation fan 11 is installed inside the heat dissipation base 9, and three heat dissipation fans 11 are installed, when the air conditioner is opened, a large amount of heat can be generated, at the moment, the first cooling pipe 6 and the heat dissipation fins 1 perform heat dissipation operation simultaneously, after the heat is decomposed through the first cooling pipe 6 and the heat dissipation fins 1, the large amount of heat stays inside the outdoor unit, the heat dissipation effect is obviously reduced after a long time, at the moment, the heat staying inside the outdoor unit is extracted and discharged through the heat dissipation fan 11 installed inside the heat dissipation base 9, so that the high-efficiency heat dissipation effect is achieved, through the arrangement of the heat dissipation fins 1, the cooling grooves 14 and the water filtering grooves 15, the surface of the heat dissipation fins 1 is provided with the cooling grooves 14 and the water filtering grooves 15, when the air conditioner heats, the heat dissipation fins can generate, vapor can condense into water, and most radiators need rely on the heat to evaporate fin 1 surface comdenstion water, and the process is slow and have remaining water to stay on fin 1, leads to fin 1 ageing yielding, leads to surplus moisture guide cooling tank 14 through seting up at the water filtering tank 15 on fin 1 surface this moment, and cooling tank 14 flows moisture guide base to reach the effect of protection fin 1.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides a radiating air conditioner radiating fin structure of high-efficient, includes heat dissipation base (9), its characterized in that: install plate washer (4) before the top one side swing joint of heat dissipation base (9), the top swing joint of preceding installation plate washer (4) has first cooling tube (6), the top of first cooling tube (6) is provided with inlet nut (3), the bottom swing joint of preceding installation plate washer (4) has second cooling tube (17), the top of second cooling tube (17) is provided with outlet nut (5), one side swing joint that preceding installation plate washer (4) was kept away from in heat dissipation base (9) has back installation plate washer (7), be provided with fin (1) between preceding installation plate washer (4) and the back installation plate washer (7), cooling bath (14) have been seted up on the surface of fin (1), water filtering groove (15) have been seted up to the both sides of fin (1).
2. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: the first cooling pipe (6) and the second cooling pipe (17) are fixedly connected through a connecting elbow (2).
3. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: and both sides of the bottom end of the heat dissipation base (9) are provided with fixed mounting holes (10).
4. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: and an air inlet pipe (12) is arranged at the top end of the rear mounting baffle plate (7).
5. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: and a drain pipe (13) is arranged at the bottom end of the rear mounting baffle plate (7).
6. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: the surface of the radiating fin (1) is provided with a plurality of cooling pipe mounting holes (8).
7. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: a plurality of radiating fans (11) are arranged in the radiating base (9).
8. An air conditioner heat dissipation fin structure with efficient heat dissipation as defined in claim 1, wherein: one end of the heat dissipation base (9) is provided with a power supply interface (16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021103072.6U CN212720250U (en) | 2020-06-15 | 2020-06-15 | High-efficient radiating air conditioner radiating fin structure |
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CN202021103072.6U CN212720250U (en) | 2020-06-15 | 2020-06-15 | High-efficient radiating air conditioner radiating fin structure |
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CN212720250U true CN212720250U (en) | 2021-03-16 |
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CN202021103072.6U Active CN212720250U (en) | 2020-06-15 | 2020-06-15 | High-efficient radiating air conditioner radiating fin structure |
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- 2020-06-15 CN CN202021103072.6U patent/CN212720250U/en active Active
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