CN205305312U - Refrigerant heat abstractor and tame electric installation - Google Patents
Refrigerant heat abstractor and tame electric installation Download PDFInfo
- Publication number
- CN205305312U CN205305312U CN201520949328.8U CN201520949328U CN205305312U CN 205305312 U CN205305312 U CN 205305312U CN 201520949328 U CN201520949328 U CN 201520949328U CN 205305312 U CN205305312 U CN 205305312U
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- coolant
- heat abstractor
- opening
- radiator
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Abstract
The utility model discloses a refrigerant heat abstractor, include: the radiator, the surface of radiator has first opening and second opening, the inside of radiator has the intercommunication first opening with second open -ended cooling path. The utility model also discloses a tame electric installation, include: frequency conversion power module still includes: if before refrigerant heat abstractor, refrigerant heat abstractor with the contact of frequency conversion power module is used for making the heat dissipation of frequency conversion power module. The utility model also discloses a tame electric installation, include: the fan module still includes: if before refrigerant heat abstractor, refrigerant heat abstractor with the contact of fan module is used for making the heat dissipation of fan module. The utility model discloses a refrigerant heat abstractor and tame electric installation, refrigerant be the flow in cooling path, and radiator directness and refrigerant carry out the heat transfer, have improved heat exchange efficiency.
Description
Technical field
This utility model relates to temperature-adjusting device field, is specifically related to a kind of coolant heat abstractor and home appliance.
Background technology
Current multi-connected machine application places is more and more extensive, and frequency-converter power module and blower fan module heat dissipation problem increasingly cause the attention of developer, frequency-converter power module and blower fan module heat radiation bad, directly affect the performance of unit.
In prior art, solve heat dissipation problem by the following two kinds mode: (1) realizes frequency-converter power module and blower fan module heat radiation by radiator fan; (2) being dispelled the heat by the coolant of system, radiating module adopts copper pipe and radiating fin combination mode. But, adopting (1st) kind mode, by adding radiator fan etc., casing can be made to become big, multi-connected machine overall structure becomes big, and cost is high. Adopt (2nd) kind mode, coolant is utilized to carry out cooling heat radiation, fin is that copper pipe is together with cold and hot is embedded in, coolant and copper pipe carry out heat exchange, and copper pipe carries out heat exchange with fin again, and heat exchange efficiency is poor, and owing to copper pipe is by the impact of radius bend, coolant and the long-pending reduction of radiating rib contact surface, thus causing that heat exchange area reduces, heat transfer effect is poor.
Utility model content
The above-mentioned deficiency aiming to overcome that prior art of this utility model embodiment, it is provided that a kind of coolant heat abstractor, makes radiator directly and coolant carries out heat exchange.
The another object of this utility model embodiment is in that to overcome the above-mentioned deficiency of prior art, it is provided that a kind of home appliance, makes the frequency-converter power module of coolant heat abstractor and home appliance carry out heat exchange.
The another above-mentioned deficiency aiming to overcome that prior art of this utility model embodiment, it is provided that a kind of home appliance, makes the blower fan module of coolant heat abstractor and home appliance carry out heat exchange.
In order to realize above-mentioned utility model purpose, the technical scheme of this utility model embodiment is as follows:
A kind of coolant heat abstractor, including: radiator, the surface of described radiator has the first opening and the second opening, and the inside of described radiator has the refrigerant passage connecting described first opening and described second opening.
Further: the inner surface of described refrigerant passage has fold.
Further: the inner surface of described refrigerant passage has screw thread.
Further, also include: coolant inlet pipe and coolant go out pipe, described coolant inlet pipe and described first opening and connect, described coolant goes out pipe and described second opening connects, or, described coolant inlet pipe and described second opening connect, and described coolant goes out pipe and described first opening connects.
Further: described radiator is tabular, lamellar or bulk.
Further: described refrigerant passage is linear or non-linear.
Further: described refrigerant passage is letter U shape, letter M shape, letter S shape, letter N shape or waveform.
Further: described first opening and described second opening are positioned at same surface or the different surfaces of described radiator.
A kind of home appliance, including: frequency-converter power module, also include: foregoing coolant heat abstractor, described coolant heat abstractor and described frequency-converter power module contact, be used for making described frequency-converter power module heat dissipating.
And, a kind of home appliance, including: blower fan module, also include: foregoing coolant heat abstractor, described coolant heat abstractor contacts with described blower fan module, is used for making described blower fan module dispel the heat.
Having the beneficial effect that of this utility model embodiment:
1, the coolant heat abstractor of this utility model embodiment, coolant flows in refrigerant passage, compared with prior art, omit this structure of copper pipe, original radiation processes is made to become " coolant radiator treats radiating module " from " radiating module treated by coolant copper pipe fin ", so that radiator is direct and coolant is made directly heat exchange, improve heat exchange efficiency.
2, the surface that inner surface is Non-smooth surface of the refrigerant passage in the coolant heat abstractor of this utility model embodiment, the fold of its inner surface and/or screw thread etc. design, increasing the surface area of refrigerant passage, thus increasing the contact area of coolant and radiator, improve heat exchange efficiency.
3, the refrigerant passage in the coolant heat abstractor of this utility model embodiment is preferably the design of non-linear, increasing the surface area of refrigerant passage, thus increasing the contact area of coolant and radiator, improve heat exchange efficiency.
4, the home appliance of this utility model embodiment, by arranging aforesaid coolant heat abstractor, makes coolant heat abstractor and frequency-converter power module heat exchange, so that frequency-converter power module heat dissipating.
5, the home appliance of this utility model embodiment, by arranging aforesaid coolant heat abstractor, makes coolant heat abstractor and blower fan module heat exchange, so that blower fan module heat radiation.
Accompanying drawing explanation
Fig. 1 is the structural representation of the coolant heat abstractor of this utility model one preferred embodiment;
Fig. 2 is the profile of the coolant heat abstractor of this utility model one preferred embodiment.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated. Should be appreciated that specific embodiment described herein is only in order to explain this utility model, be not used to limit this utility model.
This utility model embodiment provides a kind of coolant heat abstractor. As illustrated in fig. 1 and 2, the profile of the respectively structural representation of the coolant heat abstractor of this utility model one preferred embodiment and coolant heat abstractor.
This coolant heat abstractor includes: radiator 1.The surface of this radiator 1 has the first opening 101 and the second opening 102. The inside of this radiator 1 has the refrigerant passage 103 of connection the first opening 101 and the second opening 102. Coolant flows in and out in radiator 1 from the first opening 101 and the second opening 102, and coolant flows in refrigerant passage 103.
Preferably, this radiator 1 can be processed into a radiator entirety (such as radiator 1 is divided into the first half and the latter half) by two symmetrical radiator structures, it is also possible to is integrated.
The coolant heat abstractor of this utility model embodiment, coolant flows in refrigerant passage 103, compared with prior art, omit this structure of copper pipe, original radiation processes is made to become " coolant radiator treats radiating module " from " radiating module treated by coolant copper pipe fin ", thus radiator 1 is direct and coolant carries out heat exchange, improve heat exchange efficiency.
Preferably, the inner surface of this refrigerant passage 103 has fold. It is furthermore preferred that the inner surface of this refrigerant passage 103 has screw thread. Above-mentioned design makes the surface that inner surface is Non-smooth surface of refrigerant passage 103, utilizes the structure of fold and/or screw thread, increases the surface area of refrigerant passage 103, thus increasing coolant and the contact area of radiator 1, improves heat exchange efficiency.
Preferably, this coolant heat abstractor also includes coolant inlet pipe 2 and coolant goes out pipe 3. Coolant inlet pipe 2 and the first opening 101 connect, and coolant goes out pipe 3 and the second opening 102 connects. Certainly, coolant inlet pipe 2 can also connect with the second opening 102, and coolant goes out pipe 3 and the first opening 101 connects. Coolant flows into radiator 1 from coolant inlet pipe 2, goes out pipe 3 from coolant and flows out radiator 1.
Preferably, this radiator 1 is tabular, lamellar or bulk. The shape of this radiator 1 is not limited thereto, it is possible to the shape treating radiating module 4 according to contacting with radiator 1 selects, so that treating that radiating module 4 conveniently can contact with radiator 1. Treating that radiating module 4 can be placed on a surface of radiator 1, this surface is preferably without the surface arranging the first opening 101 and the second opening 102.
Refrigerant passage 103 can be rectilinear, it is also possible to right and wrong are rectilinear. Preferably, refrigerant passage 103 is non-linear, for instance, letter U shape, letter M shape, letter S shape, letter N shape or waveform etc. Compared to rectilinear refrigerant passage 103, the shape design of the non-linear of this preferred refrigerant passage 103, increasing the surface area of refrigerant passage 103, thus increasing coolant and the contact area of radiator 1, improve heat exchange efficiency.
Preferably, the first opening 101 and the second opening 102 are positioned at the same surface of radiator 1. Such as, being shaped as M shape when refrigerant passage 103, the first opening 101 and the second opening 102 may be located at the same surface of radiator 1. First opening 101 is positioned at the same surface of radiator and is also beneficial to the layout of other structures relevant with coolant flowing with the second opening 102.
Preferably, the first opening 101 and the second opening 102 are positioned at the different surfaces of radiator 1. Such as, being shaped as N shape when refrigerant passage 103, the first opening 101 can lay respectively at relative two surface of radiator 1 with the second opening 102.
The work process of the coolant heat abstractor of this utility model embodiment is as follows: this coolant heat abstractor with treat that radiating module 4 contacts, the coolant of low temperature enters radiator 1 by coolant inlet pipe 2, and flow in refrigerant passage 103, heat exchange is carried out with radiator 1, radiator 1 again and treats that radiating module 4 carries out heat exchange, is taken away by coolant by the heat treating radiating module 4.
Aforesaid coolant heat abstractor is used to the element radiating of home appliance.
This utility model embodiment additionally provides a kind of home appliance. This home appliance includes: frequency-converter power module and foregoing coolant heat abstractor. This coolant heat abstractor and frequency-converter power module contact, be used for making frequency-converter power module heat dissipating.
This utility model embodiment additionally provides a kind of home appliance. This home appliance includes: blower fan module, and foregoing coolant heat abstractor. This coolant heat abstractor contacts with blower fan module, is used for making blower fan module dispel the heat.
This utility model provides and is only preferred embodiment of the present utility model described in more than one; not in order to limit this utility model; all any amendment, equivalent replacement and improvement etc. made within spirit of the present utility model and principle, all should include within protection domain of the present utility model.
Claims (9)
1. a coolant heat abstractor, including: radiator, it is characterized in that: the surface of described radiator has the first opening and the second opening, the inside of described radiator has the refrigerant passage connecting described first opening and described second opening, and the inner surface of described refrigerant passage has fold.
2. coolant heat abstractor as claimed in claim 1, it is characterised in that: the inner surface of described refrigerant passage has screw thread.
3. coolant heat abstractor as claimed in claim 1, it is characterized in that, also include: coolant inlet pipe and coolant go out pipe, described coolant inlet pipe and described first opening connect, described coolant goes out pipe and described second opening connects, or, described coolant inlet pipe and described second opening connect, and described coolant goes out pipe and described first opening connects.
4. coolant heat abstractor as claimed in claim 1, it is characterised in that: described radiator is tabular, lamellar or bulk.
5. coolant heat abstractor as claimed in claim 1, it is characterised in that: described refrigerant passage is linear or non-linear.
6. the coolant heat abstractor as described in claim 1 or 5, it is characterised in that: described refrigerant passage is letter U shape, letter M shape, letter S shape, letter N shape or waveform.
7. coolant heat abstractor as claimed in claim 1, it is characterised in that: described first opening and described second opening are positioned at same surface or the different surfaces of described radiator.
8. a home appliance, including: frequency-converter power module, it is characterised in that also include: the coolant heat abstractor as described in any one of claim 1��7, described coolant heat abstractor and described frequency-converter power module contact, it is used for making described frequency-converter power module heat dissipating.
9. a home appliance, including: blower fan module, it is characterised in that also include: the coolant heat abstractor as described in any one of claim 1��7, described coolant heat abstractor contacts with described blower fan module, is used for making described blower fan module dispel the heat.
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CN201520949328.8U CN205305312U (en) | 2015-11-24 | 2015-11-24 | Refrigerant heat abstractor and tame electric installation |
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CN201520949328.8U CN205305312U (en) | 2015-11-24 | 2015-11-24 | Refrigerant heat abstractor and tame electric installation |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107166992A (en) * | 2017-06-05 | 2017-09-15 | 青岛海信日立空调系统有限公司 | The processing method of refrigerant fin, air-conditioning and refrigerant fin |
CN107278071A (en) * | 2017-06-16 | 2017-10-20 | 珠海格力电器股份有限公司 | Electric-controlled box and multiple on-line system |
-
2015
- 2015-11-24 CN CN201520949328.8U patent/CN205305312U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107166992A (en) * | 2017-06-05 | 2017-09-15 | 青岛海信日立空调系统有限公司 | The processing method of refrigerant fin, air-conditioning and refrigerant fin |
CN107278071A (en) * | 2017-06-16 | 2017-10-20 | 珠海格力电器股份有限公司 | Electric-controlled box and multiple on-line system |
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