CN206146036U - Refrigerating unit based on air swirl pipe - Google Patents
Refrigerating unit based on air swirl pipe Download PDFInfo
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- CN206146036U CN206146036U CN201621163792.5U CN201621163792U CN206146036U CN 206146036 U CN206146036 U CN 206146036U CN 201621163792 U CN201621163792 U CN 201621163792U CN 206146036 U CN206146036 U CN 206146036U
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Abstract
This is novel wades a refrigerating unit based on air swirl pipe, including the plummer, positioning keel, the air swirl pipe, the high pressure positive blower, air compressor, mix the trachea, the air duct, waste heat recoverer and guard plate, four at least positioning mechanism of plummer lower surface equipartition, positioning keel is frame construction, and encircle the plummer axis and install at the plummer upper surface, the air swirl pipe, the high pressure positive blower, air compressor and waste heat recoverer all install at the plummer upper surface through the slide rail, the guard plate is a plurality of, and be connected with positioning keel surface and interior sliding surface respectively through the slide rail. The effectual compact that improves equipment structure of this novel one side, improve equipment be to the adaptability of using the place with to the space occupancy of mounted position, and on the other hand is effectual to have stopped the drawback that traditional refrigeration plant need use refrigerating medium, and other reduces equipment operating power consumption, running cost and effectively avoids the pollution that the equipment operation caused to all ring edge borders.
Description
Technical field
The utility model is related to a kind of refrigeration unit, is exactly a kind of refrigeration unit based on air vortex flow tube.
Background technology
At present, freezing equipment has extremely wide in current daily life, industrial production and medicine and other fields
Using, but find in actual use, compressor, the evaporimeter that the refrigeration unit that current refrigeration plant is used is adopted is simultaneously
Coordinate this traditional device structure of cold-producing medium, although can meet and use needs, but while on the one hand cause refrigeration system
Complex structure, volume is larger, to peripheral ring when on the other hand also resulting in cooling heat exchange inefficiency, operation energy consumption height and running
Border easily causes larger noise and chemical contamination, so as to have a strong impact on use flexibility and the reliability of current refrigeration equipment,
Therefore this phenomenon is directed to, in the urgent need to developing a kind of brand-new refrigerator assembly unit, to meet actually used needs.
Utility model content
For a kind of not enough present on prior art, refrigeration unit based on air vortex flow tube of the utility model offer.
To achieve these goals, the utility model is by the following technical solutions realizing:
A kind of refrigeration unit based on air vortex flow tube, including plummer, positioning keel, air vortex flow tube, high pressure positive blower,
Air compressor, gas mixing pipe, wireway, waste-heat recoverer and protective plate, plummer is distributed with plane-parallel, and its lower surface is equal
The detent mechanism of cloth at least four, positioning keel are frame structure, and are arranged on plummer upper surface, air around plummer axis
Vortex tube, high pressure positive blower, air compressor and waste-heat recoverer are arranged on plummer upper surface, and and plummer by slide rail
It is slidably connected, wherein air vortex flow tube at least one, and mutually in parallel between each air vortex flow tube, high pressure positive blower, air compression
Machine is parallel with one another and is connected with air vortex flow tube air inlet by wireway, air vortex flow tube cryopumping mouth by wireway with
The connection of gas mixing pipe, air vortex flow tube high-temperature exhaust air mouth is connected respectively by wireway with gas mixing pipe and waste-heat recoverer, air guide
Pipe is all provided with controlling valve with air vortex flow tube, high pressure positive blower, air compressor, gas mixing pipe and waste-heat recoverer junction, described
Protective plate is some, and is slidably connected with positioning keel outer surface and inner surface respectively by slide rail, positioned at positioning keel inner surface
It is parallel to each other and between the protective plate of outer surface, and retains at least 5 millimeters noise elimination gaps, protective plate compresses with high pressure positive blower, air
Machine, gas mixing pipe and waste-heat recoverer corresponding position are all provided with air guide port, position between the protective plate on keel adjacently situated surfaces by sliding
Groove is connected with each other.
Further, described high pressure positive blower, air compressor are connected by locating piece with slide rail, described locating piece
Including base plate, top board, regulating bolt and elastic cushion block, described top board and base plate is parallel to each other distribution, and by least 4 tune
Section bolt is connected with each other, and sets at least one elastic cushion block between described top board and base plate, and described elastic cushion block respectively with
Top board and base plate offset.
Further, described elastic cushion block includes elastic substrate, reinforced metal net and deformation chamber, described reinforced metal
Net and deformation chamber are some, and are distributed in elastic substrate, wherein described elastic metallic net is parallel to each other with top board and base plate
Distribution.
Further, elastic silencing plate and sound absorption wedge, the elastic silencing plate and sound-absorbing are set in described noise elimination gap
Wedge is connected with protection plate surface.
Further, described plummer upper surface separately sets dirt discharge groove, and each dirt discharge groove respectively around high pressure positive blower, air
The distribution of compressor, gas mixing pipe and waste-heat recoverer.
Further, temperature difference electricity generation device is set respectively on described gas mixing pipe and waste-heat recoverer.
This new structure is simple, and flexible and convenient to use, compact conformation, operation energy consumption is cheap, and resource recycling rate is high, and one
Aspect effectively raises the compact of device structure, improves adaptability of the equipment to using area and the space to installation site
Occupancy, on the other hand effectively having prevented conventional refrigeration equipment needs the drawbacks of using refrigerant, while also effective
While reducing the noise pollution in equipment running process, the waste heat recovery efficiency in equipment running process is improve, so as to
Reach improve refrigerating efficiency, temperature adjustment ability and comprehensive utilization of energy rate while, it is another reduce equipment operation energy consumption,
Operating cost and the equipment that is prevented effectively from run the pollution caused to surrounding enviroment.
Description of the drawings
With reference to the accompanying drawings and detailed description describing the utility model in detail;
Fig. 1 is this new structure schematic diagram;
Fig. 2 is elastic cushion block structural representation.
Specific embodiment
Technological means, creation characteristic, reached purpose and effect to realize the utility model is easy to understand, below
With reference to specific embodiment, the utility model is expanded on further.
A kind of refrigeration unit based on air vortex flow tube as described in Fig. 1 and 2, including plummer 1, positioning keel 2, air
Vortex tube 3, high pressure positive blower 4, air compressor 5, gas mixing pipe 6, wireway 7, waste-heat recoverer 8 and protective plate 9, plummer 1 with
Plane-parallel is distributed, uniform at least four detent mechanism 10 of its lower surface, and positioning keel 2 are frame structure, and around carrying
The axis of platform 1 is arranged on the upper surface of plummer 1, and air vortex flow tube 3, high pressure positive blower 4, air compressor 6 and waste-heat recoverer 8 lead to
Slide rail 11 is crossed installed in the upper surface of plummer 1, and is slidably connected with plummer 1, wherein air vortex flow tube 3 at least one, and respectively
Mutually in parallel between air vortex flow tube 3, high pressure positive blower 4, air compressor 5 are parallel with one another and by wireway 7 and air-swirl
The air inlet of pipe 3 is connected, the connection that the cryopumping mouth of air vortex flow tube 3 passes through wireway and gas mixing pipe 6, the high temperature of air vortex flow tube 3
Exhaust outlet is connected respectively by wireway 7 with gas mixing pipe 6 and waste-heat recoverer 8, wireway 7 and air vortex flow tube 3, high pressure positive blower
4th, air compressor 5, gas mixing pipe 6 and the junction of waste-heat recoverer 8 are all provided with controlling valve 12, and protective plate 9 is some, and by slide rail 11
It is slidably connected with the positioning outer surface of keel 2 and inner surface respectively, positioned between the protective plate 9 of the positioning inner surface of keel 2 and outer surface
It is parallel to each other, and retains at least 5 millimeters noise elimination gaps 17, protective plate 9 and high pressure positive blower 4, air compressor 5, gas mixing pipe 6 and remaining
The corresponding position of heat regenerator 8 is all provided with air guide port 13, positions mutual by chute 14 between the protective plate 9 on the adjacently situated surfaces of keel 2
Connection.
In the present embodiment, described high pressure positive blower 4, air compressor 5 is connected by locating piece 15 with slide rail 11, described
Locating piece 15 include base plate 151, top board 152, regulating bolt 153 and elastic cushion block 154, described top board and base plate mutually put down
Row distribution, and is connected with each other by least 4 regulating bolts, sets at least one between described top board 152 and base plate 151 elastic
Cushion block 154, and described elastic cushion block 154 offsets respectively with top board 152 and base plate 151.
In the present embodiment, described elastic cushion block 154 includes elastic substrate 1540, reinforced metal net 1541 and deformation chamber
1542, described reinforced metal net 1541 and deformation chamber 1542 is some, and is distributed in elastic substrate 1540, wherein described
Elastic metallic net 1541 and top board 152 and base plate 151 are parallel to each other distribution.
In the present embodiment, elastic silencing plate 120 and sound absorption wedge 121 are set in described noise elimination gap 17, the elasticity disappears
Sound layer 120 and sound absorption wedge 121 are connected with the surface of protective plate 9.
In the present embodiment, the described upper surface of plummer 1 separately sets dirt discharge groove 16, and each dirt discharge groove 16 respectively around high-pressure blast
Machine 4, air compressor 5, gas mixing pipe 6 and waste-heat recoverer 8 are distributed.
In the present embodiment, temperature difference electricity generation device 18 is set respectively on described gas mixing pipe 6 and waste-heat recoverer 8.
This is new in actual applications, according to needs are used, select an equipment in high pressure positive blower, air compressor or
Two equipment work simultaneously, and outside air is introduced directly in air vortex flow tube, make air in the presence of air vortex flow tube,
High-temperature gas and cryogenic gas are exported simultaneously, and then high-temperature gas and cryogenic gas are incorporated in proportion as needed gas mixing pipe
Exporting standby after middle temperature adjustment, while unnecessary high-temperature gas carries out heat energy recycle by waste-heat recoverer.
This new structure is simple, and flexible and convenient to use, compact conformation, operation energy consumption is cheap, and resource recycling rate is high, and one
Aspect effectively raises the compact of device structure, improves adaptability of the equipment to using area and the space to installation site
Occupancy, on the other hand effectively having prevented conventional refrigeration equipment needs the drawbacks of using refrigerant, while also effective
While reducing the noise pollution in equipment running process, the waste heat recovery efficiency in equipment running process is improve, so as to
Reach improve refrigerating efficiency, temperature adjustment ability and comprehensive utilization of energy rate while, it is another reduce equipment operation energy consumption,
Operating cost and the equipment that is prevented effectively from run the pollution caused to surrounding enviroment.
General principle of the present utility model and principal character and advantage of the present utility model has been shown and described above.One's own profession
The technical staff of industry it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification
Simply illustrate principle of the present utility model, on the premise of without departing from the utility model spirit and scope, the utility model is also
Various changes and modifications are had, these changes and improvements are both fallen within the range of claimed the utility model.The utility model
Claimed scope is by appending claims and its equivalent thereof.
Claims (4)
1. a kind of refrigeration unit based on air vortex flow tube, it is characterised in that:The described refrigeration unit based on air vortex flow tube
Including plummer, positioning keel, air vortex flow tube, high pressure positive blower, air compressor, gas mixing pipe, wireway, waste-heat recoverer and
Protective plate, described plummer is distributed with plane-parallel, uniform at least four detent mechanism of its lower surface, described positioning dragon
Bone is frame structure, and is arranged on plummer upper surface, described air vortex flow tube, high pressure positive blower, sky around plummer axis
Air compressor and waste-heat recoverer are arranged on plummer upper surface by slide rail, and are slidably connected with plummer, wherein described
Air vortex flow tube at least one, and mutually in parallel between each air vortex flow tube, described high pressure positive blower, air compressor are mutual
It is in parallel and connect with air vortex flow tube air inlet by wireway, described air vortex flow tube cryopumping mouth pass through wireway and
The connection of gas mixing pipe, the air vortex flow tube high-temperature exhaust air mouth is connected respectively by wireway with gas mixing pipe and waste-heat recoverer,
Described wireway is all provided with control with air vortex flow tube, high pressure positive blower, air compressor, gas mixing pipe and waste-heat recoverer junction
Valve, described protective plate is some, and is slidably connected with positioning keel outer surface and inner surface respectively by slide rail, positioned at positioning dragon
It is parallel to each other between the protective plate of bone inner surface and outer surface, and retains at least 5 millimeters noise elimination gaps, described protective plate and high pressure
Blower fan, air compressor, gas mixing pipe and waste-heat recoverer corresponding position are all provided with air guide port, position anti-on keel adjacently situated surfaces
It is connected with each other by chute between backplate.
2. a kind of refrigeration unit based on air vortex flow tube according to claim 1, it is characterised in that:Described high-pressure blast
Machine, air compressor are connected by locating piece with slide rail, and described locating piece includes base plate, top board, regulating bolt and elasticity
Cushion block, described top board and base plate is parallel to each other distribution, and is connected with each other by least 4 regulating bolts, described top board and
At least one elastic cushion block is set between base plate, and described elastic cushion block offsets respectively with top board and base plate.
3. a kind of refrigeration unit based on air vortex flow tube according to claim 2, it is characterised in that:Described cushion
Block includes elastic substrate, reinforced metal net and deformation chamber, and described reinforced metal net and deformation chamber is some, and is distributed on elasticity
In base material, the distribution wherein described elastic metallic net and top board and base plate are parallel to each other.
4. a kind of refrigeration unit based on air vortex flow tube according to claim 1, it is characterised in that:Between described noise elimination
Elastic silencing plate and sound absorption wedge are set in gap, the elastic silencing plate and sound absorption wedge are connected with protection plate surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621163792.5U CN206146036U (en) | 2016-10-25 | 2016-10-25 | Refrigerating unit based on air swirl pipe |
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CN201621163792.5U CN206146036U (en) | 2016-10-25 | 2016-10-25 | Refrigerating unit based on air swirl pipe |
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CN206146036U true CN206146036U (en) | 2017-05-03 |
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CN201621163792.5U Active CN206146036U (en) | 2016-10-25 | 2016-10-25 | Refrigerating unit based on air swirl pipe |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113483497A (en) * | 2021-06-02 | 2021-10-08 | 赵昊焜 | Vortex refrigerating unit |
CN114061165A (en) * | 2021-10-28 | 2022-02-18 | 赵昊焜 | Vortex refrigerating unit |
-
2016
- 2016-10-25 CN CN201621163792.5U patent/CN206146036U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113483497A (en) * | 2021-06-02 | 2021-10-08 | 赵昊焜 | Vortex refrigerating unit |
CN113483497B (en) * | 2021-06-02 | 2022-12-13 | 北京华盛康科技发展有限公司 | Vortex refrigerating unit |
CN114061165A (en) * | 2021-10-28 | 2022-02-18 | 赵昊焜 | Vortex refrigerating unit |
CN114061165B (en) * | 2021-10-28 | 2024-04-02 | 珠海英伟特电子科技有限公司 | Vortex refrigerating unit |
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