CN209623464U - A kind of cold and hot double source generator of vacuum - Google Patents
A kind of cold and hot double source generator of vacuum Download PDFInfo
- Publication number
- CN209623464U CN209623464U CN201822121064.3U CN201822121064U CN209623464U CN 209623464 U CN209623464 U CN 209623464U CN 201822121064 U CN201822121064 U CN 201822121064U CN 209623464 U CN209623464 U CN 209623464U
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- Prior art keywords
- vacuum
- storehouse
- shell
- cold
- pyrosol
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Abstract
The utility model discloses a kind of cold and hot double source generators of vacuum, including low temperature bin shell, vacuum meter, vacuum interface, cooling solution inlet, sprinkler, finned tube, liquid collecting plate, pyrosol outlet, pipette, sewage draining exit, pyrosol storehouse, cool down solution interface, thermometer, cryogenic liquid interface, cold plate, vacuum chamber, vacuum pump, solution pump, first motor-driven valve, throttle valve, high-pressure exhaust, high temperature storehouse shell, high-temp liquid outlet, cryogenic liquid inlet, cryogenic fluid storehouse, cooling taphole, pyrosol entrance, high voltage interface, high-pressure chamber and the second motor-driven valve, the inner tip of the low temperature bin shell and high temperature storehouse shell is respectively arranged with vacuum chamber and high-pressure chamber, the inner bottom of the low temperature bin shell and high temperature storehouse shell is respectively arranged with pyrosol storehouse and cryogenic fluid storehouse, the utility model, tool Have the characteristics that stable equipment operation and energy utilization rate are high, is worth of widely use.
Description
Technical field
The utility model relates to the equipment technical field that cools, specially a kind of cold and hot double source generator of vacuum.
Background technique
In heat production rate high environment and electrical equipment, generally require to install heat dissipation equipment additional to radiate.Wherein radiate
The radiating mode of device includes heat loss through radiation, four major class of heat loss through conduction, heat loss through convection and evaporative heat loss.Traditional heat dissipation equipment
In, there is a problem of that job insecurity and energy utilization rate are low, the temperature of heat dissipation equipment is generally higher, the loss to apparatus body
Greatly, fluctuation of service is easily led to;In heat dissipation equipment, the heat of discharge is not used, and causes the waste of the energy.Therefore, it designs
A kind of the operation is stable and the high cold and hot double source generator of vacuum of energy utilization rate are necessary.
Summary of the invention
The purpose of this utility model is to provide a kind of cold and hot double source generators of vacuum, to solve to mention in above-mentioned background technique
Out the problem of.
In order to solve the above-mentioned technical problem, the utility model provides the following technical solutions: a kind of cold and hot double source generation of vacuum
Device, including low temperature bin shell, vacuum meter, vacuum interface, cooling solution inlet, sprinkler, finned tube, liquid collecting plate, high temperature are molten
Liquid outlet, pipette, sewage draining exit, pyrosol storehouse, cooling solution interface, thermometer, cryogenic liquid interface, cold plate, vacuum
Chamber, vacuum pump, solution pump, the first motor-driven valve, throttle valve, high-pressure exhaust, high temperature storehouse shell, high-temp liquid outlet, Low Temperature Liquid
Body entrance, cryogenic fluid storehouse, cooling taphole, pyrosol entrance, high voltage interface, high-pressure chamber and the second motor-driven valve, it is described
The inner tip of low temperature bin shell and high temperature storehouse shell is respectively arranged with vacuum chamber and high-pressure chamber, the low temperature bin shell and high temperature
The inner bottom of storehouse shell is respectively arranged with pyrosol storehouse and cryogenic fluid storehouse, the low temperature bin shell and high temperature storehouse shell
Bosom position is mounted on cold plate, sprinkler, finned tube and liquid collecting plate, the pyrosol storehouse and low temperature from top to bottom
The side inner wall in solution storehouse is respectively connected with pipette.
Further, vacuum meter is installed, the side of the vacuum chamber offers vacuum and connects above the vacuum chamber
Mouthful, high-pressure exhaust is offered at the top of the high-pressure chamber, the side inner wall of the high-pressure chamber offers high voltage interface, the height
Vacuum pump is connected with by gas pipeline between crimping mouth and vacuum interface.
Further, the side of the low temperature bin enclosure interior sprinkler offers cooling solution inlet, the high temperature storehouse
The side of enclosure interior pipette is connected with cooling taphole, passes through between the cooling taphole and cooling solution inlet
Fluid pipeline connection, and the first motor-driven valve and throttle valve are respectively arranged on fluid pipeline.
Further, the side of the high temperature storehouse enclosure interior sprinkler offers pyrosol entrance, the low temperature bin
The side of enclosure interior pipette is connected with pyrosol outlet, passes through between the pyrosol outlet and pyrosol entrance
Connecting pipe connection, and solution pump is provided in connecting pipe.
Further, the side of the low temperature bin shell offers cooling solution interface and cryogenic liquid interface respectively, and
Cryogenic liquid interface is connect with the upper and lower ends of low temperature bin shell internally finned tube respectively with cooling solution interface.
Further, the side of high temperature storehouse shell offers high-temp liquid outlet and cryogenic liquid inlet respectively, and
High-temp liquid outlet and cryogenic liquid inlet are connect with the upper and lower ends of high temperature storehouse shell internally finned tube respectively.
Further, the side of the finned tube is connected with thermometer.
Further, the bottom centre position of the low temperature bin shell and high temperature storehouse shell offers sewage draining exit.
Further, the vacuum chamber and high-pressure chamber are provided with isolation board between cold plate.
Further, solid by fixed bracket between the finned tube and low temperature bin shell and the inner wall of high temperature storehouse shell
It is fixed.
Further, the liquid outlet of liquid collecting plate is provided with the second motor-driven valve in the low temperature bin shell.
Compared with prior art, the utility model beneficial effect achieved is: the utility model, by being provided with vacuum
Pump, vacuum chamber, finned tube, cooling solution inlet, sprinkler and cold plate, so that cooling solution flashes rapidly, and are inhaled by evaporation
Heat principle, the temperature of fin pipe surface is sponged, the purpose of cooling is realized, avoid equipment heating bring drop effect and
High temperature causes equipment irregular operation;Later by being provided with liquid collecting plate, the second motor-driven valve, pyrosol storehouse, pipette, solution
Pump, pyrosol outlet, pyrosol entrance, high temperature storehouse shell, sprinkler, finned tube, liquid collecting plate, cryogenic fluid storehouse, first
Motor-driven valve, throttle valve, high-pressure chamber, cooling taphole, cooling solution inlet and the intracorporal sprinkler of low temperature bin shell, by equipment
The heat of generation is after conversion, the cryogenic liquid being transferred in finned tube, and the liquid after then heating up is gone out by high-temp liquid
Mouthful, and temperature is transferred to the external world, these temperature collections are got up, workable heat source is become, effectively raise energy benefit
With rate.
Detailed description of the invention
Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this
Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is the overall structure diagram of the utility model;
In figure: 1, low temperature bin shell;2, vacuum meter;3, vacuum interface;4, cooling solution inlet;5, sprinkler;6, wing
Piece pipe;7, liquid collecting plate;8, pyrosol exports;9, pipette;10, sewage draining exit;11, pyrosol storehouse;12, cooling solution connects
Mouthful;13, thermometer;14, cryogenic liquid interface;15, cold plate;16, vacuum chamber;17, vacuum pump;18, solution pump;19, first
Motor-driven valve;20, throttle valve;21, high-pressure exhaust;22, high temperature storehouse shell;23, high-temp liquid exports;24, cryogenic liquid inlet;
25, cryogenic fluid storehouse;26, cooling taphole;27, pyrosol entrance;28, high voltage interface;29, high-pressure chamber;30, the second electricity
Dynamic valve.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Referring to Fig. 1, the utility model provides a kind of technical solution: a kind of cold and hot double source generator of vacuum, including low temperature
Storehouse shell 1, vacuum meter 2, vacuum interface 3, cooling solution inlet 4, sprinkler 5, finned tube 6, liquid collecting plate 7, pyrosol go out
Mouth 8, pipette 9, sewage draining exit 10, pyrosol storehouse 11, cooling solution interface 12, thermometer 13, cryogenic liquid interface 14, condensation
Plate 15, vacuum chamber 16, vacuum pump 17, solution pump 18, the first motor-driven valve 19, throttle valve 20, high-pressure exhaust 21, high temperature storehouse shell
22, high-temp liquid outlet 23, cryogenic liquid inlet 24, cryogenic fluid storehouse 25, cooling taphole 26, pyrosol entrance 27,
High voltage interface 28, high-pressure chamber 29 and the second motor-driven valve 30, low temperature bin shell 1 and the inner tip of high temperature storehouse shell 22 are respectively set
There are vacuum chamber 16 and high-pressure chamber 29, low temperature bin shell 1 and the inner bottom of high temperature storehouse shell 22 are respectively arranged with pyrosol storehouse
11 and cryogenic fluid storehouse 25, the bosom position of low temperature bin shell 1 and high temperature storehouse shell 22 is mounted on condensation from top to bottom
The side inner wall in plate 15, sprinkler 5, finned tube 6 and liquid collecting plate 7, pyrosol storehouse 11 and cryogenic fluid storehouse 25 is respectively connected with suction
Liquid pipe 9;The top of vacuum chamber 16 is equipped with vacuum meter 2, and the side of vacuum chamber 16 offers vacuum interface 3, high-pressure chamber 29
Top offers high-pressure exhaust 21, and the side inner wall of high-pressure chamber 29 offers high voltage interface 28, high voltage interface 28 and vacuum
Vacuum pump 17 is connected with by gas pipeline between interface 3, convenient for pumping to the gas in vacuum chamber 16 by vacuum pump 17
The inside of high-pressure chamber 29, and make the inside of vacuum chamber 16 form vacuum environment and the inside of high-pressure chamber 29 is made to form high compression ring
Border;The side of 1 internal spray device 5 of low temperature bin shell offers cooling solution inlet 4,22 inside pipette 9 of high temperature storehouse shell
Side is connected with cooling taphole 26, is connected between cooling taphole 26 and cooling solution inlet 4 by fluid pipeline, and
The first motor-driven valve 19 and throttle valve 20 are respectively arranged on fluid pipeline, convenient for the circulation of cooling solution;In high temperature storehouse shell 22
The side of portion's sprinkler 5 offers pyrosol entrance 27, and it is molten that the side of 1 inside pipette 9 of low temperature bin shell is connected with high temperature
Liquid outlet 8 is connected by connecting pipe between pyrosol outlet 8 and pyrosol entrance 27, and is provided in connecting pipe
Solution pump 18, the circulation entered convenient for pyrosol;The side of low temperature bin shell 1 offers cooling solution interface 12 and low temperature respectively
Fluidic interface 14, and cryogenic liquid interface 14 and cooling solution interface 12 respectively with 1 internally finned tube 6 of low temperature bin shell up and down two
End connection, convenient for the exclusion of solution and the access of cryogenic liquid of cooling down;The side of high temperature storehouse shell 22 offers high-temperature liquid respectively
Body outlet 23 and cryogenic liquid inlet 24, and high-temp liquid outlet 23 and cryogenic liquid inlet 24 are respectively and in high temperature storehouse shell 22
The upper and lower ends of finned tube 6 connect, convenient for the discharge of high-temp liquid and the access of cryogenic liquid;The side of finned tube 6 is connected with
Thermometer 13, convenient for observing the temperature of finned tube 6;The bottom centre position of low temperature bin shell 1 and high temperature storehouse shell 22 offers
Sewage draining exit 10, convenient for the pollutant in discharge solution;Vacuum chamber 16 and high-pressure chamber 29, which are provided between cold plate 15, is isolated
Plate, convenient for forming vacuum chamber 16 and high-pressure chamber 29;Between finned tube 6 and low temperature bin shell 1 and the inner wall of high temperature storehouse shell 22
It is fixed by fixed bracket, convenient for the position of fixed finned tube 6;The liquid outlet of liquid collecting plate 7 is provided in low temperature bin shell 1
Second motor-driven valve 30, convenient for the discharge of liquid on control liquid collecting plate 7;Pass through vacuum pump 17 first for the gas inside vacuum chamber 16
It is pumped into the inside of high-pressure chamber 29, and makes the inside of vacuum chamber 16 form vacuum environment and the inside of high-pressure chamber 29 is formed
Hyperbaric environment, the liquid for then carrying high-temperature passes through the inside of finned tube 6, and heat is conducted to the tube wall of finned tube 6
On, at this point, cooling solution passes through cooling solution inlet 4 and sprinkler 5 is sprayed onto the surface of finned tube 6, and in vacuum environment and
Under the action of cold plate 15, cooling solution is flashed rapidly, and by the principle of evaporation endothermic, the temperature on 6 surface of finned tube is absorbed
Fall, realize the purpose of cooling, avoids equipment heating bring drop effect and high temperature causes equipment irregular operation;It cools down later
Solution is absorbed into after saturation temperature and is formed the top that pyrosol is gathered in liquid collecting plate 7, and reaches a certain amount of in pyrosol
When, the starting of the second motor-driven valve 30 opens the leakage fluid dram of liquid collecting plate 7, and is flowed into the inside in pyrosol storehouse 11, works as pyrosol
Gather it is a certain amount of after, pipette 9 under the drive of solution pump 18 by pyrosol outlet 8 and pyrosol entrance 27 will be high
Warm solution is drained into the sprinkler 5 in high temperature storehouse shell 22, and pyrosol is then sprayed onto high temperature storehouse shell by sprinkler 5
The surface of finned tube 6 in 22, using high temperature to the characteristic of Conduction At Low Temperature, high temperature is conducted to Low Temperature Liquid by 6 surface of finned tube
Body, cryogenic liquid heating, drops on the liquid collecting plate 7 in high temperature storehouse shell 22 at this point, pyrosol becomes cryogenic liquid, and
The inside that cryogenic fluid storehouse 25 is flowed by liquid collecting plate 7, after low temperature melt reaches certain amount, the first motor-driven valve 19 is opened,
Pipette 9 in high temperature storehouse shell 22 is molten by cooling by cooling solution under the action of high pressure in throttle valve 20 and high-pressure chamber 29
Liquid outlet 26 and cooling solution inlet 4 are drained into low temperature bin shell 1 in sprinkler 5, with this it is reciprocal complete cooling with it is heated
Journey, wherein the high-temp liquid of 1 internally finned tube 6 of low temperature bin shell realizes cooling under the action of coolant liquid, timely to large size
Machine or equipment carry out heat discharging operation, and carry the cooling solution of high temperature, transfer heat to high temperature storehouse shell by the above process
On finned tube 6 in body 22, and the cryogenic liquid inside finned tube 6 is heated, the liquid after then heating passes through high temperature
Liquid outlet 23, and temperature is transferred to the external world, other objects for needing the energy can be heated with these temperature, it is effective to improve
Energy utilization rate.
It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.
Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this
Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art
For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic
It is equivalently replaced.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on,
It should be included within the scope of protection of this utility model.
Claims (11)
1. a kind of cold and hot double source generator of vacuum, including low temperature bin shell (1), vacuum meter (2), vacuum interface (3), cooling are molten
Liquid entrance (4), sprinkler (5), finned tube (6), liquid collecting plate (7), pyrosol outlet (8), pipette (9), sewage draining exit (10),
Pyrosol storehouse (11), cooling solution interface (12), thermometer (13), cryogenic liquid interface (14), cold plate (15), vacuum chamber
(16), vacuum pump (17), solution pump (18), the first motor-driven valve (19), throttle valve (20), high-pressure exhaust (21), high temperature storehouse shell
Body (22), high-temp liquid outlet (23), cryogenic liquid inlet (24), cryogenic fluid storehouse (25), cooling taphole (26), high temperature
Solution inlet (27), high voltage interface (28), high-pressure chamber (29) and the second motor-driven valve (30), it is characterised in that: the low temperature bin shell
The inner tip of body (1) and high temperature storehouse shell (22) is respectively arranged with vacuum chamber (16) and high-pressure chamber (29), the low temperature bin shell
The inner bottom of body (1) and high temperature storehouse shell (22) is respectively arranged with pyrosol storehouse (11) and cryogenic fluid storehouse (25), described
The bosom position of low temperature bin shell (1) and high temperature storehouse shell (22) is mounted on cold plate (15), sprinkler from top to bottom
(5), the side inner wall of finned tube (6) and liquid collecting plate (7), the pyrosol storehouse (11) and cryogenic fluid storehouse (25) is respectively connected with
Pipette (9).
2. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the vacuum chamber (16) it is upper
Side is equipped with vacuum meter (2), and the side of the vacuum chamber (16) offers vacuum interface (3), the top of the high-pressure chamber (29)
Portion offers high-pressure exhaust (21), and the side inner wall of the high-pressure chamber (29) offers high voltage interface (28), the high-voltage connecting
Vacuum pump (17) are connected with by gas pipeline between mouth (28) and vacuum interface (3).
3. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the low temperature bin shell (1)
The side of internal spray device (5) offers cooling solution inlet (4), and the one of the internal pipette (9) of high temperature storehouse shell (22)
Side is connected with cooling taphole (26), passes through liquid line between the cooling taphole (26) and cooling solution inlet (4)
Road connection, and the first motor-driven valve (19) and throttle valve (20) are respectively arranged on fluid pipeline.
4. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: high temperature storehouse shell (22)
The side of internal spray device (5) offers pyrosol entrance (27), and the one of the internal pipette (9) of the low temperature bin shell (1)
Side is connected with pyrosol outlet (8), passes through connecting pipe between the pyrosol outlet (8) and pyrosol entrance (27)
Connection, and solution pump (18) are provided in connecting pipe.
5. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the low temperature bin shell (1)
Side offer cooling solution interface (12) and cryogenic liquid interface (14) respectively, and cryogenic liquid interface (14) and cooling are molten
Liquid interface (12) is connect with the upper and lower ends of low temperature bin shell (1) internally finned tube (6) respectively.
6. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: high temperature storehouse shell (22)
Side offer high-temp liquid outlet (23) and cryogenic liquid inlet (24) respectively, and high-temp liquid exports (23) and Low Temperature Liquid
Body entrance (24) is connect with the upper and lower ends of high temperature storehouse shell (22) internally finned tube (6) respectively.
7. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the one of the finned tube (6)
Side is connected with thermometer (13).
8. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the low temperature bin shell (1)
Sewage draining exit (10) are offered with the bottom centre position of high temperature storehouse shell (22).
9. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the vacuum chamber (16) and height
Pressure storehouse (29) is provided with isolation board between cold plate (15).
10. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the finned tube (6) with it is low
It is fixed by fixed bracket between warm storehouse shell (1) and the inner wall of high temperature storehouse shell (22).
11. the cold and hot double source generator of a kind of vacuum according to claim 1, it is characterised in that: the low temperature bin shell (1)
The liquid outlet of interior liquid collecting plate (7) is provided with the second motor-driven valve (30).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822121064.3U CN209623464U (en) | 2018-12-18 | 2018-12-18 | A kind of cold and hot double source generator of vacuum |
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CN201822121064.3U CN209623464U (en) | 2018-12-18 | 2018-12-18 | A kind of cold and hot double source generator of vacuum |
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CN209623464U true CN209623464U (en) | 2019-11-12 |
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CN201822121064.3U Expired - Fee Related CN209623464U (en) | 2018-12-18 | 2018-12-18 | A kind of cold and hot double source generator of vacuum |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109764735A (en) * | 2018-12-18 | 2019-05-17 | 王爽 | A kind of cold and hot double source generator of vacuum |
-
2018
- 2018-12-18 CN CN201822121064.3U patent/CN209623464U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109764735A (en) * | 2018-12-18 | 2019-05-17 | 王爽 | A kind of cold and hot double source generator of vacuum |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191112 Termination date: 20201218 |