CN207006626U - Round-the-clock dual intensity integration supplies collecting system - Google Patents
Round-the-clock dual intensity integration supplies collecting system Download PDFInfo
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- CN207006626U CN207006626U CN201720889062.1U CN201720889062U CN207006626U CN 207006626 U CN207006626 U CN 207006626U CN 201720889062 U CN201720889062 U CN 201720889062U CN 207006626 U CN207006626 U CN 207006626U
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- housing
- air
- round
- collecting system
- dual intensity
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
Abstract
The utility model discloses a kind of round-the-clock dual intensity integration to supply collecting system, including:Air energy heat pump is integrated, freezer and dryer;Air energy heat pump is integrated to include multiple heat pump modules, and one end of heat pump module is connected by cold air duct with freezer, and the other end is connected by hot air duct with dryer;Heat pump module includes housing A and housing B, and air intake is provided with housing A and housing B;Air energy converter structure is provided with the integrative-structure of housing A and housing B compositions, air in housing A can be converted to cold air and is discharged into cold air duct by air energy converter structure, and air in housing B can be converted to hot-air and and is discharged into hot air duct by air energy converter structure;The both ends of air intake are respectively arranged with the collecting plate of opening.The round-the-clock dual intensity integration can utilize electric energy and solar energy to provide energy to freezer and dryer simultaneously for collecting system, and then improve the utilization rate of energy.
Description
Technical field
Energy-collecting device is the utility model is related to, in particular it relates to which a kind of round-the-clock dual intensity integration supplies collecting system.
Background technology
Energy-collecting device can be divided into heater and refrigerating plant, and in the prior art, current energy-collecting device is generally
It is to be run by electric energy or chemical energy, although electric energy or chemical energy disclosure satisfy that in general demand, exists certain
Advantage and defect, be specially:Consume energy big and pollute although requirement of the chemical energy device to equipment is relatively low, during use
Environment;Electrical energy devices have that power is big, free of contamination advantage, but its cost is larger, especially needs to set up in heater
Electrically heated component and then improve production cost;Meanwhile electrical energy devices also suffer from the influence of weather (such as heating component
On form frost), especially under extremely low temperature, electrical energy devices start more difficult, while energy conversion rate is relatively low.
Utility model content
The purpose of this utility model is to provide a kind of round-the-clock dual intensity integration and supplies collecting system, the round-the-clock dual intensity integration
For collecting system electric energy and solar energy can be utilized to provide energy to freezer and dryer simultaneously, and then improve the utilization of energy
Rate.
To achieve these goals, the utility model provides the utility model and provides a kind of round-the-clock dual intensity integration
For collecting system, including:Air energy heat pump is integrated, freezer and dryer;Air energy heat pump is integrated to include multiple heat pump modules, heat pump
One end of module is connected by cold air duct with freezer, and the other end is connected by hot air duct with dryer;Heat pump module
Including housing A and housing B, air intake is provided with housing A and housing B;In the integrative-structure of housing A and housing B compositions
Air energy converter structure is provided with, the air in housing A can be converted to cold air and is discharged into cold by air energy converter structure
Air in housing B can be converted to hot-air and and is discharged into hot air duct by wind pipeline, air energy converter structure;Air intake
Both ends be respectively arranged with opening collecting plate.
Preferably, multiple continuous wave protruding blocks are provided with collecting plate, the external coating of wave protruding block has thermal-arrest
Layer.
Preferably, collection thermosphere is from bottom to top disposed with layer of mineral wool and black chrome coating.
Preferably, air energy converter structure include by pipeline circulate successively the expansion valve of connection, evaporator, condenser and
Compressor;Wherein, expansion valve, evaporator are located in housing A, and condenser and compressor are arranged in housing B.
Preferably, heat pump module also includes thermal insulation board, and housing A is arranged on the side of thermal insulation board, and housing B is arranged at heat-insulated
On the opposite side of plate.
Preferably, multiple ventilating fans are provided with housing A housing, the outlet of ventilating fan is connected with cold air duct.
Preferably, housing B both sides are provided with air intake, and are provided with hot-blast outlet between two air intakes,
Hot-blast outlet is connected with hot air duct.
Preferably, it is additionally provided with housing B and mends warm thermostat automatically.
Preferably, the outer wrap of cold air duct has asbestos heat-insulation layer, and the outside of the pipeline of hot air duct is provided with carbon black
Heat-sink shell.
Preferably, collecting plate is articulated with the both ends of the air intake.
In the above-mentioned technical solutions, round-the-clock dual intensity integration provided by the utility model passes through thermal-arrest first for collecting system
Plate is heated to air and then causes the air after heating to enter housing A and housing B, being capable of customer service by more hot air
In cold weather the defects of air energy converter structure difficulty in starting, and then air energy converter structure is enabled in housing A
Air is converted to cold air and is discharged into the cold air duct to provide cold air to freezer, meanwhile, air energy converter structure energy
It is enough that air in the housing B is converted into hot-air and and is discharged into the hot air duct to provide hot-air to dryer.
On the basis of this, i.e., cold air and hot-air are provided to freezer and dryer respectively by the dual energy of electric energy and solar energy, by
This can cause solar energy fully to be utilized, and then energy utilization rate is greatly improved.
Other feature and advantage of the present utility model will be described in detail in subsequent specific embodiment part.
Brief description of the drawings
Accompanying drawing is to be further understood for providing to of the present utility model, and a part for constitution instruction, and following
Embodiment be used to explain the utility model together, but do not form to limitation of the present utility model.In the accompanying drawings:
Fig. 1 is the structural representation that round-the-clock dual intensity integration provided by the utility model supplies collecting system;
Fig. 2 is the structural representation of the preferred embodiment of heat pump module in Fig. 1.
Description of reference numerals
1st, heat pump module 2, cold air duct
3rd, freezer 4, hot air duct
5th, dryer 6, housing A
7th, housing B 8, expansion valve
9th, evaporator 10, condenser
11st, compressor 12, air intake
14th, hot-blast outlet 15, thermal insulation board
16th, ventilating fan 17, collecting plate
18th, wave protruding block 19, mend warm thermostat automatically
Embodiment
Specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein
Described embodiment is merely to illustrate and explained the utility model, is not limited to the utility model.
In the utility model, in the case where not making opposite explanation, the noun of locality included in term such as " inside and outside " is only
Represent orientation of the term under normal service condition, or be skilled artisan understands that be commonly called as, and be not construed as to this
The limitation of term.
The utility model provides a kind of round-the-clock dual intensity integration and supplies collecting system, as depicted in figs. 1 and 2, including:Air
Can heat pump be integrated, freezer 3 and dryer 5;Air energy heat pump is integrated to include multiple heat pump modules 1, and one end of heat pump module 1 passes through
Cold air duct 2 is connected with freezer 3, and the other end is connected by hot air duct 4 with dryer 5;Heat pump module 1 includes housing A6
Air intake 12 is provided with housing B7, housing A6 and housing B7;Set in the integrative-structure of housing A6 and housing B7 compositions
Air energy converter structure is equipped with, the air in housing A6 can be converted to cold air and is discharged into cold wind by air energy converter structure
Air in housing B7 can be converted to hot-air and and is discharged into hot air duct 4 by pipeline 2, air energy converter structure;Air enters
The both ends of mouth 12 are respectively arranged with the collecting plate 17 of opening.
Above-mentioned round-the-clock dual intensity integration air is heated by collecting plate 17 first for collecting system and then
Air after heating enters housing A6 and housing B7, by more hot air can customer service air can be changed in cold weather
The defects of mechanism difficulty in starting, and then air energy converter structure enables to the air in housing A6 to be converted to cold air and be discharged into
To the cold air duct 2 to provide cold air to freezer 3, meanwhile, air energy converter structure can be by air in the housing B7
Be converted to hot-air and and be discharged into the hot air duct 4 to provide hot-air to dryer 5.On this basis, that is, electricity is passed through
Cold air and hot-air can be provided to freezer 3 and dryer 5 respectively with the dual energy of solar energy, thus can cause solar energy
Fully utilized, and then energy utilization rate is greatly improved.
In above-mentioned collecting plate 17, the concrete structure of collecting plate 17 can select in wide scope, but in order to enter one
Step improves heating effect of the collecting plate 17 for air, it is preferable that multiple continuous wave protruding blocks are provided with collecting plate 17
18, the external coating of wave protruding block 18 has collection thermosphere.It is able to can so be improved by the concaveconvex structure of wave protruding block 18
The area of the inner surface of collecting plate 17, and then the collection area for sunshine is improved, and then cause the surface tool of collecting plate 17
There is excellent temperature, and then cause air with more excellent heating effect i.e. with higher temperature, so that round-the-clock
Dual intensity integration has more excellent collection energy efficiency for collecting system.
Wherein, the concrete structure of above-mentioned collection thermosphere can also select in wide scope, but in order to further improve
The heating effect of air, it is preferable that collection thermosphere is from bottom to top disposed with layer of mineral wool and black chrome coating, one side layer of mineral wool energy
The effect of insulation is enough played, another aspect black chrome coating has the effect of heat absorption and then can improve the heating effect of air.
In the utility model, the specific mounting structure of collecting plate 17 can select in wide scope, but in order to enter
One step improves the heating effect of air, it is preferable that collecting plate 17 is articulated with the both ends of the air intake 12;So different
, can be with the angle by adjusting two collecting plates 17 in the case of wind speed, and then cause air to there is what is be more applicable to enter
Airspeed is to cause the integration of round-the-clock dual intensity to have more excellent solar energy utilization rate for collecting system.
In the utility model, the concrete structure of air energy converter structure can select in wide scope, but in order to
Housing A6 is further enabled to provide temperature lower cold air, housing B7 can provide temperature higher hot-air, excellent
Selection of land, as shown in Fig. 2 air energy converter structure includes the expansion valve 8, evaporator 9, condenser for circulating connection successively by pipeline
10 and compressor 11;Wherein, expansion valve 8, evaporator 9 are located in housing A6, and condenser 10 and compressor 11 are arranged at housing B7
It is interior.So, hot-air, which enters in housing A6 and housing B7, can be easy to the startup of evaporator 9, condenser 10 and compressor 11, and one
After denier evaporator 9, condenser 10 and compressor 11 start, the refrigerant in pipeline can be converted to gas by evaporator 9 by liquid
State and then the air themperature reduction for causing housing A6, then refrigerant enters condenser 10 and compressor 11, and then causes refrigeration
Agent is converted to liquid by gaseous state, can so raise the temperature of the air in housing B7.
In the utility model, housing A6 and the specific installation sites of housing B7 and annexation can be in wide scopes
Selection, but in order to save device take up space and avoid energy scatter and disappear, it is preferable that heat pump module 1 also include it is heat-insulated
Plate 15, housing A6 are arranged on the side of thermal insulation board 15, and housing B7 is arranged on the opposite side of thermal insulation board 15.Thus can be by shell
Body A6 and housing B7, which is arranged to integral mechanism, can greatly reduce its space occupied, while the presence of thermal insulation board 15 also can
Scattering and disappearing for energy is avoided, and then improves the utilization rate of energy.
In addition, in order to further improve the expulsion efficiency of housing A6 cold air, it is preferable that set on housing A6 housing
Multiple ventilating fans 16 are equipped with, the outlet of ventilating fan 16 is connected with cold air duct 2;Thus can be very big by ventilating fan 16
Efficient cold air is discharged into cold air duct 2.
Meanwhile the discharge mode of housing B7 hot-air can also select in wide scope, but in order to further
Improve the expulsion efficiency of hot-air, it is preferable that housing B7 both sides are provided with air intake 12, and two air intakes 12 it
Between be provided with hot-blast outlet 14, hot-blast outlet 14 is connected with hot air duct 4.Pass through hot-blast outlet 14 and air intake 12
Set, the formation efficiency and expulsion efficiency of hot-air can be greatly enhanced.
On the basis of the above, it is contemplated that under rainy weather, the utilization rate of solar energy is relatively low, in order to be further ensured that
The discharge rate of hot-air in housing B7, it is preferable that be additionally provided with housing B7 and mend warm thermostat 19 automatically.So can be by certainly
The dynamic electrical heating for mending warm thermostat 19 is to overcome rainy weather solar energy utilization ratio the defects of low to be present.
On the basis of the above, in order to further improve the utilization rate of energy, it is preferable that cold air duct 2 it is outer
Portion is enclosed with asbestos heat-insulation layer, and the outside of the pipeline of hot air duct 4 is provided with carbon black heat-sink shell, so air can be overcome to pass
During defeated the defects of energy dissipation.
Preferred embodiment of the present utility model, still, the utility model and unlimited is described in detail above in association with accompanying drawing
Detail in above-mentioned embodiment, can be to skill of the present utility model in range of the technology design of the present utility model
Art scheme carries out a variety of simple variants, and these simple variants belong to the scope of protection of the utility model.
It is further to note that each particular technique feature described in above-mentioned embodiment, in not lance
In the case of shield, it can be combined by any suitable means, in order to avoid unnecessary repetition, the utility model is to each
The possible combination of kind no longer separately illustrates.
In addition, it can also be combined between a variety of embodiments of the present utility model, as long as it is not disobeyed
Thought of the present utility model is carried on the back, it should equally be considered as content disclosed in the utility model.
Claims (10)
1. a kind of round-the-clock dual intensity integration supplies collecting system, it is characterised in that including:Air energy heat pump is integrated, freezer (3) and dries
Dry machine (5);The air energy heat pump is integrated to include multiple heat pump modules (1), and one end of the heat pump module (1) passes through cool air hose
Road (2) is connected with the freezer (3), and the other end is connected by hot air duct (4) with the dryer (5);The heat pump
Module (1) includes housing A (6) and housing B (7), and air intake (12) is provided with the housing A (6) and housing B (7);Institute
State in the integrative-structure of housing A (6) and housing B (7) compositions and be provided with air energy converter structure, the air energy converter structure energy
It is enough that air in the housing A (6) is converted into cold air and is discharged into the cold air duct (2), the air energy converter
The interior air of the housing B (7) can be converted to hot-air and and is discharged into the hot air duct (4) by structure;The air intake
(12) both ends are respectively arranged with the collecting plate (17) of opening.
2. round-the-clock dual intensity integration according to claim 1 supplies collecting system, it is characterised in that on the collecting plate (17)
Multiple continuous wave protruding blocks (18) are provided with, the external coating of the wave protruding block (18) has collection thermosphere.
3. round-the-clock dual intensity integration according to claim 1 supplies collecting system, it is characterised in that the collection thermosphere by lower and
On be disposed with layer of mineral wool and black chrome coating.
4. the round-the-clock dual intensity integration according to any one in claim 1-3 supplies collecting system, it is characterised in that described
Air energy converter structure includes circulating expansion valve (8), evaporator (9), condenser (10) and the compression of connection successively by pipeline
Machine (11);Wherein, the expansion valve (8), evaporator (9) are located in the housing A (6), the condenser (10) and compressor
(11) it is arranged in the housing B (7).
5. round-the-clock dual intensity integration according to claim 4 supplies collecting system, it is characterised in that the heat pump module (1)
Also include thermal insulation board (15), the housing A (6) is arranged on the side of the thermal insulation board (15), and the housing B (7) is arranged at
On the opposite side of the thermal insulation board (15).
6. round-the-clock dual intensity integration according to claim 4 supplies collecting system, it is characterised in that the shell of the housing A (6)
Multiple ventilating fans (16) are provided with body, the outlet of the ventilating fan (16) is connected with the cold air duct (2).
7. round-the-clock dual intensity integration according to claim 4 supplies collecting system, it is characterised in that the two of the housing B (7)
Side is provided with the air intake (12), and is provided with hot-blast outlet (14) between two air intakes (12), described
Hot-blast outlet (14) is connected with the hot air duct (4).
8. round-the-clock dual intensity integration according to claim 4 supplies collecting system, it is characterised in that in the housing B (7) also
It is provided with and mends warm thermostat (19) automatically.
9. round-the-clock dual intensity integration according to claim 1 supplies collecting system, it is characterised in that the cold air duct (2)
Outer wrap have asbestos heat-insulation layer, the outside of the pipeline of the hot air duct (4) is provided with carbon black heat-sink shell.
10. round-the-clock dual intensity integration according to claim 1 supplies collecting system, it is characterised in that the collecting plate (17)
It is articulated with the both ends of the air intake (12).
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CN201720889062.1U CN207006626U (en) | 2017-07-21 | 2017-07-21 | Round-the-clock dual intensity integration supplies collecting system |
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CN201720889062.1U CN207006626U (en) | 2017-07-21 | 2017-07-21 | Round-the-clock dual intensity integration supplies collecting system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108185501A (en) * | 2018-03-12 | 2018-06-22 | 湖南科技大学 | Clean bulk curing barn heat supply dehumidification device that can be complementary |
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2017
- 2017-07-21 CN CN201720889062.1U patent/CN207006626U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108185501A (en) * | 2018-03-12 | 2018-06-22 | 湖南科技大学 | Clean bulk curing barn heat supply dehumidification device that can be complementary |
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Effective date of registration: 20201230 Address after: 210000 no.1007, jinrunda Zhongchuang space, Nanjing National Agricultural Innovation Park, No.20 Yanshan Avenue, Pukou District, Nanjing City, Jiangsu Province Patentee after: Jiangsu hot air environmental protection technology Co.,Ltd. Address before: 241000 2nd floor, No.11 workshop, small and medium sized enterprise Pioneer Park, South District, Wuhu hi tech Industrial Development Zone, Anhui Province Patentee before: WUHU CHANGQI FURNACE Co.,Ltd. |