CN207006682U - A kind of new and effective heat integration cooling tank - Google Patents
A kind of new and effective heat integration cooling tank Download PDFInfo
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- CN207006682U CN207006682U CN201720962332.7U CN201720962332U CN207006682U CN 207006682 U CN207006682 U CN 207006682U CN 201720962332 U CN201720962332 U CN 201720962332U CN 207006682 U CN207006682 U CN 207006682U
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- cooling tank
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Abstract
Originally it is new to be related to a kind of new and effective heat integration cooling tank, including framework for support, cooling tank, refrigeration unit, heat exchanger tube, cold-storage liquid and ventilating fan, cooling tank is in framework for support, refrigeration unit is by directive slide track in framework for support, ventilating fan is arranged on framework for support outer surface, and cooling pot sidewall includes heat-exchange inner container, heat-insulation layer, hard protection layer.This new structure is simple, flexible and convenient to use, effectively raises the flexibility of the operating efficiency of cooling tank refrigeration cool-down operation and the control of cooling operation, and the operating efficiency that refrigeration is done can be effectively improved while the operation energy consumption of refrigeration operation is reduced.
Description
Technical field
A kind of cooling tank equipment is the utility model is related to, is exactly a kind of new and effective heat integration cooling
Tank.
Background technology
Visual plant in the fields such as cooling tank food industry, chemical industry, usage amount is huge, presently used cooling
Tank often uses seal cavity structure, and is used as low-temperature receiver pair by traditional compressor refrigeration system or cold wind machine cooling system
Cooling tank carries out refrigeration cool-down operation, although can meet the needs used, in the process of running, current refrigeration plant exists
Ambient temperature is highly prone to during operation to be influenceed and the operating efficiency decline that causes to freeze, operation energy consumption increase, in addition, when
Heat phenomenon of scattering and disappearing is comparatively serious in preceding cooling tank running, while the cold energy prepared to refrigeration plant also lacks and had
The storage of effect and hold capacity, relatively low so as to result in refrigerating efficiency when current cooling tank equipment is run, refrigeration operation is
Energy it is relatively large, therefore this problem is directed to, there is an urgent need to develop a kind of new cooling tank equipment, to meet actually to make
Needs.
Utility model content
In view of the shortcomings of the prior art, the utility model provides a kind of new and effective heat integration cooling
Tank, the new structure is simple, flexible and convenient to use, effectively raises operating efficiency and the cooling of cooling tank refrigeration cool-down operation
The flexibility of the control of operation, and the work that refrigeration is done can be effectively improved while the operation energy consumption of refrigeration operation is reduced
Efficiency, in addition, in refrigeration operation process is carried out, it on the one hand can effectively realize to enter caused cold energy in process of refrigerastion
The effective storage of row, avoids cold energy from scattering and disappearing and be lost, and on the other hand can effectively improve operating efficiency during refrigeration unit operation,
Reduce refrigeration unit operation energy consumption and improve the heat exchange efficiency of refrigeration unit.
To achieve these goals, the utility model is to realize by the following technical solutions:
A kind of new and effective heat integration cooling tank, including framework for support, cooling tank, refrigeration unit, heat exchanger tube, storage
Cold liquid and ventilating fan, framework for support are the rectangular frame structure in cross section, uniform at least two directive slide tracks of its inner surface,
Each directive slide track is distributed with framework for support diameter parallel, and cooling tank passes through directive slide track and carrying machine in framework for support
Frame is slidably connected, and refrigeration unit is embedded in framework for support by directive slide track, and immediately below cooling tank, and cooling tank and system
Mutually isolated by a dividing plate between cold group, dividing plate is coaxially distributed with framework for support, and cooling tank is that axial cross section is rectangular
Seal cavity structure, cooling tank top set material storage mouth, and bottom sets sewage draining exit, and cooling tank top side wall sets at least one return air
Mouthful, return air inlet is interconnected by ventilating fan and refrigeration unit, and ventilating fan is arranged on framework for support outer surface, cooling tank
Side wall includes heat-exchange inner container, heat-insulation layer, hard protection layer, and hard protection layer is coated on outside heat-exchange inner container, and hard protection layer passes through
Gusset is connected with each other with heat-exchange inner container, and heat-exchange inner container sets width as 3-10 centimetres of incubation cavity, heat-insulation layer with hard protection interlayer
Offseted in incubation cavity and respectively with hard protection layer and heat-exchange inner container surface, cross section cyclic structure is set in heat-exchange inner container
Bearing cavity, and bearing cavity is coaxially distributed with heat-exchange inner container, heat-exchange inner container outer surface sets at least one flow-guiding mouth, and flow-guiding mouth one end
It is interconnected with bearing cavity, the other end is located at outside hard protection layer and sets end cover, and cold-storage liquid is embedded in bearing cavity, cold-storage liquid
Volume is 2/3-the 4/5 of bearing cavity volume, and totally two groups of heat exchanger tube, one of which is in cooling tank and around cooling tank axis
The bottom of cooling tank is distributed in the shape of a spiral, and another group structure is divided in the shape of a spiral in bearing cavity and around cooling tank axis
Cloth, two groups of heat exchanger tubes are interconnected with refrigeration unit respectively by mozzle.
Further, elevating mechanism is set in described framework for support, and described elevating mechanism is arranged on dividing plate upper surface
And it is connected with each other with cooling pot bottom.
Further, mutually it is slidably connected by directive slide track between described dividing plate and framework for support.
Further, described gusset is any one in " Ⅹ " type structure and " ten " type structure.
Further, uniform some wing plates on described carrying inner cavity surface, and each wing plate is in around cooling tank axis
Helicoidal structure is distributed, and described wing plate and bearing cavity side wall are in 45 ° -90 ° angles.
Further, the heat exchanger tube upper surface in described bearing cavity is less than 1-10 centimetres of cold-storage liquid upper surface.
Further, uniform at least two supersonic oscillations device in described bearing cavity side wall.
This new structure is simple, flexible and convenient to use, effectively raises the operating efficiency of cooling tank refrigeration cool-down operation
With the flexibility of the control of cooling operation, and it can effectively improve refrigeration while the operation energy consumption of refrigeration operation is reduced and do
Operating efficiency, in addition, in refrigeration operation process is carried out, on the one hand can effectively realize to caused by process of refrigerastion
Cold energy is effectively stored, and avoids cold energy from scattering and disappearing and be lost, and on the other hand can effectively improve work during refrigeration unit operation
Make efficiency, reduce refrigeration unit operation energy consumption and improve the heat exchange efficiency of refrigeration unit.
Brief description of the drawings
Describe the utility model in detail with reference to the accompanying drawings and detailed description.
Fig. 1 is the utility model structure diagram.
Embodiment
Technological means, creation characteristic, reached purpose and effect to realize the utility model are easy to understand, below
With reference to embodiment, the utility model is expanded on further.
A kind of new and effective heat integration cooling tank as described in Figure 1, including framework for support 1, cooling tank 2, refrigeration
Unit 3, heat exchanger tube 4, cold-storage liquid 5 and ventilating fan 6, framework for support 1 are the rectangular frame structure in cross section, and its inner surface is equal
Cloth at least two directive slide tracks 8, each directive slide track 8 are distributed with the diameter parallel of framework for support 1, and cooling tank 2 is embedded in framework for support 1
It is interior, and be slidably connected by directive slide track 8 and framework for support 1, refrigeration unit 3 is embedded in framework for support 1 by directive slide track 8,
And immediately below cooling tank 2, and mutually isolated by a dividing plate 9 between cooling tank 2 and refrigeration unit 3, dividing plate 9 and carrying machine
Frame 1 is coaxially distributed, and cooling tank 2 is the rectangular seal cavity structure of axial cross section, and the top of cooling tank 2 sets material storage mouth 21,
Bottom sets sewage draining exit 22, and the top side wall of cooling tank 22 sets at least one return air inlet 23, and return air inlet 23 passes through ventilating fan 6 and refrigeration
Unit 3 is interconnected, and ventilating fan 6 is arranged on the outer surface of framework for support 1, and the side wall of cooling tank 2 includes heat-exchange inner container 201, protected
Warm layer 202, hard protection layer 203, hard protection layer 203 are coated on outside heat-exchange inner container 201, and hard protection layer 203 passes through gusset
204 are connected with each other with heat-exchange inner container 201, and width is set between heat-exchange inner container 201 and hard protection layer 203 as 3-10 centimetres of insulation
Chamber 205, heat-insulation layer 202 is in incubation cavity 205 and is offseted respectively with hard protection layer 203 and the surface of heat-exchange inner container 201, exchanges heat
The bearing cavity 206 of cross section cyclic structure is set in inner bag 201, and bearing cavity 206 is coaxially distributed with heat-exchange inner container 201, in heat exchange
The outer surface of courage 201 sets at least one flow-guiding mouth 7, and the one end of flow-guiding mouth 7 is interconnected with bearing cavity 206, and the other end is located at hard
Overcoat 203 is outer and sets end cover 10, and cold-storage liquid 5 is embedded in bearing cavity 206, and the volume of cold-storage liquid 5 is the volume of bearing cavity 206
2/3-4/5, totally two groups of heat exchanger tube 4, one of which is distributed on cold in the shape of a spiral in cooling tank 2 and around the axis of cooling tank 2
But the bottom of tank 2, another group is embedded in bearing cavity 206 and surround the axis of cooling tank 2 structure distribution in the shape of a spiral, two groups of heat exchanger tubes
4 are interconnected with refrigeration unit 3 respectively by mozzle 11.
In the present embodiment, elevating mechanism 12 is set in described framework for support 1, and described elevating mechanism 12 is arranged on dividing plate
9 upper surfaces are simultaneously connected with each other with the bottom of cooling tank 2.
In the present embodiment, mutually it is slidably connected by directive slide track 8 between described dividing plate 9 and framework for support 1.
In the present embodiment, described gusset 204 is any one in " Ⅹ " type structure and " ten " type structure.
In the present embodiment, uniform some wing plates 13 on the described inner surface of bearing cavity 206, and each wing plate 13 is around cooling
The axis of tank 2 structure distribution in the shape of a spiral, described wing plate 13 and the side wall of bearing cavity 206 are in 45 ° -90 ° angles.
In the present embodiment, the upper surface of heat exchanger tube 4 in described bearing cavity 206 is less than 1-10 lis of 5 upper surface of cold-storage liquid
Rice.
In the present embodiment, uniform at least two supersonic oscillations device 14 in the described side wall of bearing cavity 206.
Originally it is new that operation refrigeration is carried out by refrigeration unit first in the specific implementation, it is then same by two groups of heat exchanger tubes
When cooling tank is freezed, wherein the heat exchanger tube in cooling tank directly freezes to cooling tank, changing in bearing cavity
Heat pipe freezes to cold-storage liquid, then cooling tank is freezed by cold-storage liquid, and reach chilling temperature in cooling tank and protected
Wen Shi, refrigeration unit can be directly closed, be then on the one hand incubated by the insulation construction of cooling tank, on the other hand pass through storage
The cold energy of cold liquid memory storage persistently carries out refrigerating thermal-insulation to cooling tank inside, and long-time heat preservation system is carried out to cooling tank so as to reach
The needs of cold-working industry.
Simultaneously when cooling tank carries out ventilation cycle operation, the Cryogenic air in cooling tank is delivered to by ventilating fan
Refrigeration unit opening position, refrigeration unit cooling is handled, improve the heat exchange operating efficiency between refrigeration unit and external environment condition, reduced
Operation energy consumption.
This new structure is simple, flexible and convenient to use, effectively raises the operating efficiency of cooling tank refrigeration cool-down operation
With the flexibility of the control of cooling operation, and it can effectively improve refrigeration while the operation energy consumption of refrigeration operation is reduced and do
Operating efficiency, in addition, in refrigeration operation process is carried out, on the one hand can effectively realize to caused by process of refrigerastion
Cold energy is effectively stored, and avoids cold energy from scattering and disappearing and be lost, and on the other hand can effectively improve work during refrigeration unit operation
Make efficiency, reduce refrigeration unit operation energy consumption and improve the heat exchange efficiency of refrigeration unit.
It should be understood by those skilled in the art that the utility model is not restricted to the described embodiments.Above-described embodiment and
Simply illustrate principle of the present utility model described in specification.On the premise of the spirit and scope of the utility model is not departed from,
The utility model also has various changes and modifications.These changes and improvements both fall within claimed the scope of the utility model
It is interior.The utility model requires protection scope is by appended claims and its equivalent thereof.
Claims (7)
- A kind of 1. new and effective heat integration cooling tank, it is characterised in that:Described new and effective heat integration is cold But tank includes framework for support, cooling tank, refrigeration unit, heat exchanger tube, cold-storage liquid and ventilating fan, and described framework for support is transversal The rectangular frame structure in face, uniform at least two directive slide tracks of its inner surface, each directive slide track and framework for support diameter parallel Distribution, described cooling tank are slidably connected in framework for support by directive slide track and framework for support, described refrigeration machine Group is embedded in framework for support by directive slide track, and immediately below cooling tank, and lead between described cooling tank and refrigeration unit Cross that a dividing plate is mutually isolated, described dividing plate is coaxially distributed with framework for support, and described cooling tank is that axial cross section is rectangular Seal cavity structure, material storage mouth is set at the top of described cooling tank, bottom sets sewage draining exit, and cooling tank top side wall is set at least One return air inlet, described return air inlet are interconnected by ventilating fan and refrigeration unit, and described ventilating fan is arranged on and held On carrier aircraft frame outer surface, described cooling pot sidewall includes heat-exchange inner container, heat-insulation layer, hard protection layer, described hard protection Layer is coated on outside heat-exchange inner container, and described hard protection layer is connected with each other by gusset and heat-exchange inner container, described heat-exchange inner container Set width with hard protection interlayer as 3-10 centimetres of incubation cavity, described heat-insulation layer in the incubation cavity and respectively with hard Overcoat and heat-exchange inner container surface are offseted, and the bearing cavity of cross section cyclic structure is set in described heat-exchange inner container, and described are held Carry chamber to be coaxially distributed with heat-exchange inner container, described heat-exchange inner container outer surface sets at least one flow-guiding mouth, and described flow-guiding mouth one End is interconnected with bearing cavity, and the other end is located at outside hard protection layer and sets end cover, and described cold-storage liquid is embedded in bearing cavity In, cold-storage liquid product is 2/3-the 4/5 of bearing cavity volume, and totally two groups of described heat exchanger tube, one of which is embedded in cooling tank simultaneously It is distributed on the bottom of cooling tank in the shape of a spiral around cooling tank axis, another group is in bearing cavity and around cooling tank axis Helicoidal structure is distributed, and two groups of heat exchanger tubes are interconnected with refrigeration unit respectively by mozzle.
- A kind of 2. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described carrying Elevating mechanism is set in frame, and described elevating mechanism is arranged on dividing plate upper surface and is connected with each other with cooling pot bottom.
- A kind of 3. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described dividing plate Mutually it is slidably connected by directive slide track between framework for support.
- A kind of 4. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described gusset It is any one in " Ⅹ " type structure and " ten " type structure.
- A kind of 5. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described carrying Uniform some wing plates on inner cavity surface, and each wing plate is around cooling tank axis structure distribution in the shape of a spiral, described wing plate with Bearing cavity side wall is in 45 ° -90 ° angles.
- A kind of 6. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described carrying Heat exchanger tube upper surface in chamber is less than 1-10 centimetres of cold-storage liquid upper surface.
- A kind of 7. new and effective heat integration cooling tank according to claim 1, it is characterised in that:Described carrying Uniform at least two supersonic oscillations device in chamber side wall.
Priority Applications (1)
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CN201720962332.7U CN207006682U (en) | 2017-08-03 | 2017-08-03 | A kind of new and effective heat integration cooling tank |
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CN201720962332.7U CN207006682U (en) | 2017-08-03 | 2017-08-03 | A kind of new and effective heat integration cooling tank |
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CN207006682U true CN207006682U (en) | 2018-02-13 |
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CN201720962332.7U Expired - Fee Related CN207006682U (en) | 2017-08-03 | 2017-08-03 | A kind of new and effective heat integration cooling tank |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114115391A (en) * | 2021-10-13 | 2022-03-01 | 郑州德玛电气有限公司 | Embedded cabinet circulating temperature control system and use method |
-
2017
- 2017-08-03 CN CN201720962332.7U patent/CN207006682U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114115391A (en) * | 2021-10-13 | 2022-03-01 | 郑州德玛电气有限公司 | Embedded cabinet circulating temperature control system and use method |
CN114115391B (en) * | 2021-10-13 | 2023-01-31 | 郑州德玛电气有限公司 | Embedded cabinet circulating temperature control system and use method |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180213 Termination date: 20200803 |
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CF01 | Termination of patent right due to non-payment of annual fee |