CN205606968U - Secondary refrigerant holds subassembly - Google Patents

Abstract

The application discloses secondary refrigerant holds subassembly, including the first import and the first export that have the inlet, be used for and be connected with cold equipment and the second import that is used for being connected with the refrigeration subassembly and the box structure of second export, the box structure has the cooling tube, has the space that supplies gas flow between the adjacent cooling tube, and cooling tube and inlet, subassembly and being linked together simultaneously with cooling equipment refrigerates. Owing to have the space that supplies gas flow between the adjacent cooling tube, so, the secondary refrigerant can increase the area of contact with the outside air at the in -process along heat dissipation pipe flowing to improve the secondary refrigerant in the flow process with winter of external environment's heat exchange efficiency, especially severe cold district, utilize the low warm air among the external environment, temperature when can the greatly reduced secondary refrigerant flowing into refrigerating unit and flowing into with cold equipment reaches the cryogenic purpose of secondary refrigerant by utilizing low warm air, thereby can reduce refrigerating unit's energy consumption.

Description

A kind of refrigerating medium holds assembly

Technical field

This utility model relates to refrigeration technology field, particularly relates to a kind of refrigerating medium and holds assembly.

Background technology

Along with the continuous progress of refrigeration science and technology, refrigeration unit (including handpiece Water Chilling Units, freezing unit etc.) exists The field such as Chemical Manufacture, food processing is all applied.

Existing refrigerating medium is contained in body structure, and body structure has inlet and uses cool equipment phase The second import and second that first import of connection with the first outlet and is connected with refrigeration unit exports, Can supplement refrigerating medium in time thus by inlet, the first outlet is connected with the import of cool equipment, First import is connected with the outlet of cool equipment, and the second outlet is connected with the import of refrigeration unit, the Two imports are connected with the outlet of refrigeration unit.

So, the position that arranges of the first import and the second import is respectively positioned on the top of body structure, and first goes out The position that arranges of mouth and the second outlet is respectively positioned on the bottom of body structure, the load after freezing via refrigeration unit Cryogen can enter body structure via the second inlet flow, can be via first by the refrigerating medium after utilizing with cool equipment Inlet flow enters body structure, and two strands of refrigerating mediums can mix in body structure, mixed refrigerating medium Refrigeration unit can be flowed into via the second outlet, simultaneously via the first outlet inflow cool equipment, thus realize Recycling of refrigerating medium.

Under normal circumstances, with cool equipment such as indoor rink, the reactor of chemical and medicine industry industry, food processing Refrigerating equipment etc. may be contained within indoor, and body structure is positioned in outdoor environment.

But, due to industrial actually used demand, the refrigerant temperature flowed out via refrigeration unit Need to reach the lowest temperature, so can be only achieved relatively low via the mixed refrigerating medium of body structure Temperature, with the use demand of satisfied cool equipment, the most many large-scale refrigeration unit need long-time, high Load operation, energy consumption is the highest.

Therefore, the energy consumption how reducing refrigeration unit is those skilled in the art's technical issues that need to address.

Utility model content

In view of this, the purpose of the application is to provide a kind of refrigerating medium and holds assembly, can reduce refrigeration machine The energy consumption of group.

This application provides a kind of refrigerating medium and hold assembly, including have inlet, for with cool equipment The first import being connected exports and for the second import and second being connected with cooling assembly with first The body structure of outlet, described body structure has radiating tube, has supplied gas between adjacent radiating tube The space of flowing, described radiating tube is with described inlet, described cooling assembly and described cool equipment simultaneously It is connected.

Preferably, also including the heat-insulation layer removably connected with described body structure, described heat-insulation layer can Fit with the outer wall of described body structure.

Preferably, also include that couveuse, described couveuse cover at the outside of described body structure, described The inwall of couveuse is provided with heat-insulation layer, and described couveuse removably connects with described body structure.

Preferably, also including that inwall is provided with the couveuse of heat-insulation layer, described couveuse covers at described case The outside of body structure, described couveuse has opening and baffle plate, and described baffle plate can be closed or open described Opening.

Preferably, the cross section of described radiating tube be circular cross section or oval cross section or rhombus transversal Face or rectangular cross section or square cross section.

Preferably, also include that blower fan, described couveuse are provided with air inlet, described blower fan and described air intake Mouth is connected.

A kind of refrigerating medium provided herein holds assembly, including having inlet, for setting with cold Standby the first import being connected and the first outlet and for the second import being connected with cooling assembly and the The body structure of two outlets, body structure has radiating tube, has supplied gas stream between adjacent radiating tube Dynamic space, radiating tube and inlet, cooling assembly and be connected with cool equipment simultaneously.First outlet with Being connected with the import of cool equipment, the first import is connected with the outlet of cool equipment, the second outlet and system The import of cold group is connected, and the second import is connected with the outlet of refrigeration unit.Due to adjacent heat radiation Have between pipe supplied gas flowing space, so, refrigerating medium along radiating tube flow during, Can increase the contact area with outside air, thus improve refrigerating medium in flow process with external environment Heat exchanger effectiveness, in the especially winter of extremely frigid zones, utilize the Cryogenic air in external environment, permissible It is substantially reduced temperature when refrigerating medium inflow refrigeration unit and inflow cool equipment, by utilizing low temperature empty Gas reaches the purpose to refrigerating medium refrigeration, such that it is able to reduce the energy consumption of refrigeration unit.With prior art phase Ratio, by utilizing radiating tube, add refrigerating medium in flow process with the contact area of Cryogenic air, Improve the heat exchanger effectiveness between refrigerating medium and Cryogenic air, utilize Cryogenic air to realize refrigerating medium system Cold, such that it is able to reduce the energy consumption of refrigeration unit.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will The accompanying drawing used required in embodiment or description of the prior art is briefly described, it should be apparent that, Accompanying drawing in describing below is only embodiments more of the present utility model, for ordinary skill people From the point of view of Yuan, on the premise of not paying creative work, it is also possible to obtain the attached of other according to these accompanying drawings Figure.

Fig. 1 is the structural representation that in detailed description of the invention provided herein, refrigerating medium holds assembly；

Fig. 2 is the structural representation of a kind of radiating tube arrangement mode in detailed description of the invention provided herein Figure；

The structural representation of a kind of radiating tube cross section in the detailed description of the invention that Fig. 3 is provided herein；

Wherein, in Fig. 1 to Fig. 3:

Radiating tube 1, first export 2, first import the 3, second import 4, second export 5, inlet 6, With cool equipment 7, refrigeration unit 8, couveuse 9, body structure 10.

Detailed description of the invention

The utility model discloses a kind of refrigerating medium and hold assembly, the energy consumption of refrigeration unit can be reduced.

Below in conjunction with the accompanying drawing in this utility model embodiment, to the technology in this utility model embodiment Scheme is clearly and completely described, it is clear that described embodiment is only this utility model one Divide embodiment rather than whole embodiments.Based on the embodiment in this utility model, this area is common The every other embodiment that technical staff is obtained under not making creative work premise, broadly falls into this The scope of utility model protection.

Refer to Fig. 1 to Fig. 3, Fig. 1 is that in detailed description of the invention provided herein, refrigerating medium holds assembly Structural representation, Fig. 2 is a kind of radiating tube arrangement mode in detailed description of the invention provided herein Structural representation, in the detailed description of the invention that Fig. 3 is provided herein, the structure of a kind of radiating tube cross section is shown It is intended to.

In this embodiment, a kind of refrigerating medium holds assembly, including have inlet 6, for The first outlet 2 being connected with cool equipment 7 and the first import 3 and for being connected with cooling assembly 8 The second import 4 and the body structure 10 of the second outlet 5, body structure 10 has radiating tube 1, adjacent Radiating tube 1 between the space of concrete supplied gas flowing, radiating tube 1 and inlet 6, cooling assembly 8 and It is connected with cool equipment 7 simultaneously.

First outlet 2 is connected with by the inlet and outlet of cool equipment 7 respectively with the first import 3, and second Outlet 5 with the second import 4 respectively inlet and outlet with refrigeration unit 8 be connected, by inlet 6 Can need to supplement refrigerating medium in body structure 10 according to using.By radiating tube 1, refrigerating medium can Flowing in radiating tube 1, the refrigerating medium flowed into via the first import 3 and the second import 4 is at radiating tube 1 In mix, radiating tube 1 plays the effect containing refrigerating medium.Owing to having between adjacent radiating tube 1 Have a space that supplied gas flows, so, refrigerating medium during flowing along radiating tube 1, Ke Yizeng Add the contact area with outside air, thus improve the refrigerating medium heat with external environment in flow process and hand over Change efficiency, especially the winter of extremely frigid zones, utilize the Cryogenic air in external environment, can significantly drop Low refrigerating medium flows into temperature when refrigeration unit 8 and inflow cool equipment 7, by utilizing Cryogenic air Reach the purpose to refrigerating medium refrigeration, such that it is able to reduce the energy consumption of refrigeration unit 8.

Compared with prior art, by utilizing radiating tube 1, add refrigerating medium in flow process with low temperature The contact area of air, improves the heat exchanger effectiveness between refrigerating medium and Cryogenic air, utilizes low temperature empty QI excess is existing freezes to refrigerating medium, such that it is able to reduce the energy consumption of refrigeration unit 8.

It should be noted that in this embodiment, radiating tube 1 is arranged with the form of array, Radiating tube 1 can be arranged (such as Fig. 1 along the length direction (being i.e. parallel to the direction on ground) of body structure Shown in) or along body structure short transverse (being i.e. perpendicular to the direction on ground) arrange (such as Fig. 2 institute Show), the structure that the radiating tube 1 of arrangement is surrounded in train is the main part of body structure 10, dissipates Arrange quantity and the arrangement mode of heat pipe determine according to the model of actual use demand and radiating tube.

Also, it should be noted in this embodiment, the cross section of radiating tube 1 is rounded cross section Face (as shown in Figure 3) or oval cross section or lozenge shape cross-section or rectangular cross section or square are horizontal Cross sections etc., can select the shape of the cross section of radiating tube according to actual service condition.

Needing it is further noted that in this embodiment, radiating tube 1 is arranged (i.e. for shell and tube Radiating tube) or sheet string type arrangement, when using shell and tube arrangement, radiating tube 1 can be straight tube or bend pipe Or broken pipe or serpentine pipe, preferably serpentine pipe, such that it is able to increase radiating tube and external environment condition further Contact area, such that it is able to improve radiating efficiency further.When using sheet string type arrangement, radiating tube 1 Can be plane string sheet, curved surface string sheet, folding face string sheet or corrugated surface string sheet etc..Certainly, also it is not excluded for adopting With other radiating tube, applicable radiating tube can be selected according to actual service condition.

Need it is further noted that the position that arranges of the first import 3 and the second import 4 is respectively positioned on casing The top of structure 10, the position that arranges of the first outlet 2 and the second outlet 5 is respectively positioned on body structure 10 Bottom, the top of body structure 10 is all connected with radiating tube 1 with bottom, so, it is ensured that refrigerating Agent is flowed in the bottom of radiating tube 1 and body structure 10, during actual use, and body structure The liquid level of the refrigerating medium in 10 arranges position less than the first import 3 and the second import 4, when refrigerating medium is noted During full radiating tube 1, under the effect of the pressure, refrigerating medium can be via radiating tube 1 near body structure top End face overflow, thus flow in another radiating tube 1 adjacent thereto, so, each radiating tube 1 is equal Can fill refrigerating medium, the refrigerating medium after freezing via refrigeration unit 8 can flow into heat radiation via the second import 4 In pipe 1, can be flowed in radiating tube 1 via the first import 3 by the refrigerating medium after utilizing with cool equipment 7, Two strands of refrigerating mediums can mix in radiating tube 1, and mixed refrigerating medium can be via the second outlet 2 stream Enter refrigeration unit 8, simultaneously via the first outlet 2 inflows cool equipment 7, thus realize the circulation of refrigerating medium Utilize.

In further scheme, refrigerating medium holds what assembly also included removably connecting with body structure 10 Heat-insulation layer, heat-insulation layer can fit with the outer wall of body structure 10.So, when ambient temperature relatively Gao Shi, is covered in heat-insulation layer the outer wall of body structure 10, so can reduce refrigerating medium and external environment Heat exchange, such that it is able to avoid refrigerating medium to heat up, reduce refrigerating medium refrigerating loss in flow process, Ensure that refrigerating medium flows in refrigeration unit 8 via the second outlet with relatively low temperature, such that it is able to reduce system The energy consumption of cold group 8.When ambient temperature is less than the temperature of refrigerating medium, by heat-insulation layer and body structure 10 Being separated, extraneous Cryogenic air carries out heat exchange with refrigerating medium, thus reduces the temperature of refrigerating medium, low temperature Refrigerating medium is via in the second outlet 5 inflow refrigeration unit 8, such that it is able to reduce by 8 energy consumptions of refrigeration unit.

Additionally, in the second embodiment, refrigerating medium holds assembly and also includes couveuse 9, couveuse 9 Covering at the outside of body structure 10, the inwall of couveuse 9 is provided with heat-insulation layer, couveuse 9 and casing Structure 10 removably connects.

So, when ambient temperature is higher, couveuse 9 is covered at the outside of body structure 10, So can reduce the heat exchange of refrigerating medium and external environment, such that it is able to avoid refrigerating medium to heat up, it is ensured that Refrigerating medium, freezes such that it is able to reduce via in the second outlet 5 inflow refrigeration unit 8 with relatively low temperature The energy consumption of unit 8.When ambient temperature is less than the temperature of refrigerating medium, by couveuse 9 and body structure 10 Being separated, extraneous Cryogenic air carries out heat exchange with refrigerating medium, thus reduces the temperature of refrigerating medium, low temperature Refrigerating medium is via in the second outlet 5 inflow refrigeration unit 8, such that it is able to reduce the energy consumption of refrigeration unit 8.

It should be noted that for the ease of the dismounting of couveuse 9, in this embodiment, composition Each plate of couveuse 9 all uses dismountable mode to assemble, when couveuse 9 removed by needs, Each plate of couveuse 9 can be dismantled, so that couveuse 9 divides with body structure 10 phase From.When needing the outside that couveuse 9 covers at body structure 10, carry out each plate assembling i.e. Can, thus realize couveuse 9 and be connected with body structure 10.Certainly, also it is not excluded for using setting of other Put mode, as the base plate of couveuse is set to dismountable form, base plate is separated with other plates Time, couveuse can be covered at the outside of body structure, the most again base plate is carried out with corresponding plate Connect, thus ensure that body structure is in the environment of relative closure；When couveuse is tied by needs with casing When structure is separated, base plate is removed, then lifts the remainder of couveuse, so that insulation The remainder of case is separated with body structure via the breach at base plate place.

In the third embodiment, refrigerating medium holds assembly and also includes that inwall is provided with the insulation of heat-insulation layer Case 9, couveuse 9 covers at the outside of body structure 10, and couveuse 9 has opening and baffle plate, baffle plate Can close or open opening.

So, by arranging opening and baffle plate, when ambient temperature is higher, baffle plate is utilized to close opening, Body structure 10 is in the environment of relative closure, reduces the heat exchange of refrigerating medium and external environment, Such that it is able to avoid refrigerating medium to heat up, reduce the refrigerating loss of refrigerating medium, it is ensured that refrigerating medium is with relatively low temperature Via in the second outlet 5 inflow refrigeration unit 8, such that it is able to reduce the energy consumption of refrigeration unit 8.When outward When boundary's temperature is less than the temperature of refrigerating medium, baffle plate is separated with opening, even if opening is in open mode, Extraneous Cryogenic air enters in couveuse 9 via opening, and extraneous Cryogenic air carries out heat exchange with refrigerating medium, Thus reducing the temperature of refrigerating medium, low temperature refrigerating medium flows in refrigeration unit 8 via the second outlet, thus The energy consumption of refrigeration unit can be reduced.

It should be noted that in this detailed description of the invention, multiple opening can be offered at couveuse 9, often Individual opening all has corresponding baffle plate, so, can increase Cryogenic air and enter the amount of couveuse 9, Increase the air circulation in couveuse 9, such that it is able to the heat exchange improved between refrigerating medium and Cryogenic air Efficiency, and then reduce the temperature of refrigerating medium, reduce the energy consumption of refrigeration unit 8.Certainly, opening is concrete Arrange quantity and arrangement mode to be determined according to actual service condition.

Also, it should be noted in this embodiment, baffle plate is dismountable block plate, when needs are beaten During opening, being dismantled by baffle plate so that baffle plate is separated with couveuse 9, now opening is in and beats Open state；When needs closure of openings, baffle plate is assembled, thus baffle plate can close opening, makes Obtain couveuse 9 and be in the state of relative closure.Certainly, also it is not excluded for using other set-up mode, as Arranging guide rail at couveuse, baffle plate can be along slide, when baffle plate is directed away from opening along guide rail Direction slide time, baffle plate separates with opening, and now opening is in open mode；When baffle plate is along guide rail Towards when sliding near the direction of opening, baffle plate will close opening, until opening is completely enclosed, this Time couveuse be in the state of relative closure.Or baffle plate is set to folding baffle plate, at baffle plate When folded state, opening is opened；When baffle plate is in open mode, opening is in closed state.Or Some or certain several plates of person's couveuse are dismountable, and plate is baffle plate, when being removed by plate Time, the breach formed is the opening of couveuse, and now opening is opened, after plates assembled completes, Closure of openings.

In further scheme, refrigerating medium hold assembly also include blower fan, couveuse 9 be provided with into Air port, blower fan is connected with air inlet.So, by arranging blower fan, when external environment temperature is less than carrying During the temperature of cryogen, start blower fan, improve Cryogenic air velocity of liquid assets in couveuse, thus improve Heat exchanger effectiveness between refrigerating medium and Cryogenic air, such that it is able to reduce the temperature of refrigerating medium, and then fall The energy consumption of low cooling assembly.

It should be noted that in this embodiment, the concrete model of blower fan is according to actual use need Ask and determine.

Furthermore, it is necessary to explanation, according to the arrangement mode of radiating tube 1, body structure 10 can be long The mating shapes of cube formula casing or cylindrical box etc., the shape of couveuse 9 and body structure 10, The concrete set-up mode of body structure 10 is determined according to actual use demand.

Also, it should be noted body structure 10 can be cast iron quality casing or carbon steel material casing or not Rust steel matter casing or alloy material casing etc., the concrete material of body structure 10 can make according to actual Determine by demand.The material of the framework of couveuse 9 and support plate etc. can be with metal material, wooden, glass One or more of the materials such as glass steel matter, the specifically used material of couveuse 9 makes also according to actual It is determined by demand.

Need illustrate further, the insulation material of heat-insulation layer can be mineral wool, rock wool, asbestos, The mineral-type insulation material such as aluminium silicate wool, glass cotton, it is also possible to be molded polystyrene foams, extrusion molding gather The organic insulation material such as styrenic foams, hard polyurethane foam, or can tie with multiple insulation material Close and use, corresponding insulation material can be selected according to concrete use demand.

In this specification, each embodiment uses the mode gone forward one by one to describe, and each embodiment stresses Being the difference with other embodiments, between each embodiment, identical similar portion sees mutually.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses This utility model.Multiple amendment to these embodiments will be aobvious for those skilled in the art And be clear to, generic principles defined herein can be without departing from spirit or scope of the present utility model In the case of, realize in other embodiments.Therefore, this utility model is not intended to be limited to institute herein These embodiments shown, and it is to fit to consistent with principles disclosed herein and features of novelty the widest Scope.

Claims (6)

1. refrigerating medium holds an assembly, including have inlet, for be connected with cool equipment One import exports with first and for the second import being connected with cooling assembly and the casing of the second outlet Structure, it is characterised in that described body structure has radiating tube, has between adjacent described radiating tube The space of supplied gas flowing, described radiating tube and described inlet, described cooling assembly and described set with cold For being connected simultaneously.

2. refrigerating medium as claimed in claim 1 holds assembly, it is characterised in that also include and described case The heat-insulation layer that body structure removably connects, described heat-insulation layer can fit with the outer wall of described body structure.

3. refrigerating medium as claimed in claim 1 holds assembly, it is characterised in that also include couveuse, Described couveuse covers at the outside of described body structure, and the inwall of described couveuse is provided with heat-insulation layer, Described couveuse removably connects with described body structure.

4. refrigerating medium as claimed in claim 1 holds assembly, it is characterised in that also include that inwall is arranged Having the couveuse of heat-insulation layer, described couveuse to cover at the outside of described body structure, described couveuse has Having opening and baffle plate, described baffle plate can close or open described opening.

5. refrigerating medium as claimed in claim 4 holds assembly, it is characterised in that the horizontal stroke of described radiating tube Cross section be circular cross section or oval cross section or lozenge shape cross-section or rectangular cross section or square horizontal Cross section.

6. the refrigerating medium as described in claim 3 or 4 holds assembly, it is characterised in that also include blower fan, Described couveuse is provided with air inlet, and described blower fan is connected with described air inlet.