CN110123141A - Refrigerating plant and aqueous solution carbonizing apparatus - Google Patents

Abstract

The present embodiments relate to beverage dispenser, a kind of refrigerating plant and aqueous solution carbonizing apparatus are disclosed.In the present invention, refrigerating plant, comprising: cold storage material；Refrigerator pipes, the circulation for refrigerant；Refrigerator pipes are set in cold storage material, and are successively coiled in cold storage material along preset direction, and the inlet and outlet of refrigerator pipes is both exposed to outside cold storage material；Water supplying pipe, for conveying aqueous solution；Water supplying pipe is set in cold storage material, and is successively coiled in cold storage material along preset direction, and the inlet and outlet of water supplying pipe is both exposed to outside cold storage material；Refrigerator pipes and water supplying pipe are metallic conduit, and cold storage material is used to store circulation in the cooling capacity of refrigeration tube refrigerant, is also used to cool down the cooling capacity of storage to the aqueous solution in water supplying pipe.Compared with prior art, more reasonable and compact, the small volume so that refrigerating plant internal structure is arranged, occupies lesser space, suitable for home use.

Description

Refrigerating plant and aqueous solution carbonizing apparatus

Technical field

The present embodiments relate to beverage dispensers, in particular to refrigerating plant and aqueous solution carbonizing apparatus.

Background technique

In the social environment that quality of the life steps up, user pursues the more convenient higher life of quality, to drink Demand increasing, and be no longer limited to drink packaged beverage, but demand can needed using beverage dispenser as household electronic products The drink of existing system can be drunk when drink immediately.However, existing beverage dispenser is commercial product, for drinking by batch mass production Market is supplied in product, wholesale sales.It needs to freeze to aqueous solution in production drink, needs refrigerating plant, set due to existing Standby is that commercial product overall volume is big, therefore has sufficiently large industrial land for placing beverage dispenser, thus in beverage dispenser Refrigerating plant also need to be only able to achieve to aqueous solution refrigeration just, not take into account that the occupied area of refrigerating plant, in refrigerating plant For water in water inlet pipe by being directly entered in carbonization tank after chiller refrigeration, equipment is integrally larger, also has enough spaces and puts The components such as water inlet pipe are set, so that accurate layout designs will not be made in entire production space.Lead to refrigerating plant entirety body Product is larger, can not place in the family, be not suitable for household.

Summary of the invention

Embodiment of the present invention is designed to provide a kind of refrigerating plant and aqueous solution carbonizing apparatus, so that refrigerating plant More reasonable and compact, the small volume of internal structure arrangement, occupies lesser space, suitable for home use.

In order to solve the above technical problems, embodiments of the present invention provide a kind of refrigerating plant, comprising:

Cold storage material；

Refrigerator pipes, the circulation for refrigerant；The refrigerator pipes are set in the cold storage material, and in the Chu Lengjie It is successively coiled in matter along preset direction, the inlet and outlet of the refrigerator pipes is both exposed to outside the cold storage material；

Water supplying pipe, for conveying aqueous solution；The water supplying pipe is set in the cold storage material, and in the cold storage material Interior successively to coil along preset direction, the inlet and outlet of the water supplying pipe is both exposed to outside the cold storage material；

The refrigerator pipes and the water supplying pipe are metallic conduit, and the cold storage material is for storing circulation in the refrigeration The cooling capacity of tube refrigerant is also used to cool down the cooling capacity of storage to the aqueous solution in the water supplying pipe.

Embodiments of the present invention additionally provide a kind of aqueous solution carbonizing apparatus, comprising:

Such as above-mentioned refrigerating plant；

Carbonization fills, and is set in the cold storage material of the refrigerating plant, for accepting the outlet from the water supplying pipe The aqueous solution cooled down by the cooling medium sent out.

Embodiment of the present invention in terms of existing technologies, due to including cold storage material, refrigerator pipes and water supplying pipe, is freezed Pipe and water supplying pipe are arranged in cold storage material, and refrigerator pipes and the inlet and outlet of water supplying pipe are exposed to outside Chu Lengjie, from And refrigerant can enter refrigerator pipes and flow out from refrigerator pipes, aqueous solution can also pass through water supplying pipe and flow out from water supplying pipe.And Refrigerator pipes and water supplying pipe are metallic conduit, and metallic conduit is easy conduction heat, to circulate in refrigerator pipes in refrigerant When, cold storage material to is sent cooling capacity by metallic conduit, cold storage material stores cooling capacity, and flows in water supplying pipe in aqueous solution When logical, the cold quantity transmission of storage to the aqueous solution in water supply line, is realized the refrigeration of aqueous solution by cold storage material.Also, freeze Pipe and water supplying pipe are successively coiled in cold storage material, so that more refrigerator pipes and water supplying pipe can be accommodated in cold storage material, it is right Spatial synthesis in cold storage material utilizes, and refrigerator pipes and water supplying pipe can be more reasonably arranged in cold storage material, more to make Cold pipe is located in cold storage material, also more by the refrigerant of cold storage material, so that cold storage material long term storage cooling capacity, in cooling capacity It can be supplemented as soon as possible when being consumed, allow flowing through aqueous solution and be also quickly cooled, so as to meet process requirements to water Solution refrigeration.In addition, more water supplying pipes are located in cold storage material, so that more aqueous solutions flow through cold storage material, so that more More aqueous solutions are cooled rapidly, and meet the needs of later period aqueous solution.It is used simultaneously so that refrigerating plant can be realized, internal structure It is reasonable and compact to arrange, and reduces overall volume, and occupied area reduces, and meets domestic demand.

In addition, the refrigerator pipes are identical as the coil direction of the water supplying pipe.So that in cold storage material refrigerator pipes and The layout of cold water pipe is more neat, and utilizes to the spatial synthesis in cold storage material.

In addition, the refrigerator pipes are coiled in the outside of the water supplying pipe, or coiling is in the inside of the water supplying pipe.To right Space in cold storage material makes full use of, and allows more refrigerator pipes and water supplying pipe to be located in cold storage material, cold storage material is allowed to obtain Sufficiently more cooling capacity, also cools down more aqueous solutions.

In addition, the refrigerator pipes and the water supplying pipe are successively alternately coiled along the preset direction.To in water supplying pipe Aqueous solution is while cooling by cold storage material, and due to adjacent with refrigeration pipeline section with every layer of water supply pipeline section, absorbable refrigerator pipes The cooling capacity of section inner refrigerant, further progress is cooling, to realize the rapid cooling of aqueous solution, and the refrigeration effect that aqueous solution obtains Fruit is more preferable, and lower temperature can be obtained, and no longer needs to addition assisted refrigeration.

In addition, the refrigerator pipes include: the several layers refrigeration pipeline section successively coiled along the preset direction；

The water supplying pipe includes: the several layers water supply pipeline section successively coiled along the preset direction；

Between at least one layer of refrigeration pipeline section of the refrigerator pipes and another layer of refrigeration pipeline section adjacent with this layer refrigeration pipeline section, Two layers of water supply pipeline section of the water supplying pipe is at least set；

Alternatively, at least one layer of water supply pipeline section of the water supplying pipe and another layer water supply pipeline section adjacent with this layer of water supply pipeline section Between, two layers of refrigeration pipeline section of the refrigerator pipes is at least set.

In addition, the tube wall of the refrigerator pipes and the tube wall of the water supplying pipe fit closely.To refrigerant in refrigerator pipes Cooling capacity can more fully be transferred to the aqueous solution in water supplying pipe by tube wall, so that aqueous solution is realizing heat exchange by cold storage material While, it is also influenced, is further cooled by, so that the cooling capacity in refrigerant by the cooling capacity that refrigerant in refrigerator pipes generates It is preferably utilized, realizes the further cooling of aqueous solution.

In addition, the cold storage material is metalwork, the metalwork is bonded with the refrigerator pipes and the water supplying pipe respectively. So as to sufficiently contacting with refrigerator pipes and water supplying pipe, the cooling capacity that cooling medium issues in refrigerator pipes is stored, it is water-soluble in water supplying pipe Liquid can also absorb the cooling capacity in cold storage material closer to cold storage material, realize that aqueous solution preferably cools down, reduce the stream of cooling capacity It loses, cooling capacity is allowed sufficiently to be used.

In addition, the metalwork respectively with the water supplying pipe and the refrigerator pipes die cast.So that water supplying pipe and refrigeration Pipe is bonded more accurate with metalwork, and heat transfer effect is more preferable.

In addition, the refrigerating plant further include: the insulating layer being coated on the outside of the metalwork.To be carried out to metalwork Protection, the cooling capacity for preventing metalwork from storing are lost, and are conducive to the preservation of cooling capacity on metalwork.

In addition, the refrigerating plant further include: tank body；

The cold storage material is to inject the intracorporal cold accumulating liquid of tank, and the refrigerator pipes, the water supplying pipe are immersed in described In cold accumulating liquid.

In addition, the refrigerator pipes and or the water supplying pipe on metal fin is also distributed with.Thus further will be in refrigerator pipes The cooling capacity of refrigerant comes out, and allows cold storage material storage cooling capacity more, and the cooling capacity of cold storage material is allowed to be fully used.

In addition, the cold storage material is metalwork, the metalwork and the carbonization tank die cast.To metalwork with Carbonization tank comes into full contact with, and carbonization tank also can receive the cooling capacity on metalwork, so that be carbonized tank after aqueous solution enters carbonization tank Aqueous solution can further be cooled down.

In addition, the refrigerator pipes and water supplying pipe coiling are in the outer surface of the carbonization tank.So that the equipment knot Structure is more compact.

Detailed description of the invention

One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorys The bright restriction not constituted to embodiment, the element in attached drawing with same reference numbers label are expressed as similar element, remove Non- to have special statement, composition does not limit the figure in attached drawing.

Fig. 1 is that successively alternately the refrigerating device structure of coiling is illustrated for refrigerator pipes and water supplying pipe in first embodiment of the invention Figure；

Fig. 2 is the refrigerating device structure schematic diagram that refrigerator pipes coil on the outside of water supplying pipe in first embodiment of the invention；

Fig. 3 is the structural schematic diagram that refrigerator pipes and water supplying pipe successively alternately coil in first embodiment of the invention；

Fig. 4 is another layer of refrigerator pipes that one layer of refrigeration pipeline section is adjacent with this layer refrigeration pipeline section in first embodiment of the invention The refrigerator pipes and water supplying pipe for having two layers of water supply pipeline section between section successively replace coiled structure schematic diagram；

Fig. 5 is one layer of water supply pipeline section and another layer water supply adjacent with this layer of water supply pipeline section in first embodiment of the invention The refrigerator pipes and water supplying pipe for having two layers of refrigeration pipeline section between pipeline section successively replace coiled structure schematic diagram；

Fig. 6 is the refrigerating device structure schematic diagram that cold storage material is cold accumulating liquid in first embodiment of the invention；

Fig. 7 is that the structural schematic diagram in cold storage material is arranged in carbonization tank in second embodiment of the invention；

Fig. 8 is the structural schematic diagram of aqueous solution carbonizing apparatus in second embodiment of the invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with attached drawing to the present invention Each embodiment be explained in detail.However, it will be understood by those skilled in the art that in each embodiment party of the present invention In formula, in order to make the reader understand this application better, many technical details are proposed.But even if without these technical details And various changes and modifications based on the following respective embodiments, the application technical solution claimed also may be implemented.

The first embodiment of the present invention is related to a kind of refrigerating plants, as shown in Figure 1, including cold storage material 1, refrigerator pipes 2 With water supplying pipe 3, refrigerator pipes 2 are set in cold storage material 1, and refrigerant circulates in refrigerator pipes 2, and along pre- in cold storage material 1 Set direction successively coils, and the import 6 and outlet 5 of refrigerator pipes 2 are both exposed to outside cold storage material 1.Aqueous solution is defeated by water supplying pipe 3 It send, water supplying pipe 3 is also disposed in cold storage material 1, and is successively coiled in cold storage material 1 along preset direction, the import of water supplying pipe 3 8 are both exposed to outside cold storage material 1 with outlet 7.Refrigerator pipes 2 and water supplying pipe 3 are metallic conduit, and metallic conduit is thermally conductive, refrigeration Agent is circulated in refrigerator pipes 2, and by refrigerator pipes 2 by cold quantity transmission to cold storage material 1, cold storage material 1 stores cooling capacity.Water-soluble When liquid circulates in water supplying pipe 3, cold storage material 1, by cold quantity transmission feed solution, cools down aqueous solution by water supplying pipe 3.

Embodiment of the present invention in terms of existing technologies, due to include cold storage material 1, refrigerator pipes 2 and water supplying pipe 3, Refrigerator pipes 2 and water supplying pipe 3 are arranged in cold storage material 1, and refrigerator pipes 2 and the inlet and outlet of water supplying pipe 3 are exposed to storage It outside cold Jie, refrigerator pipes 2 and is flowed out from refrigerator pipes 2 so that refrigerant can enter, aqueous solution can also pass through water supplying pipe 3 and from water supply It is flowed out in pipe 3.And refrigerator pipes 2 and water supplying pipe 3 are metallic conduit, and metallic conduit is easy conduction heat, thus in refrigerant When circulating in refrigerator pipes 2, cold storage material 1 to is sent cooling capacity by metallic conduit, cold storage material 1 stores cooling capacity, and When aqueous solution circulates in water supplying pipe 3, the cold quantity transmission of storage to the aqueous solution in water supplying pipe 3, is realized water by cold storage material 1 The refrigeration of solution.Also, refrigerator pipes 2 and water supplying pipe 3 are successively coiled in cold storage material 1, to can accommodate in cold storage material 1 More refrigerator pipes 2 and water supplying pipe 3, utilize the spatial synthesis in cold storage material 1, and refrigerator pipes 2 and water supplying pipe 3 can more rationally Setting in cold storage material 1, more refrigerator pipes 2 are located in cold storage material 1, and the refrigerant by cold storage material 1 is also more, So that 1 long term storage cooling capacity of cold storage material, can be supplemented as soon as possible when cooling capacity is consumed, allow to flow through aqueous solution also quick It is cooled, freeze so as to meet process requirements to aqueous solution.In addition, more water supplying pipes 3 are located in cold storage material 1, from And more aqueous solutions flow through cold storage material 1, so that more aqueous solutions are cooled rapidly, meet the needs of later period aqueous solution. So that refrigerating plant can realize that internal structure is reasonable and compact using simultaneously, overall volume is reduced, occupied area reduces, Meet domestic demand.

Further, refrigerator pipes 2 are identical as the coil direction of water supplying pipe 3.So that 2 He of refrigerator pipes in cold storage material 1 The layout of cold water pipe is more neat, and utilizes to the spatial synthesis in cold storage material 1.

In addition, as shown in Fig. 2, the coiling of refrigerator pipes 2 in the outside of water supplying pipe 3, after refrigerator pipes 2 are coiled in cold storage material 1, The coiling of refrigerator pipes 2 forms accommodating area, and water supplying pipe 3 is coiled in accommodating area again, is located in refrigerator pipes 2.It is also possible to refrigerator pipes 2 It coils in the inside of water supplying pipe 3.Likewise, the coiling of water supplying pipe 3 forms accommodating area, refrigerator pipes 2 are coiled in accommodating area again, are position In in water supplying pipe 3.To make full use of to the space in cold storage material 1, more refrigerator pipes 2 and water supplying pipe 3 are allowed to be located at storage cold In medium 1, allows cold storage material 1 to obtain sufficiently more cooling capacity, also more aqueous solutions are cooled down.

Preferably, refrigerator pipes 2 and water supplying pipe 3 are successively alternately coiled along preset direction, i.e. any one layer of refrigeration of refrigerator pipes 2 Pipeline section is adjacent with one layer of water supply pipeline section of water supplying pipe 3.Specifically, as in Fig. 3, refrigerator pipes 2 form multilayer refrigerator pipes 2 after coiling Section, the pipeline section 21 that such as freezes, refrigeration pipeline section 22, refrigeration pipeline section 23, water supplying pipe 3 form multilayer water supply pipeline section, such as water supplying pipe after coiling Section 31, water supply pipeline section 32, water supply pipeline section 33, as can be seen from Figure 3, water supply pipeline section 31 refrigeration pipeline section 21 and refrigeration pipeline section 22 it Between, water supply pipeline section 32 is between refrigeration pipeline section 22 and refrigeration pipeline section 23.To which the aqueous solution in water supplying pipe 3 is by cold storage material 1 While cooling, and due to adjacent with refrigeration pipeline section with every layer of water supply pipeline section, the cooling capacity of absorbable refrigeration pipeline section inner refrigerant, into One step is cooled down, to realize the rapid cooling of aqueous solution, and the refrigeration effect that aqueous solution obtains is more preferable, can be obtained lower Temperature no longer needs to addition assisted refrigeration.In actual use, water supply pipeline section and refrigeration pipeline section can have more, and this will not be detailed here.

Being also possible to refrigerator pipes 2 includes: the several layers refrigeration pipeline section successively coiled along preset direction.Water supplying pipe 3 includes: The several layers water supply pipeline section successively coiled along preset direction.At least one layer of refrigeration pipeline section of refrigerator pipes 2 and freeze pipeline section with the layer Between another layer of adjacent refrigeration pipeline section, two layers of water supply pipeline section of water supplying pipe 3 is at least set.Herein with one layer of refrigeration pipeline section and this For having two layers of water supply pipeline section between another layer of adjacent refrigeration pipeline section of layer refrigeration pipeline section, in Fig. 4, refrigerator pipes 2 include as made Cold tube section 21, refrigeration pipeline section 22, refrigeration pipeline section 23, water supplying pipe 3 include water supply pipeline section 31, water supply pipeline section 32, water supply pipeline section 33, supply Water pipe section 34, figure 4, it can be seen that water supply pipeline section 31 and water supply pipeline section 32 are adjacent, refrigeration pipeline section 21 and refrigeration pipeline section 22 it Between, water supply pipeline section 33 and water supply pipeline section 34 are adjacent, between refrigeration pipeline section 22 and refrigeration pipeline section 23.To in the pipeline section 21 that freezes The cooling capacity of refrigerant can be transferred to the aqueous solution flowed through in water supply pipeline section 31 adjacent thereto, the refrigerant in the pipeline section 22 that freezes Cooling capacity can be transferred to the aqueous solution flowed through in water supply pipeline section 32 and water supply pipeline section 33 adjacent thereto, the refrigeration in the pipeline section 23 that freezes The cooling capacity of agent can be transferred to the aqueous solution flowed through in water supply pipeline section 34 adjacent thereto, further realize and flow through in more water supplying pipes 3 Aqueous solution refrigeration.In actual use, according to one layer of the use demand pipeline section that the freezes another layer system adjacent with this layer refrigeration pipeline section There can also be two layers or more the pipeline section that supplies water between cold tube section, this will not be detailed here.

Alternatively, it is also possible to be water supplying pipe 3 at least one layer of water supply pipeline section and adjacent with this layer of water supply pipeline section another layer of confession Between 3 sections of water pipe, two layers of refrigeration pipeline section of refrigerator pipes 2 is at least set.In Fig. 5, refrigerator pipes 2 include such as refrigeration pipeline section 21, system Cold tube section 22, refrigeration pipeline section 23, refrigeration pipeline section 24, water supplying pipe 3 include water supply pipeline section 31, water supply pipeline section 32, water supply pipeline section 33, from It can be seen that in Fig. 5, refrigeration pipeline section 21 and refrigeration pipeline section 22 are adjacent, and between water supply pipeline section 31 and water supply pipeline section 32, freeze pipeline section 23 is adjacent with refrigeration pipeline section 24, between water supply pipeline section 32 and water supply pipeline section 33.Refrigerant to freeze in pipeline section 21 it is cold Amount can be transferred to the aqueous solution flowed through in water supply pipeline section 31 adjacent thereto, the refrigerant in refrigeration pipeline section 22 and the pipeline section 23 that freezes Cooling capacity can be transferred to the aqueous solution flowed through in water supply pipeline section 32 adjacent thereto, the cooling capacity of the refrigerant in the pipeline section 24 that freezes can It is transferred to the aqueous solution flowed through in water supply pipeline section 33 adjacent thereto, is further realized to the aqueous solution system flowed through in water supplying pipe 3 It is cold.In actual use, according to one layer of water supply pipeline section of use demand and another layer water supply pipeline section adjacent with this layer of water supply pipeline section it Between, it is also provided with the refrigeration pipeline section of two layers or more of refrigerator pipes 2, this will not be detailed here.

Preferably, as shown in Figure 1, the tube wall of refrigerator pipes 2 and the tube wall of water supplying pipe 3 fit closely.To be made in refrigerator pipes 2 The cooling capacity of cryogen can more fully be transferred to the aqueous solution in water supplying pipe 3 by tube wall, so that aqueous solution is passing through cold storage material 1 It while realizing heat exchange, is also influenced, is further cooled by by the cooling capacity that refrigerant in refrigerator pipes 2 generates, so that refrigeration Cooling capacity in agent is preferably utilized, and realizes the further cooling of aqueous solution.

In addition, metalwork is bonded with refrigerator pipes 2 and water supplying pipe 3 respectively as shown in Figure 1, cold storage material 1 is metalwork, it should Metalwork can be aluminum casting or silver-colored part.So as to sufficiently contact with refrigerator pipes 2 and water supplying pipe 3, cooling medium in refrigerator pipes 2 is stored The cooling capacity of sending, the aqueous solution in water supplying pipe 3 can also absorb the cooling capacity in cold storage material 1 closer to cold storage material 1, realize water Solution preferably cools down, and reduces the loss of cooling capacity, cooling capacity is allowed sufficiently to be used.

It will be further appreciated that metalwork respectively with 2 die cast of water supplying pipe 3 and refrigerator pipes.So that water supplying pipe 3 and refrigeration Pipe 2 is bonded more accurate with metalwork, and heat transfer effect is more preferable.At this point, refrigerating plant further include: the guarantor being coated on the outside of metalwork Warm layer 4.To protect to metalwork, the cooling capacity for preventing metalwork from storing is lost, and is conducive to the preservation of cooling capacity on metalwork.

Further, as shown in fig. 6, refrigerating plant further include: tank body 9, cold storage material 1 are infused in tank body 9, are Chu Leng Liquid, cold accumulating liquid can be water, ethyl alcohol or glycerol, naturally it is also possible to be other liquid, refrigerator pipes 2, water supplying pipe 3 are immersed in cold accumulating liquid It is interior.Insulating layer 4 can be coated on the outer surface of tank body 5, the cooling capacity for preventing cold storage material 1 from storing is lost.

In addition, metal fin (being not drawn into figure) is also distributed in refrigerator pipes 2.To will further freeze in refrigerator pipes 2 The cooling capacity of agent comes out, and allows the storage of cold storage material 1 cooling capacity more, and the cooling capacity of cold storage material 1 is allowed to be fully used.It is supplying Metal fin can also be distributed on water pipe 3.In actual use, fin can be distributed with simultaneously on refrigerator pipes 2 and water supplying pipe 3, It is also possible to one of them and metal fin is distributed with.

Second embodiment of the present invention is related to a kind of aqueous solution carbonizing apparatus, as shown in Figure 7 and Figure 8, comprising: first is real The refrigerating plant and carbonization tank 10 in mode are applied, carbonization fills 10 and is set in the cold storage material 1 of refrigerating plant, accepts from water supplying pipe The cooling aqueous solution of the cooled medium that 3 outlet 7 is sent out.Aqueous solution in water supplying pipe 3 flows through in water supplying pipe 3 Cold storage material 1 is cooled down by cold storage material 1, is sent in carbonization tank 10 by the outlet 7 of water supplying pipe 3 later.Aqueous solution carbonization is set Standby further includes air pump and the steam line connecting with air pump 11, and steam line 11 is inserted into carbon from the top blind flange 12 of carbonization tank 10 Change the inside of tank 10, distributed pores on the tube wall of steam line 11.It is entered in carbonization tank 10 in the aqueous solution in water supplying pipe 3 Afterwards, in aqueous solution, air pump is opened feeds carbon dioxide gas into steam line 11 to steam line 11, and carbon dioxide gas is saturating The stomata crossed on tube wall enters in aqueous solution, and carbon dioxide gas dissolution is allowed to allow aqueous solution to be carbonized to form carbonic acid in aqueous solution Water.

In addition, cold storage material 1 is metalwork, metalwork and carbonization 10 die cast of tank.To metalwork and carbonization tank 10 It comes into full contact with, carbonization tank also can receive the cooling capacity on metalwork, so that carbonization tank 10 can after aqueous solution enters carbonization tank 10 Aqueous solution is further cooled down.

Further, refrigerator pipes 2 and water supplying pipe 3 are coiled in cold storage material 1, then the tank 10 that is carbonized is placed on cold storage material 1 Interior, refrigerator pipes 2 and the coiling of water supplying pipe 3 are in the outer surface of carbonization tank 10.So that the device structure is more compact.

It is not difficult to find that present embodiment is system embodiment corresponding with first embodiment, present embodiment can be with First embodiment is worked in coordination implementation.The relevant technical details mentioned in first embodiment still have in the present embodiment Effect, in order to reduce repetition, which is not described herein again.Correspondingly, the relevant technical details mentioned in present embodiment are also applicable in In first embodiment.

It will be understood by those skilled in the art that the respective embodiments described above are to realize specific embodiments of the present invention, And in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.

Claims (14)

1. a kind of refrigerating plant characterized by comprising

Cold storage material；

Refrigerator pipes, the circulation for refrigerant；The refrigerator pipes are set in the cold storage material, and in the cold storage material It is successively coiled along preset direction, the inlet and outlet of the refrigerator pipes is both exposed to outside the cold storage material；

Water supplying pipe, for conveying aqueous solution；The water supplying pipe is set in the cold storage material, and the edge in the cold storage material Preset direction successively coils, and the inlet and outlet of the water supplying pipe is both exposed to outside the cold storage material；

The refrigerator pipes and the water supplying pipe are metallic conduit, and the cold storage material is for storing circulation in the refrigerator pipes The cooling capacity of refrigerant is also used to cool down the cooling capacity of storage to the aqueous solution in the water supplying pipe.

2. refrigerating plant according to claim 1, which is characterized in that the coil direction of the refrigerator pipes and the water supplying pipe It is identical.

3. refrigerating plant according to claim 2, which is characterized in that the refrigerator pipes coiling is in the outer of the water supplying pipe Side, or coiling is in the inside of the water supplying pipe.

4. refrigerating plant according to claim 2, which is characterized in that the refrigerator pipes and the water supplying pipe are along described default It successively alternately coils in direction.

5. refrigerating plant according to claim 2, which is characterized in that the refrigerator pipes include: along the preset direction by The several layers refrigeration pipeline section of layer coiling；

The water supplying pipe includes: the several layers water supply pipeline section successively coiled along the preset direction；

Between at least one layer of refrigeration pipeline section of the refrigerator pipes and another layer of refrigeration pipeline section adjacent with this layer refrigeration pipeline section, at least Two layers of water supply pipeline section of the water supplying pipe is set；

Alternatively, at least one layer of water supply pipeline section of the water supplying pipe and another layer water supply pipeline section adjacent with this layer of water supply pipeline section it Between, two layers of refrigeration pipeline section of the refrigerator pipes is at least set.

6. refrigerating plant described in any one of -5 according to claim 1, which is characterized in that the tube wall of the refrigerator pipes and institute The tube wall for stating water supplying pipe fits closely.

7. refrigerating plant according to claim 1, which is characterized in that the cold storage material is metalwork, the metalwork It is bonded respectively with the refrigerator pipes and the water supplying pipe.

8. refrigerating plant according to claim 7, which is characterized in that the metalwork respectively with the water supplying pipe and described Refrigerator pipes die cast.

9. refrigerating plant according to claim 7, which is characterized in that the refrigerating plant further include: be coated on the gold Belong to the insulating layer on the outside of part.

10. refrigerating plant according to claim 1, which is characterized in that the refrigerating plant further include: tank body；

The cold storage material is to inject the intracorporal cold accumulating liquid of tank, and it is cold that the refrigerator pipes, the water supplying pipe are immersed in the storage In liquid.

11. refrigerating plant according to claim 1, which is characterized in that the refrigerator pipes and or the water supplying pipe on also divide It is furnished with metal fin.

12. a kind of aqueous solution carbonizing apparatus characterized by comprising

Refrigerating plant as described in claim 1；

Carbonization fills, and is set in the cold storage material of the refrigerating plant, sends out for accepting from the outlet of the water supplying pipe The aqueous solution cooled down by the cooling medium.

13. aqueous solution carbonizing apparatus according to claim 12, which is characterized in that the cold storage material is metalwork, institute State metalwork and the carbonization tank die cast.

14. aqueous solution carbonizing apparatus according to claim 12, which is characterized in that the refrigerator pipes and the water supply pipe dish It is around in the outer surface of the carbonization tank.