CN211451230U - Open type cold storage tank and refrigeration cycle system - Google Patents

Abstract

The utility model relates to a refrigeration cycle system, which comprises a cooler, a refrigerator, an open type cold storage tank and a cold using device; the open type cold accumulation tank comprises a tank body, a pipe body assembly, a bottom cloth water piece and a top cloth water piece; the tank body is provided with a vent; the pipe body assembly comprises a lower vertical pipe and an upper vertical pipe which are connected with the pipe body, a water inlet pipe and a refrigerating pipe which are correspondingly connected with the lower vertical pipe, and a circulating pipe and a water outlet pipe which are correspondingly connected with the upper vertical pipe; the bottom cloth water part is connected with the lower vertical pipe and communicated with the inside of the tank body; the top water distribution piece is connected with the upper vertical pipe and communicated with the inside of the tank body. Above-mentioned open cold storage tank through setting up the body subassembly, and then guarantees to store the refrigerant through a jar body, improves the transport area to the refrigerant through setting up backer water spare and top cloth water spare, guarantees when the refrigerator stop work suddenly, circulates the internal refrigerant of jar through backer water spare and top cloth water spare, guarantees to continue to provide cold volume to external cold device.

Description

Open type cold storage tank and refrigeration cycle system

Technical Field

The utility model relates to the field of refrigeration technology, especially, relate to an open cold storage tank and refrigeration cycle system.

Background

With the continuous development of society, the traditional manual work has been replaced by the mechanized device, and the mechanized device often needs a refrigeration cycle system in the use process or the refrigeration cycle system in the air conditioning device; the refrigeration cycle system directly affects the working efficiency of external mechanical devices.

The existing refrigeration cycle system generally has a structure that a refrigerator cools a refrigerant, and then the low-temperature refrigerant is introduced into an external cold-using device, but the existing refrigeration cycle system needs the refrigerator to work to complete the circulation when refrigerating, so that when a power failure or other problems occur, the refrigerator stops working to cause the cold-using device to directly stop supplying cold, and the existing refrigeration cycle system has poor reliability of emergency handling capability.

SUMMERY OF THE UTILITY MODEL

Accordingly, it is desirable to provide an open type cold storage tank and a refrigeration cycle system, which can solve the problem that the stop of the operation of the refrigerator in the refrigeration cycle causes the immediate stop of the supply of cold energy by the cold device.

An open accumulator tank comprising:

the tank body is provided with a vent;

the pipe body assembly is arranged inside the tank body; the pipe body assembly comprises a lower vertical pipe and an upper vertical pipe which are connected with the tank body, a water inlet pipe and a refrigerating pipe which are correspondingly connected with the lower vertical pipe, and a circulating pipe and a water outlet pipe which are correspondingly connected with the upper vertical pipe;

the bottom cloth water part is arranged at the bottom of the tank body, is connected with the lower vertical pipe and is communicated with the inside of the tank body; and

the top water distribution piece is arranged at the top of the tank body and connected with the upper vertical pipe, and the top water distribution piece is communicated with the inside of the tank body.

Above-mentioned open cold storage tank, through setting up the body subassembly, and then guarantee to store the refrigerant through a jar body, through setting up backer water spare and top cloth water spare and improving the transport area to the refrigerant, guarantee when the refrigerator stops working suddenly, circulate the internal refrigerant of jar through backer water spare and top cloth water spare, can guarantee to continue to provide cold volume to external cold installation, and then improved the reliability of dealing with emergency through this open cold storage tank.

In one embodiment, the bottom cloth water-distributing member is arranged on the outer side of the lower vertical pipe in an annular structure, and the top cloth water-distributing member is arranged on the outer side of the upper vertical pipe in an annular structure.

In one embodiment, the bottom cloth water distribution member and the top cloth water distribution member are arranged in a parallel structure, the bottom cloth water distribution member is perpendicular to the arrangement direction of the lower vertical pipe, and the top cloth water distribution member is perpendicular to the arrangement direction of the upper vertical pipe.

In one embodiment, a lower water distribution pipe is arranged on the lower vertical pipe, and an upper water distribution pipe is arranged on the upper vertical pipe; the lower water distribution pipe is connected with the bottom cloth water part, and the upper water distribution pipe is connected with the top cloth water part.

In one embodiment, the lower water distribution pipe and the upper water distribution pipe have the same structure; the lower water distribution pipe comprises a first branch part connected with the lower vertical pipe, a second branch part connected with the first branch part, and a third branch part connected with the second branch part, and the third branch part is connected with the bottom cloth water part.

In one embodiment, the first branch portion is disposed on two opposite sides of the lower riser, the second branch portion is disposed on one end of the first branch portion facing away from the lower riser, and the third branch portion is disposed on one end of the second branch portion facing away from the first branch portion.

In one embodiment, the lower stand pipe and the upper stand pipe are arranged along the same central axis in an extending mode, and a partition plate is arranged between the lower stand pipe and the upper stand pipe.

In one embodiment, a lower flow equalizing plate is arranged on one side of the bottom water distributing member close to the top water distributing member, an upper flow equalizing plate is arranged on one side of the top water distributing member close to the bottom water distributing member, two sides of the upper flow equalizing plate are correspondingly communicated, and two sides of the lower flow equalizing plate are correspondingly communicated.

A refrigeration cycle system comprising: the cooling device comprises a cooler, a refrigerator connected with the cooler, the open type cold storage tank and a cold using device connected with the open type cold storage tank; a coolant is contained in the cooler, and a refrigerant is arranged in the closed cold accumulation tank; the refrigerator and the cooler are used for cooling the refrigerant and conveying the cooled refrigerant back to the closed cold accumulation tank.

In one embodiment, the water inlet pipe and the water outlet pipe of the open type cold accumulation tank are correspondingly connected with the refrigerator; the refrigerating pipe and the circulating pipe are correspondingly connected with the cold using device.

Drawings

Fig. 1 is a schematic structural view of a refrigeration cycle system according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the open cold storage tank of FIG. 1;

FIG. 3 is a schematic view of the internal structure of the open cold storage tank of FIG. 2;

FIG. 4 is a schematic structural view of the tube assembly shown in FIG. 2;

fig. 5 is a partial structure view of the top water distribution member.

The reference numbers in the drawings have the meanings given below:

100-a refrigeration cycle system;

10-cooler, 15-water supply pipe, 16-water return pipe;

20-a refrigerator;

30-open cold storage tank;

40-tank body, 41-ventilation opening, 45-water replenishing pipe, 46-overflow pipe and 47-sewage draining pipe;

50-pipe body assembly, 51-lower stand pipe, 52-upper stand pipe, 57-partition plate, 53-water inlet pipe, 54-refrigeration pipe, 55-circulating pipe and 56-water outlet pipe;

60-bottom cloth water part and 65-lower flow equalizing plate;

70-top water distribution piece and 75-upper flow equalizing plate;

80-a lower water distribution pipe, 81-an upper water distribution pipe, 85-a first branch part, 86-a second branch part and 87-a third branch part;

90-use the cold device.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 5, a refrigeration cycle system 100 according to an embodiment of the present invention includes a cooler 10, a refrigerator 20 connected to the cooler 10, an open type cold storage tank 30 connected to the refrigerator 20, and a cold using device 90 connected to the open type cold storage tank 30; the refrigeration cycle system 100 is used to provide the cooling device 90 with the cooling capacity required for its operation.

The cooler 10 is arranged in a hollow structure, the inside of the cooler 10 contains a coolant, and the cooler 10 is used for providing the coolant for the refrigerator 20; in this embodiment, the coolant is water. The cooler 10 is provided with a water supply pipe 15 and a water return pipe 16; a water supply pipe 15 and a water return pipe 16 are connected to the refrigerator 20, the water supply pipe 15 has a hollow circular pipe structure to supply the refrigerant into the refrigerator 20, the water return pipe 16 is used to connect the refrigerator 20 to the cooler 10, the refrigerant is used to absorb the heat generated by the refrigerator 20 during the refrigerating operation, and a cooling circulation loop is formed through the water supply pipe 15 and the water return pipe 16 to ensure the normal operation of the refrigerator 20. Further, a water supply pump is provided on the water supply pipe 15 to drive the coolant from the cooler 10 into the refrigerator 20.

The open type cold accumulation tank 30 is correspondingly connected with one side of the refrigerator 20, which faces away from the cooler 10, refrigerant is arranged in the open type cold accumulation tank 30, the refrigerator 20 and the cooler 10 are matched to cool the refrigerant, and the refrigerator 20 correspondingly conveys the cooled refrigerant back to the open type cold accumulation tank 30; the open cold storage tank 30 comprises a tank body 40, a pipe body assembly 50 connected with the tank body 40, and a bottom cloth water member 60 and a top cloth water member 70 connected with the pipe body assembly 50. The tank 40 is arranged in a hollow cylindrical structure, and the inside of the tank 40 is used for accommodating a refrigerant; the tank 40 is provided with a vent 41, the vent 41 is correspondingly arranged at the top end of the tank 40, the vent 41 is used for communicating the inside of the tank 40 with the outside, so that the air pressure in the tank 40 is ensured to be the same as the outside air pressure, the atmospheric pressure and the pressure of the refrigerant are effectively utilized for circulation, and the processing cost of the refrigeration cycle system 100 is further reduced. In this embodiment, the tank 40 is provided with a water replenishing pipe 45 and an overflow pipe 46; the water supply pipe 45 is disposed at the top end of the tank 40 corresponding to the overflow pipe 46, the water supply pipe 45 is disposed at both sides of the tank 40 opposite to the overflow pipe 46, the water supply pipe 45 is used for supplying the refrigerant into the tank 40 when the refrigerant in the tank 40 is insufficient, and the overflow pipe 46 is used for discharging the refrigerant to the outside when the volume of the refrigerant in the tank 40 is too large. Further, be provided with blow off pipe 47 on this jar of body 40, this blow off pipe 47 corresponds and is connected with the bottom of jar of body 40, and this blow off pipe 47 is used for discharging the refrigerant in jar of body 40, and then realizes the change to the refrigerant, conveniently the later maintenance to jar of body 40.

The tube assembly 50 is correspondingly arranged inside the tank 40, and the tube assembly 50 is correspondingly communicated with the refrigerator 20; the pipe assembly 50 includes a lower vertical pipe 51 and an upper vertical pipe 52 connected to the tank 40, a water inlet pipe 53 and a refrigerant pipe 54 correspondingly connected to the lower vertical pipe 51, and a circulation pipe 55 and a water outlet pipe 56 correspondingly connected to the upper vertical pipe 52. The lower stand pipe 51 is a hollow round tubular structure and is arranged in the tank 40 along the vertical direction, and the bottom end of the lower stand pipe 51 is correspondingly connected with the part of the tank 40; the upper vertical pipe 52 is hollow round pipe shape and is arranged in the tank 40 along the vertical direction, and the upper vertical pipe 52 is correspondingly arranged on the top of the tank 40; in the present embodiment, the lower vertical pipe 51 and the upper vertical pipe 52 extend along the same central axis, a partition 57 is disposed between the lower vertical pipe 51 and the upper vertical pipe 52, the partition 57 is in a straight plate shape and is disposed along the horizontal direction, and both sides of the partition 57 respectively block the upper vertical pipe 52 and the lower vertical pipe 51.

The water inlet pipe 53 and the refrigeration pipe 54 are oppositely arranged on two sides of the lower vertical pipe 51, one end of the water inlet pipe 53 and one end of the refrigeration pipe 54 are correspondingly connected with the lower vertical pipe 51, the other end of the water inlet pipe is correspondingly arranged to penetrate through the tank body 40 and extend outwards, the water inlet pipe 53 is correspondingly arranged below the refrigeration pipe 54, the water inlet pipe 53 is connected with the refrigerator 20, the water inlet pipe 53 is used for inputting the refrigerant cooled by the refrigerator 20 into the pipe body assembly 50, and the refrigeration pipe 54 is used for conveying the cooling liquid in the open type cold accumulation tank 30 to the external cold utilization device 90. The circulating pipe 55 and the water outlet pipe 56 are oppositely arranged at two sides of the upper vertical pipe 52, one end of the circulating pipe 55 and one end of the water outlet pipe 56 are correspondingly connected with the upper vertical pipe 52, the other end of the circulating pipe 55 correspondingly penetrates through the tank body 40 and extends outwards, the circulating pipe 55 is correspondingly arranged below the water outlet pipe 56, the circulating pipe 55 is correspondingly connected with an external cold utilization device 90, further, the refrigerant passing through the cold utilization device 90 is conveyed into the open cold storage tank 30, the water outlet pipe 56 is correspondingly connected with the refrigerator 20, and the water outlet pipe 56 is used for conveying the refrigerant which has transmitted cold energy, namely the refrigerant with increased temperature to the refrigerator 20 for cooling.

The base cloth water part 60 is correspondingly arranged at the bottom of the tank body 40, the base cloth water part 60 is connected with the lower vertical pipe 51, the base cloth water part 60 is communicated with the inside of the tank body 40, the base cloth water part 60 is used for introducing the refrigerant conveyed from the water inlet pipe 53 into the tank body 40, meanwhile, the base cloth water part 60 is used for conveying the refrigerant at the bottom of the tank body 40 to the refrigerating pipe 54, the base cloth water part 60 effectively improves the conveying area of the refrigerant, and further, the distribution balance of the temperature of the refrigerant in the tank body 40 is ensured; the top water distribution member 70 is correspondingly arranged at the top of the tank 40, the top water distribution member 70 is connected with the upper vertical pipe 52, the top water distribution member 70 is correspondingly communicated with the inside of the tank 40, the top water distribution member 70 is used for introducing the refrigerant used by the cooling device 90 into the tank 40, and meanwhile, the top water distribution member 70 is used for conveying the refrigerant at the top of the tank 40 to the refrigerator 20. In this embodiment, the top cloth water member 70 and the bottom cloth water member 60 have the same shape and structure, the bottom cloth water member 60 and the top cloth water member 70 are arranged in a parallel structure, the bottom cloth water member 60 is perpendicular to the arrangement direction of the lower stand pipe 51, and the top cloth water member 70 is perpendicular to the arrangement direction of the upper stand pipe 52; further, the bottom cloth water members 60 are arranged around the outer side of the lower vertical pipe 51 in an annular structure, and the bottom cloth water members 60 are arranged at intervals in a sequentially expanded shape from the lower vertical pipe 51 to the outside; the top water distributing member 70 is correspondingly disposed around the outer side of the upper vertical pipe 52 in an annular structure. Furthermore, a lower flow equalizing plate 65 is arranged on one side of the bottom cloth water member 60 close to the top cloth water member 70, and an upper flow equalizing plate 75 is arranged on one side of the top cloth water member 70 close to the bottom cloth water member 60; the two sides of the lower flow equalizing plate 65 are correspondingly communicated, the lower flow equalizing plate 65 is straight and is arranged along the horizontal direction, the structure of the upper flow equalizing plate 75 is the same as that of the lower flow equalizing plate 65, the two sides of the upper flow equalizing plate 75 are correspondingly communicated, the upper flow equalizing plate 75 is straight and is arranged along the horizontal direction, a plurality of fine flow holes are formed in the upper flow equalizing plate 75 and the lower flow equalizing plate 65, the upper flow equalizing plate 75 and the lower flow equalizing plate 65 are used for reducing the impact generated by the flowing of the refrigerant in the top water distribution member 70 and the bottom water distribution member 60, and further ensuring better layering of the refrigerant in the tank 40, and the temperature of the refrigerant at the top of the tank 40 is higher than that of the refrigerant at the bottom of the tank 40.

The lower riser 51 is provided with a lower water distribution pipe 80, and the upper riser 52 is provided with an upper water distribution pipe 81; the lower water distribution pipe 80 is used for connecting with the bottom cloth water part 60, the upper water distribution pipe 81 is connected with the top cloth water part 70, the lower water distribution pipe 80 is used for increasing the communication area of the lower vertical pipe 51 and the bottom cloth water part 60, and the upper water distribution pipe 81 is used for increasing the communication area of the upper vertical pipe 52 and the top cloth water part 70. In the present embodiment, the lower water distribution pipe 80 has the same structure as the upper water distribution pipe 81; the lower distribution pipe 80 includes a first branch portion 85 connected to the lower stand pipe 51, a second branch portion 86 connected to the first branch portion 85, and a third branch portion 87 connected to the second branch portion 86; the first branch parts 85 are oppositely arranged at two sides of the lower stand pipe 51, the second branch parts 86 are oppositely arranged at one end of the first branch part 85 back to the lower stand pipe 51, the second branch parts 86 are correspondingly arranged at two sides of the first branch parts 85, the third branch parts 87 are oppositely arranged at one end of the second branch parts 86 back to the first branch parts 85, the third branch parts 87 are arranged at two sides of the second branch parts 86, the third branch parts 87 are connected with the bottom cloth water piece 60 to ensure that the communication position of the lower stand pipe 51 and the bottom cloth water piece 60 is improved, and the upper water distribution pipe 81 is used for improving the communication position of the upper stand pipe 52 and the top cloth water piece 70.

The cold using device 90 is a device for consuming cold, the cold using device 90 is correspondingly arranged on one side of the open cold storage tank 30, which is opposite to the refrigerator 20, the cold using device 90 is correspondingly connected with the refrigerating pipe 54 and the circulating pipe 55, the refrigerating pipe 54 is used for introducing low-temperature refrigerant into the cold using device 90, the refrigerant is introduced into the open cold storage tank 30 through the circulating pipe 55 after the cold using device 90 is used, and the temperature of the refrigerant is correspondingly increased after the refrigerant passes through the cold using device 90. In the present embodiment, the cooling device 90 is a central air conditioner.

The operation principle of the refrigeration cycle system 100 in the present embodiment is as follows: when the system is used, the refrigerator 20 cools the refrigerant in the tank 40 through the water inlet pipe 53 and the water outlet pipe 56, the temperature of the refrigerant is cooled to four to seven ℃, at the moment, the coolant in the cooler 10 is correspondingly circulated and introduced into the refrigerator 20, and the heat generated in the process of cooling the refrigerant by the refrigerator 20 is absorbed through the coolant, so that the cooling operation of the refrigerator 20 is realized, and the normal work is ensured; the refrigerant in the tank 40 is transported to the cooling device 90 for use through the refrigeration pipe 54 and the circulation pipe 55, and the refrigerant is stored in the tank 40, so that when the refrigerator 20 cannot work due to an emergency, the refrigerant in the tank 40 can still enter the refrigeration pipe 54 through the bottom cloth water member 60 and then be transported to the cooling device 90, and therefore, the refrigeration cycle system 100 can still run for a period of time after the refrigerator 20 stops working. By arranging the bottom cloth water piece 60 and the top cloth water piece 70 to be respectively connected with the lower water distribution pipe 80 and the upper water distribution pipe 81, the flow area of the pipe body assembly 50 and the refrigerant in the tank body 40 is increased, and further the uniform temperature distribution of the refrigerant is ensured, namely the temperature of the bottom of the refrigerant in the tank body 40 is uniform and lower, and the temperature of the refrigerant at the top in the tank body 40 is uniform and higher; meanwhile, the lower flow equalizing plate 65 and the upper flow equalizing plate 75 are arranged to prevent the refrigerant in the tank 40 from being flushed in the flowing process of the refrigerant, so that the temperature of the bottom of the refrigerant in the tank 40 is lower, the temperature of the top of the refrigerant is higher, and the temperature difference between the top and the bottom of the refrigerant in the tank 40 is effectively prevented from being reduced due to flushing.

Above-mentioned open cold storage tank 30, through setting up body subassembly 50, and then guarantee to store the refrigerant through jar body 40, improve the transport area to the refrigerant through setting up backer water spare 60 and top cloth water spare 70, guarantee when refrigerator 20 stops working suddenly, circulate the refrigerant in jar body 40 through backer water spare 60 and top cloth water spare 70, can guarantee to continue to provide cold volume to external cold device 90 with cold, and then improved the reliability of reply emergency through this open cold storage tank 30.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An open type cold storage tank, comprising:

the tank body is provided with a vent;

the pipe body assembly is arranged inside the tank body; the pipe body assembly comprises a lower vertical pipe and an upper vertical pipe which are connected with the tank body, a water inlet pipe and a refrigerating pipe which are correspondingly connected with the lower vertical pipe, and a circulating pipe and a water outlet pipe which are correspondingly connected with the upper vertical pipe;

the bottom cloth water part is arranged at the bottom of the tank body, is connected with the lower vertical pipe and is communicated with the inside of the tank body; and

the top water distribution piece is arranged at the top of the tank body and connected with the upper vertical pipe, and the top water distribution piece is communicated with the inside of the tank body.

2. An open cold storage tank according to claim 1, wherein said bottom cloth water member is provided in a ring structure around the outside of said lower vertical pipe, and said top cloth water member is provided in a ring structure around the outside of said upper vertical pipe.

3. An open type cold storage tank according to claim 2, wherein the bottom cloth water member and the top cloth water member are arranged in a parallel structure, the bottom cloth water member is perpendicular to the arrangement direction of the lower vertical pipe, and the top cloth water member is perpendicular to the arrangement direction of the upper vertical pipe.

4. An open type cold storage tank according to claim 1, wherein a lower water distribution pipe is provided on the lower vertical pipe, and an upper water distribution pipe is provided on the upper vertical pipe; the lower water distribution pipe is connected with the bottom cloth water part, and the upper water distribution pipe is connected with the top cloth water part.

5. An open type cold storage tank according to claim 4, wherein said lower water distribution pipe is identical in structure to said upper water distribution pipe; the lower water distribution pipe comprises a first branch part connected with the lower vertical pipe, a second branch part connected with the first branch part, and a third branch part connected with the second branch part, and the third branch part is connected with the bottom cloth water part.

6. An open type cold storage tank according to claim 5, wherein said first branch portion is provided oppositely to both sides of said lower vertical pipe, said second branch portion is provided oppositely to an end of said first branch portion facing away from said lower vertical pipe, and said third branch portion is provided oppositely to an end of said second branch portion facing away from said first branch portion.

7. An open type cold storage tank according to claim 1, wherein said lower vertical pipe and said upper vertical pipe are extended along the same central axis, and a partition is provided between said lower vertical pipe and said upper vertical pipe.

8. An open cold storage tank according to claim 1, wherein a lower flow equalizing plate is provided on a side of said bottom cloth water member adjacent to said top cloth water member, an upper flow equalizing plate is provided on a side of said top cloth water member adjacent to said bottom cloth water member, both sides of said upper flow equalizing plate are correspondingly communicated, and both sides of said lower flow equalizing plate are correspondingly communicated.

9. A refrigeration cycle system, comprising: a cooler, a refrigerator connected to the cooler, an open cold storage tank according to any one of claims 1 to 8, and a cooling device connected to the open cold storage tank; the cooler is internally provided with a coolant, and the open type cold accumulation tank is internally provided with a refrigerant; the refrigerator and the cooler are used for cooling the refrigerant and conveying the cooled refrigerant back to the open type cold accumulation tank.

10. The refrigeration cycle system of claim 9, wherein the water inlet pipe and the water outlet pipe of the open type cold accumulation tank are correspondingly connected with the refrigerator; the refrigerating pipe and the circulating pipe are correspondingly connected with the cold using device.

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