CN215809678U

CN215809678U - Contact type refrigerating device of material taking container

Info

Publication number: CN215809678U
Application number: CN202122224943.0U
Authority: CN
Inventors: 万先锋; 蔡文城
Original assignee: Guangzhou Clement Technology Co ltd
Current assignee: Guangzhou Clement Technology Co ltd
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2022-02-11
Anticipated expiration: 2031-09-14

Abstract

The utility model discloses a contact type refrigerating device of a material taking container, which comprises a contact type refrigerating module and a refrigerating module moving module, wherein the bottom of the contact type refrigerating module is provided with a contact surface matched with the outer wall of a storage tank, and a refrigerating piece is arranged on the contact surface; the refrigeration module removes the module and installs in the top of storage jar, the refrigeration module remove the expansion end of module with the contact refrigeration module is fixed, the refrigeration module removes the module and drives the contact refrigeration module removes, makes the contact surface of contact refrigeration module pastes closely or keeps away from the outer wall of storage jar. The contact type refrigerating device for the material taking container, provided by the utility model, can refrigerate the waste uranium recovery storage tank in a contact mode outside the waste uranium recovery storage tank, so that the waste uranium recovery storage tank can more efficiently recover waste uranium in a low-temperature environment.

Description

Contact type refrigerating device of material taking container

Technical Field

The utility model relates to the technical field of a material taking container refrigerating device, in particular to a material taking container contact type refrigerating device.

Background

A large amount of uranium-containing wastewater is generated in the nuclear energy development and production process, and particularly, the yield of uranium-containing radioactive wastewater is continuously increased along with the high-speed development of the nuclear power industry in China. Because the radioactive hazard has strong concealment and persistence and is not easy to be perceived, when the metal uranium enters the environment, water and soil pollution can be caused, then the radioactive nuclide can enter the human body through various ways, so that the environment and the human health are seriously threatened, meanwhile, the uneasiness and the panic can be brought to the spirit and the mind of the public, and the social stability is not facilitated. In order to prevent migration and diffusion of uranium, uranium-containing wastewater which is increasing day by day needs to be treated. On the other hand, under the background of responding to the call of energy conservation, environmental protection and emission reduction and vigorously developing clean energy, nuclear power is the main attack direction of the adjustment of the power supply structure in China, and the national demand of uranium resources is gradually increased. Therefore, the uranium in the uranium-containing wastewater is recycled deeply, natural uranium resources can be effectively saved, the environmental problems caused by mining and metallurgy are reduced, the dual requirements of environmental protection and strategic storage of uranium resources in China are met, and the method has important research significance.

At present, when the useless uranium is retrieved to current useless uranium recovery storage jar, because of there is not refrigerating plant, can't carry out the recovery of useless uranium under microthermal environment, recovery efficiency is very slow.

The above drawbacks are to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a contact type refrigerating device of a material taking container.

The technical scheme of the utility model is as follows:

a contact-type refrigerating unit for the material-taking container is composed of

The bottom of the contact type refrigeration module is provided with a contact surface matched with the outer wall of the storage tank, and a refrigeration piece is arranged on the contact surface;

the refrigeration module removes the module, the refrigeration module removes the module and installs in the top of storage jar, the refrigeration module remove the expansion end of module with the contact refrigeration module is fixed, the refrigeration module removes the module and drives the contact refrigeration module removes, makes the contact surface of contact refrigeration module pastes tightly or keeps away from the outer wall of storage jar.

According to the utility model of the scheme, the contact type refrigeration module comprises a left contact type refrigeration component and a right contact type refrigeration component which are arranged in bilateral symmetry, the bottom of the left contact type refrigeration component is provided with a left contact surface matched with the outer wall of the storage tank, a left refrigeration piece is arranged on the left contact surface,

the bottom of right side contact refrigeration subassembly be provided with the outer wall matched with right contact surface of storage jar, be provided with right refrigeration piece on the right contact surface.

Further, the refrigeration module removes the module and includes that the left refrigeration subassembly that bilateral symmetry set up removes the subassembly and the subassembly is removed to the right refrigeration subassembly, the expansion end that the subassembly was removed to left side refrigeration subassembly with left side contact refrigeration subassembly is fixed, left side refrigeration subassembly removes the subassembly and drives left side contact refrigeration subassembly removes, makes left side contact surface pastes tightly or keeps away from the left side outer wall of storage jar, the expansion end that the subassembly was removed to right side refrigeration subassembly with right side contact refrigeration subassembly is fixed, right side refrigeration subassembly removes the subassembly and drives right side contact refrigeration subassembly removes, makes right side contact surface paste tightly or keeps away from the right side outer wall of storage jar.

Furthermore, the left refrigeration component moving assembly comprises a left moving guide rail, a left moving cylinder, a left moving slider, a left moving support, a left lifting guide rail, a left lifting cylinder, a left lifting slider and a left lifting support, the left contact type refrigeration component is fixed at the bottom of the left lifting support, one side of the left lifting slider is fixed with the left side of the left lifting support, the other side of the left lifting slider is connected with one side of the left lifting guide rail in a sliding manner, the other side of the left lifting guide rail and the left lifting cylinder are both fixed with the left side of the left moving support, the movable end of the left lifting cylinder is fixed with the left lifting support, the left lifting cylinder drives the left lifting support to move up and down along the left lifting guide rail, the bottom of the left moving slider is fixed with the top of the left lifting support, and the top of the left moving slider is connected with the bottom of the left moving guide rail in a sliding manner, the movable end of the left moving cylinder is fixed with the left moving support, and the left moving cylinder drives the left moving support to move left and right along the left moving guide rail.

Furthermore, the right refrigeration component moving assembly comprises a right moving guide rail, a right moving cylinder, a right moving slider, a right moving support, a right lifting guide rail, a right lifting cylinder, a right lifting slider and a right lifting support, the right contact type refrigeration component is fixed at the bottom of the right lifting support, one side of the right lifting slider is fixed with the right side of the right lifting support, the other side of the right lifting slider is connected with one side of the right lifting guide rail in a sliding manner, the other side of the right lifting guide rail and the right lifting cylinder are both fixed with the right side of the right moving support, the movable end of the right lifting cylinder is fixed with the right lifting support, the right lifting cylinder drives the right lifting support to move up and down along the right lifting guide rail, the bottom of the right moving slider is fixed with the top of the right lifting support, and the top of the right moving slider is connected with the bottom of the right moving guide rail in a sliding manner, the movable end of the right moving cylinder is fixed with the right moving support, and the right moving cylinder drives the right moving support to move left and right along the right moving guide rail.

Furthermore, the left contact type refrigeration assembly and the right contact type refrigeration assembly are arc-shaped.

Furthermore, the edge of left side contact surface is provided with round left sealing washer, a left side refrigeration piece sets up in the left side sealing washer, the edge of right side contact surface is provided with round right sealing washer, right side refrigeration piece sets up in the right side sealing washer.

Furthermore, the left refrigeration piece is a left refrigeration evaporator, the right refrigeration piece is a right refrigeration evaporator, and the left refrigeration evaporator and the right refrigeration evaporator are communicated with the compressor through pipelines.

Furthermore, the return air port and the gas vent of the left refrigeration evaporator are arranged at the top of the left refrigeration assembly moving assembly, the return air port of the left refrigeration evaporator is communicated with the return air port of the compressor through a pipeline, and the gas vent of the left refrigeration evaporator is communicated with the gas vent of the compressor through a pipeline.

Furthermore, the return air port and the gas vent of the right refrigeration evaporator are arranged at the top of the right refrigeration component moving assembly, the return air port of the right refrigeration evaporator is communicated with the return air port of the compressor through a pipeline, and the gas vent of the right refrigeration evaporator is communicated with the gas vent of the compressor through a pipeline.

Compared with the prior art, the utility model has the beneficial effects that:

the contact type refrigerating device for the material taking container, provided by the utility model, can refrigerate the waste uranium recovery storage tank in a contact mode outside the waste uranium recovery storage tank, so that the waste uranium recovery storage tank can recover waste uranium more efficiently in a low-temperature environment, the universality is strong, and the waste uranium recovery storage tank does not need to be modified.

Drawings

FIG. 1 is a schematic diagram of the connection of the utility model with a spent uranium recovery storage tank;

FIG. 2 is a schematic diagram of another view of the connection between the waste uranium recovery storage tank and the utility model;

fig. 3 is a cross-sectional view of the contact surface of the contact refrigeration module of the present invention away from the outer wall of the spent uranium recovery storage tank;

fig. 4 is a cross-sectional view of the contact surface of the contact refrigeration module of the present invention abutting against the outer wall of the spent uranium recovery storage tank;

FIG. 5 is an enlarged view of portion A of FIG. 1;

FIG. 6 is an enlarged view of portion B of FIG. 2;

FIG. 7 is a schematic view of the left contact refrigeration assembly of the present invention;

fig. 8 is a side view of a left contact refrigeration assembly of the present invention.

In the context of the figures, it is,

1. waste uranium recovery storage tanks;

2. a left contact refrigeration assembly; 21. a left refrigeration member; 211. an air return port; 212. an exhaust port; 22. a left sealing ring;

3. a right contact refrigeration assembly; 31. a right refrigeration member; 32. a right seal ring;

4. a left refrigeration assembly moving assembly; 41. a left moving guide rail; 42. a left shift cylinder; 43. a left moving slide block; 44. a left moving bracket; 45. a left lifting guide rail; 46. a left lifting cylinder; 47. a left lifting slide block; 48. a left lifting support;

5. a right refrigeration component movement component; 51. a right moving guide rail; 52. a right movement cylinder; 53. a right moving slide block; 54. a right moving bracket; 55. a right lifting guide rail; 56. a right lifting cylinder; 57. a right lifting slide block; 58. and a right lifting support.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

It will be understood that when an element is referred to as being "disposed on" or "secured to" another element, it can be directly or indirectly disposed on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are only for convenience of description and should not be construed as limiting the technical solution.

Referring to fig. 1 to 4, an embodiment of the utility model provides a contact type refrigeration device for a material taking container, which includes a contact type refrigeration module and a refrigeration module moving module. The bottom of contact refrigeration module is provided with the outer wall matched with contact surface with useless uranium recovery storage jar 1, is provided with the refrigeration piece on the contact surface. The refrigeration module removes the module and installs in the top of useless uranium recovery storage jar 1, and the expansion end that the refrigeration module removed the module is fixed with contact refrigeration module, and the refrigeration module removes the module and drives contact refrigeration module and remove for the contact surface of contact refrigeration module pastes tightly or keeps away from the outer wall of useless uranium recovery storage jar 1. When retrieving storage jar 1 to useless uranium and refrigerate, the refrigeration module removes the module and drives contact refrigeration module and remove for the contact surface of contact refrigeration module pastes the outer wall of tight useless uranium retrieval storage jar 1, then starts the refrigeration piece, thereby realizes refrigerating useless uranium retrieval storage jar 1, makes useless uranium retrieval storage jar 1 can the more efficient retrieve useless uranium under microthermal environment. When stopping to refrigerate waste uranium recovery storage jar 1, close the refrigeration piece, then refrigeration module removes the module and drives contact refrigeration module reverse movement for waste uranium recovery storage jar 1's outer wall is kept away from to the contact surface of contact refrigeration module.

The contact type refrigerating device for the material taking container, provided by the utility model, can refrigerate the waste uranium recovery storage tank 1 in a contact mode outside the waste uranium recovery storage tank 1, so that the waste uranium recovery storage tank 1 can recover waste uranium more efficiently in a low-temperature environment, the universality is strong, and the waste uranium recovery storage tank 1 does not need to be modified.

Referring to fig. 3 to 6, in this embodiment, the contact refrigeration module includes left contact refrigeration assembly 2 and right contact refrigeration assembly 3 that bilateral symmetry set up, and left contact refrigeration assembly 2 and right contact refrigeration assembly 3 are arc, and the bottom of left contact refrigeration assembly 2 is provided with the left contact surface that matches with the outer wall of useless uranium recovery storage jar 1, is provided with left refrigeration piece 21 on the left contact surface. The bottom of right contact refrigeration subassembly 3 is provided with the right contact surface with the outer wall matched with of useless uranium recovery storage jar 1, is provided with right refrigeration piece 31 on the right contact surface. The refrigeration module moving module comprises a left refrigeration component moving assembly 4 and a right refrigeration component moving assembly 5 which are arranged in a bilateral symmetry mode, the movable end of the left refrigeration component moving assembly 4 is fixed with the left contact type refrigeration assembly 2, and the left refrigeration component moving assembly 4 drives the left contact type refrigeration assembly 2 to move, so that the left contact surface of the left contact type refrigeration assembly 2 is attached to or far away from the left outer wall of the waste uranium recovery storage tank 1; the expansion end of right refrigeration subassembly removal subassembly 5 is fixed with right contact refrigeration subassembly 3, and right refrigeration subassembly removal subassembly 5 drives right contact refrigeration subassembly 3 and removes for right contact surface of right contact refrigeration subassembly 3 pastes tightly or keeps away from the right side outer wall of useless uranium recovery storage jar 1. When refrigerating waste uranium recovery storage jar 1, left refrigeration subassembly removes subassembly 4 and right refrigeration subassembly and removes subassembly 5 and drive left contact refrigeration subassembly 2 and right contact refrigeration subassembly 3 respectively and remove, make left contact surface of left contact refrigeration subassembly 2 paste the left side outer wall of tight waste uranium recovery storage jar 1, right contact surface of right contact refrigeration subassembly 3 pastes the right side outer wall of tight waste uranium recovery storage jar 1, then start left refrigeration piece 21 and right refrigeration piece 31, carry out large tracts of land contact refrigeration to waste uranium recovery storage jar 1 under the combined action of left refrigeration piece 21 and right refrigeration piece 31, refrigeration effect is better, make waste uranium recovery storage jar 1 can the more efficient waste uranium recovery.

Specifically, the left refrigeration assembly moving assembly 4 comprises a left moving guide rail 41, a left moving cylinder 42, a left moving slider 43, a left moving support 44, a left lifting guide rail 45, a left lifting cylinder 46, a left lifting slider 47 and a left lifting support 48, the left contact refrigeration assembly 2 is fixed at the bottom of the left lifting support 48, one side of the left lifting slider 47 is fixed with the left side of the left lifting support 48, the other side of the left lifting slider 47 is slidably connected with one side of the left lifting guide rail 45, the other side of the left lifting guide rail 45 and the left lifting cylinder 46 are both fixed with the left side of the left moving support 44, the movable end of the left lifting cylinder 46 is fixed with the left lifting support 48, and the left lifting cylinder 46 drives the left lifting support 48 to move up and down along the left lifting guide rail 45, so as to drive the left contact refrigeration assembly 2 to move up and down; the bottom of the left moving slide block 43 is fixed with the top of the left lifting support 48, the top of the left moving slide block 43 is connected with the bottom of the left moving guide rail 41 in a sliding manner, the movable end of the left moving air cylinder 42 is fixed with the left moving support 44, the left moving air cylinder 42 and the left moving guide rail 41 are fixed on a fixed structure, and the left moving air cylinder 42 drives the left moving support 44 to move left and right along the left moving guide rail 41 so as to drive the left contact type refrigeration assembly 2 to move left and right. Under the combined action of the left moving cylinder 42 and the left lifting cylinder 46, the left contact surface of the left contact type refrigeration assembly 2 is made to be close to/far away from the left outer wall of the waste uranium recovery storage tank 1.

Specifically, the right refrigeration assembly moving assembly 5 comprises a right moving guide rail 51, a right moving cylinder 52, a right moving slider 53, a right moving support 54, a right lifting guide rail 55, a right lifting cylinder 56, a right lifting slider 57 and a right lifting support 58, the right contact refrigeration assembly 3 is fixed at the bottom of the right lifting support 58, one side of the right lifting slider 57 is fixed with the right side of the right lifting support 58, the other side of the right lifting slider 57 is slidably connected with one side of the right lifting guide rail 55, the other side of the right lifting guide rail 55 and the right lifting cylinder 56 are both fixed with the right side of the right moving support 54, the movable end of the right lifting cylinder 56 is fixed with the right lifting support 58, and the right lifting cylinder 56 drives the right lifting support 58 to move up and down along the right lifting guide rail 55, so as to drive the right contact refrigeration assembly 3 to move up and down; the bottom of the right moving slide block 53 is fixed with the top of the right lifting support 58, the top of the right moving slide block 53 is connected with the bottom of the right moving guide rail 51 in a sliding manner, the movable end of the right moving cylinder 52 is fixed with the right moving support 54, the right moving cylinder 52 and the right moving guide rail 51 are fixed on a fixed structure, and the right moving cylinder 52 drives the right moving support 54 to move left and right along the right moving guide rail 51 so as to drive the right contact type refrigeration component 3 to move left and right. Under the combined action of the right moving cylinder 52 and the right lifting cylinder 56, the right contact surface of the right contact type refrigeration assembly 3 is close to/far away from the right outer wall of the waste uranium recycling storage tank 1.

Referring to fig. 7 to 8, in the present embodiment, a circle of left sealing ring 22 is disposed on the edge of the left contact surface of the left contact type refrigeration assembly 2, the left refrigeration member 21 is disposed in the left sealing ring 22, a circle of right sealing ring 32 is disposed on the edge of the right contact surface of the right contact type refrigeration assembly 3, and the right refrigeration member 31 is disposed in the right sealing ring 32. Left side sealing washer 22 and right sealing washer 32 play sealed and buffering's effect, can increase the refrigeration effect of refrigeration piece, avoid the outer wall direct contact of contact surface and useless uranium recovery storage jar 1.

Referring to fig. 7 to 8, in the present embodiment, the left refrigeration member 21 is a left refrigeration evaporator, the right refrigeration member 31 is a right refrigeration evaporator, and both the left refrigeration evaporator and the right refrigeration evaporator are communicated with the compressor through a pipeline.

Specifically, the return air port 211 and the exhaust port 212 of the left refrigeration evaporator are arranged at the top of the left refrigeration component moving component 4, the return air port 211 of the left refrigeration evaporator is communicated with the return air port of the compressor through a pipeline, and the exhaust port 212 of the left refrigeration evaporator is communicated with the exhaust port of the compressor through a pipeline. The air return port 211 and the exhaust port 22 of the left refrigeration evaporator are arranged at the top of the left refrigeration assembly moving assembly 4, so that the left refrigeration evaporator is convenient to communicate with the compressor through a pipeline, and the refrigeration effect of the left refrigeration assembly moving assembly 4 is not influenced.

Specifically, the return air port and the exhaust port of the right refrigeration evaporator are arranged at the top of the right refrigeration component moving assembly 5, the return air port of the right refrigeration evaporator is communicated with the return air port of the compressor through a pipeline, and the exhaust port of the right refrigeration evaporator is communicated with the exhaust port of the compressor through a pipeline. The air return port and the exhaust port of the right refrigeration evaporator are arranged at the top of the right refrigeration component moving assembly 5, so that the right refrigeration evaporator is convenient to communicate with the compressor through a pipeline, and the refrigeration effect of the right refrigeration component moving assembly 5 is not influenced.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

The utility model is described above with reference to the accompanying drawings, which are illustrative, and it is obvious that the implementation of the utility model is not limited in the above manner, and it is within the scope of the utility model to adopt various modifications of the inventive method concept and technical solution, or to apply the inventive concept and technical solution to other fields without modification.

Claims

1. A contact type refrigerating device of a material taking container is characterized by comprising

2. The contact refrigeration unit of claim 1, wherein the contact refrigeration module comprises a left contact refrigeration assembly and a right contact refrigeration assembly, the left contact refrigeration assembly and the right contact refrigeration assembly are symmetrically arranged, a left contact surface matched with the outer wall of the storage tank is arranged at the bottom of the left contact refrigeration assembly, a left refrigeration piece is arranged on the left contact surface,

3. The contact type refrigerating device for the material taking container as claimed in claim 2, wherein the refrigerating module moving module comprises a left refrigerating assembly moving assembly and a right refrigerating assembly moving assembly which are arranged in bilateral symmetry, the movable end of the left refrigerating assembly moving assembly is fixed with the left contact type refrigerating assembly, the left refrigerating assembly moving assembly drives the left contact type refrigerating assembly to move, so that the left contact surface is attached to or away from the left outer wall of the storage tank, the movable end of the right refrigerating assembly moving assembly is fixed with the right contact type refrigerating assembly, and the right refrigerating assembly moving assembly drives the right contact type refrigerating assembly to move, so that the right contact surface is attached to or away from the right outer wall of the storage tank.

4. The contact type refrigerating device for the material taking container as claimed in claim 3, wherein the left refrigerating assembly moving assembly comprises a left moving guide rail, a left moving cylinder, a left moving slider, a left moving bracket, a left lifting guide rail, a left lifting cylinder, a left lifting slider and a left lifting bracket, the left refrigerating assembly is fixed at the bottom of the left lifting bracket, one side of the left lifting slider is fixed with the left side of the left lifting bracket, the other side of the left lifting slider is slidably connected with one side of the left lifting guide rail, the other side of the left lifting guide rail and the left lifting cylinder are both fixed with the left side of the left moving bracket, the movable end of the left lifting cylinder is fixed with the left lifting bracket, the left lifting cylinder drives the left lifting bracket to move up and down along the left lifting guide rail, the bottom of the left moving slider is fixed with the top of the left lifting bracket, the top of the left moving sliding block is connected with the bottom of the left moving guide rail in a sliding mode, the movable end of the left moving air cylinder is fixed with the left moving support, and the left moving air cylinder drives the left moving support to move left and right along the left moving guide rail.

5. The contact type refrigerating device for the material taking container as claimed in claim 4, wherein the right refrigerating assembly moving assembly comprises a right moving guide rail, a right moving cylinder, a right moving slider, a right moving bracket, a right lifting guide rail, a right lifting cylinder, a right lifting slider and a right lifting bracket, the right refrigerating assembly is fixed at the bottom of the right lifting bracket, one side of the right lifting slider is fixed with the right side of the right lifting bracket, the other side of the right lifting slider is connected with one side of the right lifting guide rail in a sliding manner, the other side of the right lifting guide rail and the right lifting cylinder are both fixed with the right side of the right moving bracket, the movable end of the right lifting cylinder is fixed with the right lifting bracket, the right lifting cylinder drives the right lifting bracket to move up and down along the right lifting guide rail, the bottom of the right moving slider is fixed with the top of the right lifting bracket, the top of the right moving sliding block is connected with the bottom of the right moving guide rail in a sliding mode, the movable end of the right moving air cylinder is fixed with the right moving support, and the right moving air cylinder drives the right moving support to move left and right along the right moving guide rail.

6. The pick container contact chiller of claim 2, wherein the left contact refrigeration assembly and the right contact refrigeration assembly are arcuate.

7. The pick-up container contact chiller as claimed in claim 2, wherein the left contact surface has a ring of left sealing ring disposed on an edge thereof, the left cooling member being disposed within the left sealing ring, the right contact surface having a ring of right sealing ring disposed on an edge thereof, the right cooling member being disposed within the right sealing ring.

8. The contact refrigeration unit of claim 3, wherein the left refrigeration member is a left refrigeration evaporator, the right refrigeration member is a right refrigeration evaporator, and both the left refrigeration evaporator and the right refrigeration evaporator are in communication with the compressor via a conduit.

9. The pick-up container contact chiller as claimed in claim 8, wherein the return air port and the exhaust port of the left refrigeration evaporator are located at the top of the left refrigeration assembly moving assembly, the return air port of the left refrigeration evaporator is in communication with the return air port of the compressor via a conduit, and the exhaust port of the left refrigeration evaporator is in communication with the exhaust port of the compressor via a conduit.

10. The pick-up container contact chiller as claimed in claim 8, wherein the return air port and the exhaust air port of the right refrigeration evaporator are disposed at the top of the right refrigeration assembly moving assembly, the return air port of the right refrigeration evaporator is in communication with the return air port of the compressor via a conduit, and the exhaust air port of the right refrigeration evaporator is in communication with the exhaust air port of the compressor via a conduit.