CN113465222A

CN113465222A - Solar remote control absorption refrigeration system

Info

Publication number: CN113465222A
Application number: CN202110764722.4A
Authority: CN
Inventors: 淡薄; 李彦海
Original assignee: Handi Heitu Energy Technology Co ltd
Current assignee: Handi Heitu Energy Technology Co ltd
Priority date: 2021-07-07
Filing date: 2021-07-07
Publication date: 2021-10-01

Abstract

The invention discloses a solar remote control absorption refrigeration system which comprises a heat collection water tank, a solar heat collection assembly, a lithium bromide absorption refrigerator, a heat storage circulating pump, a heat medium circulating pump, an intelligent remote controller and a thermoelectric conversion assembly, wherein the heat collection water tank is connected with the solar heat collection assembly; the solar heat-storage type refrigerator has the advantages that a large amount of solar heat storage is stored through the heat-collecting water tank, so that the lithium bromide absorption type refrigerator can be continuously output conveniently, and the aim of continuous refrigeration is fulfilled; meanwhile, the heat storage circulating pump, the heating medium circulating pump, the lithium bromide absorption refrigerator and the electromagnetic valve are remotely controlled through the intelligent remote controller, so that the intelligent heat storage circulating pump, the heating medium circulating pump, the lithium bromide absorption refrigerator and the electromagnetic valve are more convenient and intelligent and are convenient to work; through the cooperation of primary filter layer, first activated carbon fiber layer, resin layer, second activated carbon fiber layer and meticulous filter layer among the filter assembly, realize filtering layer upon layer to quality of water, satisfy the requirement of lithium bromide absorption refrigerator to quality of water, simultaneously, improve the life of solar energy collection pipe and lithium bromide absorption refrigerator.

Description

Solar remote control absorption refrigeration system

Technical Field

The invention relates to the technical field of solar refrigeration, in particular to a solar remote control absorption refrigeration system.

Background

The refrigeration system formed by solar energy and a lithium bromide absorption refrigerator has the advantages of energy conservation and high efficiency, so certain requirements on some solar refrigeration systems are met in the market; however, because the solar energy output is not stable enough, the refrigeration effect of the lithium bromide absorption refrigerator is influenced, most of the existing solar refrigeration systems are not provided with a water quality filtering structure, the service lives of the solar device and the lithium bromide absorption refrigerator are easily influenced, and most of the existing solar refrigeration systems are not provided with a redundant heat treatment structure and an intelligent regulation and control device, so that the regulation and control are inconvenient, and the use is influenced; therefore, it is necessary to invent a solar remote control absorption refrigeration system.

Disclosure of Invention

The invention aims to provide a solar remote control absorption refrigeration system, which aims to solve the problems of stable refrigeration effect, filtering structure, redundant heat treatment structure and intelligent regulation and control in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a solar remote control absorption refrigeration system comprises a heat collection water tank, a solar heat collection assembly, a lithium bromide absorption refrigerator, a heat storage circulating pump, a heat medium circulating pump, an intelligent remote controller, a filtering assembly, a thermoelectric conversion assembly, a heat storage circulating pump control module, a heat medium circulating pump control module, an electromagnetic valve control module and a lithium bromide absorption refrigerator control module, wherein the solar heat collection assembly is arranged on one side of the heat collection water tank and comprises a base, a rack, a connecting plate, a motor, a threaded rod, a first mounting frame, a second mounting frame, a heat collection pipe, a tooth socket and a reflector, the rack is symmetrically and slidably connected on the base, the motor is arranged on the base, the threaded rod is fixedly connected at the output end of the motor, the connecting plate is in threaded connection on the threaded rod, the two ends of the connecting plate are fixedly connected with the rack, the first mounting frame is symmetrically arranged on the base, the first mounting frame is rotatably connected with a second mounting frame, the second mounting frame is provided with heat collecting pipes, tooth grooves are symmetrically formed in the second mounting frame, racks are meshed with the tooth grooves, a reflector is arranged on the second mounting frame, the cold water outlet end of the heat collecting water tank is connected with a heat storage circulating pump through a circulating pipe, the output end of the heat storage circulating pump is connected with the input end of the heat collecting pipe through a circulating pipe, the output end of the heat collecting pipe is connected with the hot water input end of the heat collecting water tank through a circulating pipe, the hot water output end of the heat collecting water tank is connected with a heat medium circulating pump through a circulating pipe, the output end of the heat medium circulating pump is connected with a lithium bromide absorption refrigerator through a circulating pipe, the output end of the lithium bromide absorption refrigerator is connected with the heat collecting water tank through a circulating pipe, and the circulating pipe between the heat collecting water tank and the heat storage circulating pump is provided with a filtering component, the filter component comprises a filter, a filter element, a primary filter layer, a first activated carbon fiber layer, a resin layer, a second activated carbon fiber layer and a fine filter layer.

Preferably, one side of lithium bromide absorption chiller is provided with intelligent remote control ware, intelligent remote control ware respectively with lithium bromide absorption chiller, heat accumulation circulating pump, heat medium circulating pump, solenoid valve electric connection, the inside of intelligent remote control ware is provided with heat accumulation circulating pump control module, heat medium circulating pump control module, solenoid valve control module and lithium bromide absorption chiller control module respectively.

Preferably, all be provided with the filter on the circulating pipe between heat collecting water tank and the heat accumulation circulating pump and on the circulating pipe between heat collecting water tank and the heat medium circulating pump, the inside of filter is provided with the filter core, and the inside bottom of filter core is provided with the primary filter layer, is provided with first activated carbon fiber layer on the primary filter layer, is provided with the resin layer on the first activated carbon fiber layer, is provided with second activated carbon fiber layer on the resin layer, is provided with meticulous filter layer on the second activated carbon fiber layer.

Preferably, a thermoelectric conversion assembly is arranged on a circulating pipe connected with the heat medium circulating pump and the lithium bromide absorption refrigerator, and the thermoelectric conversion assembly comprises a thermoelectric converter, a heat absorption substrate, a heat dissipation substrate, a thermoelectric conversion electronic element and an electromagnetic valve.

Preferably, a thermoelectric converter is arranged on one side of the lithium bromide absorption refrigerator, a circulating pipe between the heat medium circulating pump and the lithium bromide absorption refrigerator is connected with a hot water input end of the thermoelectric converter, a cold water input end of the thermoelectric converter is connected with the lithium bromide absorption refrigerator through the circulating pipe, and a hot water output end of the thermoelectric converter and a cold water output end of the thermoelectric converter are both connected with the heat collecting water tank through the circulating pipe.

Preferably, a heat absorption substrate is arranged on one side of the internal hot water input end of the electric converter, a heat dissipation substrate is arranged on one side of the internal cold water input end of the electric converter, thermoelectric conversion electronic elements are distributed between the heat absorption substrate and the heat dissipation substrate, and electromagnetic valves are arranged on the circulating pipe of the hot water input end of the thermoelectric converter and the circulating pipe of the cold water input end of the thermoelectric converter.

Compared with the prior art, the invention has the beneficial effects that: the invention is safe and reliable, and can conveniently and continuously output the lithium bromide absorption refrigerator by storing a large amount of solar heat storage through the heat collection water tank, thereby realizing continuous and reliable work and all-weather refrigeration requirements and overcoming the defect of unstable solar energy output; meanwhile, the heat storage circulating pump, the heating medium circulating pump, the lithium bromide absorption refrigerator and the electromagnetic valve are remotely controlled through the intelligent remote controller, so that the intelligent heat storage circulating pump, the heating medium circulating pump, the lithium bromide absorption refrigerator and the electromagnetic valve are more convenient and intelligent and are convenient to work; the water quality is filtered layer by layer through the matching of the primary filtering layer, the first activated carbon fiber layer, the resin layer, the second activated carbon fiber layer and the fine filtering layer in the filtering component, the requirement of the lithium bromide absorption refrigerator on the water quality is met, and meanwhile, the service lives of the solar heat collecting pipe and the lithium bromide absorption refrigerator are prolonged; the groove type solar heat collection structure is formed by matching the rack, the connecting plate, the motor, the threaded rod, the heat collection pipe, the tooth socket and the reflector in the solar heat collection assembly, so that continuous heat storage is facilitated; through the cooperation of thermoelectric converter, endothermic base plate, heat dissipation base plate, thermoelectric conversion electronic component and solenoid valve in the thermoelectric conversion subassembly, form thermoelectric conversion structure, when the hot water that the heat medium circulating pump provided is more, accessible intelligent remote control ware flows into thermoelectric converter with unnecessary hot water from the circulating pipe of branch road in, realizes thermoelectric conversion.

Drawings

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic perspective view of a solar energy collection assembly according to the present invention;

FIG. 3 is a schematic front view of the filter of the present invention;

FIG. 4 is a partially cut-away front view of the filter of the present invention;

FIG. 5 is a perspective view of a thermoelectric conversion module according to the present invention;

FIG. 6 is a block diagram of the system of the present invention;

FIG. 7 is a system flow diagram of the present invention;

in the figure: 1. a heat collecting water tank; 2. a solar energy collection assembly; 3. a lithium bromide absorption refrigerator; 4. a heat storage circulation pump; 5. a heat medium circulating pump; 6. an intelligent remote controller; 7. a filter assembly; 8. a thermoelectric conversion assembly; 9. a thermal storage circulation pump control module; 10. a heating medium circulating pump control module; 11. a solenoid valve control module; 12. a lithium bromide absorption type refrigerator control module; 21. a base; 22. a rack; 23. a connecting plate; 24. a motor; 25. a threaded rod; 26. a first mounting bracket; 27. a second mounting bracket; 28. a heat collecting pipe; 29. a tooth socket; 210. a mirror; 71. a filter; 72. a filter element; 73. a primary filter layer; 74. a first activated carbon fiber layer; 75. a resin layer; 76. a second activated carbon fiber layer; 77. a fine filter layer; 81. a thermoelectric converter; 82. a heat absorbing substrate; 83. a heat-dissipating substrate; 84. a thermoelectric conversion electronic element; 85. an electromagnetic valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an embodiment of the present invention is shown: a solar remote control absorption refrigeration system comprises a heat collection water tank 1, a solar heat collection assembly 2, a lithium bromide absorption refrigerator 3, a heat storage circulating pump 4, a heat medium circulating pump 5, an intelligent remote controller 6, a filtering assembly 7, a thermoelectric conversion assembly 8, a heat storage circulating pump control module 9, a heat medium circulating pump control module 10, an electromagnetic valve control module 11 and a lithium bromide absorption refrigerator control module 12, wherein the solar heat collection assembly 2 is arranged on one side of the heat collection water tank 1, the solar heat collection assembly 2 comprises a base 21, a rack 22, a connecting plate 23, a motor 24, a threaded rod 25, a first mounting rack 26, a second mounting rack 27, a heat collection pipe 28, a tooth socket 29 and a reflector 210, the rack 22 is symmetrically and slidably connected on the base 21, the motor 24 is arranged on the base 21, the output end of the motor 24 is fixedly connected with the threaded rod 25, and the connecting plate 23 is in threaded connection with the threaded rod 25, two ends of the connecting plate 23 are fixedly connected with the rack 22, the base 21 is symmetrically provided with first mounting frames 26, the first mounting frames 26 are rotatably connected with second mounting frames 27, the second mounting frames 27 are provided with heat collecting pipes 28, the second mounting frames 27 are symmetrically provided with tooth sockets 29, the rack 22 is meshed with the tooth sockets 29, the second mounting frames 27 are provided with reflectors 210, the cold water outlet end of the heat collecting water tank 1 is connected with a heat storage circulating pump 4 through a circulating pipe, the output end of the heat storage circulating pump 4 is connected with the input end of the heat collecting pipe 28 through a circulating pipe, the output end of the heat collecting pipe 28 is connected with the hot water input end of the heat collecting water tank 1 through a circulating pipe, the hot water output end of the heat collecting water tank 1 is connected with a heat medium circulating pump 5 through a circulating pipe, the output end of the heat medium circulating pump 5 is connected with a lithium bromide absorption refrigerator 3 through a circulating pipe, and the output end of the lithium bromide absorption refrigerator 3 is connected with the heat collecting water tank 1 through a circulating pipe, a filter assembly 7 is arranged on a circulating pipe between the heat collecting water tank 1 and the heat storage circulating pump 4 and a circulating pipe between the heat collecting water tank 1 and the heat medium circulating pump 5, and the filter assembly 7 comprises a filter 71, a filter element 72, a primary filter layer 73, a first activated carbon fiber layer 74, a resin layer 75, a second activated carbon fiber layer 76 and a fine filter layer 77; an intelligent remote controller 6 is arranged on one side of the lithium bromide absorption refrigerator 3, the intelligent remote controller 6 is respectively and electrically connected with the lithium bromide absorption refrigerator 3, the heat storage circulating pump 4, the heat medium circulating pump 5 and the electromagnetic valve 85, and a heat storage circulating pump control module 9, a heat medium circulating pump control module 10, an electromagnetic valve control module 11 and a lithium bromide absorption refrigerator control module 12 are respectively arranged in the intelligent remote controller 6; a filter 71 is arranged on a circulating pipe between the heat collecting water tank 1 and the heat storage circulating pump 4 and a circulating pipe between the heat collecting water tank 1 and the heat medium circulating pump 5, a filter element 72 is arranged inside the filter 71, a primary filtering layer 73 is arranged at the bottom end inside the filter element 72, a first activated carbon fiber layer 74 is arranged on the primary filtering layer 73, a resin layer 75 is arranged on the first activated carbon fiber layer 74, a second activated carbon fiber layer 76 is arranged on the resin layer 75, and a fine filtering layer 77 is arranged on the second activated carbon fiber layer 76; a thermoelectric conversion component 8 is arranged on a circulating pipe connecting the heat medium circulating pump 5 and the lithium bromide absorption refrigerator 3, and the thermoelectric conversion component 8 comprises a thermoelectric converter 81, a heat absorption substrate 82, a heat dissipation substrate 83, a thermoelectric conversion electronic element 84 and an electromagnetic valve 85; a thermoelectric converter 81 is arranged on one side of the lithium bromide absorption refrigerator 3, a circulating pipe between the heat medium circulating pump 5 and the lithium bromide absorption refrigerator 3 is connected with a hot water input end of the thermoelectric converter 81, a cold water input end of the thermoelectric converter 81 is connected with the lithium bromide absorption refrigerator 3 through the circulating pipe, and a hot water output end of the thermoelectric converter 81 and a cold water output end of the thermoelectric converter 81 are both connected with the heat collecting water tank 1 through the circulating pipe; a heat absorbing substrate 82 is disposed on one side of an internal hot water input end of the thermoelectric converter 81, a heat dissipating substrate 83 is disposed on one side of an internal cold water input end of the thermoelectric converter 81, thermoelectric conversion electronic components 84 are distributed between the heat absorbing substrate 82 and the heat dissipating substrate 83, and electromagnetic valves 85 are disposed on a circulation pipe of a hot water input end of the thermoelectric converter 81 and a circulation pipe of a cold water input end of the thermoelectric converter 81.

The working principle is as follows: when the solar remote control absorption refrigeration system is used, firstly, the heat storage circulating pump 4 is started, cold water in the heat collection water tank 1 is filtered layer by layer through the primary filter layer 73, the first activated carbon fiber layer 74, the resin layer 75, the second activated carbon fiber layer 76 and the fine filter layer 77 in the filter 71 and then is led into the heat collection pipe 28, cold water in the heat collection pipe 28 is heated under the action of sunlight, meanwhile, the motor 24 is started according to the position of the sun to drive the connecting plate 23 on the threaded rod 25 to move and further drive the rack 22 to move, the reflector 210 on the second mounting rack 27 is driven to rotate under the coordination of the tooth grooves 29, the sunlight can continuously irradiate the heat collection pipe 28 after being refracted by the reflector 210, and hot water is led into a water storage area of the heat collection water tank 1 through the circulating pipe after the cold water in the heat collection pipe 28 is heated, meanwhile, cold water is led into the heat collecting pipe 28 again through the heat storage circulating pump 4, when enough hot water is stored in the heat collecting water tank 1, the heat medium circulating pump 5 is started, and the hot water is led into the lithium bromide absorption refrigerator 3 for refrigeration, so that the aim of continuous refrigeration is fulfilled; when hot water is too much or continuous refrigeration is not needed, the electromagnetic valve 85 is opened through the intelligent remote controller 6, the thermoelectric converter 81 is started, the hot water flows through the heat absorption substrate 82, and the cooled cold water in the lithium bromide absorption refrigerator 3 flows through the heat dissipation substrate 83, so that a large temperature difference is formed inside the thermoelectric converter 81, and the purpose of thermoelectric conversion is achieved. When the solar remote control absorption refrigeration system is used, the system can be accurately and intelligently controlled through the heat storage circulating pump control module 9, the heating medium circulating pump control module 10, the electromagnetic valve control module 11 and the lithium bromide absorption refrigeration machine control module 12 in the intelligent remote controller 6, and the system is convenient to work.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a solar energy remote control absorption refrigeration system, includes thermal-arrest water tank (1), solar energy collection subassembly (2), lithium bromide absorption refrigerator (3), heat accumulation circulating pump (4), heat medium circulating pump (5), intelligent remote control ware (6), filter assembly (7), thermoelectric conversion subassembly (8), heat accumulation circulating pump control module (9), heat medium circulating pump control module (10), solenoid valve control module (11) and lithium bromide absorption refrigerator control module (12), its characterized in that: one side of the heat collecting water tank (1) is provided with a solar heat collecting component (2), the solar heat collecting component (2) comprises a base (21), a rack (22), a connecting plate (23), a motor (24), a threaded rod (25), a first mounting frame (26), a second mounting frame (27), heat collecting pipes (28), tooth grooves (29) and a reflector (210), the rack (22) is symmetrically and slidably connected onto the base (21), the motor (24) is arranged on the base (21), the threaded rod (25) is fixedly connected onto the output end of the motor (24), the connecting plate (23) is in threaded connection onto the threaded rod (25), two ends of the connecting plate (23) are fixedly connected with the rack (22), the first mounting frame (26) is symmetrically arranged on the base (21), the second mounting frame (27) is rotatably connected onto the first mounting frame (26), the heat collecting pipes (28) are arranged on the second mounting frame (27), tooth's socket (29) have been seted up to the symmetry on second mounting bracket (27), and rack (22) are connected with tooth's socket (29) meshing, be provided with speculum (210) on second mounting bracket (27), the cold water play water end of thermal-arrest water tank (1) is connected with heat accumulation circulating pump (4) through the circulating pipe, the output of heat accumulation circulating pump (4) is connected with the input of thermal-arrest pipe (28) through the circulating pipe, the output of thermal-arrest pipe (28) is connected with the hot water input of thermal-arrest water tank (1) through the circulating pipe, the hot water output of thermal-arrest water tank (1) is connected with heat medium circulating pump (5) through the circulating pipe, the output of heat medium circulating pump (5) is connected with lithium bromide absorption formula refrigerator (3) through the circulating pipe, and the output of lithium bromide absorption formula refrigerator (3) is connected with thermal-arrest water tank (1) through the circulating pipe, on the circulating pipe between thermal-arrest water tank (1) and thermal-arrest circulating pump (4) and the circulating pump (1) and the circulation circulating pump (5) between circulation tank (5) circulation All be provided with filtering component (7) on the ring pipe, filtering component (7) include filter (71), filter core (72), first filter layer (73), first activated carbon fiber layer (74), resin layer (75), second activated carbon fiber layer (76) and meticulous filter layer (77).

2. The solar remote control absorption refrigeration system according to claim 1 wherein: one side of lithium bromide absorption chiller (3) is provided with intelligent remote control ware (6), intelligent remote control ware (6) respectively with lithium bromide absorption chiller (3), heat accumulation circulating pump (4), heat medium circulating pump (5), solenoid valve (85) electric connection, the inside of intelligent remote control ware (6) is provided with heat accumulation circulating pump control module (9), heat medium circulating pump control module (10), solenoid valve control module (11) and lithium bromide absorption chiller control module (12) respectively.

3. The solar remote control absorption refrigeration system according to claim 1 wherein: the solar heat collecting device is characterized in that a filter (71) is arranged on a circulating pipe between the heat collecting water tank (1) and the heat storage circulating pump (4) and a circulating pipe between the heat collecting water tank (1) and the heat medium circulating pump (5), a filter element (72) is arranged inside the filter (71), a primary filtering layer (73) is arranged at the bottom end inside the filter element (72), a first activated carbon fiber layer (74) is arranged on the primary filtering layer (73), a resin layer (75) is arranged on the first activated carbon fiber layer (74), a second activated carbon fiber layer (76) is arranged on the resin layer (75), and a fine filtering layer (77) is arranged on the second activated carbon fiber layer (76).

4. The solar remote control absorption refrigeration system according to claim 1 wherein: a thermoelectric conversion assembly (8) is arranged on a circulating pipe connected with the heat medium circulating pump (5) and the lithium bromide absorption refrigerator (3), and the thermoelectric conversion assembly (8) comprises a thermoelectric converter (81), a heat absorption substrate (82), a heat dissipation substrate (83), a thermoelectric conversion electronic element (84) and an electromagnetic valve (85).

5. The solar remote control absorption refrigeration system according to claim 4 wherein: one side of the lithium bromide absorption refrigerator (3) is provided with a thermoelectric converter (81), a circulating pipe between the heat medium circulating pump (5) and the lithium bromide absorption refrigerator (3) is connected with a hot water input end of the thermoelectric converter (81), a cold water input end of the thermoelectric converter (81) is connected with the lithium bromide absorption refrigerator (3) through the circulating pipe, and a hot water output end of the thermoelectric converter (81) and a cold water output end of the thermoelectric converter (81) are connected with the heat collection water tank (1) through the circulating pipe.

6. The solar remote control absorption refrigeration system according to claim 4 wherein: an endothermic substrate (82) is arranged on one side of an internal hot water input end of the thermoelectric converter (81), a radiating substrate (83) is arranged on one side of an internal cold water input end of the thermoelectric converter (81), thermoelectric conversion electronic elements (84) are distributed between the endothermic substrate (82) and the radiating substrate (83), and electromagnetic valves (85) are arranged on a circulating pipe of the hot water input end of the thermoelectric converter (81) and a circulating pipe of the cold water input end of the thermoelectric converter (81).