CN218065204U - Bus station temperature regulation system - Google Patents

Abstract

The utility model provides a bus station temperature regulation system, including bus shelter, energy supply subassembly and temperature regulation subassembly, the temperature regulation subassembly includes semiconductor refrigeration piece, heating circulation circuit, refrigeration circulation circuit, heat storage water tank, cold water storage tank, cascade, heat dissipation water row, first water pump and second water pump, semiconductor refrigeration piece, first water pump, heat storage water tank and heat dissipation water row set gradually on heating circulation circuit, semiconductor refrigeration piece, second water pump, cold water storage tank and cascade set gradually on cooling circulation circuit; the energy supply assembly comprises a solar panel and a storage battery pack, the solar panel is fixed at the top of the waiting hall, and the solar panel, the storage battery pack and the semiconductor refrigerating sheet are sequentially electrically connected. The utility model discloses a semiconductor refrigeration piece can enough heat and can refrigerated characteristics again, makes this temperature regulation system can enough heat and also can refrigerate, and then can increase or reduce the temperature of bus station surrounding environment, provides comfortable environment of waiting for the passenger.

Description

Bus station temperature regulation system

Technical Field

The utility model relates to a heat supply cooling technical field, concretely relates to bus station temperature regulation system.

Background

The bus station sets up in the open air, and the weather in the north is hot summer, and is cold winter, consequently, some bus stations can set up temperature regulation equipment at present, for the passenger provides comfortable environment of waiting, but most bus stations only set up the single device that reduces or singly rise ambient temperature, and the equipment that can reduce the bus station temperature in summer, can increase the bus station temperature in winter is again set up to the few. For example, the utility model granted by the announcement on the 09/22/2017 year is a bus waiting station ZL201720073215.5, which cools the temperature in the range of the bus station through water circulation, but it only provides a cooling system, but does not provide a system for increasing the temperature around the bus station in winter.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bus station temperature regulation system can enough heat and can refrigerated characteristics through the semiconductor refrigeration piece, makes this temperature regulation system can enough heat also can refrigerate, and then can increase or reduce the temperature of bus station surrounding environment, provides comfortable environment of waiting for the passenger.

The technical scheme of the utility model as follows:

the utility model provides a bus station temperature regulation system, includes bus shelter, energy supply subassembly and temperature regulation subassembly, the temperature regulation subassembly includes semiconductor refrigeration piece, heating circulation circuit, refrigeration circulation circuit, heat storage water tank, cold storage water tank, cascade, heat dissipation water row, first water pump and second water pump, wherein, semiconductor refrigeration piece, first water pump, heat storage water tank and heat dissipation water row set gradually on the heating circulation circuit, semiconductor refrigeration piece, second water pump, cold storage water tank and cascade set gradually on the refrigeration circulation circuit; the energy supply subassembly includes solar panel and storage battery, solar panel fixes the top in the waiting room, solar panel, storage battery and semiconductor refrigeration piece electricity in proper order are connected.

Preferably, heat storage water tank and cold storage water tank and storage battery all bury in the underground to be favorable to reducing this temperature regulation system's area, and set up and to have better heat preservation effect in underground heat storage water tank and cold storage water tank.

Preferably, the bus shelter is trilateral type structure to every face all is provided with one the cascade is through increasing the quantity of cascade, from the temperature that does benefit to further reduction bus station surrounding environment, provides more comfortable environment of waiting for the passenger.

Furtherly, the cascade includes distributive pipe, riser and header tank, the distributive pipe is fixed the riser top, the header tank is fixed the riser bottom, cold water warp in the refrigeration cycle return the distributive pipe riser of flowing through, and form the water film on the riser, warp again the header tank returns in the refrigeration cycle return, through setting up the riser, make rivers form the water film on the riser, be favorable to increasing heat transfer area, the hot-air around cooling and the humidification to realize the effect of cooling.

Furthermore, the vertical plates are wavy in longitudinal section, so that the heat exchange area of the water film is further increased.

Further, the below of cascade is fixed with air supply arrangement, air supply arrangement includes the fan and fixes blast pipe on the fan air outlet, the blast pipe sets up the below of header tank, and exhaust vent on the blast pipe up, hot-air is discharged after certain height through the blast pipe after the cascade cooling humidification to provide a comparatively comfortable environment of waiting for the passenger.

According to the utility model provides a bus station temperature regulation system can enough heat and can refrigerated characteristics through the semiconductor refrigeration piece, makes this temperature regulation system can enough heat and also can refrigerate, and then can increase or reduce the temperature of bus station surrounding environment, provides comfortable environment of waiting for the passenger. In addition, electric energy is generated through the solar panel, and then the storage battery pack stores the electric energy to be used by power consumption equipment such as semiconductor refrigeration sheets, so that municipal power supply is not needed, and the cost is low.

It should be understood that what is described in this summary section is not intended to limit key or critical features of embodiments of the invention, nor is it intended to limit the scope of the invention. Other features of the present invention will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present invention will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

fig. 1 shows a schematic structural diagram of a bus station temperature adjustment system provided by an embodiment of the present invention.

Wherein, the corresponding relation between the reference numbers and the component names in fig. 1 is as follows:

the solar energy vehicle comprises a semiconductor refrigerating sheet 1, a heat storage water tank 2, a cold storage water tank 3, a heat dissipation water discharge device 4, a bus shelter 5, a heating circulation loop 6, a refrigerating circulation loop 7, a first water pump 8, a second water pump 9, an air supply pipe 10, a solar panel 11, a storage battery pack 12, a water division pipe 13, a vertical plate 14, a water collecting tank 15 and a fan 16.

Detailed Description

Other objects and advantages of the present invention will become apparent from the following explanation of the embodiments of the present application.

Referring to fig. 1, an embodiment of the present invention provides a bus station temperature regulation system, which is characterized in that, the system includes a bus shelter 5, an energy supply component and a temperature regulation component, the temperature regulation component includes a semiconductor refrigeration sheet 1, a heating circulation loop 6, a refrigeration circulation loop 7, a heat storage water tank 2, a cold storage water tank 3, a water curtain, a heat dissipation water discharge 4, a first water pump 8 and a second water pump 9, wherein the semiconductor refrigeration sheet 1, the first water pump 8, the heat storage water tank 2 and the heat dissipation water discharge 4 are sequentially arranged on the heating circulation loop 6, and the semiconductor refrigeration sheet 1, the second water pump 9, the cold storage water tank 3 and the water curtain are sequentially arranged on the refrigeration circulation loop 7; the energy supply subassembly includes solar panel 11 and storage battery 12, and solar panel 11 is fixed at the top of waiting the bus or train hall, and solar panel 11, storage battery 12 and semiconductor refrigeration piece 1 are connected in proper order electrically.

Further, the below of cascade is fixed with air supply arrangement, and air supply arrangement includes fan 16 and fixes blast pipe 10 on the 16 air outlets of fan, and blast pipe 10 sets up in the below of header tank 15 to the exhaust vent on blast pipe 10 faces up, and the hot-air is discharged after transporting certain height through blast pipe 10 after the cascade cooling humidification, thereby provides a comparatively comfortable environment of waiting for the passenger. Of course, it is also possible to provide the fan 16 on the side where the heat radiation is horizontal, so as to supply warm air from the rear panel.

According to the temperature adjusting system, water forms a water curtain for spraying in the refrigerating process, and then heat and humidity exchange is carried out between the water curtain and air to blow out cold air; in the heating process, hot water flows in the radiating water discharge 4 to radiate heat, the radiating water discharge 4 can be a radiator, and hot air is blown out by the fan 16.

As a preferred embodiment, in order to effectively reduce this application embodiment temperature regulation system's area, heat storage water tank 2 and cold storage water tank 3 and storage battery 12 all bury in the underground, still are favorable to the heat preservation effect that can heat storage water tank 2 and cold storage water tank 3 through above setting up to avoid heat storage water tank 2 and cold storage water tank 3 heat to run off. The heat storage water tank 2 and the cold storage water tank 3 may be provided with a water replenishment port and a water discharge port to replenish or replace water in the heat storage water tank 2 and the cold storage water tank 3.

It should be noted that, in this embodiment, a support framework may be added outside the hot water storage tank 2 and the cold water storage tank 3, so that the hot water storage tank 2 and the cold water storage tank 3 have higher stability. In addition, the semiconductor cooling plate 1 may be disposed underground, and in order to avoid electric leakage, waterproof treatment should be performed on the battery pack 12, the semiconductor cooling plate 1, the electric wire, and other live devices in the present temperature regulation assembly.

Further, in order to further reduce the temperature of the environment around the bus shelter 5, the number of water curtains may be increased appropriately, for example, the bus shelter 5 may be provided in a three-sided structure, and one water curtain may be provided on each side, so that a more comfortable waiting environment can be provided to passengers.

Since the panel of the bus shelter 5 is generally hollow, the water curtain and the radiating water 4 can be suspended in the panel of the bus shelter 5, and a plurality of radiating holes can be provided in the top area and the bottom area of the panel.

Specifically, the cascade includes distributive pipe 13, riser 14 and header tank 15, distributive pipe 13 is fixed at riser 14 top, header tank 15 is fixed in riser 14 bottom, cold water in refrigeration cycle circuit 7 flows through riser 14 through distributive pipe 13 to form the water film on riser 14, again through header tank 15 return to in refrigeration cycle circuit 7, through setting up riser 14, make rivers form the water film on riser 14, be favorable to increasing heat transfer area, the hot-air around cooling and the humidification, thereby realize the effect of cooling.

As a preferred embodiment, the vertical plates 14 have a wave-shaped longitudinal section, and the wave-shaped vertical plates 14 are favorable for further increasing the heat exchange area of the water film. In addition, the heat exchange area of the water film can be increased by arranging a plurality of bulges on the vertical plates 14, the longitudinal sections of the bulges can be triangular, and the adjacent bulges can be distributed in a mutually staggered manner.

In addition, it should be noted that the heat dissipation cycle and the refrigeration cycle of the temperature regulation system of the present application are as follows:

heat dissipation circulation: by utilizing the first water pump 8, water flows through the hot end of the semiconductor refrigerating sheet 1 from the heat storage water tank 2, heat exchange is carried out on the hot end of the semiconductor refrigerating sheet 1, the water temperature is raised, then the water flows through the heat dissipation water discharge 4, the water temperature is lowered, and finally the water flows back to the heat storage water tank 2, so that the heat dissipation process is completed.

Refrigeration cycle: the water in the cold water tank is pumped to the cold end of the semiconductor refrigeration sheet 1 by the second water pump 9 for refrigeration, and then is conveyed to the water diversion pipe 13 of the water curtain, the cold water flows down along the corrugated surface of the panel to form a water film, the air passing through the cooling and humidifying processes is cooled and humidified, the hot air is cooled and humidified by the water curtain, then is discharged after being conveyed to a certain height through the air supply pipe 10 at the top of the base, and the water which is not evaporated flows into the cold water storage tank 3 through the water collection tank 15 at the bottom of the water curtain, so that the refrigeration cycle is completed.

Based on the structure, the semiconductor refrigerating sheet 1 can both heat and refrigerate, so that the temperature adjusting system can heat and refrigerate, the temperature of the surrounding environment of a bus station can be increased or reduced, and a comfortable waiting environment is provided for passengers. In addition, the solar panel 11 generates electric energy, and the storage battery 12 stores the electric energy so as to be used by power consumption equipment such as the semiconductor refrigeration sheet 1, so that municipal power supply is not needed, and the cost is low.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims. It will be understood that the present application is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (6)

1. The utility model provides a bus station temperature regulation system, its characterized in that, includes bus shelter (5), energy supply subassembly and temperature regulation subassembly, the temperature regulation subassembly includes semiconductor refrigeration piece, heating circulation circuit (6), refrigeration circulation circuit (7), heat storage water tank (2), cold storage water tank (3), cascade, heat dissipation water row (4), first water pump (8) and second water pump (9), wherein, semiconductor refrigeration piece (1), first water pump (8), heat storage water tank (2) and heat dissipation water row (4) set gradually on heating circulation circuit (6), semiconductor refrigeration piece, second water pump (9), cold storage water tank (3) and cascade set gradually on refrigeration circulation circuit (7);

the energy supply subassembly includes solar panel (11) and storage battery (12), solar panel (11) are fixed the top of bus shelter, solar panel (11), storage battery (12) and semiconductor refrigeration piece electricity in proper order are connected.

2. Bus station temperature regulation system according to claim 1, characterized in that the hot and cold water storage tanks (2, 3) and the battery pack (12) are buried underground.

3. Bus station temperature conditioning system according to claim 1, characterized in that the bus shelter (5) is of three-sided structure and is provided with one said water curtain per side.

4. The bus station temperature regulating system according to claim 3, characterized in that the water curtain comprises a water diversion pipe (13), a vertical plate (14), and a water collection tank (15), the water diversion pipe (13) is fixed on top of the vertical plate (14), the water collection tank (15) is fixed on bottom of the vertical plate (14), and cold water in the refrigeration cycle loop (7) flows through the vertical plate (14) via the water diversion pipe (13) and forms a water film on the vertical plate (14) and then returns into the refrigeration cycle loop (7) via the water collection tank (15).

5. Bus station temperature regulating system according to claim 4, characterized in that the riser (14) is wave-shaped in longitudinal section.

6. The bus station temperature regulating system according to claim 4, wherein an air supply device is fixed below the water curtain, the air supply device comprises a fan (16) and an air supply pipe (10) fixed on an air outlet of the fan (16), the air supply pipe (10) is arranged below the water collection tank (15), and an air outlet hole on the air supply pipe (10) faces upwards.

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