CN114261663A - Garbage transfer station - Google Patents

Abstract

The invention provides a garbage transfer station, which comprises: steel basis, bottom plate, side fascia, baffle, refrigeration plant, clean system and roof. The bottom plate is laid on the steel foundation, the external wall plate and the bottom plate are arranged in a surrounding mode to form an indoor space with the bottom plate, the partition plate is used for separating the indoor space into a cold storage area, a normal temperature area and an equipment area, the cold storage area is communicated with the normal temperature area, the normal temperature area is provided with a first access and exit communicated with the external space of the garbage transfer station, the refrigeration equipment is used for outputting cold air to the cold storage area, the purification system is used for extracting air of the cold storage area and the normal temperature area and purifying and discharging the air, and the top plate covers the external wall plate and the partition plate to cover the indoor space. Through setting up refrigeration plant in order to export cold air to the cold-storage district, can store rubbish through the cold-storage of cold-storage district to slow down the fermentation speed of wet rubbish, reduce the foul smell that wet rubbish fermentation produced, can reduce rubbish transfer station to the foul smell of discharging in the surrounding environment, thereby reduce the influence of rubbish transfer station to all ring edge borders.

Description

Garbage transfer station

Technical Field

The invention relates to the technical field of buildings, in particular to a garbage transfer station.

Background

The existing garbage transfer station is mostly arranged near a residential area to collect and store garbage in the nearby residential area so as to convey garbage trucks to a garbage disposal site in a unified way. It can be understood that the household garbage of residents includes a large amount of wet garbage, and the wet garbage is rich in organic matter components and water, is easy to ferment and generates odor, and has a large influence on the surrounding environment. However, the existing garbage transfer station is only used for storing various types of garbage, that is, only used for stacking and storing wet garbage and other garbage together, and cannot alleviate the problem that odor generated by the wet garbage is emitted to the surrounding environment of the garbage transfer station, which seriously affects the air quality of residents around the garbage transfer station.

Disclosure of Invention

The embodiment of the invention discloses a garbage transfer station, which has the advantages of little odor discharged to the outside of the garbage transfer station, little influence on the surrounding environment of the garbage transfer station and suitability for being arranged near a residential area.

In order to achieve the above object, the present invention discloses a garbage transfer station, comprising:

a steel foundation;

the bottom plate is arranged on the steel foundation;

the outer wall panel and the bottom panel are arranged in an enclosing manner to form an indoor space with the bottom panel;

the partition plate is arranged on the bottom plate and located in the indoor space, and is used for dividing the indoor space into a cold storage area, a normal temperature area and an equipment area, wherein the cold storage area is communicated with the normal temperature area, the normal temperature area is provided with a first inlet and a first outlet which are communicated with the external space of the garbage transfer station, and garbage is transferred to the cold storage area for refrigeration through the normal temperature area;

the refrigeration equipment is at least partially arranged in the equipment area and is used for outputting cold air to the refrigeration area;

the purification system comprises an exhaust pipeline and purification equipment, the exhaust pipeline is connected with the refrigerating area, the normal temperature area and the purification equipment, and the purification equipment is used for pumping out air in the refrigerating area and the normal temperature area through the exhaust pipeline, purifying and discharging the air; and the number of the first and second groups,

and the top plate covers the outer wall plate and the partition plate to cover the indoor space.

As an optional implementation manner, in an embodiment of the present invention, a second inlet and outlet is disposed on the partition plate connected between the normal temperature region and the cold storage region, the garbage transfer station further includes an air curtain machine, the air curtain machine is disposed on the partition plate and located above the second inlet and outlet, and the air curtain machine is used for discharging air to form an air curtain at the second inlet and outlet; and/or the presence of a gas in the gas,

the garbage transfer station further comprises a partition door, the partition door is arranged on the partition plate, and the partition door is used for sealing the second access.

As an optional implementation manner, in an embodiment of the present invention, the normal temperature zone includes a transfer zone and a cleaning zone, the transfer zone has the first inlet and outlet, the transfer zone is communicated with the cold storage zone, the transfer zone is used for transferring garbage, and the cleaning zone is communicated with the transfer zone through a third inlet and outlet;

the garbage transfer station further comprises a water supply system and a drainage system, wherein the water supply system is arranged in the clean area, the drainage system is arranged in the cold storage area, the transfer area and the clean area, and the drainage system is used for discharging sewage.

As an optional implementation manner, in an embodiment of the present invention, the bottom plate includes a first bottom plate and a second bottom plate that are separately arranged, the external wall plate includes a first external wall plate and a second external wall plate that are separately arranged, the partition plate includes a first partition plate and a second partition plate that are separately arranged, and the top plate includes a first top plate and a second top plate that are separately arranged;

the first external wall panel and the first partition plate are arranged on the first bottom panel, the first top panel is covered on the first external wall panel and the first partition plate, and the cold storage area and the equipment area are formed among the first bottom panel, the first external wall panel, the first partition plate and the first top panel;

the second outer wallboard and the second partition plate are arranged on the second bottom plate, the second top plate is covered on the second outer wallboard and the second partition plate, the constant temperature zone is formed among the second bottom plate, the second outer wallboard, the second partition plate and the second top plate, and the first inlet and the first outlet are formed between the second outer wallboard and the second partition plate;

the second baffle connect in first baffle, first baffle with the second baffle be provided with communicate in the cold-storage area with the second access & exit of normal warm district.

As an alternative implementation manner, in the embodiment of the present invention, the second top board is higher than the first top board, and the second top board partially extends to be located above the first top board to shield a connection position of the second partition board and the first partition board.

As an optional implementation manner, in an embodiment of the present invention, the garbage transfer station further includes an access passage, the access passage includes a loading portion and a ground connection portion, the loading portion is disposed on the steel foundation and is connected to the first access opening, the loading portion is used for loading garbage onto a garbage truck, and the ground connection portion is connected between the loading portion and the ground.

As an optional implementation manner, in an embodiment of the present invention, the purification apparatus includes an exhaust fan and an air purification device, an air exhaust end of the exhaust fan is connected to the exhaust duct, an air exhaust end of the exhaust fan is connected to the air purification device, and the air purification device is configured to receive air exhausted from the air exhaust end of the exhaust fan, purify the air, and exhaust the air into the apparatus area.

As an optional implementation manner, in an embodiment of the present invention, the garbage transfer station further includes a sterilization system, the sterilization system is disposed on the partition plate and/or the top plate in the cold storage area and the normal temperature area, and the sterilization system is configured to perform sterilization on the cold storage area and the normal temperature area.

As an alternative implementation, in the embodiment of the present invention, the steel foundation includes a plurality of i-beams, and the i-beams are placed on the ground corresponding to the edges of the bottom plate.

As an alternative implementation manner, in the embodiment of the present invention, the bottom plate is detachably connected to the steel foundation, the external wall panel and the partition plate are detachably connected to the bottom plate, and the top plate is detachably connected to the external wall panel and the partition plate.

Compared with the prior art, the invention has the beneficial effects that:

according to the garbage transfer station provided by the embodiment of the invention, the indoor space of the garbage transfer station is divided into the cold storage area, the normal temperature area and the equipment area by arranging the partition plate, and the refrigeration equipment is arranged to output cold air to the cold storage area, so that garbage can be stored in the cold storage area in a refrigerating way, the fermentation speed of wet garbage is slowed down, odor generated by fermentation of the wet garbage is reduced, the influence of the garbage transfer station on the surrounding environment is reduced, and the garbage transfer station can be suitable for being arranged nearby the residential area. Furthermore, the purification system is arranged for extracting the air in the cold storage area and the normal temperature area and purifying and discharging the air, so that the odor discharged from the garbage transfer station to the surrounding environment can be further reduced, and the influence of the garbage transfer station on the surrounding environment can be further reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a structure of a waste transfer station disclosed in an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

FIG. 3 is a building plan view of a refuse transfer station as disclosed in an embodiment of the present application;

fig. 4 is a first plan view of a trash transfer station (with the top plate omitted) disclosed in the embodiments of the present application;

fig. 5 is a perspective view of another structure of the waste transfer station disclosed in the embodiment of the present application;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5;

fig. 7 is a second plan view of the trash transfer station (omitting the top plate) disclosed in the embodiment of the present application;

fig. 8 is a third plan view of the trash transfer station (omitting the top plate) disclosed in the embodiment of the present application;

fig. 9 is a fourth plan view of the trash transfer station (omitting the top plate) disclosed in the embodiment of the present application;

FIG. 10 is a structural cross-sectional view of a base plate disclosed in an embodiment of the present application;

fig. 11 is a structural sectional view of the external wall panel disclosed in the embodiment of the present application;

FIG. 12 is a structural cross-sectional view of a separator disclosed in an embodiment of the present application;

fig. 13 is a structural sectional view of a top plate disclosed in an embodiment of the present application.

Icon: 1. a garbage transfer station; 10. a steel foundation; 11. a base plate; 110. a first base plate; 111. a second base plate; 11a, a first steel plate; 11b, a heat preservation steel structure layer; 11c, a waterproof layer; 11d, a second steel plate; 11e, a floor tile layer; 12. an external wall panel; 120. a first exterior wall panel; 121. a second exterior wall panel; 12a, a Nichihua board; 12b, a waterproof breathable film; 12c, a heat preservation steel structure layer; 12d, cement fiber boards; 12e, a waterproof membrane layer; 12f, a decorative plate; 13. a partition plate; 130. a second inlet and outlet; 131. a first separator; 132. a second separator; 13a, a decorative plate; 13b, a waterproof membrane layer; 13c, cement fiberboard; 13d, a heat preservation steel structure layer; 13e, cement fiberboard; 13f, a waterproof membrane layer; 13e, a decorative plate; 14. a refrigeration device; 15. a purification system; 150. an exhaust duct; 151. a purification device; 16. a top plate; 160. a first top plate; 161. a second top plate; 16a, a keel; 16b, a heat preservation steel structure layer; 16c, cement fiberboard; 16d, waterproof and breathable films; 16e, sun gehua board; 16f, cement fiberboard; 16g, bamboo-wood fiber board; 17. an access channel; 170. a loading section; 171. a ground connection; 18. a sterilization system; 180. an ultraviolet germicidal lamp; 181. a sprayer; 2. an indoor space; 20. a cold storage area; 21. a normal temperature zone; 210. a first inlet and outlet; 211. a transport zone; 212. a cleaning zone; 213. a third entrance; 22. an equipment area; 220. a vent; 221. rain-proof shutter; 30. an air curtain machine; 31. a wagon balance; 32. a low emissivity glazing; 40. a water supply system; 41. and (4) a drainage system.

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.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "center", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Referring to fig. 1 to 3 together, fig. 1 is a schematic structural perspective view of a waste transfer station disclosed in an embodiment of the present application, fig. 2 is a sectional view taken along a direction a-a in fig. 1, fig. 3 is a plan view of a building of the waste transfer station disclosed in the embodiment of the present application, and the embodiment of the present application discloses a waste transfer station 1, including: a steel foundation 10, a bottom plate 11, an external wall panel 12, a partition 13, a refrigeration device 14, a purification system 15 and a top plate 16. The base plate 11 is laid on the steel foundation 10, the external wall plate 12 and the base plate 11 are arranged in a surrounding mode to form an indoor space 2 with the base plate 11, the partition plate 13 is arranged on the base plate 11 and located in the indoor space 2, the partition plate 13 is used for dividing the indoor space 2 into a cold storage area 20, a normal temperature area 21 and an equipment area 22, the cold storage area 20 is communicated with the normal temperature area 21, the normal temperature area 21 is provided with a first inlet and outlet 210 communicated with the external space of the garbage transfer station 1, and the garbage normal temperature area 21 is transferred to the cold storage area 20 for refrigeration. The refrigeration equipment 14 is at least partially arranged in the equipment area 22, the refrigeration equipment 14 is used for outputting cold air to the refrigeration area 20, the purification system 15 comprises an exhaust duct 150 and purification equipment 151, the exhaust duct 150 is connected with the refrigeration area 20, the normal temperature area 21 and the purification equipment 151, the purification equipment 151 is used for pumping the air in the refrigeration area 20 and the normal temperature area 21 through the exhaust duct 150, purifying and discharging the air, and the top plate 16 is covered on the external wall plate 12 and the partition plate 13 to cover the indoor space 2.

According to the garbage transfer station 1 provided by the embodiment of the invention, the partition plate 13 is arranged to divide the indoor space 2 of the garbage transfer station 1 into the cold storage area 20, the normal temperature area 21 and the facility area 22, and the refrigeration facility 14 is arranged to output cold air to the cold storage area 20, so that garbage can be refrigerated and stored in the cold storage area 20, the fermentation speed of wet garbage is reduced, odor generated by fermentation of the wet garbage is reduced, the influence of the garbage transfer station 1 on the surrounding environment is reduced, and the garbage transfer station 1 can be suitable for being arranged near the residential area.

Further, by providing the purification system 15 for extracting and purifying the air in the cold storage area 20 and the normal temperature area 21, the odor discharged from the refuse relay station 1 into the surrounding environment can be further reduced, thereby further reducing the influence of the refuse relay station 1 on the surrounding environment.

In addition, the cold storage area 20 is connected to the normal temperature area 21, and the normal temperature area 21 has the first inlet/outlet 210 connected to the outside of the waste transfer station 1, so that the cold storage area 20 is prevented from being directly connected to the outside of the waste transfer station 1, and the heat exchange efficiency between the cold storage area 20 and the outside of the waste transfer station 1 is reduced. It can be seen that, in the embodiment, by setting the constant temperature area 21, an indoor buffer area with slower air flow is formed between the cold storage area 20 and the outside of the garbage transfer station 1, so as to slow down the heat convection between the cold storage area 20 and the outside of the cold storage area 20, thereby slowing down the dissipation speed of the cold air in the cold storage area 20, reducing the energy consumption of the refrigeration equipment 14, and making the garbage transfer station 1 more energy-saving and environment-friendly.

As shown in fig. 2, in some embodiments, the garbage transfer station 1 may further include a sterilization system 18, and the sterilization system 18 may be disposed on the partition 13 and/or the ceiling 1 in the cold storage area 20 and the constant temperature area 21. Taking the example of the sterilization system 18 being disposed in the refrigerated area 20, the sterilization system 18 may be disposed on the partition 13 or the top panel 16 within the refrigerated area 20, or on both the partition 13 and the top panel 16. Thereby realize through disinfection degerming system 18 that the cold-storage district 20 that is used for cold-stored rubbish to and the normal warm district 21 that the in-process that rubbish was carried to cold-storage district 20 needs to pass through carries out the disinfection degerming, in other words, can disinfect and degerming the space that probably is polluted by rubbish through disinfection degerming system 18, thereby promote the clean degree of air of rubbish transfer station 1's inner space, cause the pollution to the surrounding environment when avoiding the air in rubbish transfer station 1 to let out to rubbish transfer station 1's outside.

Alternatively, the sterilization system 18 may include an ultraviolet germicidal lamp 180, so as to irradiate the microorganisms in the space in the cold storage area 20 and the normal temperature area 21 with ultraviolet light to destroy DNA (DeoxyriboNucleic Acid) structures of the microorganisms, so that the microorganisms lose reproduction and self-replication functions, thereby achieving the purpose of sterilization and disinfection, the ultraviolet germicidal lamp 180 has a wide sterilization range, and the sterilization process is colorless, odorless, free of chemical substance and small in influence on the environment.

Optionally, the sterilization system 18 may further include a sprayer 181, where the sprayer 181 is configured to spray a deodorant into the cold storage area 20 and the normal temperature area 21, where the deodorant is configured to react with the odor molecules and bacteria to destroy the structure of the odor molecules and bacteria, so as to achieve an effect of deodorization and sterilization, and reduce the odors in the cold storage area 20 and the normal temperature area 21 while making the environments in the cold storage area 20 and the normal temperature area 21 cleaner, thereby further reducing the influence on the surrounding environment when the air in the garbage transfer station 1 leaks out of the garbage transfer station 1.

It can be understood that the deodorant moves toward the bottom plate 11 by gravity after being sprayed by the sprayer 181, and therefore, the sprayer 181 can be positioned above the bottom plate 11 by disposing the sprayer 181 on the partition plate 13 or the top plate 16, so that the deodorant can be used to deodorize and sterilize a low space and deodorize and sterilize a higher space.

As shown in fig. 2 and 3, optionally, the purifying device 151 may include an exhaust fan (not numbered in the figure) and an air purifying device (not numbered in the figure), an air exhaust end of the exhaust fan is connected to the exhaust duct 150, an air exhaust end of the exhaust fan is connected to the air purifying device, the air purifying device is configured to receive air exhausted from the air purifying end of the exhaust fan, purify the air and exhaust the air into the device area 22, and by making the purifying device 151 include the exhaust fan and the air purifying device which are separately disposed, it is possible to facilitate to overhaul or disassemble and assemble devices which realize an air exhaust function and an air purifying function, respectively.

Alternatively, the refrigeration device 14 may include a compressor disposed in the device region 22 and an air outlet device, the compressor is configured to compress a gaseous refrigerant into a liquid refrigerant, an air outlet end of the air outlet device is located in the refrigeration region 20, the air outlet device is configured to receive the liquid refrigerant, extract air outside the refrigeration region 20, perform heat exchange between the air and the liquid refrigerant, so as to cool the air, and simultaneously, the liquid refrigerant absorbs heat and is gasified into the gaseous refrigerant, and deliver the cooled cold air into the refrigeration region 20 through the air outlet end.

Optionally, the air outlet device may be an air conditioner internal unit disposed in the cooling area 20, and the air conditioner internal unit is configured to extract air outside the waste transfer station 1 or in the equipment area 22, so as to cool the air and transport the air into the cooling area 20, or the air outlet device may be a blower disposed in the equipment area 22, an air outlet end of the blower penetrates through the partition 13 between the equipment area 22 and the cooling area 20, and the blower is configured to extract air in the equipment area 22, so as to cool the air and transport the air into the cooling area 20.

It will be appreciated that since the purge device 151 is required to discharge purged air into the equipment area 22, while the refrigeration unit 14 is available to draw air from the equipment area 22, it is difficult to maintain the pressure within the equipment area 22 at a steady state. In this regard, the facility region 22 may be provided with a vent 220 communicating with the outside of the waste transfer station 1, so that the air pressure in the facility region 22 is balanced with the atmospheric pressure, thereby maintaining the air pressure in the facility region 22 in a stable state. Further, the ventilation opening 220 may be provided with a rain-proof shutter 221 to prevent rainwater from entering the inside of the equipment region 22 through the ventilation opening, so that each electronic device disposed in the equipment region 22 is wetted, and aging and failure are generated, thereby protecting each electronic device disposed in the equipment region 22.

In order to achieve the effect of slowing down the fermentation, the temperature in the cold storage area 20 should be kept at a low temperature, and according to the research, when the environmental temperature is lower than 20 ℃, the comprehensive inhibition effect on the fermentation of each strain is good. Based on this, optionally, the temperature inside the cold storage zone 20 is t, which may satisfy: t is less than or equal to 20 ℃, namely, the temperature t in the cold storage area 20 can be 20 ℃, 19 ℃, 18 ℃, 17 ℃, 16 ℃, 15 ℃, 10 ℃, 5 ℃, 0 ℃ or-5 ℃ and the like.

As described above, in the process of transporting the garbage, the garbage needs to be transported from the normal temperature area 21 to the cold storage area 20 for storage, or the garbage needs to be taken out from the cold storage area 20 to the normal temperature area 21 and loaded on the garbage truck, and therefore, optionally, a partition 13 connected between the normal temperature area 21 and the cold storage area 20 may be provided with a second access 130, and the second access 130 is used for an operator to get in and out between the normal temperature area 21 and the cold storage area 20, so that the operator can transport the garbage between the normal temperature area 21 and the cold storage area 20.

Optionally, the second access opening 130 may be disposed to be staggered with respect to the first access opening 210, or the second access opening 130 may be disposed to face a different direction from the first access opening 210, so as to prevent air from flowing between the second access opening 130 and the first access opening 210 to form cross wind, so as to further slow down the air flowing speed at the second access opening 130, to reduce the heat convection at the second access opening 130 of the cold storage area 20, and to reduce the dissipation of cold air in the cold storage area 20.

It is understood that in other embodiments, the second doorway 130 may also be disposed opposite the first doorway 210 to facilitate an operator transporting refuse between the second doorway 130 and the first doorway 210.

It can be understood that the cold air in the cold storage area 20 can flow to the normal temperature area 21 through the second inlet/outlet 130, so that heat convection is generated between the cold storage area 20 and the normal temperature area 21, a large amount of cold air in the cold storage area 20 leaks, the garbage refrigeration effect of the cold storage area 20 is affected, and the refrigeration equipment 14 needs to work efficiently for a long time, which consumes a lot of energy. Based on this, further, the garbage transfer station 1 may further include an air curtain machine 30, the air curtain machine 30 is disposed above the partition plate 13 and located above the second access 130, the air curtain machine 30 is used for discharging air to form an air curtain at the second access 130, and/or the garbage transfer station 1 may further include a partition door (not shown in the figure) disposed on the partition plate 13, the partition door is used for closing the second access 130 to prevent the cold air in the cold storage area 20 from flowing to the normal temperature area 21 through the second access 130, so as to reduce leakage of the cold air in the cold storage area 20, the garbage refrigeration effect of the cold storage area 20 is good, and energy consumption of the refrigeration equipment 14 is greatly reduced.

In an optional example, the garbage transfer station 1 further includes an air curtain machine 30, the air curtain machine 30 is disposed on the partition 13 and located above the second access 130, the air curtain machine 30 is configured to generate an air flow at the second access 130, so that an invisible door curtain is formed at the second access 130 by the air flow, that is, air in the cold storage area 20 and the normal temperature area 21 can be prevented from passing through the second access 130, thereby reducing leakage of cold air in the cold storage area 20, and at the same time, operator can not be prevented from entering or exiting the second access 130.

In another optional example, the waste transfer station 1 further includes a partition door, the partition door is disposed on the partition plate 13, and the partition door is used for closing the second access 130, and the partition door can more effectively block air in the cold storage area 20 and the normal temperature area 21 from circulating through the second access 130, so as to more effectively reduce leakage of cold air in the cold storage area 20.

In still another optional example, the garbage transfer station 1 further includes an air curtain machine 30 and a partition door, and for specific setting positions of the air curtain machine 30 and the partition door, reference may be made to the two examples described above, and details are not repeated here. Through setting up air curtain machine 30 and wall door simultaneously, can will cut off the door and open when operating personnel need frequently pass in and out in second access & exit 130, only use air curtain machine 30 to produce strong air current in second access & exit 130 department, in order to stop the cold air in cold-storage area 20 and reveal, be convenient for operating personnel pass in and out in second access & exit 130, when operating personnel need not frequently pass in and out in second access & exit 130, can close the wall door in order to seal second access & exit 130, thereby block the cold air in cold-storage area 20 more effectively and reveal, make the rubbish refrigeration effect of cold-storage area 20 better, and can reduce the energy consumption of refrigeration plant 14 more by a wide margin. It is understood that the air curtain machine 30 may also be kept in operation when the partition door is closed to close the second doorway 130, to maximally block the leakage of the cold air in the cold storage region 20 to the normal temperature region 21.

Referring to fig. 2 to 4, in some embodiments, the normal temperature zone 21 may include a transfer zone 211 and a cleaning zone 212, the transfer zone 211 has a first access port 210, the transfer zone 211 is communicated with the cold storage zone 20, the transfer zone 211 is used for transferring garbage, the cleaning zone 212 is communicated with the transfer zone 211 through a third access port 213, the garbage transfer station 1 further includes a water supply system 40 and a water discharge system 41, the water supply system 40 is disposed in the cleaning zone 212, the water supply system 40 may include a water pipe for transporting tap water and a faucet connected to the water pipe, the water supply system 40 is used for taking water by a user for cleaning, the water discharge system 41 is disposed in the cold storage zone 20, the transfer zone 211 and the cleaning zone 212, the water discharge system 41 may include a water discharge channel or a water discharge pipe, the water discharge system 41 is used for discharging sewage, so that an operator may clean the cold storage zone 20 and the transfer zone 211 by using a cleaning tool (such as a mop, a broom, etc.), cleaning implements are cleaned in cleaning zone 212. It is understood that the water supply system 40 can be extended to the transfer area 211 to provide more water taking points for the operator to take water nearby as required, and the water discharge system 41 can be extended to the transfer area 211 or the cold storage area 20, or to both the transfer area 211 and the cold storage area 20, so as to discharge the sewage in the transfer area 211 and the cold storage area 20, and avoid the sewage from accumulating in the waste transfer station 1 and affecting the environment in the waste transfer station 1, wherein the position of the third inlet and outlet 213 is shown by a dotted line in fig. 4.

Further, the garbage transfer station 1 may further include a weighbridge 31, the weighbridge 31 is disposed in the transfer area 211, and the weighbridge 31 is used for weighing the garbage so that a user can know the weight of the transferred garbage, that is, in the process of transporting the garbage from the outside of the garbage transfer station 1 to the cold storage area 20 for cold storage, the user may weigh the garbage in the transfer area 211 by using the weighbridge 31 so as to know the weight of the garbage stored in the cold storage area 20, and in the process of taking the garbage out of the cold storage area 20 to be loaded to a garbage truck by the user, the user may weigh the garbage in the transfer area 211 by using the weighbridge 31 so as to know the weight of the garbage loaded on the garbage truck.

Specifically, a portion of the bottom plate 11 located in the transfer area 211 may have an avoiding hole penetrating the bottom plate 11 in the up-down direction, the weighbridge 31 may be disposed on the steel foundation 10 or the ground, and the top end surface of the weighbridge 31 is substantially flush with the surface of the bottom plate 11 away from the steel foundation 10, so that the operator can easily move the garbage from the bottom plate 11 to the top end surface of the weighbridge 31 for the weighbridge 31 to weigh the garbage.

Optionally, the garbage transfer station 1 may further include a control circuit board (not shown in the figure) electrically connected to the weighbridge 31 and the display screen, the control circuit board being configured to receive the weight data measured by the weighbridge 31 and calculate the total weight of the garbage stored in the cold storage area 20 by the operator, the control circuit board being further configured to control the display screen to display the weight data of the weighbridge 31 and the total weight of the garbage stored in the cold storage area 20, and the display screen being disposed on the partition plate 13 or the outer wall plate 12 and electrically connected to the weighbridge 31 for the operator to view and obtain the weight data of the garbage.

In some embodiments, the garbage transfer station 1 may further include an access passage 17, the access passage 17 includes a loading portion 170 and a ground connection portion 171, the loading portion 170 is disposed on the steel foundation 10, and the loading portion 170 is connected to the first access opening 210, that is, connected to the bottom plate 11 at the first access opening 210, and the loading portion 170 is used for loading the garbage truck with the garbage, so that the garbage truck does not need to be loaded onto the garbage truck at the first access opening 210, and the garbage truck is prevented from blocking the first access opening 210 during the process of loading the garbage truck, and normal access of other operators is prevented from being affected.

Specifically, the loading unit 170 may be integrally connected to the bottom plate 11, that is, the loading unit 170 may be regarded as a platform on which the bottom plate 11 extends from the indoor space 2 to the outside of the first doorway 210, so as to reduce the number of components included in the garbage transfer station 1 and simplify the installation and construction process of the garbage transfer station 1.

It can be understood that, since the loading portion 170 is connected to the first gateway 210, in the process that an operator carries the garbage from the outside of the garbage relay station 1 into the transfer area 211 through the first gateway 210, the garbage also needs to be carried from the ground to the loading portion 170 to enter the first gateway 210, and since the loading portion 170 is provided on the steel foundation 10 and the steel foundation 10 is provided on the ground, there is a height difference between the loading portion 170 and the ground, which is inconvenient for the operator to operate. Further, the ground connection part 171 is connected between the loading part 170 and the ground, that is, the ground connection part 171 is formed as a slope connected between the loading part 170 and the ground to eliminate a height difference between the loading part 170 and the ground, thereby facilitating an operator to transfer the garbage from the ground to the loading part 170.

In some embodiments, the bottom plate 11, the external wall plate 12, the partition plate 13, and the top plate 16 for surrounding the normal temperature area 21 may be separately disposed from the bottom plate 11, the external wall plate 12, the partition plate 13, and the top plate 16 for surrounding the cooling area 20 and the equipment area 22, so that the cooling area 20, the equipment area 22, and the normal temperature area 21 are formed as two separately disposed structures, and the two separately disposed structures are connected to obtain the complete waste transfer station 1, so that the change of the respective structures of the cooling area 20, the equipment area 22, and the normal temperature area 21 is small, and the waste transfer station 1 can easily meet the design requirements of more different relative positions of the cooling area 20 and the normal temperature area 21.

Referring to fig. 4 to 6, in particular, the bottom plate 11 may include a first bottom plate 110 and a second bottom plate 111 which are separately arranged, the external wall plate 12 includes a first external wall plate 120 and a second external wall plate 121 which are separately arranged, the partition plate 13 includes a first partition plate 131 and a second partition plate 132 which are separately arranged, the top plate 16 includes a first top plate 160 and a second top plate 161 which are separately arranged, the first external wall plate 120 and the first partition plate 131 are arranged on the first bottom plate 110, the first top plate 160 is covered on the first external wall plate 120 and the first partition plate 131, the first bottom plate 110, the first external wall plate 120, the first partition plate 131 and the first top plate 160 form a cold storage area 20 and an equipment area 22 therebetween, the second external wall plate 121 and the second partition plate 132 are arranged on the second bottom plate 111, the second top plate 161 is covered on the second external wall plate 121 and the second partition plate 132, the second bottom plate 111, the second external wall plate 121, the second partition plate 132 and the second top plate 161 form a normal temperature area 21 therebetween, a first inlet and outlet 210 is formed between the second outer wall panel 121 and the second partition plate 132, the second partition plate 132 is connected to the first partition plate 131, the first partition plate 131 and the second partition plate 132 are provided with a second inlet and outlet 130 communicated with the cold storage area 20 and the normal temperature area 21, and the first partition plate 131 provided with the second inlet and outlet 130 is detachably connected with the second partition plate 132, so that the waste transfer station 1 is formed into an integral structure.

Optionally, the second top plate 161 may be higher than the first top plate 160, and the second top plate 161 partially extends to be located above the first top plate 160 to shield the joint of the second partition 132 and the first partition 131, so as to prevent rainwater from penetrating into the joint of the second partition 132 and the first partition 131 and entering the indoor space 2, and improve the rainproof effect of the garbage transfer station 1.

In some embodiments, the portion of the second partition 132 higher than the first partition 131 may be provided with a low emissivity glass window 32, so that the indoor space 2 can obtain a certain natural lighting through the low emissivity glass window 32, and at the same time, the heat radiated from the outside of the waste transfer station 1 to the indoor space 2 is reduced, and the heat preservation function of the waste transfer station 1 is ensured.

By the aforesaid, this rubbish transfer station 1 is modular rubbish transfer station 1, and this rubbish transfer station 1 adopts the steel foundation to come 11 bed hedgehopping of bottom plate to can avoid subaerial ponding to infiltrate to bottom plate 11, lead to the phenomenon of moist ponding even appearing in rubbish transfer station 1, thereby avoid breeding the mould in the rubbish transfer station 1, influence the environment in the rubbish transfer station 1. Specifically, this steel basis 10 includes many I-steel, and the edge that the I-steel corresponds bottom plate 11 is placed in ground, and the load capacity of this I-steel is strong, can provide stable holding power for bottom plate 11, and simultaneously, the setting mode of I-steel is simple, easily sets up also easily dismantles, and the process is simple is set up, demolishs of rubbish transfer station 1.

In some embodiments, the bottom plate 11 can be dismantled and connect in steel foundatin 10, side fascia 12, baffle 13 can be dismantled with bottom plate 11 and be connected, roof 16 can be dismantled and connect in side fascia 12 and baffle 13, promptly, all spare parts that rubbish transfer station 1 includes are all connected through the mode (if threaded connection, the buckle is connected, modes such as magnetism is inhaled and is connected), there is not material curing process in the construction process, thereby rubbish transfer station 1's construction cycle is short, can build the completion in the time of the utmost point weak point, and easily change 1 part spare part of rubbish transfer station, still easily remove 1 whole of transfer station in the rubbish, the construction of rubbish transfer station 1, it is little to the influence of all ring edge borders to tear open the process.

Considering that the garbage transfer station 1 can be built in the open space of the residential area, and the shape of the open space is not necessarily the same, therefore, the garbage transfer station 1 needs to change the building shape to adapt to the different shapes of the ground, the design of the relative positions of the cold storage area 20 and the equipment area 22 and the normal temperature area 21 of the present embodiment can be more flexible to meet more different design requirements. For example, as shown in fig. 7-9, fig. 7 illustrates a substantially square footprint of the waste transfer station 1, where the waste transfer station 1 is adapted to be constructed on a substantially square terrain. Fig. 8 shows that the accommodation of the waste transfer station 1 is shaped as a long and narrow rectangle, and the waste transfer station 1 is suitable for being built on a relatively long and narrow ground, and fig. 9 shows that the accommodation of the waste transfer station 1 is shaped as an L-shape, and the waste transfer station 1 is suitable for being built on an L-shaped ground.

It can be seen that, by adopting the garbage transfer station 1 of the present application, through adopting the modular design, the garbage transfer station 1 can use substantially the same bottom plate 11, outer wall plates 12, partition plates 13 and top plate 16 to realize different relative position designs of more kinds of cold storage areas 20 and equipment areas 22 and normal temperature areas 21, so that when the garbage transfer station 1 is adapted to more kinds of different terrains, the construction period of the garbage transfer station 1 is short, the construction difficulty is low, and the garbage transfer station can be constructed by using general plates, and the construction cost of the garbage transfer station 1 is also low.

Since the above-mentioned cold storage area 20, the normal temperature area 21, and the like are all enclosed by the bottom plate 11, the external wall plate 12, the partition plate 13, and the top plate 16, specific structures of the bottom plate 11, the external wall plate 12, the partition plate 13, and the top plate 16 will be described in detail below for the temperature maintaining effect of the cold storage area 20 and the normal temperature area 21.

Referring to fig. 10, in some embodiments, the bottom plate 11 includes a first steel plate 11a, a heat-insulating steel structure layer 11b, a waterproof layer 11c, a second steel plate 11d, and a floor tile layer 11e, which are sequentially stacked, one side of the first steel plate 11a away from the heat-insulating steel structure layer 11b is disposed on the steel foundation 10, a surface of the bottom plate 11, which is used to be connected to the steel foundation 10, is formed as a flat surface by disposing the first steel plate 11a, so that the bottom plate 11 can be more stably disposed on the steel foundation 10, the structural strength of the entire bottom plate 11 can be enhanced by disposing the heat-insulating steel structure layer 11b, so as to enhance the load capacity of the bottom plate 11, and the bottom plate 11 has a heat-insulating function, and the waterproof layer 11c can prevent water falling or accumulating on the top surface of the floor tile layer 11e from penetrating into the heat-insulating steel structure layer 11b, so as to accelerate the aging of the heat-insulating steel structure layer 11b, influence heat preservation steel structural layer 11 b's thermal insulation performance, through setting up second steel sheet 11d, can provide smooth surface for laying of ceramic tile layer 11e to the top surface that makes ceramic tile layer 11e forms into smooth surface and steps on for the user, and simultaneously, second steel sheet 11d can also block water seepage to heat preservation steel structural layer 11b, avoids water to influence heat preservation steel structural layer 11 b's thermal insulation performance.

Specifically, the heat-insulating steel structure layer 11b may include a steel skeleton and polyurethane foam filled between the steel skeleton, so as to realize the function of reinforcing the overall structural strength of the bottom plate 11 through the steel skeleton, and realize the heat-insulating function of the bottom plate 11 through the polyurethane foam.

Alternatively, the waterproof layer 11c may be a waterproof roll, so that the setting process of the waterproof layer 11c is simpler and faster. Further, the waterproof layer 11c may extend upward from the connection between the bottom plate 11 and the external wall panel 12 or the partition 13 to the external wall panel 12 or the partition 13, so as to prevent water accumulated on the bottom plate 11 from laterally penetrating into the internal of the external wall panel 12 or the partition 13.

Referring to fig. 11, in some embodiments, the external wall panel 12 may include a daily china panel 12a, a waterproof breathable film 12b, a thermal insulation steel structure layer 12c, a cement fiber board 12d, a waterproof film layer 12e, and a decorative board 12f, which are sequentially stacked, wherein a side of the daily china panel 12a away from the waterproof breathable film 12b is disposed toward the outside of the garbage transfer station 1, the daily china panel 12a is a decorative fiber cement wall panel, and can form the surface of the external wall panel 12 into various texture and color effects such as wood-like panels, wall bricks, stone walls, and the like, through setting up waterproof ventilated membrane 12b between solar gill board 12a and heat preservation steel structural layer 12c, can avoid the outer steam of rubbish transfer station 1 to permeate through solar gill board 12a and permeate to heat preservation steel structural layer 12c in, heat preservation steel structural layer 12c takes place ageing with higher speed, influences the condition of heat preservation performance of heat preservation steel structural layer 12 c. And can strengthen the holistic structural strength of side fascia 12 through setting up heat preservation steel structural layer 12c to reinforcing side fascia 12's load carrying capacity makes side fascia 12 possess heat retaining function simultaneously, sets up cement fiberboard 12d through the one side towards the interior space 2 of heat preservation steel structural layer 12c, can make the one side shape towards the interior space 2 of side fascia 12 level and smooth. The waterproof film layer 12e can prevent water vapor or water drops in the indoor space 2 from permeating into the cement fiberboard 12d, and the use performance of the cement fiberboard 12d is affected. The waterproof membrane layer 12e can be shielded by the decorative plate 12f, so that a user cannot directly observe the waterproof membrane layer 12e in the indoor space 2, and the waterproof membrane layer 12e is protected to prevent the waterproof membrane layer 12e from being damaged due to scratching. More specifically, different wall design can be presented by providing the decorative sheet 12f with different colors, textures, and patterns.

It is understood that the specific structure and function of the insulating steel structure layer 12c included in the external wall panel 12 can be referred to the structure and function of the insulating steel structure layer 11b included in the bottom panel 11, and will not be described herein again.

Alternatively, the waterproof membrane layer 12e may be formed by applying a waterproof coating material (e.g., a polyurethane-based waterproof coating material, or a polymer cement-based waterproof coating material) to the surface of the cement fiberboard 12d on the side facing the indoor space 2 and curing the waterproof coating material, so that the waterproof membrane layer 12e is firmly connected to the cement fiberboard 12d and is not easily detached.

Optionally, the external wall panel 12 connected to the constant temperature region 21 may be provided with a low emissivity glass window 32, so that the indoor space 2 can obtain a certain natural lighting through the low emissivity glass window 32, and at the same time, the heat radiated from the outside of the waste transfer station 1 to the indoor space 2 is reduced, thereby ensuring the heat preservation function of the waste transfer station 1.

Alternatively, the decorative plate 12f may be a plate made of plastic material, so that the surface of the decorative plate 12f is easily molded into different texture shapes, different colors and patterns are easily presented, and the decorative plate 12f has light weight, simple installation process, good corrosion resistance and aging resistance, and long service life.

Referring to fig. 12, in some embodiments, the partition 13 may include a decorative board 13a, a waterproof film layer 13b, a cement fiber board 13c, a thermal insulation steel structure layer 13d, a cement fiber board 13e, a waterproof film layer 13f, and a decorative board 13e, which are sequentially stacked, and specific structures and functions of the waterproof film layer 13b, the cement fiber boards 13c, 13e, and the decorative boards 13a, 13f may be described in the foregoing, for specific structures and functions of the waterproof film layer 12e, the cement fiber board 12d, and the decorative board 12f included in the outer wallboard 12, for specific structures and functions of the thermal insulation steel structure layer 13d, for specific structures and functions of the thermal insulation steel structure layer 11b included in the middle wallboard 11, and details thereof are omitted herein.

Referring to fig. 13, in some embodiments, the top plate 16 may include a keel 16a, a thermal insulation steel structure layer 16b, a cement fiber plate 16c, a waterproof air permeable membrane 16d, and a heliotrope plate 16e, which are sequentially stacked, wherein a side of the heliotrope plate 16e facing away from the keel is disposed toward an upper external space of the garbage transfer station 1, the top plate 16 is configured to be partially suspended above the external wall plates 12 and the partition plates 13 by disposing the keel 16a, and a relatively flat disposition surface may be provided for the waterproof air permeable membrane 16d by disposing the cement fiber plate 16 c. The specific structure and function of the waterproof and breathable film 16d can be seen from the specific structures and functions of the waterproof film layer 12e and the cement fiber board 12d included in the outer wall board 12, the specific structures and functions of the insulating steel structure layer 16b and the solar panel 16e can be seen from the structures and functions of the insulating steel structure layer 11b included in the middle floor board 11 and the solar panel 12a included in the outer wall board 12, which are not described herein again.

Optionally, a cement fiber board 16f may be further disposed on a side of the keel 16a facing the indoor space 2 to shield the structure of the keel 16a, so that the indoor space 2 of the garbage transfer station 1 may look more concise. Further, one side of the cement fiberboard 16f facing the indoor space 2 can be also provided with a bamboo-wood fiberboard 16g, the installation process of the bamboo-wood fiberboard 16g is simple and quick, the materials are environment-friendly, various different patterns and textures can be presented, and more different design requirements for the ceiling of the indoor space 2 can be met.

The following describes in detail the process of transferring garbage using the garbage transfer station 1 according to the embodiment of the present invention.

In the process of transporting the wet trash to the trash transfer station 1 for cold storage, the operator first transports the trash can filled with the wet trash, which is located at various places of the residential area, to the outside of the trash transfer station 1, then transports the trash can from the ground to the loading portion 170 through the ground connection portion 171, and then passes through the first gateway 210 to transport the trash can to the transportation area 211. Next, the operator moves the trash can onto the weighbridge 31 of the transfer area 211 to weigh the trash can and the wet trash within the trash can by the weighbridge 31. Finally, the trash can is transported through the second access opening 130 to the refrigerated storage within the refrigerated area 20.

In the process of taking out and loading wet garbage from the cold storage area 20 onto a garbage truck for transportation, the garbage truck is firstly parked beside the loading portion 170 in a posture that the tail end for loading the garbage faces the first access opening 210, then an operator takes out the garbage can in the cold storage area 20 to the transfer area 211, and the wet garbage in the garbage can and the garbage can are weighed through the wagon balance 31 of the transfer area 211. Then, the garbage is conveyed again through the first gateway 210 to the loading unit 170. And finally, dumping the wet garbage in the garbage can onto the garbage truck from the tail end of the garbage truck, or directly loading the garbage can filled with the wet garbage onto the garbage truck for the garbage truck to transport.

According to the garbage transfer station 1 provided by the embodiment of the invention, the partition plate 13 is arranged to divide the internal space of the garbage transfer station 1 into the cold storage area 20, the normal temperature area 21 and the facility area 22, and the refrigeration facility 14 is arranged to output cold air to the cold storage area 20, so that garbage can be stored in the cold storage area 20 in a refrigerating way, the fermentation speed of wet garbage is reduced, odor generated by fermentation of the wet garbage is reduced, the influence of the garbage transfer station 1 on the surrounding environment is reduced, and the garbage transfer station 1 can be suitable for being arranged near a residential area.

In addition, the steel foundation 10, the bottom plate 11, the outer wall plate 12, the partition plate 13 and the top plate 16 are detachably connected, so that the construction and disassembly processes of the waste transfer station 1 are simple and quick, and the influence of the waste transfer station 1 on the surrounding environment in the construction and disassembly processes can be reduced. More specifically, the bottom plate 11, the external wall plate 12, the partition plate 13 and the top plate 16 for enclosing and forming the normal temperature area 21, and the bottom plate 11, the external wall plate 12, the partition plate 13 and the top plate 16 for enclosing and forming the cooling area 20 and the equipment area 22 are arranged separately, so that the cooling area 20, the equipment area 22 and the normal temperature area 21 are formed into two separately arranged structures, and then the two separately arranged structures are connected to obtain the complete waste transfer station 1, so that the changes of the respective structures of the cooling area 20, the equipment area 22 and the normal temperature area 21 are small, and the waste transfer station 1 is easy to meet the design requirements of the relative positions of more different cooling areas 20 and normal temperature areas 21, so that the structural shape of the waste transfer station 1 is more flexible and changeable, and can be suitable for being built on more different ground skins.

The garbage transfer station disclosed in the embodiment of the present invention is described in detail above, and a specific example is applied in the description to explain the principle and the implementation of the present invention, and the description of the above embodiment is only used to help understanding the garbage transfer station and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. A modular waste transfer station, comprising:

a steel foundation;

the bottom plate is arranged on the steel foundation;

the outer wall panel and the bottom panel are arranged in an enclosing manner to form an indoor space with the bottom panel;

the partition plate is arranged on the bottom plate and located in the indoor space, and is used for dividing the indoor space into a cold storage area, a normal temperature area and an equipment area, wherein the cold storage area is communicated with the normal temperature area, the normal temperature area is provided with a first inlet and a first outlet which are communicated with the external space of the garbage transfer station, and garbage is transferred to the cold storage area for refrigeration through the normal temperature area;

the refrigeration equipment is at least partially arranged in the equipment area and is used for outputting cold air to the refrigeration area;

the purification system comprises an exhaust pipeline and purification equipment, the exhaust pipeline is connected with the refrigerating area, the normal temperature area and the purification equipment, and the purification equipment is used for pumping out air in the refrigerating area and the normal temperature area through the exhaust pipeline, purifying and discharging the air; and the number of the first and second groups,

and the top plate covers the outer wall plate and the partition plate to cover the indoor space.

2. The waste transfer station of claim 1, wherein a second inlet and outlet is disposed on the partition plate connected between the normal temperature zone and the cold storage zone, the waste transfer station further comprises an air curtain machine, the air curtain machine is disposed on the partition plate and located above the second inlet and outlet, and the air curtain machine is used for discharging air to form an air curtain at the second inlet and outlet; and/or the presence of a gas in the gas,

the garbage transfer station further comprises a partition door, the partition door is arranged on the partition plate, and the partition door is used for sealing the second access.

3. The waste transfer station of claim 2, wherein the normal temperature zone comprises a transfer zone and a clean zone, the transfer zone has the first inlet and outlet, the transfer zone is connected to the cold storage zone, the transfer zone is used for transferring waste, and the clean zone is connected to the transfer zone through a third inlet and outlet;

the garbage transfer station further comprises a water supply system and a drainage system, wherein the water supply system is arranged in the clean area, the drainage system is arranged in the cold storage area, the transfer area and the clean area, and the drainage system is used for discharging sewage.

4. The waste transfer station of any one of claims 1 to 3, wherein the bottom plate comprises a first bottom plate and a second bottom plate which are separately arranged, the external wall plates comprise a first external wall plate and a second external wall plate which are separately arranged, the partition plates comprise a first partition plate and a second partition plate which are separately arranged, and the top plate comprises a first top plate and a second top plate which are separately arranged;

the first external wall panel and the first partition plate are arranged on the first bottom panel, the first top panel is covered on the first external wall panel and the first partition plate, and the cold storage area and the equipment area are formed among the first bottom panel, the first external wall panel, the first partition plate and the first top panel;

the second outer wallboard and the second partition plate are arranged on the second bottom plate, the second top plate is covered on the second outer wallboard and the second partition plate, the constant temperature zone is formed among the second bottom plate, the second outer wallboard, the second partition plate and the second top plate, and the first inlet and the first outlet are formed between the second outer wallboard and the second partition plate;

the second baffle connect in first baffle, first baffle with the second baffle be provided with communicate in the cold-storage area with the second access & exit of normal warm district.

5. The trash transfer station of claim 4, wherein the second top plate is higher than the first top plate, and the second top plate extends partially above the first top plate to cover a connection between the second partition plate and the first partition plate.

6. The waste transfer station of any one of claims 1 to 3, further comprising an access passage, wherein the access passage comprises a loading portion and a ground connecting portion, the loading portion is disposed on the steel foundation and is connected to the first access opening, the loading portion is used for loading waste onto a waste truck, and the ground connecting portion is connected between the loading portion and the ground.

7. The waste transfer station of any one of claims 1 to 3, wherein the purifying device comprises an exhaust fan and an air purifying device, an air exhaust end of the exhaust fan is connected to the air exhaust pipe, an air exhaust end of the exhaust fan is connected to the air purifying device, and the air purifying device is configured to receive air exhausted from the air exhaust end of the exhaust fan, purify the air, and exhaust the air into the device area.

8. The waste transfer station of any one of claims 1 to 3, further comprising a sterilization system disposed on the partition and/or the top plate in the cold storage area and the normal temperature area, wherein the sterilization system is used for sterilizing the cold storage area and the normal temperature area.

9. The waste transfer station of any one of claims 1 to 3, wherein the steel foundation comprises a plurality of I-beams, and the I-beams are placed on the ground corresponding to the edges of the bottom plate.

10. The waste transfer station of any one of claims 1 to 3, wherein the bottom plate is detachably connected to the steel foundation, the outer wall plate and the partition plate are detachably connected to the bottom plate, and the top plate is detachably connected to the outer wall plate and the partition plate.

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