CN211194354U - Low-energy-consumption curing kiln - Google Patents

Abstract

The utility model relates to the field of machinary, especially, relate to a low energy consumption curing kiln. The system comprises a heating chamber, a thermostatic chamber, a cooling chamber and an outdoor machine room, wherein the heating chamber, the cooling chamber and the outdoor machine room are arranged on the same side surface of the thermostatic chamber in parallel; a heat exchange device is arranged between the warming chamber and the cooling chamber, heat absorbing devices are arranged on the cooling chamber and the outdoor machine room, and a heat releasing device is arranged in the thermostatic chamber; a maintenance bracket with a roller is arranged in the thermostatic chamber.

Description

Low-energy-consumption curing kiln

Technical Field

The utility model relates to the field of machinary, especially, relate to a low energy consumption curing kiln.

Background

Since 2016, fabricated buildings have become the mainstream of modern buildings. As is known, fabricated buildings are obtained by field installation of prefabricated elements. The quality of the prefabricated construction is closely related to the quality of the prefabricated elements, which are a large part of their maintenance quality and setting speed. Most domestic manufacturers adopt steam heating or gas and solar heating modes for maintenance, and the maintenance components are single in type. The maintenance modes have high technical requirements, and a great deal of energy is wasted in the heating process. How to reduce energy consumption and realize one-kiln curing of various structural components is a problem which is urgently needed to be solved at present.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is that: in order to provide a low-energy-consumption curing kiln with better effect, the specific purpose is seen in a plurality of substantial technical effects of the specific implementation part.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a low energy consumption curing kiln is characterized in that: the curing kiln comprises a heating chamber 3, a thermostatic chamber 9, a cooling chamber 2 and an outdoor machine room 1, wherein the outdoor machine room, the heating chamber and the cooling chamber are arranged in parallel, the thermostatic chambers are arranged on the sides of the outdoor machine room, the heating chamber and the cooling chamber, and heat exchange fans 7 and ventilation openings 25 are arranged between the areas in one-to-one correspondence with the heating chamber and the cooling chamber.

The utility model has the further technical proposal that the warming room is provided with more than one warming area separated by the air curtain machine 6, and the temperature rises from the entrance of the warming room to the entrance of the thermostatic room in turn; the cooling chamber is provided with the same number of cooling areas separated by the air curtain machine, and is in one-to-one correspondence with the heating chambers, and the temperature is sequentially reduced from the outlet of the constant temperature chamber to the outlet of the cooling chamber; the heat exchange fans 7 and the ventilation openings 25 form a local heat circulation system in the one-to-one corresponding areas of the warming chamber and the cooling chamber.

The utility model has the further technical proposal that the outlet of the compressor 17 is connected with the inlet pipeline of the condenser 24 through a pipeline, the outlet pipeline of the condenser 24 is connected with the inlet pipeline of the liquid storage tank 11, the outlet pipeline of the liquid storage tank 11 is divided into two pipelines, one pipeline is connected with the inlet pipeline of the indoor control valve 14, the outlet pipeline of the indoor control valve 14 is connected with the inlet pipeline of the indoor expansion valve 18, the outlet pipeline of the indoor expansion valve 18 is connected with the inlet pipeline of the indoor evaporator 19, and the outlet pipeline of the indoor evaporator 19 is connected with the inlet pipeline; the other pipeline at the outlet of the liquid storage tank 11 is connected with an inlet pipeline of an outdoor control valve 12, an outlet pipeline of the outdoor control valve 12 is connected with an inlet pipeline of an outdoor expansion valve 13, an outlet pipeline of the outdoor expansion valve 13 is connected with an outlet pipeline of an outdoor evaporator 16, and an outlet pipeline of the outdoor evaporator 16 is connected with an inlet pipeline of a compressor 17; the condenser 24 is used for heat radiation, and the indoor evaporator 19 and the outdoor evaporator 16 are used for heat absorption.

The utility model has the further technical proposal that the air duct 22 is evenly distributed in the thermostatic chamber 9, and the air duct 22 is provided with an air outlet 27; the top of the thermostatic chamber is provided with an air return opening 21.

The utility model discloses a further technical scheme lies in, condenser 24 forms the hot-air to the air cooling in the thermostatic chamber, and radiator fan 23 can send the thermostatic chamber into with hot-air through air outlet 27 on wind channel 22 and heat the thermostatic chamber, and the air after the heat dissipation can get back to condenser 24 through return air inlet 21 and form the circulation.

The utility model discloses a further technical scheme lies in, the maintenance support 10 that contains the thermostatic chamber in the thermostatic chamber 9, maintenance support 10 on install running roller 26.

The utility model has the further technical proposal that a track 4 and a mobile platform 5 are arranged in the warming room 3, and the prefabricated parts can be transported to a thermostatic room through the mobile platform 5; a track and a lifting moving platform 8 are erected in the thermostatic chamber 9, and the prefabricated part can be transferred to a maintenance position through the lifting moving platform 8; and a track and a moving platform are also erected in the cooling chamber 2 and used for conveying components for cooling maintenance and kiln discharge.

Adopt above technical scheme the utility model discloses, for prior art have following beneficial effect: the heat exchange device formed between the cooling chamber and the thermostatic chamber effectively realizes the recycling of energy and reduces the energy consumption of the outdoor machine room.

Drawings

For further explanation of the present invention, reference is made to the following description taken in conjunction with the accompanying drawings:

FIG. 1 is a basic structure diagram of a curing kiln

FIG. 2 is a top view of the curing kiln

FIG. 3 is a schematic sectional view taken along line A-A in FIG. 2

FIG. 4 is a schematic cross-sectional view taken along line B-B in FIG. 2

In the figure: 1. the system comprises an outdoor machine room, 2. a cooling room, 3. a heating room, 4. a track, 5. a moving platform, 6. an air curtain machine, 7. a heat exchange fan, 8. the lifting moving platform, 9. a thermostatic room, 10. a maintenance bracket, 11. a liquid storage tank, 12. an outdoor control valve, 13. an outdoor expansion valve, 14. an indoor control valve, 15. an outdoor fan, 16. an outdoor evaporator, 17. a compressor, 18. an indoor expansion valve, 19. an indoor evaporator, 20. an indoor fan, 21. an air return port, 22. an air duct, 23. a heat dissipation fan, 24. a condenser, 25. an air vent, 26. a roller, 27. an air outlet.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and embodiments, which are to be understood as illustrative only and not limiting the scope of the invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The patent provides a plurality of parallel schemes, and different expressions belong to an improved scheme based on a basic scheme or a parallel scheme. Each solution has its own unique features.

The first embodiment is as follows:

the utility model provides a low energy consumption curing kiln, its characterized in that, curing kiln contains and includes heating chamber 3, thermostatic chamber 9, cooling chamber 2 and outdoor computer lab 1, and outdoor computer lab, heating chamber and cooling chamber are arranged side by side, and the avris of outdoor computer lab, heating chamber and cooling chamber still contains the thermostatic chamber, is equipped with heat transfer fan 7 and vent 25 between heating chamber and the cooling chamber one-to-one area. The technical scheme of the invention has the following substantial technical effects and the realization process: referring to fig. 1 to 4, the technical solution of the present invention is: a low-energy-consumption curing kiln for curing an assembled building component. The heating and cooling system comprises a heating chamber 3, a thermostatic chamber 9, a cooling chamber 2 and an outdoor machine room 1, wherein the heating chamber 3, the cooling chamber 2 and the outdoor machine room 1 are arranged on the same side of the thermostatic chamber 9 side by side. The heating chamber 3 is provided with a track 4 and a moving platform 5, the heating chamber 3 is provided with a plurality of heating areas separated by an air curtain machine 6, and the temperature rises in a step manner from the inlet of the heating chamber to the direction of the thermostatic chamber 9. The cooling chamber 2 is provided with a plurality of cooling areas separated by the air curtain machine 5, the temperature is reduced in a step manner from the outlet of the thermostatic chamber to the outlet of the cooling chamber, and the heating areas correspond to the cooling areas one by one. It should be noted that the solution in this section is at least a new maintenance structure, which is an individual that can be sold independently, and the solutions in the lower sections are all parallel solutions or improved solutions.

Example two:

as a further improved or feasible parallel scheme, the final cooling area of the cooling room is provided with an indoor fan 20, an indoor evaporator 19, an indoor expansion valve 18 and an indoor control valve 14, an outdoor machine room is provided with a liquid storage tank 11, an outdoor control valve 12, an outdoor expansion valve 13, an outdoor evaporator 16, an outdoor fan 15 and a compressor 17, and a constant temperature room is provided with a condenser 24 and a heat radiation fan 23; the components and the pipeline form a heat supply system and a heat circulation system of the curing kiln. The outlet of the compressor 17 is connected with an inlet pipeline of a condenser 24 through a pipeline, an outlet pipeline of the condenser 24 is connected with an inlet pipeline of a liquid storage tank 11, an outlet pipeline of the liquid storage tank 11 is connected with an inlet pipeline of an outdoor control valve 12, an outlet pipeline of the outdoor control valve 12 is connected with an inlet pipeline of an outdoor expansion valve 13, an outlet pipeline of the outdoor expansion valve 13 is connected with an outlet pipeline of an outdoor evaporator 16, and an outlet pipeline of the outdoor evaporator 16 is connected with an inlet pipeline of the compressor 17; the condenser 24 is used for heat radiation, and the indoor evaporator 19 and the outdoor evaporator 16 are used for heat absorption. The outdoor fan 15 is used for outdoor air circulation. Air ducts 22 are uniformly distributed in the thermostatic chamber 9, and air outlets 27 are formed in the air ducts 22; the top of the thermostatic chamber is provided with an air return opening 21.

The technical scheme of the invention has the following substantial technical effects and the realization process: when the curing kiln starts curing, the indoor control valve 14 is closed, the outdoor control valve 12 is opened, the compressor 17 is opened, the outdoor evaporator 16 starts absorbing external heat energy, the low-temperature low-pressure gaseous refrigerant is changed into high-temperature high-pressure gaseous refrigerant through the high-pressure air outlet of the compressor 17, the high-temperature high-pressure gaseous refrigerant is sent to the condenser 24 in the thermostatic chamber 9 through the pipeline, the condenser 24 exchanges heat with the indoor air of the thermostatic chamber, at the moment, the refrigerant is changed into low-temperature high-pressure liquid from high-temperature high-pressure gaseous state, the low-temperature high-pressure liquid refrigerant is sent back to the liquid storage tank 11 through the pipeline, the low-temperature high-pressure liquid refrigerant in the liquid storage tank 11 enters the outdoor control valve 12 firstly and then flows into the outdoor expansion valve 13 through the pipeline, the refrigerant is evaporated in the outdoor evaporator 16 due to pressure shock, the, the refrigerant is compressed into a high-temperature and high-pressure gaseous refrigerant by the compressor 17 to circulate. The hot air after heat exchange by the condenser 24 is delivered to the thermostatic chamber 9 through the air outlets on the air ducts 22 which are uniformly distributed by the heat radiation fan 23 to participate in component maintenance. Cold air returns to the condenser through an air return opening 21 at the top of the thermostatic chamber 9 to participate in heat energy exchange, and formed hot air participates in system circulation through a cooling fan 23. The heat pump participates in heat supply of the curing kiln, so that energy is saved, and the influence on the environment is reduced.

Example three:

as a further improved or feasible parallel scheme, the heat exchange fans 7 and the ventilation openings 24 are arranged in the areas of the heating chamber and the cooling chamber which correspond to each other one by one; the final cooling area of the cooling room is provided with an indoor fan 20, an indoor evaporator 19, an indoor expansion valve 18 and an indoor control valve 14, an outdoor machine room is provided with a liquid storage tank 11, an outdoor control valve 12, an outdoor expansion valve 13, an outdoor evaporator 16, an outdoor fan 15 and a compressor 17, and the thermostatic room is provided with a condenser 24 and a heat radiation fan 23; the outdoor evaporator 16 of the outdoor machine room, the indoor evaporator 19 of the cooling room and the condenser 24 arranged in the thermostatic chamber form a heat supply system and a heat circulation system of the curing kiln. The outlet of the compressor 17 is connected with an inlet pipeline of a condenser 24 through a pipeline, an outlet pipeline of the condenser 24 is connected with an inlet pipeline of a liquid storage tank 11, an outlet pipeline of the liquid storage tank 11 is connected with an inlet pipeline of an indoor control valve 14, an outlet pipeline of the indoor control valve 14 is connected with an inlet pipeline of an indoor expansion valve 18, an outlet pipeline of the indoor expansion valve 18 is connected with an inlet pipeline of an indoor evaporator 19, and an outlet pipeline of the indoor evaporator 19 is connected with an inlet pipeline of the compressor 17; the condenser 24 is used for heat radiation, and the indoor evaporator 19 and the outdoor evaporator 16 are used for heat absorption. The indoor fan 20 is used for air circulation in the final area of the cooling chamber. Air ducts 22 are uniformly distributed in the thermostatic chamber 9, and air outlets 27 are formed in the air ducts 22; the top of the thermostatic chamber is provided with an air return opening 21.

The technical scheme of the invention has the following substantial technical effects and the realization process: in the curing process of the curing kiln, the outdoor control valve 12 is closed, the indoor control valve 14 is opened, the compressor 17 is started, the indoor evaporator 19 absorbs heat energy of the cooling room, low-temperature and low-pressure gaseous refrigerant forms high-temperature and high-pressure gaseous refrigerant through the compressor 17, the high-temperature and high-pressure gaseous refrigerant is conveyed to the condenser 24 of the thermostatic chamber 9 through a pipeline, the high-temperature and high-pressure gaseous refrigerant is converted into low-temperature and high-pressure liquid refrigerant to return to the liquid storage tank 11 after heat exchange of the condenser 24, the low-temperature and high-pressure liquid refrigerant in the liquid storage tank 11 flows into the indoor expansion valve 18 through the indoor control valve 14 and is throttled and decompressed through the indoor expansion valve 18, the refrigerant is evaporated into the low-temperature and low-pressure.

In the embodiment, the heat exchange fans 7 and the ventilation openings 25 are arranged at the positions of the heating chamber 3 corresponding to the cooling chamber 2 one by one, and heat of the cooling chamber is transferred to the heating chamber 3 through the heat exchange fans 7 and the ventilation openings 25, so that heat loss is avoided; an indoor evaporator 19 and a condenser 24 in the thermostatic chamber 9 are arranged in the final cooling area of the cooling chamber 2 to form a heat circulation system, so that heat energy generated in the final curing process is transferred to the thermostatic chamber 8 to participate in the curing process, and the heat requirement of the curing kiln is guaranteed. Greatly improving the energy utilization and the maintenance efficiency.

Example four:

as a further improved or feasible parallel scheme, the heat exchange fans 7 and the ventilation openings 24 are arranged in the areas of the heating chamber and the cooling chamber which correspond to each other one by one; the final cooling area of the cooling room is provided with an indoor fan 20, an indoor evaporator 19, an indoor expansion valve 18 and an indoor control valve 14, an outdoor machine room is provided with a liquid storage tank 11, an outdoor control valve 12, an outdoor expansion valve 13, an outdoor evaporator 16, an outdoor fan 15 and a compressor 17, and the thermostatic room is provided with a condenser 24 and a heat radiation fan 23; the components and the pipeline form a heat supply system and a heat circulation system of the curing kiln. The outlet of the compressor 17 is connected with an inlet pipeline of a condenser 24 through a pipeline, an outlet pipeline of the condenser 24 is connected with an inlet pipeline of a liquid storage tank 11, the outlet pipeline of the liquid storage tank 11 is divided into two paths, one path is connected with an inlet pipeline of an indoor control valve 14, an outlet pipeline of the indoor control valve 14 is connected with an inlet pipeline of an indoor expansion valve 18, an outlet pipeline of the indoor expansion valve 18 is connected with an inlet pipeline of an indoor evaporator 19, and an outlet pipeline of the indoor evaporator 19 is connected with an inlet pipeline of the; the other path is connected with an inlet pipeline of an outdoor control valve 12, an outlet pipeline of the outdoor control valve 12 is connected with an inlet pipeline of an outdoor expansion valve 13, an outlet pipeline of the outdoor expansion valve 13 is connected with an outlet pipeline of an outdoor evaporator 16, and an outlet pipeline of the outdoor evaporator 16 is connected with an inlet pipeline of a compressor 17; the condenser 24 is used for heat radiation, and the indoor evaporator 19 and the outdoor evaporator 16 are used for heat absorption. Air ducts 22 are uniformly distributed in the thermostatic chamber 9, and air outlets 27 are formed in the air ducts 22; the top of the thermostatic chamber is provided with an air return opening 21. The thermostatic chamber 8 comprises a maintaining bracket 10 of the thermostatic chamber, and a roller 26 is arranged on the maintaining bracket 10.

The technical scheme of the invention has the following substantial technical effects and the realization process: in the curing process of the curing kiln, the compressor 17 is started, the indoor evaporator 19 absorbs heat of the cooling chamber, the outdoor evaporator 16 absorbs external heat, the low-temperature low-pressure gaseous refrigerant in the indoor evaporator 19 and the low-temperature low-pressure gaseous refrigerant in the outdoor evaporator 16 are converged at one position and then compressed by the compressor 17 to form high-temperature high-pressure gaseous refrigerant, the high-temperature high-pressure gaseous refrigerant is conveyed to the condenser 24 of the thermostatic chamber 9 through a pipeline, the high-temperature high-pressure gaseous refrigerant is converted into low-temperature high-pressure liquid refrigerant after heat exchange by the condenser 24 and returns to the liquid storage tank 11, the low-temperature high-pressure liquid refrigerant in the liquid storage tank 11 is divided into two paths, one path of the low-temperature high-pressure liquid refrigerant flows into the indoor expansion valve 18 through the indoor control valve; the other path of refrigerant flows into an outdoor expansion valve 13 through an outdoor control valve 12, is throttled and decompressed through the outdoor expansion valve 13, is changed into low-temperature and low-pressure gaseous refrigerant in an outdoor evaporator 16 to participate in heat exchange, and is converged into a compressor 17 through a pipeline to be compressed into high-temperature and high-pressure gaseous refrigerant to circulate.

In the embodiment, the heat exchange fans 7 are arranged at the positions of the warming chambers 3, which correspond to the warming chambers 2 one by one, and the heat in the warming chambers 2 is transferred to the warming chambers 3 through the heat exchange fans 7, so that heat loss is avoided; the indoor evaporator 19 and the condenser 24 in the thermostatic chamber 9 are arranged in the final cooling area of the cooling chamber 2 to form a heat circulation system, so that heat energy generated in the final maintenance process is transferred to the thermostatic chamber 9 to participate in the maintenance process, and thus, only part of heat in the maintenance kiln needs to be provided by a heating system formed by the outdoor evaporator 16 in the outdoor machine room 1 and the condenser 24 in the thermostatic chamber 9, and the purpose of reducing energy consumption is achieved.

In this embodiment, an air duct 22 is disposed in the thermostatic chamber 9, an air outlet 27 is disposed on the air duct 22, and hot air is sent into the curing kiln through the uniformly distributed air outlets 27.

The utility model discloses the working process is as follows: placing the prefabricated parts on a moving platform of a heating chamber, enabling the prefabricated parts to pass through each heating area to a thermostatic chamber 9 at a constant speed through a moving platform 5 in the heating chamber 2, transferring a prefabricated part mould table to a lifting moving platform 8 in the thermostatic chamber, and transporting the prefabricated parts to a proper position for maintenance through the lifting moving platform 8. After the curing is finished, the prefabricated part can be transferred to the mobile platform of the cooling chamber 2 through the lifting mobile platform, the prefabricated part is cooled through uniform-speed movement, and then the prefabricated part is conveyed out of the curing kiln.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

The technical effect that above structure was realized realizes clearly, if do not consider additional technical scheme, this patent name can also be a novel environmental protection and energy saving structure. Some details are not shown in the figures.

It should be noted that the plurality of schemes provided in this patent include their own basic schemes, which are independent of each other and are not restricted to each other, but they may be combined with each other without conflict, so as to achieve a plurality of effects.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, all of which are intended to be covered by the appended claims.

Claims (7)

1. A low energy consumption curing kiln is characterized in that: the maintenance kiln comprises a heating chamber (3), a thermostatic chamber (9), a cooling chamber (2) and an outdoor machine room (1), wherein the outdoor machine room, the heating chamber and the cooling chamber are arranged in parallel, the thermostatic chamber is further arranged on the side of the outdoor machine room, the heating chamber and the cooling chamber, and a heat exchange fan (7) and a ventilation opening (25) are arranged between the regions corresponding to the heating chamber and the cooling chamber one by one.

2. A low energy maintenance kiln according to claim 1, characterized in that the temperature raising chamber has more than one temperature raising area separated by an air curtain machine (6), and the temperature is raised from the inlet of the temperature raising chamber to the inlet of the thermostatic chamber in sequence; the cooling chamber is provided with the same number of cooling areas separated by the air curtain machine, and is in one-to-one correspondence with the heating chambers, and the temperature is sequentially reduced from the outlet of the constant temperature chamber to the outlet of the cooling chamber; the heat exchange fans (7) and the ventilation openings (25) form a local heat circulation system in the regions corresponding to the heating chamber and the cooling chamber one by one.

3. A low energy consumption curing kiln as defined in claim 1, wherein the outlet of the compressor (17) is connected to the inlet pipe of the condenser (24) through a pipe, the outlet pipe of the condenser (24) is connected to the inlet pipe of the liquid storage tank (11), the outlet pipe of the liquid storage tank (11) is divided into two paths, one path is connected to the inlet pipe of the indoor control valve (14), the outlet pipe of the indoor control valve (14) is connected to the inlet pipe of the indoor expansion valve (18), the outlet pipe of the indoor expansion valve (18) is connected to the inlet pipe of the indoor evaporator (19), and the outlet pipe of the indoor evaporator (19) is connected to the inlet pipe of the compressor (17); the other pipeline of the outlet of the liquid storage tank (11) is connected with an inlet pipeline of an outdoor control valve (12), an outlet pipeline of the outdoor control valve (12) is connected with an inlet pipeline of an outdoor expansion valve (13), an outlet pipeline of the outdoor expansion valve (13) is connected with an outlet pipeline of an outdoor evaporator (16), and an outlet pipeline of the outdoor evaporator (16) is connected with an inlet pipeline of a compressor (17); the condenser (24) is used for heat dissipation, and the indoor evaporator (19) and the outdoor evaporator (16) are used for heat absorption.

4. A low energy consumption curing kiln as defined in claim 1, characterized in that the ventilation ducts (22) are uniformly distributed in the thermostatic chamber (9), and the ventilation ducts (22) are provided with air outlets (27); an air return opening (21) is arranged at the top of the thermostatic chamber.

5. A low energy consumption curing kiln as defined in claim 4, wherein the condenser (24) in the thermostatic chamber radiates heat to air to form hot air, the heat radiation fan (23) can send the hot air into the thermostatic chamber through the air outlet (27) on the air duct (22) to heat the thermostatic chamber, and the radiated air can return to the condenser (24) through the air return opening (21) to form a circulation.

6. A low energy consumption curing kiln as defined in claim 1, characterized in that the thermostatic chamber (9) comprises a thermostatic chamber curing support (10), and the curing support (10) is provided with rollers (26).

7. A low energy maintenance kiln according to claim 1, characterized in that the heating chamber (3) is provided with a track (4) and a moving platform (5), and the prefabricated parts can be transported to the thermostatic chamber by the moving platform (5); a track and a lifting moving platform (8) are erected in the thermostatic chamber (9), and the prefabricated part can be transferred to a maintenance position through the lifting moving platform (8); and a track and a moving platform are also erected in the cooling chamber (2) and used for conveying components for cooling, curing and discharging from the kiln.

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