CN113062533A - Novel steel construction factory building roofing cooling system - Google Patents

Abstract

The utility model belongs to the technical field of steel construction roofing and specifically relates to a novel steel construction factory building roofing cooling system is related to, a novel steel construction factory building roofing cooling system of one of which for the roof boarding cooling, cooling system includes cooling tube, coolant tank and water pump, and the cooling tube is located the roof boarding, cooling tube and roof boarding fixed connection, the end of intaking of water pump and coolant tank's export fixed connection and intercommunication, the delivery end and the cooling tube one end fixed connection and the intercommunication of water pump, the water pump one end and coolant tank's import fixed connection and intercommunication are kept away from to the cooling tube. In this application, through the setting of cooling tube, coolant tank and water pump, utilize the physical mode to realize the cooling to in the factory building, reduced the harmful gas that produces among the cooling process to reach the effect to the harm that produces the environment when having reduced the factory building cooling.

Description

Novel steel construction factory building roofing cooling system

Technical Field

The application relates to the field of steel structure roofs, in particular to a novel steel structure factory building roof cooling system.

Background

With the vigorous development of the economy of China, the number of building plants is continuously increased, and the building plants are widely applied to the processing industry and the logistics industry; the steel structure type factory building is adopted in the building factory building, the steel structure factory building is light in weight, high in strength, quick to build and low in construction cost.

The roofing of steel construction factory building adopts the steel construction board preparation to form, and when summer weather was hot, the factory building inside temperature was high, and the air conditioner can be opened to the workman during operation in the factory building, utilizes the air conditioner to cool down in the factory building.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: harmful gas can be generated when the air conditioner is used, and the harmful gas is spread in the air, so that the harm to the environment is large when the plant is cooled.

Disclosure of Invention

In order to reduce the harm that produces the environment when the factory building cooling, this application provides a novel steel construction factory building roofing cooling system.

The application provides a pair of novel steel construction factory building roofing cooling system adopts following technical scheme:

the utility model provides a novel steel construction factory building roofing cooling system for the roof boarding cooling, cooling system includes cooling tube, coolant tank and water pump, and the cooling tube is located the roof boarding, cooling tube and roof boarding fixed connection, the end of intaking of water pump and coolant tank's export fixed connection and intercommunication, the play water end and cooling tube one end fixed connection and the intercommunication of water pump, the cooling tube is kept away from water pump one end and coolant tank's import fixed connection and intercommunication.

By adopting the technical scheme, when the weather is hot, the water pump is started, the cooling water in the cooling water tank passes through the water pump and enters the cooling pipe under the action of the water pump, the cooling water flows in the cooling pipe, the heat of the roof is absorbed in the flowing process of the cooling water, and the heat in the plant is absorbed by the cooling water through the transmission of the roof, so that the cooling in the plant is realized; because one end of the cooling pipe, which is far away from the water pump, is fixedly connected and communicated with the inlet of the cooling water tank, the water flow after absorbing heat flows into the cooling tank to be cooled again, then the water flow circularly flows, and the plant is continuously cooled by using cooling water; through the setting of cooling pipe, coolant tank and water pump, utilize the physical mode to realize the cooling to in the factory building, reduced the harmful gas that produces among the cooling process to reach the effect of the harm that produces the environment when having reduced the factory building cooling.

Optionally, the cooling pipe includes first pipe and second pipe, and the first pipe is provided with a plurality of, and the second pipe is provided with two, two second pipes respectively with the both ends fixed connection and the intercommunication of the first pipe of a plurality of, two second pipes respectively with the delivery port of water pump and coolant tank's import fixed connection and intercommunication.

Through adopting above-mentioned technical scheme, through the setting of two second pipes, communicate between the first pipe both ends of a plurality of, realized the reposition of redundant personnel and the confluence of cooling water in the first intraductal of a plurality of, the cooling water is cooled down the roofing when a plurality of first intraductal flows, and the setting of cooling pipe quantity has improved the even degree of roofing cooling.

Optionally, two ends of the two second pipes, which are connected with the water pump and the cooling water tank, are respectively located at diagonal positions of the two second pipes.

Through adopting above-mentioned technical scheme, the position of intaking in the cooling tube and the position of going out water are located the diagonal angle of cooling tube to the flow path of the interior comdenstion water of cooling tube has been prolonged, has further improved the cooling effect of cooling tube.

Optionally, the cooling pipe, the cooling water tank and the water pump are all provided with two, one of them cooling water tank and a water pump are a set, cooling pipe one end and a set of water pump play water end fixed connection and intercommunication, the other end and another set of cooling water tank import fixed connection.

Through adopting above-mentioned technical scheme, because the one end that the water pump was kept away from to the cooling tube and another a set of coolant tank fixed connection and intercommunication, rivers after the heat absorption in the cooling tube get into become the cooling water again in another a set of coolant tank, later flow through in carrying out former coolant tank behind another cooling tube for rivers have been cooled off twice in the round moves, thereby have improved the cooling effect of cooling system to the factory building.

Optionally, the power of the two water pumps is the same when in use.

Through adopting above-mentioned technical scheme, because the power of two water pumps is the same, the power that provides when two water pumps are rivers and flow is the same, and then makes the interior rivers flow velocity of two cooling tubes keep the same, has realized the equilibrium of rivers in two cooling water tank of cooling process simultaneously, has improved the stability that rivers flow in cooling system, reduces the probability that rivers overflow from cooling water tank is overfull to appear.

Optionally, a water flow speed detection valve is arranged between the water pump and the cooling pipe, and two ends of the water flow speed detection valve are respectively fixedly connected and communicated with the water outlet end of the water pump and the cooling pipe.

Through adopting above-mentioned technical scheme, utilize the velocity of flow that the velocity of flow check valve comes real-time supervision cooling water, compare through the velocity of flow numerical value to two velocity of flow check valves detection simultaneously, judge whether the service power of two water pumps is the same according to the contrast result to whether the convenience that detects two water pump service power is the same has been improved.

Optionally, the water flow rate detection valve is connected with a control handle for controlling the flow rate of water flow.

Through adopting above-mentioned technical scheme, utilize control to control the flow speed to the cooling water, when the cooling water flow is fast, the cooling water heat absorption is many, and the decline value of temperature in the factory building is big, through the setting of control handle, has realized the control to the interior cooling effect of factory building, makes the factory building cool down to required temperature, and then has improved the practicality of cooling effect.

Optionally, a guide plate is arranged between the outlet and the inlet of the cooling water tank, and the guide plate is fixedly connected with the inner wall of the cooling water tank.

Through adopting above-mentioned technical scheme, utilize the guide plate to lead to the flow of rivers in the cooling water tank to the flow path of extension rivers improves the cooling effect of rivers in cooling water tank.

Optionally, the heat insulation board, the waterproof board and the heat insulation board are sequentially arranged on the roof panel from inside to outside, the heat insulation board, the waterproof board and the heat insulation board are sequentially and fixedly connected, and the side face, away from the waterproof board, of the heat insulation board is fixedly connected with the outer side of the roof panel.

By adopting the technical scheme, the heat insulation plate is used for insulating the cooled roof, so that the loss of the roof coldness is reduced; rainwater is blocked by the waterproof board, so that the probability of rainwater permeating into the roof board is reduced, and the service cycle of the roof board is prolonged; the heat insulation plate is used for shielding sunlight, so that the external sunlight is separated from the roof plate, the heat insulation effect is achieved, and the temperature in a factory building is further reduced.

Optionally, the heat insulation board is suspended on the waterproof board, a suspension block is arranged between the heat insulation board and the waterproof board, and two ends of the suspension block are respectively fixedly connected with the heat insulation board and the waterproof board.

Through adopting above-mentioned technical scheme, utilize the suspension piece to establish the suspension of heat insulating board and provide the support, the setting up of suspension piece makes the gap have between heat insulating board and the waterproof board simultaneously, and the air passes in the gap, and the air is taken away the heat that the heat insulating board is close to waterproof board one side and waterproof board and keep away from most heat on one side of the heated board to reduced the temperature size that heat insulating board and waterproof board passed to the roof boarding, reached the purpose of thermal-insulated cooling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the cooling pipe, the cooling water tank and the water pump, the interior of the plant is cooled in a physical mode, and harmful gas generated in the cooling process is reduced, so that the effect of reducing harm to the environment when the plant is cooled is achieved;

2. the cooling pipe, the cooling water tank and the water pump are arranged in two, so that water flow is cooled twice in one circle of movement, and the cooling effect of the cooling system on a workshop is improved;

3. through the setting of control handle, realized the control to the interior cooling effect of factory building, made the factory building cool down to required temperature, and then improved the practicality of cooling effect.

4. Through the setting to the suspension piece, the air is close to waterproof board one side with the heat insulating board and is taken away with the most heat that heated board one side was kept away from to the waterproof board, has reduced the temperature size that heat insulating board and waterproof board passed the roof boarding, reaches thermal-insulated cooling's purpose.

Drawings

FIG. 1 is a schematic structural diagram of a steel structure plant in the embodiment of the application;

fig. 2 is a schematic cross-sectional view of a roof panel in an embodiment of the application;

FIG. 3 is a schematic structural diagram of a steel structure factory building after a cooling pipe is exposed in the embodiment of the application;

fig. 4 is a schematic sectional view of a cooling water tank in an embodiment of the present application.

Description of reference numerals: 1. a steel structure factory building; 11. a wall body; 12. a roof panel; 121. a thermal insulation board; 122. a waterproof sheet; 123. a heat insulation plate; 1231. a suspension block; 2. a cooling system; 21. a cooling water tank; 211. an inlet; 2111. a water inlet pipe; 212. an outlet; 213. a water adding pipe; 22. a water pump; 221. a connecting pipe; 222. a water outlet pipe; 23. a cooling pipe; 231. a first tube; 232. a second tube; 3. a water flow rate detection valve; 31. a control handle; 4. a baffle; 41. a first plate; 42. a second plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses novel steel construction factory building roofing cooling system. Referring to fig. 1, on a novel steel structure factory building roofing cooling system setting and steel structure factory building 1, steel structure factory building 1 includes wall body 11 and the roof boarding 12 of steel construction, 11 vertical settings of wall body and factory building place ground, 11 bottom of wall body and ground fixed connection, roof boarding 12 and 11 top fixed connection of wall body, cooling system 2 sets up between roof boarding 12 and wall body 11. When summer weather is hot, utilize cooling system 2 to cool down roof boarding 12, through the transmission of roof boarding 12 to the temperature, make the inside temperature reduction of factory building.

Referring to fig. 2, a heat insulation board 121, a waterproof board 122 and a heat insulation board 123 are sequentially arranged on a roof panel 12 along a direction away from a wall 11, the heat insulation board 121, the waterproof board 122 and the heat insulation board 123 sequentially cover a side of the roof panel 12 away from the wall 11, the heat insulation board 121 is made of heat insulation cotton, the side of the heat insulation board 121 away from the waterproof board 122 is fixedly connected with the side of the roof panel 12 away from the wall 11, the waterproof board 122 is a board formed by pressing waterproof materials, the side of the waterproof board 122 away from the heat insulation board 123 is fixedly connected with the side of the heat insulation board 121 away from the roof panel 12, the heat insulation board 123 is suspended on one side of the waterproof board 122 away from the heat insulation board 121, the heat insulation board 123 is made of heat insulation reflective materials, a suspension block 1231 is arranged between the heat insulation board 123 and the waterproof board 122, the suspension block 1231 is perpendicular to the heat insulation board 123 and the waterproof, the two ends of the suspension block 1231 are respectively and fixedly connected with the side of the waterproof board 122 far away from the insulation board 121 and the side of the insulation board 123 close to the waterproof board 122.

The heat insulation board 121, the waterproof board 122 and the heat insulation board 123 are sequentially laid on one side, away from the wall body 11, of the roof board 12, and the heat insulation board 121 insulates the cooled roof board 12 to reduce the loss of the coldness of the roof board 12; the waterproof board 122 blocks external rainwater to prevent the rainwater from penetrating into the roof board 12 after penetrating through the heat insulation board 121, so that damage of the roof board 12 caused by the rainwater is reduced; then fix suspension piece 1231 in the side department that the heated board 121 was kept away from to waterproof board 122, erect heat insulating board 123 in suspension piece 1231 and keep away from waterproof board 122 one side again to fix, heat insulating board 123 shelters from sunshine, leave the gap the same with suspension piece 1231 thickness between heat insulating board 123 and the waterproof board 122, under the effect of hot pressing, the air passes the gap and flows, and the air is cooled down waterproof board 122 and heat insulating board 123 when flowing in the gap.

Referring to fig. 1 and 3, cooling system 2 includes coolant tank 21, water pump 22 and cooling tube 23, coolant tank 21, water pump 22 and cooling tube 23 all are provided with two, two cooling tube 23 are laid inside roof boarding 12 along the length direction of roof boarding 12, two cooling tube 23 parallel arrangement, two coolant tanks set up respectively in roof boarding 12 both sides, two water pumps 22 are located same one side of roof boarding 12 with two coolant tanks respectively, coolant tank 21's import 211 and cooling tube 23 one end fixed connection and intercommunication, coolant tank 21's export 212 and homonymy water pump 22's the end fixed connection and intercommunication of intaking, water pump 22's the water outlet end and another cooling tube 23 one end fixed connection and intercommunication, coolant tank 21 and the water pump 22 of homonymy are located between two cooling tube 23.

When using cooling system 2 to cool down roof boarding 12, start two water pumps 22 simultaneously, under the effect of two water pumps 22, the cooling water in two cooling water tank 21 all passes in cooling water tank 21's export 212 gets into water pump 22, later cold water passes in water pump 22 gets into cooling tube 23, the heat of roof boarding 12 is taken away when the cooling water flows in cooling tube 23, and then cool down the factory building, later the cooling water passes cooling tube 23 and gets into in cooling water tank 21 of opposite side and be cooled off once more, after the cooling under the effect of opposite side water pump 22, get into in another cooling tube 23, later pass in former cooling water tank 21 of inflow behind another cooling tube 23, the water resource is circulating flow in cooling system 2, can carry out the continuation and steadily cooling down to roof boarding 12.

In the cooling process, the physical mode of water cooling is utilized to realize cooling in the plant, so that harmful gas generated in the cooling process is reduced, and the effect of harm to the environment when the plant is cooled is achieved.

Referring to fig. 3, outer side wall of cooling pipe 23 and inner wall of roof boarding 12 are fixedly connected, cooling pipe 23 includes first pipe 231 and second pipe 232, first pipe 231 sets up along the width direction of roof boarding 12, the mode that first pipe 231 intermediate position is to keeping away from wall body 11 is protruding, first pipe 231 is parallel and evenly is provided with a plurality ofly, second pipe 232 is provided with two along the length direction of roof boarding 12, two second pipes 232 are located the both ends of a plurality of first pipes 231 respectively, and the both sides wall that two second pipes 232 are close to each other respectively with the both ends fixed connection and the intercommunication of a plurality of first pipes 231, it is open structure to flow into second pipe 232 earlier along the water flow direction and keep away from cooling water tank 21 one end, the second pipe 232 that later flows in is close to cooling water tank 21 one end.

When cooling water flows into cooling pipe 23, cooling water flows into second pipe 232 close to cooling water first, cooling water flows into second pipe 232 from the one end that second pipe 232 kept away from coolant tank 21, then cooling water shunts in second pipe 232, the stranded cooling water rivers of reposition of redundant personnel flow along a plurality of first pipes 231 respectively, later stranded cooling water rivers all flow into in another second pipe 232, and merge in another second pipe 232, later flow out at the one end that another second pipe 232 is close to coolant tank 21, the length of the route of flow of each rivers in cooling pipe 23 is the same, utilize each rivers to carry out even cooling to roof boarding 12.

Referring to fig. 4, cooling water tank 21 is horizontally arranged, the lateral wall of cooling water tank 21 close to wall 11 is fixedly connected to wall 11, cooling water tank 21 is located on one side of water pump 22 away from cooling pipe 23 into which cooling water flows first, the inner cavity of cooling water tank 21 is used for holding water, outlet 212 of cooling water tank 21 is horizontally arranged at the lateral wall of cooling water tank 21 close to water pump 22, a connecting pipe 221 is arranged between outlet 212 and water pump 22, two ends of connecting pipe 221 are respectively fixedly connected and communicated with inlet ends of outlet 212 and water pump 22, inlet 211 of cooling water tank 21 is located at one end of cold zone water tank far from outlet 212, inlet 211 is arranged at the top end of cooling water tank 21, inlet pipe 2111 is arranged between inlet 211 and another cooling pipe 23, inlet pipe 2111 is a hard pipe, two ends of inlet pipe 2111 are respectively fixedly connected and communicated with inlet 211 and one end of second pipe 232 of another cooling.

After passing through the outlet 212, the cooling water in the cooling water tank 21 enters the water pump 22 along the connecting pipe 221 and then flows into the cooling pipe 23 close to the water pump 22; meanwhile, after cold water in another cooling tank passes through another cooling pipe 23, the cold water enters the cooling water tank 21 from the inlet 211 along the water inlet pipe 2111, and the water quantity in the cooling water tank 21 is kept stable.

Referring to fig. 4, a water adding pipe 213 is vertically disposed at the top end of the cooling water tank 21, the bottom end of the water adding pipe 213 is fixedly connected and communicated with the top end of the cooling water tank 21, and the water adding pipe 213 is located between the inlet 211 and the outlet 212. The amount of water is added to the cooling water tank 21 through the water addition pipe 213.

Referring to fig. 4, a flow guide plate 4 is arranged in the cooling water tank 21, the flow guide plate 4 is arranged between the inlet 211 and the outlet 212, the flow guide plate 4 is arranged along the width direction of the cooling water tank 21, the flow guide plate 4 includes a first plate 41 and a second plate 42 which are arranged in parallel, the first plate 41 and the second plate 42 are both arranged vertically, the first plate 41 is located between the second plate 42 and the inlet 211, the top end of the first plate 41 is fixedly connected with the top wall of the cooling water tank 21, two side walls of the first plate 41 are respectively fixedly connected with the inner side wall of the cooling water tank 21, a gap is left between the bottom end of the first plate 41 and the bottom wall of the cooling water tank 21, the second plate 42 is located between the first plate 41 and the outlet 212, the bottom end of the second plate 42 is fixedly connected with the bottom wall of the cooling water tank 21, two side walls of the second plate 42 are respectively fixedly connected.

The water flow flowing into the cooling water tank 21 from the inlet 211 flows toward the bottom wall of the cooling water tank 21 along the first plate 41, then flows through the gap between the bottom end of the first plate 41 and the bottom wall of the cooling water tank 21, flows toward the top wall of the cooling water tank 21 in the vertical direction in the region of the first plate 41 and the second plate 42, then flows toward the region between the second plate 42 and the outlet 212 after flowing through the gap between the top end of the second plate 42 and the top end of the cooling water tank 21, and finally flows out from the outlet 212; the flow path of the water flow in the cooling water tank 21 in the whole process is increased, and meanwhile, the cooling time of the water flow in the cooling water tank 21 is increased, so that the water flow is sufficiently cooled.

Referring to fig. 4, the water pumps 22 are fixedly connected to the side wall of the wall 11, the two water pumps 22 have the same power when in use, a water outlet pipe 222 is disposed between the water pumps 22 and the cooling pipe 23 close to the water pumps 22, the water outlet pipe 222 is a hard pipe, two ends of the water outlet pipe 222 are respectively fixedly connected and communicated with a water outlet end of the water pump 22 and one end of the second pipe 232 close to the water pump 22, which is far away from the other cooling pipe 23, a water flow rate detection valve 3 is sleeved outside the water outlet pipe 222, the water flow rate detection valve 3 is fixedly connected and communicated with the water outlet pipe 222, the water flow rate detection valve 3 is further connected with a control.

Simultaneously starting the two water pumps 22, enabling the two water pumps 22 to work at the same power, and stably circulating the water in the two cooling water tanks 21; when cooling water in the water pump 22 enters the cooling pipe 23 along the water outlet pipe 222, in the process of flowing of the cooling water in the water outlet pipe 222, the flowing speed of the cooling water in the water outlet pipe 222 is detected by using the water flowing speed detection valve 3, meanwhile, the flowing speed of the cooling water is controlled by using the control handle 31, when the flowing speed of the cooling water is accelerated, the speed of the cooling water for taking away heat from the roof plate 12 is accelerated, the cooling speed in the plant is accelerated, meanwhile, the flowing speed of the cooling water is accelerated, the circulating times of the cooling water in the cooling system 2 are increased, and the amplitude of temperature reduction in the plant is increased.

The implementation principle of the novel steel structure factory building roof cooling system in the embodiment of the application is as follows: when the cooling system 2 is used for cooling the inside of a factory building, firstly, the heat insulation plate 123 is used for shielding the irradiation of sunlight on the roof panel 12, and then the heat insulation plate 121 is used for insulating the roof panel 12 in the process of cooling the roof panel 12; then start two water pumps 22 simultaneously, under water pump 22's effect, the cooling water in two cooling water tank 21 gets into two cooling tube 23 respectively after passing water pump 22 in, the cooling water drives heat in the factory building when flowing in cooling tube 23, the temperature in the factory building reduces, the cooling water gets into and cools off in another cooling water tank 21 after the heat absorption, later get back to in former cooling water tank 21 again after passing another cooling tube 23 in, later rivers flow according to above-mentioned step circulation, continuously cool down to the factory building.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a novel steel construction factory building roofing cooling system for roof boarding (12) cooling, its characterized in that: cooling system (2) are including cooling tube (23), coolant tank (21) and water pump (22), cooling tube (23) are located roof boarding (12), cooling tube (23) and roof boarding (12) fixed connection, the end of intaking of water pump (22) and export (212) fixed connection and the intercommunication of coolant tank (21), the play water end and cooling tube (23) one end fixed connection and the intercommunication of water pump (22), the import (211) fixed connection and the intercommunication of water pump (22) one end and coolant tank (21) are kept away from in cooling tube (23).

2. The novel steel structure factory building roof cooling system of claim 1, characterized in that: the cooling pipe (23) comprises a first pipe (231) and a second pipe (232), the first pipe (231) is provided with a plurality of pipes, the second pipe (232) is provided with two pipes, the two second pipes (232) are respectively fixedly connected with the two ends of the first pipes (231) and communicated with the two ends of the first pipes, and the two second pipes (232) are respectively fixedly connected with the water outlet of the water pump (22) and the inlet (211) of the cooling water tank (21) and communicated with the water outlet of the water pump (22).

3. The novel steel structure factory building roof cooling system of claim 2, characterized in that: the two ends of the two second pipes (232) connected with the water pump (22) and the cooling water tank (21) are respectively positioned at the diagonal positions of the two second pipes (232).

4. The novel steel structure factory building roof cooling system of claim 1, characterized in that: the cooling pipe (23), the cooling water tank (21) and the water pump (22) are all provided with two, one of them cooling water tank (21) and one water pump (22) are a set, cooling pipe (23) one end and a set of water pump (22) play water end fixed connection and intercommunication, the other end and another set of cooling water tank (21) import (211) fixed connection.

5. The novel steel structure factory building roof cooling system of claim 4, characterized in that: the two water pumps (22) have the same power when in use.

6. The novel steel structure factory building roof cooling system of claim 4, characterized in that: two all be provided with water velocity of flow check valve (3) between water pump (22) and cooling tube (23), the both ends of water velocity check valve (3) respectively with the play water end of water pump (22) and cooling tube (23) fixed connection and intercommunication.

7. The novel steel structure factory building roof cooling system of claim 6, characterized in that: the water flow speed detection valve (3) is connected with a control handle (31) for controlling the flow speed of water flow.

8. The novel steel structure factory building roof cooling system of claim 1, characterized in that: a guide plate (4) is arranged between an outlet (212) and an inlet (211) of the cooling water tank (21), and the guide plate (4) is fixedly connected with the inner wall of the cooling water tank (21).

9. The novel steel structure factory building roof cooling system of claim 1, characterized in that: the heat insulation plate (121), the waterproof plate (122) and the heat insulation plate (123) are sequentially arranged on the roof panel (12) from inside to outside, the heat insulation plate (121), the waterproof plate (122) and the heat insulation plate (123) are sequentially and fixedly connected, and the side face, away from the waterproof plate (122), of the heat insulation plate (121) is fixedly connected with the outer side of the roof panel (12).

10. The novel steel structure factory building roof cooling system of claim 9, wherein: the heat insulation board (123) is arranged on the waterproof board (122) in a hanging mode, a suspension block (1231) is arranged between the heat insulation board (123) and the waterproof board (122), and two ends of the suspension block (1231) are fixedly connected with the heat insulation board (123) and the waterproof board (122) respectively.

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