阅读说明：本技术 一种组装房的雨水循环系统 (Rainwater circulation system of assembly room ) 是由 王崇见 于 2021-09-24 设计创作，主要内容包括：发明属于零时住房领域,为一种组装房的雨水循环系统,一种组装房的雨水循环系统,包括底座,所述底座上端固定设有底板,所述底座四角上端固定设有支柱,所述左侧两个支柱和所述右侧两个支柱之间各固定设有一个侧板,所述前侧两个支柱之间固定设有前端板,所述后侧两个支柱之间固定设有后端板。本发明在建筑工地遭到降水天气时将水收集储存,同时转换水的动能为电能储存,在高温天气时,自动抽取储存的水于房顶用于降温,同时排风扇排出室内高温空气加速降温,提高组装房在经受高温后的居住舒适度,减小因给组装房降温而产生的能耗,整个过程是在自然天气的影响下完成不需要额外的能源作为动力。(The invention belongs to the field of zero hour housing, and relates to a rainwater circulating system of an assembled house, which comprises a base, wherein a bottom plate is fixedly arranged at the upper end of the base, supporting columns are fixedly arranged at the upper ends of four corners of the base, a side plate is fixedly arranged between two supporting columns on the left side and two supporting columns on the right side respectively, a front end plate is fixedly arranged between the two supporting columns on the front side, and a rear end plate is fixedly arranged between the two supporting columns on the rear side. The invention collects and stores water when the construction site suffers from precipitation weather, simultaneously converts kinetic energy of the water into electric energy for storage, automatically extracts the stored water on the roof for cooling in high-temperature weather, and simultaneously discharges indoor high-temperature air by the exhaust fan for accelerated cooling, thereby improving the living comfort of the assembled house after suffering from high temperature, reducing energy consumption caused by cooling the assembled house, and completing the whole process without using extra energy as power under the influence of natural weather.)

1. A rainwater circulating system of an assembled house comprises a base (10) and is characterized in that, a bottom plate (11) is fixedly arranged at the upper end of the base (10), the upper ends of four corners of the base (10) are fixedly provided with supporting columns (12), a side plate (13) is respectively and fixedly arranged between the two left pillars (12) and the two right pillars (12), a front end plate (15) is fixedly arranged between the two pillars (12) at the front side, a rear end plate (14) is fixedly arranged between the two pillars (12) at the rear side, a power generation device is fixedly arranged in the lower right corner of the rear end plate (14), a power generator set (17) is fixedly arranged on the right rear side of the bottom plate (11), generating set (17) with rear end plate (14) are fixed, four fixed roof (16) that are equipped with on pillar (12), roof (16) upper end right back is fixed and is equipped with ponding and stores the device.

2. A rainwater circulation system for an assembled house according to claim 1, wherein: base (10) upper portion is water storage chamber (43), and water storage chamber baffle bottom and top respectively have a through-hole to connect different water storage chambeies, base (10) water storage chamber lateral wall upper end is equipped with rivers direction control device, water storage chamber (43) lateral wall bottom is equipped with the suction pump, there is the boss in base (10) four corners, there is square cylinder on base (10) the boss, every bottom plate (11) four corners has square notch, bottom plate (11) upper surface front and back end respectively has a semi-circular boss, bottom plate (11) upper surface left and right sides respectively has two semi-circular bosses, base (10) four corners boss with bottom plate (11) four corners breach fixed connection, there is square through hole pillar (12) middle part, there is the tenon adjacent two sides pillar (12), bottom plate (11) pillar (12) curb plate (13), The rear end plate (14), the front end plate (15) and the roof (16) are connected in a matched mode through a mortise and tenon joint structure.

3. A rainwater recycling system for an assembled house according to claim 2, wherein: rear end plate (14) right side is equipped with the inlet opening, rear end plate (14) right side downside is equipped with the power generation facility installation cavity, rear end plate (14) inlet opening is connected to rear end plate (14) installation cavity, rear end plate (14) installation cavity right side downside is the wash port, rear end plate (14) installation cavity face rear end plate (14) delivery port slope, the fixed solenoid directional valve (24) that is equipped with in rear end plate (14) installation cavity below, rear end plate (14) wash port is connected to solenoid directional valve (24), rear end plate (14) right side downside is equipped with and is located the left reservoir hole of solenoid directional valve (24), rear end plate (14) right side downside is equipped with the outer round of stock hole that is located solenoid directional valve (24) right side, solenoid directional valve (24) when circular telegram communicate with the reservoir hole, then communicate with outer round of stock hole when the outage.

4. A rainwater circulation system for an assembled house according to claim 3, wherein: the water flow direction control device comprises a floating rod (19) which is rotatably arranged at the upper end of the side wall of the water storage cavity of the base (10), a floating ball (20) is fixedly arranged at the head of the floating rod (19), a photoelectric door baffle is fixedly arranged at the tail of the floating rod (19), a photoelectric switch (18) is fixedly arranged at the upper end of the side wall of the water storage cavity of the base (10), and the photoelectric switch (18) controls the electromagnetic reversing valve (24).

5. A rainwater recycling system for assembled houses according to claim 4, wherein: ponding stores device is in including fixed setting shell (32) in roof (16) upper end right back, shell (32) are rotated and are equipped with rotation door (34), rotation door (34) with shell (32) are connected with reset spring (33), rotation door (34) are rotated and are equipped with runner (35), shell (32) are fixed and are equipped with slide rail (36), slide rail (36) slide and are equipped with kicking block (37), shell (32) are fixed and are equipped with electromagnetism reset valve (39), electromagnetism reset valve (39) slide and are equipped with stopper (38), shell (32) side has the water inlet, shell (32) water inlet outside is fixed and is equipped with filter screen (41).

6. A rainwater recycling system for assembled houses according to claim 5, wherein: the power generation device comprises a rear end cover (31) fixedly arranged in a rear end plate (14) mounting cavity, a supporting sleeve (22) is fixedly arranged on the rear end cover (31), a water fan (21) is arranged outside the supporting sleeve (22) in a rotating mode, a large gear (26) is fixedly arranged at the front end of the supporting sleeve (22), a bearing (42) is fixedly arranged on the rear end cover (31), the fan (23) is arranged in a rotating mode through the bearing (42), a first belt pulley (29) is fixedly arranged on the fan (23), a belt (28) is arranged on the first belt pulley (29), a power generator set (17) is fixedly arranged on a bottom plate (11), a transmission shaft is arranged on the power generator set (17), a second belt pulley (30) is fixedly arranged on the transmission shaft of the power generator set (17), and a front end cover (27) is fixedly arranged at the front portion of the rear end plate (14).

Technical Field

The invention belongs to the field of zero-hour houses, and particularly relates to a rainwater circulation system of an assembled house.

Background

Due to the characteristics of temporality and the purpose of controlling cost, the assembled house is often used as a dormitory of workers in the construction site, but the traditional assembled house does not particularly pay attention to modularization, and the installation process is complicated. Under the high temperature weather in summer, the temperature in the equipment room can be higher, leads to the travelling comfort of living relatively poor, and the workman often need last to open the air conditioner after work and reduce the indoor temperature of equipment room and just can keep a comfortable living space, takes time and takes electricity and has also shortened the arrangement of the autonomic time of workman after work. The assembled house is a zero hour house, and is not supported by a stable circuit, so that the electricity consumption in the assembled house is difficult, and the condition of sudden power failure cannot be met.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a rainwater circulation system of an assembly room.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a rainwater circulation system in equipment room, the on-line screen storage device comprises a base, the fixed bottom plate that is equipped with in base upper end, the fixed pillar that is equipped with in base four corners upper end, two pillars in left side with respectively fix between two pillars in the right side and be equipped with a curb plate, the fixed front end plate that is equipped with between two pillars in front side, the fixed rear end plate that is equipped with between two pillars in rear side, the fixed power generation facility that is equipped with in rear end plate lower right corner, the fixed generating set that is equipped with in right rear side on the bottom plate, generating set with the rear end plate is fixed, four the fixed roof that is equipped with on the pillar, the fixed ponding that is equipped with in roof upper end right back stores the device.

Preferably, base upper portion is the water storage chamber, and water storage chamber baffle bottom and top respectively have a through-hole to connect different water storage chambeies, base water storage chamber lateral wall upper end is equipped with rivers direction control device, water storage chamber lateral wall bottom is equipped with the suction pump, there is the boss base four corners, there is square column on the base boss, every the bottom plate four corners has square notch, bottom plate upper surface front and back end respectively has a semicircular boss, the bottom plate upper surface left and right sides respectively has two semicircular bosses, base four corners boss with bottom plate four corners breach fixed connection, there is square through hole at the pillar middle part, there is the tenon the adjacent two sides of pillar, the bottom plate the pillar the curb plate the back end plate the front end plate with the roof passes through tenon fourth of the twelve earthly branches structure cooperation and connects.

Preferably, the rear end plate right side is equipped with the inlet opening, rear end plate right side downside is equipped with the power generation facility installation cavity, the rear end plate inlet opening is connected to the rear end plate installation cavity, rear end plate installation cavity right side downside is the wash port, rear end plate installation cavity lower chamber towards the rear end plate delivery port slope, the fixed solenoid directional valve that is equipped with in rear end plate installation cavity below, the rear end plate wash port be connected to the solenoid directional valve, rear end plate right side downside is equipped with and is located the left reservoir hole of solenoid directional valve, rear end plate right side downside is equipped with the outer round of hole that is located the solenoid directional valve right side, when the solenoid directional valve circular telegram with reservoir hole intercommunication, then with outer round of hole intercommunication during the outage.

Preferably, the water flow direction control device comprises a floating rod which is rotatably arranged at the upper end of the side wall of the base water storage cavity, a floating ball is fixedly arranged at the head of the floating rod, a photoelectric door baffle is fixedly arranged at the tail of the floating rod, a photoelectric switch is fixedly arranged at the upper end of the side wall of the base water storage cavity, and the photoelectric switch controls the electromagnetic directional valve.

Preferably, ponding stores device is including fixed setting the shell of roof upper end right back, the shell rotates and is equipped with the turnstile, the turnstile with reset spring connects for the shell, the turnstile rotates and is equipped with the runner, the shell is fixed to be equipped with the slide rail, the slide rail slides and is equipped with the kicking block, the shell is fixed to be equipped with the electromagnetism reset valve, the electromagnetism reset valve slides and is equipped with the stopper, there is the water inlet shell side, the fixed filter screen that is equipped with in shell water inlet outside.

Preferably, the power generation device comprises a rear end cover fixedly arranged in a rear end plate installation cavity, a support sleeve is fixedly arranged on the rear end cover, a water fan is arranged outside the support sleeve in a rotating mode, a large gear is fixedly arranged at the front end of the support sleeve, a bearing is fixedly arranged on the rear end cover, a fan is arranged in a rotating mode on the bearing, a first belt pulley is fixedly arranged on the fan, a belt is arranged on the first belt pulley, the power generation unit is fixedly arranged on the bottom plate and is provided with a transmission shaft, a second belt pulley is fixedly arranged on the transmission shaft of the power generation unit, and a front end cover is fixedly arranged on the front portion of the rear end plate.

When the dormitory of workers is required to be built on a building site, the base is fixed on the foundation, the bottom plate is embedded into the upper portion of the base, the pillars are fixed at the four corners of the base, the mortise grooves of the side plates, the rear end plate and the front end plate are fixed on the bottom plate along the tenon angles of the pillars, the roof is fixed on the pillars, the side plates, the rear end plate and the front end plate, the generator set is installed on the bottom plate, the generator set is connected with a power generation device in the rear end plate, and the shell and the filter screen are fixedly installed on the roof.

When the rain falls, the rotating door is closed, rainwater falling on a roof is filtered by the filter screen and enters the shell, the floating block is at a low position, the rotating wheel is suspended and does not contact with the inclined plane of the floating block, the rotating door is closed under the action of the return spring, the rainwater is enriched, the floating block floats upwards to a high position and contacts with the rotating wheel, the limiting block is popped by the spring to limit the position of the floating block, the rotating wheel drives the rotating door to rotate clockwise to an open state, the return spring is pressed to flow out along the water outlet of the shell and the water outlet of the roof, the water outlet of the roof is connected with the water inlet of the rear end plate, the water flows into the water inlet of the rear end plate, the buoyancy force applied to the floating block when the liquid level falls is reduced, the water flow is accelerated under the action of gravity in the water inlet of the rear end plate and acts on the water fan, the water fan rotates clockwise to drive the large gear to rotate clockwise, the small gear drives the small gear to rotate anticlockwise through meshing, the small gear and the second belt pulley coaxially rotate and drive the generator to generate electricity, still contain the battery among the power generation facility and be used for the energy storage, the belt drives first belt pulley anticlockwise rotation for the second belt pulley, first belt pulley is coaxial with the fan, the fan rotates and outwards arranges indoor gas through the rear end cap through-hole, generator current lets the electromagnetism reset valve circular telegram, the stopper is withdrawed in the electromagnetism reset valve timing start, the kicking block falls down, the runner is not supported by the kicking block inclined plane, reset spring resets, the rotating door is closed, rainwater is enriched once more in roof ponding pond.

The water flow which drives the water fan to rotate flows into a rear end plate drain hole along the lower inclined plane of the rear end plate mounting cavity, when the water surface of the base water storage cavity does not reach the highest point, the floating ball descends to the water surface to drive the floating rod to rotate, the photoelectric door baffle at the tail end of the floating rod ascends, the photoelectric switch is opened, the electromagnetic directional valve is powered on and powered on to form a left hole, the water flow is guided to enter the base water storage cavity, the base water storage cavity is full of water, the floating ball floats to the highest point, the photoelectric door plate at the tail part of the floating rod descends, the photoelectric switch is closed, the electromagnetic directional valve is powered off and powered on to form a right hole, and the water flow is directly discharged to the outside through the rear end plate drain hole.

During high temperature, the temperature detect switch and the time switch of series connection installation are opened in the equipment room, the motor starts to extract and stores water to roof ponding pond in the base, because the revolving door is in the closed condition, water is the gathering in roof ponding pond, the water evaporation heat absorption reduces equipment room temperature, the floating block come-up is opened the revolving door and is drained when ponding is too much, rivers drive water fan and fan rotate and generate electricity and indoor high temperature gas's discharge, and retrieve the ponding of taking out and carry out cyclic utilization, when arbitrary condition of temperature setting value and time setting value does not reach, the water pump is out of work, the circulation cooling system is out of work.

Compared with the prior art, the rainwater circulating system of the assembled house has the following advantages:

1. the automatic collection precipitation, regard water storage as cooling material, store the kinetic energy of water as the electric energy, as the power supply of cooling.

2. The cooling system can be automatically operated by relying on natural weather difference without external energy access.

3. Automatic control by temperature change detects, need not personnel's control and just can start the suction pump when indoor temperature reaches the definite value and cool down to the equipment room, and the kinetic energy that the cooling in-process water fell down is as fan moving power supply, and the drive fan will influence the key factor high-temperature gas discharge of travelling comfort, the quick effectual temperature that reduces in the equipment room.

4. Higher modularization degree, brand-new modularization design idea make the equipment of equipment room more convenient rapid.

Drawings

Fig. 1 is a schematic structural view of a rainwater circulation system of an assembled house.

Fig. 2 is a cross-sectional view of the water storage chamber 10 of fig. 1.

Fig. 3 is an enlarged sectional view taken at a in fig. 2.

Fig. 4 is an enlarged sectional view at B in fig. 1.

Fig. 5 is an enlarged sectional side view at B in fig. 1.

Fig. 6 is a schematic view of the structure of fig. 31.

Fig. 7 is an enlarged sectional view taken at C in fig. 1.

In the figure, 10, the base; 11. a base plate; 12. a pillar; 13. a side plate; 14. a rear end plate; 15. a front end plate; 16. A roof; 17. a generator set; 18. a photoelectric switch; 19. a float rod; 20. a floating ball; 21. a water fan; 22. a support sleeve; 23. a fan; 24. an electromagnetic directional valve; 25. a pinion gear; 26. a bull gear; 27. a front end cover; 28. A belt; 29. a first pulley; 30. a second pulley; 31. a rear end cap; 32. a housing; 33. a return spring; 34. a rotating door; 35. a rotating wheel; 36. a slide rail; 37. floating blocks; 38. a limiting block; 39. an electromagnetic reset valve; 40. a motor; 41. filtering with a screen; 42. a bearing; 43. a water storage cavity; .

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a rainwater circulation system of an assembly room, including a base 10, a bottom plate 11 is fixedly arranged at the upper end of the base 10, pillars 12 are fixedly arranged at the upper ends of four corners of the base 10, a side plate 13 is fixedly arranged between each of the two pillars 12 at the left side and each of the two pillars 12 at the right side, a front end plate 15 is fixedly arranged between the two pillars 12 at the front side, a rear end plate 14 is fixedly arranged between the two pillars 12 at the rear side, a power generation device is fixedly arranged at the lower right corner of the rear end plate 14, a power generation unit 17 is fixedly arranged at the rear right side on the bottom plate 11, the power generation unit 17 is fixed with the rear end plate 14, a roof 16 is fixedly arranged on the four pillars 12, and a seeper storage device is fixedly arranged at the rear right side of the upper end of the roof 16.

As shown in fig. 1, fig. 2 and fig. 3, base 10 upper portion is water storage chamber 43, water storage chamber baffle bottom and top respectively have a through-hole to connect different water storage chamber, base 10 water storage chamber lateral wall upper end is equipped with rivers direction control device, water storage chamber 43 lateral wall bottom is equipped with the suction pump, there is the boss in base 10 four corners, there is square column on the base 10 boss, there is square notch in every bottom plate 11 four corners, bottom plate 11 upper surface front and back end respectively has a semicircular boss, bottom plate 11 upper surface left and right sides respectively has two semicircular bosses, base 10 four corners boss and 11 four corners breach fixed connection of bottom plate, there is square through hole at pillar 12 middle part, there is the tenon on the adjacent two sides of pillar 12, bottom plate 11, pillar 12, curb plate 13, back end plate 14, front end plate 15 and roof 16 are connected through the cooperation of mortise and tenon joint structure.

As shown in fig. 1 and 3, a water inlet hole is formed in the right side of the rear end plate 14, a power generation device installation cavity is formed in the lower right side of the rear end plate 14, the water inlet hole of the rear end plate 14 is connected to the installation cavity of the rear end plate 14, a water discharge hole is formed in the lower right side of the installation cavity of the rear end plate 14, the lower cavity surface of the installation cavity of the rear end plate 14 inclines towards the water outlet of the rear end plate 14, an electromagnetic directional valve 24 is fixedly arranged below the installation cavity of the rear end plate 14, the water discharge hole of the rear end plate 14 is connected to the electromagnetic directional valve 24, a water storage tank hole located on the left side of the electromagnetic directional valve 24 is formed in the lower right side of the rear end plate 14, the electromagnetic directional valve 24 is communicated with the water storage tank hole when being powered on, and is communicated with the water discharge hole when being powered off.

As shown in fig. 2 and 3, the water flow direction control device includes a floating rod 19 rotatably disposed on the upper end of the side wall of the water storage cavity of the base 10, a floating ball 20 is fixedly disposed at the head of the floating rod 19, a photoelectric gate baffle is fixedly disposed at the tail of the floating rod 19, a photoelectric switch 18 is fixedly disposed on the upper end of the side wall of the water storage cavity of the base 10, and the photoelectric switch 18 controls the electromagnetic directional valve 24.

As shown in fig. 1 and 7, the accumulated water storage device comprises a housing 32 fixedly arranged on the right rear side of the upper end of the roof 16, a rotary door 34 is rotatably arranged on the housing 32, the rotary door 34 is connected with the housing 32 through a return spring 33, a rotary wheel 35 is rotatably arranged on the rotary door 34, a slide rail 36 is fixedly arranged on the housing 32, a floating block 37 is slidably arranged on the slide rail 36, an electromagnetic return valve 39 is fixedly arranged on the housing 32, a limiting block 38 is slidably arranged on the electromagnetic return valve 39, a water inlet is arranged on the side surface of the housing 32, and a filter screen 41 is fixedly arranged on the outer side of the water inlet of the housing 32.

As shown in fig. 4, 5 and 6, the power generation device includes a rear end cover 31 fixedly disposed in the mounting cavity of the rear end plate 14, the rear end cover 31 is fixedly provided with a support sleeve 22, a water fan 21 is rotatably disposed outside the support sleeve 22, a large gear 26 is fixedly disposed at the front end of the support sleeve 22, the rear end cover 31 is fixedly provided with a bearing 42, the bearing 42 is rotatably provided with the fan 23, the fan 23 is fixedly provided with a first belt pulley 29, the first belt pulley 29 is provided with a belt 28, the generator unit 17 is fixedly disposed on the bottom plate 11, the generator unit 17 is provided with a transmission shaft, the transmission shaft of the generator unit 17 is fixedly provided with a second belt pulley 30, and the front end cover 27 is fixedly disposed at the front portion of the rear end plate 14.

When a dormitory of a worker is required to be constructed on a construction site, the base 10 is fixed on a foundation, the bottom plate 11 is embedded into the upper portion of the base 10, the pillars 12 are fixed at four corners of the base 10, the mortise of the side plate 13, the mortise of the rear end plate 14 and the mortise of the front end plate 15 are fixed on the bottom plate 11 along the tenon angles of the pillars 12, the roof 16 is fixed on the pillars 12, the side plate 13, the rear end plate 14 and the front end plate 15, the generator set 17 is installed on the bottom plate 11, the generator set 17 is connected with a power generation device in the rear end plate 14, and the shell 32 and the filter screen 41 are fixedly installed on the roof 16.

When it is raining, the rotating door 34 is closed, rainwater falling on the roof is filtered by the filter screen 41 and enters the shell 32, the floating block 37 is at a low position, the rotating wheel 35 is suspended and does not contact with the inclined plane of the floating block 37, the rotating door 34 is closed under the action of the return spring 33, rainwater is enriched, the floating block 37 floats upwards to a high position and contacts with the rotating wheel 35, the limiting block 38 is popped out by the spring to limit the position of the floating block 37, the rotating wheel 35 drives the rotating door 34 to rotate clockwise to an open state, the return spring 33 is pressed to enable water flow to flow out along the water outlet of the shell 32 and the water outlet of the roof 16, the water outlet of the roof 16 is connected with the water inlet of the rear end plate 14, the water flow enters the water inlet of the rear end plate 14, buoyancy force applied to the water fan 21 after the water flow is accelerated under the action of gravity in the water inlet of the rear end plate 14, the water fan 21 rotates clockwise to drive the large gear 26 to rotate clockwise, and the large gear 26 drives the small gear 25 to rotate anticlockwise through meshing, pinion 25 and the coaxial rotation of second belt pulley 30 and drive the generator electricity generation, still contain the battery in the power generation facility and be used for the energy storage, second belt pulley 30 drives first belt pulley 29 anticlockwise rotation with belt 28, first belt pulley 29 is coaxial with fan 23, fan 23 rotates and outwards arranges indoor gas through rear end cap 31 through-hole, generator current lets electromagnetism reset valve 39 circular telegram, electromagnetism reset valve 39 timing starts to withdraw stopper 38, the floating block 37 falls, runner 35 does not receive the supporting effect of floating block 37 inclined plane, reset spring 33 resets, revolving door 34 closes, the rainwater is enriched again in roof 16 ponding ponds.

The water flow which drives the water fan 21 to rotate flows into a drain hole of the rear end plate 14 along the lower inclined plane of the mounting cavity of the rear end plate 14, when the water surface of the water storage cavity of the base 10 does not reach the highest point, the floating ball 20 descends to the water surface to drive the floating rod 19 to rotate, the photoelectric door baffle at the tail end of the floating rod 19 ascends, the photoelectric switch 18 is opened, the electromagnetic directional valve 24 is electrified to be communicated with the left hole, the water flow is guided to enter the water storage cavity of the base 10, the water storage cavity of the base 10 is full of water, the floating ball 20 floats to the highest point, the photoelectric door plate at the tail part of the floating rod 19 descends, the photoelectric switch 18 is closed, the electromagnetic directional valve 24 is electrified to be communicated with the right hole, and the water flow is directly discharged to the outside through the outer discharge hole of the rear end plate 14.

During high temperature, the temperature detect switch and the time switch of series connection installation are opened in the equipment room, motor 40 starts to store water to 16 ponding ponds on roof in the extraction base 10, because revolving door 34 is in the closed condition, water gathers in 16 ponding ponds on roof, the water evaporation heat absorption reduces equipment room temperature, float block 37 come-up when ponding is too much and open revolving door 34 and drain, rivers drive water fan 21 and fan 23 rotate and generate electricity and indoor high temperature gas's discharge, and retrieve the ponding of taking out and carry out cyclic utilization, when arbitrary condition of temperature setting value and time setting value does not reach, the water pump is out of work, the circulation cooling system is out of work.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.