CN111809736A

CN111809736A - Green energy-saving fabricated building and construction method

Info

Publication number: CN111809736A
Application number: CN202010591559.1A
Authority: CN
Inventors: 方睿; 陈君权; 彭欢
Original assignee: Shenzhen Tianhui Construction Engineering Co ltd
Current assignee: Shenzhen Tianhui Construction Engineering Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2020-10-23

Abstract

The application relates to a green energy-saving fabricated building, which is convenient for effectively collecting and utilizing rainwater by arranging a supporting rod, a collecting pool, a water collecting pipe bundle, a spraying head and a water supply assembly, so that the collected rainwater can be sprayed to the roof of a movable board house to cool the movable board house, and further, the effects of saving energy and protecting environment can be achieved on water resources; the water guide assembly is arranged, so that the rainwater can be guided conveniently, and the rainwater flows into the collecting pool along the guide assembly, so that the collecting pool can collect more rainwater; through setting up circulation mechanism, can be convenient for play the effect of effective recovery to the rainwater that sprays on the portable house roof to can circulate the rainwater of retrieving and recycle, and then can play the effect of energy saving.

Description

Green energy-saving fabricated building and construction method

Technical Field

The application relates to the field of fabricated buildings, in particular to a green energy-saving fabricated building and a construction method.

Background

At present, with the development of modern industrial technology, the labor cost is continuously improved, and the high integration and industrialization of building and housing become a new building direction. In addition, as the building materials are gradually developed toward the factory production, the prefabrication and the like, the assembly type and the modular building are produced. Building houses today can be made in batches like in machine production, by simply transporting prefabricated house elements to the site for assembly. The assembly type building has fast construction speed and low production cost, so the assembly type building is rapidly popularized and developed all over the world. The prefabricated house is also one of the fabricated buildings, and is generally applied to temporary houses or temporary storage warehouses and the like on a construction site.

The existing portable house is an environment-friendly economical portable house with a brand-new concept, wherein light steel is generally used as a framework, a sandwich plate is used as a containment material, space combination is carried out by using a standard modulus series, and components are connected by bolts. And the prefabricated house can be conveniently and quickly assembled and disassembled, so that the universal standardization of temporary buildings is realized, the environment-friendly, energy-saving, quick and efficient building idea is established, and the temporary house enters the field of a shaped product which is developed in series, produced in an integrated manner, supplied in a matched manner, stockable and reusable for many times.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in hot summer, the inside of the prefabricated house is very hot, and in order to reduce the temperature, water is generally continuously sprayed on the top of the prefabricated house to achieve the effect of reducing the temperature, but a large amount of water resources are consumed by the way of reducing the temperature by spraying water.

Disclosure of Invention

The application provides a green energy-conserving assembly type structure adopts following technical scheme:

a green energy-saving fabricated building comprises a prefabricated house assembled on the ground, wherein a roof of the prefabricated house is provided with a collecting mechanism for collecting and reusing rainwater, and the collecting mechanism comprises a plurality of supporting rods arranged on the roof of the prefabricated house through fixing pieces; the collecting tank is arranged on the supporting rod; the water collecting pipe bundle is arranged on one side, facing the movable board room, of the collecting pool through a plurality of limiting pieces; a plurality of spray heads in communication with the header bundles; the water supply assembly is arranged on the outer side wall of the collecting tank, one end of the water supply assembly is communicated with the collecting tank, and the other end of the water supply assembly is communicated with the water collecting pipe bundle; and the water guide assembly is arranged at the top of the collecting tank and used for guiding rainwater, and one side of the movable board house is also provided with a circulating mechanism which is used for recycling water sprayed on the roof of the movable board house.

By adopting the technical scheme, the supporting rod, the collecting tank, the water collecting pipe bundle, the spraying head and the water supply assembly are arranged, so that the rainwater can be effectively collected and utilized, the collected rainwater can be sprayed to the roof of the prefabricated house to cool the prefabricated house, and further, the effects of energy conservation and environmental protection can be achieved on water resources; the water guide assembly is arranged, so that the rainwater can be guided conveniently, and the rainwater flows into the collecting pool along the guide assembly, so that the collecting pool can collect more rainwater; through setting up circulation mechanism, can be convenient for play the effect of effective recovery to the rainwater that sprays on the portable house roof to can circulate the rainwater of retrieving and recycle, and then can play the effect of energy saving.

Preferably, the water supply assembly comprises a first support plate arranged on the outer side wall of the collecting tank; the first water pump is arranged on the first supporting plate; the first water suction pipe is connected with the water suction end of the first water pump at one end and extends into the bottom of the collecting pool at the other end; and one end of the first drainage pipe is connected with the drainage end of the first water pump, and the other end of the first drainage pipe is communicated with the water collecting pipe bundle.

Through adopting above-mentioned technical scheme, when the rainwater of collecting in the pond is collected to needs utilizes, start the first water pump on the first backup pad, the rainwater of collecting in the pond is collected to the first water suction pipe on the first water pump and is extracted for the rainwater flows into first drain pipe along first water suction pipe, thereby make first drain pipe with rainwater drainage in the collector pipe bundle, and then make the sprinkler head on the collector pipe bundle spray the rainwater on the roof of activity board house, in order to play the effect of effective cooling to the activity board house.

Preferably, the water guide assembly comprises a plurality of solar panels arranged at the top edge of the collecting tank; the bearing rod is arranged at the bottom of the solar cell panel; the limiting plate is connected to one end, far away from the solar cell panel, of the bearing rod; a plurality of round holes penetrating through the limiting plate; a plurality of bearing plates arranged on the outer side walls of the periphery of the collecting pool; the limiting groove is formed in the bearing surface of the bearing plate and matched with the limiting plate; the first threaded hole is formed in the bottom of the limiting groove and corresponds to the round hole; and the first bolt penetrates through the round hole and is in threaded connection with the first threaded hole, and the solar cell panel is electrically connected with the first water pump.

Through adopting above-mentioned technical scheme, through setting up the structure that carrier bar, limiting plate, loading board and first bolt mutually supported, can be convenient for install solar cell panel at the top of collecting pit firmly to make solar cell panel not only can play certain water conservancy diversion effect to the rainwater when rainy day, advance the collecting pit with the rainwater water conservancy diversion, can collect and utilize sunshine when fine day in addition, in order to provide electric power to first water pump, thereby can play energy-concerving and environment-protective effect.

Preferably, the water collecting pipe bundle comprises a water collecting pipe which is arranged at one end of the bottom of the collecting tank close to the first water pump and is communicated with one end of the first water discharging pipe far away from the first water pump; and a plurality of spraying pipes which are arranged at the bottom of the collecting tank and are communicated with the water collecting pipe, wherein the spraying heads are communicated with the spraying pipes.

Through adopting above-mentioned technical scheme, through setting up the structure that collector pipe and sprinkler pipe mutually supported, can be convenient for evenly spray the roof of activity board house with the rainwater along the sprinkler head on to can play effectual cooling effect to the activity board house.

Preferably, the circulating mechanism comprises a recovery plate arranged on the roof of the portable house; the recovery groove is formed in the top of the recovery plate; the cover plate covers the recovery tank; the diversion trench is arranged on one side, away from the recovery trench, of the cover plate; a plurality of flow guide holes which penetrate through the cover plate and are communicated with the flow guide grooves; the circulating recovery box is arranged on one side of the movable board room; the second supporting plate is arranged on the outer side wall of the recycling box; the second water pump is arranged on the second supporting plate; a second water suction pipe with one end connected to the water suction end of the second water pump and the other end communicated with the recovery tank; one end of the second water pump is connected with the water discharging end of the second water pump, and the other end of the second water pump extends into the top of the circulation recovery box; the filtering component is arranged in the circulating recovery box; and the circulating component is arranged on the outer side wall of the circulating recovery box, one end of the circulating component is communicated with the bottom of the circulating recovery box, and the other end of the circulating component is communicated with the collecting pool.

By adopting the technical scheme, the recovery plate and the cover plate are matched with each other, so that water sprayed on the roof of the portable house can be conveniently and uniformly recovered in the recovery tank, the effect of saving water resources and protecting the environment is achieved, and the effect of effectively cooling the portable house can be achieved more effectively; through setting up circulation collection box, second backup pad, second water pump, second and absorbing water tub and the structure that the second drain pipe was mutually supported, can be convenient for extract the water of collecting in the accumulator into the storage of circulation collection box to can be convenient for carry out the effect of effective collection to the water resource.

Preferably, the filter assembly comprises a filter plate arranged on the inner side wall of the recycling tank; the filter tank is arranged at the opening of the filter plate facing the recycling tank; a plurality of filter holes which penetrate through the filter plate and are communicated with the filter tank; the filter screen is arranged on the filter plate; and the filter cloth is laid on the filter screen.

Through adopting above-mentioned technical scheme, through setting up the structure that filter, filter screen and filter cloth mutually supported, can be convenient for play effectual filter effect to the rainwater of retrieving on the portable house to can be with filtering the clean rainwater storage of back in the circulation collection box, and then can be convenient for carry out the circulation and recycle to clean rainwater.

Preferably, the circulating assembly comprises a third supporting plate arranged on the outer side wall of the circulating recovery box; the third water pump is arranged on the third supporting plate; a third water suction pipe with one end connected to the water suction end of the third water pump and the other end extending into the bottom of the recycling box; and one end of the third water pump is connected with the water discharging end of the third water pump, and the other end of the third water pump is communicated with the third water discharging pipe of the collecting tank.

Through adopting above-mentioned technical scheme, when needs utilize the water of the storage of circulation collection box, start the third water pump in the third backup pad, the third on the third water pump absorbs water the pipe and extracts the water of the storage of circulation collection box, then water flows into in the third drain pipe along the third pipe that absorbs water, thereby make the third drain pipe with the water drainage intake collect the pond in, and then can be convenient for circulate the water recycle to the water of circulation collection box, in order to play energy-concerving and environment-protective effect to the water resource.

Preferably, the limiting member comprises a plurality of arc-shaped steel sheets sleeved on the water collecting pipe and the water spraying pipe; the limiting blocks are symmetrically arranged on two sides of the arc-shaped steel sheet; a limiting hole penetrating through the limiting block; the limiting cavities are arranged at the bottom of the collecting tank and matched with the limiting blocks; the second threaded hole is formed in the cavity bottom of the limiting cavity and corresponds to the limiting hole; and the second bolt penetrates through the limiting hole and is in threaded connection with the second threaded hole.

Through adopting above-mentioned technical scheme, through setting up the structure that arc steel sheet, stopper, second bolt and spacing chamber mutually supported, can be convenient for with collector pipe and spraying water pipe fixed mounting in the bottom of collecting pit to can make the sprinkler head spray water on the roof of activity board house, and then can be convenient for cool down the activity board house.

Preferably, the fixing part comprises a plurality of bearing seats arranged on the periphery of the roof of the portable house; the bearing groove is arranged on the bearing seat and matched with the supporting rod; the first fixing hole penetrates through the side surface of the bearing seat and is communicated with the bearing groove; the second fixing hole penetrates through the side face of the supporting rod and corresponds to the first fixing hole; the third bolt penetrates through the first fixing hole and the second fixing hole simultaneously; and a nut threadedly coupled to the third bolt.

Through adopting above-mentioned technical scheme, bear seat, third bolt and nut structure of mutually supporting through the setting, can be so that bracing piece fixed mounting bears on the seat to can be convenient for fix the collecting pit firmly on the roof in activity board house, in order to realize carrying out the effect effectively collected to the rainwater.

The application provides a construction method of a green energy-saving fabricated building, which comprises the following steps:

the method comprises the following steps: firstly, light steel is used as a framework, and then a plurality of sandwich boards are mutually assembled through components to be assembled and constructed to form a movable board house;

step two: then fixedly mounting a recovery plate provided with a recovery groove on the roof of the movable board house in advance, and covering a cover plate provided with a diversion hole and a diversion groove on the recovery plate;

step three: then preparing a stainless steel collecting tank, welding supporting rods around the bottom of the collecting tank, fixedly mounting a water collecting pipe bundle and a spraying head at the bottom of the collecting tank through a limiting piece, fixing a first water pump on a water supply assembly on the outer side wall of the collecting tank, communicating a first water suction pipe on the water supply assembly in the collecting tank, and communicating a first water discharge pipe on the water supply assembly with the water collecting pipe bundle;

step four: then fixedly installing a water guide assembly on the periphery of the top of the collecting tank, and electrically connecting a solar cell panel on the water guide assembly with the first water pump through an electric wire;

step five: then hoisting the collecting tank by mechanical equipment such as a crane and the like so as to hoist the collecting tank to be right above the movable plank house, and then fixing the supporting rod on the collecting tank on the roof of the movable plank house by a fixing piece;

step six: meanwhile, preparing a recycling box, fixedly installing a filtering component on the inner side wall of the recycling box, and then sealing the box opening;

step seven: then, a second water pump is fixedly arranged on the outer side wall of the circulating recovery box, one end of a second water suction pipe is fixedly connected to the water suction end of the second water pump, the other end of the second water suction pipe penetrates through the recovery plate and extends into the recovery groove, one end of a second water discharge pipe is fixedly connected to the water discharge end of the second water pump, the other end of the second water discharge pipe extends into the top of the circulating recovery box, and then the solar cell panel is electrically connected with the second water pump through an electric wire;

step eight: finally, fixedly installing a third water pump on the circulating assembly on the outer side wall of the circulating recovery box, extending a third water suction pipe on the circulating assembly into the bottom of the circulating recovery box, communicating a third water discharge pipe on the circulating assembly with a recovery groove on the recovery plate, and electrically connecting the solar cell panel with the third water pump through an electric wire;

step nine: and finally, checking the structure of the steps to ensure normal use.

By adopting the technical scheme, the rainwater can be conveniently and effectively collected, and the collected rainwater can be conveniently sprayed on the roof of the portable house so as to effectively cool the portable house; simultaneously, can also be convenient for effectively retrieve the rainwater that sprays on the portable house to can be convenient for carry out cycle recycle to the rainwater, and then can play energy-concerving and environment-protective effect to the water resource.

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

1. by arranging the supporting rod, the collecting tank, the water collecting pipe bundle, the spraying head and the water supply assembly, rainwater can be conveniently and effectively collected and utilized, so that the collected rainwater can be sprayed to the roof of the portable house to cool the portable house, and further, the effects of energy conservation and environmental protection can be achieved on water resources; the water guide assembly is arranged, so that the rainwater can be guided conveniently, and the rainwater flows into the collecting pool along the guide assembly, so that the collecting pool can collect more rainwater; by arranging the circulating mechanism, the effect of effectively recycling the rainwater sprayed on the roof of the portable house can be conveniently achieved, so that the recycled rainwater can be recycled, and the effect of saving energy can be achieved;

2. by arranging the structure that the bearing rod, the limiting plate, the bearing plate and the first bolt are matched with each other, the solar cell panel can be conveniently and stably installed at the top of the collecting pool, so that the solar cell panel can play a certain role in guiding rainwater in rainy days and guiding the rainwater into the collecting pool, and can collect and utilize sunlight in sunny days to provide power for the first water pump, thereby playing a role in energy conservation and environmental protection;

3. through setting up the structure that filter, filter screen and filter cloth mutually supported, can be convenient for play effectual filter effect to the rainwater of retrieving on the activity board house to can be with the clean rainwater storage after filtering in the circulation collection box, and then can be convenient for circulate the recycle to clean rainwater.

Drawings

FIG. 1 is a schematic structural diagram of a green energy-saving fabricated building according to an embodiment of the present application;

FIG. 2 is a schematic view of a collection tank and portable housing separated according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural view of the bottom of a collection tank according to an embodiment of the present disclosure;

fig. 4 is a sectional view of a recycling bin of an embodiment of the present application.

Description of reference numerals: 1. a portable house; 11. a bearing seat; 111. a bearing groove; 112. a first fixing hole; 2. a support bar; 21. a second fixing hole; 3. a collection tank; 311. a water collection pipe; 312. a water spray pipe; 313. a sprinkler head; 32. a first support plate; 33. a first water pump; 34. a first water suction pipe; 35. a first drain pipe; 36. a carrier plate; 361. a limiting groove; 362. a first threaded hole; 363. a first bolt; 37. a limiting cavity; 371. a second threaded hole; 38. a second bolt; 4. a solar panel; 41. a carrier bar; 42. a limiting plate; 421. a circular hole; 5. recovering the plate; 51. a recovery tank; 52. a cover plate; 521. a diversion trench; 522. a flow guide hole; 6. a recycling tank; 61. a second support plate; 62. a second water pump; 63. a second suction pipe; 64. a second drain pipe; 65. a filter plate; 651. a filter tank; 652. a filtration pore; 653. a filter screen; 654. filtering cloth; 66. a third support plate; 67. a third water pump; 68. a third suction pipe; 69. a third drain pipe; 7. an arc-shaped steel sheet; 71. a limiting block; 711. a limiting hole; 8. a third bolt; 9. and a nut.

Detailed Description

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

The embodiment of the application discloses green energy-saving fabricated building. Referring to fig. 1, the prefabricated building comprises a movable board house 1, the movable board house 1 is formed by assembling and building a plurality of sandwich boards by using light steel as a framework through a plurality of components, and the movable board house 1 is mostly applied to temporary houses or temporary storage warehouses on a construction site, so that the construction is convenient and fast, the construction time is shortened, the material and labor cost are saved, and the environment-friendly, energy-saving, fast and efficient building concept can be met.

In real life, the room of the prefabricated house 1 feels very hot, and the effect of cooling is generally achieved by continuously spraying water on the top of the prefabricated house 1, but a large amount of water resources are consumed by the way of cooling by spraying water. In order to be able to be in the water economy resource, also can cool down the processing to activity board house 1, so in this embodiment, be provided with a collection mechanism at the top of this activity board house 1, this collection mechanism not only can collect the rainwater, but also can spray the rainwater of collecting on activity board house 1, in order to reach the effect of cooling to can play energy-concerving and environment-protective effect to the water resource.

Specifically, referring to fig. 1, in the present embodiment, the collecting mechanism includes: a support bar 2, a collection tank 3, a header bundle, a sprinkler 313, and a water supply assembly. Wherein, four support rods 2 are arranged, and the four support rods 2 are all arranged at the peripheral corners of the top of the movable plank house 1; this collecting pit 3 fixed mounting is on these bracing pieces 2, and this collecting pit 3 not only can collect the rainwater, but also can shelter from sunshine, shine on portable house 1 with reduction sunshine to also can play the effect of cooling to portable house 1. Simultaneously, these bracing pieces 2 and collecting pit 3 are the stainless steel material preparation and form, have the characteristics of hardness height, resistant oxidation corrosion, so these bracing pieces 2 and this collecting pit 3's long service life.

Meanwhile, referring to fig. 2, in order to fixedly mount the collecting tank 3 on the roof of the portable house 1 and stably support the collecting tank 3, in this embodiment, a plurality of fixing members are disposed between the supporting rods 2 and the portable house 1, the fixing members can stably fix the collecting tank 3 on the supporting rods 2 on the roof, and the fixing members include a bearing seat 11, a third bolt 8 and a nut 9. Wherein, should bear seat 11 and be provided with four, these four bear seat 11 fixed mounting in four edges of the roof of this portable house 1, and these bear one side that seat 11 deviates from the roof and all seted up bearing groove 111, this bearing groove 111 mutually supports with this bracing piece 2.

A first fixing hole 112 is formed through the side surfaces of the supporting bases 11 and is communicated with the supporting groove 111, a plurality of second fixing holes 21 are formed through the side surfaces of the supporting rods 2, and the first fixing hole 112 and the second fixing holes 21 correspond to each other after the supporting rods 2 are inserted into the supporting grooves 111 of the supporting bases 11; the number of the third bolts 8 is four, and the third bolts 8 can pass through the first fixing holes 112 and the second fixing holes 21 respectively to limit the support rod 2 in the bearing groove 111 of the bearing seat 11; this nut 9 is provided with four, these nuts 9 respectively with these a little third bolt 8 threaded connection, in order to bear the weight of seat 11 with bracing piece 2 fixed mounting to can be convenient for fix the collecting pit 3 firm on the roof of activity board house 1, in order to realize carrying out the effect of effectively collecting the rainwater.

Meanwhile, referring to fig. 1, the water collecting pipe bundle is fixedly installed at the bottom of the collecting tank 3 by a plurality of stoppers, and the water collecting pipe bundle includes a water collecting pipe 311 and a water spraying pipe 312. The water collecting pipe 311 is fixedly installed at the bottom edge of the collecting tank 3 through a plurality of limiting members; the number of the spraying pipes 312 is multiple, the spraying pipes 312 are respectively and fixedly installed at the bottom of the collecting tank 3 through a plurality of position limiting members, the spraying pipes 312 are perpendicular to the water collecting pipe 311, and one end of each spraying pipe 312 is communicated with the water collecting pipe 311; the plurality of spraying heads 313 are arranged, the spraying heads 313 are fixedly communicated with the spraying pipes 312, and the spraying heads 313 are arranged towards the top direction of the prefabricated house 1 so as to spray water on the top of the prefabricated house 1.

Preferably, referring to fig. 3, in order to stably mount the water collecting pipe 311 and the water spraying pipes 312 on the bottom of the collecting tank 3, in the present embodiment, a plurality of stoppers are disposed on the water collecting pipe 311 and the water spraying pipes 312, and the stoppers can facilitate to stably mount the water collecting pipe 311 and the water spraying pipes 312 on the bottom of the collecting tank 3, and include the arc-shaped steel sheet 7, the stopper 71 and the second bolt 38. Wherein, the arc steel sheet 7 is respectively sleeved on the pipe body of the water collecting pipe 311 and the pipe body of the water spraying pipe 312; the two limiting blocks 71 are arranged, the two limiting blocks 71 are symmetrically and fixedly connected to two sides of the arc-shaped steel sheet 7, limiting holes 711 penetrate through the two limiting blocks 71, a limiting cavity 37 matched with the limiting blocks 71 is arranged at the bottom of the collecting pool 3, a second threaded hole 371 is formed in the limiting cavity 37, and when the limiting blocks 71 are matched with the limiting cavity 37, the second threaded hole 371 corresponds to the limiting holes 711; the second bolt 38 may pass through the limiting hole 711 and be threadedly coupled with the second threaded hole 371.

Therefore, by arranging the structure that the arc-shaped steel sheet 7, the limiting block 71, the second bolt 38 and the limiting cavity 37 are matched with each other, the water collecting pipe 311 and the water spraying pipe 312 can be conveniently and fixedly installed at the bottom of the collecting tank 3, so that the water spraying head 313 can spray water onto the roof of the portable house 1, and the portable house 1 can be conveniently cooled.

Meanwhile, in the present embodiment, the water supply assembly is fixedly installed on the outer side wall of the collecting tank 3, and the water supply assembly is used for sucking and draining rainwater collected in the collecting tank 3 into the water collecting pipe 311, and then spraying the rainwater out from the spraying head 313 on the spraying pipe 312, so that the rainwater can be sprayed onto the roof of the prefabricated house 1, and the prefabricated house 1 can be cooled.

More specifically, referring to fig. 1 and 2, in the present embodiment, the water supply assembly includes a first support plate 32, a first water pump 33, a first water suction pipe 34, and a first water discharge pipe 35. Wherein, the first supporting plate 32 is fixedly installed on the outer side wall of the collecting tank 3 close to the water collecting pipe 311; the first water pump 33 is fixedly arranged on the first supporting plate 32; one end of the first water suction pipe 34 is connected to the water suction end of the first water pump 33, and the other end of the first water suction pipe 34 extends into the bottom of the collecting tank 3 to suck rainwater collected in the collecting tank 3; one end of the first drain pipe 35 is connected to the drain end of the first water pump 33, and the other end of the first drain pipe 35 is connected to the body of the water collecting pipe 311 to drain rainwater into the water collecting pipe 311.

When the rainwater collected in the collecting tank 3 needs to be utilized, the first water pump 33 on the first supporting plate 32 is started, the first water suction pipe 34 on the first water pump 33 extracts the rainwater collected in the collecting tank 3, the rainwater flows into the first water discharge pipe 35 along the first water suction pipe 34, the rainwater is discharged into the water collection pipe 311 through the first water discharge pipe 35, the sprinkler 313 on the water collection pipe 311 sprays the rainwater to the roof of the movable plate house 1, the effect of effectively cooling the movable plate house 1 is achieved, and then the effects of saving energy and protecting environment can be achieved for water resources.

Referring to fig. 1, in order to recycle the rainwater sprayed on the roof of the portable house 1, in this embodiment, a circulating mechanism is disposed on one side of the portable house 1, and the circulating mechanism can facilitate the rainwater sprayed on the roof of the portable house 1 to achieve the effect of effective recycling, so that the recycled rainwater can be recycled, and further the energy-saving effect can be achieved.

Specifically, referring to fig. 1 and 2, in the present embodiment, the circulation mechanism includes a recovery plate 5, a cover plate 52, a circulation recovery tank 6, a second support plate 61, a second water pump 62, a second suction pipe 63, a second drain pipe 64, and a circulation assembly. Wherein, the recovery plate 5 is fixedly arranged on the roof of the movable board room 1, and a recovery groove 51 is arranged on one side of the recovery plate 5 departing from the movable board room 1; this apron 52 sets up on this recovery board 5, in order to cover this recovery tank 51 and close, and this apron 52 deviates from and has seted up guiding gutter 521 on one side of this recovery board 5, it has a plurality of guiding holes 522 to run through at the tank bottom of this guiding gutter 521, these a few guiding holes 522 not only can be convenient for play certain water conservancy diversion effect to the rainwater, in order to advance the rainwater water conservancy diversion recovery tank 51, but also can play divided effect to the debris that float on the 1 roof in activity board house, thereby make these a few debris separate on guiding gutter 521, in order to unify the clearance to these a few debris.

So through setting up the structure that recovery sheet 5 and apron 52 mutually supported, not only can be convenient for will spray rainwater on the portable house 1 roof along the water conservancy diversion hole 522 on the apron 52 in unified recovery tank 51, in order to retrieve the water resource, the rainwater storage is in recovery tank 51 moreover, can play the effect of effective cooling to portable house 1 more effectively like this.

Meanwhile, referring to fig. 1, in the present embodiment, the recycling bin 6 is fixedly disposed at one side of the prefabricated house 1; the second supporting plate 61 is fixedly arranged on the outer side wall of the recycling bin 6 close to the portable house 1; the second water pump 62 is fixedly installed on the second support plate 61; one end of the second water suction pipe 63 is connected to the water suction end of the second water pump 62, and the other end of the second water suction pipe 63 penetrates through the recovery plate 5 and extends into the bottom of the recovery tank 51, so that rainwater recovered in the recovery tank 51 can be sucked; one end of the second drain pipe 64 is connected to the drain end of the second water pump 62, and the other end of the second drain pipe 64 is communicated with the top of the recycling tank 6 to drain the rainwater recycled by the recycling tank 51 into the recycling tank 6 for storage.

When the rainwater collected in the recycling tank 51 is required to be extracted into the recycling tank 6, the second water pump 62 on the second supporting plate 61 is started, the second water suction pipe 63 on the second water pump 62 extracts the rainwater recycled in the recycling tank 51, so that the rainwater flows into the second drain pipe 64 along the second water suction pipe 63, and then the rainwater is discharged into the recycling tank 6 along the second drain pipe 64, thereby being convenient for effectively recycling the water resource.

Simultaneously, this circulation subassembly sets up on the lateral wall of this circulation collection box 6, and this circulation subassembly can carry out cyclic utilization with the rainwater of the storage in the circulation collection box 6, in order to extract the rainwater of the storage in the circulation collection box 6 and advance collecting pit 3 to can spray the rainwater to the roof of activity board room 1, and then cool down activity board room 1.

Specifically, referring to fig. 2, in the present embodiment, the circulation assembly includes a third support plate 66, a third water pump 67, a third suction pipe 68, and a third drain pipe 69. Wherein, the third supporting plate 66 is fixedly installed on the outer side wall of the recycling bin 6 far away from the portable house 1; the third water pump 67 is fixedly installed on the third support plate 66; one end of the third water suction pipe 68 is connected to the water suction end of the third water pump 67, and the other end of the third water suction pipe 68 extends into the bottom of the recycling tank 6 to suck rainwater recycled by the recycling tank 6; one end of the third drain pipe 69 is connected to the drain end of the third water pump 67, and the other end of the third drain pipe 69 is connected to the outer side wall of the collecting tank 3 to drain rainwater into the collecting tank 3.

When the water stored in the recycling tank 6 needs to be utilized, the third water pump 67 on the third supporting plate 66 is started, the third water suction pipe 68 on the third water pump 67 sucks the water stored in the recycling tank 6, and then the water flows into the third water discharge pipe 69 along the third water suction pipe 68, so that the third water discharge pipe 69 discharges the water into the collecting tank 3, and the water in the recycling tank 6 can be recycled conveniently, and the energy-saving and environment-friendly effects can be achieved on water resources.

Referring to fig. 4, in order to facilitate filtering the rainwater discharged into the recycling bin 6 to obtain clean rainwater, in this embodiment, a filtering assembly is disposed on an inner sidewall of the recycling bin 6, and the filtering assembly includes: filter plate 65, filter screen 653, and filter cloth 654. Wherein, the filter plate 65 is fixedly installed on the inner side wall of the recycling bin 6, and a filter tank 651 is disposed on one side of the filter plate 65 facing the bin mouth of the recycling bin 6, a plurality of filter holes 652 are further penetrated through the filter plate 65, and the filter holes 652 are communicated with the filter tank 651; the filter screen 653 is disposed on the filter plate 65 to cover the filter tank 651; the filter cloth 654 is laid on the filter net 653, so that the filter net 653 can support the filter cloth 654, and the filter cloth 654 has good filtering and water permeating effects.

When the second drain pipe 64 drains the rainwater in the collecting tank 3 into the recycling tank 6, the rainwater is filtered by the filter cloth 654, the impurities or the impurities mixed in the rainwater are filtered by the filter cloth 654, so that the impurities or the impurities are separated on the filter plate, the filtered clean rainwater flows into the tank along the filter net 653, and the filtered clean rainwater can flow into the tank bottom of the recycling tank 6 more smoothly and quickly through the filter tank 651 on the filter plate 65, thereby being convenient for storing the clean rainwater.

Referring to fig. 1, in order to enable the collecting tank 3 to collect more rainwater, in this embodiment, a water guide assembly is disposed on the top around the collecting tank 3, and the water guide assembly can facilitate the rainwater to flow into the collecting tank 3 along the water guide assembly, so that the collecting tank 3 can collect more rainwater.

Specifically, referring to fig. 2, in the present embodiment, the water guide assembly includes a solar cell panel 4, a bearing rod 41, a limiting plate 42, a bearing plate 36, and a first bolt 363. The solar cell panels 4 are arranged on the plurality of the peripheral tops of the collecting pool 3, and the solar cell panels 4 are arranged obliquely upwards along the outside of the collecting pool 3; meanwhile, the solar panel 4 is electrically connected with the first water pump 33, the second water pump 62 and the third water pump 67 through wires, and can provide power for the first water pump 33, the second water pump 62 and the third water pump 67.

Therefore, the solar cell panel 4 can not only play a certain role in guiding rainwater in rainy days to flow the rainwater into the collecting tank 3, but also absorb and utilize the sunlight in sunny days to provide electric power for the first water pump 33, the second water pump 62 and the third water pump 67, so that the first water pump 33, the second water pump 62 and the third water pump 67 can be started, and the effects of energy conservation and environmental protection can be achieved.

The plurality of bearing rods 41 are arranged, and the bearing rods 41 are respectively and fixedly connected to the bottoms of the solar cell panels 4; a plurality of limiting plates 42 are arranged, and the limiting plates 42 are respectively and fixedly connected to one ends of the bearing rods 41 far away from the solar cell panel 4; the plurality of bearing plates 36 are provided, one end of each of the bearing plates 36 is fixedly mounted on the peripheral side wall of the collecting pool 3, the other end of each of the bearing plates 36 extends towards one side of each of the limiting plates 42, each of the bearing plates 36 is provided with a limiting groove 361, and each of the limiting grooves 361 is matched with each of the limiting plates 42.

Meanwhile, referring to fig. 2, a plurality of first threaded holes 362 are formed at the bottom of each of the limiting grooves 361, a plurality of round holes 421 penetrate through each of the limiting plates 42, and when the limiting plate 42 is matched with the limiting grooves 361, the first threaded holes 362 correspond to the round holes 421; the first bolts 363 are provided with a plurality of bolts 363, and the first bolts 363 can pass through the round holes 421 and be in threaded connection with the first threaded holes 362, so that the bearing rod 41 can be fixedly installed on the bearing plate 36, and the solar cell panel 4 can be conveniently and stably installed on the top of the collecting pool 3.

the method comprises the following steps: firstly, light steel is used as a framework, and then a plurality of sandwich boards are mutually assembled through components to be assembled and constructed to form a movable board house 1;

step two: then a recovery plate 5 provided with a recovery groove 51 is fixedly arranged on the roof of the movable board house 1 in advance, and then a cover plate 52 provided with a diversion hole 522 and a diversion groove 521 is covered on the recovery plate 5;

step three: then preparing a stainless steel collecting tank 3, welding a stainless steel support rod 2 around the bottom of the collecting tank 3, fixedly installing a water collecting pipe 311, a water spraying pipe 312 and a spraying head 313 at the bottom of the collecting tank 3 in a mode that an arc-shaped steel sheet 7, a limiting block 71 and a second bolt 38 are locked with each other, fixing a first water pump 33 on a water supply assembly on the outer side wall of the collecting tank 3, communicating a first water suction pipe 34 on the water supply assembly in the collecting tank 3, and communicating a first water discharge pipe 35 on the water supply assembly with the water collecting pipe 311;

step four: then, the solar cell panel 4 is fixedly installed on the periphery of the top of the collecting pool 3 in a manner that the bearing rod 41, the limiting plate 42, the bearing plate 36 and the first bolt 363 are assembled and matched with each other, and then the solar cell panel 4 is electrically connected with the first water pump 33 through an electric wire;

step five: then, the collecting tank 3 is lifted by mechanical equipment such as a crane and the like so as to lift the collecting tank 3 right above the portable house 1, and then the supporting rod 2 on the collecting tank 3 is fixedly arranged in the bearing seat 11 on the roof of the portable house 1 through a fixing structure formed by mutually matching a third bolt 8 and a nut 9, so that the collecting tank 3 can be stably placed on the roof of the portable house 1;

step six: meanwhile, a recycling tank 6 is prepared, a filter plate 65, a filter screen 653 and a filter plate are fixedly arranged on the inner side wall of the recycling tank 6 in sequence, and then the tank opening of the recycling tank 6 is closed;

step seven: then, a second water pump 62 is fixedly arranged on the outer side wall of the circulation recovery box 6, one end of a second water suction pipe 63 is fixedly connected to the water suction end of the second water pump 62, the other end of the second water suction pipe penetrates through the recovery plate 5 and extends into the recovery tank 51, one end of a second water discharge pipe 64 is fixedly connected to the water discharge end of the second water pump 62, the other end of the second water discharge pipe extends into the top of the circulation recovery box 6, and then the solar cell panel 4 is electrically connected with the second water pump 62 through an electric wire;

step eight: finally, fixedly installing a third water pump 67 on the outer side wall of the circulating recovery box 6, then extending a third water suction pipe 68 on the third water pump 67 into the bottom of the circulating recovery box 6, communicating a third water discharge pipe 69 on the third water pump 67 with a recovery groove 51 on the recovery plate 5, and then electrically connecting the solar cell panel 4 with the third water pump 67 through an electric wire;

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

1. A green energy-saving fabricated building comprises a movable board house (1) assembled on the ground in a fabricated manner, and is characterized in that a roof of the movable board house (1) is provided with a collecting mechanism for collecting and reusing rainwater, and the collecting mechanism comprises a plurality of supporting rods (2) arranged on the roof of the movable board house (1) through fixing pieces; a collecting tank (3) arranged on the supporting rod (2); the water collecting pipe bundle is arranged on one side, facing the movable board house (1), of the collecting pool (3) through a plurality of limiting pieces; a plurality of spray heads (313) in communication with the header bundles; the water supply assembly is arranged on the outer side wall of the collecting tank (3), one end of the water supply assembly is communicated with the collecting tank (3), and the other end of the water supply assembly is communicated with the water collecting pipe bundle; and the water guide assembly is arranged at the top of the collecting tank (3) and used for guiding rainwater, and one side of the movable plank house (1) is also provided with a circulating mechanism which is used for recycling water sprayed on the roof of the movable plank house (1).

2. A green energy-saving fabricated building according to claim 1, wherein the water supply assembly comprises a first supporting plate (32) provided on an outer side wall of the collecting tank (3); a first water pump (33) provided on the first support plate (32); a first water suction pipe (34) with one end connected with the water suction end of the first water pump (33) and the other end extending into the bottom of the collection pool (3); and a first drain pipe (35) having one end connected to the drain end of the first water pump (33) and the other end connected to the header bundle.

3. A green energy-saving fabricated building according to claim 2, wherein the water guide assembly comprises a plurality of solar panels (4) arranged at the top edge of the collecting tank (3); the bearing rod (41) is arranged at the bottom of the solar cell panel (4); the limiting plate (42) is connected to one end, far away from the solar panel (4), of the bearing rod (41); a plurality of round holes (421) penetrating through the limiting plate (42); a plurality of bearing plates (36) arranged on the outer side walls of the periphery of the collecting pool (3); a limiting groove (361) which is arranged on the bearing surface of the bearing plate (36) and is matched with the limiting plate (42); the first threaded hole (362) is formed in the bottom of the limiting groove (361) and corresponds to the round hole (421); and a first bolt (363) which penetrates through the round hole (421) and is in threaded connection with the first threaded hole (362), wherein the solar cell panel (4) is electrically connected with the first water pump (33).

4. A green energy-saving fabricated building according to claim 2, wherein the water collecting pipe bundle comprises a water collecting pipe (311) which is arranged at the bottom of the collecting tank (3) and is close to one end of the first water pump (33) and communicated with one end of the first water discharging pipe (35) far away from the first water pump (33); and a plurality of spraying water pipes (312) which are arranged at the bottom of the collecting tank (3) and communicated with the water collecting pipe (311), wherein the spraying heads (313) are communicated with the spraying water pipes (312).

5. A green energy-saving fabricated building according to claim 1, wherein the circulating mechanism comprises a recovery plate (5) provided on the roof of the portable house (1); a recovery groove (51) opened on the top of the recovery plate (5); a cover plate (52) covering the recovery tank (51); the diversion trench (521) is formed in one side, away from the recovery trench (51), of the cover plate (52); a plurality of flow guide holes (522) penetrating through the cover plate (52) and communicated with the flow guide grooves (521); the recycling box (6) is arranged on one side of the movable board house (1); a second support plate (61) arranged on the outer side wall of the recycling tank (6); a second water pump (62) provided on the second support plate (61); a second water suction pipe (63) with one end connected to the water suction end of the second water pump (62) and the other end communicated with the recovery tank (51); and a second drain pipe (64) with one end connected to the drainage end of the second water pump (62) and the other end extending into the top of the recycling tank (6); a filter assembly disposed within the recycle bin (6); and the circulating component is arranged on the outer side wall of the circulating recovery box (6), one end of the circulating recovery box is communicated with the box bottom of the circulating recovery box (6), and the other end of the circulating recovery box is communicated with the collecting tank (3).

6. A green energy-saving fabricated building according to claim 5, wherein the filtering assembly comprises a filtering plate (65) arranged on the inner side wall of the recycling tank (6); the filter tank (651) is arranged at the opening of the filter plate (65) facing the circulating recovery box (6); a plurality of filter holes (652) penetrating through the filter plate (65) and communicated with the filter tank (651); a filter screen (653) disposed on the filter plate (65); and the filter cloth (654) is laid on the filter screen (653).

7. A green energy-saving fabricated building according to claim 5, wherein the circulating assembly comprises a third supporting plate (66) provided on an outer side wall of the circulating recovery tank (6); a third water pump (67) provided on the third support plate (66); a third water suction pipe (68) with one end connected with the water suction end of the third water pump (67) and the other end extending into the bottom of the recycling tank (6); and a third drain pipe (69) with one end connected to the drain end of the third water pump (67) and the other end communicated with the collecting tank (3).

8. A green energy-saving fabricated building according to claim 1, wherein the limiting member comprises a plurality of arc-shaped steel sheets (7) sleeved on the water collecting pipe (311) and the water spraying pipe (312); the limiting blocks (71) are symmetrically arranged on two sides of the arc-shaped steel sheet (7); a limiting hole (711) penetrating through the limiting block (71); a plurality of limiting cavities (37) which are arranged at the bottom of the collecting tank (3) and matched with the limiting blocks (71); a second threaded hole (371) which is arranged at the bottom of the limit cavity (37) and corresponds to the limit hole (711); and a second bolt (38) which penetrates through the limiting hole (711) and is in threaded connection with the second threaded hole (371).

9. A green energy-saving fabricated building according to claim 1, wherein the fixed member comprises a plurality of bearing seats (11) arranged on the periphery of the roof of the portable house (1); the bearing groove (111) is arranged on the bearing seat (11) and matched with the supporting rod (2); a first fixing hole (112) penetrating through the side surface of the bearing seat (11) and communicated with the bearing groove (111); a second fixing hole (21) which penetrates through the side surface of the support rod (2) and corresponds to the first fixing hole (112); a third bolt (8) simultaneously penetrating through the first fixing hole (112) and the second fixing hole (21); and a nut (9) in threaded connection with the third bolt (8).

10. A construction method of a green energy-saving fabricated building based on any one of claims 1 to 9, comprising the steps of:

the method comprises the following steps: firstly, light steel is used as a framework, and then a plurality of sandwich boards are mutually assembled through components to be assembled and constructed to form a movable board house (1);

step two: then a recovery plate (5) provided with a recovery groove (51) is fixedly arranged on the roof of the movable board house (1) in advance, and then a cover plate (52) provided with a diversion hole (522) and a diversion groove (521) is covered on the recovery plate (5);

step three: then preparing a stainless steel collecting tank (3), welding stainless steel supporting rods (2) around the bottom of the collecting tank (3), fixedly installing a water collecting pipe bundle and a spraying head (313) at the bottom of the collecting tank (3) through a limiting piece, then fixing a first water pump (33) on a water supply assembly on the outer side wall of the collecting tank (3), communicating a first water suction pipe (34) on the water supply assembly in the collecting tank (3), and communicating a first water discharge pipe (35) on the water supply assembly with the water collecting pipe bundle;

step four: then fixedly installing a water guide assembly on the periphery of the top of the collecting tank (3), and electrically connecting a solar panel (4) on the water guide assembly with a first water pump (33) through an electric wire;

step five: then hoisting the collecting tank (3) by mechanical equipment such as a crane and the like so as to hoist the collecting tank (3) to be right above the movable plank house (1), and then fixing the supporting rod (2) on the collecting tank (3) on the roof of the movable plank house (1) by a fixing piece;

step six: meanwhile, preparing a recycling box (6), fixedly installing a filtering component on the inner side wall of the recycling box (6), and then sealing the box opening;

step seven: then a second water pump (62) is fixedly arranged on the outer side wall of the circulation recovery box (6), one end of a second water suction pipe (63) is fixedly connected to the water suction end of the second water pump (62), the other end of the second water suction pipe penetrates through the recovery plate (5) and extends into the recovery tank (51), one end of a second water discharge pipe (64) is fixedly connected to the water discharge end of the second water pump (62), the other end of the second water discharge pipe extends into the top of the circulation recovery box (6), and then the solar cell panel (4) is electrically connected with the second water pump (62) through an electric wire;

step eight: finally, a third water pump (67) on the circulating assembly is fixedly arranged on the outer side wall of the circulating recovery box (6), a third water suction pipe (68) on the circulating assembly extends into the bottom of the circulating recovery box (6), a third drain pipe (69) on the circulating assembly is communicated with a recovery groove (51) on the recovery plate (5), and then the solar panel (4) and the third water pump (67) are electrically connected through an electric wire;