CN110115893B

CN110115893B - Building construction rainwater and waste water cyclic utilization environmental protection processing terminal

Info

Publication number: CN110115893B
Application number: CN201910478626.6A
Authority: CN
Inventors: 张孝
Original assignee: Jianfeng Construction Technology Co ltd
Current assignee: Jianfeng Construction Technology Co.,Ltd.
Priority date: 2019-06-03
Filing date: 2019-06-03
Publication date: 2021-05-11
Anticipated expiration: 2039-06-03
Also published as: CN110115893A

Abstract

The invention discloses a building construction rainwater and wastewater cyclic utilization environment-friendly treatment terminal, which comprises an enclosure, wherein a water delivery mechanism which rotates to spray water and mist into air constantly is arranged in the enclosure, the sprayed water adsorbs dust in the air, so that the flying dust is eliminated, a lifting mechanism which can separate muddy water and recycle is arranged in the enclosure, the lifting mechanism comprises a motor, a compression cavity with a downward opening is arranged in the enclosure, and a cut-off mechanism which can seal the compression cavity is also arranged in the left end wall of the compression cavity; the device can be with quantitative water, handles the raise dust that drifts away and go out from building site on a large scale, has both practiced thrift a considerable portion of water, also effectively handles building site's raise dust problem, and when grit car business turn over building site, but the raise dust that flies up when high efficiency's processing vehicle went avoids influencing passerby.

Description

Building construction rainwater and waste water cyclic utilization environmental protection processing terminal

Technical Field

The invention relates to an environment-friendly treatment terminal for recycling building construction rainwater and wastewater, and mainly relates to the field of environment protection.

Background

With the continuous acceleration of urban modern construction, a large number of construction sites inevitably appear in cities, and various construction sites cause severe influence on the surrounding environment, firstly, dust pollution is caused, a large amount of dust is generated in the construction sites, and if the construction sites fly upwards, a layer of thick dust covers the whole city; moreover, among the dust, a large amount of substances harmful to human bodies affect the health of urban residents;

at present stage when handling the raise dust that building site produced, weaken the influence that the raise dust brought through the water spray usually, but the water that most building sites used directly uses running water etc. mostly, and the water spray scope is little, and the water spray volume is many, and when the treatment effeciency is low, the water waste is serious, and the business turn over of grit car also can bring a large amount of raise dust in the building site, but these water sprays this moment and can not fine high-efficient processing these raise dusts, influence urban environment.

Disclosure of Invention

The invention aims to solve the technical problem of providing an environment-friendly treatment terminal for recycling building construction rainwater and wastewater, and solving the problems of urban environment caused by dust emission and water resource waste during dust emission treatment, so as to save water resources.

The invention is realized by the following technical scheme.

The environment-friendly treatment terminal for recycling the rainwater and the wastewater in the building construction comprises an enclosing wall, wherein a water delivery mechanism which can spray water and mist into the air in a rotating manner at any time is arranged in the enclosing wall, and the sprayed water adsorbs dust in the air, so that the flying dust is removed;

the enclosure is internally provided with a lifting mechanism capable of separating and recycling muddy water, the lifting mechanism comprises a motor, the enclosure is internally provided with a compression chamber with a downward opening, the upper end wall of the compression chamber is internally provided with a driving chamber, the upper end wall of the driving chamber is fixedly provided with the motor, the lower end of the motor is in power connection with a driving shaft, the lower end of the driving shaft is in threaded connection with a driving block with the lower end positioned in the compression chamber, the compression chamber is internally provided with a piston plate capable of moving downwards under the driving of the driving block to compress muddy water, the piston plate is internally provided with a rotating groove with an upward opening, the lower end of the driving block is positioned in the rotating groove, the left end of the driving block is fixedly provided with a friction rod with the lower end positioned in the rotating groove, the rear end wall of the rotating groove is internally provided with an arc groove communicated with the rotating groove, and the lower end of the friction rod is, a water supply pipeline communicated with the external space and the compression cavity is arranged on the upper end wall of the compression cavity;

and a cut-off mechanism capable of sealing the compression cavity is further arranged in the left end wall of the compression cavity, and the lifting mechanism can drive the piston plate to descend under the cooperation of the cut-off mechanism, so that muddy water is separated under the help of the water delivery mechanism, and the muddy water is recycled.

Furthermore, the lifting mechanism further comprises a rotating shaft, a reel, a first torsion spring, a friction wheel, a rope, a friction block, a connecting block, a limiting plate, a chain, a sealing plate, an expansion spring, a water inlet pipeline and a water spray pipeline, wherein the piston plate is internally provided with the water inlet pipeline with an upward opening, the right end wall of the water inlet pipeline is provided with the water spray pipeline which inclines downwards and is communicated with the compression cavity, the piston plate is internally provided with a sealing cavity which runs through the water inlet pipeline, the sealing plate which seals the water inlet pipeline and the expansion spring which can make the sealing plate reset are arranged in the sealing cavity, the left end wall of the sealing cavity is internally provided with a friction cavity with an opening which is communicated with the compression cavity leftwards and an upper end wall, the lower end wall of the friction cavity is internally provided with a limiting cavity, the limiting plate is arranged in the limiting cavity, and the upper, connecting block upper end be fixed with the left end with compression chamber friction connection the clutch blocks, the limiting plate right-hand member is fixed with the upper end and runs through limiting chamber upper end wall with closing chamber left end wall and with the closure plate is connected the chain, it is connected with to rotate between drive chamber front and back end wall the axis of rotation, be fixed with the right-hand member in the axis of rotation with the friction lever contact the friction pulley, still be fixed with in the axis of rotation the reel, the winding has on the reel the rope, the axis of rotation with pass through between drive shaft end wall a torsion spring coupling.

Further, the cutting mechanism comprises a cutting plate, a compression spring, a trapezoidal rod, a reset spring, a sliding plate, a trapezoidal block, a connecting spring and an extension spring, a sliding cavity with a rightward opening and a telescopic cavity with a rightward opening are arranged in the left end wall of the compression cavity, the trapezoidal rod with the right end positioned in the compression cavity and the reset spring capable of resetting the trapezoidal rod are arranged in the telescopic cavity, the sliding plate and the compression spring capable of resetting the sliding plate are arranged in the sliding cavity, the cutting plate with the right end positioned in the compression cavity and the extension spring capable of resetting the cutting plate are also arranged in the sliding cavity, one end of the extension spring is connected with the sliding plate, the sliding cavity is communicated with the telescopic cavity through a trapezoidal groove, a spring groove with an upward opening is arranged at the left end of the cutting plate, a limit groove with a downward opening is arranged in the trapezoidal rod, an ejecting groove with an upward opening is formed in the left end of the cut-off plate, the upper end of the ejecting groove penetrates through the trapezoidal groove and is located in the limiting groove, the ejecting groove is internally provided with a connecting spring which can enable the trapezoidal block to reset, and the upper end of the rope penetrates through the left end wall of the sliding cavity and is connected with the sliding plate.

Further, driven mechanism includes four driven plates, four friction posts, four driven springs, eight strings, deceleration strip, the enclosure right-hand member face is fixed with the deceleration strip, be equipped with the slave chamber in the deceleration strip, the terminal wall is equipped with four ascending slave troughs of opening under the slave chamber, be equipped with four in the slave chamber the driven plate, the terminal surface is fixed with under the driven plate the friction post, friction post lower extreme be fixed with the lower extreme with from the slave trough lower extreme wall fixed connection driven spring, the terminal surface is fixed with two under the driven plate the strings.

Furthermore, the water delivery mechanism comprises six rotating plates, six rotating shafts, six second torsion springs, six water delivery pipelines, four lifting springs, four lifting plates, four transmission blocks, a water drainage pipeline, two water distribution pipelines, a hydraulic pump, a semipermeable membrane, a lifting block, a lifting rod, two lifting springs, a rack block, two transmission shafts, two winding wheels, two transmission gears and six pull ropes, a water storage cavity communicated with the compression cavity is arranged in the right end wall of the compression cavity, the water storage cavity is separated from the compression cavity through the semipermeable membrane, a transmission cavity is arranged in the upper end wall of the water storage cavity, the water drainage pipeline with the upper end positioned in the transmission cavity is arranged in the water storage cavity, the hydraulic pump is arranged in the water drainage pipeline, the lifting block capable of sliding is arranged in the water drainage pipeline, the lifting rod with the upper end positioned in the transmission cavity is fixed at the upper end of the lifting block, the upper end of the lifting rod is fixed with the rack block, two transmission shafts are rotatably connected between the front end wall and the rear end wall of the transmission cavity, the transmission gears meshed with the rack block are fixed on the transmission shafts, the winding wheel is also fixed on the transmission shafts, three pull ropes are wound on the left winding wheel and the right winding wheel, two water distribution pipelines communicated with the water distribution pipelines are also arranged at the upper ends of the water distribution pipelines, three water pipelines communicated with the water distribution pipelines are arranged on one side of each water distribution pipeline, the three water pipelines on the right side in the transmission cavity are respectively clamped by four lifting plates, four transmission blocks are arranged at the upper sides of the lifting plates, the lifting spring with the upper end connected with the upper end wall of the transmission cavity is fixed at the upper end of the transmission block, and the lower ends of the thin ropes penetrate through the lower end wall of the driven cavity and the upper end wall of the transmission cavity and are connected with the transmission block, be equipped with the rotatory chamber in six intercommunication external space in the wall body, it is wherein three rotatory chamber opening is upwards, wherein three rotatory chamber opening is right, end wall rotates around the rotatory chamber to be connected with the rotation axis just the rotation axis with connect through second torsion spring between rotatory chamber end wall, be fixed with on the rotation axis the rotor plate, three wherein water pipe runs through the upside the rotor plate just can spray water to the external world, three wherein water pipe runs through the right side the rotor plate just can spray water to the external world, three in left side the stay cord runs through the upside three rotatory chamber and with the rotor plate is connected, three in right side the stay cord runs through the right side three rotatory chamber and with the rotor plate is connected.

Further, the friction force between the friction wheel and the friction rod is far larger than the elastic force of the first torsion spring, and the elastic force between the friction block and the friction cavity is far larger than the elastic force of the telescopic spring.

Further, the sum of the friction force between the friction column and the driven groove and the elastic force of the lifting spring is slightly smaller than the elastic force of the driven spring.

Further, the elastic force of the connecting spring is much larger than the frictional force between the cutoff plate and the sliding chamber.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device is available quantitative water, handles the raise dust that drifts away and go out from building site on a large scale, has both practiced thrift a considerable part of water, also effectively handles building site's raise dust problem, and when grit car business turn over building site, but the raise dust of flying when high efficiency's processing vehicle goes avoids influencing the passerby.

Drawings

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

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a partially sectioned enlarged main view of a truncation mechanism according to an embodiment of the present invention;

FIG. 3 is an enlarged, partially broken away, front view of a lift mechanism according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic top view partially in section of the lower end of the driving block according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The structure diagram of the environment-friendly treatment terminal machinery for recycling the rainwater and the wastewater in the building construction, which is described with reference to the attached drawings 1-4, mainly comprises an enclosing wall 1, and a lifting mechanism 69, a cutting mechanism 70, a driven mechanism 71 and a water delivery mechanism 72 are arranged in the enclosing wall 1.

Advantageously, the lifting mechanism 69 comprises a water supply pipe 2, a motor 39, a driving shaft 38, a driving block 37, a friction rod 40, a limit block 66, a rotating shaft 51, a reel 42, a first torsion spring 50, a friction wheel 41, a rope 6, a piston plate 67, a friction block 54, a connecting block 57, a limit plate 56, a chain 58, a closing plate 60, a telescopic spring 59, a water inlet pipe 51 and a water spray pipe 62, the enclosure 1 is internally provided with a downward-opening compression chamber 3, the water supply pipe 2 communicated with the external space is arranged in the upper end wall of the compression chamber 3, a driving chamber 49 is further arranged in the upper end wall of the compression chamber 3, the upper end wall of the driving chamber 49 is fixed with the motor 39, the lower end of the motor 39 is dynamically connected with the driving shaft 38, the lower end of the driving shaft 38 is connected with the driving block 37 with a thread, the lower end of the driving shaft 38 is located in the compression chamber 3, the compression chamber 3 is internally provided with a piston, a rotating groove 64 with an upward opening is arranged in the piston plate 67, the lower end of the driving block 37 is positioned in the rotating groove 64, the left end of the driving block 37 is fixed with the friction rod 40 with a lower end positioned in the rotating groove 64, an arc groove 65 communicated with the rotating groove 40 is arranged in the rear end wall of the rotating groove 40, the lower end of the friction rod 40 is fixed with the limiting block 66 with one end positioned in the arc groove 65 and capable of limiting the rotation of the driving block 37, the piston plate 67 is internally provided with the water inlet pipe 61 with an upward opening, the right end wall of the water inlet pipe 61 is provided with the water spray pipe 62 which is inclined downwards and communicated with the compression cavity 3, the piston plate 67 is internally provided with a closed cavity 63 which penetrates through the water inlet pipe 61, the closed cavity 63 is internally provided with the closed plate 60 which closes the water inlet pipe 62 and the extension spring 59 which can reset the closed plate 60, be equipped with opening left and upper end wall intercommunication in the closed chamber 63 left end wall friction chamber 53 of compression chamber 53, be equipped with spacing chamber 55 in the friction chamber 53 lower end wall, be equipped with limiting plate 56 in the spacing chamber 55, limiting plate 56 upper end is equipped with the upper end and is located in friction chamber 53 connecting block 57, connecting block 57 upper end is fixed with left end and compression chamber 3 frictional connection's clutch blocks 54, limiting plate 56 right-hand member is fixed with the upper end and runs through spacing chamber 55 upper end wall with closed chamber 63 left end wall and with the chain 58 that the closing plate 60 is connected, it is connected with to rotate around the end wall around the drive chamber 49 between the end wall, be fixed with the right-hand member on the rotation axis 51 with friction pulley 41 of friction lever 4 contact, still be fixed with on the rotation axis 51 reel 42, the last winding of reel 42 has rope 6, the rotating shaft 51 is connected to the end wall of the driving shaft 49 by the first torsion spring 50.

Beneficially, the blocking mechanism 70 includes a blocking plate 15, a compression spring 7, a trapezoidal rod 9, a return spring 8, a sliding plate 10, a trapezoidal block 14, a connecting spring 12, and an extension spring 11, a sliding chamber 5 with a right opening and a telescopic chamber 4 with a right opening are provided in the left end wall of the compression chamber 3, the trapezoidal rod 9 with a right end located in the compression chamber 3 and the return spring 8 capable of returning the trapezoidal rod 9 are provided in the telescopic chamber 4, the sliding plate 10 and the compression spring 7 capable of returning the sliding plate 10 are provided in the sliding chamber 5, the blocking plate 15 with a right end located in the compression chamber 3 and the extension spring 11 capable of returning the blocking plate 15 are further provided in the sliding chamber 5, one end of the extension spring 11 is connected with the sliding plate 10, the sliding chamber 5 is communicated with the telescopic chamber 4 through a trapezoidal groove 68, the left end of the cutoff plate 15 is provided with a spring groove 13 with an upward opening, a limiting groove 52 with a downward opening is arranged in the trapezoidal rod 9, an ejection groove 13 with an upward opening is arranged in the left end of the cutoff plate 15, the ejection groove 13 is internally provided with a trapezoidal block 14 of which the upper end penetrates through the trapezoidal groove 68 and is positioned in the limiting groove 52, the ejection groove 13 is internally provided with a connecting spring 12 capable of resetting the trapezoidal block 14, and the upper end of the rope 6 penetrates through the left end wall of the sliding cavity 5 and is connected with the sliding plate 10.

Beneficially, the driven mechanism 71 includes four driven plates 23, four friction columns 21, four driven springs 24, eight strings 25 and a speed bump 22, the speed bump 1 is fixed on the right end face of the enclosure 1, a driven cavity 20 is provided in the speed bump 1, four driven grooves 26 with upward openings are provided on the lower end wall of the driven cavity 20, four driven plates 23 are provided in the driven cavity 20, the friction columns 21 are fixed on the lower end face of the driven plates 23, the driven springs 24 with lower ends fixedly connected with the lower end wall of the driven grooves 26 are fixed on the lower ends of the friction columns 21, and two strings 25 are fixed on the lower end face of the driven plates 23.

Beneficially, the water delivery mechanism 72 includes six rotating plates 46, six rotating shafts 44, six second torsion springs 45, six water delivery pipes 43, four lifting springs 32, four lifting plates 29, four transmission blocks 31, a water discharge pipe 17, two water distribution pipes 28, a hydraulic pump 18, a semipermeable membrane 16, a lifting block 73, a lifting rod 74, two lifting springs 27, a rack block 34, two transmission shafts 35, two winding wheels 36, two transmission gears 33, and six pulling ropes 48, a water storage cavity 19 communicated with the compression cavity 3 is provided in the right end wall of the compression cavity 3, the water storage cavity 19 is separated from the compression cavity 3 by the semipermeable membrane 16, a transmission cavity 30 is provided in the upper end wall of the water storage cavity 19, the water discharge pipe 17 with the upper end located in the transmission cavity 30 is provided in the water storage cavity 19, the hydraulic pump 18 is provided in the water discharge pipe 17, the slidable lifting block 73 is provided in the water discharge pipe 17, the upper end of the lifting block 73 is fixed with the lifting rod 74, the upper end of which is positioned in the transmission cavity 30, the upper end of the lifting rod 74 is fixed with the rack block 34, two transmission shafts 35 are rotatably connected between the front and rear end walls of the transmission cavity 30, the transmission shaft 35 is fixed with the transmission gear 33 engaged with the rack block 34, the transmission shaft 35 is also fixed with the winding wheel 36, the left and right winding wheels 36 are wound with three pull ropes 48, the upper end of the drainage pipeline 17 is also provided with two water distribution pipelines 28 communicated with the drainage pipeline 17, one side of each water distribution pipeline 28 is provided with three water pipelines 43 communicated with the water distribution pipeline 28, the right three water pipelines 43 positioned in the transmission cavity 30 are respectively clamped by four lifting plates 29, the upper side of each lifting plate 29 is provided with four transmission blocks 31, the upper end of the transmission block 31 is fixed with the lifting spring 32, the upper end of which is connected with the upper end wall of the transmission cavity 30, the lower end of the string 25 penetrates through the lower end wall of the driven cavity 20, the upper end wall of the transmission cavity 30 and is connected with the transmission block 31, six rotary cavities 47 communicated with the external space are arranged in the wall body 1, the openings of the rotary cavities 47 are upward, three of the rotary cavities 47 are rightward, the front end wall and the rear end wall of each rotary cavity 47 are rotationally connected with the rotary shaft 44, the rotary shaft 44 is connected with the end wall of each rotary cavity 47 through a second torsion spring 45, the rotary shaft 44 is fixed with the rotary plate 46, three water pipelines 43 penetrate through the rotary plate 46 at the upper side and can spray water to the outside, three water pipelines 43 penetrate through the rotary plate 46 at the right side and can spray water to the outside, and three pull ropes 48 at the left side penetrate through the rotary cavities 47 at the upper side and are connected with the rotary plate 46, the three pull ropes 48 on the right side penetrate through the three rotating cavities 47 on the right side and are connected with the rotating plate 46.

Sequence of mechanical actions of the whole device:

1: in the initial state, the space between the piston plate 67 and the cutoff plate 15 is filled with muddy water, at this time, the motor 39 rotates, so that the driving shaft 38 rotates, so that the driving block 37 moves downwards, so that the piston plate 67 or the friction rod 40 descends, the piston plate 67 moves downwards, so that the friction block 54 moves upwards in the friction chamber 53, and then moves downwards along with the piston plate 67, so that the connecting block 57 and the limit plate 56 move upwards, so that the chain 58 loosens, so that the closing plate 60 is reset under the action of the expansion spring 59, and the water inlet pipe 61 is cut off;

2: the friction lever 40 moves downward to rotate the friction wheel 41, thereby rotating the rotation shaft 51 and the reel 42, thereby winding up the rope 6, the first torsion spring 50 is twisted, the movement of the rope 6 drives the sliding partition 10 to move leftward, thereby compressing the compression spring 7, the connecting spring 11 is stretched, and the cutoff plate 15 cannot move leftward due to the restriction of the trapezoidal blocks 14;

3: the piston plate 67 descends, so that water in muddy water enters the water storage cavity 19 through the semipermeable membrane 16, sediment and other magazines are left in the compression cavity 3, when the piston plate 67 descends to the lowest side, which indicates that compression is completed, the piston plate 67 drives the trapezoidal rod 9 to move leftwards, so that the upper end of the trapezoidal block 14 leaves the limiting groove 52, the cutoff plate 15 moves leftwards under the action of the connecting spring 11, the lower end wall of the compression cavity 3 is opened, and thus the sediment falls into the external space;

4: when the piston plate 67 needs to be reset, the motor 39 drives the driving shaft 38 to rotate reversely, so as to drive the driving block 37 to rotate, until the limit block 66 is in contact with the right side end wall of the arc-shaped groove 65, the driving block 37 rises along with the rotation of the driving shaft 38, so as to enable the piston plate 67 to move upwards, the driving block 37 rotates, the friction rod 40 is separated from the friction wheel 40, so as to enable the rotating shaft 51 to reset under the action of the torsion spring 50, so as to enable the reel 42 to release the rope, so as to enable the sliding plate 10, the connecting spring 11 and the cutting plate 15 to reset under the action of the compression spring 7, when the piston plate 67 moves upwards and is not in contact with the trapezoidal rod 9, the trapezoidal rod 9 resets, the upper end of the trapezoidal block 14 is re-positioned in the limit groove 52 and moves upwards along with the piston plate 67, so as to enable the friction block 54 to descend firstly and then move upwards along with the piston plate 67, the chain is pulled, the closing plate 60 is pulled to move leftwards, the water inlet pipeline 61 is opened, muddy water on the upper side of the piston plate 67 enters the compression cavity 3 on the lower side of the piston plate 67 through the water inlet pipeline 61 and the water spray pipeline 62 in the upward movement process of the piston plate 67, and the muddy water firstly contacts the left end face of the semipermeable membrane 16 when being sprayed out through the water spray pipeline 62, so that silt adhered to the semipermeable membrane 16 is firstly separated, and the lower side filtration is not influenced;

5: the hydraulic pump 18 works, so that water in the water storage cavity 19 is conveyed to the water distribution pipeline 28 and the water conveying pipeline 43 through the water drainage pipeline 17, and is sprayed out of the external space, so that raised dust is adsorbed through the water, and the dust is prevented from flying in a mess, and the pressure of the hydraulic pump 18 is controlled, so that the lifting block 73 can be controlled to ascend and descend, the rack block 34 and the lifting rod 74 are controlled to ascend and descend, the transmission gear 33 is driven to rotate, the winding wheel 36 is driven to rotate, the pull rope 48 is wound or loosened, the rotating plate 46 is controlled to rotate under the cooperation of the second torsion spring 45, the spraying range of the water conveying pipeline 43 is controlled, and the raised dust can be treated in a larger area;

6: when the grit car in the building site will leave the building site, make through deceleration strip 22, drive driven plate 23 and descend, thereby make the lower extreme of friction post 21 get into from the driven chamber 26 in, thereby make string 25 become loose, thereby make driving block 31 downstream under lifting spring 32's effect, thereby make lift board 29 press from both sides three hydraulic pipe 43 in the tight right side of clamp, thereby make three hydraulic pipe 43 pipe diameters in right side flatten, thereby make the flowing water velocity of flow through three hydraulic pipe 43 faster, thereby make spun water more urgent more, thereby be convenient for handle the raise dust because of the vehicle production that traveles more.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a building construction rainwater and waste water cyclic utilization environmental protection processing terminal, includes the enclosure, its characterized in that: a water delivery mechanism which can spray water into the air in a rotating manner at any time is arranged in the enclosing wall, and the sprayed water adsorbs dust in the air, so that the flying dust is removed;

2. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as recited in claim 1, wherein: the lifting mechanism further comprises a rotating shaft, a reel, a first torsion spring, a friction wheel, a rope, a friction block, a connecting block, a limiting plate, a chain, a sealing plate, an expansion spring, a water inlet pipeline and a water spray pipeline, wherein the piston plate is internally provided with the water inlet pipeline with an upward opening, the right end wall of the water inlet pipeline is provided with the water spray pipeline which inclines downwards and is communicated with the compression cavity, the piston plate is internally provided with a sealing cavity which runs through the water inlet pipeline, the sealing cavity is internally provided with the sealing plate which seals the water inlet pipeline and the expansion spring which can make the sealing plate reset, the left end wall of the sealing cavity is internally provided with a friction cavity with an opening which is communicated with the compression cavity leftwards and an upper end wall, the lower end wall of the friction cavity is internally provided with a limiting cavity, the limiting plate is arranged in the limiting cavity, connecting block upper end be fixed with the left end with compression chamber friction connection the clutch blocks, the limiting plate right-hand member is fixed with the upper end and runs through limiting chamber upper end wall with closing chamber left end wall and with the closure plate is connected the chain, it is connected with to rotate between drive chamber front and back end wall the axis of rotation, be fixed with the right-hand member in the axis of rotation with the friction lever contact the friction pulley, still be fixed with in the axis of rotation the reel, the winding has on the reel the rope, the axis of rotation with pass through between drive shaft end wall a torsion spring coupling.

3. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as claimed in claim 2, wherein the environment-friendly treatment terminal comprises: the cutting mechanism comprises a cutting plate, a compression spring, a trapezoidal rod, a reset spring, a sliding plate, a trapezoidal block, a connecting spring and an extension spring, a sliding cavity with a rightward opening and a telescopic cavity with a rightward opening are arranged in the left end wall of the compression cavity, the trapezoidal rod with the right end positioned in the compression cavity and the reset spring capable of resetting the trapezoidal rod are arranged in the telescopic cavity, the sliding plate and the compression spring capable of resetting the sliding plate are arranged in the sliding cavity, the cutting plate with the right end positioned in the compression cavity and the extension spring capable of resetting the cutting plate are also arranged in the sliding cavity, one end of the extension spring is connected with the sliding plate, the sliding cavity is communicated with the telescopic cavity through a trapezoidal groove, the left end of the cutting plate is provided with a spring groove with an upward opening, and a limit groove with a downward opening is arranged in the trapezoidal rod, an ejecting groove with an upward opening is formed in the left end of the cut-off plate, the upper end of the ejecting groove penetrates through the trapezoidal groove and is located in the limiting groove, the ejecting groove is internally provided with a connecting spring which can enable the trapezoidal block to reset, and the upper end of the rope penetrates through the left end wall of the sliding cavity and is connected with the sliding plate.

4. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as claimed in claim 3, wherein the environment-friendly treatment terminal comprises: be equipped with follower in the enclosure, follower includes four driven plates, four friction posts, four driven spring, eight strings, deceleration strip, the enclosure right-hand member face is fixed with the deceleration strip, be equipped with the slave chamber in the deceleration strip, the terminal wall is equipped with four ascending driven tanks of opening under the slave chamber, be equipped with four from the driven chamber the driven plate, the terminal surface is fixed with under the driven plate the friction post, friction post lower extreme be fixed with the lower extreme with from the driven tank lower extreme wall fixed connection driven spring, the terminal surface is fixed with two under the driven plate the string.

5. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as claimed in claim 4, wherein the environment-friendly treatment terminal comprises: six rotating plates, six rotating shafts, six second torsion springs, six water pipelines, four lifting springs, four lifting plates, four transmission blocks, a drainage pipeline, two water distribution pipelines, a hydraulic pump, a semipermeable membrane, a lifting block, a lifting rod, two lifting springs, a rack block, two transmission shafts, two winding wheels, two transmission gears and six pull ropes of the water conveying mechanism, a water storage cavity communicated with the compression cavity is arranged in the right end wall of the compression cavity, the water storage cavity is separated from the compression cavity through the semipermeable membrane, a transmission cavity is arranged in the upper end wall of the water storage cavity, the drainage pipeline with the upper end positioned in the transmission cavity is arranged in the water storage cavity, the hydraulic pump is arranged in the drainage pipeline, the lifting block is arranged in the drainage pipeline in a sliding manner, the upper end of the lifting block is fixed with the lifting rod with the upper end positioned in the transmission cavity, the upper end of the lifting rod is fixed with the rack block, two transmission shafts are rotatably connected between the front end wall and the rear end wall of the transmission cavity, the transmission gears meshed with the rack block are fixed on the transmission shafts, the winding wheel is also fixed on the transmission shafts, three pull ropes are wound on the left winding wheel and the right winding wheel, two water distribution pipelines communicated with the water distribution pipelines are also arranged at the upper ends of the water distribution pipelines, three water pipelines communicated with the water distribution pipelines are arranged on one side of each water distribution pipeline, the three water pipelines on the right side in the transmission cavity are respectively clamped by four lifting plates, four transmission blocks are arranged at the upper sides of the lifting plates, the lifting spring with the upper end connected with the upper end wall of the transmission cavity is fixed at the upper end of the transmission block, and the lower ends of the thin ropes penetrate through the lower end wall of the driven cavity and the upper end wall of the transmission cavity and are connected with the transmission block, be equipped with the rotatory chamber in six intercommunication external space in the wall body, it is wherein three rotatory chamber opening is upwards, wherein three rotatory chamber opening is right, end wall rotates around the rotatory chamber to be connected with the rotation axis just the rotation axis with connect through second torsion spring between rotatory chamber end wall, be fixed with on the rotation axis the rotor plate, three wherein water pipe runs through the upside the rotor plate just can spray water to the external world, three wherein water pipe runs through the right side the rotor plate just can spray water to the external world, three in left side the stay cord runs through the upside three rotatory chamber and with the rotor plate is connected, three in right side the stay cord runs through the right side three rotatory chamber and with the rotor plate is connected.

6. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as recited in claim 5, wherein: the friction force between the friction wheel and the friction rod is far larger than the elastic force of the first torsion spring, and the elastic force between the friction block and the friction cavity is far larger than the elastic force of the telescopic spring.

7. The environment-friendly treatment terminal for recycling the rainwater and the wastewater in the building construction according to claim 6, characterized in that: the sum of the friction force between the friction column and the driven groove and the elastic force of the lifting spring is slightly smaller than the elastic force of the driven spring.

8. The environment-friendly treatment terminal for recycling building construction rainwater and wastewater as claimed in claim 7, wherein the environment-friendly treatment terminal comprises: the elastic force of the connecting spring is far larger than the friction force between the cutting plate and the sliding cavity.