CN117587886B - Green energy-conserving for building portable rainwater collection device - Google Patents

Abstract

The application relates to the technical field of rainwater collection, in particular to a movable rainwater collection device for a green energy-saving building, which comprises a movable frame, a filter plate and a connecting piece. The movable frame is internally provided with a containing cavity and a guide plate, the containing cavity is positioned at the bottom of the movable frame, one end of the guide plate is rotationally connected to the movable frame, the other end of the guide plate is obliquely downwards arranged, the guide plate is positioned above the containing cavity, and a slag discharging port is formed in the side wall of the movable frame. The filter rotates to be connected on removing the frame, and the filter is located the one end butt that removes the frame on removing the frame inner wall, and the filter extends to the outer one end slope upward perk of removing the frame. One end of the connecting piece is connected with the guide plate, and the other end is connected with one end of the filter plate extending out of the frame. By utilizing the cooperation of the guide plate, the filter plate and the connecting piece, when more impurities are accumulated on the filter plate, the filter plate can automatically discharge the impurities along the guide plate from the slag discharge port. The application has the effect of being convenient for cleaning impurities on the filter plate.

Description

Green energy-conserving for building portable rainwater collection device

Technical Field

The application relates to the technical field of rainwater collection, in particular to a movable rainwater collection device for a green energy-saving building.

Background

The rainwater collecting device can help to save tap water, reduce the burden of a city drainage system and help to protect the environment. Thus, in some countries and regions, governmental and social groups have also encouraged residents to install and use rainwater harvesting apparatus.

Currently, rain water collecting devices typically include a collecting surface, such as a roof, from which rain water may flow down and be directed into a water storage container. The water storage container may be an underground reservoir, reservoir or other water storage device for storing rainwater for daily use or irrigation. The stormwater collection device generally also comprises a filtering device for removing impurities from the stormwater, ensuring that the stored stormwater is clean. Some stormwater collection devices are also equipped with pumps or other devices that can deliver stored stormwater to a desired location, such as for home use, or for farm irrigation, etc.

In view of the above related art, there are many impurities in rainwater, and after a long period of time, the impurities are easily accumulated on the filtering device, resulting in poor filtering effect of the filtering device.

Disclosure of Invention

In order to facilitate cleaning of impurities on the filtering device, the application provides a movable rainwater collecting device for a green energy-saving building.

The application provides a green energy-saving movable rainwater collection device for a building, which adopts the following technical scheme:

a green energy-saving mobile rainwater collection device for construction, comprising:

The device comprises a movable frame, wherein an accommodating cavity and a guide plate are arranged in the movable frame, the accommodating cavity is positioned at the bottom of the movable frame, one end of the guide plate is rotatably connected to the movable frame, the other end of the guide plate is obliquely downwards arranged, the guide plate is positioned above the accommodating cavity, a slag discharging port is formed in the side wall of the movable frame, and the slag discharging port is positioned at the rotary joint of the movable frame and the guide plate;

The filter plate is rotatably connected to the movable frame, the filter plate is positioned above the guide plate, one end of the filter plate is positioned in the movable frame, the other end of the filter plate extends out of the movable frame, one end of the filter plate positioned in the movable frame is abutted to the inner wall of the movable frame, one end of the filter plate extending out of the movable frame is tilted upwards, and a filter hole is formed in the filter plate positioned in the movable frame;

The connecting piece, the one end of connecting piece with the guide board is connected, the other end with the filter extends to the outer one end of frame and is connected, so that when the guide board keeps the slope, the guide board supports tightly on the removal frame, when being located remove the frame the guide board rotates down in, the guide board passes through the connecting piece drives the guide board rotates upwards, so that the guide board is kept away from the one side of turning end and is upwarp.

Through adopting above-mentioned technical scheme, will remove the one end that the frame was by filter butt when using and paste one side at the building eave for the rainwater that the building flowed down along the eave can fall on the filter, and the filter extends to the outer one end of removing the frame simultaneously not only can reduce the rainwater spill that the eave flowed down, also can be simultaneously to the further collection of rainwater.

After the rainwater filters through the filtration pore on the filter, hold the intracavity along the guide board flow direction, and impurity in the rainwater is intercepted by the filter, and pile up on the filter, when impurity pile up more on the filter board and carry out the shutoff with the filtration pore, the one end that the filter butt was on removing the frame receives the debris, the gravity of rainwater is great, make the one end that the filter butt was on removing the frame rotate downwards, when the one end that the filter butt was on removing the frame rotated downwards at that time, the filter extends to the one end outside removing the frame and upwards rotates, it upwards rotates to drive the guide board through coupling assembling when upwards rotating, make the guide board keep away from one side perk of rotating the end, impurity and rainwater that accept on the filter flow direction row slag notch along the guide board this moment, thereby accomplish the clearance to impurity on the filter.

After impurity clearance is accomplished on the filter, the guide board utilizes the connecting piece to apply pulling force to the filter one end that extends outside the removal frame for the filter board extends to the outside one end of removal frame and rotates downwards, thereby makes the filter board lie in the one end of removal frame and supports again on the removal frame.

Utilize the cooperation of guide board, filter and connecting piece, whenever pile up more impurity on the filter, the filter just can be automatic with impurity along guide board follow the sediment mouth discharge, reached the effect of being convenient for clear up impurity on the filter.

Optionally, the connecting piece includes direction wheelset, connecting rope, the direction wheelset rotates to be connected on the removal frame, the one end fixed connection of connecting rope is in on the guide board, the other end is connected on the filter, just the connecting rope winds to establish on the direction wheelset.

Through adopting above-mentioned technical scheme, when filter board takes place to rotate, the filter drives the connecting rope and removes, and the connecting rope drives the guide board and rotates under the direction of direction wheelset. And similarly, when the guide plate rotates, the filter plate can be driven to rotate.

Optionally, one end fixed connection of connecting rope is in one side that the guide board kept away from the rotation end, the other end fixed connection of connecting rope is in the filter is kept away from the one end of removing the frame.

Through adopting above-mentioned technical scheme, because the terminal pivoted route of filter is longer, with connecting rope fixed connection at the end of filter for connecting rope has longer motion path, thereby is convenient for drive the longer route of guide board rotation.

And meanwhile, the connecting rope is connected to the tail end of the guide plate, so that the guide plate can apply larger force to the filter plate, and one end of the filter plate, which is positioned in the movable frame, is abutted against the movable frame.

Optionally, the last slope of removing the frame is provided with the deflector, the ascending one end fixed connection of deflector slope is in the filter butt is in remove one side of frame, just the deflector is located the guide board with between the filter, can the butt be in during the guide board rotates the below of deflector.

Through adopting above-mentioned technical scheme, the setting of deflector for filter the board when discharging impurity, the impurity can be along the deflector more flow direction guide board, thereby discharge from the sediment mouth. The arrangement of the guide plate reduces the possibility of impurities falling into the accommodating cavity.

Optionally, a relief groove is formed in the guide plate, and the relief groove is used for the connecting rope to pass through.

Through adopting above-mentioned technical scheme, the setting of groove of stepping down for the butt that the deflector can be better is at the guide board.

Optionally, a collecting box is arranged on the outer side of the movable frame, and a notch of the collecting box is positioned at the slag discharging opening.

Through adopting above-mentioned technical scheme, the setting of collecting box is convenient for collect sediment mouth exhaust impurity.

Optionally, a limiting block is installed on the moving frame, and the limiting block is located below the moving frame in a manner that the filter plate abuts against the moving frame, so that the limiting block can bear the filter plate when the filter plate abuts against the moving frame.

Through adopting above-mentioned technical scheme, the setting of stopper for filter plate holds more impurity, makes the weight that is located the removal inboard of filter plate and bears impurity be greater than the filter and extends to the traction force that receives outside the removal frame, thereby when making filter plate break away from the stopper, can drive the filter fast and take place to rotate, makes the impurity on the filter plate break away from in the twinkling of an eye from the filter.

Optionally, a damping member is fixedly connected to the moving frame, and the damping member is used for reducing collision between the filter plate and the moving frame when the filter plate rotates downwards.

Through adopting above-mentioned technical scheme, when having reduced the filter fast turn-round, the impact force of filter striking removal frame for it is not fragile to remove the frame.

Optionally, the damping piece includes piston rod, piston tube, piston rod fixed connection is in on the filter, piston tube fixed connection is in on the movable frame, when the movable frame rotates, the piston rod can insert and establish to in the piston tube.

Through adopting above-mentioned technical scheme, when filter plate fast turn, the piston rod inserts in establishing to the piston tube, utilizes the friction of piston rod and piston tube and the air of piston rod compression to cushion the filter to reduce the impact of filter to the removal frame.

Meanwhile, when the filter plate is reset, the friction between the piston rod and the piston cylinder delays the reset of the filter plate, so that impurities on the filter plate can fall off as completely as possible, and the effect of cleaning the filter plate is achieved.

Optionally, a pulley is fixedly connected to the bottom of the movable frame.

Through adopting above-mentioned technical scheme, the setting of pulley is convenient for remove the frame and removes to make rainwater collection device be convenient for shift according to the demand.

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

1. Through the cooperation of the movable frame, the accommodating cavity, the guide plate, the slag discharge port, the filter plate and the connecting piece, when more impurities are accumulated on the filter plate, the filter plate can automatically discharge the impurities along the guide plate from the slag discharge port, so that the effect of conveniently cleaning the impurities on the filter plate is achieved;

2. Through the arrangement of the guide plates, when the filter plate discharges impurities, the impurities can flow to the guide plates along more guide plates and then are discharged from the slag discharge port, so that the possibility that the impurities fall into the accommodating cavity is reduced;

3. through the cooperation of the movable frame, the filter plate, the piston rod and the piston cylinder, when the filter plate rotates rapidly, the piston rod is inserted into the piston cylinder, and the friction between the piston rod and the piston cylinder and the compressed air of the piston rod are utilized to buffer the filter plate, so that the impact of the filter plate on the movable frame is reduced; meanwhile, when the filter plate is reset, the friction between the piston rod and the piston cylinder delays the reset of the filter plate, so that impurities on the filter plate can fall off as completely as possible, and the effect of cleaning the filter plate is achieved.

Drawings

Fig. 1 is a schematic structural view of a mobile rainwater collecting device for green energy-saving building according to an embodiment of the present application.

Fig. 2 is a cross-sectional view at A-A in fig. 1.

Reference numerals illustrate:

1. A moving rack; 11. a receiving chamber; 12. a guide plate; 13. a slag discharge port; 2. a filter plate; 21. filtering holes; 3. a connecting piece; 31. a guide wheel set; 32. a connecting rope; 4. a pulley; 5. a limiting block; 6. a damping member; 61. a piston rod; 62. a piston cylinder; 63. a vent hole; 7. a guide plate; 71. a relief groove; 8. a collection box; 9. a water pump; 91. a hose; 92. a spray head.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The embodiment of the application discloses a movable rainwater collecting device for a green energy-saving building.

Referring to fig. 1 and 2, a green energy-saving mobile rainwater collecting apparatus for construction includes a mobile frame 1, a filter plate 2, and a connector 3. The movable frame 1 is internally provided with a containing cavity 11 and a guide plate 12, the containing cavity 11 is positioned at the bottom of the movable frame 1, one end of the guide plate 12 is rotationally connected to the movable frame 1, the other end of the guide plate 12 is obliquely downwards arranged, the guide plate 12 is positioned above the containing cavity 11, the side wall of the movable frame 1 is provided with a slag discharging port 13, and the slag discharging port 13 is positioned at the rotational connection part of the movable frame 1 and the guide plate 12. The filter 2 rotates to be connected on removing frame 1, and filter 2 is located guide board 12 top, and the one end of filter 2 is located removes frame 1, and the other end extends to outside removing frame 1, and the one end butt that filter 2 is located removes frame 1 is on removing frame 1 inner wall, and the one end slope that filter 2 extends to outside removing frame 1 upwarps, has offered filtration pore 21 on the filter 2 that is located removes frame 1. One end of the connecting piece 3 is connected with the guide plate 12, and the other end is connected with one end of the filter plate 2 extending out of the frame. By utilizing the cooperation of the guide plate 12, the filter plate 2 and the connecting piece 3, when more impurities are accumulated on the filter plate 2, the filter plate 2 can automatically discharge the impurities along the guide plate 12 from the slag discharge port 13, so that the effect of conveniently cleaning the impurities on the filter plate 2 is achieved.

In this embodiment, the bottom of the moving frame 1 is fixedly connected with pulleys 4, and the pulleys 4 are respectively and fixedly connected at four corners of the bottom of the moving frame 1. The movable frame 1 is convenient to move by the arrangement of the pulley 4, so that the rainwater collecting device is convenient to transfer according to requirements.

When installing rainwater collection device, the building that the preference roof structure is the inclined plane, and install rainwater collection device in the lowest one side of roof structure, utilize pulley 4 to hug closely the building wall by the one side that filter 2 was abutted to remove frame 1 to the rainwater that makes the building roof collect can flow into along the inclined plane in removing frame 1.

In this embodiment, a limiting block 5 is mounted on the moving frame 1, and the limiting block 5 is located below the filter plate 2 and abuts against the moving frame 1. When the filter plate 2 is abutted on the movable frame 1, the limiting block 5 can receive the filter plate 2.

The cross section of the limiting block 5 is semicircular, and meanwhile, one end of the filter plate 2 close to the limiting block 5 is also arc-shaped, and the arc-shaped arrangement is convenient for the filter plate 2 to slide relative to limiting.

In order to facilitate the cleaning of impurities on the filter plate 2 at one time, the filter plate 2 needs to be rotated by a large enough amplitude once, so the limiting block 5 is arranged, so that the filter plate 2 receives more impurities, the weight of the filter plate 2, which is positioned in the moving plate and bears the impurities, is larger than the traction force applied to the outside of the filter plate 2 extending to the moving frame 1, and when the filter plate 2 is separated from the limiting block 5, the filter plate 2 can be rapidly driven to rotate, and then the filter plate 2 is rotated by a large enough amplitude once, so that the impurities on the filter plate 2 can be instantaneously separated from the filter plate 2.

Because after the filter 2 rotates fast, bump with remove frame 1 easily, consequently remove and be connected with damping piece 6 on the frame 1, damping piece 6's setting has reduced when the filter 2 rotates fast, and the impact force of filter 2 striking removes frame 1 for remove frame 1 not fragile.

In this embodiment, the damping member 6 includes a piston rod 61 and a piston cylinder 62, and in other embodiments, a cushion pad may be used to respectively cushion the impact position, preferably made of rubber, and prevent impurities from leaking out of the gap.

The piston rod 61 is fixedly connected to the filter plate 2, the piston cylinder 62 is fixedly connected to the moving frame 1, and the piston rod 61 can be inserted into the piston cylinder 62 when the moving frame 1 rotates. When the filter plate 2 is rapidly rotated, the piston rod 61 is inserted into the piston cylinder 62, and the filter plate 2 is buffered by friction between the piston rod 61 and the piston cylinder 62 and air compressed by the piston rod 61, thereby reducing impact of the filter plate 2 on the moving frame 1.

Meanwhile, when the filter plate 2 is reset, the friction between the piston rod 61 and the piston cylinder 62 delays the reset of the filter plate 2, so that impurities on the filter plate 2 can fall off as completely as possible, and the effect of cleaning the filter plate 2 is achieved.

In this embodiment, the piston rod 61 and the piston cylinder 62 are both arc-shaped with the same radian as the movement path, so that the piston rod 61 can be better inserted into the piston cylinder 62 during the rotation process of the filter plate 2.

In an alternative embodiment, the bottom of piston cylinder 62 is provided with a vent hole 63, and vent hole 63 is arranged to overcome atmospheric pressure when filter plate 2 is reset, so that the reset speed of filter plate 2 is slower.

In this embodiment, the connecting members 3 are provided with two sets, and the two sets of connecting members 3 are respectively mounted at both ends of the filter plate 2, so that the two sets of connecting members 3 can stably connect the filter plate 2 with the guide plate 12.

Each group of connecting pieces 3 comprises a guide wheel group 31 and a connecting rope 32, the guide wheel group 31 is rotationally connected to the movable frame 1, one end of the connecting rope 32 is fixedly connected to the guide plate 12, the other end of the connecting rope 32 is connected to the filter plate 2, and the connecting rope 32 is wound on the guide wheel group 31. The guide wheel set 31 in this embodiment includes two guide wheels, the two guide wheels are located on the same plane, the guide wheel close to the filter plate 2 is located on the upper side, the guide wheel close to the guide plate 12 is located on the lower side, and the lowermost end of the guide wheel located on the upper side and the uppermost end of the guide wheel located on the upper side are located on the same horizontal position.

When the filter plate 2 rotates, the filter plate 2 drives the connecting rope 32 to move, and the connecting rope 32 drives the guide plate 12 to rotate under the guide of the guide wheel group 31. Similarly, when the guide plate 12 rotates, the filter plate 2 can also be driven to rotate.

In an alternative embodiment, one end of the connecting rope 32 is fixedly connected to the side of the guide plate 12 remote from the rotating end, and the other end of the connecting rope 32 is fixedly connected to the end of the filter plate 2 remote from the moving frame 1.

Since the path of rotation of the end of the filter plate 2 is longer, the connecting rope 32 is fixedly connected to the end of the filter plate 2, so that the connecting rope 32 has a longer movement path, thereby facilitating the rotation of the guide plate 12 along the longer path.

At the same time, the connecting rope 32 is connected to the end of the guide plate 12, so that the guide plate 12 can apply a greater force to the filter plates 2, so that the end of the filter plates 2 located in the moving frame 1 abuts against the moving frame 1.

In this embodiment, the moving frame 1 is obliquely provided with a guide plate 7, one end of the guide plate 7 obliquely upwards is fixedly connected to one side of the filter plate 2, which is abutted against the moving frame 1, and the guide plate 7 is located between the guide plate 12 and the filter plate 2, and the guide plate 12 can be abutted against the lower side of the guide plate 7 when rotating.

The guide plate 7 is arranged so that the filter plate 2 can flow more along the guide plate 7 to the guide plate 12 when discharging impurities, thereby being discharged from the slag discharge opening 13. The provision of the guide plate 7 reduces the likelihood of foreign matter falling into the receiving chamber 11.

Since the connecting rope 32 is fixedly connected to the tail end of the guide plate 12, and the tail end of the guide plate 12 is abutted to the guide plate 7 in the rotating process of the guide plate 12, the guide plate 7 is provided with the yielding groove 71, and the yielding groove 71 is used for the connecting rope 32 to pass through. By the provision of the relief groove 71, the guide plate 7 can be brought into contact with the guide plate 12.

In an alternative embodiment, the outside of the mobile carriage 1 is provided with a collecting box 8, the notch of the collecting box 8 being located at the slag discharge opening 13. The collection box 8 is arranged to collect impurities discharged from the slag discharging opening 13.

The side wall of the movable frame 1 is provided with a water pump 9, the accommodating cavity 11 is communicated with the water pump 9, a water outlet of the water pump 9 is connected with a hose 91, and the tail end of the hose 91 is connected with a spray head 92. The rainwater stored in the accommodating cavity 11 is utilized by utilizing the cooperation of the water suction pump 9 and the spray head 92, so that the energy-saving and environment-friendly water supply device can be used for watering green plants or living water on a building, and has the effect of green energy conservation.

The implementation principle of the movable rainwater collection device for the green energy-saving building provided by the embodiment of the application is as follows: one end of the movable frame 1, which is abutted by the filter plates 2, is attached to one side of the eave of the building, so that rainwater flowing down along the eave of the building can fall on the filter plates 2. After the rainwater is filtered through the filter holes 21 on the filter plate 2, the rainwater flows into the accommodating cavity 11 along the guide plate 7 and the guide plate 12, and impurities in the rainwater are intercepted by the filter plate 2 and are accumulated on the filter plate 2.

When more impurities are accumulated on the filter plate 2 and the filter holes 21 are blocked, the gravity of the impurities, namely rainwater, is larger at one end of the filter plate 2, which is abutted against the movable frame 1 until the filter plate 2 is separated from the limiting block 5.

Make filter board 2 butt at the quick downward rotation of one end on removing frame 1, when the one end of filter board 2 butt on removing frame 1 rotates down fast, the one end that filter board 2 extended to removing outside frame 1 upwards rotates, the cooperation through connecting rope 32 and leading wheel drives guide board 12 and upwards rotates when filter board 2 upwards rotates, make one side perk that the rotating end was kept away from to guide board 12, until guide board 12 butt is on deflector 7, impurity and rainwater that accept on the filter board 2 flow to arrange cinder notch 13 along guide board 12 at this moment, thereby accomplish the clearance to impurity on the filter board 2.

After the impurities on the filter plate 2 are cleaned, the guide plate 12 applies a pulling force to one end of the filter plate 2 extending out of the movable frame 1 by utilizing the cooperation of the connecting rope 32 and the guide wheel, so that one end of the filter plate 2 extending out of the movable frame 1 rotates downwards, and one end of the filter plate 2 positioned in the movable frame 1 is abutted against the movable frame 1 again and is received by the limiting block 5.

By utilizing the cooperation of the guide plate 12, the filter plate 2 and the connecting piece 3, when more impurities are accumulated on the filter plate 2, the filter plate 2 can automatically discharge the impurities along the guide plate 12 from the slag discharge port 13, so that the effect of conveniently cleaning the impurities on the filter plate 2 is achieved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. The utility model provides a portable rainwater collection device for green energy-conserving building which characterized in that includes:

Remove frame (1), be provided with in removing frame (1) and hold chamber (11), guide board (12), hold chamber (11) and be located remove the bottom of frame (1), the one end rotation of guide board (12) is connected remove on frame (1), the other end slope of guide board (12) sets up downwards, just guide board (12) are located hold the top in chamber (11), it has set up slag tap (13) on the lateral wall of frame (1) to remove, slag tap (13) are located remove frame (1) with guide board (12) rotation junction;

The filter plate (2) is rotationally connected to the movable frame (1), the filter plate (2) is located above the guide plate (12), one end of the filter plate (2) is located in the movable frame (1), the other end of the filter plate extends out of the movable frame (1), one end of the filter plate (2) located in the movable frame (1) is abutted to the inner wall of the movable frame (1), when the movable frame is used, one end of the movable frame (1) abutted to the filter plate (2) is attached to one side of a building eave, one end of the filter plate (2) extending out of the movable frame (1) is tilted upwards, and a filter hole (21) is formed in the filter plate (2) located in the movable frame (1);

The connecting piece (3), one end of the connecting piece (3) is connected with the guide plate (12), the other end is connected with one end of the filter plate (2) extending to the outside of the frame, so that the guide plate (12) is kept inclined, the filter plate (2) is abutted against the movable frame (1), and when the filter plate (2) positioned in the movable frame (1) rotates downwards, the filter plate (2) drives the guide plate (12) to rotate upwards through the connecting piece (3), so that one side of the guide plate (12) away from the rotating end is tilted upwards;

The connecting piece (3) comprises a guide wheel set (31) and a connecting rope (32), the guide wheel set (31) is rotationally connected to the movable frame (1), one end of the connecting rope (32) is fixedly connected to the guide plate (12), the other end of the connecting rope is connected to the filter plate (2), and the connecting rope (32) is wound on the guide wheel set (31);

A guide plate (7) is obliquely arranged on the movable frame (1), one end of the guide plate (7) which is obliquely upwards is fixedly connected to one side of the filter plate (2) which is abutted against the movable frame (1), the guide plate (7) is positioned between the guide plate (12) and the filter plate (2), and the guide plate (12) can be abutted under the guide plate (7) when rotating;

And the guide plate (7) is provided with a yielding groove (71), and the yielding groove (71) is used for the connecting rope (32) to pass through.

2. A green energy saving mobile stormwater collecting apparatus for construction as claimed in claim 1, wherein: one end of the connecting rope (32) is fixedly connected to one side, far away from the rotating end, of the guide plate (12), and the other end of the connecting rope (32) is fixedly connected to one end, far away from the moving frame (1), of the filter plate (2).

3. A green energy saving mobile stormwater collecting apparatus for construction as claimed in claim 1, wherein: the outside of movable frame (1) is provided with collection box (8), the notch of collection box (8) is located sediment mouth (13) department.

4. A green energy saving mobile stormwater collecting apparatus for construction as claimed in claim 1, wherein: install stopper (5) on removing frame (1), stopper (5) are located filter (2) butt is in remove the below of frame (1), so that filter (2) butt is in remove when frame (1) is last, stopper (5) can accept filter (2).

5. A green energy saving mobile rainwater harvesting apparatus for buildings as defined by claim 4, wherein: and a damping piece (6) is fixedly connected to the movable frame (1), and the damping piece (6) is used for reducing collision between the filter plate (2) and the movable frame (1) when the filter plate (2) rotates downwards.

6. A green energy saving mobile stormwater collecting apparatus for construction as claimed in claim 5, wherein: the damping piece (6) comprises a piston rod (61) and a piston cylinder (62), the piston rod (61) is fixedly connected to the filter plate (2), the piston cylinder (62) is fixedly connected to the movable frame (1), and when the movable frame (1) rotates, the piston rod (61) can be inserted into the piston cylinder (62).

7. A green energy saving mobile stormwater collecting apparatus for construction as claimed in claim 1, wherein: the bottom of the movable frame (1) is fixedly connected with a pulley (4).