CN112854361A

CN112854361A - Equipment of recycling is collected to roof rainwater

Info

Publication number: CN112854361A
Application number: CN202011621089.5A
Authority: CN
Inventors: 温庚金; 蒋慧; 李悦宁; 王宁; 黄观弟; 仇晓媛; 郑文苑; 胡冰; 罗晓明; 姜妍; 罗益平; 何绮敏
Original assignee: Shenzhen Tiehan Yifang Environmental Technology Co ltd
Current assignee: Shenzhen Tiehan Yifang Environmental Technology Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention relates to rainwater recycling equipment, in particular to roof rainwater collecting and recycling equipment which comprises a collecting box mechanism, a transfer mechanism and a spraying mechanism.

Description

Equipment of recycling is collected to roof rainwater

Technical Field

The invention relates to rainwater recycling equipment, in particular to roof rainwater collecting and recycling equipment.

Background

Rainwater on the roof is generally directly discharged and treated, so that the rainwater is wasted, and a good recycling effect is not achieved, so that the roof rainwater collecting and recycling device is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing roof rainwater collecting and recycling equipment, the equipment can collect rainwater, the equipment can collect energy by utilizing the rainwater and solar energy, the equipment can be used for irrigating, and the equipment can be used for automatically adding fertilizers.

In order to solve the technical problem, the invention relates to rainwater recycling equipment, in particular to roof rainwater collecting and recycling equipment which comprises a collecting box mechanism, a transfer mechanism and a spraying mechanism, wherein the equipment can collect rainwater, can collect energy by utilizing rainwater and solar energy, can be used for irrigating, and can be automatically added with fertilizer.

The collecting box mechanism is connected with the transfer mechanism, and the collecting box mechanism is connected with the spraying mechanism.

As a further optimization of the technical scheme, the collecting box mechanism of the roof rainwater collecting and recycling device comprises an embedding hole, a connecting frame, an L-shaped pipe I, a sliding seat, a sliding chute, an embedding hole I, U-shaped seat, a sleeve, a sliding plug, a plug rod, a screwing head, a threaded rod, a connecting pipe, a connecting seat with two rods, a servo motor, a coupler, a bearing seat, a lead screw, a column with a threaded hole, a belt pulley I, a water inlet pipe, a compression screw, a matching seat, a water inlet box, a sliding rail, a sliding adjusting seat, a hinged frame, a solar panel, a sliding chute, a coupler, a servo motor I, a sliding head with a stepped seat, a stepped groove, a flange, a limiting seat, a limiting disc, a wedge block, an opening, an inlet channel, a spiral, a connecting shaft, a drain hole, a shaft impeller with a shaft, a valve sliding cavity, The spraying pipe, the inner support plug, the unthreaded hole, the socket, the matching threaded hole, the filter plate, the accelerating pulley, the clamping spring, the connecting column, the wedge block cavity, the screw I and the collecting spray pipe, the embedding hole and the embedding hole I are symmetrically arranged on the connecting frame, one end of the connecting frame is connected with the U-shaped seat, the other end is connected with the water inlet box, the L-shaped pipe is connected with the sliding seat, the L-shaped pipe I is connected with the sliding seat, the sliding seat is provided with a sliding groove, the sliding groove is communicated with the L-shaped pipe I, the U-shaped seat is connected with the water inlet box, the U-shaped seat is connected with the sleeve, the sleeve is connected with the sliding plug in a sliding mode, the sliding plug is connected with the plug rod, the screwing head is connected with the threaded rod, the threaded rod is connected with the connecting pipe, the connecting pipe, the bearing seat is connected with a double-rod connecting seat, a lead screw is in threaded connection with a matching threaded hole arranged on the column with the threaded hole, the column with the threaded hole is connected with a sliding seat, a belt pulley is in frictional connection with a belt pulley I, a water inlet pipe is connected with a water inlet box, a compression screw is in threaded connection with the matching seat, the matching seat is connected with a water inlet box, the water inlet box is connected with a sliding rail, the sliding rail is provided with a sliding groove which is in sliding connection with a sliding adjusting seat, the sliding adjusting seat is hinged with a hinged frame, the hinged frame is connected with a solar panel, the lead screw I is rotationally connected with the sliding rail, the lead screw I is connected with a servo motor I through a coupler, the servo motor I is connected with the water inlet box, the hinged frame is hinged with a sliding head with a stepped seat, the sliding head with the stepped seat is in sliding connection with a stepped groove arranged on the water inlet box, a, the limiting disc is connected with the connecting column, the clamping spring is sleeved on the connecting column, two ends of the clamping spring are connected with the wedge block and the limiting seat, the wedge block cavity is arranged on the limiting seat, the wedge block cavity is connected with the wedge block in a sliding manner, the opening is arranged on the bearing seat, the inlet channel is arranged on the water inlet pipe, the inner spiral is connected with the connecting shaft, the connecting shaft is connected with the water inlet pipe in a rotating manner, the drain hole is arranged on the water inlet box, the drain hole is communicated with the stepped groove, the inner cavity is arranged in the water inlet box, the impeller with the shaft is connected with the water inlet box in a rotating manner, the impeller with the shaft is connected with the belt pulley, the valve sliding cavity is arranged on the connecting pipe, the valve sliding cavity is communicated with the inner cavity, the sliding valve is connected with the valve sliding cavity in a sliding manner, the L-shaped channel is arranged on the sliding valve, the blowout pipe is linked together with the valve sliding cavity, supports stopper and valve sliding cavity sliding connection in, and the threaded rod links to each other with interior stopper, and threaded rod, interior stopper and twist are all equipped with the unthreaded hole on moving the head, unthreaded hole and plug pole sliding connection, and the socket setting is on the U-shaped seat, and the filter all sets up on the connecting axle with the accelerating pulley, and the connecting axle links to each other with belt pulley I, and the spray tube that converges links to each other with the inlet tube, slide adjusting seat and lead screw I threaded connection.

As a further optimization of the technical scheme, the transfer mechanism of the roof rainwater collecting and recycling device comprises a connection inlet pipe, a transfer water tank, a magnetic induction line providing seat, an outlet pipe, a baffle plate, a water outlet slide block, a coil, a water wheel with a shaft, a water wheel motor and a communication channel, wherein the connection inlet pipe is connected and communicated with the transfer water tank, the transfer water tank is connected with the magnetic induction line providing seat, the transfer water tank is connected with the outlet pipe, the outlet pipe is connected with the baffle plate, the baffle plate is connected with the water outlet slide block, the coil is connected with the water wheel with the shaft, the water wheel with the shaft is rotationally connected with the transfer water tank, the coil is rotationally connected with the magnetic induction line providing seat, the water wheel with the shaft is connected with the water wheel motor, the water wheel motor is connected with the transfer water tank, the outlet pipe, the baffle plate and the water outlet slide block are all provided with the communication channel, the communication channel is communicated, the ejection pipe is connected and communicated with the connection inlet pipe.

As a further optimization of the technical scheme, the spraying mechanism of the roof rainwater collecting and recycling device comprises a flanged connecting pipe, a sleeve I, a hose, a bent pipe I, a rotating wheel with an inlet, a protrusion, a supporting leg with a universal wheel, a vertical connecting pipe, a water spraying box, a hydraulic cylinder, a pulley with a seat, a square column, a spring I, a seat with a square hole, a connecting arm, a pushing pulley, a passive protrusion, a shaking hopper, a discharging rod, a waste bin, a feeding plug, a feeding opening, a moving platform, a discharging opening, a movable baffle, a fixed box, a chute I, a pouring nozzle, a spraying check valve, a water spraying pushing plug, a piston rod, a pushing cavity, a friction wheel and a friction wheel motor, wherein the flanged connecting pipe is connected with the sleeve, the sleeve penetrates through an embedding hole, the sleeve is connected with a connecting frame, an L-shaped pipe is connected with the sleeve in a sliding manner, the sleeve I penetrates through the embedding, the sleeve I is connected with the L-shaped pipe I in a sliding way, the sleeve I is connected with the hose, the hose is connected with the elbow I, the elbow I is connected with the mobile platform, the mobile platform is connected with the supporting leg with the universal wheel, the rotating wheel with the inlet is connected with the elbow I in a rotating way, the rotating wheel with the inlet is provided with a bulge, the rotating wheel with the inlet is connected and communicated with a vertical connecting pipe, the vertical connecting pipe is connected with a water spraying box, the vertical connecting pipe is communicated with a pushing cavity arranged in the water spraying box, the water spraying box is connected with a hydraulic cylinder, the pulley with the seat is contacted with the rotating wheel with the inlet, the pulley with the seat is connected with a square column, a spring I is sleeved on the square column, two ends of the spring I are respectively connected with the pulley with the seat and the square hole seat, the square column is connected with the square hole seat in a sliding way, the square column is connected with the mobile, promote the pulley and contact with passive arch, passive arch links to each other with rocking the fill, it is articulated mutually with moving platform to shake the fill, the linking arm links to each other with the discharge bar, waste bin and reinforced stopper threaded connection, waste bin links to each other with moving platform, the discharge bar links to each other with adjustable fender, adjustable fender and fixed box sliding connection, the fixed box links to each other with waste bin, all be equipped with the discharge opening on fixed box and the waste bin, spout I sets up on moving platform, spout I and linking arm sliding connection, the watering spray tube links to each other with the spray box, the watering spray tube is linked together with the promotion chamber, the blowout check valve sets up in the watering spray tube, the water spray promotes the stopper and links to each other with the piston rod, the piston rod links to each other with the pneumatic cylinder, piston rod and spray box sliding connection, water spray promotes chamber sliding connection with and promotes chamber sliding connection, the friction pulley and take inlet runner friction pulley motor to.

As a further optimization of the technical scheme, the length of the hose of the roof rainwater collecting and recycling device can be adjusted according to actual use.

The roof rainwater collecting and recycling equipment has the beneficial effects that:

according to the roof rainwater collecting and recycling device, rainwater can be collected, energy can be collected by the device through rainwater and solar energy, the device can be used for irrigating, and fertilizers can be automatically added into the device.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first structural schematic diagram of a roof rainwater collecting and recycling device of the present invention.

Fig. 2 is a schematic structural view of a roof rainwater collecting and recycling device of the present invention.

Fig. 3 is a schematic structural view three of the roof rainwater collecting and recycling device of the present invention.

Fig. 4 is a schematic structural view of a roof rainwater collecting and recycling device of the present invention.

Fig. 5 is a first structural schematic diagram of a collecting box mechanism 1 of the roof rainwater collecting and recycling device of the invention.

Fig. 6 is a schematic structural diagram of a collecting box mechanism 1 of the roof rainwater collecting and recycling device of the invention.

Fig. 7 is a third structural schematic diagram of a collecting box mechanism 1 of the roof rainwater collecting and recycling device of the invention.

Fig. 8 is a fourth structural schematic diagram of a collecting box mechanism 1 of the roof rainwater collecting and recycling device of the invention.

Fig. 9 is a fifth structural schematic diagram of a collecting box mechanism 1 of the roof rainwater collecting and recycling device of the invention.

Fig. 10 is a first structural schematic view of a transfer mechanism 2 of the roof rainwater collecting and recycling device of the present invention.

Fig. 11 is a second structural schematic diagram of the transfer mechanism 2 of the roof rainwater collecting and recycling device of the present invention.

Fig. 12 is a third schematic structural view of the transfer mechanism 2 of the roof rainwater collecting and recycling device of the present invention.

Fig. 13 is a first structural schematic diagram of a spraying mechanism 3 of the roof rainwater collecting and recycling device of the invention.

Fig. 14 is a second structural schematic diagram of a spraying mechanism 3 of the roof rainwater collecting and recycling device of the invention.

Fig. 15 is a third schematic structural view of a spraying mechanism 3 of the roof rainwater collecting and recycling device of the present invention.

Fig. 16 is a fourth structural schematic diagram of a spraying mechanism 3 of the roof rainwater collecting and recycling device of the invention.

In the figure: a collection box mechanism 1; an insertion hole 1-1; a connecting frame 1-2; 1-3 of an L-shaped pipe; l-shaped tube I1-4; 1-5 of a sliding seat; 1-6 of a chute; an insertion hole I1-7; 1-8 parts of a U-shaped seat; 1-9 of a sleeve; 1-10 of a sliding plug; plug rods 1-11; screwing the head 1-12; 1-13 parts of threaded rod; connecting pipes 1-14; 1-15 with double-rod connecting base; 1-16 of servo motor; 1-17 of a coupler; bearing seats 1-18; 1-19 parts of a lead screw; 1-20 of columns with threaded holes; 1-21 of belt pulleys; 1-22 parts of a belt; pulley I1-23; 1-24 parts of a water inlet pipe; 1-25 of a compression screw; 1-26 of a matching seat; water enters the tanks 1-27; slide rails 1-28; a sliding adjusting seat 1-29; 1-30 of hinged frame; solar panels 1-31; 1-32 of chutes; 1-33 of a coupler; servo motors I1-34; 1-35 of a sliding head with a step seat; step grooves 1-36; flanges 1-37; 1-38 of a limiting seat; 1-39 of a limiting disc; 1-40 parts of wedge blocks; 1-41 of an opening; access channels 1-42; helices 1-43; connecting shafts 1-44; 1-45 parts of drain holes; lumens 1-46; a shaft-equipped impeller 1-47; valve sliding cavities 1-48; slide valves 1-49; 1-50L-shaped channels; support springs 1-51; an ejection pipe 1-52; inner support plugs 1-53; unthreaded holes 1-54; sockets 1-55; matching threaded holes 1-56; 1-57 of a filter plate; 1-58 of an accelerator wheel; a clamping spring 1-59; 1-60 of connecting columns; wedge cavities 1-61; screw I1-62; collecting spray pipes 1-63; a transfer mechanism 2; connecting an inlet pipe 2-1; 2-2 parts of a transit water tank; magnetic induction line providing seats 2-3; a pipe 2-4 is taken out; 2-5 of a baffle plate; 2-6 parts of a water outlet sliding block; 2-7 of coils; 2-8 of a water wheel with a shaft; 2-9 of a water wheel motor; 2-10 of a communication channel; a spraying mechanism 3; a flanged connection pipe 3-1; 3-2 of a sleeve; a sleeve I3-3; 3-4 parts of a hose; elbow pipe I3-5; a rotating wheel 3-6 with an inlet; 3-7 of bulges; 3-8 of support legs with universal wheels; 3-9 parts of a vertical connecting pipe; 3-10 parts of a water spraying box; 3-11 parts of a hydraulic cylinder; 3-12 pulleys with seats; 3-13 parts of square column; spring I3-14; 3-15 parts of a square hole seat; connecting arms 3-16; pushing pulleys 3-17; passive protrusions 3-18; 3-19 of shaking buckets; 3-20 parts of a discharging rod; 3-21 parts of a waste bin; 3-22 parts of a charging plug; a feeding opening is 3-23; 3-24 of a mobile platform; 3-25 of a discharge opening; 3-26 of a movable baffle plate; fixing boxes 3-27; chutes I3-28; 3-29 parts of irrigation spray pipe; 3-30 parts of a spraying one-way valve; 3-31 parts of water spraying pushing plug; a piston rod 3-32; push chambers 3-33; 3-34 parts of friction wheel; friction wheel motors 3-35.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to a rainwater recycling device, and more specifically, to a roof rainwater collecting and recycling device, including a collecting box mechanism 1, a transfer mechanism 2, and a sprinkling mechanism 3, which can collect rainwater, which can collect energy by using rainwater and solar energy, which can irrigate, which can automatically add fertilizer.

The collecting box mechanism 1 is connected with the transfer mechanism 2, and the collecting box mechanism 1 is connected with the spraying mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the collecting box mechanism 1 includes an insertion hole 1-1, a connection frame 1-2, an L-shaped pipe 1-3, an L-shaped pipe I1-4, a sliding seat 1-5, a sliding slot 1-6, an insertion hole I1-7, a U-shaped seat 1-8, a sleeve 1-9, a sliding plug 1-10, a plug rod 1-11, a screwing head 1-12, a threaded rod 1-13, a connection pipe 1-14, a connection seat with two rods 1-15, a servo motor 1-16, a coupling 1-17, a bearing seat 1-18, a lead screw 1-19, a screw, 1-20 parts of column with threaded holes, 1-21 parts of belt pulleys, 1-22 parts of belts, 1-23 parts of belt pulleys I1, 1-24 parts of water inlet pipes, 1-25 parts of compression screws, 1-26 parts of matching seats, 1-27 parts of water inlet boxes, 1-28 parts of slide rails, 1-29 parts of slide adjusting seats, 1-30 parts of hinge frames, 1-31 parts of solar panels, 1-32 parts of slide grooves, 1-33 parts of couplers, 1-34 parts of servo motors I1, 1-35 parts of slide heads with stepped seats, 1-36 parts of stepped grooves, 1-37 parts of flanges, 1-38 parts of limiting seats, 1-39 parts of limiting discs, 1-40 parts of wedges, 1-41 parts of holes, 1-42 parts of inlet channels, 1-43 parts of screws, 1-44 parts of connecting shafts, 1-45 parts of water discharge holes, Valve sliding cavity 1-48, sliding valve 1-49, L-shaped channel 1-50, supporting spring 1-51, ejection pipe 1-52, internal supporting plug 1-53, unthreaded hole 1-54, socket 1-55, matching threaded hole 1-56, filter plate 1-57, accelerating wheel 1-58, clamping spring 1-59, connecting column 1-60, wedge block cavity 1-61, screw rod I1-62, collecting nozzle 1-63, inserting hole 1-1 and inserting hole I1-7 are symmetrically arranged on connecting frame 1-2, one end of connecting frame 1-2 is connected with U-shaped seat 1-8, the other end is connected with water inlet box 1-27, L-shaped pipe 1-3 is connected with sliding seat 1-5, L-shaped pipe I1-4 is connected with sliding seat 1-5, the sliding seat 1-5 is provided with a sliding groove 1-6, the sliding groove 1-6 is communicated with an L-shaped pipe 1-3, the sliding groove 1-6 is communicated with an L-shaped pipe I1-4, the U-shaped seat 1-8 is connected with a water inlet box 1-27, the U-shaped seat 1-8 is connected with a sleeve 1-9, the sleeve 1-9 is connected with a sliding plug 1-10 in a sliding way, the sliding plug 1-10 is connected with a plug rod 1-11, a twisting head 1-12 is connected with a threaded rod 1-13, the threaded rod 1-13 is connected with a connecting pipe 1-14 in a threaded way, the connecting pipe 1-14 is connected with a connecting seat 1-15 with double rods, the connecting seat 1-15 with double rods is connected with a servo motor 1-16, the servo motor 1-16 is connected with a lead screw 1-19, the lead screw 1-19 is rotationally connected with the bearing seat 1-18, the bearing seat 1-18 is connected with the connecting seat 1-15 with double rods, the lead screw 1-19 is in threaded connection with the matching threaded hole 1-56 arranged on the column 1-20 with threaded hole, the column 1-20 with threaded hole is connected with the sliding seat 1-5, the belt pulley 1-21 is in frictional connection with the belt 1-22, the belt 1-22 is in frictional connection with the belt pulley I1-23, the water inlet pipe 1-24 is connected with the water inlet box 1-27, the compression screw 1-25 is in threaded connection with the matching seat 1-26, the matching seat 1-26 is connected with the water inlet box 1-27, the water inlet box 1-27 is connected with the sliding rail 1-28, the sliding rail 1-28 is provided with the sliding groove 1-32, the sliding groove 1-32 is in sliding connection with the sliding adjusting, the sliding adjusting seat 1-29 is hinged with the hinged frame 1-30, the hinged frame 1-30 is connected with the solar panel 1-31, the lead screw I1-62 is rotationally connected with the slide rail 1-28, the lead screw I1-62 is connected with the servo motor I1-34 through the shaft coupling 1-33, the servo motor I1-34 is connected with the water inlet box 1-27, the hinged frame 1-30 is hinged with the sliding head 1-35 with the step seat, the sliding head 1-35 with the step seat is connected with the step groove 1-36 in a sliding way, the step groove 1-36 is arranged on the water inlet box 1-27, the flange 1-37 is connected with the water inlet box 1-27, the limiting seat 1-38 is connected with the water inlet box 1-27, the limiting disc 1-39 is connected with the connecting column 1-60, the blocking spring 1-59 is sleeved on the connecting column 1-60, the two ends of a clamping spring 1-59 are connected to a wedge block 1-40 and a limiting seat 1-38, a wedge block cavity 1-61 is arranged on the limiting seat 1-38, the wedge block cavity 1-61 is connected with the wedge block 1-40 in a sliding way, an opening 1-41 is arranged on a bearing seat 1-18, an inlet channel 1-42 is arranged on a water inlet pipe 1-24, an inner spiral 1-43 is connected with a connecting shaft 1-44, the connecting shaft 1-44 is connected with the water inlet pipe 1-24 in a rotating way, a water outlet hole 1-45 is arranged on a water inlet box 1-27, the water outlet hole 1-45 is communicated with a step groove 1-36, an inner cavity 1-46 is arranged in the water inlet box 1-27, a shaft-provided impeller 1-47 is connected with the water inlet box 1-27 in a rotating way, the shaft-provided impeller, the valve sliding cavity 1-48 is arranged on the connecting pipe 1-14, the valve sliding cavity 1-48 is communicated with the inner cavity 1-46, the sliding valve 1-49 is connected with the valve sliding cavity 1-48 in a sliding way, the L-shaped channel 1-50 is arranged on the sliding valve 1-49, the supporting spring 1-51 is sleeved on the plug rod 1-11, the plug rod 1-11 is connected with the sliding valve 1-49, the two ends of the supporting spring 1-51 are respectively connected on the sliding valve 1-49 and the inner supporting plug 1-53, the ejection pipe 1-52 is arranged on the connecting pipe 1-14, the ejection pipe 1-52 is communicated with the valve sliding cavity 1-48, the inner supporting plug 1-53 is connected with the valve sliding cavity 1-48 in a sliding way, the threaded rod 1-13 is connected with the inner supporting plug 1-53, the threaded rod 1-13, the inner support plug 1-53 and the screwing head 1-12 are all provided with unthreaded holes 1-54, the unthreaded holes 1-54 are connected with the plug rod 1-11 in a sliding way, the socket 1-55 is arranged on the U-shaped seat 1-8, the filter plate 1-57 and the accelerating pulley 1-58 are all arranged on the connecting shaft 1-44, the connecting shaft 1-44 is connected with the belt pulley I1-23, the collecting spray pipe 1-63 is connected with the water inlet pipe 1-24, the sliding adjusting seat 1-29 is connected with the screw rod I1-62 in a threaded way, the device is arranged on the wall body of a building, the inlet channel 1-42 is communicated with the water outlet channel of a roof, then the device is fixed on the wall through the flanges 1-37 through high-strength bolts, the groove which is matched with the wedge block 1-40 can be opened on the wall surface, the device is convenient for placing the wedge, when raining, rainwater can be collected to the inlet channel 1-42 and then enters the water inlet box 1-27 along the collecting spray pipe 1-63 to impact the belt shaft impeller 1-47, the belt shaft impeller 1-47 can rotate, the belt shaft impeller 1-47 can drive the belt pulley 1-21 to rotate, the belt pulley 1-21 can drive the belt pulley I1-23 to rotate through the belt 1-22, the belt pulley I1-23 can drive the connecting shaft 1-44 to rotate, the connecting shaft 1-44 can drive the spiral 1-43 and the filter plate 1-57 to rotate, the filter plate 1-57 can filter impurity garbage, then the garbage is discharged from the inlet channel 1-42 through the spiral 1-43, and when the water flows to the accelerating pulley 1-58, the water can be accelerated and thrown downwards by the rotating accelerating pulley 1-58, therefore, the water flow can be accelerated, water collection can be accelerated, downward pressure can be formed on the sliding valves 1-49 after the water is accumulated continuously, the sliding valves 1-49 can move downwards to compress the supporting springs 1-51 until the L-shaped channels 1-50 are communicated with the ejection pipes 1-52, the water can flow into the connection inlet pipe 2-1 from the ejection pipes 1-52 and then enter the transit water tank 2-2, the threaded rods 1-13 can be driven to rotate by rotating the screwing heads 1-12, the threaded rods 1-13 can drive the inner supporting plugs 1-53 to move upwards or downwards, the pre-tightening force of the supporting springs 1-51 can be changed, and the water quantity required when the L-shaped channels 1-50 are communicated with the ejection pipes 1-52 can be changed.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the transfer mechanism 2 includes a connection inlet pipe 2-1, a transfer water tank 2-2, a magnetic induction line supply seat 2-3, an outlet pipe 2-4, a baffle plate 2-5, a water outlet slider 2-6, a coil 2-7, a water wheel with shaft 2-8, a water wheel motor 2-9, a communication channel 2-10, the connection inlet pipe 2-1 is connected and communicated with the transfer water tank 2-2, the transfer water tank 2-2 is connected with the magnetic induction line supply seat 2-3, the transfer water tank 2-2 is connected with the outlet pipe 2-4, the outlet pipe 2-4 is connected with the baffle plate 2-5, the baffle 2-5 is connected with the water outlet slide block 2-6, the coil 2-7 is connected with the water wheel with shaft 2-8, the water wheel with shaft 2-8 is rotationally connected with the transit water tank 2-2, the coil 2-7 is rotationally connected with the magnetic induction line providing seat 2-3, the water wheel with shaft 2-8 is connected with the water wheel motor 2-9, the water wheel motor 2-9 is connected with the transit water tank 2-2, the outlet pipe 2-4, the baffle 2-5 and the water outlet slide block 2-6 are all provided with a communication channel 2-10, the communication channel 2-10 is communicated with the transit water tank 2-2, the water outlet slide block 2-6 is slidably connected with the chute 1-6, the L-shaped pipe I1-4 is communicated with the communication channel 2-10, the jet pipe 1-52 is connected and communicated with the connecting inlet pipe 2-1, solar energy can be collected by solar panels 1-31 on equipment, the servo motors I1-34 operate to drive the couplers 1-33 to rotate, the couplers 1-33 drive the lead screws I1-62 to rotate, the lead screws I1-62 drive the sliding adjusting seats 1-29 to move, the inclination angles of the solar panels 1-31 can be changed by the movement of the sliding adjusting seats 1-29, so that the solar panels are suitable for sunlight at different time intervals, when water flows through the transit water tank 2-2, the water wheels with shafts 2-8 can be driven to rotate, the water wheels with shafts 2-8 can drive the coils 2-7 to rotate to cut magnetic induction lines formed by the magnetic induction lines providing seats 2-3, and electric energy is formed.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and is further described in the present embodiment, where the spraying mechanism 3 includes a flanged connection pipe 3-1, a sleeve pipe 3-2, a sleeve pipe I3-3, a hose 3-4, an elbow pipe I3-5, a belt inlet turning wheel 3-6, a protrusion 3-7, a leg with a universal wheel 3-8, a vertical connection pipe 3-9, a spray tank 3-10, a hydraulic cylinder 3-11, a pulley with a seat 3-12, a square column 3-13, a spring I3-14, a square hole seat 3-15, a connecting arm 3-16, a pushing pulley 3-17, a passive protrusion 3-18, a connecting arm 3-12, a square hole, 3-19 parts of shaking buckets, 3-20 parts of discharge rods, 3-21 parts of waste bins, 3-22 parts of feeding plugs, 3-23 parts of feeding openings, 3-24 parts of moving platforms, 3-25 parts of discharge openings, 3-26 parts of movable baffles, 3-27 parts of fixed boxes, I3-28 parts of sliding chutes, 3-29 parts of pouring nozzles, 3-30 parts of spraying check valves, 3-31 parts of water spraying pushing plugs, 3-32 parts of piston rods, 3-33 parts of pushing cavities, 3-34 parts of friction wheels and 3-35 parts of friction wheel motors, a connecting pipe 3-1 with a flange is connected with a sleeve 3-2, the sleeve 3-2 penetrates through an embedding hole 1-1, the sleeve 3-2 is connected with a connecting frame 1-2, the L-shaped pipe 1-3 is connected with the sleeve 3-2 in a sliding mode, the sleeve I3-3 penetrates through an embedding hole I1-7 and is connected with the connecting frame, a sleeve I3-3 is connected with an L-shaped pipe I1-4 in a sliding way, a sleeve I3-3 is connected with a hose 3-4, the hose 3-4 is connected with an elbow pipe I3-5, the elbow pipe I3-5 is connected with a moving platform 3-24, the moving platform 3-24 is connected with a supporting leg 3-8 with a universal wheel, a rotating wheel 3-6 with an inlet is connected with an elbow pipe I3-5 in a rotating way, a bulge 3-7 is arranged on the rotating wheel 3-6 with the inlet, the rotating wheel 3-6 with the inlet is connected and communicated with a vertical connecting pipe 3-9, the vertical connecting pipe 3-9 is connected with a water spraying box 3-10, the vertical connecting pipe 3-9 is communicated with a pushing cavity 3-33 arranged in the water spraying box 3-10, the water spraying box 3-10 is connected with a hydraulic cylinder 3-11, a pulley 3-12 with a seat is contacted with the rotating wheel 3-6 with, pulley 3-12 with seat is connected with square column 3-13, spring I3-14 is sleeved on square column 3-13, two ends of spring I3-14 are respectively connected with pulley 3-12 with seat and square hole seat 3-15, square column 3-13 is connected with square hole seat 3-15 in sliding mode, square hole seat 3-15 is connected with moving platform 3-24, square column 3-13 is connected with connecting arm 3-16, connecting arm 3-16 is connected with pushing pulley 3-17 in rotating mode, pushing pulley 3-17 is contacted with shaking bucket 3-19, pushing pulley 3-17 is contacted with passive projection 3-18, passive projection 3-18 is connected with shaking bucket 3-19, shaking bucket 3-19 is hinged with moving platform 3-24, connecting arm 3-16 is connected with discharging rod 3-20, the waste bin 3-21 is connected with the charging plug 3-22 by screw thread, the waste bin 3-21 is connected with the movable platform 3-24, the discharging rod 3-20 is connected with the movable baffle 3-26, the movable baffle 3-26 is connected with the fixed bin 3-27 in a sliding way, the fixed bin 3-27 is connected with the waste bin 3-21, the fixed bin 3-27 and the waste bin 3-21 are both provided with a discharging opening 3-25, the chute I3-28 is arranged on the movable platform 3-24, the chute I3-28 is connected with the connecting arm 3-16 in a sliding way, the irrigation nozzle 3-29 is connected with the water spraying box 3-10, the irrigation nozzle 3-29 is communicated with the pushing cavity 3-33, the ejecting one-way valve 3-30 is arranged in the irrigation nozzle 3-29, the water spraying pushing plug 3-31 is connected with the piston rod 3-32, a piston rod 3-32 is connected with a hydraulic cylinder 3-11, the piston rod 3-32 is connected with a water spraying box 3-10 in a sliding way, a water spraying pushing plug 3-31 is connected with a pushing cavity 3-33 in a sliding way, a friction wheel 3-34 is connected with a rotating wheel 3-6 with an inlet, the friction wheel 3-34 is connected with a friction wheel motor 3-35, the friction wheel motor 3-35 is connected with a moving platform 3-24, water can enter a sleeve I3-3 from a communicating channel 2-10 after continuously flowing, then enters an elbow I3-5 through a hose 3-4 and then flows into the rotating wheel 3-6 with the inlet, the friction wheel motor 3-35 can drive the friction wheel 3-34 to rotate, the friction wheel 3-34 can drive the rotating wheel 3-6 with the inlet to rotate, the rotating wheel 3-6 with the inlet drives the protrusion 3-7 to move, the protrusion 3-7 intermittently pushes the pulley 3-12 with the seat, the pulley 3-12 with the seat drives the connecting arm 3-16 to move through the square column 3-13, then the connecting arm 3-16 is reset under the resilience of the spring I3-14, so that the connecting arm 3-16 reciprocates, the connecting arm 3-16 drives the pushing pulley 3-17 to reciprocate, the pushing pulley 3-17 reciprocates to jack up the driven protrusion 3-18 to enable the shaking hopper 3-19 to be in a swinging state, the connecting arm 3-16 drives the movable baffle 3-26 to reciprocate through the discharging rod 3-20, and therefore waste materials in the waste material box 3-21 fall from the discharging port 3-25 and then fall into the shaking hopper 3-19, the swinging shaking hopper 3-19 moves forwards to the feeding opening 3-23 and then falls into the belt inlet rotating wheel 3-6, so that water and waste materials are mixed along with the rotation of the belt inlet rotating wheel 3-6 and then enter the pushing cavity 3-33, the hydraulic cylinder 3-11 drives the piston rod 3-32 to reciprocate, the piston rod 3-32 drives the water spraying pushing plug 3-31 to reciprocate, the water spraying pushing plug 3-31 firstly disconnects the communication between the vertical connecting pipe 3-9 and the pushing cavity 3-33 when moving, so that time is provided for the mixing of the waste materials and the water, then the waste water in the pushing cavity 3-33 is pressurized and sprayed out from the spraying one-way valve 3-30 for irrigating, and the new mixed waste water enters the pushing cavity 3-33 when the water spraying pushing plug 3-31 is reset, when other purposes are needed, the servo motors 1-16 drive the couplers 1-17 to rotate, the couplers 1-17 drive the screw rods 1-19 to rotate, the screw rods 1-19 drive the columns with the threaded holes 1-20 to move, the columns with the threaded holes 1-20 drive the sliding seats 1-5 to move, and the sliding seats 1-5 drive the L-shaped pipes 1-3 to be communicated with the communicating channels 2-10, so that water flows out of the flanged connecting pipe 3-1 through the sleeve pipes 3-2, and other equipment needed to be used can be externally connected with the flanged connecting pipe 3-1 to achieve different functions.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the first embodiment, and the length of the hose 3-4 can be adjusted according to actual use.

The working principle of the device is as follows: the device can collect rainwater, the device is arranged on a wall body of a building, an inlet channel 1-42 is communicated with a sewer channel of a roof, then the inlet channel is fixed on the wall body through a flange 1-37 by a high-strength bolt, a groove which is matched with a wedge block 1-40 can be formed on the wall body, the wedge block 1-40 can be conveniently clamped and then the device is placed to sink, when raining, rainwater can be collected at the inlet channel 1-42 and then enters a water inlet box 1-27 along a collecting spray pipe 1-63 to impact a shaft impeller 1-47, the shaft impeller 1-47 can rotate, the shaft impeller 1-47 can drive a belt pulley 1-21 to rotate, the belt pulley 1-21 can drive a belt pulley I1-23 to rotate through a belt 1-22, the belt pulley I1-23 can drive a connecting shaft 1-44 to rotate, the connecting shaft 1-44 can drive the screw 1-43 and the filter plate 1-57 to rotate, the filter plate 1-57 can filter the impurity garbage, then the garbage is discharged from the inlet channel 1-42 through the screw 1-43, when the water flows to the accelerating pulley 1-58, the water can be accelerated and thrown downwards by the rotating accelerating pulley 1-58, so as to accelerate the water flow, the collection of the water can be accelerated, the downward pressure can be formed on the sliding valve 1-49 after the water is continuously accumulated, the sliding valve 1-49 can move downwards to compress the supporting spring 1-51, until the L-shaped channel 1-50 is communicated with the ejection pipe 1-52, the water can flow into the connecting inlet pipe 2-1 from the ejection pipe 1-52 and then into the transit water tank 2-2, the threaded rod 1-13 can be driven to rotate by rotating the screwing head 1-12, the threaded rods 1-13 can drive the inner support plugs 1-53 to move upwards or downwards, so that the pretightening force of the support springs 1-51 can be changed, and the water quantity required when the L-shaped channels 1-50 are communicated with the ejection pipes 1-52 can be changed; the equipment can collect energy by utilizing rainwater and solar energy, solar energy can be collected by solar panels 1-31 on the equipment, the couplers 1-33 are driven to rotate by the operation of servo motors I1-34, the couplers 1-33 can drive the lead screws I1-62 to rotate, the lead screws I1-62 can drive the sliding adjusting seats 1-29 to move, the inclination angles of the solar panels 1-31 can be changed by the movement of the sliding adjusting seats 1-29, so that the equipment is suitable for the sunshine in different periods, when water flows through the transfer water tank 2-2, the water wheels with shafts 2-8 can be driven to rotate, the water wheels with shafts 2-8 can drive the coils 2-7 to rotate to cut magnetic induction lines formed by the magnetic induction line providing seats 2-3, and electric energy is formed; the device can irrigate, fertilizer can be automatically added into the device, water can enter the sleeve I3-3 from the communicating channel 2-10 after flowing continuously, then enters the bent pipe I3-5 through the hose 3-4 and then flows into the belt inlet rotating wheel 3-6, the friction wheel motor 3-35 can drive the friction wheel 3-34 to rotate when running, the friction wheel 3-34 can drive the belt inlet rotating wheel 3-6 to rotate, the belt inlet rotating wheel 3-6 can drive the bulge 3-7 to move, the bulge 3-7 can intermittently push the belt seat pulley 3-12, the belt seat pulley 3-12 can drive the connecting arm 3-16 to move through the square column 3-13, and then reset under the resilience action of the spring I3-14, so that the connecting arm 3-16 can reciprocate, the connecting arm 3-16 can drive the pushing pulley 3-17 to do reciprocating motion, the pushing pulley 3-17 can jack up the passive bulge 3-18 in a reciprocating mode to enable the shaking hopper 3-19 to be in a swinging state, the connecting arm 3-16 can drive the movable baffle 3-26 to do reciprocating motion through the discharging rod 3-20, so that waste materials in the waste material box 3-21 fall down from the discharging opening 3-25 and then fall into the shaking hopper 3-19, the waste materials move forwards to the feeding opening 3-23 along with the swinging shaking hopper 3-19 and then fall into the rotating wheel with the inlet 3-6, the water and the waste materials can be mixed along with the rotation of the rotating wheel with the inlet 3-6, and then enter the pushing cavity 3-33, the hydraulic cylinder 3-11 can drive the piston rod 3-32 to do reciprocating motion, the piston rod 3-32 can drive the water spraying pushing plug 3-31 to reciprocate, the water spraying pushing plug 3-31 firstly disconnects the communication between the vertical connecting pipe 3-9 and the pushing cavity 3-33 when moving, so as to provide time for mixing waste materials and water, then waste water in the pushing cavity 3-33 is pressurized and sprayed out from the spraying one-way valve 3-30 for watering, when the water spraying pushing plug 3-31 is reset, new mixed waste water can enter the pushing cavity 3-33, when other purposes are needed, the servo motor 1-16 drives the coupling 1-17 to rotate, the coupling 1-17 can drive the screw rod 1-19 to rotate, the screw rod 1-19 can drive the threaded hole column 1-20 to move, the threaded hole column 1-20 can drive the sliding seat 1-5 to move, the sliding seat 1-5 can drive the L-shaped pipe 1-3 to be communicated with the communicating channel 2-10, so that water flows out of the flanged connecting pipe 3-1 through the sleeve 3-2, and different functions can be realized by other equipment which is required to be used and is externally connected with the flanged connecting pipe 3-1.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a roof rainwater is collected and is recycled equipment, includes collecting box mechanism (1), transfer mechanism (2), spraying mechanism (3), its characterized in that: the collecting box mechanism (1) is connected with the transfer mechanism (2), and the collecting box mechanism (1) is connected with the spraying mechanism (3).

2. The roof rainwater collecting and recycling apparatus according to claim 1, wherein: the collecting box mechanism (1) comprises an embedding hole (1-1), a connecting frame (1-2), an L-shaped pipe (1-3), an L-shaped pipe I (1-4), a sliding seat (1-5), a sliding groove (1-6), an embedding hole I (1-7), a U-shaped seat (1-8), a sleeve (1-9), a sliding plug (1-10), a plug rod (1-11), a screwing head (1-12), a threaded rod (1-13), a connecting pipe (1-14), a connecting seat with double rods (1-15), a servo motor (1-16), a coupler (1-17), a bearing seat (1-18), a lead screw (1-19), a column with a threaded hole (1-20), a belt pulley (1-21), a belt (1-22), The water-saving water pump comprises belt pulleys I (1-23), water inlet pipes (1-24), compression screws (1-25), matching seats (1-26), a water inlet box (1-27), slide rails (1-28), slide adjusting seats (1-29), hinged frames (1-30), solar panels (1-31), sliding chutes (1-32), couplings (1-33), servo motors I (1-34), sliding heads with stepped seats (1-35), stepped grooves (1-36), flanges (1-37), limiting seats (1-38), limiting discs (1-39), wedge blocks (1-40), open holes (1-41), inlet channels (1-42), screws (1-43), connecting shafts (1-44), drain holes (1-45), An inner cavity (1-46), a shaft-equipped impeller (1-47), a valve sliding cavity (1-48), a sliding valve (1-49), an L-shaped channel (1-50), a supporting spring (1-51), an ejection pipe (1-52), an inner supporting plug (1-53), a unthreaded hole (1-54), a socket (1-55), a matching threaded hole (1-56), a filter plate (1-57), an accelerating wheel (1-58), a clamping spring (1-59), a connecting column (1-60), a wedge block cavity (1-61), a screw rod I (1-62) and a collecting spray pipe (1-63), wherein the embedding holes (1-1) and the embedding holes I (1-7) are symmetrically arranged on a connecting frame (1-2), one end of the connecting frame (1-2) is connected with a U-shaped seat (1-8), the other end is connected with a water inlet box (1-27), an L-shaped pipe (1-3) is connected with a sliding seat (1-5), an L-shaped pipe I (1-4) is connected with the sliding seat (1-5), a sliding chute (1-6) is arranged on the sliding seat (1-5), the sliding chute (1-6) is communicated with the L-shaped pipe (1-3), the sliding chute (1-6) is communicated with the L-shaped pipe I (1-4), a U-shaped seat (1-8) is connected with the water inlet box (1-27), the U-shaped seat (1-8) is connected with a sleeve (1-9), the sleeve (1-9) is connected with a sliding plug (1-10) in a sliding way, the sliding plug (1-10) is connected with a plug rod (1-11), a twisting head (1-12) is connected with a threaded rod (1-13), the threaded rod (1-13) is in threaded connection with the connecting pipe (1-14), the connecting pipe (1-14) is connected with the connecting seat (1-15) with double rods, the connecting seat (1-15) with double rods is connected with the servo motor (1-16), the servo motor (1-16) is connected with the lead screw (1-19) through the shaft coupling (1-17), the lead screw (1-19) is rotationally connected with the bearing seat (1-18), the bearing seat (1-18) is connected with the connecting seat (1-15) with double rods, the lead screw (1-19) is in threaded connection with the matching threaded hole (1-56) arranged on the column (1-20) with threaded hole, the column (1-20) with threaded hole is connected with the sliding seat (1-5), and the belt pulley (1-21) is in frictional connection with the belt (1-22), the belt (1-22) is in friction connection with the belt pulley I (1-23), the water inlet pipe (1-24) is connected with the water inlet box (1-27), the compression screw (1-25) is in threaded connection with the matching seat (1-26), the matching seat (1-26) is connected with the water inlet box (1-27), the water inlet box (1-27) is connected with the sliding rail (1-28), the sliding rail (1-28) is provided with the sliding chute (1-32), the sliding chute (1-32) is in sliding connection with the sliding adjusting seat (1-29), the sliding adjusting seat (1-29) is hinged with the hinged frame (1-30), the hinged frame (1-30) is connected with the solar panel (1-31), the lead screw I (1-62) is in rotating connection with the sliding rail (1-28), the lead screw I (1-62) is connected with the servo motor I (1-34) through the coupler (1-33) A servo motor I (1-34) is connected with a water inlet box (1-27), a hinge frame (1-30) is hinged with a sliding head (1-35) with a step seat, the sliding head (1-35) with the step seat is connected with a step groove (1-36) in a sliding way, the step groove (1-36) is arranged on the water inlet box (1-27), a flange (1-37) is connected with the water inlet box (1-27), a limiting seat (1-38) is connected with the water inlet box (1-27), a limiting disc (1-39) is connected with a connecting column (1-60), a clamping spring (1-59) is sleeved on the connecting column (1-60), two ends of the clamping spring (1-59) are connected with a wedge block (1-40) and a limiting seat (1-38), a wedge block cavity (1-61) is arranged on the limiting seat (1-38), a wedge block cavity (1-61) is connected with a wedge block (1-40) in a sliding way, an opening (1-41) is arranged on a bearing seat (1-18), an inlet channel (1-42) is arranged on a water inlet pipe (1-24), an inner spiral (1-43) is connected with a connecting shaft (1-44), the connecting shaft (1-44) is connected with the water inlet pipe (1-24) in a rotating way, a water outlet hole (1-45) is arranged on a water inlet box (1-27), the water outlet hole (1-45) is communicated with a step groove (1-36), an inner cavity (1-46) is arranged in the water inlet box (1-27), a shaft impeller (1-47) is connected with the water inlet box (1-27) in a rotating way, the shaft impeller (1-47) is connected with a belt pulley (1-21), a valve sliding cavity (1-48) is arranged on a connecting pipe (1-14), the valve sliding cavity (1-48) is communicated with the inner cavity (1-46), the sliding valve (1-49) is in sliding connection with the valve sliding cavity (1-48), the L-shaped channel (1-50) is arranged on the sliding valve (1-49), the supporting spring (1-51) is sleeved on the plug rod (1-11), the plug rod (1-11) is connected with the sliding valve (1-49), two ends of the supporting spring (1-51) are respectively connected on the sliding valve (1-49) and the inner supporting plug (1-53), the ejection pipe (1-52) is arranged on the connecting pipe (1-14), the ejection pipe (1-52) is communicated with the valve sliding cavity (1-48), the inner supporting plug (1-53) is in sliding connection with the valve sliding cavity (1-48), the threaded rod (1-13) is connected with the inner supporting plug (1-53), the threaded rod (1-13), the inner support plug (1-53) and the screwing head (1-12) are respectively provided with a unthreaded hole (1-54), the unthreaded holes (1-54) are in sliding connection with the plug rod (1-11), the socket (1-55) is arranged on the U-shaped seat (1-8), the filter plate (1-57) and the accelerating pulley (1-58) are respectively arranged on the connecting shaft (1-44), the connecting shaft (1-44) is connected with the belt pulley I (1-23), the collecting spray pipe (1-63) is connected with the water inlet pipe (1-24), and the sliding adjusting seat (1-29) is in threaded connection with the lead screw I (1-62).

3. The roof rainwater collecting and recycling apparatus according to claim 1, wherein: the transfer mechanism (2) comprises a connecting inlet pipe (2-1), a transfer water tank (2-2), a magnetic induction line providing seat (2-3), an outlet pipe (2-4), a baffle plate (2-5), a water outlet slide block (2-6), a coil (2-7), a water wheel with a shaft (2-8), a water wheel motor (2-9) and a communicating channel (2-10), wherein the connecting inlet pipe (2-1) is connected and communicated with the transfer water tank (2-2), the transfer water tank (2-2) is connected with the magnetic induction line providing seat (2-3), the transfer water tank (2-2) is connected with the outlet pipe (2-4), the outlet pipe (2-4) is connected with the baffle plate (2-5), the baffle plate (2-5) is connected with the water outlet slide block (2-6), the coil (2-7) is connected with a water wheel (2-8) with a shaft, the water wheel (2-8) with the shaft is rotationally connected with a transit water tank (2-2), the coil (2-7) is rotationally connected with a magnetic induction line providing seat (2-3), the water wheel (2-8) with the shaft is connected with a water wheel motor (2-9), the water wheel motor (2-9) is connected with the transit water tank (2-2), the outlet pipe (2-4), the baffle plate (2-5) and the water outlet slide block (2-6) are respectively provided with a communication channel (2-10), the communication channel (2-10) is communicated with the transit water tank (2-2), the water outlet slide block (2-6) is slidably connected with the chute (1-6), and the L-shaped pipe I (1-4) is communicated with the communication channel (2-10), the ejection pipe (1-52) is connected and communicated with the connection inlet pipe (2-1).

4. The roof rainwater collecting and recycling apparatus according to claim 1, wherein: the spraying mechanism (3) comprises a connecting pipe (3-1) with a flange, a sleeve (3-2), a sleeve I (3-3), a hose (3-4), a bent pipe I (3-5), a rotating wheel (3-6) with an inlet, a protrusion (3-7), a supporting leg (3-8) with a universal wheel, a vertical connecting pipe (3-9), a water spraying box (3-10), a hydraulic cylinder (3-11), a pulley (3-12) with a base, a square column (3-13), a spring I (3-14), a base (3-15) with a square hole, a connecting arm (3-16), a pushing pulley (3-17), a driven protrusion (3-18), a swinging hopper (3-19), a discharging rod (3-20), a waste material box (3-21), a feeding plug (3-22), A feeding opening (3-23), a moving platform (3-24), a discharge opening (3-25), a movable baffle plate (3-26), a fixed box (3-27), a sliding chute I (3-28), a pouring spray pipe (3-29), a spraying one-way valve (3-30), a water spraying pushing plug (3-31), a piston rod (3-32), a pushing cavity (3-33), a friction wheel (3-34) and a friction wheel motor (3-35), a connecting pipe (3-1) with a flange is connected with a sleeve pipe (3-2), the sleeve pipe (3-2) passes through an embedding hole (1-1), the sleeve pipe (3-2) is connected with a connecting frame (1-2), an L-shaped pipe (1-3) is connected with the sleeve pipe (3-2) in a sliding manner, the sleeve pipe I (3-3) passes through the embedding hole I (1-7) and is connected with the connecting frame (1-2), the sleeve I (3-3) is connected with the L-shaped pipe I (1-4) in a sliding way, the sleeve I (3-3) is connected with the hose (3-4), the hose (3-4) is connected with the elbow pipe I (3-5), the elbow pipe I (3-5) is connected with the moving platform (3-24), the moving platform (3-24) is connected with the supporting leg (3-8) with the universal wheel, the rotating wheel (3-6) with the inlet is rotationally connected with the elbow pipe I (3-5), the rotating wheel (3-6) with the inlet is provided with a bulge (3-7), the rotating wheel (3-6) with the inlet is connected and communicated with the vertical connecting pipe (3-9), the vertical connecting pipe (3-9) is connected with the water spraying box (3-10), the vertical connecting pipe (3-9) is communicated with a pushing cavity (3-33) arranged in the water spraying box (3-10), the water spraying box (3-10) is connected with the hydraulic cylinder (3-11), the pulley (3-12) with the base is contacted with the rotating wheel (3-6) with the inlet, the pulley (3-12) with the base is connected with the square column (3-13), the spring I (3-14) is sleeved on the square column (3-13), two ends of the spring I (3-14) are respectively connected with the pulley (3-12) with the base and the square hole base (3-15), the square column (3-13) is connected with the square hole base (3-15) in a sliding way, the square hole base (3-15) is connected with the moving platform (3-24), the square column (3-13) is connected with the connecting arm (3-16), the connecting arm (3-16) is connected with the pushing pulley (3-17) in a rotating way, the pushing pulley (3-17) is contacted with the shaking bucket (3-19), the pushing pulleys (3-17) are contacted with the driven bulges (3-18), the driven bulges (3-18) are connected with the shaking hoppers (3-19), the shaking hoppers (3-19) are hinged with the movable platform (3-24), the connecting arms (3-16) are connected with the discharging rods (3-20), the waste material boxes (3-21) are connected with the charging plugs (3-22) in a threaded manner, the waste material boxes (3-21) are connected with the movable platform (3-24), the discharging rods (3-20) are connected with the movable baffles (3-26), the movable baffles (3-26) are connected with the fixed boxes (3-27) in a sliding manner, the fixed boxes (3-27) are connected with the waste material boxes (3-21), the fixed boxes (3-27) and the waste material boxes (3-21) are respectively provided with a discharging opening (3-25), the sliding chutes I (3-28) are arranged on the moving platform (3-24), the sliding chutes I (3-28) are connected with the connecting arms (3-16) in a sliding way, the irrigation nozzles (3-29) are connected with the water spraying boxes (3-10), the irrigation nozzles (3-29) are communicated with the pushing cavities (3-33), the ejection one-way valves (3-30) are arranged in the irrigation nozzles (3-29), the water spraying pushing plugs (3-31) are connected with the piston rods (3-32), the piston rods (3-32) are connected with the hydraulic cylinders (3-11), the piston rods (3-32) are connected with the water spraying boxes (3-10) in a sliding way, the water spraying pushing plugs (3-31) are connected with the pushing cavities (3-33) in a sliding way, the friction wheels (3-34) are connected with the rotating wheels (3-6) with the belt inlet in a friction way, the friction wheel (3-34) is connected with a friction wheel motor (3-35), and the friction wheel motor (3-35) is connected with the movable platform (3-24).

5. The roof rainwater collecting and recycling apparatus according to claim 4, wherein: the length of the hose (3-4) can be adjusted according to actual use.