CN109138040A

CN109138040A - Water system and method

Info

Publication number: CN109138040A
Application number: CN201811269117.4A
Authority: CN
Inventors: 王小亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-10-29
Filing date: 2018-10-29
Publication date: 2019-01-04

Abstract

The invention discloses water system and methods, the sedimentation basin of upper end wall connection free surrounding space is provided in the water storage box, a driving mechanism is provided in the wall of the sedimentation basin left end, a transmission space is provided in the sedimentation basin lower end wall, a promotion space is provided in the sedimentation basin right end wall, a pushing block is slidably connected in the promotion space, it is fixedly connected between the pushing block right side and promotion space right end wall by push the spring, described push is provided with the lifting groove that lower end wall connection pushes space in the upper end wall of space.This apparatus structure is simple, and it is convenient to operate, in present invention work, can precipitating of the effective solution in pipeline, prevent clogging deposits pipeline to causing damages, and effectively using the energy to energy saving.

Description

Water system and method

Technical field

The present invention relates to water-saving water supply fields, specially water system and method.

Background technique

Currently, the sustainable use of resource becomes current with the development of science and technology the development of society, resource are gone short of It is important utilize means, at this stage to the collection of rainwater, directly collect mostly, the silt of mixing is dirty in rainwater is extremely easy Accumulation in pipeline collecting box increases to cause the congestion of pipeline or the volume decline of collecting box to rain water collecting system Damage, is unfavorable for rainwater-collecting.

Summary of the invention

The purpose of the present invention is to provide water system and methods, to solve the problems mentioned in the above background technology.

To achieve the above object, the invention provides the following technical scheme: water system and method, including water storage box, it is described It is provided with the sedimentation basin of upper end wall connection free surrounding space in water storage box, is provided with a driving machine in the wall of the sedimentation basin left end Structure is provided with a transmission space in the sedimentation basin lower end wall, a promotion space is provided in the sedimentation basin right end wall, described It pushes and slidably connects a pushing block in space, pass through push the spring between the pushing block right side and promotion space right end wall It is fixedly connected, described push is provided with the lifting groove that lower end wall connection pushes space in the upper end wall of space, the transmission space It is provided with a water storage space in lower end wall, a right end wall is provided in the sedimentation basin right end wall upside through lifting groove or so end The water pipe of wall, on the right side of the water pipe lower end wall in be provided with the lifting space of a connection reservoir and water pipe, The spring groove of right end wall connection lifting groove is provided in lifting groove left end wall on the downside of the water pipe, in the lifting groove A trapezoid block is slidably connected, the trapezoid block upper end is through water pipe end wall and the lifting being located on the upside of water pipe up and down In slot, the trapezoid block lower end is through lifting groove lower end wall and is located in promotion space, and the spring groove upper end wall is fixedly connected There is an adjustable spring, the adjustable spring lower end is fixedly connected with a right end through spring groove right end wall and fixes company with trapezoid block The latch plate connect, is provided with the through hole of left hand end wall connection lifting groove in the trapezoid block upper end, under the promotion space It is provided with a storage power space in end wall, a connection is provided in the upper end wall of the storage power space and stores power space and pushes spatial rotational Space is rotatably connected to a rotation axis between end wall before and after the rotation space, is fixedly connected with one turn on the rotation axis axis body Moving gear, the rotate gear upper end is through rotation space upper end wall and connection is engaged with pushing block lower end wall, and the storage power is empty Interior to slidably connect the first torsion block, block upper end is reversed through rotation space lower end wall and with first in the rotate gear lower end Engagement connection, described first reverses the first torsion space that lower end wall connection storage power space is provided in block, and described first turns round Turn space upper end wall and be rotatably connected to the second torsion block, passes through the first torsion between the second torsion block and the first torsion space Spring is fixedly connected, and is provided with the second torsion space that lower end wall connection stores power space in the second torsion block, and described the Two torsion space upper end walls be rotatably connected to a lower end through second torsion space lower end wall and store power space lower end wall and with biography The transmission shaft of dynamic space lower end wall rotation connection passes through the second torsionspring between the transmission shaft upper end and the second torsion space It is fixedly connected, a supporting block is fixedly connected in the lifting space, the supporting block inner bearing is connected with a upper and lower ends point Not Guan Chuan supporting block upper and lower end face and the turbine wheel shaft that is located in lifting space, the turbine wheel shaft upper end is fixedly connected with a turbine, The turbine wheel shaft lower end is fixedly connected with the first belt pulley, and the transmission shaft in transmission space is fixedly connected with the second skin Belt wheel, the second belt pulley downside are provided with the third belt pulley being fixedly connected with transmission shaft, the transmission space lower end wall Left pivot movement is connected with a upper end through transmission space upper end wall and the agitating shaft in sedimentation basin, and the agitating shaft upper end is solid Surely it is connected with a paddle, the agitating shaft lower end is fixedly connected with one the 4th belt pulley, first belt pulley and the second skin It is connected, is connected between the third belt pulley and the 4th belt pulley by belt, the water storage space by belt between belt wheel It is provided with a selection mechanism in the wall of left end, the row of a connection sedimentation basin and free surrounding space is provided on the downside of the wall of the sedimentation basin left end Waterpipe is provided with an electromagnetic switch in the drainage pipeline；

The method comprises the following steps:

Firstly, when becoming a fine day, the first work of electromagnet, so that the first driven gear is driven to engage with the first transmission gear, driving electricity Machine work, so that drive shaft turns are driven, to drive first movement axis to rotate, to move right with dynamic dividing plate, thus band Dynamic power generation plate power generation, when rainy, driving motor work belt dynamic dividing plate is returned in first movement space, so that the first electromagnet stops It only works, the second work of electromagnet, so that the second transmission gear be driven to engage with the second driven gear, driving motor stops work Make, after sedimentation basin water storage, after standing a period of time, driving motor work, to drive barrier plate to move right, to be truncated The rainwater of dirt and upside on the downside of barrier plate, barrier plate continues to move right, to drive pushing block to move right, thus band Dynamic trapezoid block moves upwards, and latch plate moves upwards, and adjustable spring is compressed, through hole be connected to water pipe, pushing block to During right movement, by the transmission of rotate gear, the first torsion block is driven to move downward, to make the first belt pulley and the Belt tension between two belt pulleys, the belt between third belt pulley and the 4th belt pulley fluffs, to pass water through water flowing Pipeline and lifting space enter water space, and water drives turbine rotation when through lifting space, to pass through belt pulley Transmission drive the first torsionspring and the second torsionspring to generate elastic force to store power, and third belt pulley is in the shape that dallies State;

Then, after the water flow on the upside of barrier plate is most, driving motor drives barrier plate to return to the second mobile space, to make to push Block returns to original position under the action of push the spring, to drive the first torsion block to move downward, to make third belt pulley and the Belt tension between four belt pulleys, to make belt pulley that agitating shaft be driven to rotate under the action of torsionspring, to drive Paddle rotation opens electromagnetic switch so that water be stired and make muddy, so that sedimentation basin is discharged in muddy water, when need will be in water storage space Water when free surrounding space is discharged, rotating rocker when needing to sprinkle water, to keep translational block opposite with gripping block, third electromagnetism ironworker Make, so that translation bar right end be driven to enter in clamping slot, is pushed in space so that limited block be made to enter, third electromagnet stops work Make, so that the effect for translating spring be made to clamp translational block and gripping block, to open hydraulic pump, starts to discharge water.

Preferably, the driving mechanism includes driving space, a right end wall is provided in the upper end wall of the driving space It is connected to the first movement space in connection driving space on the left of sedimentation basin and lower end wall, is provided in the lower end wall of the driving space One right end wall is connected to second mobile space in connection driving space on the left of sedimentation basin and upper end wall, in the right end wall of the driving space It is provided with an electromagnetic space, driving space left end wall is fixedly connected with a driving motor, and the driving motor right side is dynamic Power is connected with a right end and drives the drive shaft of space right end wall rotation connection, is fixedly connected with first on the drive shaft axis body Gear is driven, the second driving gear being fixedly connected with drive shaft is provided on the right side of the first driving gear, the electromagnetism is empty Between right end wall be fixedly connected with the first electromagnet, electromagnetic space left end wall is fixedly connected with the second electromagnet, described first The magnetic board being slidably connected with electromagnetic space is provided between electromagnet and the second electromagnet, the magnetic board left side upside is solid Surely a left end is connected with through electromagnetic space left end wall and is located at the first follower lever driven in space, the magnetic board left side Downside be fixedly connected with a left end through electromagnetic space left end wall and be located at driving space in the second follower lever, described first from Lever left end is rotatably connected to the first driven gear, and second follower lever left end is rotatably connected to the second driven gear, described First movement space left end wall is rotatably connected to first movement axis, and the first movement axis right end threaded engagement is connected with a right end Through first movement space right end wall and the partition in sedimentation basin, the partition upper surface are fixedly connected with a power generation plate, First movement axis left end is fixedly connected with the first transmission gear, and second mobile space left end wall is rotatably connected to second Shifting axle, the second shifting axle right end threaded engagement are connected with a right end through the second mobile space right end wall and are located at precipitating Barrier plate in pond, second shifting axle left end are fixedly connected with the second transmission gear.

Preferably, the selection mechanism includes selection space, a left side is provided in the second mobile space lower end wall End wall is connected to the selection space of free surrounding space, is provided with a pipeline space, the water storage space in the revolution space right end wall Left end wall is provided with a left end through pipeline space left hand end wall and is connected to water storage space and selects the water pipeline in space, described A hydraulic pump is provided in water pipeline, selection space right end wall is rotatably connected to a support shaft, the support shaft left end Be fixedly connected with a rotating disc, on the upside of the right end wall of the selection space in symmetrical above and below centered on water pipeline left end be provided with The support slot in one left end wall connection selection space, it is symmetrical above and below in the rotating disc to be provided with left hand end wall connection selection space Translation space, the translation space be provided with a left and right ends extend through translation space left hand end wall and be located at selection space Interior spray head, the spray head upper and lower end face in translation space are symmetrically fixedly connected with a right end through translation space right end Wall and the translation slot that right end wall connection selection space is provided in the translational block selected in space, the translational block, institute Translation slot is stated far from the electromagnetism slot for being provided with one in the end face of spray head close to the end wall connection translation slot of spray head, in the translation slot A translation bar is slidably connected, is fixedly connected between the translation bar left side and translation slot left end wall by translating spring, institute It states translation bar and is fixedly connected with the one end far from spray head through electromagnetism slot close to spray head far from the end face bilateral symmetry of spray head End wall and the third electromagnet being located in electromagnetism slot, are provided with a upper and lower ends in the translation bar right end and are respectively communicated with translation slot Limiting slot, it is symmetrical above and below in the limiting slot to slidably connect the one end far from limit groove center through limiting slot far from limit The end wall of position groove center and the limited block being located in translation slot, are fixedly connected between the limited block by compressed spring, described Water pipeline left end is symmetrical above and below to be fixedly connected with a gripping block, and left end wall connection selection space is provided in the gripping block Clamping slot, the clamping slot up and down end wall be symmetrically arranged with one close to clamping slot end wall connection clamping slot promotion slot, institute It states to push in slot and slidably connects a pushing plate, the promotion slot is fixedly connected with the 4th electromagnet far from the end wall of clamping slot, The rotating disc left side is fixedly connected with a rocking bar, and the translation spring is in compressive state, the third electromagnetism always Elastic force between iron is much larger than the elastic force of translation spring, and the magnetic force between the 4th electromagnet and pushing plate is much larger than compression bullet The elastic force of spring.

Preferably, the belt between first belt pulley and the second belt pulley is in loose shape in the initial state State, the belt between the third belt pulley and the 4th belt pulley are in tensioning state in the initial state.

Compared with prior art, the beneficial effects of the present invention are: in present invention work, when becoming a fine day, the first work of electromagnet, To drive the first driven gear to engage with the first transmission gear, driving motor work, so that drive shaft turns are driven, thus band Dynamic first movement axis rotation, thus moved right with dynamic dividing plate, so that power generation plate is driven to generate electricity, and when rainy, driving motor work Make band dynamic dividing plate to return in first movement space, so that the first electromagnet stops working, the second work of electromagnet, to drive the Two transmission gears are engaged with the second driven gear, and driving motor stops working, after sedimentation basin water storage, after standing a period of time, Driving motor work, to drive barrier plate to move right, so that the rainwater of the dirt and upside that are truncated on the downside of barrier plate, stops Plate continues to move right, so that pushing block be driven to move right, so that trapezoid block be driven to move upwards, latch plate is moved upwards, Adjustable spring is compressed, and through hole connection water pipe passes through the biography of rotate gear during pushing block moves right It is dynamic, drive the first torsion block to move downward, thus make the belt tension between the first belt pulley and the second belt pulley, third belt Belt between wheel and the 4th belt pulley fluffs, and enters water space to pass water through water pipe and go up and down space, water exists By driving turbine rotation when lifting space, to drive the first torsionspring and the second torsion by the transmission of belt pulley Spring generates elastic force to store power, and third belt pulley is in idling conditions, after the water flow on the upside of barrier plate is most, driving motor Barrier plate is driven to return to the second mobile space, so that pushing block be made to return to original position under the action of push the spring, to drive the One torsion block moves downward, to make the belt tension between third belt pulley and the 4th belt pulley, so that belt pulley be made to turn round Turn to drive agitating shaft rotation under the action of spring, so that paddle be driven to rotate, so that water be stired and make muddy, opens electromagnetic switch, from And sedimentation basin is discharged in muddy water, and when needing the water in water storage space free surrounding space is discharged, rotating rocker when needing to sprinkle water, from And keep translational block opposite with gripping block, third work of electromagnet, to drive translation bar right end to enter in clamping slot, to make to limit Position block, which enters, to be pushed in space, and third electromagnet stops working, so that the effect for translating spring be made to press from both sides translational block and gripping block Tightly, to open hydraulic pump, start to discharge water, this apparatus structure is simple, and it is convenient to operate, can effective solution sinking in pipeline It forms sediment, prevents clogging deposits pipeline to cause damages, and effectively using the energy to energy saving.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of water system of the present invention and method entirety complete section；

Fig. 2 is the main view enlarged structure schematic diagram of water system of the present invention and method choice mechanism partial cutaway.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

A kind of embodiment provided by the invention referring to FIG. 1-2: water system and method, including water storage box 1, the storage It is provided with the sedimentation basin 15 of upper end wall connection free surrounding space in water tank 1, is provided with a driving in the 15 left end wall of sedimentation basin Mechanism 85 is provided with a transmission space 38 in 15 lower end wall of sedimentation basin, is provided with one in the 15 right end wall of sedimentation basin and pushes away Space 28 is moved, a pushing block 26,26 right side of pushing block and promotion space 28 are slidably connected in the promotion space 28 It is fixedly connected between right end wall by push the spring 27, lower end wall connection is provided in 28 upper end wall of promotion space and is pushed The lifting groove 21 in space 28 is provided with a water storage space 86, the 15 right end wall of sedimentation basin in 38 lower end wall of transmission space The water pipe 18 that a right end wall runs through 21 left hand end wall of lifting groove, 18 lower end wall of the water pipe right side are provided in upside It is inside provided with the lifting space 25 of a connection reservoir 86 and water pipe 18, the lifting groove 21 of 18 downside of water pipe is left It is provided with the spring groove 20 of right end wall connection lifting groove 21 in end wall, slidably connects a trapezoid block in the lifting groove 21 22,22 upper end of trapezoid block is through about 18 end wall of water pipe and is located in the lifting groove 21 of 18 upside of water pipe, institute 22 lower end of trapezoid block is stated through 21 lower end wall of lifting groove and is located in promotion space 28,20 upper end wall of spring groove is fixedly connected There is an adjustable spring 19,19 lower end of adjustable spring is fixedly connected with a right end through 20 right end wall of spring groove and and trapezoid block 22 latch plates 24 being fixedly connected are provided with the through hole of left hand end wall connection lifting groove 21 in 22 upper end of trapezoid block 23, a storage power space 45 is provided in 28 lower end wall of promotion space, is provided with a company in 45 upper end wall of storage power space It is logical to store power space 45 and push 28 rotation space 29 of space, a rotation axis is rotatably connected between the 29 front and back end wall of rotation space 32, a rotate gear 30 is fixedly connected on 32 axis body of rotation axis, rotation space 29 is run through in 30 upper end of rotate gear Upper end wall and connection is engaged with 26 lower end wall of pushing block, the first torsion block 44 is slidably connected in the storage power space 45, it is described Connection, the first torsion block are engaged through 29 lower end wall of rotation space and with the first torsion 44 upper end of block in 30 lower end of rotate gear The first torsion space 42 that lower end wall connection stores power space 45, the first torsion 42 upper end wall of space rotation are provided in 44 It is connected with the second torsion block 41, it is fixed by the first torsionspring 43 between the second torsion block 41 and the first torsion space 42 Connection, it is described second torsion block 41 in be provided with a lower end wall connection store power space 45 second torsion space 87, described second Torsion 87 upper end wall of space be rotatably connected to a lower end through second torsion 87 lower end wall of space and store 45 lower end wall of power space and With the transmission shaft 39 of 38 lower end wall of transmission space rotation connection, pass through between 39 upper end of transmission shaft and the second torsion space 87 Second torsionspring 40 is fixedly connected, and a supporting block 34,34 inner shaft of supporting block are fixedly connected in the lifting space 25 It holds and is connected with the turbine wheel shaft 33 that a upper and lower ends extend through 34 upper and lower end face of supporting block and are located in lifting space 25, the whirlpool 33 upper end of wheel shaft is fixedly connected with a turbine 31, and 33 lower end of turbine wheel shaft is fixedly connected with the first belt pulley 35, described to be located at Transmission shaft 39 in transmission space 38 is fixedly connected with the second belt pulley 36, is provided with and is driven on the downside of second belt pulley 36 The third belt pulley 37 that axis 39 is fixedly connected, it is empty through transmission that the 38 lower end wall left pivot movement of transmission space is connected with a upper end Between 38 upper end walls and be located at sedimentation basin 15 in agitating shaft 47,47 upper end of agitating shaft is fixedly connected with a paddle 48, institute It states 47 lower end of agitating shaft and is fixedly connected with one the 4th belt pulley 46, pass through between first belt pulley 35 and the second belt pulley 36 Belt connection, is connected between the third belt pulley 37 and the 4th belt pulley 46 by belt, the 86 left end wall of water storage space It is inside provided with a selection mechanism 52, the row of a connection sedimentation basin 15 and free surrounding space is provided on the downside of the 15 left end wall of sedimentation basin Waterpipe 58 is provided with an electromagnetic switch 57 in the drainage pipeline 58；

The method comprises the following steps:

Firstly, the work of the first electromagnet 13 is driven so that the first driven gear 7 be driven to engage with the first transmission gear 6 when becoming a fine day Dynamic motor 65 works, to drive drive shaft 2 to rotate, to drive first movement axis 4 to rotate, to transport to the right with dynamic dividing plate 17 Dynamic, so that power generation plate 14 be driven to generate electricity, when rainy, 65 work belt dynamic dividing plate 17 of driving motor is returned in first movement space 5, To which the first electromagnet 13 stops working, the second electromagnet 10 work, to drive the second transmission gear 59 and the second driven tooth 9 engagement of wheel, driving motor 65 stops working, and after 15 water storage of sedimentation basin, after standing a period of time, driving motor 65 works, from And drive barrier plate 16 to move right, so that the dirt of the downside of barrier plate 16 and the rainwater of upside be truncated, barrier plate 16 continue to Right movement, so that pushing block 26 be driven to move right, so that trapezoid block 22 be driven to move upwards, latch plate 24 is moved upwards, and is stretched Contracting spring 19 is compressed, and through hole 23 is connected to water pipe 18 and passes through rotate gear during pushing block 26 moves right 30 transmission drives the first torsion block 44 to move downward, to make the belt between the first belt pulley 35 and the second belt pulley 36 Tensioning, the belt between third belt pulley 37 and the 4th belt pulley 46 fluff, to pass water through water pipe 18 and lifting sky Between 25 enter water space 86, water by lifting space 25 when drive turbine 31 rotate, thus the biography for passing through belt pulley It is dynamic that the first torsionspring 43 and the second torsionspring 40 is driven to generate elastic force to store power, and third belt pulley 37 is in idle running shape State;

Then, after the water flow of 16 upside of barrier plate is most, driving motor 65 drives barrier plate 16 to return to the second mobile space 61, from And pushing block 26 is made to return to original position under the action of push the spring 27, to drive the first torsion block 44 to move downward, to make Belt tension between third belt pulley 37 and the 4th belt pulley 46 stirs so that belt pulley be made to drive under the action of torsionspring The rotation of axis 47 is mixed, so that paddle 48 be driven to rotate, so that water be stired and make muddy, electromagnetic switch 57 is opened, sinks so that muddy water is discharged Shallow lake pond 15, when needing the water in water storage space 86 free surrounding space is discharged, rotating rocker 55 when needing to sprinkle water, to make to translate Block 67 and gripping block 80 are opposite, and third electromagnet 72 works, to drive translation 71 right end of bar to enter in clamping slot 79, to make Limited block 75, which enters, to be pushed in space 82, and third electromagnet 72 stops working, to make the effect of translation spring 69 by translational block 67 clamp with gripping block 80, to open hydraulic pump 49, start to discharge water.

Valuably, the driving mechanism 85 includes driving space 64, and a right side is provided in 64 upper end wall of driving space End wall is connected to the first movement space 5 in connection driving space 64 on the left of sedimentation basin 15 and lower end wall, under the driving space 64 Second mobile space 61 in connection driving space 64 on the left of right end wall connection sedimentation basin 15 and upper end wall, institute are provided in end wall It states and is provided with an electromagnetic space 12 in driving 64 right end wall of space, the 64 left end wall of driving space is fixedly connected with driving electricity Machine 65,65 right side of driving motor are connected by power a right end and drive the drive shaft 2 of 64 right end wall of space rotation connection, It is fixedly connected with the first driving gear 63 on 2 axis body of drive shaft, is provided with and drives on the right side of the first driving gear 63 The second driving gear 3 that axis 2 is fixedly connected, the 12 right end wall of electromagnetic space are fixedly connected with the first electromagnet 13, the electricity 12 left end wall of magnetic space is fixedly connected with the second electromagnet 10, is provided between first electromagnet 13 and the second electromagnet 10 The magnetic board 11 being slidably connected with electromagnetic space 12,11 left side of the magnetic board upside are fixedly connected with a left end through electromagnetism 12 left end wall of space and the first follower lever 8 being located in driving space 64,11 left side of the magnetic board downside are fixedly connected with One left end is through 12 left end wall of electromagnetic space and is located at the second follower lever 60 driven in space 64, and first follower lever 8 is left End is rotatably connected to the first driven gear 7, and 60 left end of the second follower lever is rotatably connected to the second driven gear 9, and described the One mobile space, 5 left end wall is rotatably connected to first movement axis 4, and the 4 right end threaded engagement of first movement axis is connected with a right side Through 5 right end wall of first movement space and the partition 17 in sedimentation basin 15,17 upper surface of partition is fixedly connected at end One power generation plate 14,4 left end of first movement axis are fixedly connected with the first transmission gear 6,61 left end of the second mobile space Wall is rotatably connected to the second shifting axle 62, and it is mobile through second that the 62 right end threaded engagement of the second shifting axle is connected with a right end 61 right end wall of space and the barrier plate 16 being located in sedimentation basin 15,62 left end of the second shifting axle is fixedly connected with the second transmission Gear 59, effect are to realize the side-to-side movement of partition 17 and barrier plate 16.

Valuably, the selection mechanism 52 includes selection space 52, is provided in 61 lower end wall of the second mobile space One left end wall is connected to the selection space 52 of free surrounding space, is provided with a pipeline space 50, institute in the 52 right end wall of revolution space It states 86 left end wall of water storage space and is provided with a left end through 50 left hand end wall of pipeline space and connection water storage space 86 and selection sky Between 56 water pipeline 51, a hydraulic pump 49 is provided in the water pipeline 51,52 right end wall of the selection space rotation connects It is connected to a support shaft 53,53 left end of support shaft is fixedly connected with a rotating disc 54, the 52 right end wall upside of selection space The support slot 81 symmetrical above and below for being provided with left end wall connection selection space 56 centered on interior 51 left end by water pipeline, described turn The translation space 66 symmetrical above and below for being provided with left hand end wall connection selection space 56, the translation space 66 are arranged in Moving plate 54 The spray head 68 for thering are a left and right ends to extend through 66 left hand end wall of translation space and being located in selection space 56, it is described to be located at translation 68 upper and lower end face of spray head in space 66 is symmetrically fixedly connected with a right end through 66 right end wall of translation space and is located at selection sky Between translational block 67 in 56, the translation slot 70 in right end wall connection selection space 56 is provided in the translational block 67, it is described flat The electromagnetism slot 73 that one is provided in end face of the slot 70 far from spray head 68 close to the end wall connection translation slot 70 of spray head 68 is moved, it is described flat It moves in slot 70 and slidably connects a translation bar 71, pass through translation bullet between 71 left side of translation bar and translation 70 left end wall of slot Spring 69 is fixedly connected, and the translation bar 71 is fixedly connected with the one end far from spray head 68 far from the end face bilateral symmetry of spray head 68 Through electromagnetism slot 73 in the end wall of spray head 68 and the third electromagnet 72 in electromagnetism slot 73,71 right end of translation bar It is provided with the limiting slot 77 that a upper and lower ends are respectively communicated with translation slot 70, it is symmetrical above and below in the limiting slot 77 to slidably connect one One end far from 77 center of limiting slot is through end wall of the limiting slot 77 far from 77 center of limiting slot and is located at the limit translated in slot 70 Position block 75, is fixedly connected between the limited block 77,51 left end of water pipeline fixation symmetrical above and below by compressed spring 76 It is connected with a gripping block 80, the clamping slot 79 in left end wall connection selection space 56, the folder are provided in the gripping block 80 Tight about 79 end wall of slot is symmetrically arranged with a promotion slot 82 close to the end wall connection clamping slot 79 of clamping slot 79, the promotion slot A pushing plate 83 is slidably connected in 82, the promotion slot 82 is fixedly connected with the 4th electromagnet far from the end wall of clamping slot 79 84,54 left side of rotating disc is fixedly connected with a rocking bar 55, and the translation spring 69 is in compressive state always, described Elastic force between third electromagnet 72 is much larger than the elastic force for translating spring 69, between the 4th electromagnet 84 and pushing plate 83 Magnetic force is much larger than the elastic force of compressed spring 76.

Valuably, the belt between first belt pulley 35 and the second belt pulley 36 is in loose shape in the initial state State, the belt between the third belt pulley 37 and the 4th belt pulley 46 are in tensioning state in the initial state.

Specifically used mode: in present invention work, when becoming a fine day, the first electromagnet 13 work, to drive the first driven tooth Wheel 7 is engaged with the first transmission gear 6, and driving motor 65 works, to drive drive shaft 2 to rotate, to drive first movement axis 4 Rotation, to move right with dynamic dividing plate 17, so that power generation plate 14 be driven to generate electricity, when rainy, the work of driving motor 65 is driven Partition 17 returns in first movement space 5, so that the first electromagnet 13 stops working, the second electromagnet 10 work, to drive Second transmission gear 59 is engaged with the second driven gear 9, and driving motor 65 stops working, and after 15 water storage of sedimentation basin, stands one After the section time, driving motor 65 works, so that barrier plate 16 be driven to move right, thus be truncated the dirt of 16 downside of barrier plate with The rainwater of upside, barrier plate 16 continue to move right, to drive pushing block 26 to move right, to drive trapezoid block 22 upward Movement, latch plate 24 moves upwards, and adjustable spring 19 is compressed, and through hole 23 is connected to water pipe 18, pushing block 26 to the right During movement, by the transmission of rotate gear 30, the first torsion block 44 is driven to move downward, to make the first belt pulley 35 With the belt tension between the second belt pulley 36, the belt between third belt pulley 37 and the 4th belt pulley 46 fluffs, to make Water enters water space 86 by water pipe 18 and lifting space 25, and water drives turbine 31 when through lifting space 25 Rotation, thus drive the first torsionspring 43 and the second torsionspring 40 generation elastic force to store power by the transmission of belt pulley, And third belt pulley 37 is in idling conditions, after the water flow of 16 upside of barrier plate is most, driving motor 65 drives barrier plate 16 to return To the second mobile space 61, to make pushing block 26 return to original position under the action of push the spring 27, to drive the first torsion Block 44 moves downward, to make the belt tension between third belt pulley 37 and the 4th belt pulley 46, so that belt pulley be made to turn round Turn to drive agitating shaft 47 to rotate under the action of spring, so that paddle 48 be driven to rotate, so that water be stired and make muddy, opens electromagnetic switch 57, so that sedimentation basin 15 is discharged in muddy water, when needing the water in water storage space 86 free surrounding space is discharged, turn when needing to sprinkle water Shake bar 55, to keep translational block 67 and gripping block 80 opposite, third electromagnet 72 works, thus drive translation 71 right end of bar into Enter in clamping slot 79, pushed in space 82 so that limited block 75 be made to enter, third electromagnet 72 stops working, to make to translate bullet The effect of spring 69 clamps translational block 67 and gripping block 80, to open hydraulic pump 49, starts to discharge water, this apparatus structure is simple, It is convenient to operate, can precipitating of the effective solution in pipeline, prevent clogging deposits pipeline to causing damages, and effective benefit With the energy to energy saving.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims

1. water system and method, including water storage box, it is characterised in that: it is extraneous to be provided with upper end wall connection in the water storage box The sedimentation basin in space is provided with a driving mechanism in the wall of the sedimentation basin left end, is provided with a biography in the sedimentation basin lower end wall Space is moved, a promotion space is provided in the sedimentation basin right end wall, slidably connects a pushing block, institute in the promotion space It states and is fixedly connected between pushing block right side and promotion space right end wall by push the spring, set in the upper end wall of the promotion space It is equipped with the lifting groove that lower end wall connection pushes space, a water storage space is provided in the transmission space lower end wall, it is described heavy The water pipe that a right end wall runs through lifting groove left hand end wall, the water pipe lower end wall are provided on the upside of the right end wall of shallow lake pond The lifting space of a connection reservoir and water pipe is provided in right side, in the lifting groove left end wall on the downside of the water pipe It is provided with the spring groove of right end wall connection lifting groove, slidably connects a trapezoid block in the lifting groove, on the trapezoid block Through end wall above and below water pipe and in the lifting groove on the upside of water pipe, the trapezoid block lower end is run through under lifting groove at end End wall and being located at pushes in space, and the spring groove upper end wall is fixedly connected with an adjustable spring, and the adjustable spring lower end is solid Surely it is connected with the latch plate that a right end runs through spring groove right end wall and is fixedly connected with trapezoid block, is arranged in the trapezoid block upper end There is the through hole of left hand end wall connection lifting groove, is provided with a storage power space, the storage power in the lower end wall of the promotion space It is provided with a connection in the upper end wall of space to store power space and push spatial rotational space, is rotated between end wall before and after the rotation space It is connected with a rotation axis, a rotate gear is fixedly connected on the rotation axis axis body, the rotate gear upper end is through rotation Space upper end wall and connection is engaged with pushing block lower end wall, slidably connect the first torsion block in the storage power space, described turn Connection is engaged through rotation space lower end wall and with the first torsion block upper end in moving gear lower end, is provided in the first torsion block The connection of one lower end wall stores the first torsion space in power space, and the first torsion space upper end wall is rotatably connected to the second torsion Block is fixedly connected between the second torsion block and the first torsion space by the first torsionspring, in the second torsion block It is provided with the second torsion space that lower end wall connection stores power space, the second torsion space upper end wall is rotatably connected to Transmission shaft of the end through the second torsion space lower end wall and storage power space lower end wall and with the rotation connection of transmission space lower end wall, institute It states and is fixedly connected between transmission shaft upper end and the second torsion space by the second torsionspring, is fixedly connected in the lifting space There is a supporting block, the supporting block inner bearing is connected with a upper and lower ends and extends through supporting block upper and lower end face and be located at lifting sky Interior turbine wheel shaft, the turbine wheel shaft upper end are fixedly connected with a turbine, and the turbine wheel shaft lower end is fixedly connected with the first belt Wheel, the transmission shaft in the transmission space are fixedly connected with the second belt pulley, be provided on the downside of second belt pulley with The third belt pulley that transmission shaft is fixedly connected, the transmission space lower end wall left pivot movement are connected with a upper end through transmission space Upper end wall and the agitating shaft being located in sedimentation basin, the agitating shaft upper end is fixedly connected with a paddle, the agitating shaft lower end It is fixedly connected with one the 4th belt pulley, is connected between first belt pulley and the second belt pulley by belt, the third skin It is connected between belt wheel and the 4th belt pulley by belt, a selection mechanism is provided in the wall of the water storage space left end, it is described heavy It is provided with the drainage pipeline of a connection sedimentation basin and free surrounding space on the downside of the wall of shallow lake pond left end, an electricity is provided in the drainage pipeline Magnetic switch；

The method comprises the following steps:

2. water system according to claim 1 and method, it is characterised in that: the driving mechanism includes driving space, First of connection driving space on the left of right end wall connection sedimentation basin and lower end wall is provided in the driving space upper end wall Mobile space is provided with connection driving space on the left of right end wall connection sedimentation basin and upper end wall in the lower end wall of the driving space The second mobile space, an electromagnetic space is provided in the right end wall of the driving space, the driving space left end wall is fixed to be connected It is connected to a driving motor, the driving motor right side is connected by power a right end and drives the drive of space right end wall rotation connection Moving axis is fixedly connected with the first driving gear on the drive shaft axis body, is provided with and drives on the right side of the first driving gear The second driving gear that axis is fixedly connected, the electromagnetic space right end wall are fixedly connected with the first electromagnet, the electromagnetic space Left end wall is fixedly connected with the second electromagnet, is provided between first electromagnet and the second electromagnet and slides with electromagnetic space The magnetic board of connection, the magnetic board left side upside are fixedly connected with a left end through electromagnetic space left end wall and are located at driving The first follower lever in space, the magnetic board left side downside are fixedly connected with a left end through electromagnetic space left end wall and position The second follower lever in driving space, first follower lever left end are rotatably connected to the first driven gear, described second from Lever left end is rotatably connected to the second driven gear, and first movement space left end wall is rotatably connected to first movement axis, institute State first movement axis right end threaded engagement be connected with a right end through first movement space right end wall and be located at sedimentation basin in every Plate, the partition upper surface are fixedly connected with a power generation plate, and first movement axis left end is fixedly connected with the first transmission gear, Second mobile space left end wall is rotatably connected to the second shifting axle, and the second shifting axle right end threaded engagement is connected with one Through the second mobile space right end wall and the barrier plate in sedimentation basin, second shifting axle left end is fixedly connected with right end Second transmission gear.

3. water system according to claim 1 and method, it is characterised in that: the selection mechanism includes selection space, The selection space of left end wall connection free surrounding space, the revolution space right end are provided in the second mobile space lower end wall A pipeline space is provided in wall, water storage space left end wall is provided with a left end through pipeline space left hand end wall and connection The water pipeline of water storage space and selection space, is provided with a hydraulic pump, selection space right end wall in the water pipeline Be rotatably connected to a support shaft, the support shaft left end is fixedly connected with a rotating disc, on the upside of the right end wall of the selection space in The support slot symmetrical above and below for being provided with left end wall connection selection space centered on water pipeline left end, in the rotating disc on Under be symmetrically arranged with a left hand end wall connection selection space translation space, the translation space be provided with a left and right ends difference Through translation space left hand end wall and it is located at the spray head selected in space, the spray head upper and lower end face pair in translation space Claim to be fixedly connected with a right end through translation space right end wall and is located at the translational block selected in space, setting in the translational block There is the translation slot in right end wall connection selection space, the translation slot is far from being provided with an end close to spray head in the end face of spray head Wall connection translates the electromagnetism slot of slot, and a translation bar, the translation bar left side and translation slot are slidably connected in the translation slot It is fixedly connected between the wall of left end by translating spring, the translation bar is fixedly connected with one far far from the end face bilateral symmetry of spray head One end from spray head is through electromagnetism slot close to the end wall of spray head and the third electromagnet in electromagnetism slot, the translation bar right end It is inside provided with the limiting slot that a upper and lower ends are respectively communicated with translation slot, symmetrical above and below in the limiting slot to slidably connect one separate One end of groove center is limited through the limited block limiting slot end wall far from limit groove center and be located in translation slot, the limit It is fixedly connected between block by compressed spring, the water pipeline left end is symmetrical above and below to be fixedly connected with a gripping block, the folder The clamping slot in left end wall connection selection space is provided in tight block, end wall is symmetrically arranged with one close to folder to the clamping slot up and down The end wall of tight slot is connected to the promotion slot of clamping slot, a pushing plate is slidably connected in the promotion slot, the promotion slot is far from folder The end wall of tight slot is fixedly connected with the 4th electromagnet, and the rotating disc left side is fixedly connected with a rocking bar, the translation spring Be in compressive state always, elastic force of the elastic force between the third electromagnet much larger than translation spring, the 4th electromagnetism Magnetic force between iron and pushing plate is much larger than the elastic force of compressed spring.

4. water system according to claim 1 and method, it is characterised in that: first belt pulley and the second belt pulley Between belt be in loose state in the initial state, the belt between the third belt pulley and the 4th belt pulley is initial Tensioning state is under state.