CN111715598A

CN111715598A - Self-cleaning monitoring equipment utilizing rainwater

Info

Publication number: CN111715598A
Application number: CN202010631426.2A
Authority: CN
Inventors: 陆广炎
Original assignee: Wenzhou Xueshang Electronic Technology Co ltd
Current assignee: Wenzhou Xueshang Electronic Technology Co ltd
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2020-09-29

Abstract

The invention discloses self-cleaning monitoring equipment utilizing rainwater, which comprises a shell, wherein a rainwater cavity is arranged in the shell, a water pipe wall is arranged in the rainwater cavity, a purified water cavity is arranged in the rainwater cavity, a water purifying mechanism is arranged in the purified water cavity, the water purifying mechanism can be used for precipitating and standing rainwater to divide the rainwater into a clean layer and a sewage layer, a cleaning cavity is arranged at the right side of the rainwater cavity, the cleaning cavity is communicated with the rainwater cavity and is provided with a water pipe, a motor cavity is arranged at the upper side of the water pipe, and a motor is fixedly arranged in the motor cavity. Realize self-cleaning function, have higher integration degree.

Description

Self-cleaning monitoring equipment utilizing rainwater

Technical Field

The invention relates to the field of monitoring, in particular to self-cleaning monitoring equipment utilizing rainwater.

Background

As is well known, road monitoring equipment generally all installs in the higher place of leaving ground, be in road intersection department, the traffic flow is big, the dust of production is many, it is long-pending easy cause monitoring equipment to cover the dust and can not be good monitor work, and present general clean monitoring equipment all adopts the squirt, not only the task volume is big, consume hydraulic resources and manpower resources moreover, and the squirt sprays the damage that causes the monitoring equipment cover easily, cause the loss consequently need design an utilize automatically cleaning monitoring equipment of rainwater to solve above-mentioned problem.

Disclosure of Invention

It is an object of the present invention to provide a self-cleaning monitoring device using rainwater, which overcomes the above-mentioned drawbacks of the prior art.

The invention is realized by the following technical scheme.

The invention relates to self-cleaning monitoring equipment utilizing rainwater, which comprises a shell and is characterized in that: a rainwater cavity is arranged in the shell; the rainwater cavity is internally provided with a water pipe wall, the rainwater cavity is internally provided with a purified water cavity, the purified water cavity is internally provided with a purified water mechanism, the purified water mechanism can be used for precipitating and standing rainwater and dividing the rainwater into a purified layer and a sewage layer, the right side of the rainwater cavity is provided with a clean cavity, the clean cavity is communicated with the rainwater cavity and is provided with a water pipe, the upper side of the water pipe is provided with a motor cavity, the left side of the motor cavity is internally and fixedly provided with a motor, an upper push block extending into the water pipe wall is arranged above the purified water cavity in a sliding manner, a lower push block extending into the water pipe wall is arranged below the purified water cavity in a sliding manner, a contact rod is fixedly connected between the upper push block and the lower push block and is positioned on the left side of the motor, the upper end face of the contact rod is fixedly provided with an upper push block extending into the purified water cavity, and, the right side of the motor is rotatably provided with a motor shaft, the motor shaft is provided with a movable rod, the lower end surface of the movable rod is slidably provided with a blocking block, the blocking block extends into the water pipe to block the water pipe, the right end of the blocking block is provided with a blocking cavity, the lower end surface of the blocking cavity and a projection extending from the blocking block are connected with a blocking spring, the lower end of the water pipe is provided with a cleaning chamber, a cleaning mechanism is arranged in the cleaning cavity and can be used for cleaning and monitoring, the right side of the cleaning cavity is fixedly provided with a spring cavity, a movable rack is slidably arranged in the spring cavity, a rack spring is connected between the right end surface of the movable rack and the right end surface of the spring cavity, a monitoring shaft is rotatably arranged in the cleaning cavity, a first belt wheel is fixedly arranged on the monitoring shaft, a monitoring driving wheel is fixedly arranged on the monitoring shaft, the monitoring driving wheel is meshed with the moving rack, a ratchet wheel is fixedly arranged on the monitoring shaft, ratchet teeth are fixedly arranged on the ratchet wheel, a ratchet wheel fixing block fixed with the rear side wall is arranged above the ratchet teeth, a latch rotating shaft is rotatably arranged on the ratchet wheel fixing block, latches are fixedly arranged on the latch rotating shaft, a drainage shaft is rotatably arranged in the cleaning chamber, a second belt wheel is fixedly arranged on the drainage shaft, a first driving belt is arranged between the first belt wheel and the second belt wheel, a drainage rod is fixedly arranged on the drainage shaft, a drainage chamber is arranged on the left side of the drainage rod, a door opening fixing block is fixedly arranged in the right side wall of the cleaning chamber, a door opening hinged shaft is rotatably arranged on the door opening fixing block, a door opening hinged rod is fixedly arranged on the door opening hinged shaft, the door opening hinged rod is hinged with the door opening hinged shaft, and a closing rod is fixedly connected to the lower end of, closing rod right-hand member face fixed connection pin works as when the control axle is rotatory, promote in the control cover to a left side the pin, and enter the purge chamber, the drainage axle also can rotate to be opened, makes the purge chamber water logging gets into the drainage chamber, the fixed brush fixed block that is equipped with of purge chamber left end wall, the fixed brush that is equipped with on the brush fixed block, the purge chamber downside is equipped with the gravity briquetting, the fixed gravity depression bar that is equipped with of gravity briquetting downside, the gravity depression bar with it is equipped with the gravity spring to connect between the gravity briquetting, the fixed gravity connecting rod that is equipped with of gravity briquetting left side downside, gravity connecting rod left side is equipped with drainage mechanism, drainage mechanism is located water purification chamber bottom, drainage mechanism can be used for opening and closing the water purification chamber carries out the drainage.

Further, an upper end plate communicated with the outside is fixedly arranged at the top end of the water purification cavity, a through hole is formed in the upper end plate, a left sliding groove and a right sliding groove are symmetrically formed in two side walls of the water purification cavity, a rainwater separation plate is slidably connected between the left sliding groove and the right sliding groove, a small through hole is formed in the rainwater separation plate, a buoyancy sliding groove is fixedly formed in the rainwater separation plate, a buoyancy rod is slidably arranged in the buoyancy sliding groove, a floating plate and a buoyancy ball are fixedly arranged at the upper end and the lower end of the buoyancy rod, a groove capable of being matched with a protruding block of the upper end plate is formed in the floating plate, when the floating plate floats upwards, the upper pushing block is pushed to enable the contact rod to be in contact with the motor and is opened after a certain time, when the floating plate is in contact with the lower pushing block, the lower pushing block is pulled out to enable the contact rod not to be in contact with, the upper end of the right end of the drain pipe is communicated with a drain chamber channel, and the drain chamber channel is communicated with the drain chamber.

Furthermore, a gravity slide bar is fixedly arranged in the drainage mechanism, a gravity slide block is arranged on the gravity slide bar in a sliding manner, the gravity slide block is fixedly connected with the gravity connecting rod, a slide block spring wound on the gravity slide bar is fixedly arranged on the gravity slide block, a slide block groove fixed on the right side of the water pipe wall is arranged on the left side of the gravity slide block, a slide block is arranged on the slide block groove in a sliding manner, a gravity block hinge shaft is rotatably arranged on the slide block, an upper telescopic rod is hinged to the gravity block hinge shaft, a lower telescopic rod is slidably arranged on the upper telescopic rod, a telescopic spring is connected in the lower telescopic rod, a fixed shaft connected with the rear end wall is rotatably arranged on the upper telescopic rod, a spring rotating shaft is connected with a pulling spring on the left end face of the gravity slide block, a left hinge rod is hinged to the upper side face of the, the fixed dead lever that is equipped with water pipe wall fixed connection in right side hinge bar right side, the fixed slide bar that is equipped with of dead lever left end face, the articulated drainage slide bar in left side hinge bar left side, the drainage slide bar can slide on the slide bar, the fixed drainage slide bar that is equipped with stretches into water pipe wall can block up the drainage shelves pole in water purification chamber, works as when the gravity slider moves down, the pulling spring is pulled to the limit distance, makes the slider moves down, the pulling left hinge bar makes the drainage slide bar is in the right removal on the slide bar, drainage shelves pole moves right and opens the drainage.

Furthermore, the lower end of the drainage gear lever is positioned on the left side of the water pipe wall, an impact shaft is arranged in a rotating mode, an impact wheel is fixedly arranged on the impact shaft, a third belt wheel is fixedly arranged on the impact shaft, a transmission shaft is arranged on the right side of the impact shaft in a rotating mode, a fourth belt wheel is fixedly arranged on the transmission shaft, a second transmission belt is connected between the fourth belt wheel and the third belt wheel, a sector gear is fixedly arranged on the transmission shaft, the sector gear is meshed with the lower end face of the movable rack, when water in the water purification cavity flows downwards, the impact wheel can be impacted, the impact shaft rotates, and the transmission shaft rotates through connection of the second transmission belt, so that the movable rack moves leftwards.

The invention has the beneficial effects that: the self-cleaning monitoring equipment disclosed by the invention can collect and utilize rainwater, realizes that the monitoring equipment is not required to be cleaned by sending people regularly, saves manpower and water resources, can ensure that a monitoring equipment shell is protected, utilizes the self weight of the rainwater to clean, is reasonable in utilization, clean, environment-friendly and saves electric power, does not need manual operation, realizes a self-cleaning function, and has a higher integration degree.

Drawings

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

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

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 2;

FIG. 4 is an enlarged schematic view of the structure of C in FIG. 1;

fig. 5 is an enlarged schematic view of the structure D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The self-cleaning monitoring device utilizing rainwater described with reference to fig. 1-5 comprises a housing 10, a rainwater chamber 69 is arranged on the left side in the housing 10, a water pipe wall 15 is arranged in the rainwater chamber 69, a purified water chamber 16 is arranged in the rainwater chamber 69, a water purifying mechanism 101 is arranged in the purified water chamber 16, the water purifying mechanism 101 can be used for precipitating and standing rainwater to divide the rainwater into a clean layer and a sewage layer, a cleaning chamber 68 is arranged on the right side of the rainwater chamber 69, a water pipe 20 is communicated between the cleaning chamber 68 and the rainwater chamber 69, a motor chamber 79 is arranged on the upper side of the water pipe 20, a motor 82 is fixedly arranged in the motor chamber left side 79, an upper push block 90 extending into the water pipe wall 15 is slidably arranged above the purified water chamber 16, a lower push block 89 extending into the water pipe wall 15 is slidably arranged below the purified water chamber 16, a contact rod 88 is fixedly connected between the upper push block 90 and the lower push block 89, the contact rod 88 is positioned on the left side of the motor 82, the upper end surface of the contact rod 88 is fixedly provided with an upper push block 90 extending into the purified water cavity 16, the lower end surface of the contact rod 88 is fixedly provided with a lower push block 89 extending into the purified water cavity 16, the right side of the motor 82 is rotatably provided with a motor shaft 81, the motor shaft 81 is provided with a movable rod 80, the lower end surface of the movable rod 80 is slidably provided with a blocking block 83, the blocking block 83 extends into the water pipe 20 to block the water pipe 20, the right end of the blocking block 83 is provided with a blocking cavity 85, the lower end surface of the blocking cavity 85 and the blocking block 83 extend out to form a protruding block to be connected with a blocking spring 84, the lower end of the water pipe 20 is provided with a cleaning chamber 21, a cleaning mechanism 102 is arranged in the cleaning cavity 68, the cleaning mechanism 102 can be used for cleaning and monitoring, the right side of the cleaning cavity 68 is fixedly provided with a, a rack spring 24 is connected between the right end face of the movable rack 23 and the right end face of the spring cavity 25, a monitoring shaft 37 is rotatably arranged in the cleaning cavity 68, a first belt pulley 73 is fixedly arranged on the monitoring shaft 37, a monitoring transmission wheel 34 is fixedly arranged on the monitoring shaft 37, a monitoring cover 33 is fixedly arranged on the monitoring transmission wheel 34, the monitoring transmission wheel 34 is meshed with the movable rack 23, a ratchet wheel 35 is fixedly arranged on the monitoring shaft 37, ratchet teeth 38 are fixedly arranged on the ratchet wheel 35, a ratchet fixing block 41 fixed with the rear side wall is arranged above the ratchet teeth 38, a latch rotating shaft 40 is rotatably arranged on the ratchet fixing block 41, a latch 39 is fixedly arranged on the latch rotating shaft 40, a drainage shaft 50 is rotatably arranged in the cleaning chamber 21, a second belt pulley 72 is fixedly arranged on the drainage shaft 50, and a first transmission belt 48 is arranged between the first belt pulley 73 and the second belt pulley 72, the fixed drain bar 51 that is equipped with on drainage shaft 50, the drain bar 51 left side is equipped with drainage chamber 49, the fixed block 47 that opens the door that is equipped with in the wall of purge chamber 21 right side, it is equipped with the articulated shaft 45 that opens the door to rotate on the fixed block 47 that opens the door, the articulated shaft 46 that opens the door that fixedly is equipped with on the articulated shaft 45, the articulated shaft 46 that opens the door with the articulated shaft 45 that opens the door is articulated, the articulated shaft 46 lower extreme fixed connection closed rod 43 that opens the door, closed rod 43 right-hand member face fixed connection pin 42, when the monitoring axle 37 is rotatory, the control cover 33 is inside to left promotion the pin 42 to get into the purge chamber 21, drainage shaft 50 also can rotate to open, makes the water in the purge chamber 21 get into drainage chamber 49, the fixed brush fixed block 28 that is equipped with on the wall of purge chamber 21 left side, the fixed brush 22 that is equipped with on the brush fixed block 28, the, gravity briquetting 29 downside is fixed and is equipped with gravity depression bar 31, gravity depression bar 31 with it is equipped with gravity spring 30 to connect between the gravity briquetting 29, the fixed gravity connecting rod 70 that is equipped with of gravity briquetting 29 left side downside, gravity connecting rod 70 left side is equipped with drainage mechanism 103, drainage mechanism 103 is located the water purification chamber 16 bottom, drainage mechanism 103 can be used to open and close water purification chamber 16 carries out the drainage.

In addition, in one embodiment, an upper end plate 86 communicated with the outside is fixedly arranged at the top end of the purified water cavity 16, a through hole is arranged in the upper end plate 86, a left chute 18 and a right chute 14 are symmetrically arranged on two side walls in the purified water cavity 16, a rainwater separation plate 17 is slidably connected between the left chute 18 and the right chute 14, a small through hole is arranged in the rainwater separation plate 17, a buoyancy chute 13 is fixedly arranged on the rainwater separation plate 17, a buoyancy rod 12 is slidably arranged in the buoyancy chute 13, a floating plate 11 and a buoyancy ball 19 are fixedly arranged at the upper end and the lower end of the buoyancy rod 12, a groove capable of being matched with a protruding block of the upper end plate 86 is arranged on the floating plate 11, when the floating plate 11 floats upwards to be in contact with the upper pushing block 90 and pushes the upper pushing block 90 to enable the contact rod 88 to be in contact with the motor 82, the floating plate is opened after a certain time, and when the floating, the lower push block 89 is pulled out to prevent the contact rod 88 from contacting with the motor to stop rotating, the bottom end of the water purifying cavity 16 is fixedly provided with the drain pipe 32, the upper end of the right end of the drain pipe 32 is communicated with the drain chamber channel 78, and the drain chamber channel 78 is communicated with the drain chamber 49.

In addition, in one embodiment, a gravity slide rod 65 is fixedly disposed in the drainage mechanism 103, a gravity slider 66 is slidably disposed on the gravity slide rod 65, the gravity slider 66 is fixedly connected to the gravity connecting rod 70, a slider spring 67 wound on the gravity slide rod 65 is fixedly disposed on the gravity slider 66, a slider groove 55 fixed on the right side of the water pipe wall 15 is disposed on the left side of the gravity slider 66, a slider 71 is slidably disposed on the slider groove 55, a gravity block hinge shaft 58 is rotatably disposed on the slider 71, an upper telescopic rod 60 is hingedly disposed on the gravity block hinge shaft 58, a lower telescopic rod 61 is slidably disposed on the upper telescopic rod 60, a telescopic spring 62 is connected to the lower telescopic rod 61, a fixed shaft 63 connected to the rear end wall is rotatably disposed on the upper telescopic rod 60, a pulling spring 64 is connected to the spring rotating shaft 59 and the left end face of the gravity slider 66, the slider 71 is hinged with a left hinge rod 54 on the upper side, the left hinge rod 54 is hinged with a right hinge rod 57, the right side of the right hinge rod 57 is fixedly provided with a fixed rod 56 fixedly connected with the water pipe wall 15, the left end surface of the fixed rod 56 is fixedly provided with a sliding rod 87, the left hinge rod 54 is hinged with a left drainage slide rod 52 on the left side, the drainage slide rod 52 can slide on the sliding rod 87, the drainage slide rod 52 is fixedly provided with a drainage baffle rod 53 which extends into the water pipe wall 15 and can block the water purification cavity 16, when the gravity slider 66 moves downwards, the pulling spring 64 is pulled to a limit distance, so that the slider 71 moves downwards, the left hinge rod 54 is pulled, the drainage slide rod 52 moves rightwards on the sliding rod 87, and the drainage baffle rod 53 moves rightwards to open drainage.

In addition, in one embodiment, an impact shaft 76 is rotatably disposed at the lower end of the drainage baffle 53 on the left side of the water pipe wall 15, an impact wheel 36 is fixedly disposed on the impact shaft 76, a third pulley 74 is fixedly disposed on the impact shaft 76, a transmission shaft 26 is rotatably disposed at the right side of the impact shaft 76, a fourth pulley 75 is fixedly disposed on the transmission shaft 26, a second transmission belt 77 is connected between the fourth pulley 75 and the third pulley 74, a sector gear 27 is fixedly disposed on the transmission shaft 26, the sector gear 27 is engaged with the lower end surface of the movable rack 23, when water in the purified water chamber 16 flows downward, the impact wheel 36 is impacted, the impact shaft 76 rotates, and the transmission shaft 26 rotates through the connection of the second transmission belt 77, so that the movable rack 23 moves leftward.

The working state is as follows: in the initial state, no water exists in the cleaning chamber 21, the gravity pressing block 29 cannot compress the gravity spring 30 downwards, the drainage blocking rod 53 blocks the lower channel of the purified water cavity 16, the rainwater separation plate 17 in the purified water cavity 16 is positioned at the lower side of the left sliding groove 18, the contact rod 88 is not in contact with the motor 82, the motor 82 is not started, the blocking block 83 extends into the water pipe 20 to block the water pipe 20, the impact wheel 36 keeps static and cannot enable the transmission shaft 26 to rotate, the movable rack 23 is positioned at the right side due to the action of the rack spring 24, and the monitoring cover 33 is positioned outside the cleaning chamber 21.

When raining, rainwater falls into the purified water cavity 16 through the channel of the upper end plate 86 and is accumulated, after the rainwater is stored for a certain time and quantity, the buoyancy ball 19 floats upwards in the buoyancy sliding chute 13 due to buoyancy, after the buoyancy sliding chute 13 moves upwards, the rainwater separation plate 17 is driven to move upwards in the left sliding chute 18 and the right sliding chute 14, and gradually rises to ensure that the rainwater does not enter the purified water cavity 16 due to the fact that the buoyancy plate 11 is matched with the upper end plate 86, the buoyancy plate 11 pushes the upper push block 90 to ensure that the contact rod 88 is contacted with the motor 82, after a certain time, the motor 82 is started, the upper layer of clean rainwater is kept still in the purified water cavity 16, after the motor 82 is kept still for a certain time, the blocking block 83 moves upwards, the passage of the water pipe 20 is formed, the clean rainwater flows into the cleaning chamber 21 through the water pipe 20, when the rainwater is stored in the cleaning chamber 21, the gravity pressing block 29 compresses the gravity spring 30 downwards, meanwhile, a gravity connecting rod 70 fixedly connected to the lower side of the gravity press block 29 moves downwards to enable a gravity slider 66 to move downwards on a gravity slide rod 65, when a pulling spring 64 is pulled downwards to a certain extent, a fixed shaft 63 is rotated to drive an upper telescopic rod 60 to rotate, the upper telescopic rod 60 is driven to rotate downwards, a slider 71 is driven to move downwards, a left hinge rod 54 is pulled to enable a drainage slide rod 52 to move rightwards on a slide rod 87, a drainage stop rod 53 moves rightwards to open drainage, water in a clean water cavity 16 flows downwards to flow out of an impact wheel 36 to rotate and flows downwards to a drainage pipe 32 to be drained, the impact wheel 36 rotates to drive an impact shaft 76 to rotate, a third belt wheel 74 is driven to rotate, a transmission shaft 26 is driven to rotate through a second transmission belt 77, the transmission shaft 26 rotates to drive a sector gear 27 to rotate, the sector gear 27 rotates to drive a moving rack 23 to move leftwards, the monitoring transmission wheel 34 rotates to enable the monitoring shaft 37 to rotate, the monitoring cover 33 rotates leftwards to enter the pushing-open stop lever 42, the stop lever 42 and the closing lever 43 rotate leftwards under the rotation of the door opening hinge shaft 45, the monitoring cover 33 enters the cleaning chamber 21 to be cleaned by contacting the hairbrush 22, the monitoring shaft 37 rotates to drive the ratchet wheel 35 to rotate to drive the drainage shaft 50 to rotate through the first transmission belt 48, the drainage rod 51 rotates to open the drainage chamber 49 and dial water, and the water in the cleaning chamber 21 flows out to enter the drainage chamber 49 to flow out to the drainage chamber channel 78 to flow out to the drainage pipe 32 to be discharged.

When the rainwater in the clean water cavity 16 completely flows out, the floating plate 11 moves downwards to separate from the upper end plate 86, the floating rod 12 is driven to slide downwards in the floating chute 13, the rainwater separation plate 17 slides downwards on the left chute 18 and the right chute 14, the impact wheel 36 is not impacted any more, the impact wheel 36 cannot drive the impact shaft 76 to rotate without rotating, therefore, the transmission shaft 26 does not rotate, the moving rack 23 moves rightwards under the action of the rack spring 24, the monitoring cover 33 rotates out of the cleaning chamber 21, the stop lever 42 and the closing rod 43 return to the door opening fixing block 47 under the action of gravity, when the monitoring shaft 37 rotates anticlockwise, the ratchet wheel 35 is clamped by the ratchet wheel teeth 38, the drainage shaft 50 does not rotate too much, the drainage rod 51 is kept to vertically close the drainage chamber 49, the floating plate 11 pulls out the lower push block 89, the contact rod 88 is pulled out, the motor 82 does not rotate any more, the blocking block spring 84 is driven by the blocking block 83 to block the water pipe, can continue to seal the next water storage.

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

Claims

1. A self-cleaning monitoring device utilizing rainwater comprises a shell, and is characterized in that: a rainwater cavity is arranged in the shell; the rainwater cavity is internally provided with a water pipe wall, the rainwater cavity is internally provided with a purified water cavity, the purified water cavity is internally provided with a purified water mechanism, the purified water mechanism can be used for precipitating and standing rainwater and dividing the rainwater into a purified layer and a sewage layer, the right side of the rainwater cavity is provided with a clean cavity, the clean cavity is communicated with the rainwater cavity and is provided with a water pipe, the upper side of the water pipe is provided with a motor cavity, the left side of the motor cavity is internally and fixedly provided with a motor, an upper push block extending into the water pipe wall is arranged above the purified water cavity in a sliding manner, a lower push block extending into the water pipe wall is arranged below the purified water cavity in a sliding manner, a contact rod is fixedly connected between the upper push block and the lower push block and is positioned on the left side of the motor, the upper end face of the contact rod is fixedly provided with an upper push block extending into the purified water cavity, and, the right side of the motor is rotatably provided with a motor shaft, the motor shaft is provided with a movable rod, the lower end surface of the movable rod is slidably provided with a blocking block, the blocking block extends into the water pipe to block the water pipe, the right end of the blocking block is provided with a blocking cavity, the lower end surface of the blocking cavity and a projection extending from the blocking block are connected with a blocking spring, the lower end of the water pipe is provided with a cleaning chamber, a cleaning mechanism is arranged in the cleaning cavity and can be used for cleaning and monitoring, the right side of the cleaning cavity is fixedly provided with a spring cavity, a movable rack is slidably arranged in the spring cavity, a rack spring is connected between the right end surface of the movable rack and the right end surface of the spring cavity, a monitoring shaft is rotatably arranged in the cleaning cavity, a first belt wheel is fixedly arranged on the monitoring shaft, a monitoring driving wheel is fixedly arranged on the monitoring shaft, the monitoring driving wheel is meshed with the moving rack, a ratchet wheel is fixedly arranged on the monitoring shaft, ratchet teeth are fixedly arranged on the ratchet wheel, a ratchet wheel fixing block fixed with the rear side wall is arranged above the ratchet teeth, a latch rotating shaft is rotatably arranged on the ratchet wheel fixing block, latches are fixedly arranged on the latch rotating shaft, a drainage shaft is rotatably arranged in the cleaning chamber, a second belt wheel is fixedly arranged on the drainage shaft, a first driving belt is arranged between the first belt wheel and the second belt wheel, a drainage rod is fixedly arranged on the drainage shaft, a drainage chamber is arranged on the left side of the drainage rod, a door opening fixing block is fixedly arranged in the right side wall of the cleaning chamber, a door opening hinged shaft is rotatably arranged on the door opening fixing block, a door opening hinged rod is fixedly arranged on the door opening hinged shaft, the door opening hinged rod is hinged with the door opening hinged shaft, and a closing rod is fixedly connected to the lower end of, closing rod right-hand member face fixed connection pin works as when the control axle is rotatory, promote in the control cover to a left side the pin, and enter the purge chamber, the drainage axle also can rotate to be opened, makes the purge chamber water logging gets into the drainage chamber, the fixed brush fixed block that is equipped with of purge chamber left end wall, the fixed brush that is equipped with on the brush fixed block, the purge chamber downside is equipped with the gravity briquetting, the fixed gravity depression bar that is equipped with of gravity briquetting downside, the gravity depression bar with it is equipped with the gravity spring to connect between the gravity briquetting, the fixed gravity connecting rod that is equipped with of gravity briquetting left side downside, gravity connecting rod left side is equipped with drainage mechanism, drainage mechanism is located water purification chamber bottom, drainage mechanism can be used for opening and closing the water purification chamber carries out the drainage.

2. A self-cleaning monitoring apparatus using rainwater, in which: an upper end plate communicated with the outside is fixedly arranged at the top end of the water purification cavity, a through hole is arranged in the upper end plate, a left chute and a right chute are symmetrically arranged on two side walls in the water purification cavity, a rainwater separation plate is slidably connected between the left chute and the right chute, a small through hole is arranged in the rainwater separation plate, a buoyancy chute is fixedly arranged on the rainwater separation plate, a buoyancy rod is slidably arranged in the buoyancy chute, a floating plate and a buoyancy ball are fixedly arranged at the upper end and the lower end of the buoyancy rod, a groove capable of being matched with a protruding block of the upper end plate is arranged on the floating plate, when the floating plate floats upwards, the upper push block is contacted with the upper push block and pushed to enable the contact rod to be contacted with the motor, the contact rod is opened after a certain time, when the floating plate is contacted with the lower push block, the lower push block is pulled out to enable the contact rod not to, the upper end of the right end of the drain pipe is communicated with a drain chamber channel, and the drain chamber channel is communicated with the drain chamber.

3. A self-cleaning monitoring apparatus using rainwater, in which: a gravity slide bar is fixedly arranged in the drainage mechanism, a gravity slide block is arranged on the gravity slide bar in a sliding manner, the gravity slide block is fixedly connected with the gravity connecting bar, a slide block spring wound on the gravity slide bar is fixedly arranged on the gravity slide block, a slide block groove fixed on the right side of the water pipe wall is arranged on the left side of the gravity slide block, a slide block is arranged on the slide block groove in a sliding manner, a gravity block hinge shaft is arranged on the slide block in a rotating manner, an upper telescopic rod is hinged to the gravity block hinge shaft, a lower telescopic rod is arranged on the upper telescopic rod in a sliding manner, a telescopic spring is connected in the lower telescopic rod in a connecting manner, a fixed shaft connected with the rear end wall is arranged on the upper telescopic rod in a rotating manner, a spring rotating shaft is connected with a pulling spring on the left end face of the gravity slide block, a left hinge rod is hinged to the upper side face of the, the fixed slide bar that is equipped with of dead lever left end face, the articulated drainage slide bar in left side of left side hinge bar, the drainage slide bar can slide on the slide bar, the fixed drainage slide bar that is equipped with on stretches into water pipe wall can block up the drainage shelves pole in water purification chamber, work as when the gravity slider moves down, the pulling spring is drawn to the limit distance, makes the slider moves down, stimulates left hinge bar makes the drainage slide bar is in the right removal on the slide bar, the drainage shelves pole moves right and opens the drainage.

4. A self-cleaning monitoring apparatus using rainwater, in which: the drainage pin lower extreme is located the water pipe wall left side internal rotation is equipped with the impact shaft, the epaxial fixed impact wheel that is equipped with of impact, the epaxial fixed third band pulley that is equipped with of impact, the impact shaft right side rotates and is equipped with the transmission shaft, the epaxial fixed fourth band pulley that is equipped with of transmission, the fourth band pulley with connect the second driving belt between the third band pulley, the epaxial fixed sector gear that is equipped with of transmission, sector gear with the terminal surface meshing under the removal rack, work as the water downward flow in the water purification intracavity can strike the impact wheel, makes the impact shaft rotates, through the connection of second driving belt makes the transmission shaft rotates, makes the removal rack removes left.