CN115142539A - Intelligent vatch basin is filtered in slagging-off of controllable sewage volume - Google Patents

Abstract

The invention relates to the technical field of intercepting wells, in particular to a slag removal and filtration intelligent intercepting well with controllable sewage amount. According to the invention, the four baffles are arranged on the inner side surface of the intercepting frame, so that the four filtering modules can be rotated through the adjusting module, the intercepting frame which is originally used for intercepting impurities is moved to the top of the adjusting module, and the intercepting frame at the bottom is moved to the position of the conveying pipe, so that a new intercepting frame can be quickly replaced, the quantity of solid impurities with large volume entering the well body when the intercepting frame is replaced is favorably reduced, and the blockage of a sewage discharge pipe is not easily caused after the intercepting frame is used for a long time.

Description

Intelligent vatch basin is filtered in slagging-off of controllable sewage volume

Technical Field

The invention relates to the technical field of intercepting wells, in particular to an intelligent intercepting well capable of controlling sewage amount and removing slag and filtering.

Background

The vatch basin is used for holding back sewage, can carry the sewage in a plurality of sewage pipes in holding back the well usually, then carry sewage treatment plant by the vatch basin is unified, can reduce the pipeline quantity that accesss to sewage treatment plant, some vatch basins also are used in the confluence system of rain and sewage, play the effect of rain and sewage separation, because only sewage in the pipe when dry season, the vatch basin can catch sewage, then send sewage treatment plant to through the sewage pipe, during the rainfall, the sewage gate that cuts that keeps the blow off pipe is opened, and keep the rainwater gate of drain pipe closed, guarantee dirty initial stage rainwater and get into the sewage pipe, and later stage in the rainfall, the rainwater is relatively cleaner, if the water level is higher than when setting for the water level in the well, close the sewage gate, open the rainwater gate, rainwater can directly discharge into the river course, thereby realize that rainwater and sewage automatic switch-over reposition of redundant personnel in the rainwater pipe network, avoid sewage inflow river course, lake etc., avoid a large amount of rainwater to get into the sewage pipe network simultaneously, increase sewage treatment plant's load.

When holding back the well blowdown, generally can be through intercepting sewage gate control sewage discharge amount, it is great to avoid sewage displacement, exceed sewage treatment plant's throughput, it also can set up the interception structure to hold back the well sewage entry port, the great solid impurity interception of volume in with sewage through the frame that holds back of interception structure, avoid blockking up the blow off pipe, but set up one in the vatch well usually and hold back the frame and hold back, after using an end time, hold back the frame inside when will amass more solid impurity, need clear up holding back frame internal impurity, but when the clearance, need hold back the frame earlier and propose holding back the well, then clearing up, the clearance cost time is longer, in the clearance process, probably have inside the great solid impurity of more volume gets into the vatch well, after long-time the use, can cause the jam of blow off pipe.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide an intelligent intercepting well capable of controlling sewage amount and removing slag and filtering, wherein four baffles are arranged on the inner side surface of an intercepting frame, so that the four filtering modules can be rotated through an adjusting module, the intercepting frame which is originally used for intercepting impurities is moved to the top of the adjusting module, and the intercepting frame at the bottom is moved to the position of a conveying pipe, so that a new intercepting frame can be quickly replaced, the quantity of solid impurities with large volume entering the interior of a well body when the intercepting frame is replaced is favorably reduced, and after the intercepting frame is used for a long time, a sewage discharge pipe is not easily blocked.

The purpose of the invention can be realized by the following technical scheme:

a deslagging filtering intelligent intercepting well with controllable sewage quantity comprises a well body, wherein the bottom of the side surface of the well body is communicated with a conveying pipe, a drain pipe and a drain pipe, the inner side surface of the well body is provided with a drain gate corresponding to the drain pipe, the inner side surface of the well body is provided with a sewage intercepting gate corresponding to the drain pipe, the inner bottom surface of the well body is fixedly connected with an adjusting module, the adjusting module is fixedly connected with four filtering modules at equal intervals in an annular mode, each filtering module comprises an intercepting frame, the side surface of the intercepting frame, which is positioned on one side of the conveying pipe, is in contact with the inner side surface of the well body, the side surface, which is opposite to the opening side of the intercepting frame, is fixedly connected with two fixing seats rotatably connected with the adjusting module, four baffles are arranged at equal intervals on the inner side surface of the intercepting frame, the inner side surfaces of the baffles are rotatably connected with positioning rods fixedly connected with the inner side surface of the intercepting frame, and a torsion spring II is arranged between the side surface of the positioning rods and the inner side surface of the baffles, the inner side surface of the well body corresponds to the stop lever which is fixedly connected with the inner side surface of the conveying pipe and is in contact with the side surface of the adjacent intercepting frame, the bottom surface of the baffle which is positioned at the bottom is fixedly connected with a limit plate which is in contact with the stop lever, two pull wires are fixedly connected with the side surfaces of the two adjacent baffle, sewage is conveyed to the inside of the well body through the conveying pipe, the intercepting gate is opened, the drainage gate is closed, the sewage passes through the intercepting frame which is adjacent to the conveying pipe to enter the well body and finally flows out of the well body from the drainage pipe, the maximum drainage sewage amount of the drainage pipe can be controlled by controlling the opening degree of the intercepting gate, when rainwater in rainy seasons is more, the rainwater in the well body exceeds a set value, the intercepting gate is closed, the drainage gate is opened, the rainwater which enters the well body from the conveying pipe can be discharged from the drainage pipe, and the rainwater conveyed by the intercepting frame which is close to the conveying pipe can be intercepted, when the impurities in the sewage with larger volume are accumulated in the intercepting frames, the four filtering modules can be rotated through the adjusting module, the previous intercepting frame for filtering and intercepting is moved to the top of the adjusting module, the next intercepting frame positioned at the bottom is moved to the position of the conveying pipe, after the limiting plate in the previous intercepting frame is separated from the stop lever, the baffle can be rotated under the action of the second torsion spring to block the opening of the intercepting frame and prevent the impurities from falling out of the intercepting frame, the limiting plate in the next intercepting frame is contacted with the bottom end of the stop lever, the intercepting frame continues to move upwards, the stop lever can enable the limiting plate to rotate downwards, so that the baffle at the bottom is rotated downwards, and because the two adjacent baffles are connected through two pull wires, like this the bottom baffle can be through its top baffle of stay cord pulling downwardly rotating, thereby make a plurality of baffles all downwardly rotating, make the baffle no longer block inside the interception frame, at this moment the rain of conveyer pipe transport, sewage can get into in the interception frame, make next interception frame intercept filtration impurity, can carry out filterable interception frame by quick replacement like this, be favorable to reducing when changing the interception frame, the quantity of the great solid impurity of the internal portion's of entering well volume, after long-time the use, be difficult to cause the jam of blow off pipe, and when the rainfall is more, can quick replacement interception frame, avoid impurity in the interception frame to influence the rainwater and get into the well body, all the other interception frames can regard as the backup to use, avoid personnel's rainy day to clear up the interception frame.

Further, the method comprises the following steps: adjusting module includes two bracing pieces, bracing piece bottom and the internal bottom fixed connection of well, bracing piece medial surface fixedly connected with fixed block, two the fixed block opposite face rotates and is connected with the dwang, the dwang both sides correspond four equal ring shape equidistance fixedly connected with coupling mechanism of four filter module, and coupling mechanism and adjacent fixing base rotate and be connected, bracing piece side top fixed connection has the power box, the inside gear motor two that is provided with of power box, two output end transmissions of gear motor are connected with and rotate the transfer line of being connected with adjacent fixed block medial surface, the transfer line side rotates with the power box medial surface and is connected, and transfer line one end is connected with dwang one end transmission, and gear motor two can drive the transfer line and rotate, and the transfer line can drive the dwang and rotate, and the dwang can pass through coupling mechanism and drive the interception frame and remove.

Further, the method comprises the following steps: connecting mechanism includes connecting rod one, connecting rod one end and dwang side fixed connection, connecting rod medial surface sliding connection has connecting rod two, the one end medial surface that connecting rod two deviates from connecting rod one is provided with the connecting block, the connecting block side rotates with the fixing base side to be connected, and the fixing base side contacts with connecting rod two sides, and the dwang can drive connecting rod one and rotate with connecting rod two, and connecting rod two can drive the connecting block and rotate, and the connecting block can drive the interception frame and remove.

Further, the method comprises the following steps: the connecting block side fixedly connected with and the inserted bar of two one end medial surfaces slip grafting of connecting rod, the connecting block deviates from the side fixedly connected with round piece of fixing base, fixed block side fixedly connected with fixed plate, two the equal fixedly connected with limit rail one of fixed plate opposite face and limit rail two, limit rail two is located the inside of limit rail one, and limit rail medial surface and limit rail two sides all contact with adjacent round piece side, the open slot has been seted up to limit rail one top surface, the fixed plate side is located the inside fixedly connected with limit rail three of limit rail two, the connecting rod deviates from one side fixedly connected with stopper of two side connecting rod one, and limit rail two medial surfaces and limit rail three sides all contact with adjacent stopper side, and the round piece can remove in limit rail one and limit rail two to make filter module remove along limit rail one, limit rail one can restrict the position of round piece simultaneously, avoid the connecting block to remove connecting rod two, the stopper can remove between limit rail two and limit rail three, thereby restrict the length of stretching out of connecting rod two, guarantee that the inserted bar can not break away from with connecting rod two.

The method is further characterized in that: the inner side surface of the fixing seat is rotatably connected with a rotating block fixedly connected with the side surface of the connecting block, a first torsion spring is arranged between the inner side surface of the fixing seat and the rotating block, the angle of the intercepting frame of the fixing seat can be kept under the action of the first torsion spring, the intercepting frame is enabled to keep inclined, when the intercepting frame at the bottom moves towards the conveying pipe, the opening side of the intercepting frame is enabled to gradually move towards the side wall of the well body when the round block moves along the horizontal plane of the limiting rail, and the intercepting frame is enabled to contact with the side wall of the well body under the extrusion of the side wall of the well body after the top of the intercepting frame is contacted with the side wall of the well body due to the inclination of the intercepting frame relative to the connecting rod II, so that the opening side of the intercepting frame smoothly corresponds to the conveying pipe after the intercepting frame moves upwards to the position of the conveying pipe.

The method is further characterized in that: the top surface of the well body is provided with a lifting mechanism, the lifting mechanism comprises a fixed box, the bottom surface of the fixed box is fixedly connected with the top surface of the well body, the inner side surface of the fixed box is provided with a first speed reducing motor, the output end of the first speed reducing motor is in transmission connection with a driving rod which is in transmission connection with the inner side surface of the fixed box, two sides of the inner side surface of the fixed box are both in rotation connection with winding rods, the side surface of the driving rod is fixedly sleeved with two first bevel gears corresponding to the two winding rods, the side surface of each winding rod is fixedly sleeved with a second bevel gear which is in meshing transmission with the adjacent first bevel gear, two connecting wires are wound on the side surface of each winding rod, the bottom ends of the connecting wires penetrate through the bottom of the fixed box and the top of the well body and extend into the well body, the bottom ends of the two connecting wires on the same winding rod are fixedly connected with lifting blocks, two side surfaces of the intercepting frame are both fixedly connected with two clamping blocks, and the side surfaces of the lifting blocks are in contact with the adjacent two clamping blocks, the first speed reduction motor can drive the driving rod to rotate, the driving rod can drive the winding rod to rotate through the first bevel gear and the second bevel gear, so that the connecting wire can be wound by the winding rod, the connecting wire can pull the lifting block to move upwards, the lifting block can be in contact with two clamping blocks positioned on one side of the top intercepting frame, the lifting block can enable the intercepting frame to move upwards through the clamping blocks, one lifting block can lift one side of the intercepting frame, so that the intercepting frame can be lifted through the two lifting blocks, the fixing base drives the connecting block to move upwards through the rotating block, the connecting block and the inserting rod can move upwards and are separated from the connecting rod II, the round block can move out of the first limit rail and the second limit rail through an open slot in the top of the first limit rail, the intercepting frame can be cleaned after moving to the top in the well body, and does not need to enter the well body to be cleaned, after cleaning is finished, the driving rod rotates reversely through the first speed reduction motor, the intercepting frame is lowered, the inserting rod and the connecting block are re-inserted into the adjacent connecting rod II, the round block penetrates through the open slot to move to a position between the first limit rail and the second limit rail, then the lifting block continues to move downwards, the lifting block is separated from the clamping block, and the lifting block is prevented from affecting rotation of the intercepting frame.

Further, the method comprises the following steps: the utility model discloses a winding wire, including the winding wire, fixed block, guide wire bottom, guide wire and the reel of winding wire, the winding wire side is convoluteed there is the guide wire, fixed block side fixedly connected with side piece, the guide wire bottom is passed fixed box bottom and well body top and is extended to well internal portion, and the guide wire bottom passes side piece and fixed block inside in proper order, guide wire bottom and adjacent piece bottom surface fixed connection of mentioning, when the winding wire rotates the roll-up connecting wire and makes and mention the piece rebound, the winding wire will be emitted to the winding wire, and when the connecting wire was emitted to the winding wire, the winding wire will roll up the guide wire, and the moving direction of piece can be lifted to the restriction of guide wire, is favorable to improving and mentions the stability that the piece removed, guarantees that the inserted bar injects smoothly in connecting rod two.

Further, the method comprises the following steps: bottom surface fixedly connected with and the fixed frame of adjacent baffle bottom surface contact in the interception frame, and fixed frame side and limiting plate side contact, fixed frame can block the baffle bottom, and rotates downwards at the baffle, when no longer blocking the interception frame inside, and impurity accumulation in the baffle bottom can be avoided to fixed frame to avoid the baffle to close the back, partial impurity is located the outside condition of interception frame.

The invention has the beneficial effects that:

1. the four baffles are arranged on the inner side face of the intercepting frame, the intercepting frame close to the conveying pipe can intercept impurities with large volume in sewage conveyed by the conveying pipe, when the impurities in the intercepting frame are accumulated more, the four filtering modules can be rotated through the adjusting module, the intercepting frame close to the conveying pipe can be moved to the top of the adjusting module, the intercepting frame at the bottom of the intercepting frame can be moved to the position of the conveying pipe, after the original intercepting frame is separated from the stop rod, the baffles can be rotated under the action of the second torsion spring to block the opening of the intercepting frame, so that the impurities are prevented from falling out of the intercepting frame, a new intercepting frame can be replaced quickly, the number of solid impurities with large volume entering the well body when the intercepting frame is replaced is favorably reduced, the blocking of a sewage discharge pipe is not easily caused after long-time use, and when the rainwater amount is large, the intercepting frame can be replaced quickly, the impurities in the intercepting frame are prevented from influencing the rainwater to enter the well body, and meanwhile, the personnel are prevented from cleaning the intercepting frame in rainy days;

2. the open slot is formed in the top surface of the limit rail, when the round block moves to the open slot position of the limit rail, the connecting wire is wound by the winding rod, the lifting block is in contact with the clamping block, the intercepting frame is lifted by the lifting block without entering the interior of the well body to be cleaned, and after the cleaning is completed, the lifting block can be lifted and the intercepting frame can be lowered, the position of the lifting block can be kept through a guide wire at this time, the inserting rod can be smoothly inserted into the connecting rod II, and the intercepting frame can be rapidly installed.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of an intelligent intercepting well for deslagging and filtering with controllable sewage amount according to the invention;

FIG. 2 is a schematic diagram of a front view of the interior of the well body in accordance with the present invention;

FIG. 3 is a schematic diagram of a front view of a filter module according to the present invention;

FIG. 4 is a schematic diagram of a conditioning module of the present invention;

FIG. 5 is a front view of the rotating rod of the present invention;

FIG. 6 is a front view of the connection mechanism of the present invention;

FIG. 7 is a schematic view of an internal side view of the connecting rod of the present invention;

FIG. 8 is a front view of the fixing plate of the present invention;

FIG. 9 is a schematic view of the interior of the lifting mechanism of the present invention in elevation;

FIG. 10 is a schematic view of a filtration module according to the present invention;

FIG. 11 is a schematic view of the internal side view of the intercepting frame in the present invention;

fig. 12 is a side view of the baffle of the present invention.

In the figure: 100. a well body; 110. a delivery pipe; 120. a drain pipe; 130. a drain gate; 140. a blow-off pipe; 150. a sewage interception gate; 160. a lifting mechanism; 161. a fixing box; 162. a first speed reducing motor; 163. a connecting wire; 164. lifting the block; 165. a guide wire; 166. a wire winding rod; 167. a drive rod; 170. a stop lever; 200. an adjustment module; 210. a support bar; 211. a fixed block; 212. a side block; 220. rotating the rod; 230. a connecting mechanism; 231. a first connecting rod; 232. a second connecting rod; 233. connecting blocks; 234. a round block; 235. a rod is inserted; 236. a limiting block; 240. a fixing plate; 241. a first limit rail; 242. a second limit rail; 243. a third limit rail; 250. a power cartridge; 251. a transmission rod; 252. a second speed reducing motor; 300. a filtration module; 310. an interception frame; 311. a clamping block; 320. a fixed seat; 321. rotating the block; 322. a first torsion spring; 330. a baffle plate; 331. positioning a rod; 332. a second torsion spring; 340. pulling a wire; 350. a fixing frame; 360. and a limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, an intelligent intercepting well for slag removal and filtration capable of controlling sewage amount comprises a well body 100, a conveying pipe 110, a drainage pipe 120 and a drainage pipe 140 are communicated with the bottom of the side surface of the well body 100, a drainage gate 130 is arranged on the inner side surface of the well body 100 corresponding to the drainage pipe 120, a sewage interception gate 150 is arranged on the inner side surface of the well body 100 corresponding to the drainage pipe 140, an adjusting module 200 is fixedly connected to the inner bottom surface of the well body 100, four filtering modules 300 are fixedly connected to the adjusting module 200 in an annular equidistant manner, each filtering module 300 comprises an intercepting frame 310, the side surface of the intercepting frame 310 located on one side of the conveying pipe 110 is in contact with the inner side surface of the well body 100, two fixing seats 320 rotatably connected to the adjusting module 200 are fixedly connected to the side surface of the intercepting frame 310, four baffles 330 are equidistantly arranged on the inner side surface of the intercepting frame 310, positioning rods 331 fixedly connected to the inner side surface of the intercepting frame 310 are rotatably connected to the inner side surface of the baffles 330, a second torsion spring 332 is arranged between the side surface of the positioning rod 331 and the inner side surface of the baffle 330, the inner side surface of the well body 100 corresponding to the conveying pipe 110 is fixedly connected with a stop rod 170 contacting with the side surface of the adjacent intercepting frame 310, the bottom surface of the baffle 330 positioned at the bottom is fixedly connected with a limit plate 360 contacting with the stop rod 170, and the side surfaces of the adjacent two baffles 330 are fixedly connected with two pull wires 340, sewage is conveyed to the interior of the well body 100 through the conveying pipe 110, the intercepting gate 150 is opened, the drainage gate 130 is closed, then the sewage passes through the intercepting frame 310 adjacent to the conveying pipe 110 to enter the well body 100, finally the sewage flows out of the sewage discharge pipe 140, the maximum sewage discharge amount of the sewage discharge pipe 140 can be controlled by controlling the opening degree of the intercepting gate 150, when rainwater is more in rainy season, and the rainwater amount in the well body 100 exceeds a set value, the intercepting gate 150 is closed, the drainage gate 130 is opened, at this time, rainwater entering the well body 100 from the conveying pipe 110 can be discharged from the drain pipe 120, the intercepting frame 310 close to the conveying pipe 110 can intercept rainwater and impurities with large volume in sewage conveyed by the conveying pipe 110, when impurities accumulate in the intercepting frame 310, the four filtering modules 300 can be rotated by the adjusting module 200, the intercepting frame 310 which is subjected to filtering and intercepting last time can be moved to the top of the adjusting module 200, the intercepting frame 310 which is positioned at the bottom next time can be moved to the position of the conveying pipe 110, after the limiting plate 360 in the intercepting frame 310 which is positioned at the last time is separated from the stop lever 170, the stop plate 330 can be rotated under the action of the second torsion spring 332 to block the opening of the intercepting frame 310 to prevent impurities from falling out of the intercepting frame 310, the limiting plate 360 in the intercepting frame 310 next time can be in contact with the bottom end of the stop lever 170, the intercepting frame 310 continues to move upwards, and the stop lever 170 can enable the limiting plate 360 to rotate downwards, therefore, the baffles 330 at the bottom can rotate downwards, and because two adjacent baffles 330 are connected by two pull wires 340, the baffles 330 at the bottom can pull the baffles 330 at the top to rotate downwards by the pull wires 340, so that a plurality of baffles 330 can rotate downwards, the baffles 330 can not block the interior of the intercepting frame 310 any more, at this time, rain and sewage conveyed by the conveying pipe 110 can enter the intercepting frame 310 to intercept and filter impurities by the next intercepting frame 310, and thus, the intercepting frame 310 for filtering can be changed quickly, which is beneficial to reducing the amount of solid impurities with larger volume entering the interior of the well body 100 when the intercepting frame 310 is changed, the sewage pipe 140 is not easy to be blocked after long-time use, and when the amount of rain water is large, the intercepting frame 310 can be changed quickly, so that the impurities in the intercepting frame 310 are prevented from influencing the rain water entering the well body 100, and the rest intercepting frames 310 can be used as backup, people are prevented from cleaning the intercepting frame 310 in rainy days.

The adjusting module 200 comprises two supporting rods 210, the bottom ends of the supporting rods 210 are fixedly connected with the inner bottom surface of the well body 100, the inner side surfaces of the supporting rods 210 are fixedly connected with fixing blocks 211, opposite surfaces of the two fixing blocks 211 are rotatably connected with rotating rods 220, two sides of each rotating rod 220 correspond to four connecting mechanisms 230 which are fixedly connected with four filter modules 300 in an annular equidistant mode, the connecting mechanisms 230 are rotatably connected with adjacent fixing seats 320, a power box 250 is fixedly connected to the top of the side surface of one supporting rod 210, a second speed reducing motor 252 is arranged inside the power box 250, the output end of the second speed reducing motor 252 is in transmission connection with a transmission rod 251 which is rotatably connected with the inner side surface of the adjacent fixing block 211, the side surface of the transmission rod 251 is rotatably connected with the inner side surface of the power box 250, one end of the transmission rod 251 is in transmission connection with one end of the rotating rod 220, the second speed reducing motor 252 can drive the transmission rod 251 to rotate, the transmission rod 251 can drive the rotating rod 220 to rotate, and the rotating rod 220 can drive the intercepting frame 310 to move through the connecting mechanisms 230.

Connecting mechanism 230 includes connecting rod one 231, connecting rod one 231 one end and dwang 220 side fixed connection, connecting rod one 231 medial surface sliding connection has connecting rod two 232, the one end medial surface that connecting rod two 232 deviates from connecting rod one 231 is provided with connecting block 233, the connecting block 233 side rotates with the fixing base 320 side to be connected, and the fixing base 320 side contacts with connecting rod two 232 side, dwang 220 can drive connecting rod one 231 and connecting rod two 232 rotation, connecting rod two 232 can drive connecting block 233 and rotate, connecting block 233 can drive interception frame 310 and remove.

The side face of the connecting block 233 is fixedly connected with an inserting rod 235 in sliding insertion connection with the inner side face of one end of the second connecting rod 232, the side face of the connecting block 233, which is far away from the fixing seat 320, is fixedly connected with a round block 234, the side face of the fixing block 211 is fixedly connected with a first limit rail 241 and a second limit rail 242, the side face of the first limit rail 241 and the side face of the second limit rail 242 are both in contact with the side face of the adjacent round block 234, the top face of the first limit rail 241 is provided with an open slot, the side face of the fixing block 240 is positioned inside the second limit rail 242 and is fixedly connected with a third limit rail 243, the side face of the second connecting rod 232, which is far away from the first connecting rod 231, is fixedly connected with a limit block 236, the inner side face of the second limit rail 242 and the side face of the third limit rail 243 are both in contact with the side face of the adjacent limit 236, the round block 234 can move between the first limit rail 241 and the second limit rail 242, so that the filtering module 300 can move along the first limit rail 241, and the position of the round block 241 can be limited by the first limit 234, thereby preventing the connecting block 233 from moving out of the second connecting rod 232, and preventing the inserting rod 235 from separating from the connecting rod 232.

The inner side surface of the fixed seat 320 is rotatably connected with a rotating block 321 fixedly connected with the side surface of the connecting block 233, a first torsion spring 322 is arranged between the inner side surface of the fixed seat 320 and the rotating block 321, under the action of the first torsion spring 322, the angle of the intercepting frame 310 of the fixed seat 320 can be kept, so that the intercepting frame 310 is kept inclined, when the intercepting frame 310 at the bottom moves towards the conveying pipe 110, when the round block 234 moves along the horizontal plane of the first limit rail 241, the opening side of the intercepting frame 310 gradually moves towards the side wall of the well body 100, and because the intercepting frame 310 is inclined relative to the second connecting rod 232, after the top of the intercepting frame 310 is contacted with the side wall of the well body 100, the intercepting frame 310 is extruded by the side wall of the well body 100, so that the opening side of the intercepting frame 310 is contacted with the side wall of the well body 100, and then the intercepting frame 310 moves upwards to the position of the conveying pipe 110, so that the opening side of the intercepting frame 310 is smoothly corresponding to the conveying pipe 110.

The lifting mechanism 160 is arranged on the top surface of the well body 100, the lifting mechanism 160 comprises a fixed box 161, the bottom surface of the fixed box 161 is fixedly connected with the top surface of the well body 100, a first speed reducing motor 162 is arranged on the inner side surface of the fixed box 161, the output end of the first speed reducing motor 162 is in transmission connection with a driving rod 167 in rotation connection with the inner side surface of the fixed box 161, both sides of the inner side surface of the fixed box 161 are in rotation connection with winding rods 166, two first bevel gears are fixedly sleeved on the side surfaces of the driving rod 167 corresponding to the two winding rods 166, a second bevel gear in meshing transmission with the adjacent first bevel gear is fixedly sleeved on the side surface of the winding rod 166, two connecting lines 163 are wound on the side surfaces of the winding rod 166, the bottom ends of the connecting lines 163 penetrate through the bottom of the fixed box 161 and the top of the well body 100 to extend into the well body 100, lifting blocks 164 are fixedly connected at the bottom ends of the two connecting lines 163 on the same winding rod 166, and two side surfaces of the intercepting frame 310 are fixedly connected with two clamping blocks 311, and the side surface of the lifting block 164 contacts with the side surfaces of two adjacent fixture blocks 311, the first gear motor 162 can drive the driving rod 167 to rotate, the driving rod 167 can drive the wire winding rod 166 to rotate through the first bevel gear and the second bevel gear, so that the wire winding rod 166 winds up the connecting wire 163, the connecting wire 163 can pull the lifting block 164 to move upwards, the lifting block 164 can contact with two fixture blocks 311 positioned on one side of the top intercepting frame 310, at this time, the lifting block 164 can drive the intercepting frame 310 to move upwards through the fixture blocks 311, one lifting block 164 can lift one side of the intercepting frame 310, so that the intercepting frame 310 can be lifted through the two lifting blocks 164, the fixed seat 320 drives the connecting block 233 to move upwards through the rotating block 321, so that the connecting block 233 and the inserting rod 235 can move upwards to be separated from the connecting rod two 232, and the round block 234 can move out of the first limit rail 241 and the second limit rail 242 through the open groove on the top of the first limit rail 241, after the intercepting frame 310 moves to the top of the well body 100, the intercepting frame 310 can be cleaned without entering the well body 100 for cleaning, and the intercepting frame is convenient to use, after cleaning is finished, the driving rod 167 rotates reversely through the first speed reducing motor 162, the intercepting frame 310 is lowered, the inserting rod 235 and the connecting block 233 are inserted into the adjacent connecting rod two 232 again, the round block 234 penetrates through the open slot to move to a position between the first limit rail 241 and the second limit rail 242, then the lifting block 164 continues to move downwards, the lifting block 164 is separated from the clamping block 311, and the influence of the lifting block 164 on the rotation of the intercepting frame 310 is avoided.

The guide wire 165 is wound on the side surface of the winding rod 166, the side surface of the fixed block 211 is fixedly connected with the side block 212, the bottom end of the guide wire 165 penetrates through the bottom of the fixed box 161 and the top of the well body 100 and extends into the well body 100, the bottom end of the guide wire 165 sequentially penetrates through the side block 212 and the fixed block 211, the bottom end of the guide wire 165 is fixedly connected with the bottom surface of the adjacent lifting block 164, when the winding rod 166 rotates the winding connecting wire 163 to enable the lifting block 164 to move upwards, the winding rod 166 will emit the guide wire 165, when the winding rod 166 emits the connecting wire 163, the winding rod 166 will wind the guide wire 165, the guide wire 165 can limit the moving direction of the lifting block 164, the moving stability of the lifting block 164 is improved, and the insertion rod 235 is ensured to be smoothly inserted into the second connecting rod 232.

The bottom surface fixedly connected with in the interception frame 310 is with the fixed frame 350 of adjacent baffle 330 bottom surface contact, and the fixed frame 350 side contacts with the side of limiting plate 360, and fixed frame 350 can block the baffle 330 bottom, and rotates downwards at baffle 330, when no longer blocking the interception frame 310 inside, and fixed frame 350 can avoid impurity accumulation in the baffle 330 bottom to avoid the baffle 330 to close the back, the condition that partial impurity is located the interception frame 310 outside.

The working principle is as follows: when the rainwater drainage device is used, sewage is conveyed into the well body 100 through the conveying pipe 110, the sewage interception gate 150 is opened, the drainage gate 130 is closed, the sewage penetrates through the interception frame 310 adjacent to the conveying pipe 110, then falls into the well body 100 and finally flows out of the sewage discharge pipe 140, the maximum sewage discharge amount of the sewage discharge pipe 140 is controlled by controlling the opening degree of the sewage interception gate 150, when rainwater is more in rainy seasons and the rainwater amount in the well body 100 exceeds a set value, the sewage interception gate 150 is closed, the drainage gate 130 is opened, and then the rainwater entering the well body 100 from the conveying pipe 110 can be directly discharged from the drainage pipe 120;

when the rain and sewage interception frame 310 intercepting the rain and sewage delivered by the delivery pipe 110 contains more impurities, the second gear motor 252 can be started, the second gear motor 252 can drive the transmission rod 251 to rotate, the transmission rod 251 can drive the rotation rod 220 to rotate, the rotation rod 220 can drive the first connection rod 231 and the second connection rod 232 to rotate, the second connection rod 232 can drive the fixed seat 320 and the rotation block 321 to rotate through the insertion rod 235 and the connection block 233, and the second connection rod 232 can drive the round block 234 to move between the first limit rail 241 and the second limit rail 242, so that the filter module 300 moves along the first limit rail 241, the previous interception frame 310 intercepting the impurities moves upwards and then moves to the top of the rotation rod 220, after the limit plate 360 in the previous interception frame 310 is separated from the stop rod 170, the baffle 330 can rotate upwards under the action of the second torsion spring 332, so that the baffle 330 intercepts the inside of the frame 310 to prevent the impurities from falling out of the interception frame 310, when the rotating rod 220 drives the filtering module 300 to rotate, the next intercepting frame 310 originally located at the bottom of the rotating rod 220 can be made to translate first, so that the open side of the next intercepting frame 310 is made to abut against the inner wall of the well 100, then the next intercepting frame 310 is made to move upwards, so that the next intercepting frame 310 is made to move to the position of the conveying pipe 110, when the next intercepting frame 310 moves upwards, the limiting plate 360 in the next intercepting frame 310 will be in contact with the bottom end of the blocking rod 170, the limiting plate 360 continues to move, so that the limiting plate 360 can drive the baffle 330 at the bottom to rotate downwards, the baffle 330 at the bottom can pull the baffle 330 at the top to rotate downwards through the pull wires 340, so that the baffles 330 all rotate downwards, so that the baffle 330 no longer blocks the inside of the intercepting frame 310, at this time, rain and sewage conveyed by the conveying pipe 110 can enter the intercepting frame 310, so that the rain and sewage conveyed by the conveying pipe 110 are intercepted by the next intercepting frame 310, impurities in the wastewater;

when the intercepting frame 310 needs to be cleaned, the first gear motor 162 is started, the first gear motor 162 can drive the driving rod 167 to rotate, the driving rod 167 can drive the winding rod 166 to rotate through the first bevel gear and the second bevel gear, so that the winding rod 166 winds the connecting line 163 and discharges the guide line 165, the connecting line 163 can pull the lifting block 164 to move upwards, the lifting block 164 is moved to the position of the intercepting frame 310 at the top, so that the lifting block 164 is contacted with the two clamping blocks 311 on one side of the intercepting frame 310, at this time, the lifting block 164 can drive the intercepting frame 310 to move upwards through the clamping blocks 311, so that the intercepting frame 310 is lifted through the two lifting blocks 164, when the intercepting frame 310 moves upwards, the fixing seat 320 can be driven to move, the fixing seat 320 can drive the connecting block 233 to move upwards through the rotating block 321, so that the inserting rod 235 moves upwards to be separated from the second connecting rod 232, the round block 234 can pass through the open slot at the top of the first limit rail 241 to move out of the first limit rail 241 and the second limit rail 242, after the intercepting frame 310 moves to the top in the well body 100, the cover plate at the top of the well body 100 can be opened, then the intercepting frame 310 is taken out of the well body 100 to be cleaned, after the cleaning is finished, the fixture block 311 on the intercepting frame 310 is reinserted on the lifting block 164, then the driving rod 167 is reversely rotated through the first reducing motor 162, so that the wire winding rod 166 reversely rotates, the wire winding rod 166 emits the connecting wire 163, the guide wire 165 is wound up, the lifting block 164 and the intercepting frame 310 are lowered, the inserting rod 235 and the connecting block 233 are reinserted into the adjacent connecting rod two 232, the round block 234 passes through the open slot to move to the position between the first limit rail 241 and the second limit rail 242, then the lifting block 164 continues to move downwards, the lifting block 164 is separated from the fixture block 311, and then the next filter module 300 can move to the top of the adjusting module 200 through the adjusting module 200, the lifting mechanism 160 then continues to move the blocker frame 310 upward to continue cleaning.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only, and it will be appreciated by those skilled in the art that various modifications, additions and substitutions can be made to the embodiments described without departing from the scope of the invention as defined in the appended claims.

Claims (8)

1. The utility model provides a slagging-off of controllable sewage volume filters intelligent vatch basin, includes the well body (100), well body (100) side bottom intercommunication has conveyer pipe (110), drain pipe (120) and blow off pipe (140), well body (100) medial surface corresponds drain pipe (120) and is provided with discharge gate (130), and well body (100) medial surface corresponds blow off pipe (140) and is provided with cuts dirty gate (150), its characterized in that, bottom surface fixedly connected with adjusting module (200) in the well body (100), adjusting module (200) annular equidistance fixedly connected with four filtration module (300), filtration module (300) include interception frame (310), be located interception frame (310) side and well body (100) medial surface contact of conveyer pipe (110) one side, interception frame (310) deviates from two fixing bases (320) that side fixedly connected with and adjusting module (200) rotation of opening one side are connected, interception frame (310) medial surface equidistance is provided with four baffles (330), baffle (330) medial surface rotation is connected with and intercepts frame (310) medial surface fixed connection's locating lever (331), be provided with torsion spring two (332) between locating lever (331) side and baffle (330) medial surface, well body (100) medial surface correspond the pin fixedly connected with and adjacent interception frame (310) side contact of medial surface fixedly connected with of conveyer pipe (110) (hold up the pole (a) ((the) of adjacent interception frame (310) side contact 170 The bottom surface of the baffle (330) at the bottom is fixedly connected with a limiting plate (360) contacted with the stop lever (170), and the side surfaces of two adjacent baffles (330) are fixedly connected with two pull wires (340).

2. The intelligent vatch basin of removing slag and filtering of controllable sewage volume of claim 1, characterized in that, adjusting module (200) includes two bracing pieces (210), bracing piece (210) bottom and well body (100) interior bottom surface fixed connection, bracing piece (210) medial surface fixedly connected with fixed block (211), two fixed block (211) opposite face rotates and is connected with dwang (220), dwang (220) both sides correspond four equal annular equidistance fixedly connected with four coupling mechanism (230) of filter module (300), and coupling mechanism (230) rotate with adjacent fixing base (320) and be connected, a bracing piece (210) side top fixed connection has power box (250), inside gear motor two (252) that is provided with of power box (250), gear motor two (252) output end transmission is connected with the transfer line (251) that rotates and is connected with adjacent fixed block (211) medial surface, transfer line (251) side rotates with power box (250) medial surface and is connected, and transfer line (251) one end is connected with dwang (220) one end transmission.

3. The intelligent catch basin of filtering of slagging-off of controllable sewage volume of claim 2, characterized in that, coupling mechanism (230) includes connecting rod one (231), connecting rod one (231) one end and dwang (220) side fixed connection, connecting rod two (232) of connecting rod one (231) medial surface sliding connection, connecting rod two (232) one end medial surface that deviates from connecting rod one (231) is provided with connecting block (233), connecting block (233) side is connected with fixing base (320) side rotation, and fixing base (320) side and connecting rod two (232) side contact.

4. The intelligent intercepting well capable of controlling sewage amount and removing slag and filtering according to claim 3, wherein an insertion rod (235) which is slidably inserted into the inner side surface of one end of the second connecting rod (232) is fixedly connected to the side surface of the connecting block (233), a round block (234) is fixedly connected to the side surface of the connecting block (233) which is far away from the fixed seat (320), fixing plates (240) are fixedly connected to the side surface of the fixed block (211), a first limiting rail (241) and a second limiting rail (242) are fixedly connected to opposite surfaces of the two fixing plates (240), the second limiting rail (242) is located inside the first limiting rail (241), the inner side surface of the first limiting rail (241) and the side surface of the second limiting rail (242) are in side contact with the adjacent round block (234), an open slot is formed in the top surface of the first limiting rail (241), a third limiting rail (243) is fixedly connected to the side surface of the fixing plate (240) which is located inside the second limiting rail (242), a limiting block (236) is fixedly connected to the side surface of the second connecting rod (232) which is far away from the first connecting rod (231), and a limiting block (236) is fixedly connected to the inner side surface of the second limiting rail (242), and a limiting block (242) and a limiting block (236) and the side surface of the inner side surface of the third limiting rail (242) is in contact with the adjacent limiting block (236).

5. The intelligent intercepting well capable of controlling the amount of sewage and removing slag and filtering according to claim 3, wherein a rotating block (321) fixedly connected with the side surface of the connecting block (233) is rotatably connected to the inner side surface of the fixing seat (320), and a first torsion spring (322) is arranged between the inner side surface of the fixing seat (320) and the rotating block (321).

6. The intelligent sewage amount controllable intercepting well for deslagging and filtering according to claim 2, wherein a lifting mechanism (160) is arranged on the top surface of the well body (100), the lifting mechanism (160) comprises a fixed box (161), the bottom surface of the fixed box (161) is fixedly connected with the top surface of the well body (100), a first speed reduction motor (162) is arranged on the inner side surface of the fixed box (161), an output end of the first speed reduction motor (162) is in transmission connection with a driving rod (167) in rotating connection with the inner side surface of the fixed box (161), two sides of the inner side surface of the fixed box (161) are both in rotating connection with a 167 rod (166), two first bevel gears are fixedly connected to the sides of the driving rod (166) corresponding to the two winding rods (166), a second bevel gear in meshing transmission with the adjacent first bevel gear is fixedly connected to the sides of the winding rods (166), two connecting wires (163) are wound on the sides of the winding rods (166), the bottom ends of the connecting wires (163) penetrate through the bottom of the fixed box (161) and extend to the inside of the well body (100), two fixed lifting blocks (164) are fixedly connected with the bottom ends of the well body (164), and two clamping blocks (311) are connected to the two side surfaces of the lifting block blocks (311).

7. The intelligent intercepting well capable of controlling the amount of sewage and removing slag and filtering according to claim 6, wherein a guide line (165) is wound on the side surface of the wire winding rod (166), a side block (212) is fixedly connected to the side surface of the fixing block (211), the bottom end of the guide line (165) penetrates through the bottom of the fixing box (161) and the top of the well body (100) and extends into the well body (100), the bottom end of the guide line (165) penetrates through the side block (212) and the inside of the fixing block (211) in sequence, and the bottom end of the guide line (165) is fixedly connected with the bottom surface of the adjacent lifting block (164).

8. The intelligent intercepting well for deslagging and filtering with controllable sewage amount according to claim 1, wherein a fixing frame (350) contacting with the bottom surface of the adjacent baffle (330) is fixedly connected to the inner bottom surface of the intercepting frame (310), and the side surface of the fixing frame (350) contacts with the side surface of the limiting plate (360).

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