CN116328408A

CN116328408A - Automatic slag removal integrated pump station device

Info

Publication number: CN116328408A
Application number: CN202310560578.1A
Authority: CN
Inventors: 李文姣; 李荣祥; 康丽; 易浩宇; 贺宏扬
Original assignee: Hunan Yijing Environmental Protection Technology Co ltd
Current assignee: Hunan Yijing Environmental Protection Technology Co ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-06-27
Anticipated expiration: 2043-05-18
Also published as: CN116328408B

Abstract

The invention discloses an automatic slag removal integrated pump station device which comprises a barrel, wherein one side of the barrel is connected with a water inlet pipe, one end, close to the inner side of the barrel, of the water inlet pipe is provided with a slag removal assembly, the slag removal assembly comprises a built-in box, the built-in box is connected to the inner wall of the barrel, and an upper filter box and a lower filter box which are connected with each other are arranged in the built-in box in a sliding manner. The invention is provided with the upper filter box and the lower filter box, so that the water inlet position is conveniently and effectively filtered all the time in the deslagging process, meanwhile, the filter screen assemblies arranged on the upper filter box and the lower filter box form a filter screen by virtue of the two groups of mutually-crossed thin rod pieces for filtering, the two groups of mutually-crossed thin rod pieces can be linked and relatively separated in the process of separating from the filtering position, the conveniently-formed filter screen is conveniently separated, residues clamped in meshes are conveniently separated, and meanwhile, each thin rod piece conveniently smoothes down filiform windings in the sliding separation process, so that full and effective deslagging is realized.

Description

Automatic slag removal integrated pump station device

Technical Field

The invention relates to the technical field of integrated pump stations, in particular to an automatic slag removal integrated pump station device.

Background

The pump station is a device capable of providing hydraulic power and pneumatic power with certain pressure and flow, and is a pump and pump station engineering; a grid or a filter screen component is arranged at a water inlet of a general pump station and is used for intercepting large residue suspended matters in sewage, so that the large residue suspended matters are prevented from entering a pump body to cause damage to the pump body;

the existing integrated prefabricated pump station with the automatic slag removal function has an authorized bulletin number of CN112282034B, and the existing automatic slag removal integrated intelligent prefabricated pump station comprises a water inlet device, a pump body, a support plate and a water inlet tank; the box body is fixed at both ends of the bottom of the water inlet tank, the inner wall of the box body is fixedly provided with a hydraulic cylinder, the output end of the hydraulic cylinder is inserted into the inner wall of the T-shaped plate through the water inlet tank, the top of the right end of the T-shaped plate is fixedly provided with a supporting column, the top of the supporting column is fixedly provided with a second box body, the second inner wall of the box body is fixedly provided with a second servo motor, the output end of the second servo motor is inserted into the inner wall of a rotating shaft, the rotating shaft is inserted into the inner wall of the rotating clamping plate and the inner wall of the T-shaped plate, the top end of the T-shaped plate is inserted into the inner wall of the rotating clamping plate, the rotating clamping plate is fixedly provided with the outer wall of the right end of the filtering box, and the defects of the existence of the filtering box are that: the existing automatic slag discharging integrated intelligent prefabricated pump station comprises a filtering box, wherein filtering materials are poured by rotating vibration of the filtering box when the water inlet device is used for discharging slag, the filtering materials clamped in holes cannot be discharged fully by the mode, particularly, after certain filiform materials are wound at corresponding positions, the filtering materials cannot be cleaned by the mode of vibration flushing and the like, and the filtering materials are time-consuming and labor-consuming to clean manually and have low efficiency.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide an automatic slag removal integrated pump station device.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides an automatic scarfing cinder integration pump station device, includes the barrel, the interior bottom one side of barrel is provided with the water pump, one side that the water pump was kept away from to the barrel is connected with the inlet tube, the one end that the inlet tube is close to the barrel inboard is provided with scarfing cinder subassembly, scarfing cinder subassembly includes built-in case, built-in case connects barrel inner wall department, built-in case keep away from one side of inlet tube be connected with the transition pipe of the horizontal alignment of inlet tube, built-in case's inside slip is provided with interconnect's upper filter box and lower filter box, the top of barrel is connected with first electric telescopic handle, the flexible end of first electric telescopic handle is connected with the linkage slide bar, the end and the upper filter box of linkage slide bar are connected; the inner tops of the upper filter box and the lower filter box are respectively connected with a water pressure induction switch electrically connected with the first electric telescopic rod; the filter comprises an upper filter box, a lower filter box, a built-in box, a barrel, a through discharge port, a recovery box and a water inlet pipe, wherein the filter screen assemblies are arranged on the sides of the upper filter box and the lower filter box, the through discharge port is formed in the upper and lower positions of the built-in box and the barrel, which are close to one side of the water inlet pipe, respectively, and the recovery box communicated with the discharge port is connected to the outside of the barrel.

As a further scheme of the invention: each filter screen assembly comprises two groups of combined rod pieces, each group of combined rod pieces comprises an L-shaped connecting frame, the L-shaped connecting frames are distributed outside the upper filter box and the lower filter box in pairs, each L-shaped connecting frame is obliquely connected with a plurality of thin rod pieces, the thin rod pieces on the two L-shaped connecting frames in pairs are mutually intersected, and a first spring is connected between each of the upper filter box and the lower filter box and the corresponding L-shaped connecting frame; the upper filter box is characterized in that the two sides of the upper filter box are respectively provided with an upper linkage assembly which is connected with the corresponding L-shaped connecting frame in a matched manner, and the two sides of the lower filter box are respectively provided with a lower linkage assembly which is connected with the corresponding L-shaped connecting frame in a matched manner.

As a further scheme of the invention: the upper linkage assembly and the lower linkage assembly comprise connecting sleeves, the connecting sleeves are distributed outside the upper filter box and the lower filter box in pairs, lifting slide rods vertically and slidably penetrate through each connecting sleeve, and a second spring is connected between each lifting slide rod and the corresponding connecting sleeve; every bottom one side of adapter sleeve is connected with first fixed pulley, every all cooperate the slip to be provided with the linkage steel wire on the first fixed pulley, the one end of linkage steel wire is connected on corresponding L type link, and the other end is connected on corresponding on the lift slide bar, go up the linkage subassembly still includes the second fixed pulley, the second fixed pulley aligns the setting in corresponding first fixed pulley top, and is connected with the adapter sleeve that corresponds, simultaneously the second fixed pulley is connected with the cooperation of corresponding linkage steel wire.

As a further scheme of the invention: and a plurality of rubber balls are connected to the inner walls of the upper filter box and the lower filter box at equal intervals, and each thin rod piece slides through the corresponding rubber ball.

As a further scheme of the invention: the bottom of going up filter cartridge and lower filter cartridge all is provided with oblique baffle, upward be provided with movable dog on the oblique baffle of filter cartridge, movable dog passes through rebound hinge swing joint on corresponding oblique baffle, the inlet tube be close to the port department vertical of built-in case be connected with the vertical guide arm that movable dog aligns.

As a further scheme of the invention: the inlet tube runs through the collection box, the inside fixedly connected with of collection box is in the V type baffle of inlet tube upside, the upper surface layer lateral wall of V type baffle is smooth lateral wall.

As a further scheme of the invention: the utility model provides a flushing mechanism is provided with on the built-in case, flushing mechanism includes the piston tube, the piston tube is provided with two, two the piston tube is connected respectively the upper and lower both sides of built-in case, two all slide in the piston tube and be provided with first piston block, first piston block with the linkage slide bar is connected, be connected with the second electric telescopic handle on the first piston block, the flexible end of second electric telescopic handle be connected with the second piston block that first piston block is laminated each other, the top of barrel is connected with two pressure-sensitive switches, the top of linkage slide bar is the end of buckling, two pressure-sensitive switches distributes respectively the upper and lower side of the end of linkage slide bar, pressure-sensitive switches is connected with corresponding second electric telescopic handle electricity, the piston tube is close to tip one side of inlet tube and is connected with the water absorption tubule, the tip connection that the piston tube is close to the inlet tube has the second check valve, the second check valve is connected with the second check valve, the upper and lower side of the main pipe is connected with the diversion pipe is all in coordination.

As a further scheme of the invention: the shunt spray pipes are provided with a plurality of shunt spray pipes, one end of each shunt spray pipe penetrates through the side wall of the built-in box, and the other end of each shunt spray pipe is connected with the corresponding main pipe body.

The invention has the beneficial effects that:

the invention is provided with the upper filter box and the lower filter box, so that the water inlet position is kept to be always and effectively filtered in the deslagging process, meanwhile, the filter screen assembly arranged by the upper filter box and the lower filter box is used for filtering by virtue of the filter screen formed by two groups of mutually crossed thin rod pieces, the two groups of mutually crossed thin rod pieces can be linked and relatively separated in the process of separating from the filtering position, the filter screen formed by the method is conveniently separated, residues clamped in meshes are conveniently separated, and meanwhile, the filiform winding objects are conveniently stroked down in the sliding separation process of each thin rod piece, so that full and effective deslagging is realized;

according to the invention, the bottoms of the upper filter box and the lower filter box are respectively provided with the inclined guide plates, so that residues can be conveniently guided to slide down, and the end parts of the inclined guide plates of the upper filter box are also provided with the movable stop blocks, so that the upper filter box can be conveniently matched with the vertical guide rods in the lifting process, the tilting state is kept, the residues are prevented from sliding into the water inlet pipe, and when the upper filter box moves to the position of the discharge port, the upper filter box can rotate to the inclined position by virtue of gravity, so that the residues can be conveniently guided to slide down;

when the upper filter box or the lower filter box moves to the deslagging position, the corresponding piston cylinder can be triggered in a linkage way to absorb a certain amount of water, the water is sprayed out, the upper filter box or the lower filter box is washed, and the residue is promoted to flow out.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1 at A;

FIG. 3 is a schematic left-hand view of the mating connection of the pin member and the upper filter cartridge of the present invention;

FIG. 4 is a schematic top view of the position distribution of two paired L-shaped connectors according to the present invention;

FIG. 5 is a schematic left-hand view of the present invention showing the mating connection of the raised upper and lower filter cartridges with the built-in box;

FIG. 6 is an enlarged schematic view of the structure at B in FIG. 5;

FIG. 7 is a right side view of the mating connection of the V-shaped guide plate and the water inlet pipe in the present invention;

fig. 8 is an enlarged schematic view of the structure at C in fig. 1.

In the figure: 1. a cylinder; 2. a first electric telescopic rod; 3. a linkage slide bar; 4. a pressure-sensitive switch; 5. a water inlet pipe; 6. a water pump; 7. a recovery box; 8. a filter screen separator; 9. a movable door; 10. an upper filter box; 11. a screen assembly; 12. a split flow nozzle; 13. a transition pipe; 14. a built-in box; 15. a water pressure sensing switch; 16. an inclined guide plate; 17. a movable stop block; 18. a lower filter box; 19. a second electric telescopic rod; 20. a first piston block; 21. a second piston block; 22. a water absorption tubule; 23. a first one-way valve; 24. a second one-way valve; 25. rubber balls; 26. a thin rod member; 27. an L-shaped connecting frame; 28. a first spring; 29. connecting sleeves; 30. lifting the slide bar; 31. a second spring; 32. a second fixed pulley; 33. a linkage steel wire; 34. a V-shaped guide plate; 35. a vertical guide rod; 36. a water outlet pipe; 37. a piston cylinder; 38. a first fixed pulley; 39. a discharge port; 40. and a main pipe body.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-8, an automatic slag removal integrated pump station device comprises a barrel 1, wherein a water pump 6 is fixedly arranged at one side of the inner bottom of the barrel 1, a water outlet pipe 36 which is in matched connection with the water pump 6 is fixedly connected to the outer bottom of the barrel 1, and the water pump 6 is used for pumping water in the barrel 1 and then transmitting the water through the water outlet pipe 36; one side of the cylinder 1 far away from the water pump 6 is fixedly connected with a water inlet pipe 5, the water inlet pipe 5 is used for conveying sewage into the cylinder 1, one end of the water inlet pipe 5 close to the inner side of the cylinder 1 is provided with a slag removal component, the slag removal component comprises an inner box 14, the inner box 14 is fixedly connected to the inner wall of the cylinder 1, the water inlet pipe 5 is communicated with the inner side of the inner box 14, one side of the inner box 14 far away from the water inlet pipe 5 is fixedly connected with a transition pipe 13 transversely aligned with the water inlet pipe 5, the transition pipe 13 facilitates the water inlet pipe 5 to be discharged into the inner box 14 into the cylinder 1, an upper filter box 10 and a lower filter box 18 which are mutually connected are arranged in a sliding manner in the inner box 14, the upper filter box 10 and the lower filter box 18 are longitudinally distributed, the left end and the right end of the upper filter box 10 and the right end of the lower filter box 18 are respectively attached to the inner wall of the inner box 14, the upper filter box 10 and the lower filter box 18 are conveniently and stably slid up and down in the inner box 14, a first electric telescopic rod 2 is vertically fixedly connected to the outer side of the top of the cylinder 1, the telescopic end of the first electric telescopic rod 2 is fixedly connected with a sliding rod 3, and the tail end of the sliding rod 3 penetrates through the cylinder 1 and the upper filter box 10 and the lower filter box 18 in turn; the upper filter box 10 and the lower filter box 18 are both open on one side close to the water inlet pipe 5, the filter screen assembly 11 is arranged on the other side, the water pressure sensing switch 15 is arranged on the inner top of the upper filter box 10 and the inner top of the lower filter box 18, the water pressure sensing switch 15 in the upper filter box 10 is electrically connected with a shrinkage control circuit of the first electric telescopic rod 2, the water pressure sensing switch 15 in the lower filter box 18 is electrically connected with an elongation control circuit of the first electric telescopic rod 2, when a pump station is used for filtering water, the upper filter box 10 or the lower filter box 18 is butted between the water inlet pipe 5 and the transition pipe 13, sewage which is convenient to conduct is discharged into the cylinder 1 through the filter screen assembly 11, when the upper filter box 10 is positioned between the water inlet pipe 5 and the transition pipe 13, the first electric telescopic rod 2 is in a shrinkage state, when the lower filter box 18 is positioned between the water inlet pipe 5 and the transition pipe 13, the upper filter box 10 or the lower filter box 18 is positioned at a filtering position, too much sundries cause the water passing effect of the filter screen assembly 11 to be poor, so that the water pressure in the upper filter box 10 or the lower filter box 18 is greatly sensed, the water pressure in the corresponding to be larger than the corresponding water pressure in the upper filter box 10 or the lower filter box 18 is correspondingly stretched, when the upper filter box 10 is vertically stretched, the water pressure is correspondingly stretched in the upper filter box is stretched, and the water is inside the filter box is guaranteed to be stretched, and the water is normally when the water is stretched in the corresponding to the upper filter box is stretched, and the water is inside and the water is stretched, and the water is inside;

each filter screen assembly 11 comprises two groups of combined rods, each group of combined rods comprises an L-shaped connecting frame 27, the L-shaped connecting frames 27 are distributed outside the upper filter box 10 and the lower filter box 18 in pairs, namely, the two L-shaped connecting frames 27 are respectively arranged at two sides of the upper filter box 10, the two sides of the lower filter box 18 are also respectively provided with the L-shaped connecting frames 27, the two L-shaped connecting frames 27 in pairs are distributed in a staggered manner, a plurality of thin rods 26 are fixedly connected to the two L-shaped connecting frames 27 in an inclined manner, the thin rods 26 on the same L-shaped connecting frame 27 are parallel and are all in inclined positions, the thin rods 26 on the two L-shaped connecting frames 27 are mutually crossed to form a net body, the filtering is facilitated, a plurality of rubber balls 25 are fixedly connected to the inner walls of the upper filter box 10 and the lower filter box 18 in an equidistant manner, a first spring 28 is connected between the two sides of the upper filter box 10 and the lower filter box 18 and the corresponding L-shaped connecting frames 27, namely, the two sides of the bottom of the upper filter box 10 and the lower filter box 18 are connected with the first springs 28 at the corresponding ends of the first spring 28; the two sides of the upper filter box 10 are provided with upper linkage components which are matched and connected with the corresponding L-shaped connecting frames 27, and the two sides of the lower filter box 18 are provided with lower linkage components which are matched and connected with the corresponding L-shaped connecting frames 27;

the upper linkage assembly and the lower linkage assembly both comprise connecting sleeves 29, the connecting sleeves 29 are distributed outside the upper filter box 10 and the lower filter box 18 in pairs, namely, the connecting sleeves 29 of the upper linkage assembly are provided with two connecting sleeves 29 which are respectively and fixedly connected with two sides of the upper filter box 10, the connecting sleeves 29 of the lower linkage assembly are provided with two connecting sleeves 29 which are respectively and fixedly connected with the lower filter box 18, a lifting slide rod 30 vertically and slidingly penetrates through each connecting sleeve 29, a second spring 31 is connected between the lifting slide rod 30 and the corresponding connecting sleeve 29, the upper filter box 10 is lifted and deviated from the water inlet pipe 5, the lower filter box 18 is positioned in a position aligned with the water inlet pipe 5, at the moment, the lifting slide rods 30 at two sides of the upper filter box 10 are abutted against the inner top of the built-in box 14, the corresponding second springs 31 are in a stretching state, the second springs 31 at two sides of the lower filter box 18 are in an original state, and the second springs 31 at two sides of the lower filter box 18 are compressible springs, the compression stroke of the second springs is equal to the descending stroke of the lower filter box 18; one side of the bottom of each connecting sleeve 29 is hung with a first fixed pulley 38 through a rod body, each first fixed pulley 38 is provided with a linkage steel wire 33 in a matched sliding way, one end of the linkage steel wire 33 is connected to the corresponding L-shaped connecting frame 27, the other end of the linkage steel wire 33 is connected to the corresponding lifting slide rod 30, the end part of the lifting slide rod 30 connected with the linkage steel wire 33 corresponding to the upper linkage assembly is the bottom end, the end part of the lifting slide rod 30 connected with the linkage steel wire 33 corresponding to the lower linkage assembly is the upper end, the upper linkage assembly further comprises a second fixed pulley 32, and the second fixed pulley 32 is arranged above the corresponding first fixed pulley 38 in an aligned way and is connected with the corresponding connecting sleeve 29, and meanwhile, the second fixed pulley 32 is matched and connected with the corresponding linkage steel wire 33;

when the first electric telescopic rod 2 is extended, so that the upper filter cassette 10 and the lower filter cassette 18 are lifted up at the same time, the lower filter cassette 18 is moved between the water inlet pipe 5 and the transition pipe 13, and the upper filter cassette 10 is lifted up to the top of the built-in box 14, in the process, the tops of the lifting slide bars 30 at both sides of the upper filter cassette 10 are abutted against the top of the built-in box 14, then the lifting slide bars 30 at both sides of the upper filter cassette 10 are slid down with respect to the connecting sleeve 29 due to the extrusion, in the sliding down process, the lifting slide bars 30 at that position pull the corresponding linkage steel wires 33, the linkage steel wires 33 pull the corresponding L-shaped connecting frames 27 to move along the parallel direction of the thin rod members 26 by virtue of the turning actions of the corresponding first fixed pulleys 38 and the second fixed pulleys 32, the two groups of the thin rod pieces 26 crossed together in the upper filter box 10 slide and separate towards two sides respectively so as to facilitate the residues clamped in the meshes to be fully separated, meanwhile, each thin rod piece 26 and the corresponding rubber ball 25 slide relatively, the rubber ball 25 can conveniently smooth down the filiform sundries wound on each thin rod piece 26, thus realizing the full separation of the filtered sundries, when the lower filter box 18 descends to the bottom of the built-in box 14, the lifting slide bars 30 at two sides of the lower filter box 18 descend to collide to the bottom of the built-in box 14 and slide upwards relative to the corresponding connecting sleeve 29, so that the corresponding linkage steel wires 33 are pulled, and the two groups of the thin rod pieces 26 crossed together can also slide and separate;

the bottoms of the upper filter box 10 and the lower filter box 18 are respectively provided with an inclined guide plate 16, the built-in box 14 and the barrel 1 are respectively provided with a through discharge hole 39 at the upper and lower positions close to one side of the water inlet pipe 5, the two discharge holes 39 are distributed at the upper and lower sides of the water inlet pipe 5 and respectively correspond to the upper filter box 10 and the lower filter box 18, when the upper filter box 10 or the lower filter box 18 is aligned at the corresponding discharge hole 39, residues filtered in the upper filter box 10 or the lower filter box 18 slide to the discharge hole 39 along the inclined guide plates 16 so as to be convenient for automatic discharge, the outside of the barrel 1 is fixedly connected with a recovery box 7 communicated with the discharge hole 39, the water inlet pipe 5 penetrates through the recovery box 7, the inclined guide plates 16 of the upper filter box 10 are provided with movable check blocks 17, the movable check blocks 17 are movably connected at the lower ends of the corresponding inclined guide plates 16 through rebound hinges, when the upper filter box 10 is positioned between the water inlet pipe 5 and the transition pipe 13, the movable stop block 17 is abutted against the inner wall of the built-in box 14 and is in a tilting position, a vertical guide rod 35 aligned with the movable stop block 17 is vertically fixedly connected to the port of the water inlet pipe 5 close to the built-in box 14, when the upper filter box 10 is positioned between the water inlet pipe 5 and the transition pipe 13, filtered residues are positioned in the upper filter box 10 and fall on the inclined guide plate 16, the movable stop block 17 is abutted against the inner wall of the built-in box 14 and is in a tilting position, when the upper filter box 10 is lifted to the top of the built-in box 14, the inclined guide plate 16 passes through the port of the water inlet pipe 5, at the moment, the tilted movable stop block 17 is lifted along with the upper filter box 10 and slides along the port of the water inlet pipe 5, namely, by means of the limit of the vertical guide rod 35, the movable stop block 17 is kept in a tilting state so as to prevent the residues on the inclined guide plate 16 from sliding down, when the upper filter box 10 is lifted to the top of the built-in box 14, the movable stop block 17 reaches the position of the corresponding discharge port 39, so that the movable stop block 17 rotates to reset and keeps the same inclination angle with the corresponding inclined guide plate 16, and residues on the inclined guide plate 16 slide down conveniently;

the inside of the recovery box 7 is fixedly connected with a V-shaped guide plate 34, the side wall of the upper surface layer of the V-shaped guide plate 34 is a smooth side wall, the V-shaped guide plate 34 is used for preventing residues discharged from an upper side discharge port 39 from accumulating on the water inlet pipe 5, and meanwhile, the recovery box 7 is convenient for temporarily storing the residues automatically cleaned; the inner side of the recovery box 7 is horizontally and fixedly connected with a filter screen baffle plate 8 near the bottom, the filter screen baffle plate 8 is used for supporting the fallen residues, meanwhile, the water which is convenient to drain out is separated, a movable door 9 is arranged near the bottom of the recovery box 7, the movable door 9 is convenient to open the recovery box 7, and the residues are treated in a concentrated mode;

the built-in box 14 is provided with a flushing mechanism, the flushing mechanism comprises piston cylinders 37, the two piston cylinders 37 are arranged, the two piston cylinders 37 are respectively and fixedly connected to the upper side and the lower side of the built-in box 14, the two piston cylinders 37 are symmetrically distributed, the two piston cylinders 37 are internally provided with first piston blocks 20 in a sliding manner, the first piston blocks 20 are fixedly connected with linkage slide bars 3 through rod bodies, the first piston blocks 20 are fixedly connected with second electric telescopic rods 19, the second electric telescopic rods 19 are waterproof electric telescopic rods, the model is IP65, the telescopic ends of the second electric telescopic rods 19 penetrate through the corresponding first piston blocks 20, the telescopic ends of the second electric telescopic rods 19 are fixedly connected with second piston blocks 21 mutually attached to the first piston blocks 20, the top of the barrel 1 is provided with two pressure sensing switches 4 through brackets, the top ends of the linkage slide bars 3 are bending ends, the two pressure-sensitive switches 4 are respectively distributed on the upper side and the lower side of the bending end of the linkage slide bar 3, the pressure-sensitive switches 4 are electrically connected with the corresponding second electric telescopic rods 19, namely, the pressure-sensitive switch 4 on the upper side is electrically connected with the extension control circuit of the second electric telescopic rods 19 close to the upper side of the built-in box 14, the pressure-sensitive switch 4 on the lower side is electrically connected with the extension control circuit of the second electric telescopic rods 19 close to the lower side of the built-in box 14, the contraction control circuit of the second electric telescopic rods 19 close to the upper side of the built-in box 14 is electrically connected with the water absorbing tubules 22 on one side of the end part of the piston cylinder 37 close to the water inlet pipe 5, the tail end of the water absorbing tubules 22 extend to the inner bottom of the cylinder body 1, the water absorbing tubules 22 are convenient to absorb water, the first check valves 23 are connected with the water absorbing tubules 22, the first one-way valve 23 is used for ensuring that water flow can only flow from the water inlet pipe 5 into the piston cylinder 37; the end part of the piston cylinder 37, which is close to the water inlet pipe 5, is connected with a second one-way valve 24, the second one-way valve 24 only enables water flow to flow outwards from the interior of the piston cylinder 37, the second one-way valve 24 is connected with a main pipe body 40, the upper side and the lower side of the built-in box 14 are connected with a plurality of split-flow spray pipes 12 which are in matched connection with the corresponding main pipe body 40, one end of each split-flow spray pipe 12 penetrates through the side wall of the built-in box 14, and the other end of each split-flow spray pipe 12 is connected with the corresponding main pipe body 40;

when the first electric telescopic rod 2 stretches to drive the upper filter box 10 to rise to the inner top of the built-in box 14, the lower filter box 18 moves between the water inlet pipe 5 and the transition pipe 13, in the process, the linkage slide rod 3 drives the first piston block 20 in the piston cylinder 37 at the upper side to slide upwards, water is absorbed into the piston cylinder 37 from the cylinder body 1 through the corresponding water absorbing thin pipe 22, and after the top of the linkage slide rod 3 rises to the corresponding height position, the upper filter box 3 collides with the corresponding pressure sensing switch 4, then the pressure sensing switch 4 enables the corresponding second electric telescopic rod 19 of the piston cylinder 37 at the upper side to stretch, so that the second piston block 21 in the piston cylinder 37 at the upper side presses downwards, water in the piston cylinder 37 is extruded from the second one-way valve 24 and is sprayed out through the corresponding split flow spraying pipe 12, the inner side of the upper filter box 10 rising to the inner top of the built-in box 14 is conveniently promoted to flow into the recovery box 7, slag discharging effect is improved, and when the lower filter box 18 descends to the bottom of the built-in box 14, the same cleaning principle is realized.

The working principle of the invention is as follows: the upper filter box 10 or the lower filter box 18 is butted between the water inlet pipe 5 and the transition pipe 13, sewage conducted by the water inlet pipe 5 is discharged into the cylinder 1 through the filter screen assembly 11, when impurities in the upper filter box 10 or the lower filter box 18 at the filtering position are too much, the water passing effect of the filter screen assembly 11 is poor, the water pressure in the upper filter box 10 or the lower filter box 18 is increased, when the corresponding water pressure sensing switch 15 senses that the water pressure vertically exceeds a corresponding value, the first electric telescopic rod 2 is started to shrink or stretch, so that the upper filter box 10 and the lower filter box 18 slide in the built-in box 14 at the same time, and the position is switched, so that the normal flow of water flow in a pump station is ensured;

when the upper filter box 10 is positioned between the water inlet pipe 5 and the transition pipe 13, filtered residues are positioned in the upper filter box 10 and fall on the inclined guide plate 16, the movable stop block 17 is abutted against the inner wall of the built-in box 14 and is in a tilting position, when the internal water pressure is overlarge due to excessive residues in the upper filter box 10 and water flow is blocked, the corresponding water pressure sensing switch 15 enables the first electric telescopic rod 2 to stretch, the first electric telescopic rod 2 drives the upper filter box 10 and the lower filter box 18 to rise simultaneously through the linkage slide rod 3, when the upper filter box 10 rises to the top of the built-in box 14, the inclined guide plate 16 passes through the port position of the water inlet pipe 5, at the moment, the tilted movable stop block 17 rises along with the upper filter box 10 and slides along the vertical guide rod 35 through the port of the water inlet pipe 5, namely, the movable stop block 17 is kept in a tilting state by virtue of the limit of the vertical guide rod 35 so as to stop the residues on the inclined guide plate 16, and when the upper filter box 10 rises to the top of the built-in box 14, the movable stop block 17 reaches the corresponding discharge port 39 so as to fall down, and the inclined guide plate 16 is kept at the same angle as the inclined guide plate 16 is reset, and the inclined guide plate is convenient;

when the upper filter cassette 10 and the lower filter cassette 18 are lifted up at the same time, the lower filter cassette 18 is moved between the water inlet pipe 5 and the transition pipe 13, and the upper filter cassette 10 is lifted up to the top of the built-in box 14, in which the tops of the lifting slide bars 30 at both sides of the upper filter cassette 10 are abutted against the top of the built-in box 14, and then the lifting slide bars 30 at both sides of the upper filter cassette 10 are slid down with respect to the connecting sleeve 29 due to the pressing, in which the lifting slide bars 30 at that position pull the corresponding link wire 33, the link wire 33 pulls the corresponding L-shaped link frame 27 to move in the parallel direction of the thin rod member 26 by the turning action of the corresponding first and second fixed pulleys 38 and 32, the two groups of the thin rod pieces 26 crossed together in the upper filter box 10 slide and separate towards two sides respectively so as to facilitate the residues clamped in the meshes to be fully separated, meanwhile, each thin rod piece 26 and the corresponding rubber ball 25 slide relatively, the rubber ball 25 can conveniently smooth down the filiform sundries wound on each thin rod piece 26, thus realizing the full separation of the filtered sundries, when the lower filter box 18 descends to the bottom of the built-in box 14, the lifting slide bars 30 at two sides of the lower filter box 18 descend to collide to the bottom of the built-in box 14 and slide upwards relative to the corresponding connecting sleeve 29, so that the corresponding linkage steel wires 33 are pulled, and the two groups of the thin rod pieces 26 crossed together can also slide and separate;

in the process that the first electric telescopic rod 2 drives the upper filter box 10 to ascend to the inner top of the built-in box 14, the linkage slide rod 3 drives the first piston block 20 in the piston cylinder 37 at the upper side to slide upwards, water is absorbed into the piston cylinder 37 from the cylinder body 1 through the corresponding water absorption thin pipe 22, and when the top of the linkage slide rod 3 ascends to the corresponding height position, the corresponding pressure sensing switch 4 is abutted against the corresponding pressure sensing switch 4, then the pressure sensing switch 4 enables the corresponding second electric telescopic rod 19 of the piston cylinder 37 at the upper side to extend, so that the second piston block 21 in the piston cylinder 37 at the upper side is pressed downwards, water in the piston cylinder 37 is extruded from the second one-way valve 24 and sprayed out through the corresponding diversion spray pipe 12, the inner side of the upper filter box 10 ascending to the inner top of the built-in box 14 is washed, residues are conveniently promoted to flow into the recovery box 7, the slag discharging effect is improved, and when the lower filter box 18 descends to the bottom of the built-in box 14, cleaning is realized by the same principle;

the residue finally cleaned is automatically discharged into the recovery box 7 through the discharge port 39, so that effective automatic slag discharge is realized.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The automatic slag removal integrated pump station device comprises a barrel (1), a water pump (6) is arranged on one side of the inner bottom of the barrel (1), a water inlet pipe (5) is connected to one side of the barrel (1) away from the water pump (6), a slag removal component is arranged at one end of the water inlet pipe (5) close to the inner side of the barrel (1), and the automatic slag removal integrated pump station device is characterized in that the slag removal component comprises an inner box (14), the inner box (14) is connected to the inner wall of the barrel (1), a transition pipe (13) transversely aligned with the water inlet pipe (5) is connected to one side of the inner box (14) away from the water inlet pipe (5), an upper filter box (10) and a lower filter box (18) which are connected with each other are slidably arranged in the inner box (14), a first electric telescopic rod (2) is connected to the top of the barrel (1), and a sliding rod (3) is connected to the telescopic end of the first electric telescopic rod (2), and the tail end of the sliding rod (3) is connected to the upper filter box (10). The inner tops of the upper filter box (10) and the lower filter box (18) are respectively connected with a water pressure induction switch (15) which is electrically connected with the first electric telescopic rod (2); the filter comprises an upper filter box (10) and a lower filter box (18), wherein the sides of the upper filter box and the lower filter box are respectively provided with a filter screen assembly (11), a through discharge port (39) is formed in the upper and lower positions of the inner box (14) and the barrel (1) close to one side of a water inlet pipe (5), and a recovery box (7) communicated with the discharge port (39) is connected to the outside of the barrel (1).

2. An automatic slag removal integrated pump station device according to claim 1, wherein each filter screen assembly (11) comprises two groups of combined rods, each group of combined rods comprises an L-shaped connecting frame (27), the L-shaped connecting frames (27) are distributed outside the upper filter box (10) and the lower filter box (18) in pairs, a plurality of thin rods (26) are obliquely connected to each L-shaped connecting frame (27), the thin rods (26) on the two L-shaped connecting frames (27) in pairs are mutually intersected, and a first spring (28) is connected between each upper filter box (10) and each lower filter box (18) and the corresponding L-shaped connecting frame (27); the two sides of the upper filter box (10) are respectively provided with an upper linkage assembly which is matched and connected with a corresponding L-shaped connecting frame (27), and the two sides of the lower filter box (18) are respectively provided with a lower linkage assembly which is matched and connected with a corresponding L-shaped connecting frame (27).

3. An automatic slag removal integrated pump station device according to claim 2, wherein the upper linkage assembly and the lower linkage assembly comprise connecting sleeves (29), the connecting sleeves (29) are distributed outside the upper filter box (10) and the lower filter box (18) in pairs, a lifting slide rod (30) is vertically and slidably inserted in each connecting sleeve (29), and a second spring (31) is connected between the lifting slide rod (30) and the corresponding connecting sleeve (29); the bottom one side of every adapter sleeve (29) is connected with first fixed pulley (38), every all cooperate the slip on fixed pulley (38) to be provided with linkage steel wire (33), the one end of linkage steel wire (33) is connected on corresponding L type link (27), and the other end is connected on corresponding lift slide bar (30), go up linkage assembly still includes second fixed pulley (32), second fixed pulley (32) align to set up in corresponding first fixed pulley (38) top, and be connected with corresponding adapter sleeve (29), simultaneously second fixed pulley (32) are connected with corresponding linkage steel wire (33) cooperation.

4. An automatic slag removal integrated pump station device according to claim 2, characterized in that a plurality of rubber balls (25) are connected to the inner walls of the upper filter box (10) and the lower filter box (18) at equal intervals, and each of the thin rod pieces (26) slides through the corresponding rubber ball (25).

5. An automatic slag removal integrated pump station device according to claim 1, characterized in that the bottoms of the upper filter box (10) and the lower filter box (18) are respectively provided with an inclined guide plate (16), the inclined guide plates (16) of the upper filter box (10) are provided with movable stop blocks (17), the movable stop blocks (17) are movably connected onto the corresponding inclined guide plates (16) through rebound hinges, and the port of the water inlet pipe (5) close to the built-in box (14) is vertically connected with a vertical guide rod (35) aligned with the movable stop blocks (17).

6. An automatic slag removal integrated pump station device according to claim 1, wherein the water inlet pipe (5) penetrates through the recovery box (7), a V-shaped guide plate (34) positioned on the upper side of the water inlet pipe (5) is fixedly connected to the inside of the recovery box (7), and the upper surface side wall of the V-shaped guide plate (34) is a smooth side wall.

7. An automatic slag removal integrated pump station device according to claim 1, characterized in that a flushing mechanism is arranged on the built-in tank (14), the flushing mechanism comprises a piston cylinder (37), the piston cylinder (37) is provided with two, the two piston cylinders (37) are respectively connected with the upper side and the lower side of the built-in tank (14), a first piston block (20) is slidably arranged in the two piston cylinders (37), the first piston block (20) is connected with the linkage slide bar (3), a second electric telescopic rod (19) is connected on the first piston block (20), the telescopic end of the second electric telescopic rod (19) is connected with a second piston block (21) mutually attached to the first piston block (20), the top of the cylinder (1) is connected with two pressure sensing switches (4), the top ends of the two pressure sensing switches (4) are respectively distributed on the upper and lower sides of the linkage slide bar (3) and are bent ends, the electric telescopic rod (19) is connected with a water inlet pipe (22) corresponding to the second piston block (22), the end part of the piston cylinder (37) close to the water inlet pipe (5) is connected with a second one-way valve (24), the second one-way valve (24) is connected with a main pipe body (40), and the upper side and the lower side of the built-in box (14) are both connected with a diversion spray pipe (12) which is connected with the corresponding main pipe body (40) in a matching way.

8. An automatic slag removal integrated pump station device according to claim 7, wherein a plurality of the diversion nozzles (12) are provided, one end of each diversion nozzle (12) penetrates through the side wall of the built-in box (14), and the other end is connected with the corresponding main pipe body (40).