CN218952392U - Water collection well ponding processing apparatus - Google Patents

Abstract

The utility model relates to the technical field of water collection well accumulated water treatment, and particularly discloses a water collection well accumulated water treatment device which comprises a guide mechanism, a moving mechanism and a filtering mechanism, wherein a water suction pump is arranged in the filtering mechanism; the guide mechanism comprises two guide rods which are axially arranged along the water collecting well, the filtering mechanism is vertically and slidably connected between the two guide rods, and at least one guide rod is provided with a moving mechanism; the moving mechanism comprises a driving motor, a moving rack axially arranged along the guide rod and a moving gear meshed with the moving rack, and the driving motor is in transmission connection with the moving gear through a driving belt; the filter mechanism is also fixedly connected with a connecting piece, the driving motor is fixedly connected with the connecting piece, and the movable gear is rotationally connected to the connecting piece. By adopting the technical scheme provided by the utility model, the technical problems of troublesome operation, high labor intensity of staff and lower cleaning efficiency in the process of cleaning filtered sundries in the prior art can be solved.

Description

Water collection well ponding processing apparatus

Technical Field

The utility model relates to the technical field of water collection well accumulated water treatment, in particular to a water collection well accumulated water treatment device.

Background

The water collection well is a well for collecting and storing groundwater. In the field of building construction, the water collecting well is arranged to avoid the pressure caused by basement groundwater to a building structure, and the later concrete construction is influenced. In urban drainage systems, the water collecting well is mainly used for temporary storage of road ponding and underground seeping water, and is an indispensable component in urban drainage systems. At present, when ponding in the traditional water collecting well is handled, the water pumping pump is generally directly adopted for drainage treatment, and as the water collecting well can accumulate a large amount of sundries such as soil, sand, leaves and household garbage at the bottom of the well in the long-time use process, the problem that the water pumping pump is blocked in the water pumping process often occurs, not only the working efficiency of the water pumping pump is influenced, but also the damage of the water pumping pump is easily caused, and the service life is reduced. In addition, the sundries accumulated in the water collecting well are difficult to clean.

In order to solve the problems, the prior art (CN 211816830U) discloses an anti-blocking water collecting well for an urban drainage system, which comprises a water collecting well body, wherein a filter vat is arranged at the upper end position of the inner part of the water collecting well body, a circular installation frame is arranged above the filter vat in an aligned manner, a filter screen is fixedly connected to the inner side of the circular installation frame, a water outlet pipe is connected to the central position of the bottom of the filter vat in a communicating manner, spiral rods and guide rods are symmetrically arranged at the two sides of the inner part of the water collecting well body, which are positioned on the filter vat, along the vertical direction, limiting plates are symmetrically arranged at the two sides of the lower end position of the outer surface of the filter vat, the spiral rods are spirally sleeved in the limiting plates, and the guide rods are slidingly sleeved in the limiting plates. This prior art can carry out effectual filtration to the drainage in the use, avoids debris to block up and damages the suction pump even to filter vat and filter screen can remove the top of sump pit body through the hob, thereby conveniently clear up the debris of filter vat and filter screen filtration.

However, the above prior art has the following problems:

1. when clearing up filter vat and the filterable debris of filter screen, need the staff to rotate the hob and remove the top of sump pit body with the connector of filter vat and filter screen, clear up the debris back with the debris, the staff reverse rotation hob returns the connector of filter vat and filter screen again, and the operation is troublesome, and staff's intensity of labour is big, and cleaning efficiency is lower.

2. Due to the installation of the screw rod and the guide rod, a gap is formed between the outer wall of the filter vat and the inner wall of the collector well body, and partial sundries entering the collector well can fall into the bottom of the well from the gap, so that the suction pump still has a blocking risk in the drainage process.

Disclosure of Invention

The utility model aims to provide a water collection well accumulated water treatment device which aims to solve the technical problems that the operation is troublesome, the labor intensity of staff is high and the cleaning efficiency is low in the prior art when filtered sundries are cleaned.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the accumulated water treatment device for the water collecting well comprises a guide mechanism, a moving mechanism and a filtering mechanism, wherein a water suction pump is arranged in the filtering mechanism; the guide mechanism comprises two guide rods which are axially arranged along the water collecting well, the filtering mechanism is vertically and slidably connected between the two guide rods, and at least one guide rod is provided with a moving mechanism; the moving mechanism comprises a driving motor, a moving rack axially arranged along the guide rod and a moving gear meshed with the moving rack, and the driving motor is in transmission connection with the moving gear through a driving belt; the filter mechanism is also fixedly connected with a connecting piece, the driving motor is fixedly connected with the connecting piece, and the movable gear is rotationally connected to the connecting piece.

The principle and the advantages of the scheme are as follows:

during practical application, the accumulated water entering the water collecting well is filtered at the bottom of the water collecting well through the filtering mechanism, impurities in the accumulated water are separated from the water body, after the accumulated water is filtered for a certain time, the filtering mechanism is driven to move upwards through the moving mechanism, the guiding mechanism guides the movement of the filtering mechanism until the filtering mechanism moves to the wellhead, after the impurities filtered by the filtering mechanism are cleaned by workers, the moving mechanism drives the filtering mechanism to return to the bottom of the water collecting well again, and the accumulated water entering the water collecting well is continuously filtered.

1. This scheme is through the forward and backward rotation of driving motor, can be through driving belt drive movable gear along removing the rack reciprocates to drive filtering mechanism and reciprocate along the guide bar, realize filtering mechanism's clearance of debris and filtering mechanism's homing, therefore this scheme compares in prior art, and the operation is more convenient when clearing up filterable debris, and staff's intensity of labour is showing and is reducing, is favorable to improving cleaning efficiency.

2. This scheme is installed the suction pump in filtering mechanism, and ponding that then was taken out by the suction pump can be through filtering mechanism's filtration all the time, consequently even if there is the clearance between filtering mechanism and the collector well inner wall, lead to part entering the debris of collector well to drop to the shaft bottom from the clearance, the suction pump also can not be blocked up by the debris at shaft bottom and damage even in the drainage process, and this scheme is favorable to prolonging the life of suction pump, reduces equipment maintenance, replacement cost.

Preferably, as an improvement, the moving mechanism further comprises a sliding sleeve sleeved on the guide rod, the sliding sleeve is in sliding connection with the guide rod, and the sliding sleeve is fixedly connected with the connecting piece; one side of the sliding sleeve, which is far away from the filtering mechanism, is rotationally connected with two driving wheels, a crawler belt is connected between the two driving wheels in a transmission way, and the crawler belt is contacted with the inner wall of the collector well; the driving wheel close to the moving gear is in transmission connection with the moving gear through a transmission belt.

By adopting the scheme, the driving motor drives the movable gear to rotate through the driving belt, so that the filter mechanism can move up and down along the movable rack, and the movable gear can also drive the driving wheel to rotate through the driving belt, so that the crawler belt moves up and down along the inner wall of the water collecting well, thereby providing a larger driving force for the up and down movement of the filter mechanism, and improving the reliability of the movable mechanism for driving the filter mechanism to lift in the water collecting well; in addition, the sliding sleeve can play a further limiting and guiding role in lifting of the filtering mechanism.

Preferably, as an improvement, the filtering mechanism comprises a filtering box, through holes are formed in the surface of the filtering box, and the water pump is arranged in the filtering box; one side wall of the filter box is vertically and slidably connected to two adjacent side walls of the filter box.

By adopting the scheme, through holes are formed in the surface of the filter box, compared with the prior art, the filter box has the advantages that the through holes are formed only in the top and the bottom of the filter barrel, and the filtering efficiency of the filter box can be improved, so that the drainage efficiency of a water pump arranged in the filter box is ensured; a side wall of the filter box is vertically and slidably connected to two adjacent side walls of the filter box, and the exposure of the inner space of the filter box can be realized through the sliding of the side walls, so that the water pump is convenient to install and overhaul when the water pump fails; on the other hand, when the debris of clearance filter mechanism filtration, conveniently clear up the inside of rose box to improve the effect and the efficiency of debris clearance.

Preferably, as an improvement, the filtering mechanism further comprises a filtering hopper fixedly connected to the top of the filtering box and a filtering plate fixedly connected to the top of the filtering hopper, and the cross section of the filtering hopper is in an inverted trapezoid shape; a plurality of mud holes are formed in the filter plate, guide holes are formed in positions, corresponding to the guide rods, of the filter plate, and the guide rods are connected in the guide holes in a sliding mode.

Adopt this scheme, through filter fill fixed connection filter at the top of rose box, then the ponding that gets into the sump pit loops through the mud hole of filter, filter fill and the through-hole of rose box, filtering mechanism can carry out twice to the ponding that gets into the sump pit promptly, is favorable to improving the filter effect of ponding to further reduce the fault rate of suction pump, when extension suction pump life, can effectively improve pumping efficiency. The filter bucket is designed into a structure with the cross section being inverted trapezoid, the size of the upper end of the filter bucket is larger than that of the lower end of the filter bucket, so that the size of the filter bucket is larger than that of the filter box, the radial interception area of the filter plate to the water collecting well is guaranteed, the working area of the whole filter mechanism is increased, the amount of sundries falling to the bottom of the well from a gap between the filter mechanism and the inner wall of the water collecting well is reduced, and the filtering efficiency of the sundries is improved.

Preferably, as an improvement, the filter plate comprises an outer ring plate and an inner ring plate, the outer ring plate and the inner circular plate are detachably connected, the mud through holes are formed in the inner circular plate, and the guide holes are formed in the outer ring plate.

By adopting the scheme, the filter plate is designed into a structure consisting of an outer annular plate and an inner annular plate, and the outer annular plate and the inner annular plate are detachably connected, so that the inner space of the filter bucket can be exposed by detaching the inner annular plate, thereby being convenient for cleaning sundries in the filter bucket and improving the cleaning effect; the mud hole is formed in the inner circular plate, the guide hole is formed in the outer annular plate, the outer annular plate can be guaranteed to be in sliding connection with the guide rod all the time, the inner circular plate is detached, the structure is simple, the operation is convenient, and cleaning efficiency is improved.

Preferably, as a modification, the middle part of the inner circular plate is recessed downward.

By adopting the scheme, the inner circular plate is designed into a structure with the middle part recessed downwards, impurities intercepted by the filtering plate are collected at the middle part of the inner circular plate, so that the impurities are reduced or even prevented from falling from the filtering plate in the process of driving the filtering mechanism to move upwards by the moving mechanism, the accumulated impurity amount at the bottom of the well is reduced, and the filtering and cleaning overall effect of the impurities in the water collecting well is improved.

Preferably, as an improvement, the detachable connection mode of the outer ring plate and the inner ring plate is spigot clamping fit.

By adopting the scheme, the detachable connection mode of the outer ring plate and the inner ring plate is set as the spigot clamping fit, on one hand, the spigot is simple in structure, convenient to process and convenient to operate during connection; on the other hand, the outer ring plate and the inner ring plate are matched through the spigot clamping of the outer ring plate and the inner ring plate, so that the introduction of other connecting structures is avoided, the whole weight of the filtering mechanism is reduced, the driving load of the moving mechanism is reduced, and the service life of the moving mechanism is prolonged.

Preferably, as an improvement, the aperture of the mud hole is larger than that of the through hole.

By adopting the scheme, the aperture design of the mud hole is larger than the aperture of the through hole, the filter plate can filter and collect sundries with large size firstly, sundries with small size continuously enter the filter bucket along with accumulated water, and the sundries are difficult to enter the filter box through the through hole with smaller aperture, so that the sundries with small size are accumulated in the filter bucket, and the collection of the sundries with small size is realized. In addition, the size of the through hole is designed to be smaller, sundries falling into the bottom of the well through a gap between the filtering mechanism and the inner wall of the water collecting well are difficult to pass through the through hole to enter the filtering box, the blocking possibility of the water pump is further reduced, and the service life of the water pump is guaranteed.

Preferably, as an improvement, the connecting piece comprises a Y-shaped support rod and an X-shaped support, the top end of the Y-shaped support rod is respectively connected with the driving motor and the moving gear, and the filtering mechanism and the sliding sleeve are respectively fixedly connected with the Y-shaped support rod through the X-shaped support.

By adopting the scheme, the Y-shaped supporting rod is connected with the driving motor and the movable gear, so that the driving motor and the movable gear can be effectively ensured to be at the same horizontal height, and the transmission efficiency between the driving motor and the movable gear is ensured; through X type leg joint filter mechanism, slip sleeve and Y type support, can improve the joint strength of filter mechanism, slip sleeve and Y type support, improve the joint strength between filter mechanism and the mobile mechanism promptly to resist shear stress, avoid filter mechanism to go up and down in the sump pit the in-process connecting piece horizontal fracture, thereby guarantee the operational reliability that mobile mechanism drive filter mechanism goes up and down.

Preferably, as a modification, a synchronous belt is connected between the two driving wheels in a transmission manner.

By adopting the scheme, the synchronous belt pulley is connected between the two driving wheels in a transmission way, so that the two driving wheels are provided with double transmission of the crawler belt and the synchronous belt, the rotation synchronism of the two driving wheels can be ensured, and the movement reliability of the crawler belt is improved.

Drawings

Fig. 1 is a schematic overall structure of embodiment 1 of the present utility model.

Fig. 2 is a schematic diagram of the structure at a in fig. 1.

Fig. 3 is a schematic view of the moving mechanism in embodiment 1 of the present utility model.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the guide mechanism 1, the guide rod 11, the cross rod 12, the meshing teeth 13, the moving mechanism 2, the sliding sleeve 21, the connecting plate 211, the track moving member 22, the driving wheel 221, the track 222, the synchronous belt 223, the moving gear 23, the driving motor 24, the driving belt 25, the driving belt 26, the filter mechanism 3, the filter plate 31, the outer ring plate 311, the inner ring plate 312, the mud hole 313, the filter bucket 32, the filter box 33, the through hole 331, the water outlet 332, the water pump 34, the water outlet 341, the connecting member 4, the Y-shaped supporting rod 41, the X-shaped bracket 42 and the mounting plate 5.

Example 1

A sump pit water treatment apparatus substantially as herein described with reference to figures 1 to 3 of the accompanying drawings: including guiding mechanism 1, moving mechanism 2 and filtering mechanism 3, guiding mechanism 1 includes two guide bars 11 that set up along the sump pit axial, and filtering mechanism 3 vertical sliding connection is between two guide bars 11, and is equipped with moving mechanism 2 on at least one guide bar 11. In this embodiment, the two guide rods 11 are symmetrically arranged relative to the axis of the water collecting well, and the two guide rods 11 are provided with the moving mechanism 2.

The guide mechanism 1 further comprises four cross rods 12, each guide rod 11 is provided with two cross rods 12, each cross rod 12 is located between the inner wall of the water collecting well and the guide rod 11, one end of each cross rod 12 is fixedly connected to the inner wall of the water collecting well, and the other end of each cross rod 12 is fixedly connected with the side wall, close to the end, of each guide rod 11. A rack is arranged on the side of the guide rod away from the filtering mechanism 3, and in this embodiment, a plurality of engaging teeth 13 are axially arranged on the side of the guide rod 11 away from the filtering mechanism 3 to serve as the rack.

The filtering mechanism 3 comprises a filtering box 33, in this embodiment, the filtering box 33 is rectangular, and through holes 331 are formed on each surface of the filtering box 33; the water pump 34 is arranged in the filter box 33, and a water outlet of the water pump 34 is communicated with a drain pipe 341; a water outlet 332 is formed in the bottom of the filter box 33, a water outlet 341 penetrates out of the filter box 33 from the water outlet 332, and the distance between the water outlet 341 and the inner wall of the water outlet 332 is smaller than the aperture of the through hole 331; the end of the drain pipe 341 away from the suction pump 34 directly protrudes from the water collection wellhead for drainage or communicates to an underground drain channel for drainage. In order to facilitate the installation of the water pump 34 and the cleaning of impurities in the filter box 33, one side wall of the filter box 33 is vertically and slidably connected to two adjacent side walls, in this embodiment, the front side wall of the filter box 33 is vertically and slidably connected to the front ends of the left and right side walls. Specifically, the inner sides of the left and right side walls of the filter box 33, which are close to the front ends, are provided with T-shaped grooves, the top ends of the T-shaped grooves respectively penetrate through the top ends of the left and right side walls, and the bottom ends of the T-shaped grooves do not penetrate through the bottom ends of the left and right side walls; t-shaped blocks are arranged at the left end and the right end of the front side wall of the filter box 33, and the T-shaped blocks are slidably connected in the T-shaped groove to realize the sliding connection of the front side wall and the left side wall and the right side wall. Because the bottom of T shape groove does not run through the bottom of left and right both sides wall, can carry out spacingly to the T shape piece, avoid the T shape piece to deviate from the T shape groove from the bottom slip. The top wall of the filter box 33 is reserved for the position where the front side wall slides upward.

The filtering mechanism 3 further comprises a filtering hopper 32 fixedly connected to the top of the filtering box 33 and a filtering plate 31 fixedly connected to the top of the filtering hopper 32, the cross section of the filtering hopper 32 is in an inverted trapezoid shape, the size of the bottom of the filtering hopper 32 is smaller than the top size of the filtering box 33, and the top size of the filtering hopper 32 is smaller than the size of the filtering plate 31. The filter plate 31 includes an outer ring plate 311 and an inner ring plate 312, and the outer ring plate 311 and the inner ring plate 312 are detachably connected, and in this embodiment, the detachable connection mode of the outer ring plate 311 and the inner ring plate 312 is a spigot snap fit. The outer ring plate 311 is provided with a guide hole corresponding to the position of the guide rod 11, the guide hole penetrates through the outer ring plate 311, and the guide rod 11 is inserted into the guide hole, so that sliding connection between the outer ring plate 311 and the guide rod 11 is realized. The inner circular plate 312 is uniformly provided with a plurality of mud holes 313, and the aperture of the mud holes 313 is larger than that of the through holes 331 of the filter box 33; the middle part of the inner circular plate 312 is recessed downwards, i.e. the cross section of the inner circular plate 312 along the axial direction of the water collecting well is in a recessed arc shape.

The moving mechanism 2 comprises a driving motor 24 fixedly connected to the filtering mechanism 3 and a moving gear 23 meshed with a plurality of meshing teeth 13 on the guide rod 11. Specifically, the mounting plate 5 is fixedly connected to the outer side wall of the filter bucket 32, the mounting plate 5 is horizontally arranged, and the driving motor 24 is fixedly connected to the mounting plate 5 through bolts. The driving motor 24 and the moving gear 23 are in transmission connection through a driving belt 25, specifically, a motor belt pulley is coaxially and fixedly connected to an output shaft of the driving motor 24, a moving belt pulley is coaxially and fixedly connected to a rotating shaft of the moving gear 23, and the driving belt 25 is in transmission connection with the motor belt pulley and the moving belt pulley.

The moving mechanism 2 further comprises a sliding sleeve 21 sleeved on the guide rod 11, the sliding sleeve 21 is in sliding connection with the guide rod 11, and a crawler moving member 22 is arranged on one side, away from the filtering mechanism 3, of the sliding sleeve 21. The track moving member 22 includes a driving wheel 221 rotatably connected to the sliding sleeve 21, specifically, two parallel connection plates 211 are welded and fixed on one side of the sliding sleeve 21 away from the filtering mechanism 3, a rotation shaft is rotatably connected between the two connection plates 211, and the driving wheel 221 is fixedly connected to the rotation shaft. The number of the driving wheels 221 is two, the two driving wheels 221 are arranged up and down, the two driving wheels 221 are in transmission connection with the crawler belt 222, and the crawler belt 222 is in contact with the inner wall of the collector well. The driving wheel 221 (the driving wheel 221 located above) close to the moving gear 23 is in transmission connection with the moving gear 23 through a driving belt 26, specifically, a driving belt 25 wheel is coaxially and fixedly connected to a rotating shaft of the driving wheel 221 located above, and the driving belt 26 is in transmission connection with the moving belt wheel and the driving belt 25 wheel. In order to improve the rotational synchronism of the two driving wheels 221, a timing belt 223 is drivingly connected between the two driving wheels 221.

The filtering mechanism 3 and the moving mechanism 2 are fixedly connected through a connecting piece 4, specifically, the connecting piece 4 comprises a Y-shaped supporting rod 41 and an X-shaped bracket 42, the left top end of the Y-shaped supporting rod 41 is rotationally connected with the rotating shaft of the moving gear 23, and the right top end of the Y-shaped supporting rod 41 is rotationally connected with the output shaft of the driving motor 24; the sliding sleeve 21 is fixedly connected with the left side of the Y-shaped support rod 41 through two X-shaped supports 42, and the filtering box 33 is fixedly connected with the right side of the Y-shaped support rod 41 through two X-shaped supports 42.

The specific implementation process is as follows:

(1) And (3) installing a water suction pump 34: initially, both the moving mechanism 2 and the filtering mechanism 3 are located at the top end of the guide mechanism 1, i.e., the moving mechanism 2 and the filtering mechanism 3 are located near the wellhead of the water collecting well, and the front side wall of the filtering tank 33 is slid upward so that the inner space of the filtering tank 33 is exposed, and the suction pump 34 is installed into the filtering tank 33. Subsequently, the moving mechanism 2 is started, the driving motor 24 rotates anticlockwise to drive the moving gear 23 to synchronously rotate through the driving belt 25, meanwhile, the moving gear 23 drives the two driving wheels 221 to synchronously rotate through the driving belt 26 and the synchronous belt 223, at the moment, the moving gear 23 moves downwards along the guide shaft, the crawler belt 222 moves downwards along the inner wall of the water collecting well synchronously, and the filtering mechanism 3 is driven to move downwards until the moving mechanism 2 reaches the bottom of the well.

(2) And (3) ponding treatment: accumulated water entering the water collecting well sequentially passes through the filter plate 31, the filter bucket 32 and the filter box 33 and finally reaches the bottom of the well, and in the process, sundries with the volume larger than the aperture of the mud hole 313 can be intercepted by the filter plate 31 so as to be accumulated on the filter plate 31; debris having a volume smaller than the aperture of the sludge passing hole 313 and larger than the aperture of the passing hole 331 is intercepted by the top of the filter box 33 by the filter plate 31, and is thus accumulated in the filter bucket 32. The amount of impurities carried in the accumulated water filtered twice through the filter plate 31 and the top of the filter box 33 is extremely small, and the volume of impurities which are not filtered is extremely small, so that the water is pumped by the water pump, the blockage probability of the water pump 34 caused by impurities is greatly reduced in the process of discharging the accumulated water in the water collecting well, and the service life of the water pump can be effectively prolonged. In addition, even if part of impurities directly fall to the bottom of the well from the gap between the filtering mechanism 3 and the inner wall of the collector well, the impurities cannot enter the filtering box 33 through the through hole 331 with smaller aperture on the filtering box 33, so that the possibility of blockage of the water suction pump 34 is further reduced.

(3) Sundry cleaning: after the filtration is carried out for a desired time, the driving motor 24 is started, the driving motor 24 rotates clockwise to drive the moving gear 23 to rotate synchronously through the driving belt 25, meanwhile, the moving gear 23 drives the two driving wheels 221 to rotate synchronously through the driving belt 26 and the synchronous belt 223, at the moment, the moving gear 23 moves upwards along the guiding shaft, and the crawler belt 222 moving mechanism 2 moves upwards along the inner wall of the water collecting well synchronously, so that the filtering mechanism 3 is driven to move upwards until the moving mechanism 2 reaches the wellhead. The staff dismantles the inner circular plate 312 from the outer circular plate 311 to facilitate cleaning the inside of the filter bucket 32; subsequently, the worker slides the front side wall of the filter box 33 upward to expose the inner space of the filter box 33, thereby facilitating cleaning of the inside of the filter box 33. After the cleaning is completed, the driving motor 24 is started, and the driving motor 24 rotates anticlockwise, so that the moving mechanism 2 drives the filtering mechanism 3 to return to the bottom of the well.

(4) Maintaining the water pump: when the pump fails, the method of cleaning the impurities in the step (3) can be adopted, the filter mechanism 3 is driven to the wellhead through the moving mechanism 2, the front side wall of the filter box 33 is slid to expose the inner space, so that the water pump 34 in the filter box 33 is convenient to maintain, after maintenance is completed, the front side wall of the filter box 33 is closed again, and the filter mechanism 3 is driven to the bottom hole position through the moving mechanism 2.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (10)

1. The utility model provides a sump pit ponding processing apparatus which characterized in that: the device comprises a guide mechanism, a moving mechanism and a filtering mechanism, wherein a water pump is arranged in the filtering mechanism; the guide mechanism comprises two guide rods which are axially arranged along the water collecting well, the filtering mechanism is vertically and slidably connected between the two guide rods, and at least one guide rod is provided with a moving mechanism; the moving mechanism comprises a driving motor, a moving rack axially arranged along the guide rod and a moving gear meshed with the moving rack, and the driving motor is in transmission connection with the moving gear through a driving belt; the filter mechanism is also fixedly connected with a connecting piece, the driving motor is fixedly connected with the connecting piece, and the movable gear is rotationally connected to the connecting piece.

2. A sump water treatment apparatus as defined in claim 1, wherein: the moving mechanism further comprises a sliding sleeve sleeved on the guide rod, the sliding sleeve is in sliding connection with the guide rod, and the sliding sleeve is fixedly connected with the connecting piece; one side of the sliding sleeve, which is far away from the filtering mechanism, is rotationally connected with two driving wheels, a crawler belt is connected between the two driving wheels in a transmission way, and the crawler belt is contacted with the inner wall of the collector well; the driving wheel close to the moving gear is in transmission connection with the moving gear through a transmission belt.

3. A sump water treatment apparatus as defined in claim 1, wherein: the filtering mechanism comprises a filtering box, through holes are formed in the surface of the filtering box, and the water suction pump is arranged in the filtering box; one side wall of the filter box is vertically and slidably connected to two adjacent side walls of the filter box.

4. A sump water treatment apparatus according to claim 3, wherein: the filtering mechanism further comprises a filtering hopper fixedly connected to the top of the filtering box and a filtering plate fixedly connected to the top of the filtering hopper, and the cross section of the filtering hopper is inverted trapezoid; a plurality of mud holes are formed in the filter plate, guide holes are formed in positions, corresponding to the guide rods, of the filter plate, and the guide rods are connected in the guide holes in a sliding mode.

5. A sump water treatment apparatus as defined in claim 4, wherein: the filter plate comprises an outer ring plate and an inner circular plate, the outer ring plate is detachably connected with the inner circular plate, mud holes are formed in the inner circular plate, and guide holes are formed in the outer ring plate.

6. A sump water treatment apparatus as defined in claim 5, wherein: the middle part of the inner circular plate is recessed downwards.

7. A sump water treatment apparatus as defined in claim 5, wherein: the detachable connection mode of the outer ring plate and the inner ring plate is spigot clamping fit.

8. A sump water treatment apparatus as defined in claim 4, wherein: the aperture of the mud through hole is larger than that of the through hole.

9. A sump pit water treatment apparatus as defined in claim 2 wherein: the connecting piece comprises a Y-shaped supporting rod and an X-shaped support, the top end of the Y-shaped supporting rod is connected with the driving motor and the moving gear respectively, and the filtering mechanism and the sliding sleeve are fixedly connected with the Y-shaped supporting rod through the X-shaped support respectively.

10. A sump pit water treatment apparatus as defined in claim 2 wherein: and a synchronous belt is connected between the two driving wheels in a transmission way.

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