CN115045314B

CN115045314B - Foundation pit accumulated water environment-friendly treatment device

Info

Publication number: CN115045314B
Application number: CN202210722260.4A
Authority: CN
Inventors: 郭雄伟; 刘洋; 于洋; 谢月明; 李晨阳; 潘鹏翔
Original assignee: China Construction Seventh Engineering Bureau Shanghai Corp Ltd
Current assignee: China Construction Seventh Engineering Bureau Shanghai Corp Ltd
Priority date: 2022-06-24
Filing date: 2022-06-24
Publication date: 2023-04-18
Anticipated expiration: 2042-06-24
Also published as: CN115045314A

Abstract

The invention discloses a foundation pit accumulated water environment-friendly treatment device which comprises a pipeline erected on a moving mechanism, wherein the front end of the pipeline is provided with a suction unit, the rear end of the pipeline is provided with a sludge treatment unit, and the suction unit comprises a suction assembly and a clearing assembly matched with the suction assembly. The suction unit can effectively submerge into the water at the bottom of the foundation pit, the water at the bottom of the foundation pit is sucked and discharged, the water in the foundation pit can be effectively and quickly discharged, and the sludge is separated from the water by matching with the sludge treatment unit; the impurities adsorbed on the outer wall of the suction head are removed through the cleaning assembly, so that the suction assembly is prevented from being blocked by the impurities.

Description

Foundation pit accumulated water environment-friendly treatment device

Technical Field

The invention relates to the technical field of building construction, in particular to an environment-friendly treatment device for accumulated water in a foundation pit.

Background

Before excavation, an excavation scheme is determined according to geological and hydrological data and the conditions of buildings nearby the site, and waterproof drainage work is performed. The person who is not excavated can use the method of putting the side slope to stabilize the earth slope, and the size of the slope is determined according to the relevant construction regulations. When a building is excavated deeply and nearby, a foundation pit wall supporting method and a concrete spraying wall protecting method can be used.

After the foundation ditch excavation is accomplished, because the reason of weather or afforestation infiltration cause the inside ponding of foundation ditch very easily, consequently just need a device with the inside water discharge of foundation ditch, the mode that the suction pump was adopted usually to traditional means is discharged with water, but because the unevenness of foundation ditch bottom, after the water of foundation ditch inside is discharged the take the altitude, then can't discharge, need wait for the inside underwater of foundation ditch to sink or evaporate, latency is longer, simultaneously because just accomplish preliminary excavation construction in the foundation ditch, consequently, silt has in the sewage of discharging, if direct discharge, can cause secondary pollution to other departments of discharging.

Disclosure of Invention

Aiming at the defects in the background technology, the invention provides an environment-friendly treatment device for accumulated water in a foundation pit, the problem of among the prior art inside ponding of foundation ditch can't discharge completely is solved.

The technical scheme of the invention is realized as follows:

the utility model provides a foundation ditch ponding environmental protection processing apparatus, is equipped with the suction unit including setting up the pipeline on moving mechanism, the front end of pipeline, the rear end is equipped with silt processing unit, the suction unit including the suction subassembly with suction subassembly complex clear away the subassembly.

Further, the suction assembly comprises a suction hood connected to the end of the pipeline and suction heads distributed in the suction hood at equal angles and communicated with the pipeline.

Furthermore, the cleaning assembly comprises an annular fixed disc movably arranged in the suction hood and a head cleaning sleeve arranged on the annular fixed disc, and the head cleaning sleeve is matched with the suction head; a moving mechanism for driving the annular fixed disc to move is arranged in the suction hood; the annular fixed disc is provided with a through hole for the suction head to pass through, and the head cleaning sleeve is arranged at the through hole and sleeved on the suction head.

Further, the silt processing unit is including handling the case, handles the bottom of the case portion be equipped with the inlet opening of pipeline intercommunication, upper portion is equipped with the discharge pipe way, the middle part is equipped with the filtration processing structure, and the filtration processing structure is close to the discharge pipe way setting.

Further, handle the incasement and be equipped with silt processing subassembly, silt processing subassembly is including removing the mud scraper that sets up handling the incasement, handles the position that the case is just to the mud scraper and is equipped with out the mud hole, goes out mud hole and inlet opening setting on the lateral wall of handling the case difference side.

Furthermore, a dustproof box is arranged at the bottom of the treatment box, a sliding rail and a sliding body in sliding fit with the sliding rail are arranged in the dustproof box, and a mud scraper is connected to the sliding body; a mud scraping sliding driving mechanism for driving the sliding body to slide is arranged in the dust-proof box.

The pipe placing seat is provided with an annular slide rail and a rotating block in sliding fit with the annular slide rail, and the pipe placing column penetrates through the annular slide rail; the rotating block is provided with a first limiting column and a second limiting column at intervals, and the pipeline passes through the space between the first limiting column and the second limiting column so that the annular movement of the rotating block drives the pipeline to be wound or unwound on the pipe unwinding column; a circular movement driving mechanism for driving the rotary block to move circularly is arranged in the tube placing seat.

Furthermore, a pipe placing limiting assembly is arranged at the upper end of the pipe placing column and comprises a rotating table arranged at the upper end of the pipe placing column, a limiting part in sliding fit with the rotating table and a limiting sliding driving mechanism for driving the limiting part to slide; the rotating platform is provided with a groove body, the side wall of the groove body is radially provided with a sliding groove, and the limiting part is arranged in the sliding groove in a penetrating mode and is in sliding fit with the sliding groove.

Furthermore, the moving mechanism is provided with a driving assembly for pushing and pulling the pipeline, the driving assembly comprises a driving frame and two groups of driving wheels which are oppositely arranged on the driving frame, each group of driving wheels is linked through a chain wheel mechanism, the pipeline passes through the two groups of driving wheels, the driving wheels are provided with meshing teeth, and the pipeline is provided with meshing grooves which are meshed with the meshing teeth.

Furthermore, a clamping assembly for clamping the pipeline is arranged on the moving mechanism; the clamping assembly comprises an installation back plate and front end clamping arms which are hinged on the installation back plate and symmetrically arranged, and clamping blocks for clamping the pipeline are arranged on the front end clamping arms; the mounting back plate is provided with a clamping arm rotation driving mechanism for driving the front clamping arm to swing.

The invention has the beneficial effects that:

1. the water pumping unit can effectively submerge into the water at the bottom of the foundation pit, and the water at the bottom of the foundation pit is pumped and discharged after the water in the foundation pit is discharged, so that the water in the foundation pit can be effectively and quickly discharged;

2. meanwhile, the sludge treatment unit on the foundation pit is matched, so that the sludge can be quickly separated from water, and the sludge is extruded from a sludge outlet hole on the treatment box through a sludge scraper, so that the device can continuously work conveniently;

3. the pipeline control system can clamp and fix the pipeline and control the pipeline to extend and retract, so that the pumping unit can effectively submerge to the bottom of the foundation pit for cleaning;

4. impurities adsorbed on the outer wall of the suction head are removed through the removing assembly, so that the suction head is prevented from being blocked by the impurities;

5. the pipe retracting unit is matched with the work of a pipeline control system to assist the extension and retraction control of the pipeline, so that the pipeline is prevented from being scattered;

6. the end part of the pipeline is driven to move by the unmanned aerial vehicle, so that the suction unit can move back and forth to perform suction work conveniently;

7. in order to prevent unmanned aerial vehicle control error from appearing through putting the spacing subassembly of pipe, avoid putting the pipe and drop from putting the tubular column at will.

Drawings

In order to illustrate the embodiments of the invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the invention, and that other drawings may be derived from those drawings by a person skilled in the art without inventive effort.

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

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a schematic view of the clamping assembly of the present invention;

FIG. 4 is a schematic structural view of the tube retracting unit of the present invention;

FIG. 5 is a top view of a partial structure of the tube retracting unit of the present invention;

FIG. 6 is a schematic structural view of a sludge treatment unit of the present invention;

FIG. 7 is a schematic structural view of the mud scraping drive mechanism of the present invention;

FIG. 8 is a top view of a treatment tank of the present invention;

fig. 9 is a partially enlarged view of B in fig. 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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 obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1-9, embodiment 1 a foundation ditch ponding environmental protection processing apparatus, including moving mechanism and the pipeline 2 of setting up on moving mechanism, in this embodiment, moving mechanism is unmanned aerial vehicle 1. The bottom of unmanned aerial vehicle 1 is equipped with the pipeline control system that the control pipeline removed. The front end of the pipeline 2 is provided with a suction unit, the rear end of the pipeline is provided with a sludge treatment unit, and the sludge treatment unit is arranged on one side of the foundation pit. The suction unit includes a suction assembly and a purge assembly cooperating with the suction assembly. During the use, at first will be removed the equipment main part by moving mechanism near the foundation ditch, control unmanned aerial vehicle 1 take off to the top of foundation ditch ponding afterwards to remove through pipeline control system control pipeline and begin to put into the suction unit, the suction unit is handled silt processing unit with the water suction, is handled silt and is filtered ponding by silt processing unit, but the ponding of foundation ditch bottom also can be cleared up.

The suction assembly comprises a suction hood 15, a propulsion motor 16, a plurality of suction heads 17, a plurality of head cleaning sleeves 18 and an annular fixed disc 19. One end of the suction hood 15 is connected with one end of the pipeline 2, and the suction heads 17 are distributed in the suction hood 15 at equal angles; an annular fixed disk 19 is movably arranged in the suction hood 15. The suction head 17 is sleeved with the head removing sleeve 18, the lower end of the head removing sleeve 18 is a conical cavity, the upper end of the head removing sleeve 18 is mounted on the annular fixed disc 19, the annular fixed disc 19 is provided with through holes, the number of the through holes is the same as that of the suction heads 17, the through holes are used for the suction heads 17 to pass through, the through holes are sleeved on the suction heads 17, the propelling motor 16 is fixed on the end face of the suction hood 15, and the telescopic end of the propelling motor 16 is fixed with the annular fixed disc 19.

It should be noted that, the suction hood 15 is placed into the water, as there are some impurities in the sewage, when the pipeline 2 starts to suck, the impurities will be attached to the outer wall of the suction head 17 along with the direction of the water flow, at this time, after the suction hood 15 enters the water, the processing module periodically controls the propulsion motor 16 to push the annular fixed disk 19 to descend, the annular fixed disk 19 drives the head cleaning sleeve 18 to descend, the front end of the head cleaning sleeve 18 is of a conical structure, so the front end part of the head cleaning sleeve 18 can be closely attached to the outer wall of the suction head 17, the impurities adsorbed on the outer wall of the suction head 17 are removed, after the removal is completed, if the suction speed is still slow within a certain time, the unmanned aerial vehicle 1 drives the suction head 17 to change position.

It should be noted that a pump, which may be a slurry pump, is provided between the pipeline and the sludge treatment unit, and the pump pumps water into the sludge treatment unit.

In addition, suction hood 15 outside has the battery compartment, and inside has battery and circuit board, and the integration has processing module and timing module on the circuit board, the circuit board carries out electric connection through driver and propulsion motor 16, battery compartment, propulsion motor 16 all are water repellent.

Embodiment 2, which is different from embodiment 1 in that, as shown in fig. 6 and 8, the sludge treatment unit includes a treatment tank 37, water inlet holes are formed at lower portions of left and right sides of the treatment tank 37, an inlet bin is formed at outer portions of left and right sides of the treatment tank 37, a pipe 2 is communicated with an upper portion of the inlet bin, and a discharge pipe 43 is connected to an upper end portion of the treatment tank 37. The middle part of the inside of the treatment box 37 close to the discharge pipeline 43 is provided with a filtering treatment structure which is a filter screen. A pair of buffer baffles 42 are arranged on the left side and the right side inside the treatment box 37, and the buffer baffles 42 are over against the water inlet holes. The filter treatment structure is located above a pair of buffer baffles 42.

It should be noted that the accumulated water pumped in the pipeline 2 enters the treatment tank 37 through the inlet bin, and is buffered by the buffer baffle 42 in the treatment tank 37, so that the accumulated water is prevented from directly entering the treatment tank 37 and having impact force, and the sludge in the treatment tank is dispersed.

When the accumulated water entering the interior of the bin enters the center of the treatment box 37, the accumulated water can slowly spread upwards until the accumulated water passes through the filtering treatment structure and then is discharged through the discharge pipeline 43 on the treatment box 37, and the sludge is shielded in the treatment box 37 by the filtering treatment structure.

Embodiment 3, which is different from embodiment 2 in that the sludge treatment unit further includes a sludge treatment module provided in the treatment tank 37, as shown in fig. 6 to 8. The sludge treatment assembly comprises a movable sludge scraper arranged in a treatment box 37, sludge outlet holes 44 are formed in the front side and the rear side of the treatment box 37, which are opposite to the sludge scraper 38, the sludge outlet holes 44 and water inlet holes are formed in the side walls of different sides of the treatment box 37, and buffer baffles 42 are arranged on the inner sides of the water inlet holes, so that the sludge outlet holes 44 and the water inlet holes are not interfered with each other. In this embodiment, the mud outlet 44 is a strip-shaped hole.

Further, as shown in fig. 7, a dust-proof box 46 is provided at the bottom of the processing box 37, a pair of slide rails 47 perpendicular to the scraper 38 is provided at the bottom of the dust-proof box 46, and a sliding body 48 is provided in sliding fit with the slide rails 47. The scrapers 38 are also provided in a pair, and the dust box 46 is provided at the top thereof with a chute through which the scrapers 38 pass. The pair of scrapers 38 are mounted to the slide body 48 after passing through the chute. Be equipped with the mud scraping actuating mechanism who drives the mud scraper 38 and remove in the dust proof box 46, this mechanism is including setting up the mud scraping gear 40 at the central point of dust proof box 46, the mud scraping gear 40 with at the dust proof box 46 rotation connection, be equipped with the mud motor 41 of driving mud scraping gear 40 pivoted in the dust proof box 46, the drive end of mud motor 41 is connected with mud scraping gear 40, the relative one side of a pair of slider 48 is equipped with a pair of rack 39, mud scraping gear 40 meshes with a pair of rack 39. The rotation of the mud scraping gear 40 drives the pair of mud scraping plates 38 to move towards and away from each other, and the mud in the treatment tank 37 is squeezed out from the mud outlet holes 44 on the front and rear sides of the treatment tank 37 by the mud scraping plates 38.

In addition, a folding dustproof sealing sheet is arranged between the mud scraper and the sliding groove at the top of the dustproof box 46.

Embodiment 4 differs from embodiment 3 in that, as shown in fig. 8, the treatment tank 37 is provided with sludge discharge covers 45 on the outer sides of the front and rear sides thereof, and the sludge discharge covers 45 surround the outer sides of the strip-shaped sludge discharge holes 44 for collecting the extruded sludge.

Embodiment 5, which is different from embodiment 1 in that, as shown in fig. 1 and 3, the pipe control system includes a gripping assembly that grips a pipe 2. Centre gripping subassembly includes installation backplate 3 and articulates a pair of front end card arm 7 on installation backplate 3, and installation backplate 3 is fixed in unmanned aerial vehicle 1's bottom, should set up on installation backplate 3 to front end card arm 7 symmetry. The mounting backboard 3 is provided with a clamping arm rotation driving mechanism for driving the front clamping arm 7 to swing. The arm rotation driving mechanism includes an arm driving motor 4, a pair of meshing shafts 6, and a pair of meshing gears 5. A pair of meshing shafts 6 is inserted on the mounting backboard 3, a pair of meshing gears 5 is mounted on the pair of meshing shafts 6, the mounting backboard 3 is provided with a clamping arm driving motor 4, and the driving end of the clamping arm driving motor 4 is connected with the meshing shafts 6. The pair of front end clamping arms 7 are arranged at the front end parts of the pair of meshing shafts 6, the front end clamping arms 7 are arc-shaped, the clamping blocks 8 are respectively arranged on the inner sides of the front end clamping arms 7, the inner sides of the clamping blocks 8 are matched with the outer wall of the pipeline 2, the pipeline 2 passes through the space between the pair of front end clamping arms 7, and the clamping blocks 8 can fix the front end of the pipeline 2.

After unmanned aerial vehicle 1 reachd the ponding top, card arm driving motor 4 drives meshing shaft 6, wherein the meshing gear 5 intermeshing back on the meshing shaft 6, then lie in a pair of front end card arm 7 on the meshing shaft 6 and be close to pipeline 2 to compress tightly and fix pipeline 2 through chucking piece 8.

Embodiment 6, which is different from embodiment 5 in that, as shown in fig. 1 and fig. 2, the pipeline control system further includes a driving assembly for pushing and pulling the pipeline 2, the driving assembly includes a driving frame 9 disposed at the bottom of the unmanned aerial vehicle 1, the driving frame 9 is a rectangular frame structure, and the driving assembly further includes two sets of driving wheels 12 disposed on the driving frame; each set of drive wheels 12 includes two drive wheels 12, the two drive wheels 12 being linked by a sprocket mechanism. The driving wheels 10 are connected with the chain wheels 12 through shaft bodies, the chain wheels 12 are connected through chains 13, the driving frame 9 is provided with a driving machine 11 for driving the chain wheels 12, the pipeline 2 passes between the two groups of driving wheels 10, a plurality of meshing teeth are arranged on the outer walls of the driving wheels 10 at equal angles, meshing grooves are formed in the outer wall of the front end of the pipeline 2 at equal intervals, and the meshing teeth can be meshed with the meshing grooves. The driving machine 11 drives the chain wheels 12 respectively, and the chain 13 drives the other chain wheels 12 to rotate therewith, so that the two groups of driving wheels 10 rotate, and the front end parts of the driving wheels 10 are provided with engaging teeth which are engaged with engaging grooves on the outer wall of the pipeline 2, so that the pipeline 2 descends.

Embodiment 7, which differs from embodiment 6 in that, as shown in fig. 1, the bottom of the drone 1 near the propulsion carriage 9 is provided with a pair of auxiliary wheels 14 that grip the pipe 2 and are in rolling engagement with the pipe 2. The pipe 2 passes first through the gripping assembly, then between the pair of auxiliary wheels 14 and then between the two sets of drive wheels 10. When the driving component works, the front end clamping arm 7 of the clamping component opens. When the driving component stops working, the front clamping arm 7 of the clamping assembly clamps and fixes the pipeline 2.

Embodiment 8, which is different from embodiment 1 in that, as shown in fig. 4, the foundation pit accumulated water treatment apparatus further includes a pipe retracting unit provided at one side of the foundation pit. The pipe unwinding and winding unit comprises a pipe unwinding seat 20 and a pipe unwinding column 21 arranged on the pipe unwinding seat 20, wherein the pipe unwinding column 21 is used for winding the pipeline 2. The upper end of the tube placing base 20 is provided with an annular slide rail 30 and a rotating block 29 which is in sliding fit with the annular slide rail 20, and the tube placing column 21 passes through the annular slide rail 30; the setting pipe base 20 is provided with a circular movement driving mechanism for driving the rotary block 29 to move circularly around the setting pipe string 21. The rotating block 29 is provided with a first limit column 27 and a second limit column 28 at intervals, and the pipeline 2 passes through the space between the first limit column 27 and the second limit column 28, so that the annular movement of the rotating block 29 drives the pipeline 2 to wind or unwind on the pipe placing column 21.

Further, the circular movement driving mechanism comprises a supporting platform 36 arranged inside the tube placing base 20, the upper end surface of the supporting platform 36 is provided with an opening, and a tube placing and taking motor 34 is arranged inside the supporting platform. The supporting platform 36 is provided with a rotary ring 35 at the upper end opening, the inner side of the rotary ring 35 is embedded with a concentric internal gear 32, and the internal gear 32 is rotatably matched with the rotary ring 35. The driving end of the pipe collecting motor 34 is connected with an external gear 33, and the internal gear 32 can be meshed with the external gear 33. The internal gear 32 is fixedly connected with the lower end of the rotating block 29 through the synchronous beam 31.

During the use, when unmanned aerial vehicle 1 slowly descends, control receiving and releasing pipe motor 34 is to external gear 33 drive, external gear 33 and internal gear 32 meshing back, then internal gear 32 drives rotatory piece 29 through synchronous beam 31 and rotates, because first spacing post 27 and second spacing post 28 all set up on rotatory piece 29, so first spacing post 27 all rotates with second spacing post 28, first spacing post 27 is the annular pivoted in-process with second spacing post 28, and pipeline 2 is located between first spacing post 27 and the second spacing post 28 all the time, so pipeline 2 is received when first spacing post 27 and the corotation of second spacing post 28, twine pipeline 2 on releasing post 21, the upper end position of specific second spacing post 28 still is provided with limit baffle.

Embodiment 9 differs from embodiment 8 in that, as shown in fig. 4 and 5, a pipe placing limit assembly is provided at an upper end of the pipe placing column 21, and the pipe placing limit assembly includes a rotary table 22 provided at the upper end of the pipe placing column 21, a limit member 23 slidably engaged with the rotary table 22, and a limit slide driving mechanism for driving the limit member 23 to slide.

Specifically, a groove body is arranged on the rotating table 22, three sliding grooves are radially arranged on the side wall of the groove body, and the limiting part 23 is arranged in the sliding grooves in a penetrating manner and is in sliding fit with the sliding grooves. The inner end of the limiting piece 23 is wedge-shaped, and the other end of the limiting piece is rectangular. The middle part of the limiting part 23 is arranged in the sliding groove, and the groove body is connected with the wedge-shaped end of the limiting part 23 through a return spring 24. The upper end face of the rotating table 22 is provided with a motor frame, the limiting sliding driving mechanism comprises a reset motor 25 arranged on the motor frame, a pin plug 26 is connected to the telescopic end of the reset motor 25 downwards, and a wedge-shaped surface matched with the inner end of the limiting part 23 is arranged at the lower end of the pin plug 26.

When the limiting device is used, when the reset motor 25 pushes the pin plug 26 to descend, the pin plug 26 extrudes the limiting piece 23, the front end of the limiting piece 23 extends out, the extending length is larger than the diameter length of the pipe placing column 21, therefore, the pipeline 2 is limited to be released, when the limiting is not required, the reset motor 25 pulls the pin plug 26 to be separated from the wedge-shaped front end of the limiting piece 23, and the limiting piece 23 is pulled back between the limiting piece 23 and the chute body through the reset spring 24.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An environment-friendly treatment device for accumulated water in a foundation pit, the method is characterized in that: the device comprises a pipeline (2) erected on a moving mechanism, wherein the front end of the pipeline (2) is provided with a suction unit, the rear end of the pipeline is provided with a sludge treatment unit, and the suction unit comprises a suction assembly and a clearing assembly matched with the suction assembly; the suction assembly comprises a suction hood (15) connected to the end of the pipeline (2) and suction heads (17) which are distributed in the suction hood (15) at equal angles and communicated with the pipeline (2); the cleaning assembly comprises an annular fixed disc (19) which is movably arranged in the suction hood (15) and a head cleaning sleeve (18) which is arranged on the annular fixed disc (19), and the head cleaning sleeve (18) is matched with the suction head (17); a moving mechanism for driving the annular fixed disc (19) to move is arranged in the suction hood (15); the annular fixed disc (19) is provided with a through hole for the suction head (17) to pass through, and the head cleaning sleeve (18) is arranged at the through hole and sleeved on the suction head (17);

the pipe winding and unwinding device is characterized by further comprising a pipe winding and unwinding unit, wherein the pipe winding and unwinding unit comprises a pipe unwinding seat (20) and a pipe unwinding column (21) arranged on the pipe unwinding seat (20) and used for winding the pipeline (2), an annular slide rail (30) and a rotating block (29) in sliding fit with the annular slide rail (30) are arranged on the pipe unwinding seat (20), and the pipe unwinding column (21) penetrates through the annular slide rail (30); the rotating block (29) is provided with a first limiting column (27) and a second limiting column (28) at intervals, and the pipeline (2) passes through the space between the first limiting column (27) and the second limiting column (28) so that the annular movement of the rotating block (29) drives the pipeline (2) to wind or unwind on the pipe placing column (21); a circular movement driving mechanism for driving the rotary block (29) to move circularly is arranged in the tube placing seat (20);

the upper end of the pipe placing column (21) is provided with a pipe placing limiting assembly, and the pipe placing limiting assembly comprises a rotating table (22) arranged at the upper end of the pipe placing column (21), a limiting part (23) in sliding fit with the rotating table (22) and a limiting sliding driving mechanism for driving the limiting part (23) to slide; the rotating table (22) is provided with a groove body, the side wall of the groove body is radially provided with a sliding groove, and the limiting piece (23) penetrates through the sliding groove and is in sliding fit with the sliding groove;

the pipeline driving mechanism is characterized in that a push-pull pipeline (2) driving assembly is arranged on the moving mechanism, the driving assembly comprises a driving frame (9) and two groups of driving wheels (12) which are oppositely arranged on the driving frame (9), each group of driving wheels (12) are linked through a chain wheel mechanism, the pipeline (2) passes through the two groups of driving wheels (12), meshing teeth are arranged on the driving wheels (12), and meshing grooves meshed with the meshing teeth are formed in the pipeline (2).

2. The foundation pit accumulated water environment-friendly treatment device as claimed in claim 1, wherein: the silt processing unit is including handling case (37), handles case (37) bottom and is equipped with inlet opening, upper portion with pipeline (2) intercommunication and is equipped with discharge pipe (43), the middle part is equipped with the filtration processing structure, and the filtration processing structure is close to discharge pipe (43) and sets up.

3. The environmentally-friendly treatment device for accumulated water in foundation pit as claimed in claim 2, wherein: the sludge treatment device is characterized in that a sludge treatment assembly is arranged in the treatment box (37), the sludge treatment assembly comprises a movable sludge scraper (38) arranged in the treatment box (37), a sludge outlet (44) is formed in the position, right facing the sludge scraper (38), of the treatment box (37), and the sludge outlet (44) and the water inlet are formed in the side wall of the treatment box (37) on different sides.

4. The environment-friendly treatment device for accumulated water in foundation pits of claim 3, wherein: the bottom of the treatment box (37) is provided with a dustproof box (46), a sliding rail (47) and a sliding body (48) which is in sliding fit with the sliding rail (47) are arranged in the dustproof box (46), and the mud scraper (38) is connected to the sliding body (48); a mud scraping driving mechanism for driving the sliding body (48) to slide is arranged in the dust-proof box (46).

5. The foundation pit accumulated water environment-friendly treatment device as claimed in any one of claims 1 to 4, wherein: the moving mechanism is provided with a clamping component for clamping the pipeline (2); the clamping assembly comprises a mounting back plate (3) and front-end clamping arms (7) which are hinged on the mounting back plate (3) and symmetrically arranged, and clamping blocks (8) for clamping the pipeline (2) are arranged on the front-end clamping arms (7); the mounting back plate (3) is provided with a clamping arm rotation driving mechanism for driving the front clamping arm (7) to swing.