CN213417711U - Water pumping equipment for water conservancy construction - Google Patents

Abstract

The utility model discloses a pumping equipment for water conservancy construction, fixed mounting has the suction pump, rotates the platform on the carriage of machineshop car, the supporting hydraulic elevating platform of installing on rotating the platform, the fixed mounting of hydraulic elevating platform has the fixed arm of hydraulic stretching arm, the digging arm of hydraulic stretching arm front end is consolidated with the installation piece, and the installation piece end is articulated with the top of upset mounting bracket, the installation piece just end is articulated with the one end of hydraulic stretching cylinder, and the other end of hydraulic stretching cylinder articulates the middle section of upset mounting bracket, hydraulic stretching rod installs on the upset mounting bracket and arranges along upset mounting bracket extending direction; the first telescopic pipe is arranged along the hydraulic telescopic arm in a matched mode, the second telescopic pipe is arranged along the extending direction of the overturning mounting frame, the second telescopic pipe is driven by the hydraulic telescopic rod to do telescopic motion, the second telescopic pipe is communicated with the first telescopic pipe, and the first telescopic pipe is communicated with the water suction pump. The utility model discloses have and to stabilize the beneficial effect who draws water under different complex environment.

Description

Water pumping equipment for water conservancy construction

Technical Field

The utility model relates to a water conservancy construction equipment technical field, specific pumping equipment that water conservancy construction used that says so.

Background

In the water conservancy construction process, need to draw ponding in the specific area or river water in the specific river course region to other places, often need to use special pumping equipment to accomplish, but traditional pumping equipment is when facing complicated construction environment, and its preorder work is more, often is difficult to carry out stable efficient extraction to the water in the specific area. Therefore, it is necessary to design a water pumping device for water conservancy construction, which can stably pump water in different complex environments.

Disclosure of Invention

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a can stabilize the pumping equipment of water conservancy construction usefulness that draws water under different complex environment.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a water pumping device for water conservancy construction comprises an engineering truck, a water pump, a rotating platform, a hydraulic lifting platform, a hydraulic telescopic arm, a turnover mounting frame, a hydraulic telescopic cylinder, a hydraulic telescopic rod, a first telescopic pipe and a second telescopic pipe,

the water suction pump is fixedly installed on the carriage of the engineering truck, the rotating platform is installed on the carriage of the engineering truck in a matched mode in a relative rotating mode, the hydraulic lifting platform is installed on the rotating platform in a matched mode, the top of the hydraulic lifting platform is horizontally and fixedly provided with the fixed arm of the hydraulic telescopic arm, the movable arm at the front end of the hydraulic telescopic arm is fixedly connected with an installation block, the tail end of the installation block is hinged with the top end of the overturning installation frame, the primary end of the installation block is hinged with one end of the hydraulic telescopic cylinder, the other end of the hydraulic telescopic cylinder is hinged to the middle section of the overturning installation frame, and the hydraulic telescopic rod is installed on the overturning installation frame and arranged along the extending direction of the overturning installation frame;

first expansion pipe edge the supporting arrangement of hydraulic telescoping arm, just telescopic motion is done by the drive of hydraulic telescoping arm to first flexible pipe, the second expansion pipe edge upset mounting bracket extending direction arranges, just telescopic motion is done by the drive of hydraulic telescoping arm to the flexible pipe of second, the second expansion pipe is linked together through first intercommunication hose and first flexible pipe, first expansion pipe through second intercommunication hose with the suction pump is linked together.

The engineering truck is characterized in that a mounting base is horizontally and fixedly connected to a carriage of the engineering truck, the rotating platform is nested and mounted on the mounting base in a relative rotating mode, a first steering gear is fixedly connected to the outer side wall of the rotating platform, a driving motor is fixedly mounted on the mounting base, a second steering gear is mounted on a rotating shaft of the driving motor, and the first steering gear is meshed and connected with the second steering gear.

The first telescopic pipe comprises a fixed pipe body and a plurality of groups of movable pipe bodies, the number of the movable pipe bodies is the same as that of the movable arms of the hydraulic telescopic arms, the fixed pipe bodies are arranged in the extending direction of the fixed arms of the hydraulic telescopic arms and fixedly installed on the fixed arms of the hydraulic telescopic arms, each group of movable pipe bodies are fixedly installed on the movable arms of a group of hydraulic telescopic arms respectively, the front ends of the movable pipe bodies are fixedly connected with the front ends of the corresponding movable arms, the tail ends of the movable pipe bodies are nested and inserted in the movable pipe bodies or the fixed pipe bodies on the rear sides of the movable pipe bodies in a relative sliding mode, and the tail ends of the fixed pipe bodies are communicated with the water suction pump through second.

The second telescopic pipe comprises a fixed pipe and a plurality of groups of movable pipes, the fixed pipe is arranged along the extending direction of the overturning mounting frame and fixedly installed in the overturning mounting frame, the groups of movable pipes are nested and spliced in a relative sliding mode, the outermost movable pipe is nested and spliced in the fixed pipe in the relative sliding mode, the movable pipe arranged at the innermost layer is fixedly connected with the movable end of the hydraulic telescopic rod, and the fixed pipe is communicated with the movable pipe body arranged at the foremost end through a first communication hose.

The utility model has the advantages that: controlling a driving motor to work to drive a rotating platform to rotate to a specific angle so as to conveniently extract the water body in the direction; controlling the hydraulic lifting platform to be lifted to a specific height so as to drive the hydraulic telescopic arm, and the overturning mounting frame, the first telescopic pipe and the second telescopic pipe which are fixedly arranged on the hydraulic telescopic arm to bypass the barrier; controlling the hydraulic telescopic arm to stretch so as to control the overturning mounting frame arranged on the hydraulic telescopic arm to be arranged above a specific extraction point position and control the first telescopic pipe to stretch to a specific state; and controlling the hydraulic telescopic cylinder to drive the overturning mounting frame to be in a vertically downward arrangement state, controlling the hydraulic telescopic rod to drive the second telescopic pipe to move, and extending the second telescopic pipe into a water body to pump water.

Drawings

FIG. 1 is a schematic structural view of the present invention during operation;

FIG. 2 is an enlarged detail view of portion A of FIG. 1;

fig. 3 is an enlarged detail view of the portion B in fig. 1.

In the figure: the hydraulic lifting device comprises an engineering vehicle 1, a water pump 2, a rotating table 3, a hydraulic lifting table 4, a hydraulic telescopic arm 5, a fixed arm 51, a movable arm 52, a turnover mounting rack 6, a hydraulic telescopic cylinder 7, a first telescopic pipe 8, a fixed pipe body 81, a movable pipe body 82, a second telescopic pipe 9, a fixed pipeline 91, a movable pipeline 92, a hydraulic telescopic rod 10, a first communicating hose 11, a second communicating hose 12, a mounting base 13, a first change gear 14, a driving motor 15, a second change gear 16 and a mounting block 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a water pumping device for water conservancy construction comprises an engineering truck 1, a water pump 2, a rotating table 3, a hydraulic lifting table 4, a hydraulic telescopic arm 5, a turning mounting frame 6, a hydraulic telescopic cylinder 7, a hydraulic telescopic rod 10, a first telescopic pipe 8 and a second telescopic pipe 9,

a water suction pump 2 is fixedly installed on a carriage of the engineering truck 1, a rotating platform 3 is installed on the carriage of the engineering truck 1 in a matched manner in a relative rotating mode, a hydraulic lifting platform 4 is installed on the rotating platform 3 in a matched manner, a fixed arm 51 of a hydraulic telescopic arm 5 is horizontally and fixedly installed at the top of the hydraulic lifting platform 4, an installation block 17 is fixedly connected to a movable arm 52 at the front end of the hydraulic telescopic arm 5, the tail end of the installation block 17 is hinged to the top end of the overturning installation frame 6, the primary end of the installation block 17 is hinged to one end of a hydraulic telescopic cylinder 7, the other end of the hydraulic telescopic cylinder 7 is hinged to the middle section of the overturning installation frame 6, and a hydraulic telescopic rod 10 is installed on the overturning installation frame 6 and;

the first telescopic pipe 8 is arranged along the hydraulic telescopic arm 5 in a matched mode, the first telescopic pipe 8 is driven by the hydraulic telescopic arm 5 to conduct telescopic motion, the second telescopic pipe 9 is arranged along the extending direction of the overturning mounting frame 6, the second telescopic pipe 9 is driven by the hydraulic telescopic arm 10 to conduct telescopic motion, the second telescopic pipe 9 is communicated with the first telescopic pipe 8 through a first communication hose 11, and the first telescopic pipe 8 is communicated with the water suction pump 2 through a second communication hose 12.

In the utility model, a mounting base 13 is horizontally fixed on the carriage of the engineering truck 1, the rotating table 3 is nested and mounted on the mounting base 13 in a relative rotation mode, a first change gear 14 is fixed on the outer side wall of the rotating table 3, a driving motor 15 is fixedly mounted on the mounting base 13, a second change gear 16 is mounted on the rotating shaft of the driving motor 15, the first change gear 14 is meshed and connected with the second change gear 16, and the driving motor 15 drives the second change gear 16, the first change gear 14 to rotate when working, so as to drive the rotating table 3 to rotate;

the first extension tube 8 comprises a fixed tube body 81 and a plurality of groups of movable tube bodies 82, the number of the movable tube bodies 82 is the same as that of the movable arms 52 of the hydraulic extension arm 5, the fixed tube body 81 is arranged along the extending direction of the fixed arm 51 of the hydraulic extension arm 5 and is fixedly installed on the fixed arm 51 of the hydraulic extension arm 5, each group of the movable tube bodies 82 is fixedly installed corresponding to the movable arms 52 of one group of the hydraulic extension arm 5, the front ends of the movable tube bodies 82 are fixedly connected with the front ends of the corresponding movable arms 52, the tail ends of the movable tube bodies 82 are nested and inserted in the movable tube bodies 82 or the fixed tube bodies 81 on the rear sides of the movable tube bodies 82 in a relative sliding mode, and the tail ends of the fixed tube bodies 81 are communicated with; when the hydraulic telescopic arm 5 works, each group of movable arms 52 drives the movable pipe body 82 fixedly installed thereon to perform telescopic motion in the same state when extending or contracting, so as to control the contraction state of the first telescopic pipe 8;

the second telescopic tube 9 comprises a fixed pipeline 91 and a plurality of groups of movable pipelines 92, the fixed pipeline 91 is arranged along the extending direction of the overturning mounting frame 6 and is fixedly installed in the overturning mounting frame 6, the groups of movable pipelines 92 are nested and inserted in a relative sliding mode, the outermost movable pipeline 92 is nested and inserted in the fixed pipeline 91 in a relative sliding mode, the movable pipeline 92 arranged at the innermost layer is fixedly connected with the movable end of the hydraulic telescopic rod 10, the fixed pipeline 91 is communicated with the movable tube body 82 arranged at the foremost end through a first communication hose 11, when the hydraulic telescopic rod 10 works, the movable end of the hydraulic telescopic rod 10 drives the innermost movable pipeline 92 to move, and when the innermost movable pipeline 92 moves to the limit position, the movable pipeline 92 outside the innermost pipeline 92 is further driven to move so as to control the contraction state of the second telescopic tube 9.

The utility model discloses a theory of operation is: when the water pumping device is used, the driving motor 15 is controlled to work to drive the rotating platform 3 to rotate to a specific angle, so that water in the direction can be conveniently pumped;

controlling the hydraulic lifting platform 4 to be lifted to a specific height, and further driving the hydraulic telescopic arm 5, and the overturning mounting frame 6, the first telescopic pipe 8 and the second telescopic pipe 9 which are fixedly arranged on the hydraulic telescopic arm 5 to bypass the barrier;

controlling the hydraulic telescopic arm 5 to stretch so as to control the overturning mounting frame 6 arranged on the hydraulic telescopic arm to be arranged above a specific extraction point position and control the first telescopic pipe 8 to stretch to a specific state;

controlling the hydraulic telescopic cylinder 7 to drive the overturning mounting frame 6 to be in a vertically downward arrangement state, controlling the hydraulic telescopic rod 10 to drive the second telescopic pipe 9 to move, and extending the second telescopic pipe 9 into a water body;

and controlling the water suction pump 2 to work, and pumping out the water body through the second telescopic pipe 9, the first communication hose 11, the first telescopic pipe 8 and the second communication hose 12.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a pumping equipment that water conservancy construction was used which characterized in that: comprises an engineering truck (1), a water suction pump (2), a rotating platform (3), a hydraulic lifting platform (4), a hydraulic telescopic arm (5), a turnover mounting rack (6), a hydraulic telescopic cylinder (7), a hydraulic telescopic rod (10), a first telescopic pipe (8) and a second telescopic pipe (9),

the suction pump (2) is fixedly arranged on the carriage of the engineering truck (1), the rotating platform (3) is arranged on the carriage of the engineering truck (1) in a matching way in a relative rotating way, a hydraulic lifting platform (4) is arranged on the rotating platform (3) in a matching way, a fixed arm (51) of the hydraulic telescopic arm (5) is horizontally and fixedly arranged at the top of the hydraulic lifting platform (4), a mounting block (17) is fixedly connected on a movable arm (52) at the front end of the hydraulic telescopic arm (5), the tail end of the mounting block (17) is hinged with the top end of the overturning mounting frame (6), the initial end of the mounting block (17) is hinged with one end of the hydraulic telescopic cylinder (7), the other end of the hydraulic telescopic cylinder (7) is hinged at the middle section of the overturning mounting frame (6), the hydraulic telescopic rod (10) is installed on the overturning mounting frame (6) and is arranged along the extending direction of the overturning mounting frame (6);

first flexible pipe (8) are followed hydraulic telescoping arm (5) are supporting to be arranged, just first flexible pipe (8) are driven by hydraulic telescoping arm (5) and are concertina movement, the flexible pipe of second (9) are followed upset mounting bracket (6) extending direction arranges, just concertina movement is done by hydraulic telescoping rod (10) drive in the flexible pipe of second (9), the flexible pipe of second (9) are linked together through first intercommunication hose (11) and first flexible pipe (8), first flexible pipe (8) through second intercommunication hose (12) with suction pump (2) are linked together.

2. The water pumping device for water conservancy construction according to claim 1, wherein: the utility model discloses a hydraulic steering gear, including engineering vehicle (1), swivel mount table (3) and driving motor (15), the carriage of engineering vehicle (1) is improved level and is consolidated there is mounting base (13), swivel mount table (3) is installed with relative pivoted mode nestification mounting base (13) is last, the lateral wall of swivel mount table (3) is consolidated there is first change gear (14), fixed mounting has driving motor (15) on mounting base (13), and installs second change gear (16) in driving motor's (15) the axis of rotation, and first change gear (14) are connected with second change gear (16) meshing.

3. The water pumping device for water conservancy construction according to claim 2, wherein: the first telescopic pipe (8) comprises a fixed pipe body (81) and a plurality of groups of movable pipe bodies (82), the number of the movable pipe bodies (82) is the same as that of the movable arms (52) of the hydraulic telescopic arm (5), the fixed pipe bodies (81) are arranged along the extending direction of the fixed arm (51) of the hydraulic telescopic arm (5) and fixedly installed on the fixed arm (51) of the hydraulic telescopic arm (5), each group of movable pipe bodies (82) is fixedly installed corresponding to the movable arm (52) of one group of hydraulic telescopic arm (5), the front end of the movable tube body (82) is fixedly connected with the front end of the corresponding movable arm (52), the tail end of the movable tube body (82) is nested and inserted in the movable tube body (82) or the fixed tube body (81) which is positioned at the rear side of the movable tube body in a relative sliding way, the tail end of the fixed pipe body (81) is communicated with the water pump (2) through a second communication hose (12).

4. The water pumping device for water conservancy construction according to claim 3, wherein: the second telescopic pipe (9) comprises a fixed pipeline (91) and a plurality of groups of movable pipelines (92), the fixed pipeline (91) is arranged along the extending direction of the overturning mounting frame (6) and fixedly mounted in the overturning mounting frame (6), the groups of movable pipelines (92) are nested and spliced in a relative sliding mode, the outermost movable pipeline (92) is nested and spliced in the fixed pipeline (91) in a relative sliding mode, the movable pipeline (92) arranged at the innermost layer is fixedly connected with the movable end of the hydraulic telescopic rod (10), and the fixed pipeline (91) is communicated with the movable pipe body (82) arranged at the foremost end through a first communication hose (11).

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