CN218894085U - Hydraulic engineering is device for grout - Google Patents

Abstract

The utility model discloses a hydraulic engineering grouting device which comprises a stirring tank, wherein a driving motor is arranged at the top of the stirring tank, a stirring mechanism is arranged in the stirring tank, the stirring mechanism comprises a mounting rod, the mounting rod is arranged in the stirring tank, the top end of the mounting rod is connected with the output end of the driving motor through a coupler, the outer wall of the mounting rod is fixedly connected with a U-shaped frame, the mounting rod penetrates through the U-shaped frame along the central axis of the U-shaped frame, a row of mounting holes are formed in the side arms of the U-shaped frame at equal intervals, the first end of the driving rod penetrates through the mounting holes and is connected with the mounting holes, and the second end of the driving rod is connected with a crushing roller. The utility model can rotate by itself when the track on the track pipe and the crushing roller are stirred around the mounting rod in a circular motion, and the two crushing rollers are kept relatively static by the different connection modes of the mounting hole and the driving rod, so that the crushing operation is realized while stirring.

Description

Hydraulic engineering is device for grout

Technical Field

The utility model belongs to the technical field of grouting devices, and relates to a hydraulic engineering grouting device.

Background

Grouting is to pour certain solidified materials, such as cement, lime or other chemical materials, into the ground and rock soil in a certain range under the foundation to fill cracks and pores in the rock soil, prevent the ground from leaking, and improve the integrity, strength and rigidity of the rock soil. In water retaining structures such as gates, dams, dykes and the like, a grouting device is needed during grouting.

When the existing grouting device mixes the powder raw materials and the liquid raw materials, the powder raw materials are easy to accumulate together during blanking, the stirring is uneven, the powder raw materials are coagulated into blocks, the coagulated slurry is difficult to clean, the coagulated slurry is difficult to break by stirring, a large amount of time is required, and the raw materials or products are processed by additionally adding a crushing device, so that the grouting device is improved to solve the problems.

Disclosure of Invention

The utility model aims to provide a hydraulic engineering grouting device, which solves the problems that powder raw materials are easily stacked together during blanking, are unevenly stirred and are coagulated into blocks in the prior art.

The technical scheme includes that the hydraulic engineering grouting device comprises a stirring tank, wherein the top of the stirring tank is fixedly connected with a feed inlet, one side of the stirring tank is provided with a discharge outlet, a high-pressure pump is fixedly installed at the discharge outlet, a water inlet of the high-pressure pump is positioned in the stirring tank, a water outlet of the high-pressure pump is fixedly connected with a hose, a driving motor is arranged at the top of the stirring tank, a stirring mechanism is arranged in the stirring tank and comprises a mounting rod, the mounting rod is arranged in the stirring tank, the top end of the mounting rod is connected with the output end of the driving motor through a coupler, the outer wall of the mounting rod is fixedly connected with a U-shaped frame, the mounting rod penetrates through the U-shaped frame along the central axis of the U-shaped frame, a row of mounting holes are formed in the side arms of the U-shaped frame at equal intervals, the first end of the driving rod penetrates through the mounting holes and is connected with the mounting holes, and the second end of the driving rod is connected with a crushing roller.

The utility model is also characterized in that:

a track pipe is arranged between the U-shaped frame and the mounting rod and is fixed on the inner bottom surface of the stirring tank;

the surface of the track pipe is provided with a plurality of parallel tracks in the circumferential direction, each track comprises an annular linear track and a plurality of V-shaped tracks which are arranged at equal intervals, two endpoints of each V-shaped track are connected with the linear track, and each V-shaped track is communicated with each linear track;

the first end of actuating lever is provided with curved upset board, and upset board surface rotates there are two gyro wheels, and two gyro wheels are in close proximity to orbital interior top surface and slide.

The outer wall of the mounting rod driving rod is provided with two limit rings, the two limit rings are arranged on two sides of the mounting hole, and the mounting plate is fixed by the two limit rings.

Rectangular grooves are formed in the vertex angle of the V-shaped track in an extending mode, and the rectangular grooves provide space for the rollers to stay.

Two adjacent crushing rollers from top to bottom are in a group, the crushing rollers in the same group are fixedly connected with the first end of the driving rod, and the other crushing roller is rotationally connected with the first end of the driving rod.

The two crushing rollers are arranged at intervals from top to bottom.

If the driving rod is fixedly connected with the crushing roller, the first end of the driving rod is not provided with the turnover plate and is fixedly connected with the mounting hole.

If the driving rod is rotationally connected with the crushing roller, the first end of the driving rod is provided with a turnover plate and is rotationally connected with the mounting hole.

The beneficial effects of the utility model are as follows:

the utility model discloses the track on the utilization track pipe carries out the operation that circular motion stirs with letting the crushing roller around the installation pole, still can self rotate, and through the difference of mounting hole and actuating lever connected mode again, makes two crushing rollers keep static relatively, and then carries out crushing operation when realizing the stirring.

Drawings

FIG. 1 is a schematic structural view of a grouting device for hydraulic engineering according to the present utility model;

FIG. 2 is a top view of a hydraulic grouting device according to the present utility model;

fig. 3 is a plan view of a track of a hydraulic engineering grouting device according to the present utility model.

In the figure, 1, a stirring tank, 2, a feed inlet, 3, a discharge outlet, 4, a high-pressure pump, 5, a hose, 6, a driving motor, 7, a stirring mechanism, 7-1, a mounting rod, 7-2, a driving rod, 7-3, a crushing roller, 7-4, a track pipe, 7-5, a track, 7-5-1, a linear track, 7-5-2, a V-shaped track, 7-6, a turnover plate, 7-7, a roller, 7-8, a limit ring, 7-9, a rectangular groove, 7-10 and a U-shaped frame.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the detailed description.

The utility model relates to a hydraulic engineering grouting device, which is shown in figures 1 and 2, and comprises a stirring tank 1, wherein the top of the stirring tank 1 is fixedly connected with a feed inlet 2, one side of the stirring tank 1 is provided with a discharge outlet 3, the discharge outlet 3 is fixedly provided with a high-pressure pump 4, a water inlet of the high-pressure pump 4 is positioned in the stirring tank 1, a water outlet of the high-pressure pump 4 is fixedly connected with a hose 5, the top of the stirring tank 1 is provided with a driving motor 6, and the stirring tank 1 is internally provided with a stirring mechanism 7.

The stirring mechanism 7 comprises a mounting rod 7-1, the mounting rod 7-1 is arranged in the stirring tank 1, the top end of the mounting rod 7-1 is connected with the output end of a driving motor 6 through a coupler, the driving motor 6 is connected with a power supply, and the driving motor 6 drives the whole stirring mechanism 7 to rotate.

The outer wall rigid coupling of installation pole 7-1 has U type frame 7-10, installation pole 7-1 runs through U type frame 7-10 along the axis of U type frame 7-10, the both arms symmetry of U type frame 7-10 are established in installation pole 7-1 both sides, a row of mounting hole has been seted up to the equidistant side arm of U type frame 7-10, the first end of actuating lever 7-2 passes the mounting hole, the actuating lever 7-2 outer wall is connected with the mounting hole, the connected mode divide into fixed connection and is connected through the pivot rotation, the second end of actuating lever 7-2 can be dismantled and be connected with crushing roller 7-3, crushing roller 7-3 can be changed into blade or the brush of washing of stirring usefulness.

A track pipe 7-4 is arranged between the U-shaped frame 7-10 and the mounting rod 7-1, the track pipe 7-4 is fixed on the inner bottom surface of the stirring tank 1, a plurality of tracks 7-5 are circumferentially arranged on the surface of the track pipe 7-4, and the tracks 7-5 are arranged in parallel.

As shown in FIG. 3, the track 7-5 comprises a linear track 7-5-1, the linear track 7-5-1 is an annular track, a plurality of equal V-shaped tracks 7-5-2 are arranged above the linear track 7-5-1 at intervals around the track pipe 7-4, two end points of the V-shaped track 7-5-2 are connected and communicated with the linear track 7-5-1, and a triangular area is reserved between the V-shaped track 7-5-2 and the linear track 7-5-1 and is a convex part.

The first end of the driving rod 7-2 is provided with an arc-shaped overturning plate 7-6, two rollers 7-7 are rotated on the surface of the overturning plate 7-6, the two rollers 7-7 slide against the inner top surface of the rail 7-5, rectangular grooves are formed in the top angle of the V-shaped rail 7-5-2 in an extending mode, and space is provided for the rollers 7-7 to stay in.

The outer wall of the mounting rod driving rod 7-2 is provided with two limit rings 7-8, the two limit rings 7-8 are arranged on two sides of the mounting hole, and the two limit rings 7-8 fix the mounting plate 3-3.

In order to realize crushing of slurry blocks generated by coagulation or sand with larger particles in the added raw materials in the stirring process, crushing rollers 7-3 are grouped, two adjacent crushing rollers 7-3 from top to bottom are in a group, the crushing rollers 7-3 in the same group are fixedly connected with the first end of a driving rod 7-2, the other crushing roller 7-3 is rotationally connected with the first end of the driving rod 7-2, one crushing roller 7-3 in the same group is kept stationary relative to the other crushing roller 7-3, key teeth of the two crushing rollers 7-3 are meshed, and the two crushing rollers 7-3 are arranged at intervals from top to bottom.

The connection mode between the outer wall of the driving rod 7-2 and the mounting hole is selected according to the standard that if the driving rod 7-2 is fixedly connected with the crushing roller 7-3, the first end of the driving rod 7-2 is not provided with the turnover plate 7-6 and is fixedly connected with the mounting hole. The crushing roller 7-3 will only rotate around the mounting bar and will not rotate itself 360 degrees.

If the driving rod 7-2 is rotatably connected with the crushing roller 7-3, the first end of the driving rod 7-2 is provided with the turnover plate 7-6 and is rotatably connected with the mounting hole. The crushing roller 7-3 rotates around the mounting bar and itself also 360 degrees.

The utility model relates to a hydraulic engineering grouting device, which comprises the following working processes: the method comprises the steps of switching on a power supply, starting a driving motor, enabling the driving motor to rotate a mounting rod, enabling the mounting rod to drive a U-shaped frame to rotate, enabling the driving rod mounted on the U-shaped frame to start to do circular motion, enabling a driving rod fixedly connected with a mounting hole to do circular motion only, enabling a crushing roller at the second end to be stationary, enabling the driving rod fixedly connected with the mounting hole to do circular motion, enabling a roller on a turnover plate arranged at the second end to slide along the inner top surface of a track, enabling the first roller to slide to the joint of a V-shaped track and a linear track and then slide into the V-shaped track, finally stopping in an extending groove, enabling the turnover plate to turn over by taking the first roller as a rotating point, enabling the turnover motion to be in the range of the linear track, enabling the second roller to be transferred to the front of the first roller, enabling the two rollers to continue to slide along the linear track, enabling the second roller to repeatedly move along the linear track, enabling the second roller to rotate constantly, and enabling the crushing roller to rotate constantly, and enabling the two crushing rollers to perform crushing operation in the stirring process.

The utility model relates to a hydraulic engineering grouting device, which has the beneficial effects that: the utility model discloses the track on the utilization track pipe carries out the operation that circular motion stirs with letting the crushing roller around the installation pole, still can self rotate, and through the difference of mounting hole and actuating lever connected mode again, makes two crushing rollers keep static relatively, and then carries out crushing operation when realizing the stirring.

Claims (7)

1. The utility model provides a hydraulic engineering grouting device, includes agitator tank (1), the top fixedly connected with feed inlet (2) of agitator tank (1), one side of agitator tank (1) begins to have discharge gate (3), discharge gate (3) fixed mounting has high-pressure pump (4), the water inlet of high-pressure pump (4) is located agitator tank (1), the delivery port fixedly connected with hose (5) of high-pressure pump (4), the top of agitator tank (1) is provided with driving motor (6), its characterized in that, agitator tank (1) inside is provided with rabbling mechanism (7), rabbling mechanism (7) are including installation pole (7-1), installation pole (7-1) set up in the inside of agitator tank (1), the output of shaft coupling and driving motor (6) is passed through on installation pole (7-1) top, the outer wall rigid coupling of installation pole (7-1) has U type frame (7-10), installation pole (7-1) run through U type frame (7-10) along U type frame (7-10), U type frame (7-10) are equipped with the axis and are passed through in a parallel connection hole with one end of drive motor (6), the second end of the driving rod (7-2) is connected with a crushing roller (7-3).

2. The hydraulic engineering grouting device according to claim 1, wherein a track pipe (7-4) is arranged between the U-shaped frame (7-10) and the mounting rod (7-1), the track pipe (7-4) is fixed on the inner bottom surface of the stirring tank (1), and a row of mounting holes are formed in the side arms of the U-shaped frame (7-10) at equal intervals;

the surface of the track pipe (7-4) is provided with a plurality of parallel tracks (7-5) in the circumferential direction, each track (7-5) comprises an annular linear track (7-5-1) and a plurality of V-shaped tracks (7-5-2) which are arranged at equal intervals, two end points of each V-shaped track (7-5-2) are connected with the corresponding linear track (7-5-1), and each V-shaped track (7-5-2) is communicated with the corresponding linear track (7-5-1);

the first end of the driving rod (7-2) is provided with an arc-shaped overturning plate (7-6), two rollers (7-7) are rotated on the surface of the overturning plate (7-6), and the two rollers (7-7) slide against the inner top surface of the track (7-5).

3. The hydraulic engineering grouting device according to claim 2, wherein two limit rings (7-8) are arranged on the outer wall of the mounting rod driving rod (7-2), the two limit rings (7-8) are arranged on two sides of the mounting hole, and the two limit rings (7-8) fix the mounting plate (3-3).

4. The hydraulic engineering grouting device according to claim 2, wherein rectangular grooves are formed in the top corners of the V-shaped tracks (7-5-2) in an extending mode, and the rectangular grooves provide space for the rollers (7-7) to stay.

5. The grouting device for hydraulic engineering according to claim 2, wherein two adjacent crushing rollers (7-3) from top to bottom are formed into a group, the crushing rollers (7-3) in the same group are fixedly connected with the first end of the driving rod (7-2), and the other crushing roller (7-3) is rotatably connected with the first end of the driving rod (7-2).

6. The grouting device for hydraulic engineering according to claim 5, wherein the two crushing rolls (7-3) are arranged at intervals from top to bottom.

7. The hydraulic engineering grouting device according to claim 5, wherein if the driving rod (7-2) is fixedly connected with the crushing roller (7-3), the first end of the driving rod (7-2) is not provided with the turnover plate (7-6) and is fixedly connected with the mounting hole;

if the driving rod (7-2) is rotationally connected with the crushing roller (7-3), the first end of the driving rod (7-2) is provided with a turnover plate (7-6) and is rotationally connected with the mounting hole.

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