CN114016510B - Grouting equipment for hydraulic engineering construction and grouting method thereof - Google Patents

Abstract

The invention discloses grouting equipment for hydraulic engineering construction and a grouting method thereof, and belongs to the technical field of hydraulic engineering construction.

Description

Grouting equipment for hydraulic engineering construction and grouting method thereof

Technical Field

The invention relates to the technical field of hydraulic engineering construction, in particular to grouting equipment for hydraulic engineering construction and a grouting method thereof.

Background

Grouting refers to the process of delivering grout under pressure into cracks in the foundation of a building, joints in fault fracture zones or the building itself. The grouting device is characterized in that the grouting device can improve the impermeability and the integrity of a ground layer or a building to be grouted, improves the foundation condition, ensures the safe operation of the hydraulic building, and can not ensure the fixed stability of the device when the simple wheel can not provide enough supporting force for the device so as to avoid the solidification of slurry stored in the device, but the existing grouting device has the defect of insufficient stirring, and the solidified slurry remained on the inner wall of a stirring tank of the existing grouting device, so that the inner wall of the stirring tank is always required to be cleaned, and the grouting device is always required to be moved on a construction site, and the existing grouting device is always moved by using simple wheels, so that the stirring mechanism of the grouting device can generate certain vibration when the stirring mechanism is operated.

Disclosure of Invention

The embodiment of the invention provides grouting equipment for hydraulic engineering construction and a grouting method thereof, which are used for solving the technical problems that residual slurry on the inner wall cannot be cleaned in the prior art and the stirring speed cannot be controlled in the stirring process.

The embodiment of the invention adopts the following technical scheme: the utility model provides a grouting equipment for hydraulic engineering construction, includes stirring strutting arrangement, stirring speed change gear, stirring rotating device, stirring extension device, mixing stirring device and position pendulous device, stirring strutting arrangement is the level setting, stirring speed change gear sets up in stirring strutting arrangement's top, stirring rotating device sets up in stirring strutting arrangement's top and is located stirring speed change gear's side, stirring extension device sets up in stirring speed change gear's top, mixing stirring device sets up in stirring speed change gear's top, position pendulous device sets up in stirring strutting arrangement's top.

Further, stirring strutting arrangement includes stirring support panel, stirring support column, connects the water source pipe, stirs and supports feed inlet, stirring support box and stirring support exhaust pipe, stirring support panel is the level setting, be equipped with the sliding tray on the stirring support panel, the stirring support column is equipped with a plurality of, a plurality of the stirring support column all sets up in stirring support panel's top, stirring support box sets up in stirring support column's top, stirring support feed inlet sets up in stirring support box's top, connect the water source pipe setting and be the intercommunication setting in stirring support box's side, stirring support exhaust pipe sets up in stirring support box's side and is the intercommunication setting, stirring support exhaust pipe is equipped with a fixed block.

Further, stirring speed change device includes stirring speed change section of thick bamboo, stirring speed change motor, stirring speed change slide, stirring speed change slider, stirring speed change disc, stirring speed change post and stirring speed change head, stirring speed change section of thick bamboo sets up in stirring support panel's top, stirring speed change motor sets up in stirring speed change section of thick bamboo, stirring speed change slide sets up and is swing joint on stirring speed change motor's output, stirring speed change slider is equipped with a plurality of, a plurality of stirring speed change slider all sets up and is swing joint in stirring speed change slide's inside, stirring speed change disc sets up on stirring speed change motor's output and is swing joint in stirring speed change slide's top, stirring speed change head is equipped with a plurality of, a plurality of stirring speed change head's one end all sets up a plurality of stirring speed change slider's one end is all set up on stirring speed change slider's the other end and is located stirring speed change disc's outside, be equipped with a plurality of speed change groove on the speed change disc, a plurality of stirring speed change head's the other end is located a plurality of speed change groove.

Further, stirring rotating device rotates motor, stirring rotation rim plate and stirring rotation belt including stirring, the stirring rotates the inslot that sets up on the stirring support panel and is swing joint, stirring rotates the inside that the motor set up at the stirring rotation tube, stirring rotates the rim plate setting and is swing joint on stirring rotation motor's output, stirring rotation belt cover is established and is swing joint on stirring rotation rim plate and stirring variable speed post.

Further, a speed-changing telescopic rod is arranged at the joint of the stirring rotating cylinder and the stirring speed-changing cylinder.

Further, stirring extension device includes stirring extension post, stirring extension telescopic link and stirring extension connecting rod, the stirring extension post is equipped with a plurality of, and a plurality of the stirring extension post all sets up a plurality of on the stirring variable speed post, the stirring extension telescopic link is equipped with a plurality of, a plurality of the stirring extension telescopic link all sets up a plurality of on the stirring extension post, the stirring extension connecting rod is equipped with a plurality of, a plurality of the one end of stirring extension connecting rod all sets up on the stirring extension telescopic link.

Further, mixing stirring device includes mixing stirring post, mixing stirring sleeve frame, mixing stirring rod, mixing stirring vane, mixing stirring movable rod and mixing stirring scraper blade, mixing stirring post sets up a plurality of the end that the stirring was stretched the telescopic link, mixing stirring post is located the inside of stirring supporting box, mixing stirring sleeve frame has set up a plurality of, a plurality of mixing stirring sleeve frame all sets up on mixing stirring post, mixing stirring rod is equipped with a plurality of, a plurality of mixing stirring rod all runs through the setting on a plurality of mixing stirring sleeve frame, mixing stirring vane is equipped with a plurality of, a plurality of mixing stirring vane all sets up on mixing stirring rod, mixing stirring movable rod is equipped with a plurality of, a plurality of mixing stirring movable rod all sets up and is swing joint on mixing stirring rod, mixing stirring scraper blade is equipped with a plurality of, a plurality of mixing stirring scraper blade all sets up on mixing stirring movable rod, a plurality of the other end that the stirring was stretched the connecting rod all connects on a plurality of mixing stirring scraper blade.

Further, the position swinging device comprises a position swinging cylinder, a position swinging motor, a position swinging rod and a position swinging sliding rod, wherein the position swinging cylinder is arranged above the stirring support panel, the position swinging motor is arranged inside the position swinging cylinder, the position swinging rod is movably connected with the output end of the position swinging motor, the position swinging sliding rod is arranged at the side end of the position swinging rod, one end of the position swinging sliding rod is connected with the fixed block, and a movable pin is arranged at the joint of the position swinging sliding rod and the position swinging rod and is movably connected with the position swinging rod.

A grouting method of grouting equipment for hydraulic engineering construction comprises the following steps:

s1, when the device is ready to work, firstly, a water source is connected to a water source connection pipe by manpower, then slurry is poured into the stirring support box body through the stirring support feeding hole by manpower, and after the slurry is poured, the water source is started to enable the water to flow into the stirring support box body to be mixed with the slurry.

And S2, when the slurry and the water are in the stirring supporting box body, the stirring rotating motor is operated to drive the stirring rotating wheel disc on the output end of the stirring rotating motor to rotate, at the moment, the stirring variable speed motor is in a braking state, the stirring rotating wheel disc is rotated to drive the stirring rotating belt to rotate so as to drive the excircle formed by the stirring variable speed column to rotate, the excircle formed by the stirring variable speed column is rotated to drive the stirring stretching column to rotate, the stirring stretching column is rotated to drive the stirring stretching telescopic rod to rotate, the stirring stretching telescopic rod is rotated to drive the mixing stirring column to rotate, the mixing stirring column is rotated to drive the mixing stirring sleeve frame to rotate, and the mixing stirring rod is rotated to drive the mixing stirring blade to rotate, so that the slurry and the water in the stirring supporting box body are mixed and stirred.

And S3, after the slurry and the water in the stirring support box body are mixed and stirred, driving a stirring speed changing disc on the output end of the stirring speed changing motor to rotate through the operation of the stirring speed changing motor, wherein the stirring rotating motor is in a braking state, the stirring speed changing disc rotates to drive a stirring speed changing head to rotate in a speed changing groove on the stirring speed changing disc, the stirring speed changing head rotates to drive a stirring speed changing slide block to move in a stirring speed changing slide way, the stirring speed changing slide block moves to drive a stirring speed changing column on the stirring speed changing slide block to move, the outward stretching movement of the stirring speed changing column drives the outward stretching movement of the stirring stretching column, the outward stretching movement of the stirring stretching column drives the outward stretching movement of the stirring stretching telescopic rod, the outward stretching movement of the stirring stretching telescopic rod drives the outward stretching movement of the stirring stretching connecting rod, and the outward stretching movement of the mixing stirring scraping plate is driven by the outward stretching movement of the stirring stretching connecting rod, and the mixing stirring scraping plate is moved to the inner wall of the stirring support box body.

S4: the stirring expansion rod is used for rotating to drive the mixing stirring column to rotate, the mixing stirring column rotates to drive the mixing stirring sleeve frame to rotate, the mixing stirring sleeve frame rotates to drive the mixing stirring rod in the mixing stirring sleeve frame to rotate, the mixing stirring rod rotates to drive the mixing stirring blade to rotate, the mixing stirring blade rotates to drive the mixing stirring movable rod to rotate, and accordingly mud on the inner wall of the stirring support box body is scraped, mud on the inner wall of the stirring support box body is effectively cleaned, mud fermentation on the inner wall of the stirring support box body is avoided when stirring is carried out next time, mud is unqualified, the use level is not reached, and the inside of the stirring support box body is effectively cleaned.

S5: after scraping the slurry on the inner wall of the stirring support box body, the stirring rotating motor is operated again to drive the mixing stirring blade to rotate, and the stirring variable speed motor is in a braking state at the moment, so that the slurry and water in the stirring support box body are further mixed and stirred.

S6: when the stirring speed-changing column stretches outwards on the stirring speed-changing sliding block, the diameter of the outer circle of the stirring speed-changing column is increased, so that the rotating speed is reduced, when the stirring speed-changing column contracts inwards on the stirring speed-changing sliding block, the diameter of the outer circle of the stirring speed-changing column is reduced, the rotating speed is increased, and the stirring rotating speed is changed.

S7: when the slurry and water are mixed and stirred and the slurry is ready to be discharged from a required position, the position swinging motor is operated to drive the position swinging rod on the output end of the position swinging motor to rotate, and the position swinging rod is rotated to drive the position swinging sliding rod to rotate, so that the stirring support discharge pipeline is driven to rotate to a required working position, the slurry after stirring is discharged to the working position, and grouting operation is completed.

The above at least one technical scheme adopted by the embodiment of the invention can achieve the following beneficial effects:

according to the invention, the stirring speed-changing motor is arranged to drive the stirring speed-changing disc on the output end of the stirring speed-changing motor to rotate, the stirring speed-changing disc rotates to drive the stirring speed-changing head to rotate in the speed-changing groove on the stirring speed-changing disc, the stirring speed-changing head rotates to drive the stirring speed-changing slide block to move in the stirring speed-changing slide way, the stirring speed-changing slide block moves to drive the stirring speed-changing column on the stirring speed-changing slide block to move, the stirring speed-changing telescopic rod can stretch and retract to drive the stirring rotating cylinder to move left and right in the sliding groove, when the stirring speed-changing column stretches outwards on the stirring speed-changing slide block, the outer circle diameter of the stirring speed-changing column is increased, so that the rotating speed is decreased, and the stirring rotating speed is changed.

Secondly, according to the invention, after water and slurry are stirred, the stirring speed change motor is operated to drive the outer circle formed by the stirring speed change columns to rotate, the outer circle formed by the stirring speed change columns is rotated to drive the stirring expansion rods to rotate, the stirring expansion rods are rotated to drive the stirring expansion connecting rods to rotate, the stirring expansion rods are driven to move outwards by the outwards extending movement of the stirring speed change columns, the stirring expansion rods are driven to move outwards by the outwards extending movement of the stirring expansion rods, the mixing rods are driven to rotate by the rotation of the stirring expansion rods, the mixing stirring rods are driven to rotate by the rotation of the mixing stirring rods, the mixing stirring blades are driven to rotate by the rotation of the mixing stirring rods, the mixing stirring rods are driven to rotate by the rotation of the mixing stirring blades, when slurry adhered on the inner wall of the stirring support box is scraped, the stirring blades are driven to move outwards by the outwards extending movement of the mixing stirring blades, so that the inner wall of the stirring support plate is moved to the inner wall of the stirring support box, the inner wall of the stirring support body is further cleaned, and the inner wall of the stirring box is prevented from being cleaned by the stirring box, and the inner wall of the stirring support body is cleaned.

Thirdly, when the slurry and the water are mixed and stirred, and the slurry is ready to be discharged from a required position, the position swinging motor is operated to drive the position swinging rod on the output end of the position swinging motor to rotate, and the position swinging rod is rotated to drive the position swinging sliding rod to rotate, so that the stirring support discharge pipeline is driven to rotate to a required working position, and the slurry after stirring is discharged to the working position.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

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

FIG. 2 is a schematic view showing a three-dimensional structure of the stirring supporting box body in the invention;

FIG. 3 is a schematic perspective view of a stirring support device according to the present invention;

FIG. 4 is a schematic perspective view of a stirring transmission according to the present invention;

FIG. 5 is a schematic perspective view of a stirring rotation device according to the present invention;

FIG. 6 is a schematic perspective view of a stirring speed change device and a stirring rotation device in the invention;

FIG. 7 is a schematic perspective view of a mixing and stirring device according to the present invention;

FIG. 8 is a schematic perspective view of a mixing and stirring device, a stirring speed change device and a stirring rotation device according to the present invention;

fig. 9 is a schematic perspective view of a positioning and swinging device in the present invention.

Reference numerals

The stirring supporting device 1, the stirring supporting panel 11, the stirring supporting column 12, the connecting water source pipe 13, the stirring supporting feed opening 14, the stirring supporting box body 15, the stirring supporting discharge pipe 16, the stirring speed changing device 2, the stirring speed changing cylinder 21, the stirring speed changing motor 22, the stirring speed changing slide 23, the stirring speed changing slide block 24, the stirring speed changing disk 25, the stirring speed changing column 26, the stirring speed changing head 27, the stirring rotating device 3, the stirring rotating cylinder 31, the stirring rotating motor 32, the stirring rotating wheel disk 33, the stirring rotating belt 34, the speed changing telescopic rod 4, the stirring stretching device 5, the stirring stretching column 51, the stirring stretching telescopic rod 52, the stirring stretching connecting rod 53, the mixing stirring device 6, the mixing stirring column 61, the mixing stirring sleeve 62, the mixing stirring rod 63, the mixing stirring blade 64, the mixing stirring movable rod 65, the mixing stirring scraper 66, the position swinging device 7, the position swinging cylinder 71, the position swinging motor 72, the position swinging rod 73, the position swinging slide rod 74.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to the accompanying drawings.

The embodiment of the invention provides grouting equipment for hydraulic engineering construction, which comprises a stirring supporting device 1, a stirring speed changing device 2, a stirring rotating device 3, a stirring extending device 5, a mixing stirring device 6 and a position swinging device 7, wherein the stirring supporting device 1 is horizontally arranged, the stirring speed changing device 2 is arranged above the stirring supporting device 1, the stirring rotating device 3 is arranged above the stirring supporting device 1 and is positioned at the side end of the stirring speed changing device 2, the stirring extending device 5 is arranged above the stirring speed changing device 2, the mixing stirring device 6 is arranged above the stirring speed changing device 2, and the position swinging device 7 is arranged above the stirring supporting device 1.

Preferably, stirring strutting arrangement 1 includes stirring strutting panel 11, stirring support column 12, connects water source pipe 13, stirs and supports feed inlet 14, stirs and support box 15 and stirs and support discharge pipeline 16, stirring support panel 11 is the level setting, be equipped with the sliding tray on the stirring strutting panel 11, stirring support column 12 is equipped with a plurality of, a plurality of stirring support column 12 all sets up the top at stirring support panel 11, stirring support box 15 sets up the top at stirring support column 12, stirring support feed inlet 14 sets up the top at stirring support box 15, connect water source pipe 13 to set up and be the intercommunication setting at stirring support box 15's side, stirring support discharge pipeline 16 sets up at stirring support box 15's side and is the intercommunication setting, stirring support discharge pipeline 16 is equipped with a fixed block, can make stirring rotor 3 remove through the sliding tray that sets up to change the rotational speed, can support equipment through stirring support panel 11 that sets up, can flow into the stirring support box 15 through setting up in stirring support box 15 and can be connected water source pipe 13 and can be connected the water source pipe 13 and mix the water source pipe 13 and set up in the water source pipe 13 and can be connected the water source pipe 13 and mix the mud and mix the pipe and mix the water source and be discharged.

Preferably, the stirring speed change device 2 comprises a stirring speed change cylinder 21, a stirring speed change motor 22, a stirring speed change slide way 23, a stirring speed change slide block 24, a stirring speed change disc 25, a stirring speed change column 26 and a stirring speed change head 27, wherein the stirring speed change cylinder 21 is arranged above the stirring support panel 11, the stirring speed change motor 22 is arranged in the stirring speed change cylinder 21, the stirring speed change slide way 23 is arranged on the output end of the stirring speed change motor 22 and is movably connected, the stirring speed change slide block 24 is provided with a plurality of stirring speed change slide blocks 24, the stirring speed change slide blocks 24 are all arranged inside the stirring speed change slide way 23 and are movably connected, the stirring speed change disc 25 is arranged on the output end of the stirring speed change motor 22 and is positioned above the stirring speed change slide way 23, the stirring speed change head 27 is provided with a plurality of stirring speed change heads, one end of each stirring speed changing head 27 is arranged at one end of each stirring speed changing slide block 24, each stirring speed changing column 26 is provided with a plurality of stirring speed changing columns 26, one end of each stirring speed changing column 26 is arranged at the other end of each stirring speed changing slide block 24 and is positioned at the outer side of each stirring speed changing disc 25, each stirring speed changing disc 25 is provided with a plurality of speed changing grooves, the other end of each stirring speed changing head 27 is positioned in each speed changing groove, the stirring speed changing discs 25 on the output end of each stirring speed changing motor 22 are driven to rotate through the operation of the corresponding stirring speed changing motor 22, each stirring speed changing disc 25 rotates to drive the corresponding stirring speed changing head 27 to rotate in the corresponding speed changing groove on each stirring speed changing disc 25, each stirring speed changing head 27 rotates to drive the corresponding stirring speed changing slide block 24 to move in the corresponding stirring speed changing slide rail 23, each stirring speed changing slide block 24 moves to drive the corresponding stirring speed changing column 26 on the corresponding stirring speed changing slide block 24 to move, when the stirring speed changing column 26 is extended outwardly on the stirring speed changing slide block 24, the outer diameter of the stirring speed changing column 26 becomes larger, so that the rotational speed becomes smaller, and when the stirring speed changing motor 22 is rotated reversely, so that the stirring speed changing column 26 is contracted inwardly on the stirring speed changing slide block 24, the outer diameter of the stirring speed changing column 26 becomes smaller, so that the rotational speed becomes larger, and the change of the stirring rotational speed is realized.

Preferably, the stirring rotation device 3 comprises a stirring rotation drum 31, a stirring rotation motor 32, a stirring rotation wheel disc 33 and a stirring rotation belt 34, wherein the stirring rotation drum 31 is movably connected in a sliding groove formed in the stirring support panel 11, the stirring rotation motor 32 is arranged in the stirring rotation drum 31, the stirring rotation wheel disc 33 is movably connected at the output end of the stirring rotation motor 32, the stirring rotation belt 34 is sleeved on the stirring rotation wheel disc 33 and the stirring speed changing column 26 to be movably connected, the stirring rotation wheel disc 33 on the output end of the stirring rotation motor 32 is driven to rotate by the stirring rotation motor 32, and the stirring rotation wheel disc 33 is driven to rotate by the stirring rotation belt 34, so that the outer circle formed by the stirring speed changing column 26 is driven to rotate.

Preferably, a speed-changing telescopic rod 4 is arranged at the joint of the stirring rotating cylinder 31 and the stirring speed-changing cylinder 21, and the telescopic movement can be performed through the arranged speed-changing telescopic rod 4, so as to drive the stirring rotating cylinder 31 to move left and right in the sliding groove, thereby realizing the change of stirring speed.

Preferably, the stirring and stretching device 5 includes a stirring and stretching column 51, a stirring and stretching telescopic rod 52 and a stirring and stretching connecting rod 53, the stirring and stretching column 51 is provided with a plurality of stirring and stretching columns 51 are all arranged on a plurality of stirring and stretching variable speed columns 26, the stirring and stretching telescopic rod 52 is provided with a plurality of stirring and stretching telescopic rod 52 is all arranged on a plurality of stirring and stretching columns 51, the stirring and stretching connecting rod 53 is provided with a plurality of stirring and stretching telescopic rod 53, one end of the stirring and stretching connecting rod 53 is all arranged on the stirring and stretching telescopic rod 52, the stirring and stretching column 51 is driven to rotate by the rotation of the stirring and stretching variable speed columns 26, the stirring and stretching telescopic rod 52 is driven to rotate by the rotation of the stirring and stretching telescopic rod 52, the stirring and stretching column 51 is driven to outwards stretch and move by the outward stretching movement of the stirring and stretching variable speed columns 26, and the stirring and stretching telescopic rod 52 is driven to outwards stretch and move by the outward stretching and stretching of the stirring and stretching telescopic rod 52.

Preferably, the mixing device 6 includes a mixing column 61, a mixing rack 62, a mixing rod 63, mixing blades 64, a mixing movable rod 65 and a mixing scraper 66, the mixing column 61 is disposed at the ends of the plurality of stirring expansion telescopic rods 52, the mixing column 61 is located inside the stirring supporting box 15, the mixing rack 62 is provided with a plurality of mixing blades 66, the mixing rack 62 is disposed on the mixing column 61, the mixing rod 63 is provided with a plurality of mixing blades 63, the mixing blades 64 are disposed on the mixing rack 62, the mixing blades 64 are disposed in a plurality, the mixing blades 64 are disposed on the mixing rod 63, the mixing movable rod 65 is disposed in a plurality, the mixing movable rod 65 is disposed on the mixing rod 63 in a movable connection, the mixing scraper 66 is disposed in a plurality, the mixing scraper 66 is disposed on the plurality of the mixing movable rod 65, the mixing movable rod 62 is disposed on the mixing movable rod, the mixing movable rod 62 is driven by the rotating blade 63, the rotating rod 64 is driven by the rotating rod 64, and the rotating rod 64 is driven by the rotating rod 64 to rotate the mixing movable rod 62 to rotate the mixing movable rod. When scraping the mud that adheres to on stirring supporting box body 15 inner wall, outwards extend the removal through stirring extension connecting rod 53 and drive the outside extension of mixing stirring scraper 66 and remove to remove mixing stirring scraper 66 to on stirring supporting box body 15's the inner wall, rethread mixing stirring scraper 66 rotates, thereby scrape the mud on the stirring supporting box body 15 inner wall down, thereby effectually carry out the mud clearance on stirring supporting box body 15 inner wall, avoid when stirring next time, the mud fermentation on the stirring supporting box body 15 inner wall, and cause the mud unqualified, can not reach the use level, also more effectually clean the inside of stirring supporting box body 15.

Preferably, the position swinging device 7 includes a position swinging cylinder 71, a position swinging motor 72, a position swinging rod 73 and a position swinging sliding rod 74, the position swinging cylinder 71 is arranged above the stirring support panel 11, the position swinging motor 72 is arranged inside the position swinging cylinder 71, the position swinging rod 73 is arranged at the output end of the position swinging motor 72 and is movably connected, the position swinging sliding rod 74 is arranged at the side end of the position swinging rod 73 and one end of the position swinging sliding rod is connected to a fixed block, a movable pin is arranged at the connection part of the position swinging sliding rod 74 and the position swinging rod 73, when the slurry and water are mixed and stirred, and when the slurry is ready to be discharged to a required position, the position swinging motor 72 is operated to drive the position swinging rod 73 on the output end of the position swinging motor 72 to rotate, the position swinging rod 73 is driven to rotate, so as to drive the stirring support discharge pipeline 16 to rotate to a required working position, and the stirred slurry is discharged to the working position.

Working principle: when the stirring and stretching device is ready to work, firstly, a water source is connected to the water source connecting pipe 13 by manpower, then slurry is poured into the stirring and supporting box body 15 through the stirring and supporting feed opening 14 by manpower, after pouring is completed, the water source is started, water flows into the stirring and supporting box body 15 to be mixed with the slurry, when the slurry and the water are in the stirring and supporting box body 15, the stirring and stretching motor 32 is operated to drive the stirring and stretching wheel disc 33 on the output end of the stirring and stretching motor 32 to rotate, at the moment, the stirring and speed changing motor 22 is in a braking state, the stirring and stretching wheel disc 33 is rotated to drive the stirring and rotating belt 34 to rotate, thereby driving the excircle formed by the stirring and speed changing column 26 to rotate, the excircle formed by the stirring and speed changing column 26 is rotated to drive the stirring and stretching column 51 to rotate, the stirring and stretching column 51 is rotated to drive the stirring and stretching telescopic rod 52, the stirring extension telescopic rod 52 rotates to drive the stirring extension connecting rod 53 to rotate, the stirring extension telescopic rod 52 rotates to drive the mixing stirring column 61 to rotate, the mixing stirring column 61 rotates to drive the mixing stirring sleeve frame 62 to rotate, the mixing stirring sleeve frame 62 rotates to drive the mixing stirring rod 63 in the mixing stirring sleeve frame 62 to rotate, the mixing stirring rod 63 rotates to drive the mixing stirring blade 64 to rotate, thereby mixing and stirring the slurry and the water in the stirring support box body 15, after the slurry and the water in the stirring support box body 15 are mixed and stirred, the stirring speed change disc 25 on the output end of the stirring speed change motor 22 is driven to rotate by the operation of the stirring speed change motor 22, at the moment, the stirring rotation motor 32 is in a braking state, the stirring speed change disc 25 rotates to drive the stirring speed change head 27 to rotate in a speed change groove on the stirring speed change disc 25, the stirring speed changing head 27 rotates to drive the stirring speed changing slide block 24 to move in the stirring speed changing slide way 23, the stirring speed changing slide block 24 moves to drive the stirring speed changing column 26 on the stirring speed changing slide block 24 to move, the stirring speed changing column 26 outwards extends to drive the stirring expansion column 51 to outwards extend, the stirring expansion column 51 outwards extends to drive the stirring expansion telescopic rod 52 to outwards extend, the stirring expansion telescopic rod 52 outwards extends to drive the stirring expansion connecting rod 53 to outwards extend, the outwards extending movement of the stirring expansion connecting rod 53 drives the stirring scraping plate 66 to outwards extend, the stirring scraping plate 66 is moved onto the inner wall of the stirring supporting box body 15, the stirring expansion telescopic rod 52 rotates to drive the stirring column 61 to rotate, the stirring column 61 rotates to drive the stirring sleeve frame 62 to rotate, the mixing stirring sleeve frame 62 rotates to drive the mixing stirring rod 63 in the mixing stirring sleeve frame 62 to rotate, the mixing stirring rod 63 rotates to drive the mixing stirring blade 64 to rotate, the mixing stirring blade 64 rotates to drive the mixing stirring movable rod 65 to rotate, the mixing stirring movable rod 65 rotates to drive the mixing stirring scraper 66 to rotate, thereby scraping the slurry on the inner wall of the stirring support box body 15, effectively cleaning the slurry on the inner wall of the stirring support box body 15, avoiding the slurry fermentation on the inner wall of the stirring support box body 15 while stirring for the next time, causing the slurry disqualification, not reaching the use level, more effectively cleaning the inside of the stirring support box body 15, driving the mixing stirring blade 64 to rotate again through the stirring rotation motor 32 after scraping the slurry on the inner wall of the stirring support box body 15, and at the moment, the stirring speed change motor 22 is in a braking state, thus, the slurry and water in the stirring supporting box body 15 are further mixed and stirred, when the stirring speed changing column 26 stretches outwards on the stirring speed changing sliding block 24, the outer circle diameter of the stirring speed changing column 26 is increased, the rotating speed is reduced, when the stirring speed changing column 26 shrinks inwards on the stirring speed changing sliding block 24, the outer circle diameter of the stirring speed changing column 26 is reduced, the rotating speed is increased, the stirring rotating speed is changed, when the slurry and water are mixed and stirred, and when the slurry is ready to be discharged from a required position, the position swinging motor 72 is operated to drive the position swinging rod 73 on the output end of the position swinging motor 72 to rotate, the position swinging rod 73 is rotated to drive the position swinging sliding rod 74 to rotate, and the stirring supporting discharge pipeline 16 is driven to rotate to a required working position, so that the slurry after the stirring is discharged to the working position is realized, and the grouting operation is completed.

A grouting method of grouting equipment for hydraulic engineering construction comprises the following steps:

s1, when the device is ready to work, firstly, a water source is connected to a water source connection pipe 13 by manpower, then slurry is poured into the stirring support box body 15 by manpower through a stirring support feed opening 14, and after the pouring is completed, the water source is started, so that the water flows into the stirring support box body 15 to be mixed with the slurry.

And S2, when the slurry and the water are in the stirring supporting box body 15, the stirring rotating motor 32 is operated to drive the stirring rotating wheel disc 33 on the output end of the stirring rotating motor 32 to rotate, at the moment, the stirring variable speed motor 22 is in a braking state, the stirring rotating wheel disc 33 is rotated to drive the stirring rotating belt 34 to rotate so as to drive the excircle formed by the stirring variable speed columns 26 to rotate, the excircle formed by the stirring variable speed columns 26 is rotated to drive the stirring stretching column 51 to rotate, the stirring stretching column 51 is rotated to drive the stirring stretching telescopic rod 52 to rotate, the stirring stretching telescopic rod 52 is rotated to drive the stirring stretching connecting rod 53 to rotate, the stirring column 61 is rotated to drive the stirring sleeve frame 62 to rotate, the stirring rod 63 in the stirring sleeve frame 62 is rotated to drive the stirring blade 64 to rotate, and thus the slurry and the water in the stirring supporting box body 15 are mixed.

And S3, after the slurry and the water in the stirring support box body 15 are mixed, the stirring speed change motor 22 is operated to drive the stirring speed change disc 25 on the output end of the stirring speed change motor 22 to rotate, at the moment, the stirring rotation motor 32 is in a braking state, the stirring speed change disc 25 rotates to drive the stirring speed change head 27 to rotate in a speed change groove on the stirring speed change disc 25, the stirring speed change head 27 rotates to drive the stirring speed change slide block 24 to move in the stirring speed change slide way 23, the stirring speed change slide block 24 moves to drive the stirring speed change column 26 on the stirring speed change slide block 24 to move, the stirring speed change column 26 outwards extends to drive the stirring extending column 51 to outwards extend to move, the stirring extending column 51 outwards extends to drive the stirring extending telescopic rod 52 to outwards extend to drive the stirring extending connecting rod 53 to outwards extend to move, and the stirring scraping plate 66 outwards extends to move through the stirring extending connecting rod 53 to drive the stirring scraping plate 66 to the inner wall of the stirring support box body 15.

S4: the stirring expansion rod 52 is used for rotating to drive the mixing stirring column 61 to rotate, the mixing stirring column 61 is used for rotating to drive the mixing stirring sleeve frame 62 to rotate, the mixing stirring sleeve frame 62 is used for rotating to drive the mixing stirring rod 63 in the mixing stirring sleeve frame 62 to rotate, the mixing stirring rod 63 is used for rotating to drive the mixing stirring blade 64 to rotate, the mixing stirring blade 64 is used for rotating to drive the mixing stirring movable rod 65 to rotate, and the mixing stirring movable rod 65 is used for rotating to drive the mixing stirring scraping plate 66 to scrape down the slurry on the inner wall of the stirring supporting box body 15, so that the slurry on the inner wall of the stirring supporting box body 15 is cleaned effectively, slurry fermentation on the inner wall of the stirring supporting box body 15 is avoided when the next stirring is carried out, the slurry is not qualified, the use level is not reached, and the inside of the stirring supporting box body 15 is cleaned more effectively.

S5: when the slurry on the inner wall of the stirring supporting box body 15 is scraped off, the stirring rotating motor 32 is operated again to drive the mixing stirring blade 64 to rotate, and the stirring variable speed motor 22 is in a braking state at this time, so that the slurry and water in the stirring supporting box body 15 are further mixed and stirred.

S6: when the stirring speed changing column 26 is extended outwardly on the stirring speed changing slide 24, the outer diameter of the stirring speed changing column 26 becomes larger, so that the rotational speed becomes smaller, and when the stirring speed changing column 26 is contracted inwardly on the stirring speed changing slide 24, the outer diameter of the stirring speed changing column 26 becomes smaller, so that the rotational speed becomes larger, and the change of the stirring rotational speed is realized.

S7: when the slurry and the water are mixed and stirred and the slurry is ready to be discharged from a required position, the position swinging motor 72 is operated to drive the position swinging rod 73 on the output end of the position swinging motor 72 to rotate, and the position swinging rod 73 is rotated to drive the position swinging sliding rod 74 to rotate, so that the stirring support discharge pipeline 16 is driven to rotate to a required working position, the slurry after stirring is discharged to the working position, and grouting operation is completed.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are to be included in the scope of the claims of the present invention.

Claims (5)

1. The grouting equipment for hydraulic engineering construction is characterized by comprising a stirring supporting device (1), a stirring speed changing device (2), a stirring rotating device (3), a stirring stretching device (5), a mixing stirring device (6) and a position swinging device (7), wherein the stirring supporting device (1) is horizontally arranged, the stirring speed changing device (2) is arranged above the stirring supporting device (1), the stirring rotating device (3) is arranged above the stirring supporting device (1) and is positioned at the side end of the stirring speed changing device (2), the stirring stretching device (5) is arranged above the stirring speed changing device (2), the mixing stirring device (6) is arranged above the stirring speed changing device (2), and the position swinging device (7) is arranged above the stirring supporting device (1);

the stirring speed change device (2) comprises a stirring speed change cylinder (21), a stirring speed change motor (22), a stirring speed change slide way (23), a stirring speed change slide block (24), a stirring speed change disc (25), a stirring speed change column (26) and a stirring speed change head (27), wherein the stirring speed change cylinder (21) is arranged above a stirring support panel (11), the stirring speed change motor (22) is arranged in the stirring speed change cylinder (21), the stirring speed change slide way (23) is arranged at the output end of the stirring speed change motor (22) and is movably connected, the stirring speed change slide block (24) is provided with a plurality of stirring speed change slide blocks (24), the stirring speed change disc (25) is arranged at the output end of the stirring speed change motor (22) and is movably connected above the stirring speed change slide way (23), one end of the stirring speed change head (27) is provided with a plurality of stirring speed change heads (27) is arranged at one end of the stirring speed change slide block (24), the stirring speed change slide blocks (26) are arranged at one end of the stirring speed change column (25) and are arranged at the other stirring speed change column (25), the other ends of the stirring variable speed heads (27) are positioned in the variable speed grooves;

the stirring rotating device (3) comprises a stirring rotating cylinder (31), a stirring rotating motor (32), a stirring rotating wheel disc (33) and a stirring rotating belt (34), wherein the sliding groove on a stirring supporting panel (11) is arranged in the stirring rotating cylinder (31) and is in movable connection, the stirring rotating motor (32) is arranged in the stirring rotating cylinder (31), the stirring rotating wheel disc (33) is arranged at the output end of the stirring rotating motor (32) and is in movable connection, and the stirring rotating belt (34) is sleeved on the stirring rotating wheel disc (33) and a stirring variable speed column (26) and is in movable connection;

the connection part of the stirring rotating cylinder (31) and the stirring speed changing cylinder (21) is provided with a speed changing telescopic rod (4).

2. The grouting equipment for hydraulic engineering construction according to claim 1, wherein the stirring supporting device (1) comprises a stirring supporting panel (11), a stirring supporting column (12), a connecting water source pipe (13), a stirring supporting feeding port (14), a stirring supporting box body (15) and a stirring supporting discharge pipeline (16), the stirring supporting panel (11) is horizontally arranged, a sliding groove is formed in the stirring supporting panel (11), the stirring supporting column (12) is provided with a plurality of stirring supporting columns (12) and are all arranged above the stirring supporting panel (11), the stirring supporting box body (15) is arranged above the stirring supporting column (12), the connecting water source pipe (13) is arranged at the side end of the stirring supporting box body (15) and is communicated with the stirring supporting box body (15), the stirring supporting discharge pipeline (16) is arranged at the side end of the stirring supporting box body (1) and is communicated with the stirring supporting box body (16), and the stirring supporting discharge pipeline (16) is provided with a fixed block.

3. The grouting equipment for hydraulic engineering construction according to claim 2, wherein the stirring and stretching device (5) comprises a stirring and stretching column (51), a stirring and stretching telescopic rod (52) and a stirring and stretching connecting rod (53), the stirring and stretching column (51) is provided with a plurality of stirring and stretching columns (51) are all arranged on a plurality of stirring and stretching variable speed columns (26), the stirring and stretching telescopic rod (52) is provided with a plurality of stirring and stretching telescopic rods (52) are all arranged on a plurality of stirring and stretching columns (51), the stirring and stretching connecting rod (53) is provided with a plurality of stirring and stretching telescopic rods (52), and one ends of the stirring and stretching connecting rod (53) are all arranged on the stirring and stretching telescopic rods (52).

4. The grouting equipment for hydraulic engineering construction according to claim 3, wherein the mixing stirring device (6) comprises a mixing stirring column (61), a mixing stirring sleeve frame (62), a mixing stirring rod (63), mixing stirring blades (64), a mixing stirring movable rod (65) and a mixing stirring scraper (66), the mixing stirring column (61) is arranged at the tail end of the stirring expansion telescopic rod (52) of a plurality of pieces, the mixing stirring column (61) is positioned in the stirring supporting box body (15), the mixing stirring sleeve frame (62) is provided with a plurality of pieces, the mixing stirring sleeve frame (62) is arranged on the mixing stirring column (61), the mixing stirring rod (63) is provided with a plurality of pieces, the mixing stirring rod (63) is arranged on the mixing stirring sleeve frame (62) in a penetrating manner, the mixing stirring blades (64) are arranged on the mixing stirring rod (63), the mixing movable rod (65) is provided with a plurality of pieces, the mixing stirring rod (65) is arranged on the mixing stirring scraper (66) in a moving manner, the other ends of the stirring extension connecting rods (53) are connected to the mixing stirring scraping plates (66).

5. The grouting equipment for hydraulic engineering construction according to claim 2, wherein the position swinging device (7) comprises a position swinging cylinder (71), a position swinging motor (72), a position swinging rod (73) and a position swinging sliding rod (74), the position swinging cylinder (71) is arranged above the stirring support panel (11), the position swinging motor (72) is arranged inside the position swinging cylinder (71), the position swinging rod (73) is movably connected to the output end of the position swinging motor (72), the position swinging sliding rod (74) is arranged at the side end of the position swinging rod (73) and one end of the position swinging sliding rod is connected to the fixed block, and a movable pin is arranged at the joint of the position swinging sliding rod (74) and the position swinging rod (73) and is movably connected.

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