CN115217349A

CN115217349A - Grouting device and method with guiding and evacuating functions for civil construction

Info

Publication number: CN115217349A
Application number: CN202210927114.5A
Authority: CN
Inventors: 黄以迦; 陈祥锋
Original assignee: Wenzhou Jianli Construction Co ltd
Current assignee: Wenzhou Jianli Construction Co ltd
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2022-10-21
Anticipated expiration: 2042-08-03
Also published as: CN115217349B

Abstract

The invention discloses a grouting device and a grouting method with a guiding and evacuating function for civil construction. According to the invention, the connecting rod and the extrusion block are arranged in the third groove, the second stabilizing block is arranged on the outer wall of the first stabilizing block, the limiting groove is arranged in the strip-shaped groove, the movable plate is arranged at one end of the movable rod, the connecting groove is arranged on the outer wall of the movable plate, the connecting block is arranged in the connecting groove, the second movable rod is arranged at one end of the first movable rod, the first clamping rod is arranged at one end of the fixed sleeve, and the fixed sleeve can drive the first clamping rod to move.

Description

Grouting device and method with guiding and evacuating functions for civil construction

Technical Field

The invention relates to the technical field of civil construction, in particular to a grouting device with a guiding and evacuating function for civil construction and a method thereof.

Background

The grouting pump is suitable for projects such as grouting, water plugging, gap filling, broken rock stratum reinforcing and the like in construction sites such as mines, tunnels, water conservancy, subways, buildings, bridges and the like, has complete functions, can be used for injecting single-component grout, and can also be used for injecting double-component grout; the chemical slurry can be injected, and other slurries such as cement can also be injected; all cylinders work synchronously, the mixing ratio can be adjusted, and the materials are mixed uniformly; and may serve as an emulsion pump, hydraulic pump, etc. for other applications. The grouting device with guide evacuating function belongs to one kind of grouting pump.

At present, grouting pump on the market is when using, need be connected the suction pipe and the discharge pipe on the grouting pump with the connecting pipe respectively, cause the grouting pump to carry out level or perpendicular transportation to cement, in the in-service use, use a period back when grouting pump, when the discharge pipe blocks up and needs to wash, because of discharge pipe and grouting pump are fixed connection for the majority of, cause the discharge pipe can't dismantle the washing, and then make the discharge pipe clear up too in the trouble.

Disclosure of Invention

The invention aims to provide a grouting device and a grouting method with a guide evacuation function for civil construction, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a grouting device with a guiding and evacuating function for civil construction comprises a grouting pump body;

the suction pipe is fixedly connected to one side of the outer wall of the grouting pump body and communicated with the interior of the grouting pump body;

the discharge pipe is arranged at the top of the grouting pump body;

the rollers are hinged to the outer wall of the grouting pump body, and the number of the rollers is multiple;

the grouting pump comprises a grouting pump body and is characterized in that a first groove is formed in the grouting pump body, a pull rod is arranged in the first groove, a first pull plate is fixedly connected with one end of the pull rod, a stabilizing sleeve is fixedly connected with the inside of the first groove, a stabilizing rod is slidably connected with one end of the stabilizing sleeve, a second pull plate is fixedly connected with one end of the stabilizing sleeve, a moving rod is fixedly connected with the outer wall of the second pull plate, a moving plate is fixedly connected with one end of the second pull plate, a connecting groove is formed in the outer wall of the moving plate, a connecting block is slidably connected with the inside of the connecting groove, a first movable rod is fixedly connected with the outer wall of the connecting block, a second movable rod is fixedly connected with the outer wall of the first movable rod, a fixing sleeve is fixedly connected with the top of the second movable rod, a fixing sleeve is slidably connected with one end of the fixing rod, one end of the fixing sleeve is fixedly connected with the first groove, a second groove is formed in the outer wall of the grouting pump body, one end of the first clamping rod penetrates through the second groove, the first clamping rod is slidably connected with the grouting pump body, a first clamping groove is formed in the outer wall of the discharging pipe, and one end of the first clamping groove is clamped with the first clamping groove.

Further, a strip-shaped groove is formed in one side of the outer wall of the grouting pump body, a moving block is slidably connected to the inside of the strip-shaped groove, a third groove is formed in the moving block, a connecting rod is arranged in the third groove, an extrusion block is fixedly connected to one end of the connecting rod, far away from the extrusion block, penetrates through the outer wall of the moving block, the connecting rod is slidably connected with the moving block, and the connecting rod is added to enable the extrusion block to drive a first stabilizing block to move.

Further, the outer wall of the connecting rod is fixedly connected with a baffle, a first spring is arranged between the outer wall of the baffle and the third groove, a stabilizing groove is formed in the outer wall of the extruding block, a first stabilizing block is slidably connected inside the stabilizing groove, a second stabilizing block is hinged to the outer wall of the first stabilizing block, a limiting block is hinged to one side, away from the first stabilizing block, of the outer wall of the second stabilizing block, one end of the limiting block penetrates through the outer wall of the moving block, the limiting block is slidably connected with the moving block, a limiting groove is formed in the bar-shaped groove, the limiting block is clamped with the limiting groove, and the limiting groove is added, so that the position of the moving block can be fixed.

Furthermore, one end of the pull rod penetrates through the outer wall of the moving block, the pull rod is connected with the moving block in a sliding mode, a second spring is arranged between the outer wall of the fixed sleeve and the first groove, and the moving track of the fixed sleeve is limited due to the addition of the fixed rod.

Furthermore, a disc is fixedly connected to the outer wall of the pull rod, a third spring is arranged between the disc and the moving block, one end of the third spring is fixedly connected with the outer wall of the disc, the other end of the third spring is fixedly connected with the outer wall of the moving block, and the third spring can be driven to move by the aid of the disc.

Further, disc outer wall fixedly connected with changes the board, it has the runner to change the board and keep away from that disc one end articulates, the inside stripper plate that is equipped with of first recess, the first stripper rod of stripper plate outer wall one side fixedly connected with, first stripper rod one end runs through in grouting pump body outer wall, first stripper rod and grouting pump body sliding connection, be equipped with the fourth spring between stripper plate and the first recess, the joining of stripper plate makes and changes the board and can drive the motion of first stripper rod.

Furthermore, a connecting disc is fixedly connected to the outer wall of the discharge pipe, a first fixing groove is formed in the outer wall of the connecting disc and communicated with the discharge pipe, a second fixing groove is formed in the connecting disc, a second clamping rod is arranged in the second fixing groove, and the position of the connecting pipe can be fixed due to the addition of the second clamping rod.

Furthermore, one end of the second clamping rod penetrates through the inside of the first fixing groove, the second clamping rod is connected with the connecting disc in a sliding mode, the inside of the first fixing groove is connected with the connecting pipe in a sliding mode, a second clamping groove is formed in the outer wall of the connecting pipe, one end of the second clamping rod is clamped with the second clamping groove, and the position of the connecting pipe can be fixed due to the fact that the second clamping groove is formed.

Further, second block pole outer wall articulates there is first slide bar, first slide bar one end sliding connection has the sliding sleeve, first slide bar one end sliding connection has the second slide bar is kept away from to the sliding sleeve, the second slide bar is kept away from that sliding sleeve one end articulates there is the second squeeze bar, be equipped with the fifth spring between second squeeze bar and the second fixed slot, the sliding sleeve is inside articulated with the second fixed slot, second squeeze bar bottom runs through in the connection pad outer wall, second squeeze bar and connection pad sliding connection, the joining of first slide bar and second slide bar makes the second squeeze bar drive the motion of second block pole.

A grouting method with a guiding and evacuating function for civil construction comprises the following steps:

step 1, when the whole discharge pipe needs to be disassembled, pulling a connecting rod to enable the connecting rod to drive a baffle to slide in a third groove, extruding a first spring by the baffle, driving an extruding block to move by the connecting rod, driving a first stabilizing block to move by the extruding block, driving a second stabilizing block to move by the first stabilizing block, and enabling the second stabilizing block to slide in the third groove;

step 2, when the step 1 moves, the second stabilizing block drives the limiting block to be separated from the limiting groove, the moving block is pulled to enable the moving block to slide in the strip-shaped groove, the moving block drives the pull rod to move, the pull rod is enabled to slide in the first groove, and the pull rod drives the first pull plate to move simultaneously;

step 3, when the step 2 is carried out, the first pulling plate can gradually move towards the second pulling plate, when the position of the moving block reaches a proper position, the connecting rod is loosened, the first spring enables the limiting block to return to the initial position, the limiting block enters the limiting groove, the pull rod is pulled, the pull rod can drive the disc to move, and the disc can extrude the third spring;

step 4, the pull rod simultaneously drives the first pull plate to move, so that the first pull plate drives the second pull plate to move, the second pull plate drives the stabilizer bar to move, the stabilizer bar slides in the interior of the stabilizer sleeve, the second pull plate simultaneously drives the movable rod to move, the movable rod slides in the first groove, and the movable rod simultaneously drives the movable plate to move, so that the movable plate moves in the first groove;

step 5, enabling the connecting block to move in the connecting groove, enabling the connecting block to drive the first movable rod and the second movable rod to move, enabling the second movable rod to drive the fixing sleeve to move, enabling the fixing sleeve to extrude the second spring, and enabling the fixing sleeve to drive the first clamping rod to move;

step 6, when the step 5 is carried out, the first clamping rod is separated from the first clamping groove, so that the discharge pipe is separated from the interior of the second groove, the cleaned discharge pipe enters the interior of the second groove, the pull rod is loosened, the extrusion force of the third spring returns the moving plate to the initial position, and one end of the first clamping rod is clamped with the first clamping groove again;

and 7, when the position of the discharge pipe is fixed, starting the grouting pump body to enable the cement to enter the discharge pipe from the suction pipe and then enter the connecting pipe from the discharge pipe, so that the cement enters the object to be grouted from the connecting pipe.

Further, the method is described.

Compared with the prior art, the invention has the beneficial effects that:

1. the grouting device and the grouting method with the guide evacuation function for the civil construction can enable discharge pipes to be detached, cleaned and overhauled, the connecting rod and the extrusion block are arranged in the third groove, the second stabilizing block is arranged on the outer wall of the first stabilizing block, the limiting groove is arranged in the strip-shaped groove, the first pull plate is arranged on the outer wall of the pull rod, the second pull plate is arranged at one end of the stabilizing rod, the movable plate is arranged at one end of the movable rod, the connecting groove is arranged on the outer wall of the movable plate, the connecting block is arranged in the connecting groove, the second movable rod is arranged at one end of the first movable rod, the first clamping rod is arranged at one end of the fixing sleeve, and the fixing sleeve can drive the first clamping rod to move.

2. The grouting device and the grouting method with the guide evacuation function for civil construction can enable a connecting pipe to be replaced simply, and are characterized in that a third spring is arranged between a disc and a moving block, a rotating plate is arranged on the outer wall of the disc, a rotating wheel is arranged at one end of the rotating plate, an extrusion plate is arranged in a first groove, a fourth spring is arranged between the extrusion plate and the first groove, a first extrusion rod is arranged on the outer wall of the extrusion plate, a fifth spring is arranged between a second extrusion rod and a second fixed groove, a first sliding rod and a second sliding rod are arranged at two ends of a sliding sleeve, and a second clamping rod is arranged at one end of the first sliding rod, so that the first sliding rod can drive the second clamping rod to move.

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 principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a top cross-sectional view of a first groove of the present invention;

FIG. 3 is a side view of a first pulling plate of the present invention;

FIG. 4 is a side view of the moving plate of the present invention;

FIG. 5 is a principal sectional view of a secondary retaining slot of the present invention;

FIG. 6 is a main cross-sectional view of a strip groove of the present invention;

FIG. 7 is an enlarged view of the structure at A of FIG. 2 according to the present invention;

fig. 8 is a front view of the baffle of the present invention.

In the figure: 1. a grouting pump body; 2. a suction tube; 3. a discharge pipe; 4. a roller; 5. a first groove; 6. a pull rod; 7. a first pulling plate; 8. a stabilizing sleeve; 9. a stabilizer bar; 10. a second pulling plate; 11. a travel bar; 12. moving the plate; 13. connecting grooves; 14. connecting blocks; 15. a first movable bar; 16. a second movable bar; 17. fixing a sleeve; 18. fixing the rod; 19. a first engaging lever; 20. a second groove; 21. a first engaging groove; 22. a strip-shaped groove; 23. a moving block; 24. a third groove; 25. a connecting rod; 26. extruding the block; 27. a baffle plate; 28. a first spring; 29. a stabilizing slot; 30. a first stabilization block; 31. a second stabilization block; 32. a limiting block; 33. a limiting groove; 34. a second spring; 35. a disc; 36. a third spring; 37. rotating the plate; 38. a rotating wheel; 39. a pressing plate; 40. a first extrusion stem; 41. a fourth spring; 42. a connecting disc; 43. a first fixing groove; 44. a second fixing groove; 45. a second engaging lever; 46. a connecting pipe; 47. a second engaging groove; 48. a first slide bar; 49. a sliding sleeve; 50. a second slide bar; 51. a second extrusion stem; 52. and a fifth spring.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution:

a grouting device with guiding and evacuating functions for civil construction comprises a grouting pump body 1;

the suction pipe 2 is fixedly connected to one side of the outer wall of the grouting pump body 1, and the suction pipe 2 is communicated with the inside of the grouting pump body 1;

the discharge pipe 3 is arranged at the top of the grouting pump body 1;

the rollers 4 are hinged to the outer wall of the grouting pump body 1, and the number of the rollers 4 is multiple;

the grouting pump comprises a grouting pump body 1, a first groove 5 is formed in the grouting pump body 1, a pull rod 6 is arranged in the first groove 5, one end of the pull rod 6 is fixedly connected with a first pull plate 7, a stabilizing sleeve 8 is fixedly connected in the first groove 5, one end of the stabilizing sleeve 8 is slidably connected with a stabilizer rod 9, the stabilizer rod 9 is far away from a stabilizing sleeve 8, one end of the stabilizer rod is fixedly connected with a second pull plate 10, the outer wall of the second pull plate 10 is fixedly connected with a moving rod 11, the moving rod 11 is far away from a second pull plate 10, one end of the moving rod 10 is fixedly connected with a moving plate 12, the outer wall of the moving plate 12 is provided with a connecting groove 13, the inner portion of the connecting groove 13 is slidably connected with a connecting block 14, the outer wall of the connecting block 14 is fixedly connected with a first moving rod 15, the outer wall of the first moving rod 15 is fixedly connected with a second moving rod 16, the top of the second moving rod 16 is fixedly connected with a fixing sleeve 17, one end of the fixing sleeve 17 is slidably connected with a fixing rod 18, one end of the fixing sleeve is fixedly connected with a fixing rod 19, one end of the fixing sleeve 18, one end of the fixing sleeve is fixedly connected with a second groove 20, the grouting pump body 1 is provided with a second groove 20, one end of the first clamping rod 19, the first clamping rod 19 is slidably connected with a first clamping groove 21, one end of the grouting pump body, one clamping groove 21, and a first discharge pipe 21, and a discharge pipe 21.

In a preferred embodiment, a strip-shaped groove 22 is formed in one side of the outer wall of the grouting pump body 1, a moving block 23 is slidably connected inside the strip-shaped groove 22, a third groove 24 is formed inside the moving block 23, a connecting rod 25 is arranged inside the third groove 24, an extrusion block 26 is fixedly connected to one end of the connecting rod 25, one end, away from the extrusion block 26, of the connecting rod 25 penetrates through the outer wall of the moving block 23, the connecting rod 25 is slidably connected with the moving block 23, and when the moving block 23 moves, the moving block 23 can slidably move inside the strip-shaped groove 22.

In a preferred embodiment, the outer wall of the connecting rod 25 is fixedly connected with the baffle 27, a first spring 28 is arranged between the outer wall of the baffle 27 and the third groove 24, the outer wall of the extruding block 26 is provided with a stabilizing groove 29, the inside of the stabilizing groove 29 is slidably connected with a first stabilizing block 30, the outer wall of the first stabilizing block 30 is hinged with a second stabilizing block 31, one side, away from the first stabilizing block 30, of the outer wall of the second stabilizing block 31 is hinged with a limit block 32, one end of the limit block 32 penetrates through the outer wall of the moving block 23, the limit block 32 is slidably connected with the moving block 23, a limit groove 33 is formed inside the strip-shaped groove 22, the limit block 32 is clamped with the limit groove 33, and when the limit block 32 moves, the limit block 32 can be separated from the limit groove 33.

In a preferred embodiment, one end of the pull rod 6 penetrates through the outer wall of the moving block 23, the pull rod 6 is slidably connected with the moving block 23, a second spring 34 is arranged between the outer wall of the fixed sleeve 17 and the first groove 5, and when the fixed sleeve 17 moves, the fixed sleeve 17 extrudes the second spring 34.

In a preferred embodiment, a disc 35 is fixedly connected to an outer wall of the pull rod 6, a third spring 36 is arranged between the disc 35 and the moving block 23, one end of the third spring 36 is fixedly connected to an outer wall of the disc 35, the other end of the third spring 36 is fixedly connected to an outer wall of the moving block 23, and when the disc 35 moves, the disc 35 drives the third spring 36 to move.

A grouting method with guiding and evacuating functions for civil construction comprises the following steps:

step 1, when the discharge pipe 3 needs to be integrally disassembled, pulling the connecting rod 25 to enable the connecting rod 25 to drive the baffle 27 to slide in the third groove 24, meanwhile, the baffle 27 can extrude the first spring 28, meanwhile, the connecting rod 25 drives the extruding block 26 to move, the extruding block 26 drives the first stabilizing block 30 to move, the first stabilizing block 30 drives the second stabilizing block 31 to move, and the second stabilizing block 31 slides in the third groove 24;

step 2, when the step 1 moves, the second stabilizing block 31 drives the limiting block 32 to separate from the limiting groove 33, the moving block 23 is pulled, the moving block 23 slides in the strip-shaped groove 22, the moving block 23 drives the pull rod 6 to move, the pull rod 6 slides in the first groove 5, and the pull rod 6 drives the first pull plate 7 to move at the same time;

step 3, when the step 2 is carried out, the first pulling plate 7 can gradually move towards the second pulling plate 10, when the position of the moving block 23 reaches a proper position, the connecting rod 25 is loosened, the first spring 28 enables the limiting block 32 to return to the initial position, the limiting block 32 enters the limiting groove 33, the pulling rod 6 is pulled, the pulling rod 6 can drive the disc 35 to move, and the disc 35 can extrude the third spring 36;

step 4, the pull rod 6 simultaneously drives the first pull plate 7 to move, so that the first pull plate 7 drives the second pull plate 10 to move, the second pull plate 10 drives the stabilizer bar 9 to move, the stabilizer bar 9 slides in the stabilizing sleeve 8, the second pull plate 10 simultaneously drives the movable rod 11 to move, the movable rod 11 slides in the first groove 5, and the movable rod 11 simultaneously drives the movable plate 12 to move, so that the movable plate 12 moves in the first groove 5;

step 5, the connecting block 14 moves inside the connecting groove 13, so that the connecting block 14 can drive the first movable rod 15 and the second movable rod 16 to move, the second movable rod 16 drives the fixing sleeve 17 to move, the fixing sleeve 17 extrudes the second spring 34, and meanwhile, the fixing sleeve 17 drives the first clamping rod 19 to move;

step 6, when the step 5 is performed, the first engaging rod 19 is separated from the first engaging groove 21, so that the discharge pipe 3 is separated from the interior of the second groove 20, the cleaned discharge pipe 3 enters the interior of the second groove 20, the pull rod 6 is released, the extrusion force of the third spring 36 is released, the moving plate 12 returns to the initial position, and one end of the first engaging rod 19 is engaged with the first engaging groove 21 again;

and 7, when the position of the discharge pipe 3 is fixed, starting the grouting pump body 1 to enable the cement to enter the discharge pipe 3 from the suction pipe 2 and then enter the connecting pipe 46 from the discharge pipe 3, so that the cement enters the object to be grouted from the connecting pipe 46.

The working principle of the invention is as follows: when the discharge pipe 3 needs to be integrally disassembled, the connecting rod 25 is pulled, the connecting rod 25 drives the baffle plate 27 to slide in the third groove 24, the baffle plate 27 can extrude the first spring 28, the connecting rod 25 drives the extruding block 26 to move, the cross section of the extruding block 26 is in an isosceles trapezoid shape, the extruding block 26 can drive the first stabilizing block 30 to move, the first stabilizing block 30 drives the second stabilizing block 31 to move, the second stabilizing block 31 slides in the third groove 24, when the second stabilizing block 31 moves, the second stabilizing block 31 drives the limiting block 32 to separate from the limiting groove 33, the moving block 23 is pulled, the moving block 23 slides in the strip-shaped groove 22, the moving block 23 drives the pull rod 6 to move, the pull rod 6 slides in the first groove 5, the pull rod 6 drives the disc 35 to move, and the disc 35 slides in the first groove 5, the pull rod 6 simultaneously drives the first pull plate 7 to move, at the same time, the first pull plate 7 gradually moves towards the second pull plate 10, when the position of the moving block 23 reaches a proper position, the connecting rod 25 is loosened, the first spring 28 drives the baffle plate 27 to move, the baffle plate 27 drives the connecting rod 25 to move, the connecting rod 25 drives the extrusion block 26 to move, the extrusion block 26 enables the limiting block 32 to return to an initial position through the first stabilizing block 30 and the second stabilizing block 31, the limiting block 32 enters the limiting groove 33, at the moment, the pull rod 6 is pulled, the pull rod 6 drives the disc 35 to move, the disc 35 extrudes the third spring 36, the pull rod 6 simultaneously drives the first pull plate 7 to move, the first pull plate 7 drives the second pull plate stabilizing rod 10 to move, the second pull plate 10 slides in the first groove 5, the second pull plate 10 drives the second pull plate 9 to move, and the second pull plate 9 slides in the stabilizing sleeve 8, the second pulling plate 10 simultaneously drives the moving rod 11 to move, so that the moving rod 11 slides in the first groove 5, the moving rod 11 simultaneously drives the moving plate 12 to move, at this time, the moving plate 12 moves in the first groove 5, so that the connecting block 14 moves in the connecting groove 13, the cross section of the connecting groove 13 is arc-shaped, so that the connecting block 14 can drive the first moving rod 15 and the second moving rod 16 to move, so that the second moving rod 16 drives the fixing sleeve 17 to move, the fixing sleeve 17 extrudes the second spring 34, at the same time, the fixing sleeve 17 drives the first clamping rod 19 to move, the first clamping rod 19 is separated from the first clamping groove 21, so that the discharge pipe 3 is separated from the second groove 20, the discharge pipe 3 is cleaned, so that the cleaned discharge pipe 3 enters the second groove 20, the pulling rod 6 is released, the extrusion force of the third spring 36 is used to return the moving plate 12 to the initial position, so that one end of the first clamping rod 19 is re-clamped with the first clamping groove 21, when the position of the discharge pipe 3 is fixed, the grouting pump body 1 is started, so that cement is sucked into the discharge pipe 2, and then enters the discharge pipe 3, and then enters the interior of the discharge pipe 46.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a civil construction is with cementer that has the function of managing to find time of direction, disc 35 outer wall fixedly connected with changes board 37, it has runner 38 to change board 37 and keep away from that disc 35 one end articulates, the inside stripper plate 39 that is equipped with of first recess 5, the first stripper bar 40 of stripper plate 39 outer wall one side fixedly connected with, first stripper bar 40 one end is run through in 1 outer wall of grouting pump body,

first stripper bar

40 and 1 sliding connection of grouting pump body, be equipped with fourth spring 41 between stripper plate 39 and the first recess 5, when the stripper plate 39 moves, the stripper plate 39 can drive the motion of first stripper bar 40.

In a preferred embodiment, a connection disc 42 is fixedly connected to an outer wall of the discharge pipe 3, a first fixing groove 43 is formed in an outer wall of the connection disc 42, the first fixing groove 43 is communicated with the discharge pipe 3, a second fixing groove 44 is formed in the connection disc 42, a second engaging rod 45 is arranged in the second fixing groove 44, and when the second engaging rod 45 moves, the second engaging rod 45 is separated from the second engaging groove 47.

In a preferred embodiment, one end of the second engaging rod 45 penetrates the first fixing groove 43, the second engaging rod 45 is slidably connected to the connecting plate 42, the connecting pipe 46 is slidably connected to the inside of the first fixing groove 43, the second engaging groove 47 is formed on the outer wall of the connecting pipe 46, one end of the second engaging rod 45 is engaged with the second engaging groove 47, and when the connecting pipe 46 moves, the connecting pipe 46 slidably moves with the first fixing groove 43.

In a preferred embodiment, a first sliding rod 48 is hinged to the outer wall of the second clamping rod 45, a sliding sleeve 49 is slidably connected to one end of the first sliding rod 48, a second sliding rod 50 is slidably connected to one end of the sliding sleeve 49 away from the first sliding rod 48, a second extruding rod 51 is hinged to one end of the second sliding rod 50 away from the sliding sleeve 49, a fifth spring 52 is arranged between the second extruding rod 51 and the second fixing groove 44, the sliding sleeve 49 is hinged to the inside of the second fixing groove 44, the bottom end of the second extruding rod 51 penetrates through the outer wall of the connecting disc 42, the second extruding rod 51 is slidably connected with the connecting disc 42, and when the first sliding rod 48 moves, the sliding sleeve 49 is driven by the first sliding rod 48.

The working principle of the invention is as follows: when the device is used, when the discharge pipe 3 is required to be connected with the connecting pipe 46, the connecting rod 25 is pulled, the connecting rod 25 drives the baffle plate 27 to slide in the third groove 24, the baffle plate 27 can extrude the first spring 28, the connecting rod 25 drives the extrusion block 26 to move, the cross section of the extrusion block 26 is in an isosceles trapezoid shape, the extrusion block 26 can drive the first stabilizing block 30 to move, the first stabilizing block 30 drives the second stabilizing block 31 to move, the second stabilizing block 31 can slide in the third groove 24, when the second stabilizing block 31 moves, the second stabilizing block 31 can drive the limiting block 32 to separate from the limiting groove 33, the moving block 23 is pulled, the moving block 23 can slide in the strip groove 22, the moving block 23 can drive the pull rod 6 to move, the pull rod 6 can slide in the first groove 5, and the pull rod 6 can drive the disc 35 to move, the disc 35 is made to slide in the first groove 5, the pull rod 6 drives the first pulling plate 7 to move at the same time, at this time, the first pulling plate 7 will gradually move towards the direction away from the second pulling plate 10, when the moving block 23 reaches a proper position, the connecting rod 25 is loosened, the limiting block 32 is re-engaged with the limiting groove 33, the pull rod 6 is rotated, the pull rod 6 drives the disc 35 to move, the disc 35 rotates in the first groove 5, the disc 35 drives the rotating plate 37 to move at the same time, the rotating plate 37 rotates in the first groove 5, the rotating plate 37 drives the rotating wheel 38 to move, when the rotating wheel 38 reaches one side of the extrusion plate 39, the rotating wheel 38 extrudes the extrusion plate 39, the extrusion plate 39 makes the extrusion plate 39 slide in the first groove 5, at the same time, the extrusion plate 39 extrudes the fourth spring 41, the extrusion plate 39 drives the first extrusion rod 40 to move, and the first extrusion rod 40 extrudes the second extrusion rod 51, the second pressing rod 51 presses the fifth spring 52, and at the same time, the second pressing rod 51 drives the second sliding rod 50 to move, so that the second sliding rod 50 drives the sliding sleeve 49 to swing, the sliding sleeve 49 drives the first sliding rod 48 to move, so that the first sliding rod 48 swings inside the second fixing slot 44, the first sliding rod 48 drives the second engaging rod 45 to move, so that the second engaging rod 45 enters the second fixing slot 44, so that the connecting pipe 46 enters the first fixing slot 43, when the connecting pipe 46 reaches a proper position, the pulling rod 6 is released, the torsion of the third spring 36 is released, so that the disc 35 returns to the initial position, so that the first pressing rod 40 returns to the initial position, and the fifth spring 52 returns the second pressing rod 51 to the initial position, so that one end of the second engaging rod 45 is engaged with the second engaging slot 47.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A grouting device with a guiding and evacuating function for civil construction comprises a grouting pump body (1);

the suction pipe (2) is fixedly connected to one side of the outer wall of the grouting pump body (1), and the suction pipe (2) is communicated with the inside of the grouting pump body (1);

the discharge pipe (3) is arranged at the top of the grouting pump body (1);

the rollers (4) are hinged to the outer wall of the grouting pump body (1), and the number of the rollers (4) is multiple;

the method is characterized in that:

the grouting pump comprises a grouting pump body (1), wherein a first groove (5) is formed in the grouting pump body (1), a pull rod (6) is arranged in the first groove (5), a first pull plate (7) is fixedly connected with one end of the pull rod (6), a stabilizing sleeve (8) is fixedly connected with the inner part of the first groove (5), a stabilizing rod (9) is slidably connected with one end of the stabilizing sleeve (8), a second pull plate (10) is fixedly connected with one end of the stabilizing rod (9), a moving rod (11) is fixedly connected with the outer wall of the second pull plate (10), a moving plate (12) is fixedly connected with one end of the second pull plate (10) is kept away from the moving rod (11), a connecting groove (13) is formed in the outer wall of the moving plate (12), a connecting block (14) is slidably connected with the inner part of the connecting groove (13), a first moving rod (15) is fixedly connected with the outer wall of the connecting block (14), a second moving rod (16) is fixedly connected with the outer wall of the first moving rod (15), a fixed sleeve (17) is fixedly connected with the top of the second moving rod (16), a fixed sleeve (17) is fixedly connected with one end of the fixed sleeve (17), a fixed sleeve (17) is fixedly connected with one end of the fixed rod (18), a fixed rod (18) is fixedly connected with the first groove (17), and a fixed rod (19) is connected with the fixed rod (17) is connected with one end of the fixed rod (17), second recess (20) have been seted up to grouting pump body (1) outer wall, first block pole (19) one end runs through inside second recess (20), first block pole (19) and grouting pump body (1) sliding connection, first block groove (21) have been seted up to discharge pipe (3) outer wall, first block pole (19) one end and first block groove (21) looks block.

2. The grouting device with a guide evacuation function for civil construction according to claim 1, characterized in that: the grouting pump is characterized in that a strip-shaped groove (22) is formed in one side of the outer wall of the grouting pump body (1), a moving block (23) is connected to the inside of the strip-shaped groove (22) in a sliding mode, a third groove (24) is formed in the moving block (23), a connecting rod (25) is arranged in the third groove (24), an extrusion block (26) is fixedly connected to one end of the connecting rod (25), one end of the extrusion block (26) is far away from the connecting rod (25) and penetrates through the outer wall of the moving block (23), and the connecting rod (25) is connected with the moving block (23) in a sliding mode.

3. The grouting device with a guide evacuation function for civil engineering according to claim 2, wherein: connecting rod (25) outer wall fixedly connected with baffle (27), be equipped with first spring (28) between baffle (27) outer wall and third recess (24), stable groove (29) have been seted up to extrusion piece (26) outer wall, the inside sliding connection of stable groove (29) has first stable piece (30), first stable piece (30) outer wall articulates there is second stable piece (31), first stable piece (30) one side is kept away from to second stable piece (31) outer wall articulates there is stopper (32), stopper (32) one end runs through in movable block (23) outer wall, stopper (32) and movable block (23) sliding connection, limiting groove (33) have been seted up to bar groove (22) inside, stopper (32) and limiting groove (33) looks block.

4. The grouting device with a guide evacuation function for civil construction according to claim 2, characterized in that: one end of the pull rod (6) penetrates through the outer wall of the moving block (23), the pull rod (6) is connected with the moving block (23) in a sliding mode, and a second spring (34) is arranged between the outer wall of the fixed sleeve (17) and the first groove (5).

5. The grouting device with a guide evacuation function for civil engineering according to claim 2, wherein: the outer wall of the pull rod (6) is fixedly connected with a disc (35), a third spring (36) is arranged between the disc (35) and the moving block (23), one end of the third spring (36) is fixedly connected with the outer wall of the disc (35), and the other end of the third spring (36) is fixedly connected with the outer wall of the moving block (23).

6. The grouting device with a guide evacuation function for civil construction according to claim 5, characterized in that: disc (35) outer wall fixedly connected with changes board (37), it has runner (38) to keep away from that disc (35) one end articulates in board (37), first recess (5) are inside to be equipped with stripper plate (39), the first stripper bar (40) of stripper plate (39) outer wall one side fixedly connected with, first stripper bar (40) one end is run through in grouting pump body (1) outer wall, first stripper bar (40) and grouting pump body (1) sliding connection, be equipped with fourth spring (41) between stripper plate (39) and first recess (5).

7. The grouting device with a guide evacuation function for civil engineering according to claim 1, wherein: discharge pipe (3) outer wall fixedly connected with connection pad (42), first fixed slot (43) have been seted up to connection pad (42) outer wall, first fixed slot (43) and discharge pipe (3) intercommunication, second fixed slot (44) have been seted up to connection pad (42) inside, second fixed slot (44) inside is equipped with second block pole (45).

8. The grouting device with a guide evacuation function for civil engineering according to claim 7, wherein: one end of the second clamping rod (45) penetrates through the inside of the first fixing groove (43), the second clamping rod (45) is connected with the connecting disc (42) in a sliding mode, the inside of the first fixing groove (43) is connected with the connecting pipe (46) in a sliding mode, a second clamping groove (47) is formed in the outer wall of the connecting pipe (46), and one end of the second clamping rod (45) is clamped with the second clamping groove (47).

9. The grouting device with a guide evacuation function for civil engineering according to claim 7, wherein: second block pole (45) outer wall articulates there is first slide bar (48), first slide bar (48) one end sliding connection has sliding sleeve (49), first slide bar (48) one end sliding connection has second slide bar (50) is kept away from in sliding sleeve (49), second slide bar (50) are kept away from sliding sleeve (49) one end and are articulated to have second squeeze bar (51), be equipped with fifth spring (52) between second squeeze bar (51) and second fixed slot (44), sliding sleeve (49) and second fixed slot (44) inside articulated, second squeeze bar (51) bottom is run through in connection pad (42) outer wall, second squeeze bar (51) and connection pad (42) sliding connection.

10. A grouting method for civil engineering works with a guided evacuation function according to any of claims 1 to 9, characterised by comprising the following steps:

step 1, when the discharge pipe (3) needs to be integrally disassembled, pulling the connecting rod (25), enabling the connecting rod (25) to drive the baffle (27) to slide in the third groove (24), meanwhile, the baffle (27) can extrude the first spring (28), meanwhile, the connecting rod (25) drives the extrusion block (26) to move, the extrusion block (26) drives the first stabilizing block (30) to move, the first stabilizing block (30) drives the second stabilizing block (31) to move, and the second stabilizing block (31) is enabled to slide in the third groove (24);

step 2, when the step 1 moves, the second stabilizing block (31) can drive the limiting block (32) to be separated from the limiting groove (33), the moving block (23) is pulled to enable the moving block (23) to slide in the strip-shaped groove (22), the moving block (23) can drive the pull rod (6) to move, the pull rod (6) can slide in the first groove (5), and the pull rod (6) drives the first pull plate (7) to move at the same time;

step 3, when the step 2 is carried out, the first pulling plate (7) can gradually move towards the second pulling plate (10), when the position of the moving block (23) reaches a proper position, the connecting rod (25) is loosened, the first spring (28) enables the limiting block (32) to return to an initial position, the limiting block (32) enters the limiting groove (33), the pulling rod (6) is pulled, the pulling rod (6) can drive the disc (35) to move, and the disc (35) extrudes the third spring (36);

step 4, the pull rod (6) simultaneously drives the first pull plate (7) to move, so that the first pull plate (7) drives the second pull plate (10) to move, the second pull plate (10) drives the stabilizer bar (9) to move, the stabilizer bar (9) slides in the stabilizing sleeve (8), the second pull plate (10) simultaneously drives the moving rod (11) to move, the moving rod (11) slides in the first groove (5), the moving rod (11) simultaneously drives the moving plate (12) to move, and the moving plate (12) moves in the first groove (5);

step 5, enabling the connecting block (14) to move in the connecting groove (13), so that the connecting block (14) can drive the first movable rod (15) and the second movable rod (16) to move, enabling the second movable rod (16) to drive the fixing sleeve (17) to move, extruding the second spring (34) by the fixing sleeve (17), and meanwhile, driving the first clamping rod (19) to move by the fixing sleeve (17);

step 6, when the step 5 is carried out, the first clamping rod (19) is separated from the first clamping groove (21), the discharge pipe (3) is separated from the interior of the second groove (20), the cleaned discharge pipe (3) enters the interior of the second groove (20), the pull rod (6) is loosened, the extrusion force of the third spring (36) enables the moving plate (12) to return to the initial position, and one end of the first clamping rod (19) is clamped with the first clamping groove (21) again;

and 7, when the position of the discharge pipe (3) is fixed, starting the grouting pump body (1) to enable cement to enter the discharge pipe (3) from the suction pipe (2) and then enter the connecting pipe (46) from the discharge pipe (3), so that the cement enters the objects needing grouting from the connecting pipe (46).