CN112922343A

CN112922343A - High-efficiency concrete pouring equipment

Info

Publication number: CN112922343A
Application number: CN202110060094.1A
Authority: CN
Inventors: 李逸
Original assignee: Individual
Current assignee: Wuhan Silibo Rail Equipment Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-06-08
Anticipated expiration: 2041-01-18
Also published as: CN112922343B

Abstract

The invention relates to the field of civil construction engineering, in particular to high-efficiency concrete pouring equipment which comprises a guide block and a telescopic block, wherein an inserting groove is formed in the front end face of the guide block, a sealing cover is arranged on the front end face of the guide block, a clamping groove is formed in the side face of the sealing cover, a guide pipe is arranged on the side face of the guide block, a guide groove is formed in the guide pipe, a rotary block is arranged on the rear end face of the guide block, a connecting block is arranged on the outer side of the rotary block, a rotary groove is formed in the connecting block, inner bolt grooves are formed in the circumferential array of the front end face of the connecting block, inner hexagon bolts are arranged in the inner bolt grooves, a threaded shaft is arranged on the rear end face of the connecting block, the telescopic block is arranged on the outer side of the threaded shaft; the beneficial effects are that: the invention provides high-efficiency concrete pouring equipment which is used for carrying out structural optimization on the traditional concrete pouring equipment so that the work of the high-efficiency concrete pouring equipment is more efficient.

Description

High-efficiency concrete pouring equipment

Technical Field

The invention relates to the field of civil construction engineering, in particular to high-efficiency concrete pouring equipment.

Background

The concrete pouring refers to a process from pouring concrete into a mold to plasticizing, materials such as concrete and the like are put into the mold to be made into a preset shape in civil and architectural engineering, the free height of the concrete is not more than 2m when the concrete is poured, corresponding measures are taken when the free height of the concrete exceeds 3m, in the prior art, the concrete pouring usually needs to be carried out at a specified position by a worker holding a pouring rubber pipe, so that extra manpower is wasted for operation, a small part of concrete falls after the pouring is finished, and the concrete needs to be cleaned by the worker, otherwise, the concrete is treated after solidification and is troublesome; to this end, the present invention proposes a high-efficiency concrete casting apparatus to solve the above problems.

Disclosure of Invention

The invention aims to provide high-efficiency concrete pouring equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency concrete pouring device comprises a guide block and a telescopic block, wherein the front end face of the guide block is provided with insertion grooves, the upper end face of each insertion groove is provided with four rotating grooves in a circumferential array, the rear end face of each rotating groove is provided with an elastic groove, the rear end faces of the elastic grooves are equidistantly provided with two springs, a sliding block is arranged in front of each spring, a sliding shaft is arranged in each sliding block, the two ends of each sliding shaft are symmetrically provided with limit blocks, a matching block is symmetrically arranged on each sliding shaft, a rotating column is arranged in the middle of each matching block, the two side faces of each rotating groove are symmetrically provided with sliding grooves, limit grooves are arranged in the sliding grooves, the front end face of each guide block is provided with a sealing cover, the side faces of each sealing cover are provided with clamping grooves, the side faces of each guide block are provided with a, interior bolt groove has been seted up to terminal surface circumference array before the connecting block, and interior hexagon socket head cap screw is installed to interior bolt inslot, and the threaded spindle is installed to the connecting block rear end face, and flexible piece is installed in the threaded spindle outside, and the threaded groove has been seted up to the terminal surface before the flexible piece, and the bolt spread groove has been seted up to terminal surface circumference array before the flexible piece, installs the mounting bracket on the flexible piece lateral surface, has seted up the fixed orifices on the mounting bracket, installs the pipeline in the.

Preferably, the inserting groove is of a cylindrical structure, the rotating groove is of a cuboid structure, the elastic groove is of a cuboid structure, the spring is fixedly connected with the rear end face of the elastic groove, and the sliding block is of a cuboid structure with a front end face being a semi-cylinder.

Preferably, the sliding block and the elastic groove sliding fit are provided with a cylindrical through hole, the sliding shaft and the sliding block cylindrical through hole are in running fit, the sliding shaft and the sliding groove are in running fit, the limiting block is of a cylindrical structure, the limiting block and the two sides of the sliding shaft are in running fit, and the limiting block and the limiting groove are in running fit.

Preferably, the width of stopper is greater than the width of sliding tray, and the cooperation piece is articulated with the sliding shaft, has seted up in the middle of the cooperation piece and has rotated the hole, rotates the hole normal running fit in the middle of post and the cooperation piece, rotates post and rotation groove side fixed connection.

Preferably, the closing cap is the annular structure of section pi type, closing cap and inserting groove sliding fit, joint groove and cooperation piece preceding terminal surface cooperation, and the stand pipe is the cylinder structure that has the gradient.

Preferably, the guide way runs through stand pipe and guide block, and guide way and pipeline cooperation, rotatory piece are the cylinder structure, rotatory piece and guide block rear end face fixed connection, and the connecting block is the cylinder structure.

Preferably, the rotating groove is in running fit with the rotating block, the inner bolt groove is of an annular structure with a T-shaped section, the inner hexagon bolt is matched with the inner bolt groove, the threaded shaft is of a cylindrical structure, and threads are formed in the threaded shaft.

Preferably, flexible piece is the cylinder problem structure, flexible piece and connecting block bolt fixed connection, thread groove and the epaxial screw-thread engagement of screw thread, bolt connection groove and hexagon socket head cap screw cooperation, mounting bracket and flexible piece fixed connection, the fixed orifices is the cylinder structure, fixed orifices and pipeline cooperation.

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

1. the invention provides high-efficiency concrete pouring equipment which is used for carrying out structural optimization on traditional concrete pouring equipment, wherein a guide block is arranged to connect the guide block with a telescopic block of a pouring device, and a pipeline penetrates through an installation frame and a guide groove through rotation, so that the pipeline does not need to be held by a worker in the pouring process.

2. The invention provides a high-efficiency concrete pouring device which is used for carrying out structural optimization on the traditional concrete pouring device, and the sealing cover can not fall off by itself by utilizing the extension and contraction of a spring, and the problem that concrete falls off can be solved by pulling out the sealing cover when the sealing cover is required to be used.

Drawings

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

FIG. 2 is a schematic view of the structure of the guide block and the telescopic block of the present invention;

FIG. 3 is a schematic view of the structure of the insertion groove of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2;

fig. 5 is an enlarged view of the structure at B in fig. 3.

In the figure: 1. a guide block; 2. a telescopic block; 3. a closure cap; 4. a guide tube; 5. a mounting frame; 6. a pipeline; 7. connecting blocks; 8. a clamping groove; 9. rotating the block; 10. a rotating tank; 11. an inner bolt slot; 12. connecting a groove by a bolt; 13. a hexagon socket head cap screw; 14. a fixing hole; 15. a guide groove; 16. inserting grooves; 17. a thread groove; 18. a threaded shaft; 19. a rotating groove; 20. an elastic groove; 21. a spring; 22. a slider; 23. A sliding shaft; 24. rotating the column; 25. a matching block; 26. a sliding groove; 27. a limiting groove; 28. and a limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: a high-efficiency concrete pouring device comprises a guide block 1 and a telescopic block 2, wherein an inserting groove 16 is formed in the front end face of the guide block 1, the inserting groove 16 is of a cylindrical structure, four rotating grooves 19 are formed in the circumferential array of the upper end face of the inserting groove 16, each rotating groove 19 is of a cuboid structure, an elastic groove 20 is formed in the rear end face of each rotating groove 19, each elastic groove 20 is of a cuboid structure, two springs 21 are equidistantly arranged on the rear end face of each elastic groove 20, each spring 21 is fixedly connected with the rear end face of each elastic groove 20, a sliding block 22 is arranged in front of each spring 21, each sliding block 22 is of a cuboid structure with a semi-cylindrical front end face, each sliding block 22 is in sliding fit with each elastic groove 20, a cylindrical through hole is formed in each sliding block 22, a sliding shaft 23 is arranged in each sliding block 22, each sliding shaft 23 is in rotating fit with the, the limiting block 28 is a cylindrical structure, the limiting block 28 is rotatably inserted into two sides of the sliding shaft 23, the limiting block 28 is in sliding fit with the limiting groove 27, the width of the limiting block 28 is larger than that of the sliding groove 26, the sliding shaft 23 is symmetrically provided with matching blocks 25 at left and right, the matching blocks 25 are hinged with the sliding shaft 23, the middle of the matching blocks 25 is provided with a rotating hole, the middle of the matching blocks 25 is provided with a rotating column 24, the rotating column 24 is in rotating fit with the rotating hole in the middle of the matching blocks 25, the rotating column 24 is fixedly connected with the side surface of the rotating groove 19, the two side surfaces of the rotating groove 19 are symmetrically provided with the sliding groove 26,

the front end face of the guide block 1 is provided with a sealing cover 3, the sealing cover 3 is of an annular structure with a pi-shaped section, the sealing cover 3 is in sliding fit with the insertion groove 16, the side face of the sealing cover 3 is provided with a clamping groove 8, the clamping groove 8 is matched with the front end face of the matching block 25, the side face of the guide block 1 is provided with a guide pipe 4, the guide pipe 4 is of a cylinder structure with inclination, the guide pipe 4 is provided with a guide groove 15, the guide groove 15 penetrates through the guide pipe 4 and the guide block 1, the guide groove 15 is matched with the pipeline 6, the rear end face of the guide block 1 is provided with a rotating block 9, the rotating block 9 is of a cylinder structure, the rotating block 9 is fixedly connected with the rear end face of the guide block 1, the connecting block 7 is of a cylinder structure, the outer side of the rotating block 9 is provided with a connecting block 7, the rotating groove 10 is arranged in, the inner bolt groove 11 is an annular structure with a T-shaped section, an inner hexagon bolt 13 is arranged in the inner bolt groove 11, the inner hexagon bolt 13 is matched with the inner bolt groove 11, a threaded shaft 18 is arranged on the rear end face of the connecting block 7, the threaded shaft 18 is of a cylindrical structure, threads are arranged on the threaded shaft 18, an expansion block 2 is arranged on the outer side of the threaded shaft 18, the expansion block 2 is of a cylindrical structure, the expansion block 2 is fixedly connected with the connecting block 7 through a bolt, a threaded groove 17 is arranged on the front end face of the expansion block 2, the threaded groove 17 is in threaded engagement with the threaded shaft 18, bolt connecting grooves 12 are arranged in a circumferential array on the front end face of the expansion block 2, the bolt connecting grooves 12 are matched with the inner hexagon bolt 13, an installation frame 5 is arranged on the outer side face of the expansion block 2, the installation frame 5 is fixedly connected with the expansion block 2, a fixing hole 14, the fixing hole 14 is provided with a pipe 6.

The working principle is as follows: the elasticity of the spring 21 and the sliding fit of the sliding block 22 and the elastic groove 20 are utilized to realize the expansion and contraction of the sliding block 22 in the elastic groove 20, the sliding shaft 23 is utilized to drive the sliding block 22 to move by utilizing the rotating fit of the sliding shaft 23 and the cylindrical through hole of the sliding block 22, the sliding shaft 23 is utilized to slide in the sliding groove 26 by utilizing the sliding fit of the sliding shaft 23 and the sliding groove 26, the limiting block 28 is utilized to slide in the limiting groove 27 by utilizing the sliding fit of the limiting block 28 and the limiting groove 27, the rotating insertion of the limiting block 28 and the sliding shaft 23 is realized by utilizing the rotating insertion of the limiting block 28 and the two sides of the sliding shaft 23, the width of the limiting block 28 is larger than that of the sliding groove 26, the limiting block 28 limits the sliding shaft 23 to slide on the sliding groove 26, the rotating fit of the rotating column 24 and the middle rotating hole of the fitting block 25 is utilized to realize, utilize closing

cap

3 and 16 sliding fit of inserting groove and joint groove 8 and the cooperation piece 25 preceding terminal surface cooperation, only receive the dead weight condition when realizing closing cap 3 to insert wherein and lead to cooperation piece 25 can not rotate owing to the elasticity of spring 21, closing cap 3 can not drop naturally, need artificially to extract, utilize guide way 15 to run through stand pipe 4 and guide block 1, realize letting in pipeline 6 in guide way 15 need not the personnel to assist, utilize swivelling chute 10 and swivel block 9 normal running fit, realize guide block 1 at swivel block 9 internal rotation, until guide way 15 and fixed orifices 14 are in same horizontal plane, utilize interior hexagonal bolt 13 and interior screw groove 11 cooperation and bolt connection groove 12 and interior hexagonal bolt 13 cooperation, realize flexible piece 2 and connecting block 7 bolt fixed connection, utilize thread groove 17 and the threaded shaft 18 on the screw-thread engagement, realize the supplementary fixed connection to flexible piece 2 and connecting block 7.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a high-efficiency concrete pouring equipment, includes guide block (1) and flexible piece (2), its characterized in that: the guide block is characterized in that an inserting groove (16) is formed in the front end face of the guide block (1), four rotating grooves (19) are formed in the circumferential array of the upper end face of each inserting groove (16), elastic grooves (20) are formed in the rear end face of each rotating groove (19), two springs (21) are arranged at equal intervals on the rear end face of each elastic groove (20), a sliding block (22) is arranged in front of each spring (21), sliding shafts (23) are arranged in the sliding blocks (22), limiting blocks (28) are symmetrically arranged at two ends of each sliding shaft (23), matching blocks (25) are symmetrically arranged on the sliding shafts (23) in the left and right directions, rotating columns (24) are arranged in the middles of the matching blocks (25), sliding grooves (26) are symmetrically formed in two side faces of each rotating groove (19), limiting grooves (27) are formed in the sliding grooves (26), a sealing cover (3) is arranged on the front end face of the guide block (, guide groove (15) have been seted up on stand pipe (4), rotatory piece (9) are installed to guide block (1) rear end face, connecting block (7) are installed in rotatory piece (9) outside, rotatory groove (10) have been seted up in connecting block (7), interior bolt groove (11) have been seted up to terminal surface circumference array before connecting block (7), interior hexagon socket head cap screw (13) have been installed in interior bolt groove (11), threaded shaft (18) are installed to connecting block (7) rear end face, flexible piece (2) are installed in the threaded shaft (18) outside, threaded groove (17) have been seted up to terminal surface before flexible piece (2), bolt spread groove (12) have been seted up to terminal surface circumference array before flexible piece (2), install on flexible piece (2) the lateral surface mounting bracket (5), fixed orifices (14) have been seted up on mounting bracket (5), install pipeline (6) in fixed orifices (.

2. A high-efficiency concrete pouring apparatus according to claim 1, wherein: inserting groove (16) are the cylinder structure, rotate groove (19) and be the cuboid structure, and elasticity groove (20) are the cuboid structure, and spring (21) and elasticity groove (20) rear end face fixed connection, sliding block (22) are preceding terminal surface are the cuboid structure of halfcylinder.

3. A high-efficiency concrete pouring apparatus according to claim 1, wherein: sliding block (22) and elastic groove (20) sliding fit have seted up the cylinder through-hole on sliding block (22), sliding shaft (23) and sliding block (22) cylinder through-hole normal running fit, sliding shaft (23) and sliding groove (26) sliding fit, stopper (28) are the cylinder structure, stopper (28) and sliding shaft (23) both sides rotate to peg graft, stopper (28) and spacing groove (27) sliding fit.

4. A high-efficiency concrete pouring apparatus according to claim 1, wherein: the width of stopper (28) is greater than the width of sliding tray (26), and cooperation piece (25) are articulated with sliding shaft (23), have seted up in the middle of cooperation piece (25) and have rotated the hole, rotate post (24) and cooperation piece (25) middle rotation hole normal running fit, rotate post (24) and rotation groove (19) side fixed connection.

5. A high-efficiency concrete pouring apparatus according to claim 1, wherein: the sealing cover (3) is of an annular structure with a pi-shaped section, the sealing cover (3) is in sliding fit with the insertion groove (16), the clamping groove (8) is matched with the front end face of the matching block (25), and the guide pipe (4) is of a cylinder structure with an inclination.

6. A high-efficiency concrete pouring apparatus according to claim 1, wherein: guide way (15) run through stand pipe (4) and guide block (1), and guide way (15) and pipeline (6) cooperation, rotatory piece (9) are the cylinder structure, and rotatory piece (9) and guide block (1) rear end face fixed connection, connecting block (7) are the cylinder structure.

7. A high-efficiency concrete pouring apparatus according to claim 1, wherein: the rotary groove (10) is in running fit with the rotary block (9), the inner bolt groove (11) is of an annular structure with a T-shaped section, the inner hexagon bolt (13) is matched with the inner bolt groove (11), the threaded shaft (18) is of a cylindrical structure, and threads are formed in the threaded shaft (18).

8. A high-efficiency concrete pouring apparatus according to claim 1, wherein: the telescopic block (2) is of a cylindrical structure, the telescopic block (2) is fixedly connected with a connecting block (7) through a bolt, a thread groove (17) is meshed with a thread shaft (18) in a threaded mode, a bolt connecting groove (12) is matched with an inner hexagon bolt (13), an installation frame (5) is fixedly connected with the telescopic block (2), a fixing hole (14) is of a cylindrical structure, and the fixing hole (14) is matched with a pipeline (6).