CN218292835U - Pouring device for high-formwork support body of building - Google Patents

Abstract

The utility model discloses a pouring device for a high formwork support body of a building, wherein a middle conveying structure is provided with a turntable body and a turntable seat, and the turntable seat is fixed on the top end of the support body; the turntable body is arranged on the turntable seat through a circular guide rail on the bottom surface of the turntable body, and the beam is arranged above the turntable body; a cement groove is arranged on the turntable body; the vertical conveying structure conveys cement into the cement tank from an upper opening of the cement tank through a branch pipe; the transverse conveying pipe is arranged on the transverse beam; and a transfer pump structure is arranged in the cement tank and is connected with the transverse conveying pipe through an output pipe. By adopting the technical scheme, the crossbeam can conveniently rotate in a large range, so that the pouring range is expanded; the concrete conveying pump on the ground can convey the concrete into the transfer pump structure conveniently; the pressure for conveying the concrete is improved, and the concrete conveying between the vertical conveying structure and the transverse conveying pipe is realized; the novel clothes hanger is simple in structure, strong in practicability, good in using effect and suitable for popularization and application in the field.

Description

Pouring device for high-formwork support body of building

Technical Field

The utility model belongs to the technical field of building construction equipment and construction process, relate to the concrete placement technique. More specifically, the utility model relates to a multi-functional building high formwork support body pour device.

Background

The building industry is a rapidly developed industry in recent years in China, and the technical progress of the building industry is also rapid. In the construction of a large exhibition hall with a frame structure, a construction method of a high formwork support body is adopted for construction in large quantity; however, the construction difficulty of a large exhibition hall of a high formwork support body is high, the pouring height and area are obviously increased compared with the traditional building, and great difficulty is brought to concrete pump construction;

the traditional method is mainly characterized in that a concrete pump machine and a distributing machine are used together with a tower crane to finish the conveying and pouring of concrete, and the conveying pipe and other structures are arranged on the distributing machine to convey and pour concrete construction materials. The prior art generally adopts a concrete conveying pipe which can rotate and is arranged on a rotating shaft of a cross beam. The cross beam rotates for a long time, and the rotating connecting pipe at the position is also subjected to larger pressure for a long time and is easy to age and damage.

According to the technical scheme, the conveying and pouring device based on the high-rise building concrete construction comprises a main frame, an upper supporting platform and a lower supporting base which are respectively located at the upper end and the lower end of the main frame, a first vertical conveying pipe with a feeding pipe at the lower end is installed on the inner side of the main frame, a slewing bearing mechanism is installed at the upper supporting platform, and two first horizontal conveying pipes are symmetrically arranged at the top end of the first vertical conveying pipe.

Although the concrete can be poured on the high formwork support body, the first vertical conveying pipe and the hollow connecting pipe are connected in a rotating mode through the rotating joint, the cross beam continuously rotates in long-time pouring, the rotating joint is abraded greatly, and frequent damage and replacement are difficult; secondly, when the concrete is conveyed, the concrete pump close to the ground conveys the concrete, so that the load of the concrete pump on the ground is large, and the concrete conveying of a long pipeline is inconvenient.

Therefore, a multifunctional pouring device for building high formwork support bodies is needed to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a device of pouring of high formwork support body of building, its purpose is solved the high big, wide concrete placement difficulty of scope of job site.

In order to realize the purpose, the utility model discloses the technical scheme who takes does:

the utility model discloses a pouring device for a building high formwork support body, which comprises a vertically arranged support body, a horizontally arranged beam, a concrete delivery pump and a vertical delivery structure; the pouring device is provided with an intermediate conveying structure, the intermediate conveying structure is provided with a turntable body and a turntable seat, and the turntable seat is fixed on the top end of the frame body; the turntable body is arranged on the turntable seat through a circular guide rail on the bottom surface of the turntable body, and the beam is arranged above the turntable body; a cement groove is arranged on the turntable body; the vertical conveying structure conveys cement into the cement tank from an upper opening of the cement tank through a branch pipe; the transverse beam is provided with a transverse conveying pipe; the cement tank in be equipped with the transfer pump structure, the transfer pump structure pass through output tube and horizontal conveyer pipe connection.

The crossbeam pass through a plurality of vertical support columns and carousel body fixed connection.

The transfer pump structure comprises a horizontal conveying auger arranged on the bottom surface inside the cement tank and a transfer pump motor for driving the horizontal conveying auger to rotate; the material outlet of the transfer pump structure is connected with the output pipe.

The number of the branch pipes is two, and each branch pipe is provided with a control valve for controlling the on-off of the pipeline.

The cement tank is arranged in a fan shape on the overlooking plane, and the two branch pipes are respectively arranged at the two sides of the frame body.

The lower side surface of the front end of the cross beam is provided with a rotating connecting column, and the upper end of the rotating connecting column is connected with the front end of the cross beam; the lower end of the rotating connecting column is connected with the upper rotating beam and the lower rotating beam; under normal conditions, the rotating connecting columns and the upper and lower rotating beams are distributed at 90 degrees; the rotating connecting column is connected with the upper rotating beam and the lower rotating beam through a hydraulic adjusting rod; and the rotating connecting column is provided with a rotating pipe, and the rotating pipe is connected with the extension pipes in the upper rotating beam and the lower rotating beam.

And a pouring hose is arranged outside the front ends of the upper and lower rotating beams and is connected with the extension pipe.

And the rear end of the cross beam is provided with a balancing weight.

By adopting the technical scheme, the rotary table body is arranged, so that the rotation of the beam is convenient to realize, and the large-range rotation of the beam is convenient to realize, thereby improving the pouring range; due to the arrangement of the transfer pump structure, the concrete can be conveniently conveyed into the transfer pump structure by the concrete conveying pump on the ground; the transfer pump structure can improve the pressure of concrete conveying, simultaneously realizes the concrete transportation between the vertical conveying structure and the transverse conveying pipe, and avoids the defect of frequent replacement caused by adopting a connection mode of a rotary joint; the novel clothes hanger is simple in structure, strong in practicability, good in using effect and suitable for popularization and application in the field.

Drawings

The contents of the drawings and the reference numbers in the drawings are briefly described as follows:

fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a section a-a in fig. 1.

The labels in the figure are:

1. the support body, 2, the crossbeam, 3, vertical transport structure, 4, the carousel body, 5, the output tube, 6, the cement groove, 7, the transfer pump motor, 8, carry the auger, 9, the bleeder, 10, the control valve, 11, the cement export, 12, the support column, 13, the balancing weight, 14, the rotation spliced pole, 15, upper and lower rolling beam, 16, hydraulic pressure regulation pole, 17, the rotating tube, 18, the extension pipe, 19, pour the hose, 20, horizontal conveyer pipe, 21, the concrete delivery pump, 22, the carousel seat, 23, the transfer pump structure.

Detailed Description

The following detailed description of the present invention is provided to enable those skilled in the art to make and use the present invention, and is provided for the purpose of providing various embodiments and/or implementations of the present invention.

As shown in fig. 1 and 2 the utility model discloses a structure is a multi-functional building high formwork support body pour device, including support body 1 of vertical setting, crossbeam 2, concrete pump 21 and the vertical transport structure 3 that the level set up. The starting end of the vertical conveying structure 3 is connected with a concrete conveying pump 21 on the ground.

In order to solve the problems existing in the prior art and overcome the defects thereof, the invention aims to solve the problem of difficult concrete pouring with large height and wide range in construction sites, and the utility model discloses the technical scheme who takes is:

as shown in fig. 1 and 2, the pouring device for building a high formwork support body of the utility model is provided with an intermediate conveying structure;

the middle conveying structure is arranged on the lower side of the cross beam 2; the bottom of the middle conveying structure is rotatably connected with the top of the frame body 1;

the middle conveying structure is provided with a turntable body 4 and a turntable seat 22, and the turntable seat 22 is fixed on the top end of the frame body 1; the turntable body 4 is arranged on the turntable seat 22 through a circular guide rail on the bottom surface of the turntable body, and the beam 2 is arranged above the turntable body 4; a cement groove 6 is arranged on the turntable body 4;

the vertical conveying structure 3 conveys the cement into the cement tank 6 from an upper opening of the cement tank 6 through a branch pipe 9; the transverse beam 2 is provided with a transverse conveying pipe 20;

a transfer pump structure 23 is arranged in the cement tank 6, and the transfer pump structure 23 is connected with the transverse conveying pipe 20 through an output pipe 5.

Cement tank 6, transfer pump structure 23, output tube 5 set up 4 upsides at the rotary table body, transfer pump structure 23 connects cement tank 6 and output tube 5.

As shown in fig. 1 and fig. 2, the transfer pump structure 23 includes a horizontal conveying auger 8 disposed on the bottom surface inside the cement tank 6, and a transfer pump motor 7 for driving the horizontal conveying auger to rotate; one end of the conveying auger 8 extends to the bottom of the cement tank 6, and the other end extends to the output pipe 5; one end of the conveying auger 8 extends out of the output pipe 5 and is connected with the output end of the speed reducing motor 7; and a material outlet of the transfer pump structure 23 is connected with the output pipe 5.

After the concrete is conveyed into the cement tank 6, the transfer pump structure 23 drives the conveying auger 8 to operate through the speed reducing motor 7, so that the concrete in the cement tank 6 can be pressed into the output pipe 5, and the continuous conveying of the concrete into the transverse conveying pipe 20 in the rear side cross beam 2 is realized.

The turntable body 4 is in a disc-shaped structure and is arranged at the top of the frame body 1 through a turntable seat 22; the turntable seat 22 is used for rotatably connecting the beam 2 with the frame body 1; the turntable seat 22 is fixed on the top end of the frame body 1, and the bottom surface of the turntable body 4 and the upper surface of the turntable seat 22 are supported in a sliding mode through a circular guide rail. Meanwhile, the turntable base 22 is provided with a rotation driving mechanism of the turntable body 4 and the beam 2.

The beam 2 is fixedly connected with the turntable body 4 through a plurality of vertical support columns 12.

2 downside of crossbeam through many with support column 12 fixed connection on rotary table body 4, crossbeam 2 is fixed mounting in rotary table body 4's upside to support through support column 12, make 2 downside of crossbeam flow out the space that supplies the concrete feeding.

The tail end of the vertical conveying structure 3 is connected with at least two branch pipes 9; in use, the concrete pump 21 on the ground delivers concrete to the cement silo 6 at a high point, thus achieving the first transportation step.

Specifically, the method comprises the following steps:

the number of the branch pipes 9 is two, and each branch pipe 9 is provided with a control valve 10 for controlling the on-off of the pipeline. The concrete is conveyed to the cement tank 6 through the mode that the orifice outflows at the tail end of the branch pipe 9 in the middle conveying structure, the arrangement of the rotary connecting pipe is avoided, and therefore long-term use is facilitated, secondary pressurization conveying is achieved through the transfer pump structure 23, and conveying efficiency is effectively improved.

The cement tank 6 is arranged in a fan shape on the top plane, and the two branch pipes 9 are respectively arranged at two sides of the frame body 1. The cement tank 6 is arranged in a fan shape in a plan view, and two branch pipes 9 are respectively arranged at two sides of the frame body 1; each branch pipe 9 is provided with a control valve 10, the tail end of each branch pipe 9 is higher than the cement tank 6 and is connected with an inverted U-shaped cement outlet 11, and the cement outlet 11 can convey cement into the cement tank 6;

in order to facilitate the turning of the beam 2 at all angles, concrete can be made to enter the cement trough 6, as shown in fig. 2; because the cement tank 6 is arranged in a fan shape, the concrete entering range of the cement tank 6 is increased, and the cross beam 2 is fed by the branch pipe 9 on one side when rotating 180 degrees on one side.

When in use, the control valve 10 at the feeding side is opened, and the other side is closed; when the cross beam 2 rotates to the feeding range of the other branch pipe 9, the control valve 10 is switched, and concrete is fed into the cement tank 6 from the other branch pipe 9, so that the concrete can be fed into the cement tank 6 in 360-degree rotation of the cross beam 2.

A rotary connecting column 14 is arranged on the lower side surface of the front end of the cross beam 2, and the upper end of the rotary connecting column 14 is connected with the front end of the cross beam 2; the lower end of the rotating connecting column 14 is connected with an upper rotating beam 15 and a lower rotating beam 15; the lower end of the rotating connecting column 14 is hinged with an upper rotating beam and a lower rotating beam 15. The rotary connecting column 14 can be rotatably connected with the cross beam 2 through the arrangement of the upper and lower rotary beams 15.

Under normal conditions, the rotating connecting columns 14 and the upper and lower rotating beams 15 are distributed at 90 degrees; the rotating connecting column 14 is connected with the upper rotating beam 15 and the lower rotating beam 15 through a hydraulic adjusting rod 16; the rotating connecting column 14 is provided with a rotating pipe 17, and the rotating pipe 17 is connected with an extension pipe 18 in the upper and lower rotating beams 15.

The rotating pipe 17 is connected to the tail end of the transverse conveying pipe 20, the tail end of the rotating pipe 17 is connected with the extension pipe 18, and the extension pipe 18 is arranged in the rotating beam 15. The transverse conveying pipe 20 is fixedly arranged in the cross beam 2, and the transverse conveying pipe 20 is connected with the extension pipe 18 through the rotating pipe 17; when the rotary beam 15 rotates, the rotary pipe 17 inside the rotary beam rotates, so that the transverse conveying pipe 20 is rotatably connected with the extension pipe 18.

A hydraulic adjusting rod 16 is further connected between the outer side of the rotating connecting column 14 and the rotating beam 15, and two ends of the hydraulic adjusting rod 16 are hinged;

in practical use, due to the arrangement of the rotating connecting column 14, the rotating beam 15 can be controlled to rotate 360 degrees at the lower side of the cross beam 2, so that the requirement of large pouring range is met; due to the arrangement of the hydraulic adjusting rod 16, the elevation angle of the rotating beam 15 can be adjusted, and therefore concrete can reach a pouring place conveniently when pouring.

And a pouring hose 19 is arranged outside the front end of the upper and lower rotating beams 15, and the pouring hose 19 is connected with an extension pipe 18. The tail end of the extension pipe 18 is connected with a pouring hose 19. Concrete can be conveniently poured to a desired location by pouring the hose 19.

And a balancing weight 13 is arranged at the rear end of the cross beam 2. The counterweight 13 can move back and forth along the beam 2 to keep the beam 2 balanced during the concrete casting process.

The above description is for illustrative purposes only, and it is obvious that the present invention is not limited by the above embodiments, and the present invention is not limited by the above description, and the present invention is applicable to other situations without any improvement or any substantial improvement.

Claims (8)

1. The utility model provides a device of pouring of high formwork support body of building, includes support body (1) of vertical setting, crossbeam (2) that the level set up, concrete feeding pump (21) and vertical transport structure (3), its characterized in that: the pouring device is provided with a middle conveying structure, the middle conveying structure is provided with a turntable body (4) and a turntable seat (22), and the turntable seat (22) is fixed on the top end of the frame body (1); the turntable body (4) is arranged on the turntable seat (22) through a circular guide rail on the bottom surface of the turntable body, and the beam (2) is arranged above the turntable body (4); a cement groove (6) is arranged on the turntable body (4); the vertical conveying structure (3) conveys cement into the cement tank (6) from an upper opening of the cement tank (6) through a branch pipe (9); the transverse beam (2) is provided with a transverse conveying pipe (20); the cement tank (6) is internally provided with a transfer pump structure (23), and the transfer pump structure (23) is connected with the transverse conveying pipe (20) through an output pipe (5).

2. The device of pouring of building high formwork support body according to claim 1, characterized in that: the crossbeam (2) through a plurality of vertical support columns (12) with turntable body (4) fixed connection.

3. The pouring device for the high formwork support body of the building according to claim 1 is characterized in that: the transfer pump structure (23) comprises a horizontal conveying auger (8) arranged on the bottom surface inside the cement tank (6) and a transfer pump motor (7) for driving the horizontal conveying auger to rotate; and a material outlet of the transfer pump structure (23) is connected with the output pipe (5).

4. The pouring device for the high formwork support body of the building according to claim 1 is characterized in that: the number of the branch pipes (9) is two, and each branch pipe (9) is provided with a control valve (10) for controlling the on-off of the pipeline.

5. The device of pouring of building high formwork support body according to claim 4, characterized in that: the cement groove (6) is arranged in a fan shape on the overlooking plane, and the two branch pipes (9) are respectively arranged at two sides of the frame body (1).

6. The device of pouring of building high formwork support body according to claim 1, characterized in that: a rotary connecting column (14) is arranged on the lower side surface of the front end of the cross beam (2), and the upper end of the rotary connecting column (14) is connected with the front end of the cross beam (2); the lower end of the rotating connecting column (14) is connected with an upper rotating beam (15) and a lower rotating beam (15); under normal conditions, the rotating connecting columns (14) and the upper and lower rotating beams (15) are distributed at 90 degrees; the rotating connecting column (14) is connected with the upper rotating beam (15) and the lower rotating beam (15) through a hydraulic adjusting rod (16); the rotary connecting column (14) is provided with a rotary pipe (17), and the rotary pipe (17) is connected with extension pipes (18) in the upper and lower rotary beams (15).

7. The pouring device for the high formwork support body of the building according to claim 6 is characterized in that: and a pouring hose (19) is arranged outside the front end of the upper and lower rotating beams (15), and the pouring hose (19) is connected with an extension pipe (18).

8. The device of pouring of building high formwork support body according to claim 1, characterized in that: and a balancing weight (13) is arranged at the rear end of the cross beam (2).

Images