CN220247632U - Wall body masonry device for building engineering - Google Patents

Abstract

The utility model provides a wall body masonry device for building engineering, includes bottom sprag board (01), removes wheel (02), concrete bucket (03), lower supporting leg (04), vertical lower connecting rod (05), goes up supporting leg (06), cylinder (09), horizontal supporting rail (10), link board (11), straight tooth board (12), pouring spout (13), bottom sprag board (01) lower part connection removes wheel (02), concrete bucket (03) lower surface and bottom sprag board (01) laminate mutually, lower supporting leg (04) lower part connection bottom sprag board (01), vertical lower supporting leg (04) are connected down to connecting rod (05), and lower supporting leg (04) are in vertical lower connecting rod (05) bilateral symmetry setting around, go up supporting leg (06) lower part and lower supporting leg (04) and are suited, go up supporting leg (06) lower part and insert lower supporting leg (04).

Description

Wall body masonry device for building engineering

Technical Field

The utility model relates to the field of constructional engineering, in particular to a wall body masonry device for constructional engineering.

Background

The prior patent (bulletin number: CN 115898051A) proposes a wall body masonry device for constructional engineering, which comprises a movable base, a connecting disc, a lifting frame, a horizontal driving assembly and a brick masonry box, wherein the connecting disc is rotationally connected with the movable base, the lifting frame is fixedly connected with the connecting disc, the horizontal driving assembly is in sliding connection with the lifting frame, and the brick masonry box is fixedly connected with the horizontal driving assembly. The brick masonry box is used for containing the bricks, the movable base drives the device to integrally move, the connecting disc drives the device to rotate, brick masonry work in all directions is convenient to conduct, the brick masonry box can move up and down along the lifting frame, brick masonry work at different heights is convenient to conduct, use is convenient and fast, and building engineering masonry efficiency can be greatly improved. However, when the device is fixed at a certain place for working, wall masonry work can be carried out only through bricks, the construction of brick masonry is not simple and quick in concrete pouring operation, and improvement is needed.

Disclosure of Invention

The utility model aims at the defects in the prior art, and provides the wall masonry device for the construction engineering, which is used for rapidly casting concrete in the masonry of a reinforced concrete wall and is simple to operate, wherein a shaft at the side surface drives a fluted disc to rotate when a small motor works, so that the fluted disc rolls on a straight fluted plate, and further drives a pouring groove to move left and right on a truss to cast the wall opposite to the truss.

The utility model aims at realizing the following technical scheme:

the utility model provides a wall body masonry device for building engineering, includes bottom sprag board, removes round, concrete drum, lower supporting leg, vertical lower connecting rod, go up supporting leg, cylinder, horizontal supporting rail, even board, straight pinion rack, pouring spout, bottom sprag board lower part connection removes the round, concrete drum lower surface is laminated mutually with the bottom sprag board, lower supporting leg lower part connection bottom sprag board, vertical lower connecting rod connection lower supporting leg, lower supporting leg sets up in vertical lower connecting rod bilateral symmetry around, go up supporting leg lower part and lower supporting leg and suits, go up supporting leg lower part and insert lower supporting leg, go up supporting leg and slide in lower supporting leg, vertical upward connecting rod connection upper supporting leg, upward supporting leg sets up in vertical upward connecting rod bilateral symmetry around, horizontal downward connecting rod is connected vertical lower connecting rod, vertical lower connecting rod sets up in horizontal lower connecting plate bilateral symmetry, vertical upward connecting rod sets up in horizontal connecting plate bilateral symmetry.

The lower part of the air cylinder is connected with a horizontal downward connecting plate, the upper part of the piston rod of the air cylinder is connected with a horizontal connecting plate, the upper part of the upper supporting leg is connected with a horizontal supporting rail, the connecting plate is connected with a horizontal supporting rail, the horizontal supporting rail is symmetrically arranged on the front side and the rear side of the connecting plate, and a plurality of connecting plates are uniformly distributed on the side face of the horizontal supporting rail.

Advantageous effects

1. The lower part of the bottom supporting plate is connected with a plurality of moving wheels, the moving wheels facilitate the movement of the whole device, the device is convenient to move when the pouring position of a wall body is changed, a concrete barrel is placed on the bottom supporting plate, the concrete barrel is internally provided with concrete after being stirred, a pumping pump is placed in the concrete barrel, the pumping pump pumps out the concrete in the concrete barrel and conveys the concrete through a pipeline when in operation, the lower parts of the lower supporting legs are fixed on the bottom supporting plate, the upper supporting legs and the lower supporting legs are arranged into a telescopic structure, the height of the device can be adjusted according to the pouring height when the wall body is poured, the two groups of lower supporting legs distributed left and right are reinforced by a longitudinal lower connecting rod and a transverse lower connecting plate, the two groups of upper supporting legs distributed left and right are reinforced by a longitudinal upper connecting rod and a transverse connecting plate, the transverse connecting plate is applied with thrust when an air cylinder works, the two groups of upper supporting legs distributed left and right are simultaneously moved upwards, the transverse supporting rails are further moved upwards and moved upwards, the upper sliding rails and the upper sliding blocks are formed by the transverse supporting legs, the upper sliding blocks and the straight toothed plates are in a pouring position, and the T-shaped sliding blocks are inserted into a vertical sliding groove when the pouring position is kept, and the truss is kept at the position at the front position.

2. The motor is arranged on a motor mounting plate, a motor shaft on the motor penetrates through a pouring groove to be connected with a rotating shaft, the motor shaft drives the rotating shaft to rotate when the motor works, so that a rotating blade on the outer side of the rotating shaft rotates, the upper part of a hose connected with a pumping pump discharges concrete into the pouring groove, the rotating blade rotates to drive the concrete to move towards a discharging opening, the concrete is discharged from the discharging opening to pour a wall body, the rotating blade carries out secondary stirring on the concrete in a rotating project, the concrete is more uniform, a water pipe fixing sleeve is fixed on the pouring groove through a side connecting rod, the water pipe fixing sleeve is fixed on the upper part of the water pipe, a discharge opening of the water pipe is aligned to the pouring groove, a small motor is fixed on the lower part of the pouring groove, a fluted disc is meshed with a straight toothed disc, and a shaft on the side surface of the small motor drives the fluted disc to rotate on the straight toothed disc, so that the pouring groove is driven to move left and right on a truss to pour the wall body range opposite to the truss.

Drawings

Fig. 1 is a plan view of a wall masonry device for construction engineering according to the present utility model.

Fig. 2 is a top view of a wall masonry device for construction engineering according to the present utility model.

Fig. 3 is a front view of a wall masonry device for construction engineering according to the present utility model.

Fig. 4 is a plan view of a wall masonry device for construction engineering according to the present utility model.

Fig. 5 is a side view of a wall masonry device for construction engineering according to the present utility model.

Fig. 6 is a side view of a straight toothed plate and toothed disc according to the present utility model.

Fig. 7 is a cross-sectional view of a rotating shaft and a support sleeve according to the present utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the drawings and examples:

examples

A wall masonry device for construction engineering comprises a bottom supporting plate 01, a moving wheel 02, a concrete barrel 03, a lower supporting leg 04, a longitudinal lower connecting rod 05, an upper supporting leg 06, an air cylinder 09, a transverse supporting rail 10, a connecting plate 11, a straight toothed plate 12 and a pouring slot 13, wherein the lower part of the bottom supporting plate 01 is connected with the moving wheel 02, the moving wheel 02 facilitates the movement of the whole device, the device is convenient to move when the pouring position of the wall is changed, the lower surface of the concrete barrel 03 is attached to the bottom supporting plate 01, the concrete barrel 03 is placed on the bottom supporting plate 01, the concrete barrel 03 is provided with stirred concrete, a pump is placed in the concrete barrel 03, the pump pumps the concrete in the concrete barrel 03 through pipelines during operation, the lower part of the lower supporting leg 04 is connected with the bottom supporting plate 01, the lower part of the lower supporting leg 04 is fixed on the bottom supporting plate 01, the longitudinal lower connecting rod 05 is connected with the lower supporting leg 04, the lower supporting leg 04 is symmetrically arranged at the front and back sides of the longitudinal lower connecting rod 05, the lower part of the upper supporting leg 06 is matched with the lower supporting leg 04, the lower part of the upper supporting leg 06 is inserted into the lower supporting leg 04, the upper supporting leg 06 slides in the lower supporting leg 04, the upper supporting leg 06 and the lower supporting leg 04 are arranged into a telescopic structure, the height of the device can be adjusted according to the casting height when the wall body is cast, the longitudinal upper connecting rod 07 is connected with the upper supporting leg 06, the upper supporting leg 06 is symmetrically arranged at the front and back sides of the longitudinal upper connecting rod 07, the transverse lower connecting rod 08 is connected with the longitudinal lower connecting rod 05, the longitudinal lower connecting rod 05 is symmetrically arranged at the left and right sides of the transverse lower connecting plate 08, the longitudinal lower connecting rod 05 and the transverse lower connecting plate 08 are used for reinforcing the left and right distributed two groups of lower supporting legs 04, the transverse connecting plate 23 is connected with the longitudinal upper connecting rod 07, the longitudinal upper connecting rod 07 is symmetrically arranged at the left and right sides of the transverse connecting plate 23, the longitudinal upper connecting rod 07 and the transverse connecting plate 23 reinforce the two groups of upper supporting legs 06 distributed left and right.

Examples

According to the utility model, the lower part of the air cylinder 09 is connected with a transverse downward connecting plate 08, the upper part of a piston rod of the air cylinder 09 is connected with a transverse connecting plate 23, when the air cylinder 09 works, thrust is applied to the transverse connecting plate 23, so that two groups of upper supporting legs 06 distributed left and right move upwards simultaneously, the transverse supporting rail 10 moves upwards, the irrigation position moves upwards and downwards, the upper part of the upper supporting legs 06 is connected with the transverse supporting rail 10, the connecting plate 11 is connected with the transverse supporting rail 10, the transverse supporting rail 10 is symmetrically arranged on the front side and the rear side of the connecting plate 11, and a plurality of connecting plates 11 are uniformly distributed on the side surfaces of the transverse supporting rail 10.

Examples

According to the utility model, the straight toothed plate 12 is inserted into the connecting plate 11, two ends of the straight toothed plate 12 are connected with the connecting plate 11, the transverse supporting rail 10, the connecting plate 11 and the straight toothed plate 12 form an upper rail truss, the straight toothed plate 12 is aligned with the upper surface of the connecting plate 11, the transverse supporting rail 10 is provided with a T-shaped sliding groove 22, the lower part of the pouring groove 13 is provided with a lower supporting plate 20, the lower surface of the lower supporting plate 20 is attached to the transverse supporting rail 10, the lower part of the lower supporting plate 20 is provided with a T-shaped sliding block 21, the T-shaped sliding block 21 is matched with the T-shaped sliding groove 22, the T-shaped sliding block 21 is inserted into the T-shaped sliding groove 22, the position of the pouring groove 13 on the truss is vertical and the front and rear positions are fixed, and the pouring groove 13 keeps horizontal when moving, and the T-shaped sliding block 21 slides in the T-shaped sliding groove 22.

Examples

According to the utility model, the side surface of a pouring tank 13 is connected with a motor mounting plate 18, the lower part of a motor 17 is connected with the motor mounting plate 18, a shaft rod of the motor 17 penetrates through the pouring tank 13 to be connected with a rotating shaft 26, the outer side of the rotating shaft 26 is connected with a rotating blade 14, the lower part of the pouring tank 13 is provided with a feed opening 19, the motor 17 is arranged on the motor mounting plate 18, a motor shaft on the motor 17 penetrates through the pouring tank 13 to be connected with the rotating shaft 26, the motor shaft drives the rotating shaft 26 to rotate when the motor 17 works, the rotating blade 14 rotates to enable the concrete to rotate, the rotating blade 14 drives the concrete to move towards the feed opening 19, the concrete is discharged from the feed opening 19 to pour a wall body, the rotating blade 14 carries out secondary stirring on the concrete in a rotating project, the concrete is more uniform, two ends of a supporting sleeve 27 are connected with a supporting sleeve 28, the supporting sleeve side rod 28 is connected with the pouring tank 13, the rotating shaft 26 is inserted into the supporting sleeve 27, the rotating shaft 26 slides in the supporting sleeve 27, a water pipe fixing sleeve 16 is connected with a side connecting rod 15, the lower part of the side connecting rod 15 is connected with the pouring tank 13, the water pipe passes through the water pipe fixing sleeve 16, the water pipe fixing sleeve 16 is fixed on the side connecting rod 16 and is fixed on the water pipe fixing sleeve 13 through the water pipe fixing sleeve 16, and the water pipe fixing sleeve 13 is aligned with the water pipe fixing hole 13.

Examples

According to the utility model, the bottom of the pouring tank 13 is connected with the small motor 24, two sides of the small motor 24 are connected with the fluted disc 25 through the shaft rods, the teeth at the lower part of the fluted disc 25 are meshed with the teeth at the upper part of the straight toothed plate 12, the small motor 24 is fixed at the lower part of the pouring tank 13, the fluted disc 25 is meshed with the straight toothed plate 12, and the shaft at the side of the small motor 24 drives the fluted disc 25 to rotate when in operation, so that the fluted disc 25 rolls on the straight toothed plate 12, and further the pouring tank 13 is driven to move left and right on a truss to pour a wall body range opposite to the truss.

The installation step comprises the following steps: the lower part of the bottom supporting plate 01 is connected with a moving wheel 02, a concrete barrel 03 is placed on the bottom supporting plate 01, two ends of a longitudinal lower connecting rod 05 are connected with a lower supporting leg 04, two ends of a longitudinal upper connecting rod 07 are connected with an upper supporting leg 06, the lower part of the upper supporting leg 06 is inserted into the lower supporting leg 04, two ends of a transverse lower connecting plate 08 are connected with the longitudinal lower connecting rod 05, two ends of a transverse connecting plate 23 are connected with a longitudinal upper connecting rod 07, the upper and lower ends of a cylinder 09 are respectively connected with the transverse connecting plate 23 and the transverse lower connecting plate 08, the upper part of the upper supporting leg 06 is connected with a transverse supporting rail 10, the front and rear ends of the connecting plate 11 are connected with the transverse supporting rail 10, the method comprises the steps of connecting a straight toothed plate 12 with a connecting plate 11, connecting a small motor 24 with a pouring slot 13, connecting two ends of the small motor 24 with fluted discs 25 through shaft rods, inserting T-shaped sliding blocks 21 into T-shaped sliding grooves 22, enabling the lower parts of the fluted discs 25 to be meshed with the straight toothed plate 12, inserting a rotating shaft 26 into the pouring slot 13, connecting a motor mounting plate 18 with the pouring slot 13, connecting a shaft of a motor 17 through the pouring slot 13 with the rotating shaft 26, connecting the lower part of the motor 17 with the motor mounting plate 18, inserting the rotating shaft 26 into a supporting sleeve 27, connecting two ends of a supporting sleeve side rod 28 with the pouring slot 13, and connecting two ends of a water pipe fixing sleeve 16 with the pouring slot 13 through a side connecting rod 15.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (1)

1. A wall masonry device for construction engineering is characterized by comprising a bottom supporting plate (01), a moving wheel (02), a concrete barrel (03), a lower supporting leg (04), a longitudinal lower connecting rod (05), an upper supporting leg (06), an air cylinder (09), a transverse supporting rail (10), a connecting plate (11), a straight tooth plate (12) and a pouring groove (13), wherein the lower part of the bottom supporting plate (01) is connected with the moving wheel (02), the lower surface of the concrete barrel (03) is attached to the bottom supporting plate (01), the lower part of the lower supporting leg (04) is connected with the bottom supporting plate (01), the longitudinal lower connecting rod (05) is connected with the lower supporting leg (04), the lower supporting leg (04) is symmetrically arranged at the front and rear sides of the longitudinal lower connecting rod (05), the lower supporting leg (06) is matched with the lower supporting leg (04), the lower part of the upper supporting leg (06) is inserted into the lower supporting leg (04), the upper supporting leg (06) slides in the lower supporting leg (04), the upper supporting leg (06) is connected with the longitudinal upper connecting rod (07), the upper supporting leg (06) is symmetrically arranged at the front and the two sides of the longitudinal upper supporting leg (07), the lower connecting rod (05) is symmetrically arranged at the two sides of the longitudinal upper connecting rod (08), the longitudinal lower connecting rod (05) is symmetrically arranged at the two sides, the left side (08) and the lower connecting rod (08) is symmetrically arranged at the transverse side, the longitudinal upper connecting rod (07) is symmetrically arranged at the left side and the right side of the transverse connecting plate (23); the lower part of the air cylinder (09) is connected with a transverse downward connecting plate (08), the upper part of a piston rod of the air cylinder (09) is connected with a transverse connecting plate (23), the upper part of the upper supporting leg (06) is connected with a transverse supporting rail (10), the connecting plate (11) is connected with the transverse supporting rail (10), the transverse supporting rail (10) is symmetrically arranged at the front side and the rear side of the connecting plate (11), and a plurality of connecting plates (11) are uniformly distributed on the side surface of the transverse supporting rail (10); the straight toothed plate (12) is inserted into the connecting plate (11), two ends of the straight toothed plate (12) are connected with the connecting plate (11), the straight toothed plate (12) is aligned with the upper surface of the connecting plate (11), the transverse supporting rail (10) is provided with a T-shaped sliding groove (22), the lower part of the pouring groove (13) is provided with a lower supporting plate (20), the lower surface of the lower supporting plate (20) is attached to the transverse supporting rail (10), the lower part of the lower supporting plate (20) is provided with a T-shaped sliding block (21), the T-shaped sliding block (21) is matched with the T-shaped sliding groove (22), the T-shaped sliding block (21) is inserted into the T-shaped sliding groove (22), and the T-shaped sliding block (21) slides in the T-shaped sliding groove (22); the side of the pouring tank (13) is connected with the motor mounting plate (18), the lower part of the motor (17) is connected with the motor mounting plate (18), a shaft lever of the motor (17) penetrates through the pouring tank (13) to be connected with the rotating shaft (26), the outer side of the rotating shaft (26) is connected with the rotating blades (14), the lower part of the pouring tank (13) is provided with a blanking hole (19), two ends of the supporting sleeve (27) are connected with the supporting sleeve side rods (28), the supporting sleeve side rods (28) are connected with the pouring tank (13), the rotating shaft (26) is inserted into the supporting sleeve (27), the rotating shaft (26) slides in the supporting sleeve (27), the water pipe fixing sleeve (16) is connected with the side connecting rod (15), the lower part of the side connecting rod (15) is connected with the pouring tank (13), and the water pipe penetrates through the water pipe fixing sleeve (16); the bottom of the pouring groove (13) is connected with a small motor (24), two sides of the small motor (24) are connected with a fluted disc (25) through shaft rods, and teeth at the lower part of the fluted disc (25) are meshed with teeth at the upper part of the straight toothed plate (12); the method is used for rapidly pouring concrete in the masonry of the reinforced concrete wall.