CN220666969U - Auxiliary transportation structure for pouring high-point position templates of supporting columns - Google Patents

Abstract

The utility model discloses an auxiliary transportation structure for pouring a high-point position template of a support column, and belongs to the technical field of auxiliary construction devices of electric power facilities; the concrete casting device comprises a casting and shaping bottom concrete body; a plurality of vertically arranged reinforcing steel bars are arranged in the bottom concrete body; a scaffold is also arranged on the periphery of the bottom concrete body; a functional flat plate is arranged on the reinforcing steel bar; the functional flat plate can vertically move on the reinforcing steel bar; a first pulley is arranged on the functional flat plate; a second pulley is arranged on the scaffold at a position below the first pulley; a cable for conveying the wooden templates is arranged between the first pulley and the second pulley; the utility model effectively solves the problem that the template is difficult to be effectively transported to the upper part of the scaffold when the high-rise concrete support is poured.

Description

Auxiliary transportation structure for pouring high-point position templates of supporting columns

Technical Field

The utility model relates to the technical field of auxiliary construction devices of electric power facilities, in particular to an auxiliary transportation structure for pouring a high-point position template of a support column.

Background

In the construction process of a transformer substation, independent concrete struts are required to be arranged outdoors, and the sizes of the concrete struts are generally 50cm by 50cm; because most of the struts are poured layer by layer, the problem that the templates at high points are difficult to transport to the upper part of the cylindrical scaffold exists in construction, the conventional means are that operators manually bring the templates above the scaffold, the operating mode obviously has the conditions of influencing the working efficiency and being poor in safety, and the method is the original purpose of providing the patent.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the auxiliary transportation structure for the high-point position template of the pouring support column is provided, so that the problem that the template is difficult to effectively transport to the upper part of a scaffold when a high-rise concrete support column is poured is solved.

In order to solve the problems, the utility model provides the following technical scheme:

an auxiliary transportation structure for pouring a high-point position template of a support column; the concrete casting device comprises a casting and shaping bottom concrete body; a plurality of vertically arranged reinforcing steel bars are arranged in the bottom concrete body; a scaffold is also arranged on the periphery of the bottom concrete body; a functional flat plate is arranged on the reinforcing steel bar; the functional flat plate can vertically move on the reinforcing steel bar; a first pulley is arranged on the functional flat plate; a second pulley is arranged on the scaffold at a position below the first pulley; a cable for conveying the wooden templates is arranged between the first pulley and the second pulley.

Preferably, through holes corresponding to the reinforcing steel bars in number and positions are formed in the functional flat plate, and the reinforcing steel bars penetrate through the through holes and are detachably mounted through the locking assembly.

Further, the locking assembly includes a sleeve made of an elastic material; the rod sleeve is sleeved on the reinforcing steel bars for arrangement; the outer side of the rod sleeve is provided with an external thread section, and the lower side of the rod sleeve is provided with a bar-shaped groove; the nut is detachably arranged on the lower side of the rod sleeve through threaded connection.

Further, the rod sleeve is of a step-shaped structure, the strip-shaped groove is located at the small-diameter end of the rod sleeve, and the outer diameter of the large-diameter end of the rod sleeve is larger than the size of the through hole in the functional flat plate.

Preferably, a pair of outwardly extending ear plate structures are provided at one side end of the function plate, through which the first pulley is mounted; a pull rope is arranged on the other end side of the functional flat plate, which is opposite to the first pulley.

Preferably, a plurality of knots for changing the working length of the cable are tied to the cable, and each knot is loosened to increase the working length by twice the height after being poured into a layer.

The beneficial effects of the utility model are as follows:

1. the structure is simple, the operation is convenient, and the functional flat plate on the ground can be rapidly transported to the position of the upper scaffold through the pulley structure;

2. the height of the equipment can be correspondingly adjusted according to the height of the poured concrete, so that the equipment is suitable for use requirements under different working conditions;

3. the equipment is light, and the dismouting is convenient, is convenient for use widely in industry.

Drawings

FIG. 1 is a schematic view of the structure of the present utility model in an embodiment;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of the locking assembly of the present embodiment

Reference numerals illustrate: 1. the bottom concrete body, 2, reinforcing steel bars, 3, scaffold, 4, function flat board, 5, first pulley, 6, second pulley, 7, cable, 8, locking component, 8A, rod sleeve, 8B, bar groove, 8C, nut.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific examples:

examples:

referring to fig. 1, the present embodiment provides an auxiliary transportation structure for pouring a formwork at a high point of a support column; the concrete pouring and shaping device comprises a poured and shaped bottom concrete body 1; a plurality of vertically arranged reinforcing steel bars 2 are arranged in the bottom concrete body 1; the periphery of the bottom concrete body 1 is also provided with a scaffold 3; a functional flat plate 4 is arranged on the reinforcing steel bar 2; the functional flat plate 4 can vertically move on the reinforcing steel bar 2; a first pulley 5 is arranged on the functional flat plate 4; a second pulley 6 is mounted on the scaffold 3 at a position below the first pulley 5; a cable 7 for transporting the wooden form is arranged between the first pulley 5 and the second pulley 6.

Through holes corresponding to the reinforcing steel bars 2 in number and position are formed in the functional flat plate 4, and the reinforcing steel bars 2 penetrate through the through holes and are detachably mounted through locking assemblies 8.

The locking assembly 8 comprises a sleeve 8A made of an elastic material; the rod sleeve 8A is sleeved on the reinforcing steel bar 2 for setting; the outer side of the rod sleeve 8A is provided with an external thread section, and the lower side of the rod sleeve 8A is provided with a strip-shaped groove 8B; the nut 8C is detachably mounted on the underside of the rod sleeve 8A by a threaded connection.

The rod sleeve 8A is of a step-shaped structure, the strip-shaped groove 8B is positioned at the small-diameter end of the rod sleeve 8A, and the outer diameter of the large-diameter end of the rod sleeve 8A is larger than the size of the through hole in the functional flat plate 4.

A pair of outwardly extending lug plates are provided at one side end of the function flat plate 4, through which the first pulley 5 is mounted; a pull rope is provided on the other end side of the function flat plate 4 opposite to the first pulley 5.

The rope 7 is provided with a plurality of knots for changing the working length of the rope 7, and the working length of each knot after being loosened is twice the height of the rope after being poured on one layer.

When the device is used, the length of the cable and the mounting height of the functional flat plate are adjusted successively, the other end side of the functional flat plate is connected to the scaffold through the stay rope, and the nuts in the locking assembly are fastened with the reinforcing steel bars after the extrusion deformation of the rod sleeve; and then the wooden template is transported to an upper position through a pull rope for installation.

Claims (6)

1. An auxiliary transportation structure for pouring a high-point position template of a support column comprises a poured and shaped bottom concrete body (1); a plurality of vertically arranged reinforcing steel bars (2) are arranged in the bottom concrete body (1); a scaffold (3) is arranged on the periphery of the bottom concrete body (1); the method is characterized in that: a functional flat plate (4) is arranged on the reinforcing steel bar (2); the functional flat plate (4) can vertically move on the reinforcing steel bar (2); a first pulley (5) is arranged on the functional flat plate (4); a second pulley (6) is arranged on the scaffold (3) at a position below the first pulley (5); a cable (7) for conveying the wooden templates is arranged between the first pulley (5) and the second pulley (6).

2. An auxiliary transportation structure for pouring a high-point position template of a support column according to claim 1, wherein: through holes corresponding to the reinforcing steel bars (2) in number and position are formed in the functional flat plate (4), and the reinforcing steel bars (2) penetrate through the through holes and are detachably mounted through locking assemblies (8).

3. An auxiliary transportation structure for pouring a high-point position template of a support column according to claim 2, wherein: the locking assembly (8) comprises a rod sleeve (8A) made of elastic material; the rod sleeve (8A) is sleeved on the reinforcing steel bar (2) for setting; an external thread section is arranged on the outer side of the rod sleeve (8A), and a bar-shaped groove (8B) is arranged on the lower side of the rod sleeve (8A); the nut (8C) is detachably arranged on the lower side of the rod sleeve (8A) through threaded connection.

4. An auxiliary transportation structure for pouring a high-point position template of a support column according to claim 3, wherein: the rod sleeve (8A) is of a step-shaped structure, the strip-shaped groove (8B) is located at the small-diameter end of the rod sleeve (8A), and the outer diameter of the large-diameter end of the rod sleeve (8A) is larger than the size of a through hole in the functional flat plate (4).

5. An auxiliary transportation structure for pouring a high-point position template of a support column according to claim 1, wherein: a pair of outwardly extending lug plates are arranged at one side end of the functional flat plate (4), and the first pulley (5) is installed through the lug plates; a pull rope is arranged on the other end side of the functional flat plate (4) opposite to the first pulley (5).

6. An auxiliary transportation structure for pouring a high-point position template of a support column according to claim 1, wherein: a plurality of knots for changing the working length of the cable (7) are tied on the cable (7), and the working length of each knot which is increased after being loosened is twice the height of the cable after being poured on one layer.