CN114458008B

CN114458008B - Reinforcing apparatus for building templates

Info

Publication number: CN114458008B
Application number: CN202210239451.5A
Authority: CN
Inventors: 王科亮; 严玲玲; 王灿; 韩艳; 高嵩
Original assignee: Jiangsu Surveying And Design Institute Of Water Resources Co ltd
Current assignee: Jiangsu Surveying And Design Institute Of Water Resources Co ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2024-02-13
Anticipated expiration: 2042-03-11
Also published as: CN114458008A

Abstract

The invention discloses a reinforcing device for a building template, which belongs to the field of buildings and comprises a movable frame, wherein the movable frame comprises a U-shaped frame and a linear frame, the U-shaped frame and the linear frame are arranged on the periphery of a column template, universal wheels are arranged on the lower side of the movable frame, and the linear frame is rotatably provided with an opening of the U-shaped frame and is driven by a rotating mechanism; the upper sides of the U-shaped frame and the linear frame are respectively provided with a supporting mechanism, the supporting mechanisms face the column template and are respectively provided with an auxiliary plate, and the auxiliary plates are in extrusion contact with the outer side walls of the column template; the lower sides of the U-shaped frame and the linear frame are respectively provided with a transmission mechanism. The invention has the advantages of light structure, convenient movement between the column templates, convenient cooperation with the column templates, suitability for columns of various sizes, stable reinforcement of the column templates by the supporting mechanism and the auxiliary plates, effective prevention of concrete leakage from the inside and the outside of the templates during pouring, safe and reliable construction, and contribution to improving the construction efficiency.

Description

Reinforcing apparatus for building templates

Technical Field

The invention relates to the technical field of buildings, in particular to a reinforcing device for a building template.

Background

When the construction is performed in the concrete pouring process, the templates are spliced and combined well according to the appearance of the required building components before pouring, then concrete is poured on the inner side of the templates to form the building components with the required appearance, the template splicing, combining and fixing process is an extremely important ring, and if the template splicing and fixing quality is poor, slurry leakage, even template collapse and other consequences can be caused, so that the construction quality and the construction progress are seriously influenced.

Through retrieving, chinese patent No. CN 110344588A discloses a building templates reinforcing apparatus, including four fixing bases, open respectively in the inside both sides of fixing base has first draw-in groove and second draw-in groove, the inside all joint of first draw-in groove of adjacent fixing base has the template, the fixed plate is all installed at one side both ends that the template is on the back, first draw-in groove is inside to install the block mechanism with the template junction, the inside all joint of second draw-in groove of adjacent fixing base has the reinforcing plate, the inside third draw-in groove and fourth draw-in groove that open respectively with second draw-in groove junction of fixing base, third draw-in groove and fourth draw-in groove and fixing base junction install the anticreep mechanism, the outside upper and lower both ends of one side that the fixing base is on the back all open the mounting groove, the inside joint of mounting groove has the connecting plate, the connecting plate both ends all stretch out the fixing base outside and the joint has the cardboard, the anticreep bolt is all installed at the both ends that the connecting plate is located the cardboard outside.

The template reinforcing device in the prior art has the following defects when in use: the reinforcing device is complex to operate in field assembly, low in speed and low in efficiency, is unfavorable for improving the construction speed, is inconvenient to move and transport, and is heavy in each component, and the operation burden of workers is increased.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a reinforcing device for a building template.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the reinforcing device for the building template comprises a movable frame, wherein the movable frame comprises a U-shaped frame and a linear frame, the U-shaped frame and the linear frame are arranged on the periphery of a column template, universal wheels are arranged on the lower side of the movable frame, and the linear frame is rotatably provided with an opening of the U-shaped frame and is driven by a rotating mechanism;

the upper sides of the U-shaped frame and the linear frame are respectively provided with a supporting mechanism, the supporting mechanisms face the column template and are respectively provided with an auxiliary plate, and the auxiliary plates are in extrusion contact with the outer side walls of the column template;

the lower sides of the U-shaped frame and the linear frame are respectively provided with a transmission mechanism, and the supporting mechanism is driven by the transmission mechanism.

Further, the rotating mechanism comprises a rotating shaft rotatably installed with the U-shaped frame, one end of the linear frame is fixed with one end of the rotating shaft, and the other end of the rotating shaft is driven by a rotating motor;

the support mechanism comprises two symmetrically arranged bidirectional screw rods, the bidirectional screw rods are respectively and rotatably arranged on the upper sides of the U-shaped frame and the linear frame, the bidirectional screw rods are symmetrically provided with moving blocks in a threaded manner, one side, close to the bidirectional screw rods, of the auxiliary plate is provided with a hinging seat, and a support rod is jointly hinged between the hinging seat and the moving blocks;

the upper end of the bidirectional screw rod is provided with a square hole block, and the lower end of the bidirectional screw rod is provided with a splicing block;

the transmission mechanism comprises a rotating seat, the rotating seat is respectively rotatably installed with a U-shaped frame and a linear frame, a rotating square hole seat is installed at the upper end of the rotating seat, the rotating square hole seat is matched with a splicing square at the lower end of a bidirectional screw rod, transmission shafts are arranged on the lower sides of the U-shaped frame and the linear frame in a rotating mode, the transmission shafts are driven by a driving motor, bevel gears are installed at the lower ends of the rotating seat, the bevel gears are installed on the transmission shafts equally, and the bevel gears at the lower ends of the rotating seat are meshed with the bevel gears on the transmission shafts.

Further, a plurality of supporting mechanisms are vertically spliced and assembled along the column template, each supporting mechanism is connected with an auxiliary plate, and the two-way screw rods positioned on the lower side and the upper side are mutually assembled through square hole blocks and splicing blocks.

Further, an upper groove is formed in one end, away from the linear frame, of the U-shaped frame, which is installed with the rotating shaft, and a lower groove matched with the upper groove is formed in one end, close to the upper groove, of the linear frame.

Further, the upper groove and the lower groove are provided with positioning pin holes, and the upper groove and the lower groove are detachably connected through positioning pins.

Further, a worm wheel is arranged at one end, far away from the linear frame, of the rotating shaft, a rotating motor is arranged on the U-shaped frame through a support, a worm is arranged at the driving end of the rotating motor, and the worm is meshed with the worm wheel.

Further, hanging plates are arranged on the lower sides of the U-shaped frame and the linear frame, the bottom ends of the hanging plates are rotatably connected with the transmission shaft through bearings, and the driving motor is fixedly arranged with the hanging plates.

Further, the U-shaped frame and the linear frame are provided with bearing holes matched with the rotating seat, and are rotatably installed with the rotating seat through bearings.

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

1. the invention is in a movable form and consists of a U-shaped frame and a linear frame, wherein the U-shaped frame and the linear frame are provided with a supporting mechanism and an auxiliary plate, and the supporting mechanisms and the auxiliary plates are vertically assembled along a column template, so that the column template is effectively supported and reinforced, the stability of the template is ensured during concrete pouring, and concrete leakage caused by the cracking and deformation of the template is avoided.

2. The linear frame can rotate relative to the U-shaped frame, the device can conveniently approach or leave the column template by adjusting the position of the linear frame, and the universal wheels are arranged at the bottom of the device, so that the device is more convenient to use, the labor intensity of workers is reduced, and the construction efficiency is improved.

In summary, the device has the characteristics of light and handy structure and convenient movement, can conveniently move between the cylinder templates during use, can conveniently cooperate with the cylinder templates, is suitable for cylinders of various types, can realize stable reinforcement for the cylinder templates by utilizing the supporting mechanism and the auxiliary plate, effectively avoids concrete leakage from the inside and the outside of the templates during pouring, ensures safe and reliable construction, and is beneficial to improving the construction efficiency.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

FIG. 1 is a schematic view of the whole structure of a reinforcing apparatus for building templates according to the present invention;

FIG. 2 is a schematic view of the auxiliary plate of the present invention assembled upward along the column form;

FIG. 3 is a schematic illustration of the present invention after rotation of the linear frame, auxiliary plate and support mechanism relative to the U-shaped frame;

FIG. 4 is a schematic view illustrating the installation of the auxiliary plate and the supporting mechanism in the present invention;

FIG. 5 is a schematic view of a bi-directional screw rod according to the present invention;

FIG. 6 is a schematic view of the end connection of two bi-directional lead screws in the vertical assembly of the present invention;

FIG. 7 is a schematic view of the installation of the transmission mechanism on the lower sides of the U-shaped frame and the linear frame in the invention;

FIG. 8 is a schematic view of the U-shaped frame and the linear frame of the present invention when combined;

FIG. 9 is a schematic view of the U-shaped frame and the linear frame of the present invention when separated;

FIG. 10 is a schematic diagram of the driving of the linear frame by the rotating mechanism according to the present invention;

FIG. 11 is a schematic diagram of the transmission mechanism of the present invention;

FIG. 12 is a schematic view of the installation of a rotating seat and a U-shaped frame in a transmission mechanism of the present invention.

In the figure: 1 column template, 2U font frame, 3 rectilinear frame, 4 universal wheel, 5 rotary mechanism, 6 accessory plate, 7 supporting mechanism, 8 drive mechanism, 21 upper groove, 31 lower groove, 51 rotation axis, 52 rotating electrical machines, 53 worm, 54 worm wheel, 71 two-way lead screw, 72 movable block, 73 bracing piece, 74 articulated seat, 75 square hole piece, 76 concatenation square, 81 rotary seat, 82 rotatory square hole seat, 83 transmission shaft, 84 bevel gear, 85 driving motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 12, a reinforcing apparatus for a building form includes a moving frame including a U-shaped frame 2 and a linear frame 3 disposed at the periphery of a column form 1 (column reinforcing bars are disposed at the inner side of the column form 1, not shown), a universal wheel 4 is disposed at the lower side of the moving frame, and the linear frame 3 is rotatably disposed at an opening of the U-shaped frame 2 and driven by a rotation mechanism 5;

the rotating mechanism 5 comprises a rotating shaft 51 rotatably mounted with the U-shaped frame 2, one end of the linear frame 3 is fixed with one end of the rotating shaft 51, and the other end of the rotating shaft 51 is driven by a rotating motor 52; a worm wheel 54 is arranged at one end of the rotating shaft 51 far away from the linear frame 3, a rotating motor 52 is arranged on the U-shaped frame 2 through a bracket, a worm 53 is arranged at the driving end of the rotating motor 52, and the worm 53 is meshed with the worm wheel 54.

The rotating motor 52 drives the worm 53 and the worm wheel 54 to realize meshing transmission, and drives the linear frame 3 to swing relative to the U-shaped frame 2 through the rotating shaft 51, when the linear frame 3 rotates to the state shown in fig. 3, 9 and 10, the movable frame can be moved to the outside of the cylinder mould plate 1 or moved away from the outside of the cylinder mould plate 1;

an upper groove 21 is formed in the end, away from the linear frame 3, of the U-shaped frame 2, where the rotating shaft 51 is arranged, and a lower groove 31 matched with the upper groove 21 is formed in the end, close to the upper groove 21, of the linear frame 3.

The upper groove 21 and the lower groove 31 are provided with positioning pin holes, and are detachably connected through positioning pins. The locating pin is inserted into the locating pin hole, so that the U-shaped frame 2 can be effectively fixed after being far away from the combination of the linear frames 3, and the device can provide more stable support and reinforcement for the column template 1 in the follow-up process.

When the linear frame 3 is rotated to the state shown in fig. 1, 2, 7 and 8, the moving frame can be stably disposed at the outer side of the column form 1.

The upper sides of the U-shaped frame 2 and the linear frame 3 are respectively provided with a supporting mechanism 7, the supporting mechanisms 7 are respectively provided with an auxiliary plate 6 facing the column template 1, and the auxiliary plates 6 are in extrusion contact with the outer side walls of the column template 1;

the lower sides of the U-shaped frame 2 and the linear frame 3 are respectively provided with a transmission mechanism 8, and the supporting mechanism 7 is driven by the transmission mechanisms 8.

The supporting mechanism 7 comprises two symmetrically arranged bidirectional screw rods 71, the bidirectional screw rods 71 are respectively and rotatably arranged on the upper sides of the U-shaped frame 2 and the linear frame 3, the bidirectional screw rods 71 are symmetrically provided with moving blocks 72 in a threaded manner, one side, close to the bidirectional screw rods 71, of the auxiliary plate 6 is provided with a hinging seat 74, and a supporting rod 73 is jointly hinged between the hinging seat 74 and the moving blocks 72;

the upper end of the bidirectional screw rod 71 is provided with a square hole block 75, and the lower end of the bidirectional screw rod 71 is provided with a splicing square block 76;

the transmission mechanism 8 comprises a rotating seat 81, the rotating seat 81 is respectively rotatably installed with the U-shaped frame 2 and the linear frame 3, a rotating square hole seat 82 is installed at the upper end of the rotating seat 81, the rotating square hole seat 82 is matched with a splicing square 76 at the lower end of the bidirectional screw rod 71, transmission shafts 83 are rotatably arranged at the lower sides of the U-shaped frame 2 and the linear frame 3, the transmission shafts 83 are driven by a driving motor 85, a bevel gear 84 is installed at the lower end of the rotating seat 81, a bevel gear 84 is also installed on the transmission shafts 83, and the bevel gear 84 at the lower end of the rotating seat 81 is meshed with the bevel gear 84 on the transmission shafts 83.

Hanging plates are mounted on the lower sides of the U-shaped frame 2 and the linear frame 3, the bottom ends of the hanging plates are rotatably connected with the transmission shaft 83 through bearings, and the driving motor 85 is fixedly mounted with the hanging plates.

The U-shaped frame 2 and the linear frame 3 are provided with bearing holes matched with the rotating seat 81, and are rotatably installed with the rotating seat 81 through bearings.

As shown in fig. 2, a plurality of supporting mechanisms 7 are vertically assembled along the column template 1, and each supporting mechanism 7 is connected with an auxiliary plate 6, and the two-way screw rods 71 positioned on the lower side and the upper side are mutually assembled through a square hole block 75 and a splicing block 76.

The driving motor 85 drives the transmission shaft 83 to rotate, the mutual meshing transmission between the bevel gears 84 is utilized, the rotating seat 81 can be controlled to be opposite to the U-shaped frame 2 or the linear frame 3, the rotating square hole seat 82 is utilized to be matched with the splicing square block 76, the bidirectional screw rod 71 can be controlled to rotate, then the bidirectional screw rod 71 is utilized to be matched with the threads of the moving block 72, meanwhile, the hinging seat 74 and the moving block 72 are jointly hinged and provided with the supporting rod 73, the auxiliary plate 6 can be controlled to be close to the column template 1 through the supporting rod 73, supporting force is applied to the auxiliary plate, and the column template 1 is reinforced.

The support mechanism 7 and the auxiliary plate 6 can be vertically arranged along the column template 1 in a plurality, and the bidirectional screw rods 71 are mutually combined with the splicing square blocks 76 through the square hole blocks 75; it is thus possible to realize a vertical combination of the bidirectional screw rod 71 and simultaneously realize a vertical arrangement of the supporting mechanism 7 and the auxiliary plate 6 along the column form 1 so as to realize supporting reinforcement for the column forms 1 of different heights.

Claims

1. The reinforcing device for the building templates comprises a movable frame and is characterized in that the movable frame comprises a U-shaped frame (2) and a linear frame (3) which are arranged on the periphery of a column template (1), universal wheels (4) are arranged on the lower side of the movable frame, and the linear frame (3) is rotatably provided with an opening of the U-shaped frame (2) and is driven by a rotating mechanism (5);

the upper sides of the U-shaped frame (2) and the linear frame (3) are respectively provided with a supporting mechanism (7), the supporting mechanisms (7) are respectively provided with an auxiliary plate (6) facing the column template (1), and the auxiliary plates (6) are in extrusion contact with the outer side walls of the column template (1);

the lower sides of the U-shaped frame (2) and the linear frame (3) are respectively provided with a transmission mechanism (8), and the supporting mechanism (7) is driven by the transmission mechanisms (8);

the rotating mechanism (5) comprises a rotating shaft (51) rotatably mounted with the U-shaped frame (2), one end of the linear frame (3) is fixed with one end of the rotating shaft (51), and the other end of the rotating shaft (51) is driven by a rotating motor (52);

a worm wheel (54) is arranged at one end, far away from the linear frame (3), of the rotating shaft (51), a rotating motor (52) is arranged on the U-shaped frame (2) through a bracket, a worm (53) is arranged at the driving end of the rotating motor (52), and the worm (53) is meshed with the worm wheel (54);

the supporting mechanism (7) comprises two symmetrically arranged bidirectional screw rods (71), the bidirectional screw rods (71) are respectively and rotatably arranged on the upper sides of the U-shaped frame (2) and the linear frame (3), the bidirectional screw rods (71) are symmetrically provided with moving blocks (72) in a threaded manner, one side, close to the bidirectional screw rods (71), of the auxiliary plate (6) is provided with a hinging seat (74), and the hinging seat (74) and the moving blocks (72) are jointly hinged with each other and provided with a supporting rod (73);

the upper end of the bidirectional screw rod (71) is provided with a square hole block (75), and the lower end of the bidirectional screw rod (71) is provided with a splicing square block (76);

the transmission mechanism (8) comprises a rotating seat (81), the rotating seat (81) is respectively rotatably installed with a U-shaped frame (2) and a linear frame (3), a rotating square hole seat (82) is installed at the upper end of the rotating seat (81), the rotating square hole seat (82) is matched with a splicing square (76) at the lower end of a bidirectional screw rod (71), transmission shafts (83) are respectively rotatably arranged at the lower sides of the U-shaped frame (2) and the linear frame (3), the transmission shafts (83) are driven by a driving motor (85), bevel gears (84) are installed at the lower end of the rotating seat (81), and the bevel gears (84) are also installed on the transmission shafts (83), and the bevel gears (84) at the lower end of the rotating seat (81) are meshed with the bevel gears (84) on the transmission shafts (83);

the support mechanisms (7) are vertically spliced and assembled along the column template (1), each support mechanism (7) is connected with an auxiliary plate (6), and the two-way screw rods (71) located on the lower side and the upper side are mutually assembled through square hole blocks (75) and splicing blocks (76).

2. The reinforcing device for the building formwork according to claim 1, wherein an upper groove (21) is formed at one end, away from the linear frame (3), of the U-shaped frame (2) and mounted on the rotating shaft (51), and a lower groove (31) matched with the upper groove (21) is formed at one end, close to the upper groove (21), of the linear frame (3).

3. The reinforcing device for building templates according to claim 2, wherein the upper groove (21) and the lower groove (31) are provided with positioning pin holes, and are detachably connected through positioning pins.

4. The reinforcing device for the building formwork according to claim 1, wherein hanging plates are mounted on the lower sides of the U-shaped frame (2) and the linear frame (3), the bottom ends of the hanging plates are rotatably connected with the transmission shaft (83) through bearings, and the driving motor (85) is fixedly mounted with the hanging plates.

5. The reinforcing device for building templates according to claim 1, wherein the U-shaped frame (2) and the linear frame (3) are provided with bearing holes matched with the rotating seat (81), and are rotatably installed with the rotating seat (81) through bearings.