CN112112085A

CN112112085A - Building bridge reinforcing construction system

Info

Publication number: CN112112085A
Application number: CN202011157505.0A
Authority: CN
Inventors: 潘林妃
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2020-12-22

Abstract

The invention relates to a building bridge reinforcing construction system which comprises a mounting plate and a laminating device, wherein the laminating device is arranged on the mounting plate. The invention can solve the following problems when the reinforcing fiber net plate is used for reinforcing construction of a building bridge at present: when the existing building bridge is reinforced and reinforced by the fiber screen plate, a constructor is lifted to a proper position of a wall surface by a lifting device and then the fiber screen plate is manually attached to the wall surface, so that the labor intensity of workers can be greatly increased and risks exist for the reinforcement of a large-area wall surface; when building bridge wall laminating fibre otter board, need make the fibre otter board reach the reinforcing effect that just can make the fibre otter board play best with the laminating effect of wall at best, and the fibre otter board of artifical laminating hardly reaches this requirement, just can lead to the fibre otter board life reduction of building bridge wall laminating.

Description

Building bridge reinforcing construction system

Technical Field

The invention relates to the technical field of building reinforcement, in particular to a building bridge reinforcement construction system.

Background

The bridge is reinforced, namely the bearing capacity and the service performance of a member and even the whole structure are improved by certain measures so as to meet new requirements. Namely, the condition that the bridge cannot be used continuously is processed. The reinforcement is caused by poor bridge durability, aging, improper design or poor construction quality. After the bridge is reinforced, the service life of the bridge can be prolonged, the bridge can meet the requirement of traffic volume by using a small amount of capital investment, the centralization of bridge investment can be alleviated, and the loss of personnel and property caused by bridge collapse can be prevented and avoided. The bridge building reinforcing fiber net plate is used in the technology of reinforcing and repairing concrete structures, and the fiber net plate is adhered to the surface of concrete by adopting a matched adhesive, so that the effects of structural reinforcement and earthquake resistance reinforcement are achieved.

At present, when a reinforcing fiber mesh plate is used for reinforcing construction of a building bridge, the following problems exist: a. when the existing building bridge is reinforced by adhering and reinforcing the fiber screen plate, a constructor is lifted to a proper position of the wall surface by the lifting equipment and then the fiber screen plate is adhered to the wall surface manually, so that the labor intensity of workers can be greatly increased and risks exist for the reinforcement of the large-area wall surface, and the construction efficiency of the reinforcement of the building bridge wall surface is reduced; b. when building bridge wall laminating fibre otter board, need make the fibre otter board reach the reinforcing effect that just can make the fibre otter board play best with the laminating effect of wall at best, and the fibre otter board of artifical laminating hardly reaches this requirement, just can lead to the fibre otter board life reduction of building bridge wall laminating.

Disclosure of Invention

The invention aims to provide a building bridge reinforcement construction system to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a building bridge reinforcement construction system comprises a mounting plate and a laminating device, wherein the laminating device is arranged on the mounting plate; wherein: the laminating device comprises an adjusting component, a laminating frame body, laminating support plates, laminating slide rods, a laminating slide plate, a laminating motor, a laminating lead screw, a laminating vertical plate, a laminating support block and a laminating clamp roller, wherein the adjusting component is arranged on a mounting plate, the laminating frame body is arranged on one side of the adjusting component and is of a U-shaped structure, two groups of laminating support plates are symmetrically arranged at two ends of one side of the laminating frame body, each group of laminating support plates are symmetrically arranged, the laminating slide rods are arranged between the laminating support plates, the laminating slide plates are symmetrically arranged at two ends of the laminating slide rods, the laminating motor is arranged between one group of laminating support plates, the laminating lead screw is connected between an output shaft at two ends of the laminating motor and the laminating support plates, the laminating slide plates and the laminating lead screw are connected through screw fit, the screw fit modes between the laminating slide plates and the laminating lead screw in, the both ends symmetry of laminating riser is provided with a laminating piece, is located the laminating clamp roll that is provided with between the laminating piece on same laminating riser.

The adjusting component comprises a positioning bolt, an adjusting fixture block and an adjusting clamping sleeve, the positioning bolt is arranged in the middle of the mounting plate, the adjusting bolt is uniformly arranged along the circumferential direction of the mounting plate by taking the positioning bolt as the center of a circle, the adjusting fixture block is arranged at one end of the positioning bolt and one end of the adjusting bolt, the adjusting fixture block is of a spherical structure, a plurality of adjusting clamping sleeves are uniformly arranged on the other side surface of the laminating frame body, and the adjusting fixture block is hinged to the adjusting clamping sleeves in a spherical mode.

As a further scheme of the invention: the laminating frame is characterized in that two ends of one side of the inside of the laminating frame are symmetrically provided with laminating cylinders, a laminating support is arranged between the laminating support blocks on the same laminating vertical plate in a sliding mode, the output end of the laminating cylinder is connected with the laminating support in a sliding mode, one end of the laminating support is provided with a laminating rack, one end of a laminating clamping roller is provided with a laminating gear, and the laminating rack is connected with the laminating gear in a meshing mode.

As a further scheme of the invention: a rectangular hole is formed in the face, close to the fiber screen plate, of the attaching support block, a limiting clamping block is installed in the rectangular hole through a pin shaft, and a supporting spring is connected between the attaching support block and the limiting clamping block.

As a further scheme of the invention: the cross section of the attaching clamping roller is of a plane scroll structure, and semicircular rubber strips are fully distributed on the surface of the attaching clamping roller.

As a further scheme of the invention: and a rolling support plate is arranged on the laminating clamping roller, and a rolling long roller is arranged at one end of the rolling support plate.

Compared with the prior art, the invention has the following advantages:

1. the method can solve the following problems when the reinforcing fiber net plate is used for reinforcing construction of the building bridge at present: a. when the existing building bridge is reinforced by adhering and reinforcing the fiber screen plate, a constructor is lifted to a proper position of the wall surface by the lifting equipment and then the fiber screen plate is adhered to the wall surface manually, so that the labor intensity of workers can be greatly increased and risks exist for the reinforcement of the large-area wall surface, and the construction efficiency of the reinforcement of the building bridge wall surface is reduced; b. when the fiber mesh plate is attached to the wall surface of a building bridge, the reinforcing effect of the fiber mesh plate can be best achieved only by enabling the attaching effect of the fiber mesh plate and the wall surface to be best, and the fiber mesh plate attached to the wall surface of the building bridge can be shortened due to the fact that the fiber mesh plate attached to the wall surface of the building bridge is difficult to meet the requirement;

2. when the device is used for reinforcing a building bridge by using the reinforcing fiber screen plate, the mounting plate of the device is only required to be mounted together with the existing mobile lifting equipment, then the lifting equipment lifts the device to a proper position of a wall surface, and then the fiber screen plate can be attached to the wall surface of the building bridge by the attaching device, so that the wall surface is reinforced;

3. the adjusting assembly designed by the invention can adjust the position according to the vertical and horizontal inclination angles of the wall surface of the building bridge, so that the laminating device can be suitable for reinforcing operation of various building bridge wall surfaces.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic top cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 3 in accordance with the present invention;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 4.

A building bridge reinforcement construction system comprises a mounting plate 1 and a fitting device 2, wherein the fitting device 2 is arranged on the mounting plate 1; wherein:

the laminating device 2 comprises an adjusting component 20, a laminating frame body 21, laminating support plates 22, laminating slide rods 23, a laminating slide plate 24, a laminating motor 25, a laminating lead screw 26, a laminating vertical plate 27, a laminating support block 28 and a laminating clamping roller 29, the adjusting component 20 is arranged on the mounting plate 1, the laminating frame body 21 is arranged on one side of the adjusting component 20, the laminating frame body 21 is of a U-shaped structure, two groups of laminating support plates 22 are symmetrically arranged at two ends of one side of the laminating frame body 21, each group of laminating support plates 22 are symmetrically arranged, the laminating slide rods 23 are arranged between each group of laminating support plates 22, the laminating slide plates 24 are symmetrically arranged on two ends of each laminating slide rod 23 in a sliding manner, a laminating motor 25 is arranged between one group of the laminating support plates 22, the laminating lead screw 26 is connected between output shafts at two ends of the laminating motor 25 and the laminating support plates 22, the laminating slide plates 24 and the laminating lead screw, a joint vertical plate 27 is arranged between the joint sliding plates 24 which are positioned at the opposite positions between the two groups of joint support plates 22, joint support blocks 28 are symmetrically arranged at the two ends of the joint vertical plate 27, and joint clamping rollers 29 are arranged between the joint support blocks 28 on the same joint vertical plate 27;

when in operation, according to the up-down and left-right inclination angles of the building bridge wall surface, the front end of the joint frame body 21 can be parallel to the wall surface by moving the adjusting component 20, then the fiber mesh plate after being glued is placed between the gluing clamping rollers 29, the gluing motor 25 is started to drive the gluing lead screw 26 to rotate, so that the fitting slide plates 24 slide on the fitting slide bars 23 and approach each other, thereby causing the fitting nip rollers 29 to nip the web sheet, then the jointing frame body is moved and lifted to the wall surface by the prior movable lifting equipment, then the jointing motor 25 is started to lead the jointing sliding plates 24 to slide on the jointing sliding rods 23 and to be away from each other, so that the jointing clamping rollers 29 gradually loosen the clamped fiber mesh plate, then the fiber net plate is pasted on the wall surface, so that the labor intensity of workers can be reduced, and the reinforcing construction efficiency of the building bridge wall surface can be improved.

The adjusting assembly 20 comprises a positioning bolt 200, an adjusting bolt 201, an adjusting fixture 202 and an adjusting fixture sleeve 203, the positioning bolt 200 is arranged in the middle of the mounting plate 1, the adjusting bolt 201 is uniformly arranged along the circumferential direction of the positioning bolt 200 by taking the positioning bolt 200 as the center of a circle, the adjusting fixture 202 is arranged at one end of the positioning bolt 200 and one end of the adjusting bolt 201, the adjusting fixture 202 is of a spherical structure, a plurality of adjusting fixture sleeves 203 are uniformly arranged on the other side surface of the attaching frame body 21, the adjusting fixture 202 and the adjusting fixture sleeves 203 correspond to each other one by one and are hinged in a spherical manner; during specific work, it changes to rotate positioning bolt 200 makes the distance between laminating framework 21 and the mounting panel 1, after the distance between the two is fixed, rotate adjusting bolt 201 alright take place relative rotation with the regulation fixture block 202 that makes between laminating framework 21 and the positioning bolt 200 and regulation cutting ferrule 203, thereby make the angle between laminating framework 21 and the mounting panel 1 change, and the distance between mounting panel 1 and the laminating framework 21 is big more the angle change scope between the two is big more, laminating device 2 alright be applicable to the building bridge wall reinforcement construction of different environment like this.

The cross section of the attaching clamping roller 29 is of a plane scroll structure, and semicircular rubber strips are fully distributed on the surface of the attaching clamping roller; during specific work, when the fiber screen plate is placed between the two attaching clamping rollers 29, due to the structural characteristics of the attaching clamping rollers 29, two ends of the fiber screen plate can be in contact with rubber strips on the surfaces of the attaching clamping rollers 29, then due to extrusion of the fiber screen plate, the two attaching clamping rollers 29 can rotate in opposite directions, so that the attaching clamping rollers 29 can clamp the fiber screen plate, and the attaching motor 25 is not needed to drive the attaching screw rod 26 to rotate all the time, so that the attaching clamping rollers 29 can be clamped by a certain distance.

Two ends of one side surface inside the attaching frame body 21 are symmetrically provided with attaching cylinders 210, an attaching support 211 is arranged between the attaching support blocks 28 on the same attaching vertical plate 27 in a sliding mode, the output end of the attaching cylinder 210 is connected with the attaching support 211 in a sliding mode, one end of the attaching support 211 is provided with an attaching rack 212, one end of the attaching clamp roller 29 is provided with an attaching gear 213, and the attaching rack 212 is connected with the attaching gear 213 in a meshing mode; during specific work, the extension and the shortening of the attaching cylinder 210 can enable the attaching support 211 to slide on the attaching support block 28, so that the attaching rack 211 drives the attaching gear 213 at one end of the attaching clamp roller 29 to rotate, the attaching gear 213 can rotate to drive the attaching clamp roller 29 to rotate, the cross section of the attaching clamp roller 29 is of a plane scroll structure, so that the fiber screen plate can be clamped or loosened during rotation, and the fiber screen plate is pushed to the wall surface to achieve automatic attaching of the fiber screen plate.

A rectangular hole is formed in the surface, close to the fiber screen plate, of the attaching support block 28, a limiting fixture block 280 is installed in the rectangular hole through a pin shaft, and a support spring is connected between the attaching support block 28 and the limiting fixture block 280; during specific work, the fiber screen plate is directly placed between the limiting clamping blocks 280, and then the attaching air cylinder 210 rotates, so that the attaching bracket 211 drives the attaching gear 213 to rotate through the attaching rack 212, and the attaching clamp roller 29 rotates to clamp the fiber screen plate more quickly.

A rolling support plate 290 is arranged on the attaching clamp roller 29, and a rolling long roller 291 is arranged at one end of the rolling support plate 290; in the concrete operation, when the fiber net plate clamped between the jointing clamping rollers 29 needs to be jointed on the wall surface, the jointing air cylinder 210 extends, so that the attaching bracket 211 rotates with the attaching gear 213 via the attaching rack 212, so that the attaching nip roller 29 rotates to push the fiber mesh plate to the wall surface, and simultaneously, under the driving of the attaching nip roller 29, the rolling support plate 290 drives the rolling long roller 291 to abut against the side of the fiber mesh plate without glue, and after the fiber mesh plate contacts with the wall surface, the attaching cylinder 210 still keeps slowly extending, the long roll 291 can thus be pressed against the web at all times and the reasoning for the web becomes progressively larger, then, the attaching motor 25 is started to drive the attaching screw rod 26 to rotate, so that the attaching clamp rollers 29 are gradually far away from each other, and then the long rolling roller 291 rolls on the surface of the fiber mesh plate, so that the attaching between the fiber mesh plate and the wall surface is firmer.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a construction system is consolidated to building bridge, includes mounting panel (1) and laminating device (2), its characterized in that: the mounting plate (1) is provided with a laminating device (2); wherein: the laminating device (2) comprises an adjusting component (20), a laminating frame body (21), laminating support plates (22), laminating slide rods (23), a laminating sliding plate (24), a laminating motor (25), a laminating lead screw (26), a laminating vertical plate (27), a laminating support block (28) and a laminating clamping roller (29), wherein the adjusting component (20) is arranged on the mounting plate (1), the laminating frame body (21) is arranged on one side of the adjusting component (20), the laminating frame body (21) is of a U-shaped structure, two groups of laminating support plates (22) are symmetrically arranged at two ends of one side of the laminating frame body (21), each group of laminating support plates (22) are symmetrically arranged, the laminating slide rods (23) are arranged between each group of the laminating support plates (22), the laminating sliding plates (24) are symmetrically arranged at two ends of the laminating slide rods (23), the laminating motor (25) is arranged between one group of the laminating support plates (22), and the laminating lead screw (26) is connected, the gluing sliding plates (24) are connected with the gluing lead screws (26) in a threaded fit mode, the gluing sliding plates (24) in the same group are opposite to the gluing lead screws (26) in the threaded fit mode, a gluing vertical plate (27) is arranged between the gluing sliding plates (24) in the opposite positions between the two groups of gluing support plates (22), gluing support blocks (28) are symmetrically arranged at two ends of the gluing vertical plate (27), and a gluing clamping roller (29) is arranged between the gluing support blocks (28) on the same gluing vertical plate (27);

adjusting part (20) are including positioning bolt (200), adjusting bolt (201), regulation fixture block (202) and regulation cutting ferrule (203), are provided with positioning bolt (200) in the middle of mounting panel (1) to positioning bolt (200) evenly are provided with adjusting bolt (201) along its circumference direction as the centre of a circle, and the one end of positioning bolt (200) and the one end of adjusting bolt (201) all are provided with regulation fixture block (202), adjust fixture block (202) and be the ball-type structure, and laminating framework (21) another side evenly is provided with a plurality of and adjusts cutting ferrule (203), adjusts fixture block (202) and adjusts cutting ferrule (203) one-to-one and the two is that the ball is articulated.

2. The system of claim 1, wherein: laminating cylinder (210) are symmetrically arranged at two ends of one side of the interior of the laminating frame body (21), a laminating support (211) is arranged between the laminating support blocks (28) on the same laminating vertical plate (27) in a sliding mode, the output end of the laminating cylinder (210) is connected with the laminating support (211) in a sliding mode, one end of the laminating support (211) is provided with a laminating rack (212), one end of the laminating clamping roller (29) is provided with a laminating gear (213), and the laminating rack (212) is meshed with the laminating gear (213) and is connected with the laminating rack.

3. The system of claim 1, wherein: a rectangular hole is formed in the face, close to the fiber screen plate, of the attaching support block (28), a limiting clamping block (280) is installed in the rectangular hole through a pin shaft, and a supporting spring is connected between the attaching support block (28) and the limiting clamping block (280).

4. The system of claim 1, wherein: the cross section of the attaching clamping roller (29) is of a plane scroll structure, and semicircular rubber strips are fully distributed on the surface of the attaching clamping roller.

5. The system of claim 1, wherein: and a rolling support plate (290) is arranged on the attaching clamping roller (29), and a rolling long roller (291) is arranged at one end of the rolling support plate (290).