CN112900909B

CN112900909B - Efficient positioning mechanism that rectifies of wall body for building engineering

Info

Publication number: CN112900909B
Application number: CN202110060543.2A
Authority: CN
Inventors: 郭凤娟
Original assignee: Anhui Jiawei Construction Co ltd
Current assignee: Anhui Jiawei Construction Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2022-08-23
Anticipated expiration: 2041-01-18
Also published as: CN112900909A

Abstract

The invention discloses a high-efficiency wall body deviation rectifying and positioning mechanism for construction engineering, which comprises an installation plate, wherein supporting blocks are fixedly connected onto the installation plate, a screw rod is connected between the supporting blocks through a bearing, one end of the screw rod is connected with a rocker, the screw rod penetrates through a connecting block, the lower end of the connecting block is connected to the upper surface of the installation plate in a sliding mode, a supporting rod is connected to the side surface of the connecting block in a shaft mode and is connected to a supporting rod in a shaft mode, the supporting rod is connected to the upper surface of the installation plate through a supporting shaft bearing, and the supporting rod is connected to one end of a piston rod in a shaft mode. This efficient positioning mechanism for wall body of rectifying for building engineering when using, can guarantee the locating lever synchronous motion of wall body one side, and then be convenient for carry out stable extrusion to the wall body to can guarantee that the wall body is quick to be restoreed, help improving prosthetic efficiency, and this location structure is different from traditional cylinder drive, and then more energy-concerving and environment-protectively.

Description

Efficient positioning mechanism that rectifies of wall body for building engineering

Technical Field

The invention relates to the technical field of building deviation correction, in particular to a high-efficiency wall deviation correction positioning mechanism for building engineering.

Background

In building engineering, often because the wall body is of a long time for the wall body slope, when the wall body slopes, cause the potential safety hazard easily, and if push away the wall body of slope to rebuild not only can consume the longer time, also will cause the damage of historical relic for ancient building in addition if the wall body, the wall body positioning mechanism that rectifies for building engineering is exactly a device that can right the slope wall body.

The existing wall body deviation rectifying and positioning mechanism for the construction engineering is not convenient for the synchronous movement of a plurality of members extruding a wall body, so that the stress of the wall body is uneven, the repair of the wall body is not facilitated, and the repair efficiency is not high.

Disclosure of Invention

The invention aims to provide a wall body deviation rectifying and positioning mechanism for building engineering with high efficiency, and aims to solve the problem that the existing wall body deviation rectifying and positioning mechanism for building engineering in the background art is low in repairing efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency wall body deviation rectifying and positioning mechanism for construction engineering comprises a mounting plate, wherein supporting blocks are fixedly connected onto the mounting plate, a screw rod is connected between the supporting blocks in a bearing mode, one end of the screw rod is connected with a rocker, the screw rod penetrates through a connecting block, the lower end of the connecting block is connected to the upper surface of the mounting plate in a sliding mode, a supporting rod is connected to the side surface of the connecting block in a shaft mode, the supporting rod is connected to the upper surface of the mounting plate through a supporting shaft bearing and is connected to one end of a piston rod, the other end of the piston rod extends into a main air pipe, the main air pipe is connected with a frame body pipe through a connecting pipe, a secondary air pipe is arranged on the frame body pipe and is connected with a liquid inlet channel, a piston block is arranged in the secondary air pipe and is connected with a labor-saving channel, and a one-way valve is arranged between the secondary air pipe and the labor-saving channel, and laborsaving passageway sets up on a supporting bench, laborsaving in-channel is connected with the one end of locating lever, and is provided with out oil pipe on the laborsaving passageway, be connected with into oil pipe on the inlet channel, and advance oil pipe and go out oil pipe and all set up on a supporting bench, advance oil pipe and go out oil pipe and be provided with into oil valve and go out oil valve door respectively.

Preferably, the screw rod is connected with the connecting blocks in a threaded connection mode, 2 connecting blocks are symmetrically arranged on the screw rod about the central line of the screw rod, and the thread directions of the screw rod on two sides of the central line of the screw rod are opposite.

Preferably, a V-shaped structure is formed between the supporting rods, and 2 supporting rods are connected with the supporting rod through the same shaft.

Preferably, the distance between the supporting wheel base supporting rod and one end of the supporting rod is smaller than the distance between the supporting wheel base supporting rod and the other end of the supporting rod, and the 2 supporting rods are overlapped up and down.

Preferably, the end of the piston rod extending into the main air pipe is in seamless contact connection with the inner side of the main air pipe, and the axis of the piston rod and the axis of the main air pipe are arranged in a collinear manner.

Preferably, the frame body pipe is arranged in a C shape, and secondary air pipes are uniformly distributed on the frame body pipe.

Preferably, the inner diameter of the secondary air pipe is smaller than that of the labor-saving channel, and the secondary air pipe and the labor-saving channel are communicated through the liquid inlet channel.

Preferably, the locating lever is the I shape setting, and the even distribution of locating lever is on the brace table.

Compared with the prior art, the invention has the beneficial effects that: this efficient positioning mechanism for wall body of rectifying a deviation can guarantee the locating lever synchronous motion of wall body one side when using, and then is convenient for carry out stable extrusion to the wall body to can guarantee that the wall body is quick, help improving prosthetic efficiency, and this location structure is different from traditional cylinder drive, and then more energy-concerving and environment-protectively:

1. the piston rod gradually enters the main air pipe, so that the piston block gradually approaches the one-way valve, oil in the secondary air pipe can be gradually extruded into the labor-saving channel, the positioning rod synchronously extrudes the wall, the wall is ensured to be stressed uniformly, and the stability and the efficiency of repairing the wall are improved;

2. through the laborsaving structure that screw rod, connecting block and the vaulting pole constitute and the province apart from the structure that bracing piece and back shaft constitute, can be convenient for reduce the application range's of this mechanism restriction, and can be convenient for alleviate staff's intensity of labour, help improving people's availability factor.

Drawings

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

FIG. 2 is an enlarged view of point A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of point B of FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional front view of the present invention;

FIG. 5 is an enlarged view of point C of FIG. 4 according to the present invention;

FIG. 6 is a schematic cross-sectional view of a flowline according to the present invention;

FIG. 7 is a schematic top view of the present invention.

In the figure: 1. mounting a plate; 2. a support block; 3. a screw; 4. a rocker; 5. connecting blocks; 6. supporting a top rod; 7. a support bar; 8. a support shaft; 9. a piston rod; 10. a main air pipe; 11. a connecting pipe; 12. a frame pipe; 13. a secondary trachea; 14. a support table; 15. a piston block; 16. a liquid inlet channel; 17. a one-way valve; 18. an oil inlet pipe; 19. an oil inlet valve; 20. a labor-saving channel; 21. positioning a rod; 22. an oil outlet pipe; 23. and an oil outlet valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a high-efficiency wall body deviation rectifying and positioning mechanism for building engineering comprises a mounting plate 1, supporting blocks 2, a screw rod 3, a rocker 4, a connecting block 5, a supporting top rod 6, a supporting rod 7, a supporting shaft 8, a piston rod 9, a main gas pipe 10, a connecting pipe 11, a frame pipe 12, a secondary gas pipe 13, a supporting table 14, a piston block 15, a liquid inlet channel 16, a one-way valve 17, an oil inlet pipe 18, an oil inlet valve 19, a labor-saving channel 20, a positioning rod 21, an oil outlet pipe 22 and an oil outlet valve 23, wherein the mounting plate 1 is fixedly connected with the supporting blocks 2, the screw rod 3 is connected between the supporting blocks 2 through bearings, one end of the screw rod 3 is connected with the rocker 4, the screw rod 3 penetrates through the connecting block 5, the lower end of the connecting block 5 is connected with the upper surface of the mounting plate 1 in a sliding manner, the side surface of the connecting block 5 is connected with the supporting top rod 6, the supporting top rod 6 is connected with the supporting rod 7 through the shaft, the supporting rod 7 is connected with the upper surface of the mounting plate 1 through the supporting shaft 8 through the bearing, and the bracing piece 7 axle is connected in the one end of piston rod 9, the other end of piston rod 9 stretches into the inside setting of main trachea 10, and main trachea 10 is connected with framework pipe 12 through connecting pipe 11, be provided with time trachea 13 on the framework pipe 12, and time trachea 13 connects inlet channel 16, be provided with piston block 15 in the time trachea 13, and time trachea 13 is connected with laborsaving passageway 20, be provided with check valve 17 between time trachea 13 and the laborsaving passageway 20, and laborsaving passageway 20 sets up on brace table 14, the one end of locating lever 21 is connected to laborsaving passageway 20, and be provided with out oil pipe 22 on the laborsaving passageway 20, be connected with into oil pipe 18 on the inlet channel 16, and advance oil pipe 18 and go out oil pipe 22 and all set up on brace table 14, advance oil pipe 18 and go out oil pipe 22 and be provided with into oil valve 19 and go out oil valve 23 respectively.

The screw rod 3 is connected with the connecting blocks 5 in a threaded connection mode, the screw rod 3 is symmetrically provided with 2 connecting blocks 5 about the central line of the screw rod, the thread turning directions of the screw rod 3 on two sides of the central line of the screw rod are opposite, and when the screw rod 3 rotates, the 2 connecting blocks 5 on the screw rod can move close to or away from each other.

Prop and constitute V font structure between the ejector pin 6, and 2 prop ejector pin 6 and be connected with bracing piece 7 through same axle, can prop the contained angle that ejector pin 6 constitutes V font structure through 2 and change for the one end of bracing piece 7 takes place to rotate.

The distance that back shaft 8 connects 6 one end of ejector pin apart from bracing piece 7 is less than the distance that back shaft 8 apart from the bracing piece 7 other end, and 2 bracing pieces 7 coincide from top to bottom and set up, can connect 6 one end of ejector pin at bracing piece 7 and remove less distance, and the other end of bracing piece 7 removes great distance.

The end part of the piston rod 9 extending into the main air pipe 10 is connected with the inner side of the main air pipe 10 in a seamless contact manner, and the axes of the piston rod 9 and the main air pipe 10 are arranged in a collinear manner, so that the piston rod 9 can move conveniently, and the gas in the main air pipe 10, the connecting pipe 11 and the frame pipe 12 pushes the piston block 15 in the secondary air pipe 13 to move.

The frame body pipe 12 is the setting of C font, and the even distribution has time trachea 13 on the frame body pipe 12, can be convenient for even setting up the time trachea 13 that link up above that to make the synchronous motion of piston block 15 in the time trachea 13.

The internal diameter of secondary trachea 13 is less than laborsaving passageway 20's internal diameter, and secondary trachea 13 and laborsaving passageway 20 link up the setting through inlet channel 16, can be convenient for make the interior piston block 15 of secondary trachea 13 remove through less power, and the locating lever 21 produces great power to the wall body.

The positioning rods 21 are arranged in an I shape, and the positioning rods 21 are uniformly distributed on the supporting table 14, so that the contact surface between the positioning rods 21 and the wall body can be conveniently improved.

The working principle is as follows: firstly, the deviation rectifying mechanism is arranged on two sides of a wall body, and then the deviation rectifying mechanism is used according to the following operation mode:

according to the figures 1-7, the other ends of the oil inlet valve 19 and the oil outlet valve 23 are connected with the external oil tank;

then the rocker 4 is rocked to enable the screw rod 3 to rotate, and further the 2 connecting blocks 5 on the screw rod 3 can move close to each other;

the connecting blocks 5 are close to each other, so that a V-shaped included angle formed by the 2 supporting and ejecting rods 6 is reduced, and the supporting rods 7 are extruded;

under the action of the supporting shaft 8, one end of the supporting shaft 8 is extruded, so that the other end of the supporting shaft 8 moves in the opposite direction, and the piston rod 9 gradually moves towards the main air pipe 10;

the gas in the main gas pipe 10 is extruded through the piston rod 9, so that the gas can enter the secondary gas pipe 13 through the connecting pipe 11 and the frame body pipe 12 in sequence;

the gas entering the secondary air pipe 13 extrudes the piston block 15, so that the piston block 15 moves towards the liquid inlet channel 16, and the oil liquid in the secondary air pipe 13 is further extruded into the labor-saving channel 20 through the liquid inlet channel 16;

the oil can be prevented from flowing back through the one-way valve 17;

then before the rocker 4 is rotated reversely, the oil inlet valve 19 can be opened, so that when the piston block 15 moves reversely, oil in the oil tank is sucked into the secondary air pipe 13;

finally, the positioning rods 21 in the labor-saving channel 20 are gradually close to the wall body through repeated operation in the process, and the wall body is pressurized, so that the two-way pressure is the same, and the wall body can be conveniently and rapidly righted;

after the wall is straightened, the oil outlet valve 23 is opened, so that the oil in the labor-saving channel 20 can flow into the external oil tank, and the mechanism for righting the two sides of the wall can be conveniently detached, and the content which is not described in detail in the specification belongs to the prior art which is well known to the skilled person.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an efficient positioning mechanism that rectifies for wall body for building engineering, the mechanism includes mounting panel (1), its characterized in that: the mounting plate is characterized in that the mounting plate (1) is fixedly connected with supporting blocks (2), a screw rod (3) is connected between the supporting blocks (2) through a bearing, one end of the screw rod (3) is connected with a rocker (4), the screw rod (3) penetrates through the connecting block (5) and is arranged, the lower end of the connecting block (5) is slidably connected with the upper surface of the mounting plate (1), the side surface of the connecting block (5) is connected with a supporting rod (6) through a shaft, the supporting rod (6) is connected onto a supporting rod (7) through a supporting shaft (8) bearing, the supporting rod (7) is connected onto the upper surface of the mounting plate (1) through a shaft, the supporting rod (7) is connected onto one end of a piston rod (9) through a shaft, the other end of the piston rod (9) extends into the main air pipe (10) and is connected with the frame body pipe (12) through a connecting pipe (11), the frame body pipe (12) is provided with a secondary air pipe (13), the secondary air pipe (13) is connected with the liquid inlet channel (16), a piston block (15) is arranged in the secondary air pipe (13), the secondary air pipe (13) is connected with the labor-saving channel (20), a one-way valve (17) is arranged between the secondary air pipe (13) and the labor-saving channel (20), the labor-saving channel (20) is arranged on the supporting table (14), one end of the positioning rod (21) is connected in the labor-saving channel (20), the labor-saving channel (20) is provided with the oil outlet pipe (22), the liquid inlet channel (16) is connected with the oil inlet pipe (18), the oil inlet pipe (18) and the oil outlet pipe (22) are arranged on the supporting table (14), and the oil inlet pipe (18) and the oil outlet pipe (22) are respectively provided with the oil inlet valve (19) and the oil outlet valve (23);

the screw (3) is connected with the connecting blocks (5) in a threaded connection mode, 2 connecting blocks (5) are symmetrically arranged on the screw (3) about the central line of the screw, and the thread directions of the screw (3) on two sides of the central line are opposite;

the supporting rods (6) form a V-shaped structure, and 2 supporting rods (6) are connected with the supporting rod (7) through the same shaft;

the distance between the support shaft (8) and one end, connected with the support ejector rod (6), of the support rod (7) is smaller than the distance between the support shaft (8) and the other end of the support rod (7), and 2 support rods (7) are arranged in a vertically overlapped mode;

the end part of the piston rod (9) extending into the main air pipe (10) is in seamless contact connection with the inner side of the main air pipe (10), and the axes of the piston rod (9) and the main air pipe (10) are arranged in a collinear way;

the frame body pipe (12) is arranged in a C shape, and secondary air pipes (13) are uniformly distributed on the frame body pipe (12);

the inner diameter of the secondary air pipe (13) is smaller than that of the labor-saving channel (20), and the secondary air pipe (13) and the labor-saving channel (20) are arranged in a penetrating way through the liquid inlet channel (16);

when in use, the other ends of the oil inlet valve (19) and the oil outlet valve (23) are connected with an external oil tank; then the rocker (4) is rocked to enable the screw rod (3) to rotate, and then the 2 connecting blocks (5) on the screw rod (3) can move close to each other; the connecting blocks (5) are close to each other, so that a V-shaped included angle formed by the 2 supporting and ejecting rods (6) is reduced, and the supporting rods (7) are extruded; under the action of the supporting shaft (8), one end of the supporting shaft (8) is extruded, so that the other end of the supporting shaft moves in the opposite direction, and the piston rod (9) moves towards the main air pipe (10) step by step; the gas in the main gas pipe (10) is extruded through the piston rod (9), so that the gas can sequentially pass through the connecting pipe (11) and the frame body pipe (12) to enter the secondary gas pipe (13); the gas entering the secondary air pipe (13) extrudes the piston block (15) to enable the piston block (15) to move towards the liquid inlet channel (16), and then the oil liquid in the secondary air pipe (13) is extruded into the labor-saving channel (20) through the liquid inlet channel (16); the oil liquid can be prevented from flowing back through the one-way valve (17); then before the rocker (4) is rotated reversely, the oil inlet valve (19) can be opened, so that when the piston block (15) moves reversely, oil in the oil tank is sucked into the secondary air pipe (13); finally, the positioning rods (21) in the labor-saving channel (20) are gradually close to the wall body through repeated operation of the process, and the wall body is pressurized, so that the two-way pressure is the same, and the wall body can be conveniently and rapidly righted; after the wall is righted, an oil outlet valve (23) is opened.

2. The efficient wall deviation rectifying and positioning mechanism for the building engineering as claimed in claim 1, wherein: the positioning rods (21) are arranged in an I shape, and the positioning rods (21) are uniformly distributed on the supporting table (14).