CN211472614U - Building structures fine setting rectification bracket - Google Patents

Abstract

The utility model discloses a building structure fine adjustment inclination correction bracket, which comprises a bracket component, a transverse damping system and a longitudinal damping system; the transverse shock absorbing system is arranged below the bracket assembly, and the longitudinal shock absorbing system is arranged below the transverse shock absorbing system; the device has the function of supporting and lifting the pad used in the basic rectification engineering. Can prevent to support at the benefit of the pad and lift the in-process and take place the slope damage owing to receive transverse pressure, solve the technical problem who exists when using the stone to carry out the benefit. Can prevent to support at the benefit of the pad and lift the in-process and take place the extrusion fracture owing to receive the longitudinal pressure of applying suddenly, solve the technical problem who exists when using the stone to carry out the benefit. If the structure continues to be settled, the external alarm connected with the pressure-resistant component through signals can be used for knowing so as to carry out remedial operation.

Description

Building structures fine setting rectification bracket

Technical Field

The utility model discloses use and construct the bracket field of rectifying use, specifically be a building structures fine setting bracket of rectifying.

Background

Buildings and structures are collectively referred to as buildings. The artificial environment is created by people by using the grasped substance technical means and applying certain scientific laws, geomantic omen and aesthetic rules in order to meet the needs of social life. Some categories distinguish buildings from non-architectural structures that people do not occupy for a long time in order to clearly express usability, and some architects also intend to subdivide buildings created with people conscious appearance into "buildings" (Architecture) in order to avoid confusion. It should be noted that sometimes buildings may also be extended to include "non-building structures" such as bridges, towers, tunnels, etc. Unlike the interior of a building, which has no internal space available for people to use, a building does not generally have production and living activities directly performed therein, such as a chimney, a water tower, a bridge, a dam, a sculpture and the like.

In the process of building or later maintenance of a building, when the building is deviated, inclined and the like and a to-be-solved flaw is built, the construction needs to correct the building, and common inclination correction methods mainly include two types, namely a forced landing method and a lifting method. When utilizing the lifting method to rectify and inclining, the construction team can utilize large-scale machinery to hoist the settlement side of building structure, can form the space between the bottom surface that the structure subsides the side and the bottom surface this moment and need lift the benefit of filling up, and current construction flow often adopts things such as stone to fill up, nevertheless fills up the benefit process and can take place the lateral sliding skew owing to receive the pressure stone interblock, probably leads to the secondary to subside for rectifying engineering effect is not good, and the difficult control of height of stone is not convenient for implement.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a building structures fine setting bracket of rectifying for rectifying fills up to hold in the palm and lifts in-process pad benefit and receives horizontal and longitudinal pressure and lead to rectifying the not good problem of effect and obtain solving.

In order to solve the technical problem, the utility model discloses a building structure fine tuning rectification bracket, which comprises a bracket component, a transverse damping system and a longitudinal damping system; the transverse shock absorbing system is arranged below the bracket assembly, and the longitudinal shock absorbing system is arranged below the transverse shock absorbing system;

the bracket assembly comprises an L-shaped bracket and a bracket base;

the transverse damping system comprises a transverse damping bottom plate, a first connecting block is arranged on one side of the top of the transverse damping bottom plate, a second connecting block is arranged on the other side of the top of the transverse damping bottom plate, two groups of sliding rails are symmetrically and fixedly connected between the first connecting block and the second connecting block, the bracket base is positioned between the sliding rails and is in sliding connection with the sliding rails on the two sides, and a transverse tensile elastic part is fixedly connected between the bracket base and the second connecting block;

the longitudinal damping system comprises two groups of hydraulic dampers, one ends of the hydraulic dampers are fixedly connected with the transverse damping bottom plate, and the other ends of the hydraulic dampers are fixedly connected with the longitudinal damping bottom plate.

Furthermore, two groups of soft cushion blocks are arranged on the L-shaped bracket.

Furthermore, sliding grooves are formed in the two groups of sliding rails, two groups of sliding rods corresponding to the sliding grooves are symmetrically connected to two sides of the bracket base, the sliding rods are connected with the sliding rails in a sliding mode and can slide in the sliding grooves relative to the sliding rails, and the other ends of the sliding rods are connected with limiting lugs.

Further, vertical shock-absorbing bottom plate top is provided with two sets of resistance to compression subassemblies, the resistance to compression subassembly includes two vertical fixed plates, be connected with the traveller between two vertical fixed plates, and sliding connection has two sliders on the traveller, is connected with elastic steel plate between two sliders, be connected with spacing elastic component between slider and the vertical fixed plate, the slider lower part is provided with the push pedal, is provided with the contact-sensitive switch with the push pedal co-altitude on the vertical fixed plate, and contact-sensitive switch and external alarm signal connection.

The utility model adopts the above technical scheme, following beneficial effect has:

1. the bracket component is arranged, so that the device has the function of supporting and lifting the shimmy used by the basic rectification engineering.

2. Make the device can prevent to lift the in-process at the benefit support and take place the slope damage owing to receive horizontal pressure through setting up horizontal shock mitigation system, solved the technical problem who exists when using the stone to carry out the benefit.

3. Make the device can prevent to lift the in-process at the benefit support and take place the extrusion fracture owing to receive the longitudinal pressure of exerting suddenly through setting up vertical shock mitigation system, solved the technical problem who exists when using the stone to carry out the benefit.

4. After the pressure-resistant assembly is arranged, if the structure continues to subside after the rectification operation, the structure can be informed through an external alarm connected with the pressure-resistant assembly in a signal mode so as to carry out remediation operation.

Drawings

The present invention will be described in further detail with reference to the following drawings and embodiments:

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

FIG. 2 is a side view of the structure of the present invention;

FIG. 3 is a schematic view of the position of the sliding slot and the sliding rod of the present invention;

fig. 4 is a structural view of the compression-resistant assembly of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention.

As shown in fig. 1-4, the present invention provides a building structure fine tuning rectification bracket, which comprises a bracket assembly 1, a transverse shock absorbing system 2 and a longitudinal shock absorbing system 3; the transverse damping system 2 is arranged below the bracket assembly 1, and the longitudinal damping system 3 is arranged below the transverse damping system 2; the bracket assembly 1 comprises an L-shaped bracket 11 and a bracket base 12, and two groups of soft cushion blocks 13 are arranged on the L-shaped bracket 11, so that the device has the function of supporting and lifting a shim used in basic rectification engineering. The transverse damping system 2 comprises a transverse damping bottom plate 21, a first connecting block 22 is arranged on one side of the top of the transverse damping bottom plate 21, a second connecting block 23 is arranged on the other side of the top of the transverse damping bottom plate 21, two groups of sliding rails 24 are symmetrically and fixedly connected between the first connecting block 22 and the second connecting block 23, the bracket base 12 is positioned between the sliding rails 24, the bracket base 12 is in sliding connection with the sliding rails 24 on two sides, sliding grooves 241 are formed in the two groups of sliding rails 24, two groups of sliding rods 121 corresponding to the sliding grooves 241 are symmetrically connected to two sides of the bracket base 12, the sliding rods 121 are in sliding connection with the sliding rails 24 and can slide relative to the sliding rails 24 in the sliding grooves 241, and the other; fixedly connected with horizontal tensile elastic component 25 between bracket base 12 and the second connecting block 23 for the device can prevent to take place to incline to destroy owing to receive transverse pressure at the benefit support in-process of lifting, has solved the technical problem who exists when using the stone to carry out the benefit. Vertical shock mitigation system 3 includes two sets of hydraulic shock absorbers 31, hydraulic shock absorber 31 one end and horizontal vibration damping mount 21 fixed connection, and vertical vibration damping mount 32 of its other end fixed connection for the device can prevent to lift the in-process at the benefit of filling up and take place extrusion fracture owing to receive the longitudinal pressure of applying suddenly, has solved the technical problem who uses the stone to fill up and exist when filling up. Two groups of pressure-resistant components 33 are arranged at the top of the longitudinal damping bottom plate 32, so that after the rectification operation, if the structure continues to subside, the structure can be informed through an external alarm connected with the pressure-resistant components through signals to perform remediation operation. The pressure-resistant assembly 33 comprises two vertical fixing plates 331, a sliding column 332 is connected between the two vertical fixing plates 331, and two sliding blocks 333 are slidably connected on the sliding column 332, an elastic steel plate 334 is connected between the two sliding blocks 333, a limiting elastic part 335 is connected between the sliding block 333 and the vertical fixing plates 331, a push plate 336 is arranged on the lower portion of the sliding block 333, a contact inductive switch 337 is arranged on the vertical fixing plate 331 at the same height as the push plate 336, the contact inductive switch 337 is in signal connection with an external alarm, the alarm is a mechanical existing component, and the connection mode, the installation mode and the use control mode are common knowledge of technicians in the field, and therefore the details are not repeated herein.

When the device is used, when the device is used for rectifying the inclination by using a lifting method, a construction team can lift the settlement side of a building by using a large-scale machine, a space is formed between the bottom surface and the bottom surface of the settlement side of the building, the lifting and the padding are needed, the device is placed on the bottom surface of the settlement side of the building, the constructed settlement side falls on the L-shaped bracket 11, the cushion block 13 damps the constructed settlement side in the process, the cushion block is quickly and accurately positioned on the L-shaped bracket 11 under the guidance of the cushion block 13, the lifting and the padding of the rectifying structure are completed, the structure generates two lateral outward and longitudinal downward forces on the device in the placing process, when the lateral force is applied, the L-shaped bracket 11 pushes the bracket base 12 to slide laterally on the slide rail 24, the slide bar 121 slides in the slide groove 241 in the process, and the lateral tensile elastic piece 25 is stretched to deform, to perform a lateral shock absorbing operation. When subjected to a longitudinal downward force, the carriage assembly 1 and the lateral damping system 2 move downward to compress the hydraulic damper 31 for longitudinal damping. When the structure continues to be settled and inclined in use, the transverse damping bottom plate 21 moves downwards, when the transverse damping bottom plate 21 is in contact with the elastic steel plate 334, the elastic steel plate 334 deforms to push the sliding blocks 333 to slide towards two sides, the push plate 336 slides towards two sides to extrude the contact sensing switch 337, so that an external alarm connected with the push plate can give an alarm, and a construction team can timely perform remedial operation after knowing.

The above embodiments are the embodiments of the present invention, and for those skilled in the art, according to the teaching of the present invention, the equivalent changes, modifications, replacements and variations made by the claims of the present invention should all belong to the scope of the present invention without departing from the principle and spirit of the present invention.

Claims (4)

1. The utility model provides a building structures fine setting rectification bracket which characterized in that: the damping device comprises a bracket assembly (1), a transverse damping system (2) and a longitudinal damping system (3); the transverse damping system (2) is arranged below the bracket component (1), and the longitudinal damping system (3) is arranged below the transverse damping system (2);

the bracket assembly (1) comprises an L-shaped bracket (11) and a bracket base (12);

the transverse damping system (2) comprises a transverse damping bottom plate (21), a first connecting block (22) is arranged on one side of the top of the transverse damping bottom plate (21), a second connecting block (23) is arranged on the other side of the top of the transverse damping bottom plate (21), two groups of sliding rails (24) are symmetrically and fixedly connected between the first connecting block (22) and the second connecting block (23), the bracket base (12) is located between the sliding rails (24), the bracket base (12) is in sliding connection with the sliding rails (24) on the two sides, and a transverse tensile elastic piece (25) is fixedly connected between the bracket base (12) and the second connecting block (23);

the longitudinal damping system (3) comprises two groups of hydraulic dampers (31), one ends of the hydraulic dampers (31) are fixedly connected with the transverse damping bottom plate (21), and the other ends of the hydraulic dampers (31) are fixedly connected with the longitudinal damping bottom plate (32).

2. A building structure fine adjustment rectification bracket as claimed in claim 1, wherein: and two groups of soft cushion blocks (13) are arranged on the L-shaped bracket (11).

3. A building structure fine adjustment rectification bracket as claimed in claim 1, wherein: sliding grooves (241) are formed in the two sets of sliding rails (24), two sets of sliding rods (121) corresponding to the sliding grooves (241) are symmetrically connected to the two sides of the bracket base (12), the sliding rods (121) are connected with the sliding rails (24) in a sliding mode and can slide in the sliding grooves (241) relative to the sliding rails (24), and the other ends of the sliding rods (121) are connected with limiting convex blocks (122).

4. A building structure fine adjustment rectification bracket as claimed in claim 1, wherein: vertical damper bottom plate (32) top is provided with two sets of resistance to compression subassemblies (33), resistance to compression subassembly (33) includes two vertical fixed plates (331), be connected with traveller (332) between two vertical fixed plates (331), and sliding connection has two slider (333) on traveller (332), is connected with elastic steel board (334) between two slider (333), be connected with spacing elastic component (335) between slider (333) and vertical fixed plate (331), slider (333) lower part is provided with push pedal (336), is provided with contact inductive switch (337) with push pedal (336) co-altitude on vertical fixed plate (331), and contact inductive switch (337) and external alarm signal connection.

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