CN216108655U - High-stability shockproof mechanism for building site foundation - Google Patents

Abstract

The utility model relates to the technical field of buildings and discloses a high-stability quakeproof mechanism for a building site foundation. This high shockproof mechanism for building site foundation of stability, through installing vertical alloy support bar and horizontal alloy support bar, the two can arrange and install a braced frame, vertical alloy support bar plays the supporting role to the installation roof, and can make the power homodisperse that the installation roof received to every vertical alloy support bar, play first heavy power cushioning effect of unloading, and horizontal alloy support bar mainly plays the support fixed action to vertical alloy support bar, prevent that vertical alloy support bar atress from taking place deformation, first stiffening rib and the second stiffening rib that is triangular distribution through installing a plurality of, can further increase first firm mechanism's compactness and steadiness, further increase the shock attenuation effect of this device to the foundation simultaneously.

Description

High-stability shockproof mechanism for building site foundation

Technical Field

The utility model relates to the technical field of buildings, in particular to a high-stability quakeproof mechanism for a building site foundation.

Background

The objects of the building include integrated environment design and construction such as regional planning, urban planning, landscape design, etc., related construction processes before community formation, and the production of furniture and small articles from indoor to indoor, while the general objects are units in a certain field, and in the scope of architecture and civil engineering, the building refers to the process of building or developing infrastructure, and generally, each building project is generally managed by a special case manager and an architect, and is supervised by professionals (professionals) such as underwriters, judges (Sub-classifiers), engineering consultants, builders, material measuring engineers, structural engineers, etc. at all levels.

The foundation of current building site can receive certain impact at the work progress for the foundation produces vibrations, need consolidate it and takes precautions against earthquakes, and the most simple structure of current shockproof mechanism, therefore the shock resistance can not be good, and stability is not enough.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to provide a high-stability earthquake-proof mechanism for a building site foundation, which aims to solve the problems that the foundation of the existing building site is impacted to a certain degree during the construction process, so that the foundation vibrates and needs to be reinforced and earthed, and most of the existing earthquake-proof mechanisms are simple in structure, so that the earthquake-proof performance is poor and the stability is not enough.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a high shockproof mechanism for building site ground of stability, is including installation roof, first stabilizing mean, second stabilizing mean, third stabilizing mean and fourth stabilizing mean, first stabilizing mean is located the lower extreme of installation roof, second stabilizing mean is located the lower extreme of first stabilizing mean, third stabilizing mean is located first stabilizing mean both ends from beginning to end, fourth stabilizing mean is located first stabilizing mean's the left and right sides, first stabilizing mean includes longitudinal alloy support bar and horizontal alloy support bar, the lower extreme fixed mounting of installation roof has longitudinal alloy support bar, the inner fixed mounting of longitudinal alloy support bar has horizontal alloy support bar.

Preferably, vertical alloy support bar equidistance is arranged in the lower extreme of installation roof, horizontal alloy support bar equidistance is arranged in the inner of vertical alloy support bar, horizontal alloy support bar is the rectangle structure, through installing vertical alloy support bar and horizontal alloy support bar, the two can arrange and install braced frame, vertical alloy support bar plays the supporting role to the installation roof, and can make the power homodisperse that the installation roof received to every vertical alloy support bar, play first heavy unloading power cushioning effect, and horizontal alloy support bar mainly plays the support fixed action to vertical alloy support bar, prevents that vertical alloy support bar atress from taking place deformation, influences the steadiness of structure.

Preferably, the second stabilizing mechanism includes bottom alloy support bar, the inner fixed mounting of horizontal alloy support bar has bottom alloy support bar, bottom alloy support bar equidistance is arranged in first stabilizing mechanism's below, through installation bottom alloy support bar, can increase the area of contact of first stabilizing mechanism and ground, further improves the steadiness of device.

Preferably, the third stabilizing mechanism comprises a first reinforcing rib and a second reinforcing rib, the first reinforcing rib is fixedly mounted at the inner end of the longitudinal alloy supporting strip, the second reinforcing rib is fixedly mounted at the inner end of the transverse alloy supporting strip, and the strength of the first stabilizing mechanism comprising the longitudinal alloy supporting strip and the transverse alloy supporting strip can be increased by mounting the first reinforcing rib and the second reinforcing rib.

Preferably, first stiffening rib and second stiffening rib are the triangle-shaped structure, first stiffening rib and second stiffening rib equidistance are arranged in the inner of first firm mechanism, through installing a plurality of first stiffening ribs and the second stiffening rib that are triangular distribution, can increase the compactness and the steadiness of erection joint between vertical alloy support strip and the horizontal alloy support strip.

Preferably, the fourth stabilizing mechanism comprises a mounting hole, a positioning column and a positioning cone, the mounting hole is fixedly formed in the upper end of the mounting top plate, the mounting holes are symmetrically distributed in the left side and the right side of the upper end of the mounting top plate, and the mounting top plate and the foundation can be conveniently and fixedly connected through the fastener by means of the mounting holes.

Preferably, the lower extreme fixed mounting of installation roof has the reference column, the reference column equidistance is arranged in the lower extreme of installation roof, the reference column symmetric distribution is in the left and right sides of installation roof lower extreme, the lower extreme fixed mounting of reference column has the location awl, through installation reference column and location awl, can conveniently fix a position the installation roof, makes things convenient for the installation of this device more.

Compared with the prior art, the utility model has the beneficial effects that:

this high shockproof mechanism for building site foundation of stability, through installing vertical alloy support bar and horizontal alloy support bar, the two can arrange and install a braced frame, vertical alloy support bar plays the supporting role to the installation roof, and can make the power homodisperse that the installation roof received to every vertical alloy support bar, play first heavy power cushioning effect of unloading, and horizontal alloy support bar mainly plays the support fixed action to vertical alloy support bar, prevent that vertical alloy support bar atress from taking place deformation, through installing a plurality of first stiffening ribs and the second stiffening rib that are triangular distribution, can further increase erection joint's compactness and steadiness between vertical alloy support bar and the horizontal alloy support bar, further increase the shock attenuation effect of this device to the foundation simultaneously.

Drawings

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

FIG. 2 is a schematic perspective view of a first stabilizing mechanism according to the present invention;

FIG. 3 is a schematic perspective view of a fourth stabilizing mechanism according to the present invention;

FIG. 4 is a perspective view of a third fixing mechanism of the present invention.

In the figure: 1. installing a top plate; 2. a first stabilizing mechanism; 201. longitudinal alloy support bars; 202. a transverse alloy support bar; 3. a second stabilizing mechanism; 301. a bottom alloy support bar; 4. a third stabilizing mechanism; 401. a first reinforcing rib; 402. a second reinforcing rib; 5. a fourth securing mechanism; 501. mounting holes; 502. a positioning column; 503. and (5) positioning a cone.

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. 1-4, the present invention provides a technical solution: a high-stability shockproof mechanism for a foundation of a construction site comprises an installation top plate 1, a first stabilizing mechanism 2, a second stabilizing mechanism 3, a third stabilizing mechanism 4 and a fourth stabilizing mechanism 5, wherein the first stabilizing mechanism 2 is positioned at the lower end of the installation top plate 1, the second stabilizing mechanism 3 is positioned at the lower end of the first stabilizing mechanism 2, the third stabilizing mechanism 4 is positioned at the front end and the rear end of the first stabilizing mechanism 2, the fourth stabilizing mechanism 5 is positioned at the left side and the right side of the first stabilizing mechanism 2, the first stabilizing mechanism 2 comprises a longitudinal alloy supporting strip 201 and a transverse alloy supporting strip 202, the longitudinal alloy supporting strip 201 is fixedly installed at the lower end of the installation top plate 1, and the transverse alloy supporting strip 202 is fixedly installed at the inner end of the longitudinal alloy supporting strip 201;

the longitudinal alloy support bars 201 are equidistantly arranged at the lower end of the installation top plate 1, the transverse alloy support bars 202 are equidistantly arranged at the inner ends of the longitudinal alloy support bars 201, the transverse alloy support bars 202 are of a rectangular structure, the longitudinal alloy support bars 201 and the transverse alloy support bars 202 can be matched and installed into a support frame, the longitudinal alloy support bars 201 support the installation top plate 1, the force borne by the installation top plate 1 can be uniformly dispersed to each longitudinal alloy support bar 201 to play a role in buffering the first stress relief, the transverse alloy support bars 202 mainly play a role in supporting and fixing the longitudinal alloy support bars 201 to prevent the longitudinal alloy support bars 201 from being stressed and deformed to influence the structural stability, the second stabilizing mechanism 3 comprises bottom alloy support bars 301, and the bottom alloy support bars 301 are fixedly installed at the inner ends of the transverse alloy support bars 202, the alloy support bars 301 at the bottom are equidistantly arranged below the first stabilizing mechanism 2, the contact area between the first stabilizing mechanism 2 and the foundation can be increased by installing the alloy support bars 301 at the bottom, the stability of the device is further improved, the third stabilizing mechanism 4 comprises a first reinforcing rib 401 and a second reinforcing rib 402, the first reinforcing rib 401 is fixedly installed at the inner end of the longitudinal alloy support bar 201, the second reinforcing rib 402 is fixedly installed at the inner end of the transverse alloy support bar 202, the strength of the first stabilizing mechanism 2 comprising the longitudinal alloy support bar 201 and the transverse alloy support bar 202 can be increased by installing the first reinforcing rib 401 and the second reinforcing rib 402, the first reinforcing rib 401 and the second reinforcing rib 402 are in a triangular structure, the first reinforcing rib 401 and the second reinforcing rib 402 are equidistantly arranged at the inner end of the first stabilizing mechanism 2, and by installing a plurality of first reinforcing ribs 401 and second reinforcing ribs 402 which are in triangular distribution, the tightness and the stability of the installation connection between the longitudinal alloy supporting strips 201 and the transverse alloy supporting strips 202 can be improved;

fourth stabilizing mean 5 includes mounting hole 501, reference column 502 and location awl 503, the fixed mounting hole 501 that is provided with in upper end of installation roof 1, mounting hole 501 symmetric distribution is in the left and right sides of installation roof 1 upper end, through setting up mounting hole 501, can conveniently pass through fastener fixed connection with installation roof 1 and ground, the lower extreme fixed mounting of installation roof 1 has reference column 502, reference column 502 equidistance is arranged in the lower extreme of installation roof 1, reference column 502 symmetric distribution is in the left and right sides of installation roof 1 lower extreme, the lower extreme fixed mounting of reference column 502 has location awl 503, through installation reference column 502 and location awl 503, can conveniently fix a position installation roof 1, make things convenient for the installation of this device more.

The working principle is as follows: firstly, the positioning column 502 and the positioning cone 503 are utilized to position and place the device to a proper position of a foundation, then the mounting top plate 1 and the surface of the foundation are fixed together by utilizing a fastening bolt and the like, when the foundation is impacted by external force, the force borne by the foundation and the mounting top plate 1 is uniformly dispersed to each longitudinal alloy supporting strip 201 to play a role in buffering the first heavy unloading force, the transverse alloy supporting strip 202 mainly plays a role in supporting and fixing the longitudinal alloy supporting strip 201 to prevent the longitudinal alloy supporting strip 201 from deforming under stress, meanwhile, the bottom alloy supporting strip 301 is mounted to increase the contact area of the first stabilizing mechanism 2 and the foundation, and the first reinforcing ribs 401 and the second reinforcing ribs 402 which are distributed in a triangular shape can increase the tightness and the stability of the mounting connection between the longitudinal alloy supporting strip 201 and the transverse alloy supporting strip 202.

Finally, it should be noted that the above-mentioned contents are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, and that the simple modifications or equivalent substitutions of the technical solutions of the present invention by those of ordinary skill in the art can be made without departing from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. The utility model provides a high building site is shockproof mechanism for ground of stability, includes installation roof (1), first stabilizing mean (2), second stabilizing mean (3), third stabilizing mean (4) and fourth stabilizing mean (5), its characterized in that: first stabilizing mean (2) is located the lower extreme of installation roof (1), second stabilizing mean (3) is located the lower extreme of first stabilizing mean (2), third stabilizing mean (4) is located both ends around first stabilizing mean (2), fourth stabilizing mean (5) is located the left and right sides of first stabilizing mean (2), first stabilizing mean (2) is including vertical alloy support bar (201) and horizontal alloy support bar (202), the lower extreme fixed mounting of installation roof (1) has vertical alloy support bar (201), the inner fixed mounting of vertical alloy support bar (201) has horizontal alloy support bar (202).

2. The quake-proof mechanism for the building site foundation with high stability as claimed in claim 1, wherein: vertical alloy support bar (201) equidistance is arranged in the lower extreme of installation roof (1), horizontal alloy support bar (202) equidistance is arranged in the inner of vertical alloy support bar (201), horizontal alloy support bar (202) are the rectangle structure.

3. The quakeproof mechanism for the building site foundation with high stability as claimed in claim 2, wherein: second stabilizing mean (3) includes bottom alloy support bar (301), the inner fixed mounting of horizontal alloy support bar (202) has bottom alloy support bar (301), bottom alloy support bar (301) equidistance is arranged in the below of first stabilizing mean (2).

4. The quake-proof mechanism for the building site foundation with high stability as claimed in claim 3, wherein: the third stabilizing mechanism (4) comprises a first reinforcing rib (401) and a second reinforcing rib (402), the inner end of the longitudinal alloy supporting strip (201) is fixedly provided with the first reinforcing rib (401), and the inner end of the transverse alloy supporting strip (202) is fixedly provided with the second reinforcing rib (402).

5. The quake-proof mechanism for the building site foundation with high stability as claimed in claim 4, wherein: the first reinforcing rib (401) and the second reinforcing rib (402) are of triangular structures, and the first reinforcing rib (401) and the second reinforcing rib (402) are arranged at the inner end of the first stabilizing mechanism (2) at equal intervals.

6. The quake-proof mechanism for the building site foundation with high stability as claimed in claim 5, wherein: the fourth stabilizing mechanism (5) comprises a mounting hole (501), a positioning column (502) and a positioning cone (503), the mounting hole (501) is fixedly arranged at the upper end of the mounting top plate (1), and the mounting holes (501) are symmetrically distributed at the left side and the right side of the upper end of the mounting top plate (1).

7. The quake-proof mechanism for the building site foundation with high stability as claimed in claim 6, wherein: the lower extreme fixed mounting of installation roof (1) has reference column (502), reference column (502) equidistance is arranged in the lower extreme of installation roof (1), reference column (502) symmetric distribution is in the left and right sides of installation roof (1) lower extreme, the lower extreme fixed mounting of reference column (502) has location awl (503).

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