CN216870166U - Structure for improving stability of strain method detection system - Google Patents

Abstract

The utility model discloses a structure for improving the stability of a strain method detection system, which comprises a system bracket and a U-shaped bracket, wherein the top of the system bracket is connected with an inclined-well-shaped bracket, and the U-shaped bracket is arranged on the outer side surface of the inclined-well-shaped bracket in a penetrating manner. This improve structure of method of meeting an emergency detecting system stability carries out concrete placement's method through the system support for among the high method of meeting an emergency detecting system, can improve whole high method of meeting an emergency detecting system's stability, system support focus moves down, the chassis is more stable, can guarantee again that test in-process personnel, instruments, equipment etc. are safe, system support focus moves down simultaneously, the chassis is more stable, make the crane davit atress no longer, thereby guarantee test in-process personnel, instruments, equipment etc. safety, the guarantee of having safety, the experimenter can carry out standard test according to actual demand, test quality is not disturbed, the testing result is more accurate.

Description

Structure for improving stability of strain method detection system

Technical Field

The utility model relates to the technical field of engineering infrastructure detection, in particular to a structure for improving the stability of a strain method detection system.

Background

Whether the support guide frame of the hammering system is safe or not is directly related to the signal quality and the safety of a field test. The heavy hammer of the unsupported guide frame cannot be centered, so that hammering is seriously eccentric, and the amplitude deviation of test strain and speed signals is overlarge or the tested signals cannot be adopted due to serious eccentricity. Firm support leading truck can install to the stake center when hoist and mount, and the stable centering of hammering device is perpendicular, hammering to guarantee that hammer core, stake center remain to install on a straight line, reduce the hammering eccentric, avoid beating garrulous pile head, cause the local fracture of pile foundation, destroy, phenomena such as the boron collapses. Hammer eccentricity corresponds to the absolute value of the difference between one of the two side force signals and the force average exceeding 33% of the average, so that the specification strictly prohibits the use of a single side force signal instead of an average force signal.

The stability of the detection system in the market has the defects that an operator needs to operate or hammer in a range close to the equipment, and safety guarantee is lacked.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a structure for improving the stability of a strain-method detection system, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: the structure for improving the stability of the strain method detection system comprises a system support and a U-shaped support, wherein the top of the system support is connected with an inclined-well-shaped support, and the U-shaped support penetrates through the outer side surface of the inclined-well-shaped support.

Preferably, the inclined shaft-shaped supports are symmetrically distributed about the center of the top of the system support, the inclined shaft-shaped supports are tightly attached to each other, and four groups of the inclined shaft-shaped supports are arranged.

Preferably, the system support and the inclined shaft-shaped support are both hollow, and concrete is filled in the system support.

Preferably, the system support inboard is installed and is used for reinforced (rfd) auxiliary assembly, just auxiliary assembly includes base plate, damping axle, limiting plate, antiskid sheet and reinforcing pile, the base plate bottom is connected with the damping axle, just the damping axle external connection has the limiting plate, the limiting plate surface is connected with the antiskid sheet, just the limiting plate surface is worn to be equipped with reinforcing pile.

Preferably, the limiting plate is rotatably connected with the base plate through the damping shaft, and the base plate is consistent with the base plate in shape and size.

Preferably, the reinforcing piles penetrate through the limiting plate and the two sides of the anti-slip sheet, and six groups of the reinforcing piles are arranged.

The utility model provides a structure for improving the stability of a strain method detection system, which has the following beneficial effects:

1. this improve structure of method of meeting an emergency detecting system stability, through the method of carrying out concrete placement for the system support among the high strain method detecting system, can improve whole high strain method detecting system's stability, the system support focus moves down, the chassis is more stable, can guarantee again that test in-process personnel, instruments, equipment etc. are safe, the system support focus moves down simultaneously, the chassis is more stable, make the crane davit atress no longer, thereby guarantee test in-process personnel, instruments, equipment etc. safety, the guarantee of having safety, the experimenter can carry out standard test according to actual demand, test quality is not disturbed, the testing result is more accurate.

2. According to the device, the system bracket and the auxiliary assembly are matched with each other, the limiting plate rotates and expands along the damping shaft, the surface of the limiting plate can be in contact with the mounting surface, the friction coefficient between the limiting plate and the mounting surface can be improved by matching with the anti-slip sheet, and the reinforcing pile penetrates through the limiting plate and extends into the mounting surface, so that the firmness of the bottom of the device can be improved, and the health and safety of testers are further guaranteed.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a structure for improving the stability of a strain detection system according to the present invention;

FIG. 2 is a schematic cross-sectional view of a system support of the present invention configured to improve the stability of a strain gauge detection system;

fig. 3 is a schematic structural diagram of an auxiliary assembly of a structure for improving the stability of a strain detection system according to the present invention.

In the figure: 1. a system support; 2. a slant well shaped bracket; 3. a U-shaped bracket; 4. concrete; 5. an auxiliary component; 501. a substrate; 502. a damping shaft; 503. a limiting plate; 504. anti-slip sheets; 505. and (6) reinforcing the piles.

Detailed Description

As shown in figures 1-3, a structure for improving the stability of a strain method detection system comprises a system bracket 1 and a U-shaped bracket 3, wherein the top of the system bracket 1 is connected with an inclined shaft-shaped bracket 2, the U-shaped bracket 3 is arranged on the outer side surface of the inclined shaft-shaped bracket 2 in a penetrating way,

referring to fig. 1-2, the inclined shaft type brackets 2 are symmetrically distributed about the top center position of the system bracket 1, the inclined shaft type brackets 2 are tightly attached to each other, four groups of the inclined shaft type brackets 2 are provided, the system bracket 1 and the inclined shaft type brackets 2 are both hollow, the system bracket 1 is filled with concrete 4, the system bracket 1 in the high strain method detection system is filled with concrete 4, so that the stability of the whole high strain method detection system can be improved, the gravity center of the system bracket 1 moves downwards, the chassis is more stable, the safety of personnel, instruments, equipment and the like in the test process can be ensured, the gravity center of the system bracket 1 moves downwards, the chassis is more stable, the crane is not stressed any more, the safety of personnel, instruments, equipment and the like in the test process can be ensured, the safety guarantee is provided, and the test personnel can carry out standard tests according to actual requirements, the test quality is not interfered, and the detection result is more accurate.

Referring to fig. 1 and 3, an auxiliary assembly 5 for reinforcement is installed inside the system bracket 1, and the auxiliary assembly 5 is composed of a base plate 501, a damping shaft 502, a limiting plate 503, a non-slip sheet 504 and a reinforcing pile 505,

wherein the bottom of the base plate 501 is connected with a damping shaft 502, the outside of the damping shaft 502 is connected with a limiting plate 503, the outer surface of the limiting plate 503 is connected with an anti-skid sheet 504, the surface of the limit plate 503 is provided with a reinforcing pile 505 in a penetrating way, the limit plate 503 is rotationally connected with the base plate 501 through a damping shaft 502, the shape and size of the base plate 501 are the same as those of the base plate 501, the reinforcing piles 505 penetrate through the limiting plate 503 and the anti-slip sheet 504, and six groups of the reinforcing piles 505 are provided, through the mutual matching arrangement between the system bracket 1 and the auxiliary assembly 5, the limit plate 503 is rotated and unfolded along the damping shaft 502, and the surface of the limiting plate 503 can contact with the installation surface, the friction coefficient with the installation surface can be improved by matching with the anti-slip sheet 504, then the reinforcing piles 505 penetrate through the limiting plate 503 and extend to the inside of the installation surface, thereby can promote the fastness of the device bottom, further ensure testing personnel's health and safety.

In conclusion, the structure for improving the stability of the strain method detection system is used, firstly, the limiting plate 503 is rotated and unfolded along the damping shaft 502, the surface of the limiting plate 503 can be in contact with the installation surface, the friction coefficient with the installation surface can be improved by matching with the anti-slip sheet 504, then the firmness of the bottom of the system bracket 1 can be improved by penetrating the reinforcing pile 505 into the limiting plate 503 and extending the reinforcing pile into the installation surface, the system bracket 1 is filled with concrete 4, the stability of the whole high strain method detection system can be improved, the top of the system bracket 1 is provided with the inclined well-shaped brackets 2 which are symmetrically distributed, every two inclined well-shaped brackets 2 are fixedly connected through the U-shaped brackets 3, the integral stability can be improved, the concrete 4 is filled into the system bracket 1, the gravity center of the system bracket 1 is moved downwards, the chassis is more stable, and personnel in the test process can be ensured, The gravity center of the system support 1 moves downwards, the chassis is more stable, the crane boom is not stressed any more, safety of personnel, instruments, equipment and the like in the test process is guaranteed, safety guarantee is provided, the tester can carry out standard test according to actual requirements, test quality is not interfered, and the test result is more accurate.

Claims (6)

1. The utility model provides an improve structure of straying method detecting system stability, includes system support (1) and U-shaped support (3), its characterized in that, system support (1) top is connected with inclined shaft shape support (2), U-shaped support (3) wear to locate the outside surface of inclined shaft shape support (2).

2. The structure for improving the stability of the strain method detection system according to claim 1, wherein the inclined shaft-shaped supports (2) are symmetrically distributed about the top center position of the system support (1), the inclined shaft-shaped supports (2) are tightly attached to each other, and four groups of the inclined shaft-shaped supports (2) are arranged.

3. The structure for improving the stability of the strain method detection system according to claim 1, wherein the system support (1) and the inclined shaft-shaped support (2) are hollow, and the system support (1) is filled with concrete (4).

4. The structure for improving the stability of the strain method detection system according to claim 1, wherein an auxiliary assembly (5) for reinforcement is installed on the inner side of the system support (1), the auxiliary assembly (5) comprises a substrate (501), a damping shaft (502), a limiting plate (503), an anti-slip sheet (504) and a reinforcing pile (505), the damping shaft (502) is connected to the bottom of the substrate (501), the limiting plate (503) is connected to the outer portion of the damping shaft (502), the anti-slip sheet (504) is connected to the outer surface of the limiting plate (503), and the reinforcing pile (505) penetrates through the surface of the limiting plate (503).

5. The structure for improving the stability of the strain method detection system according to claim 4, wherein the limiting plate (503) is rotatably connected with the substrate (501) through the damping shaft (502), and the substrate (501) is consistent with the substrate (501) in shape and size.

6. The structure for improving the stability of the strain method detection system according to claim 4, wherein the reinforcing piles (505) penetrate through the limiting plate (503) and the anti-slip sheet (504) at two sides, and six groups of the reinforcing piles (505) are provided.

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