CN211346782U - Level detecting system for building - Google Patents

Abstract

The utility model discloses a level detection system for buildings, which solves the problem of low detection efficiency of construction surface flatness in the prior art. The utility model comprises a main base, two sides of the main base are provided with arm plates, the arm plates are provided with a lateral leveling mechanism, the lower part of the main base is rotated and provided with a longitudinal leveling mechanism, and the longitudinal leveling mechanism is located in the horizontal leveling mechanism. within the range of the agency's leveling. The utility model measures the horizontal levelness of the construction surface through the horizontal leveling mechanism, and measures the longitudinal levelness of the construction surface through the vertical leveling mechanism; the adjustment of the angle of the longitudinal plate is realized by rotating the stud, which is used for measuring the longitudinal or the range between the transverse and the longitudinal direction. The flatness of the inner construction surface can be measured in two directions at the same time, which improves the measurement efficiency and measurement accuracy.

Description

A building level detection system

technical field

The utility model relates to the technical field of building construction appliances, in particular to a level detection system for buildings.

Background technique

During the construction process, it is necessary to test the flatness of the construction surface. The flatness refers to the deviation value of the longitudinal unevenness of the construction surface. It is one of the main indicators for evaluating the quality of the construction surface, and it is related to the construction quality. The existing horizontal measurement methods include the fixed-length ruler method, the cross-section drawing method and the turbulent accumulation method. The fixed-length ruler method and the turbulent accumulation method require a high degree of combination of manual labor and instruments, which is time-consuming and labor-intensive. To a certain extent, the method does not require manual operation and is relatively accurate, but it also requires the use of corresponding measuring instruments, which is costly. In addition, the existing measurement devices all perform one-way measurement, and the measurement efficiency is not high. Therefore, it is an urgent problem for those skilled in the art to develop a device that can quickly and conveniently perform level detection on the construction surface.

Utility model content

In view of the above-mentioned deficiencies in the background technology, the present invention proposes a level detection system for buildings, which solves the problem that the detection efficiency of the flatness of the construction surface in the prior art is not high.

The technical scheme of the present utility model is realized as follows: a level detection system for construction includes a main base body, two sides of the main base body are provided with arm plates, the arm plates are provided with a transverse leveling mechanism, and the lower part of the main base body is provided with an arm plate. The rotation is provided with a longitudinal leveling mechanism, and the longitudinal leveling mechanism is located within the leveling range of the horizontal leveling mechanism.

The transverse leveling mechanism includes a transverse plate, and the upper center of the transverse plate is provided with a pointer plate, which is hinged to the main seat body and corresponds to the dial set on the main seat body; the lower part of the transverse plate is two A support rod is arranged symmetrically at the end, the support rod passes through the arm plate downward, and a roller is arranged at the bottom of the support rod.

The arm plate is provided with a light hole, the light hole is provided with a spring, the spring extends upward from the arm plate, and the support rod passes through the spring.

The longitudinal leveling mechanism includes a stud, which is threadedly connected to the main seat body, the upper part of the stud is provided with a handle, the lower part of the stud is provided with a connecting seat, the connecting seat is hinged with a longitudinal plate, and the longitudinal plate is provided with air bubbles level.

The longitudinal plate is provided with a guide column, the center of the main base body is symmetrically provided with an arc guide groove, one side of the arc guide groove is provided with a scale, and the guide column passes upward through the arc guide groove.

The central angle of the arc guide groove is 90 degrees.

The utility model measures the horizontal levelness of the construction surface through the horizontal leveling mechanism, and measures the longitudinal levelness of the construction surface through the vertical leveling mechanism; the adjustment of the angle of the longitudinal plate is realized by rotating the stud, which is used for measuring the longitudinal or the range between the transverse and the longitudinal direction. The flatness of the inner construction surface can be measured in two directions at the same time, which improves the measurement efficiency and measurement accuracy. The utility model has ingenious design, can be used for horizontal measurement in two directions at the same time, is simple in operation, improves detection efficiency, and has high practicability.

Description of drawings

In order to illustrate the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without any creative effort.

FIG. 1 is a schematic front view of the longitudinal leveling mechanism of the utility model in a transverse state.

FIG. 2 is a schematic top view of the longitudinal leveling mechanism of the utility model in a transverse state.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

As shown in FIG. 1 , Embodiment 1, a construction level detection system, includes a main base body 1 , two sides of the main base body 1 are symmetrically provided with arm plates 2 , the arm plates are arranged in the transverse direction, and the arm plates 2 are provided with The lateral leveling mechanism 3 is used to measure the lateral levelness of the construction surface. The lower part of the main base body 1 is rotated with a longitudinal leveling mechanism 4, which is used to measure the longitudinal levelness of the construction surface. It does not interfere with the horizontal leveling mechanism, which is convenient for adjusting the angle of the longitudinal leveling mechanism.

Further, the lateral leveling mechanism 3 includes a lateral plate 301, and the upper center of the lateral plate 301 is provided with a pointer plate 302, and the pointer plate 302 protrudes outwards, preferably avoiding the center position of the main base, and the center position is used for Connection of longitudinal leveling mechanism. The pointer plate 302 is hinged to the main base 1 and corresponds to the dial 303 arranged on the main base 1. During the swing of the lateral plate, the pointer plate oscillates with it, and the dial indicates the swing angle of the lateral plate, which is used for Detects horizontal horizontality. The lower two ends of the horizontal plate 301 are symmetrically provided with support rods 304. The support rods 304 pass downward through the arm plate 2. The support rods 304 can move up and down in the vertical direction with the ground conditions. The bottom of the support rods 304 is provided with rollers 305. . The roller is in contact with the construction surface to be tested, moves on the construction surface, moves up and down with the construction surface, drives the horizontal plate to swing, and obtains the horizontal levelness through the pointer and dial.

Preferably, the arm plate 2 is provided with a light hole 201, and a spring 202 is arranged in the light hole 201. The spring 202 extends upward from the arm plate 2 to protect the lateral plate and prevent the lateral surface from colliding with the arm plate; the support rod 304 passes through the arm plate 2. Through the spring 202, the support rod can move up and down in the spring, the spring will not limit the freedom of the support rod, and ensure the support rod can move flexibly. The function of the spring is only to buffer the downward impact force of the lateral plate and prevent it from colliding with the arm plate. .

As shown in FIG. 2 , Embodiment 2 is a building level detection system. The longitudinal leveling mechanism 4 includes a stud 401 . The stud 401 is threadedly connected to the threaded hole on the main base body 1 . A handle 402 is provided, which is convenient for construction personnel to hold and rotate. The lower part of the stud 401 is provided with a connecting seat 403 , a longitudinal plate 404 is hinged on the connecting seat 403 , and a bubble level 405 is arranged on the longitudinal plate 404 . The center of the longitudinal plate is hinged with the connecting seat shaft, and the angle of the longitudinal plate can be adjusted by rotating the stud. Improve measurement efficiency and measurement accuracy.

Further, two guide columns 406 are symmetrically arranged on the longitudinal plate 404, and an arc-shaped guide groove 407 is symmetrically arranged in the center of the main base body 1. The guide columns 406 pass upward through the arc-shaped guide groove 407. There is a scale on one side. The central angle of the arc guide groove 407 is 90 degrees. When the stud is rotated, the guide column slides in the arc guide groove, and adjusts the angle of the longitudinal plate with the scale.

The other structures are the same as in Example 1.

The above are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the within the scope of protection of the present invention.

Claims (6)

1. The utility model provides a level detecting system for building which characterized in that: the horizontal leveling device comprises a main seat body (1), wherein arm plates (2) are arranged on two sides of the main seat body (1), a horizontal leveling mechanism (3) is arranged on the arm plates (2), a vertical leveling mechanism (4) is rotatably arranged on the lower portion of the main seat body (1), and the vertical leveling mechanism (4) is located in the leveling range of the horizontal leveling mechanism (3).

2. The building level detection system according to claim 1, characterized in that: the horizontal leveling mechanism (3) comprises a horizontal plate (301), a pointer disc (302) is arranged at the center of the upper part of the horizontal plate (301), and the pointer disc (302) is hinged with the main seat body (1) and corresponds to a dial (303) arranged on the main seat body (1); two ends of the lower part of the transverse plate (301) are symmetrically provided with supporting rods (304), the supporting rods (304) downwards penetrate through the arm plate (2), and the bottom of each supporting rod (304) is provided with a roller (305).

3. The building level detection system according to claim 2, characterized in that: the arm plate (2) is provided with a light hole (201), a spring (202) is arranged in the light hole (201), the spring (202) extends upwards out of the arm plate (2), and the support rod (304) penetrates through the spring (202).

4. The building level detection system according to any one of claims 1 to 3, characterized in that: the longitudinal leveling mechanism (4) comprises a stud (401), the stud (401) is in threaded connection with the main seat body (1), a handle (402) is arranged on the upper portion of the stud (401), a connecting seat (403) is arranged on the lower portion of the stud (401), a longitudinal plate (404) is hinged to the connecting seat (403), and a bubble level gauge (405) is arranged on the longitudinal plate (404).

5. The building level detection system according to claim 4, characterized in that: the longitudinal plate (404) is provided with a guide post (406), the main seat body (1) is centrally and symmetrically provided with an arc-shaped guide groove (407), one side of the arc-shaped guide groove (407) is provided with scales, and the guide post (406) upwards penetrates through the arc-shaped guide groove (407).

6. The building level detection system according to claim 5, characterized in that: the central angle of the arc-shaped guide groove (407) is 90 degrees.

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