CN213335927U - Building engineering straightness detection device that hangs down - Google Patents

Abstract

The utility model discloses a construction engineering verticality detection device, which comprises a base and a cylinder, wherein a first fixed block is connected above the base, a second fixed block is connected on the first fixed block, two ends of the cylinder are both connected with stop blocks, one of the stop blocks is fixed on the second fixed block, the cylinder is horizontally arranged, the cylinder is sleeved with a cylinder, a connecting plate is connected on the outer circumferential wall of the cylinder, a test column is connected on the connecting plate, at least one side wall of the test column can be contacted with a wall body, a fixed column is connected on the second fixed block, a fixed plate is connected on the fixed column, a first air cylinder is connected on the fixed plate, the output end of the first air cylinder is connected with a pressing block, the pressing block can be contacted with the cylinder and limits the rotation of the cylinder, and the device is used for accurately detecting the verticality of the, use this device simultaneously, can also assist construction worker to carry out the wall brick and build, make the building keep perpendicular at the construction in-process.

Description

Building engineering straightness detection device that hangs down

Technical Field

The utility model relates to a building engineering technical field, concretely relates to building engineering straightness detection device that hangs down.

Background

In the building engineering, the wall body and the column body have great influence on the safety coefficient of a building, so that strict requirements on the perpendicularity of the wall body and the column body in the building are met, and the wall body and the column body need to be frequently subjected to perpendicularity detection in the building process.

The straightness that hangs down of the cylinder that detects the wall body at present generally adopts the plumb line to measure, and the plumb hammer that the plumb line is connected needs the longer time just can be stable, and when the outside was windy or suffered to touch moreover, the plumb hammer rocked easily for measure not accurate, current building engineering straightness detection device that hangs down does not assist the function of carrying out wall brick building simultaneously.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a building engineering straightness detection device that hangs down to in the straightness accurate detection that hangs down of building wall and cylinder uses this device simultaneously, can also assist construction worker to carry out wall brick and build, makes the building keep perpendicularly at the construction in-process.

The utility model provides a building engineering straightness detection device that hangs down, includes base and cylinder, the top of base is connected with first fixed block, be connected with the second fixed block on the first fixed block, the columniform both ends all are connected with blocks, and one of them blocks the piece and fixes on the second fixed block, the cylinder level sets up, and the cover is equipped with the drum on the cylinder, is connected with the connecting plate on the outer circumferential wall of drum, is connected with the test post on the connecting plate, at least one lateral wall of test post can with the wall body contact, be connected with the fixed column on the second fixed block, be connected with the fixed plate on the fixed column, be connected with first cylinder on the fixed plate, the output of first cylinder is connected with the briquetting, the briquetting is located the cylinder top, and first cylinder can drive the briquetting up-and-down motion, and the.

Preferably, an arc-shaped groove is formed in the bottom wall of the pressing block and matched with the outer circumferential wall of the cylinder. In the technical scheme, the bottom wall of the pressing block is provided with an arc-shaped groove, and the arc-shaped groove is matched with the outer circumferential wall of the cylinder, so that the pressing block can better limit the cylinder.

Preferably, the pneumatic control device further comprises a second air cylinder, the second air cylinder is fixed on the first fixing block, the output end of the second air cylinder is connected with the second fixing block, and the second air cylinder can drive the second fixing block to move left and right.

In order to solve the problems, the inventor designs the technical scheme, when the testing device is used in the technical scheme, firstly, a base is placed, a cylinder is kept in a horizontal state, a connecting plate is connected onto the cylinder, a testing column is connected onto the connecting plate, the cylinder can rotate under the action of gravity until the cylinder is static, the testing column is in a vertical state, then a first air cylinder is started, the first air cylinder moves to drive a pressing plate to move to fix the cylinder, the cylinder is prevented from moving, the testing column is kept in the vertical state, then a second air cylinder is started, the side wall of the testing column is in contact with a building wall and a cylinder, the building wall and the cylinder are vertical due to the fact that the testing column is vertical, the testing column is in complete contact with the wall and the cylinder, meanwhile, the testing column can be arranged at a building point, and a worker keeps one side wall of a brick body in complete contact with one side wall of, the building can be ensured to be in a vertical state during the building process.

Preferably, the second cylinder is horizontally disposed.

Preferably, still include the third cylinder, the third cylinder is fixed on the base, and the output and the first fixed block of third cylinder are connected, and the third cylinder can drive first fixed block up-and-down motion. Set up the third cylinder among this technical scheme, can adjust the height of test post, be applicable to multiple environment.

Preferably, the third cylinder is vertically disposed.

Preferably, the first cylinder is vertically disposed.

Preferably, the test column is made of a plastic material. The test column in the technical scheme is made of plastic materials, so that the overall weight is reduced, and the device is better and more portable.

The beneficial effects of the utility model are embodied in: in the technical scheme, the base is arranged, when in use, the base is placed to keep the cylinder in a horizontal state, the cylinder is connected with the connecting plate, the connecting plate is connected with the test column, at the moment, the cylinder can rotate under the action of gravity, until the cylinder is static, the test column is in a vertical state, then the first cylinder is started, the first cylinder moves to drive the press plate to move to fix the cylinder, the cylinder is prevented from moving, the test column is kept in a vertical state, then the second cylinder is started to enable the side wall of the test column to be in contact with the building wall body and the column body, because the testing column is vertical, the building wall and the column body are vertical when the testing column is completely contacted with the wall and the column body, meanwhile, the test column can be arranged at a construction point during construction, and a worker keeps a side wall of the brick body in complete contact with a side wall of the test column during construction, so that the building can be ensured to be in a vertical state during construction.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic view of the overall structure of the present invention.

In the figure, 1-base, 2-first fixed block, 3-second fixed block, 4-column, 5-cylinder, 6-blocking block, 7-pressing block, 8-first cylinder, 9-fixed column, 10-fixed plate, 11-second cylinder, 12-third cylinder, 13-connecting plate, 14-testing column.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

Examples

As shown in fig. 1, the testing device comprises a base 1 and a cylinder 4, a first fixing block 2 is connected above the base 1, a second fixing block 3 is connected on the first fixing block 2, two ends of the cylinder 4 are both connected with blocking blocks 6, one blocking block 6 is fixed on the second fixing block 3, the cylinder 4 is horizontally arranged, a cylinder 5 is sleeved on the cylinder 4, a connecting plate 13 is connected on the outer circumferential wall of the cylinder 5, a testing column 14 is connected on the connecting plate 13, at least one side wall of the testing column 14 can be contacted with a wall body, a fixing column 9 is connected on the second fixing block 3, a fixing plate 10 is connected on the fixing column 9, a first cylinder 8 is connected on the fixing plate 10, an output end of the first cylinder 8 is connected with a pressing block 7, the pressing block 7 is located above the cylinder 4, and the first cylinder 8 can drive the pressing block 7 to move, the pressing piece 7 can contact with the cylinder 5 and restrict the rotation of the cylinder 5.

In this embodiment, an arc-shaped groove is formed in the bottom wall of the pressing block 7, and the arc-shaped groove is matched with the outer circumferential wall of the cylinder 5.

The embodiment also comprises a second cylinder 11, the second cylinder 11 is fixed on the first fixing block 2, the output end of the second cylinder 11 is connected with the second fixing block 3, and the second cylinder 11 can drive the second fixing block 3 to move left and right. The second cylinder 11 is horizontally disposed in this embodiment. The embodiment further comprises a third cylinder 12, the third cylinder 12 is fixed on the base 1, the output end of the third cylinder 12 is connected with the first fixing block 2, and the third cylinder 12 can drive the first fixing block 2 to move up and down. The third cylinder 12 is disposed vertically in this embodiment. The first cylinder 8 is arranged vertically in this embodiment.

In order to make the device as a whole more lightweight, the test column 14 is made of a plastic material in this embodiment.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (8)

1. The building engineering verticality detection device is characterized by comprising a base (1) and a cylinder (4), wherein a first fixed block (2) is connected above the base (1), a second fixed block (3) is connected on the first fixed block (2), two ends of the cylinder (4) are connected with blocking blocks (6), one blocking block (6) is fixed on the second fixed block (3), the cylinder (4) is horizontally arranged, a cylinder (5) is sleeved on the cylinder (4), a connecting plate (13) is connected on the outer circumferential wall of the cylinder (5), a test column (14) is connected on the connecting plate (13), at least one side wall of the test column (14) can be in contact with a wall body, a fixed column (9) is connected on the second fixed block (3), a fixed plate (10) is connected on the fixed column (9), a first air cylinder (8) is connected on the fixed plate (10), the output end of the first air cylinder (8) is connected with a pressing block (7), the pressing block (7) is located above the cylinder (4), the first air cylinder (8) can drive the pressing block (7) to move up and down, and the pressing block (7) can be in contact with the cylinder (5) and limit the rotation of the cylinder (5).

2. The building engineering verticality detection device according to claim 1, wherein the bottom wall of the pressing block (7) is provided with an arc-shaped groove, and the arc-shaped groove is matched with the outer circumferential wall of the cylinder (5).

3. The building engineering verticality detection device according to claim 1, further comprising a second cylinder (11), wherein the second cylinder (11) is fixed on the first fixing block (2), the output end of the second cylinder (11) is connected with the second fixing block (3), and the second cylinder (11) can drive the second fixing block (3) to move left and right.

4. A construction verticality detection device according to claim 3, characterized in that said second cylinder (11) is arranged horizontally.

5. The building engineering verticality detection device according to claim 3, further comprising a third cylinder (12), wherein the third cylinder (12) is fixed on the base (1), an output end of the third cylinder (12) is connected with the first fixing block (2), and the third cylinder (12) can drive the first fixing block (2) to move up and down.

6. A construction perpendicularity detecting device according to claim 5, characterized in that the third cylinder (12) is vertically arranged.

7. A construction verticality detection device according to claim 1, characterized in that said first cylinder (8) is vertically arranged.

8. A construction verticality detection device according to claim 1, wherein the test column (14) is made of plastic material.

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