CN220356368U - Building engineering straightness detection device that hangs down - Google Patents

Abstract

The utility model relates to the technical field of constructional engineering, in particular to a constructional engineering verticality detection device. The technical proposal comprises: the inside rotation of mount detects the dish, and the cavity has been seted up to the inboard rotation of mount, and the inside of cavity is rotated through the bull stick and is installed the buoyancy ball, and the cavity inner wall fixed mounting of buoyancy ball rear end has the solid fixed ring, and the both sides fixedly connected with support frame of mount, the inside movable mounting of support frame have movable block, and the inboard fixed mounting of movable block has the activity stake that extends to the mount inboard. The utility model can detect verticality through the mutual coordination between the fixing frame and the detection disc, can conveniently and accurately detect buildings with different inclinations, can conveniently adjust the supporting range of the supporting seat through the mutual coordination among the supporting frame, the movable teeth, the fixed teeth and the movable rod, can conveniently store, and can reduce occupied space.

Description

Building engineering straightness detection device that hangs down

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a constructional engineering verticality detection device.

Background

The building engineering refers to engineering entities formed by the construction of various house buildings and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the house buildings, wherein the house buildings refer to projects which are provided with top covers, beam columns, walls and foundations and can form inner spaces, and meet the requirements of people on production, living, study and public activities, the verticality of the buildings is required to be detected in the construction process of the building engineering, and the verticality of the buildings is required to be detected by using the building engineering verticality detection device, but the building engineering verticality detection device with similar structures still has a plurality of defects in practical use, such as: the existing verticality detection device can only detect the verticality of a building, is inconvenient to detect the flatness of the building with different angles, has a single detection range, is long in size, does not have the function of shrinking to reduce occupied space, and is inconvenient to adjust the detection length according to the building type.

Disclosure of Invention

The utility model aims to provide a device for detecting the verticality of a building engineering, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building engineering straightness detection device that hangs down, includes mount, detection dish and support frame, the inboard rotation of mount is installed and is detected the dish, the cavity has been seted up to the inside of detecting the dish, the inside of cavity is rotated through the bull stick and is installed the buoyancy ball, the cavity inner wall fixed mounting of buoyancy ball rear end has solid fixed ring, the both sides fixedly connected with support frame of mount, the inside movable mounting of support frame has the movable block, the inboard fixed mounting of movable block has the movable pile that extends to the mount inboard, the inside slidable mounting of support frame in the movable block outside has the movable rod, the inside swing joint of support frame at movable rod top has movable teeth.

The front end of detecting the dish is transparent material, through in leading-in cavity with the water source, can make buoyancy ball be in the perpendicular upward direction all the time, rotate along the mount through driving the detecting dish, move outside through pulling movable rod, can conveniently adjust the supporting range of supporting seat, through placing the supporting seat at the vertical plane of building, can carry out the straightness that hangs down and detect, through rotating the different angles of detecting the dish, can conveniently carry out the accuracy detection to the slope of this numerical value inclined plane building, can conveniently carry out accurate detection to the building of different inclinations, upwards move through the pulling movable tooth and fixed tooth separation, can conveniently push into the support frame with the movable rod in accomodate, can reduce occupation space.

Preferably, a first scale line is engraved at the front end of the fixing frame, and a second pointer corresponding to the first scale line is fixedly arranged at the front end of the detection disc. The second pointer points to different numerical values of the first scale mark by rotating the detection disc, so that the accuracy detection can be conveniently carried out on the gradient of the numerical value inclined plane building.

Preferably, the periphery of the detection disc is provided with an adjusting hole corresponding to the movable pile, and the detection disc and the fixed frame are rotatably arranged through a rotating frame. Through making the activity stake insert in the regulation hole, can fix the detection dish, can conveniently make the detection dish rotate along the mount through the rotating turret.

Preferably, the front end of the fixed ring is engraved with a second scale mark, and the top of the buoyancy ball is fixedly provided with a first pointer corresponding to the second scale mark. The perpendicularity detection can be performed by observing the value of the first pointer pointing to the second graduation mark.

Preferably, the movable block is movably arranged with the support frame through a first thrust spring, and the bottom of the movable rod is fixedly provided with a support seat extending out of the support frame. The movable block can be pushed to move inwards by utilizing the thrust action of the first thrust spring, and the supporting action can be realized through the supporting seat.

Preferably, the top of the movable rod is fixedly provided with a fixed tooth corresponding to the movable tooth, the fixed tooth is movably arranged with the support frame through a second thrust spring, and the top of the movable tooth is fixedly provided with a pull ring extending out of the support frame. The movable teeth can be pushed to move downwards to be meshed with the fixed teeth under the thrust action of the second thrust spring, and the movable teeth can be driven to move upwards to be separated from the fixed teeth by pulling the pull ring to move upwards, so that the movable rod can be pushed into the supporting frame.

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

1. through being provided with the mount and detecting mutually supporting between the dish, the front end of detecting the dish is transparent material, rotates along the mount through driving the detecting dish, makes directional one side of second pointer, through placing the supporting seat at the vertical plane of building, through observing the numerical value of the directional second scale mark of first pointer, can carry out the straightness that hangs down and detect, makes the numerical value that the directional first scale mark of second pointer is different through rotating the detecting dish, can conveniently carry out accuracy detection to the slope of this numerical value inclined plane building, can conveniently carry out accurate detection to the building of different inclinations.

2. Through being provided with support frame, movable tooth, fixed tooth and the movable rod between mutually supporting, move to the outside through pulling movable rod, mesh with fixed tooth through driving movable tooth downwardly moving, can fix the movable rod, can conveniently adjust the supporting range of supporting seat, upwards move and fixed tooth separation through pulling movable tooth, can conveniently accomodate the movable rod push-in support frame, can reduce occupation space.

Drawings

FIG. 1 is a schematic view of the front view of the present utility model;

FIG. 2 is a schematic view of a broken-away, cut-away structure of a test disc according to the present utility model;

FIG. 3 is a schematic view of a cross-sectional structure of a support frame according to the present utility model;

fig. 4 is a schematic rear view of the fixing frame of the present utility model.

In the figure: 1. a fixing frame; 101. a first scale line; 2. a detection disc; 201. a cavity; 202. a rotating rod; 203. a buoyancy ball; 204. a first pointer; 205. a second pointer; 206. an adjustment aperture; 207. a rotating frame; 3. a support frame; 301. a movable block; 302. a movable pile; 303. a first thrust spring; 304. a movable tooth; 305. a second thrust spring; 306. a pull ring; 4. a movable rod; 401. a support base; 402. a fixed tooth; 5. a fixing ring; 501. and a second graduation mark.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the building engineering verticality detection device provided by the utility model comprises a fixed frame 1, a detection disc 2 and a support frame 3, wherein the detection disc 2 is rotatably arranged at the inner side of the fixed frame 1, a cavity 201 is formed in the detection disc 2, a buoyancy ball 203 is rotatably arranged in the cavity 201 through a rotating rod 202, a fixed ring 5 is fixedly arranged on the inner wall of the cavity 201 at the rear end of the buoyancy ball 203, the support frames 3 are fixedly connected at two sides of the fixed frame 1, a movable block 301 is movably arranged in the support frame 3, a movable pile 302 extending to the inner side of the fixed frame 1 is fixedly arranged at the inner side of the movable block 301, a movable rod 4 is slidably arranged in the support frame 3 at the outer side of the movable block 301, and movable teeth 304 are movably connected in the support frame 3 at the top of the movable rod 4;

the front end of the fixed frame 1 is carved with a first scale line 101, the front end of the detection disc 2 is fixedly provided with a second pointer 205 corresponding to the first scale line 101, the periphery of the detection disc 2 is provided with an adjusting hole 206 corresponding to the movable pile 302, the front end of the fixed ring 5 is carved with a second scale line 501, the top of the buoyancy ball 203 is fixedly provided with a first pointer 204 corresponding to the second scale line 501, the movable block 301 and the support frame 3 are movably arranged through a first thrust spring 303, the bottom of the movable rod 4 is fixedly provided with a support seat 401 extending out of the support frame 3, and the fixed teeth 402 and the support frame 3 are movably arranged through a second thrust spring 305.

The working principle of the construction engineering verticality detection device based on the embodiment 1 is as follows: the front end of the detection disc 2 is made of transparent materials, the buoyancy ball 203 can drive the first pointer 204 to be always in the vertical upward direction by leading a water source into the cavity 201, the second pointer 205 is directed to one side by driving the detection disc 2 to rotate along the fixing frame 1, the movable block 301 can be pushed to move inwards by the thrust action of the first thrust spring 303, the movable pile 302 is inserted into the adjusting hole 206, the detection disc 2 can be fixed, and the rotating distance of every two adjacent groups of adjusting holes 206 is equal to the rotating distance of the detection disc 2 by 10 degrees;

through pulling movable rod 4 outside removal, utilize the thrust effect of second thrust spring 305, can promote movable tooth 304 downwardly moving and fixed tooth 402 meshing, can fix movable rod 4, can conveniently adjust the supporting range of supporting seat 401, through placing supporting seat 401 in the vertical plane of building, through observing the numerical value that first pointer pointed 204 was to second scale mark 501, can carry out the straightness that hangs down and detect, make the numerical value that second pointer 205 was directed to first scale mark 101 is different through rotating detection dish 2, can conveniently carry out accuracy detection to the slope of this numerical value inclined plane building, can conveniently carry out accurate detection to the building of different inclinations, upwards move and fixed tooth 402 separation through pulling movable tooth 304, can conveniently push into movable rod 4 and accomodate in the support frame 3, can reduce occupation space.

Example two

As shown in fig. 2 and 3, the device for detecting verticality of a building engineering according to the present utility model further includes: and the detection disc 2 and the fixed frame 1 are rotatably installed through a rotating frame 207, the top of the movable rod 4 is fixedly provided with a fixed tooth 402 corresponding to the movable tooth 304, and the top of the movable tooth 304 is fixedly provided with a pull ring 306 extending out of the supporting frame 3.

In this embodiment, as shown in fig. 2, the rotating frame 207 can facilitate the rotation of the detection disc 2 along the fixing frame 1; as shown in fig. 3, by pulling the pull ring 306 to move upwards, the movable teeth 304 can be driven to move upwards to be separated from the fixed teeth 402, so that the movable rod 4 can be pushed into the supporting frame 3.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (6)

1. Building engineering straightness detection device that hangs down, including mount (1), detection dish (2) and support frame (3), its characterized in that: the inside rotation of mount (1) is installed and is detected dish (2), detect the inside of dish (2) and offered cavity (201), the inside of cavity (201) is rotated through bull stick (202) and is installed buoyancy ball (203), the cavity (201) inner wall fixed mounting of buoyancy ball (203) rear end has solid fixed ring (5), the both sides fixedly connected with support frame (3) of mount (1), the inside movable mounting of support frame (3) has movable block (301), the inboard fixed mounting of movable block (301) has movable stake (302) that extend to the mount (1) inboard, support frame (3) inside slidable mounting in the outside of movable block (301) has movable rod (4), the inside swing joint of support frame (3) at movable rod (4) top has movable tooth (304).

2. The construction perpendicularity detection apparatus according to claim 1, wherein: the front end of the fixing frame (1) is engraved with a first scale line (101), and the front end of the detection disc (2) is fixedly provided with a second pointer (205) corresponding to the first scale line (101).

3. The construction perpendicularity detection apparatus according to claim 1, wherein: an adjusting hole (206) corresponding to the movable pile (302) is formed in the periphery of the detection disc (2), and the detection disc (2) and the fixed frame (1) are rotatably installed through a rotating frame (207).

4. The construction perpendicularity detection apparatus according to claim 1, wherein: the front end of the fixed ring (5) is carved with a second scale mark (501), and the top of the buoyancy ball (203) is fixedly provided with a first pointer (204) corresponding to the second scale mark (501).

5. The construction perpendicularity detection apparatus according to claim 1, wherein: the movable block (301) is movably arranged with the supporting frame (3) through a first thrust spring (303), and a supporting seat (401) extending out of the supporting frame (3) is fixedly arranged at the bottom of the movable rod (4).

6. The construction perpendicularity detection apparatus according to claim 1, wherein: fixed teeth (402) corresponding to the movable teeth (304) are fixedly arranged at the top of the movable rod (4), the fixed teeth (402) and the support frame (3) are movably arranged through a second thrust spring (305), and pull rings (306) extending out of the support frame (3) are fixedly arranged at the top of the movable teeth (304).