CN217543872U - Building slope detection device based on image simulation - Google Patents

Abstract

The utility model discloses a building slope detection device based on image simulation, correct the structure including image simulation structure, angle modulation structure and level, outside one side of image simulation structure is provided with the angle modulation structure, and the bottom lower extreme of angle modulation structure is provided with the level and corrects the structure, the image simulation structure includes image processing display module and data connection port subassembly, and is provided with the data connection port subassembly on one side of the outer wall of image processing display module. This building slope detection device based on image simulation adjusts and connects distance between ball axle and the support base through the rotation regulation knob, can assist through repeated micro-adjustment and realize the horizontality, utilizes the attenuator can fix the rotatory angle of connecting the pivot, improves detection stability, and laser rangefinder can feed back measurement value electrical property to image processing display module, based on the adjustable integer value of the original drawing of building to can obtain the simulated image after measuring fast.

Description

Building slope detection device based on image simulation

Technical Field

The utility model relates to an image simulation technical field specifically is a building slope detection device based on image simulation.

Background

Image simulation refers to a process of mathematically simulating the imaging conditions of an image. The main graph simulation shows a three-dimensional or two-dimensional image simulated by geometric features, the building inclination detection device measures deviation values of points at different heights of a building, a structure central line or a wall, a column and the like relative to a bottom reference point to detect whether the building is inclined, and the image processing display assembly is configured to simulate and present the image after building measurement through measurement and a design drawing of the building.

Building slope detection device in market does not have image simulation structure, and general building slope detection device only can measure inclination, need compare original building image with the building image after detecting through paper pen or other appurtenance, and its contrast effect is relatively poor, can't be fast effectual form the directly perceived contrast condition, for this reason, we propose a building slope detection device based on image simulation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building slope detection device based on image simulation to solve building slope detection device on proposing the market among the above-mentioned background and do not have the image simulation structure, general building slope detection device can only measure inclination, need contrast original building image and the building image after detecting through paper pen or other appurtenance, and its contrast effect is relatively poor, the unable problem of the effectual directly perceived contrast condition of formation fast.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a building slope detection device based on image simulation, includes image simulation structure, angle modulation structure and level and corrects the structure, outside one side of image simulation structure is provided with the angle modulation structure, and the bottom lower extreme of angle modulation structure is provided with the level and corrects the structure, the image simulation structure includes image processing display module and data connection port subassembly, and image processing display module's outer wall one side is provided with the data connection port subassembly.

Furthermore, the image processing display component is electrically connected with the angle adjusting structure, and the image processing display component is matched with the data connecting port component.

Further, the angle adjusting structure is including connecting support body, attenuator, connection pivot and laser rangefinder, and the inside both sides of connecting the support body run through and be provided with the attenuator, the inside of attenuator is provided with the connection pivot, and connects the middle-end outer wall setting of pivot and use laser rangefinder.

Furthermore, the laser ranging device forms a rotating structure through the connecting frame body, the damper and the connecting rotating shaft, and the damper and the connecting frame body are in an elastic clamping shape.

Further, the horizontal correction structure comprises a support base, a regulation connection spherical shaft, an adjusting knob, an adjusting support body and connecting threads, the regulation connection spherical shaft is arranged at four corners inside the support base, the adjusting knob is arranged on the outer wall of the regulation connection spherical shaft, the adjusting support body is arranged at the top of the regulation connection spherical shaft, and the connecting threads are arranged inside the adjusting support body.

Furthermore, the adjusting frame body forms a detachable structure with the angle adjusting structure through connecting threads, and the adjusting frame body is in threaded connection with the angle adjusting structure.

Furthermore, the adjusting knob is in threaded connection with the adjusting connecting spherical shaft, and the adjusting connecting spherical shaft is movably connected with the support base and the adjusting support body.

Compared with the prior art, the beneficial effects of the utility model are that: this building slope detection device based on image simulation adjusts and connects distance between ball axle and the support base through the rotation regulation knob, can assist through repeated micro-adjustment and realize the horizontality, utilizes the attenuator can fix the rotatory angle of connecting the pivot, improves detection stability, and laser rangefinder can feed back measurement value electrical property to image processing display module, based on the adjustable integer value of the original drawing of building to can obtain the simulated image after measuring fast.

The image processing display assembly is electrically connected with the angle adjusting structure, and the laser ranging device can electrically feed back the measured value to the image processing display assembly based on the adjustable integral value of the original building drawing, so that the measured analog image can be quickly obtained, and the visual contrast condition can be effectively formed.

Laser rangefinder constitutes revolution mechanic through connecting support body, attenuator with connecting the pivot, utilizes the attenuator to make the laser rangefinder who connects the support body outer wall rotate, can measure the work to the building device that has different shapes or have certain angle, and utilizes the attenuator can fix the rotatory angle of connecting the pivot, improves detection stability.

Be threaded connection between adjust knob and the regulation connection ball axle, adjust and connect ball axle top and be the ball form, and the lower extreme is fixed with the screw thread axle, and adjusts and connect ball axle top embedded in the regulation support body four corners, has certain activity space each other, adjusts through rotatory adjust knob and adjusts the distance of connecting between ball axle and the support base, can assist through repeated fine adjustment and realize the horizontality, is convenient for carry out accurate location measurement work.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the horizontal straightening structure of the present invention.

In the figure: 1. an image simulation structure; 101. an image processing display component; 102. a data connection port assembly; 2. an angle adjustment structure; 201. connecting the frame body; 202. a damper; 203. connecting the rotating shaft; 204. a laser ranging device; 3. a horizontal corrective structure; 301. a support base; 302. adjusting and connecting the spherical shaft; 303. adjusting a knob; 304. an adjusting frame body; 305. and connecting threads.

Detailed Description

As shown in fig. 1, an image simulation-based building inclination detecting apparatus includes: image simulation structure 1, outside one side of image simulation structure 1 is provided with angle modulation structure 2, and the bottom lower extreme of angle modulation structure 2 is provided with horizontal correction structure 3, image simulation structure 1 includes image processing display module 101 and data connection port subassembly 102, and outer wall one side of image processing display module 101 is provided with data connection port subassembly 102, be electric connection between image processing display module 101 and the angle modulation structure 2, and image processing display module 101 and data connection port subassembly 102 mutually support, laser rangefinder 204 can feed back the measured value electrical property to image processing display module 101, based on the adjustable integer value of the original drawing of building, thereby can obtain the simulated image after the measurement fast, the effectual directly perceived contrast condition that forms.

As shown in fig. 2, an image simulation-based building inclination detection device, an angle adjustment structure 2 includes a connection frame body 201, a damper 202, a connection rotation shaft 203 and a laser ranging device 204, the dampers 202 are disposed on two sides of the connection frame body 201 in a penetrating manner, the connection rotation shaft 203 is disposed inside the damper 202, the laser ranging device 204 is disposed on an outer wall of a middle end of the connection rotation shaft 203, the laser ranging device 204 forms a rotation structure with the connection rotation shaft 203 through the connection frame body 201, the damper 202 and the connection rotation shaft 203 are in an elastic clamping manner, the laser ranging device 204 on the outer wall of the connection frame body 201 can be rotated by using the damper 202, building devices with different shapes or certain angles can be measured, and the rotation angle of the connection rotation shaft 203 can be fixed by using the damper 202, so that detection stability is improved.

As shown in fig. 3, a building slope detection device based on image simulation, horizontal correction structure 3 includes support base 301, adjust and connect ball axle 302, adjust knob 303, adjust frame 304 and connecting thread 305, and the inside four corners of support base 301 is provided with adjust and connect ball axle 302, the outer wall of adjust and connect ball axle 302 is provided with adjust knob 303, and the top of adjust and connect ball axle 302 is provided with adjust frame 304, adjusting frame 304 has the inside connecting thread 305 of having seted up, adjust frame 304 constitutes detachable construction with angle adjusting structure 2 through connecting thread 305, and be threaded connection between adjust frame 304 and angle adjusting structure 2, can make it install or dismantle with adjust frame 304 through swivelling joint frame 201, its effect lies in making things convenient for the slope detection device to accomodate, be convenient for work to carry, be threaded connection between adjust knob 303 and the adjust and connect ball axle 302, and support base 301, be swing joint between adjust and connect ball axle 302 and the support base 301, adjust frame 304, adjust and connect ball axle 302 top for the ball axle 302 is the sphere, and be convenient for the accurate through the spacing of regulation knob and the ball axle is fixed with the lower extreme, it is convenient for the ball axle is embedded in the regulation and the ball axle is convenient for the spacing is accurate and is located to carry out the regulation and the ball axle is convenient for the regulation and is convenient for the ball axle is fixed.

In summary, the building inclination detection device based on image simulation includes that a laser alignment target is fixed in a building wall in advance before detection, positioning measurement points are arranged oppositely, a measurement support is erected and installed on a support base 301, then a rotary connection support body 201 is installed at a connection thread 305, the top of a connection spherical shaft 302 is adjusted to be spherical, a thread shaft is fixed at the lower end of the connection spherical shaft 302, the top of the connection spherical shaft 302 is embedded in four corners of the adjustment support body 304, a certain moving space is formed between the connection spherical shaft 302 and the support base 301, the distance between the connection spherical shaft 302 and the support base 301 is adjusted through rotation of an adjustment knob 303, a horizontal state can be achieved through repeated fine adjustment, then an original building can be guided into an image processing display assembly 101 through a data connection port assembly 102 to be displayed, measured values are sequentially guided into the laser alignment targets with different heights, a detected building image can be simulated and formed, a damping device 202 can be used for enabling a laser ranging device 204 connected with the outer wall of the support body 201 to rotate, measurement drawings with different shapes or with certain angles can be measured, and the damping device 202 can be used for improving the stability of the connection and the rotating angle of a rotating shaft 203 for detecting the rotating angle.

Claims (7)

1. A building inclination detection device based on image simulation comprises an image simulation structure (1), an angle adjusting structure (2) and a horizontal correcting structure (3), and is characterized in that: the image simulation structure comprises an image processing display assembly (101), an angle adjusting structure (2) is arranged on one side of the outer portion of the image simulation structure (1), a horizontal correcting structure (3) is arranged at the lower end of the bottom of the angle adjusting structure (2), the image simulation structure (1) comprises an image processing display assembly (101) and a data connection port assembly (102), and the data connection port assembly (102) is arranged on one side of the outer wall of the image processing display assembly (101).

2. The building inclination detection device based on image simulation according to claim 1, characterized in that: the image processing display component (101) is electrically connected with the angle adjusting structure (2), and the image processing display component (101) is matched with the data connecting port component (102).

3. The building inclination detection device based on image simulation according to claim 1, characterized in that: angle modulation structure (2) are including connecting support body (201), attenuator (202), connecting pivot (203) and laser rangefinder (204), and the inside both sides of connecting support body (201) are run through and are provided with attenuator (202), the inside of attenuator (202) is provided with connects pivot (203), and the middle-end outer wall setting of connecting pivot (203) is with laser rangefinder (204).

4. The building inclination detection apparatus based on image simulation according to claim 3, wherein: the laser ranging device (204) forms a rotating structure through the connecting frame body (201), the damper (202) and the connecting rotating shaft (203), and the damper (202) and the connecting frame body (201) are elastically clamped.

5. The building inclination detection apparatus based on image simulation according to claim 1, characterized in that: horizontal correction structure (3) are including support base (301), regulation connection ball axle (302), adjust knob (303), regulation support body (304) and connecting thread (305), and the inside four corners of support base (301) is provided with the regulation and connects ball axle (302), the outer wall of adjusting connection ball axle (302) is provided with adjust knob (303), and the top of adjusting connection ball axle (302) is provided with regulation support body (304), connecting thread (305) have been seted up to the inside of adjusting support body (304).

6. The building inclination detection apparatus based on image simulation according to claim 5, wherein: the adjusting frame body (304) and the angle adjusting structure (2) form a detachable structure through a connecting thread (305), and the adjusting frame body (304) is in threaded connection with the angle adjusting structure (2).

7. The building inclination detection apparatus based on image simulation according to claim 5, wherein: the adjusting knob (303) is in threaded connection with the adjusting connecting spherical shaft (302), and the adjusting connecting spherical shaft (302) is movably connected with the support base (301) and the adjusting support body (304).

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