CN214702237U - Building wall face straightness detection device that hangs down for decoration - Google Patents

Abstract

The application relates to a building wall surface verticality detection device for decoration, which comprises a moving module, a leveling module arranged on the moving module and a detection module arranged on the leveling module, wherein the detection module comprises an installation rod vertically arranged at one end of the leveling module, a laser assembly vertically penetrating through the top of the installation rod and a target assembly vertically penetrating through the bottom of the installation rod; the laser assembly comprises a first cross rod vertically penetrating through the mounting rod and a laser lamp vertically arranged at one end of the first cross rod, two ends of the first cross rod penetrate through the mounting rod, one end of the first cross rod is abutted against the wall surface, and the laser lamp is arranged at the other end of the first cross rod; the mark target subassembly is including wearing to locate the second horizontal pole of installation pole perpendicularly and the mark target piece that is fixed in horizontal pole one end, and the installation pole is all passed at the both ends of second horizontal pole, and the one end butt of second horizontal pole on the wall, mark the other end that the target piece is fixed in the second horizontal pole. This application has comparatively accurate effect that detects the whole straightness that hangs down of wall.

Description

Building wall face straightness detection device that hangs down for decoration

Technical Field

The application relates to the field of building detection equipment, especially, relate to a building wall straightness detection device that hangs down for decoration.

Background

The verticality is an important technical index for ensuring the safety of the wall. In the construction process, the verticality of both the column and the wall is the key point of quality control. Before wall decoration, the perpendicularity of the wall needs to be detected for subsequent construction.

At present, the wall surface verticality detection usually adopts a guiding rule to lean against the wall surface directly, and the verticality detection is carried out on the wall surface.

To the correlation technique among the above-mentioned, if when a certain piece of wall was protruding, can influence the detection of guiding ruler to the whole straightness that hangs down of wall, the inventor thinks that there is the whole not enough defect of straightness detection accuracy that hangs down of wall.

SUMMERY OF THE UTILITY MODEL

In order to detect the whole straightness that hangs down of wall comparatively accurately, this application provides a building wall straightness detection device that hangs down for decoration.

The application provides a pair of building wall straightness detection device that hangs down for decoration adopts following technical scheme:

a building wall surface verticality detection device for decoration comprises a moving module, a leveling module arranged on the moving module and a detection module arranged on the leveling module, wherein the detection module comprises an installation rod vertically arranged at one end of the leveling module, a laser assembly vertically penetrating through the top of the installation rod and a target assembly vertically penetrating through the bottom of the installation rod; the laser assembly comprises a first cross rod vertically penetrating through the mounting rod and a laser lamp vertically arranged at one end of the first cross rod, two ends of the first cross rod penetrate through the mounting rod, one end of the first cross rod is abutted against the wall surface, and the laser lamp is arranged at the other end of the first cross rod; the target assembly comprises a second cross rod vertically penetrating through the mounting rod and a target block fixed at one end of the cross rod, two ends of the second cross rod penetrate through the mounting rod, one end of the second cross rod is abutted against the wall surface, and the target block is fixed at the other end of the second cross rod; calibration points are marked on the top end face of the target block, and in an initial state, laser of the laser lamp irradiates on the calibration points.

Through adopting above-mentioned technical scheme, remove the installation pole through removing the module, make the one end butt of first horizontal pole and second horizontal pole on the wall, first horizontal pole and second horizontal pole take place to remove, if the laser of laser lamp still shine on the calibration point on, explain that the whole straightness of hanging down of wall body is qualified.

Optionally, the moving module includes a bottom plate and a universal wheel disposed under the bottom plate.

Through adopting above-mentioned technical scheme, be convenient for remove the installation pole.

Optionally, the leveling module comprises a leveling plate arranged at an interval with the bottom plate, two leveling tubes horizontally arranged on the leveling plate, a universal ball arranged between the leveling plate and the bottom plate, and two vertically arranged electric cylinders; the electric cylinder is fixed on the leveling plate, a piston rod of the electric cylinder penetrates through the leveling plate, and the piston rod of the electric cylinder abuts against the bottom plate; the universal ball and the two electric cylinders are arranged in a triangular manner; the two leveling tubes are arranged vertically to each other; the mounting rod is arranged at one end of the leveling plate.

Through adopting above-mentioned technical scheme, because the house ground unevenness of not fitment observes two air level pipes to make the bubble of air level pipe all be located the middle part of air level pipe through adjusting two electric cylinders, thereby make the leveling board be in the horizontality, and then guarantee that the installation pole is in vertical state.

Optionally, the installation rod is rotatably connected to the leveling plate, a fixing plate vertically arranged is arranged on one side, away from the leveling plate, of the installation rod, the fixing plate is perpendicularly fixed to the leveling plate, and the installation rod is fixed to the fixing plate through bolts.

Through adopting above-mentioned technical scheme, rotatable installation pole is withdrawed, reduces the installation pole and receives the condition of colliding at the removal in-process.

Optionally, the mounting rod is telescopically arranged.

Through adopting above-mentioned technical scheme, can adapt to the wall of co-altitude not, improve the suitability of device.

Optionally, one side of the laser lamp facing the first cross rod is provided with an insertion rod, the insertion rod is inserted into the first cross rod, a bolt penetrates through the first cross rod, and one end of the bolt penetrating through the first cross rod abuts against the side wall of the insertion rod.

Through adopting above-mentioned technical scheme, carry out the calibration before using, when the one end that first horizontal pole and second horizontal pole are close to the wall aligns, adjust the inserted bar and make the laser lamp shine on the calibration point.

Optionally, the end of the first cross rod and the end of the second cross rod close to the wall surface are both provided with a return spring, and the end of each return spring close to the mounting rod is fixed on the mounting rod.

Through adopting above-mentioned technical scheme, make first horizontal pole and second horizontal pole support tightly on the wall. The accuracy of detecting the verticality is improved; when the mounting bar is away from the wall surface, the first cross bar and the second cross bar can be restored to the initial state.

Optionally, scales are arranged on the top end face of the target block, and the length direction of the scales is the same as that of the second cross rod.

Through adopting above-mentioned technical scheme, be convenient for observe the holistic slope degree of wall.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the installation rod is moved through the moving module, so that one ends of the first transverse rod and the second transverse rod are abutted to the wall surface, the first transverse rod and the second transverse rod move, and if laser of the laser lamp still irradiates on the calibration point, the whole verticality of the wall body is qualified.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is an enlarged view of the structure of portion A of FIG. 1;

fig. 3 is an enlarged view of the structure of portion B in fig. 1.

Description of reference numerals: 1. a moving module; 11. a base plate; 12. a universal wheel; 2. a leveling module; 21. leveling; 22. a leveling tube; 23. a universal ball; 24. an electric cylinder; 25. a fixing plate; 3. a detection module; 31. mounting a rod; 311. fixing the rod; 312. a telescopic rod; 32. a laser assembly; 321. a first cross bar; 322. a laser light; 323. a plug rod; 33. a target assembly; 331. a second cross bar; 332. a target block; 3321. calibrating points; 3322. calibration; 4. a return spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses building wall straightness detection device that hangs down for decoration. Referring to fig. 1, the verticality detecting apparatus includes a moving module 1 disposed at the bottom, a leveling module 2 disposed on the moving module 1, and a detecting module 3 disposed on the leveling module 2. The mobile module 1 comprises a horizontally arranged bottom plate 11 and a universal wheel 12 fixed at the bottom of the bottom plate 11.

The leveling module 2 comprises a leveling plate 21 arranged horizontally, a leveling pipe 22 embedded on the leveling plate 21, a universal ball 23 arranged between the leveling plate 21 and the bottom plate 11, and two vertically arranged electric cylinders 24. Leveling board 21 interval sets up in bottom plate 11 top, and universal ball 23 is fixed in the one end that leveling board 21 is close to the wall, and electric jar 24 all is fixed in the one end that leveling board 21 kept away from the wall, and universal ball 23 and two electric jars 24 are the triangle-shaped setting. The piston rods of the two electric cylinders 24 are all arranged on the leveling plate 21 in a penetrating mode and abut against the bottom plate 11.

Two leveling tubes 22 are buried in the leveling plate 21, and the two leveling tubes 22 are arranged perpendicular to each other. The leveling plate 21 is kept horizontal by controlling the two electric cylinders 24 and observing the air bubbles in the leveling tube 22.

The detection module 3 comprises an installation rod 31 rotatably connected to one end of the leveling plate 21 close to the wall surface, a laser assembly 32 arranged on the installation rod 31 and a target assembly 33. One end of leveling board 21, which is close to the wall surface, is provided with a vertically arranged fixing board 25, and an installation rod 31 is fixed on fixing board 25 through a bolt, so that installation rod 31 can be folded and retracted. The installation rod 31 includes a fixing rod 311 rotatably connected to the leveling plate 21 and an expansion rod 312 sleeved on one end of the fixing rod 311 far away from the leveling plate 21, a plurality of through holes are arranged on the expansion rod 312 at intervals, and the expansion rod 312 is fixed on the fixing rod 311 through bolts.

The laser assembly 32 comprises a first cross rod 321 horizontally penetrating through the telescopic rod 312 and far away from one end of the fixed rod 311, a return spring 4 arranged at one end of the first cross rod 321 close to the wall surface, an insertion rod 323 horizontally inserted into one end of the first cross rod 321 far away from the wall surface, and a laser lamp 322 vertically fixed at one end of the insertion rod 323 far away from the first cross rod 321. Both ends of the first cross bar 321 penetrate through the telescopic rod 312, and the first cross bar 321 is in sliding fit with the telescopic rod 312. One end of the return spring 4 is fixed to the end of the first cross bar 321 close to the wall surface, and the other end is fixed to the telescopic rod 312. One end of the first cross rod 321, which is far away from the wall surface, is provided with a positioning plate, the positioning plate is vertically fixed on the first cross rod 321, and the positioning plate is abutted against the side surface of the telescopic rod 312, which deviates from the wall surface, so that the first cross rod 321 cannot generate too large displacement under the action of the return spring 4.

With reference to fig. 1 and 2, the insertion rod 323 is inserted into the end surface of the first cross rod 321 close to the laser lamp 322, and the first cross rod 321 is provided with a bolt through the outside, and one end of the bolt penetrating through the first cross rod 321 abuts against the outer wall of the insertion rod 323, so that the position of the laser lamp 322 can be finely adjusted, and the position of the laser lamp 322 is adjusted before each detection. Laser lamp 322 can dismantle the setting, can pull down laser lamp 322 when not using and preserve alone, reduces the device and removes the in-process and cause the harm to laser lamp 322.

The target assembly 33 includes a second cross bar 331 horizontally penetrating the fixing bar 311, a return spring 4 sleeved on one end of the second cross bar 331 close to the wall surface and a target block 332 fixed on one end of the second cross bar 331 far away from the wall surface, wherein both ends of the second cross bar 331 penetrate the fixing bar 311. One end of the return spring 4 on the second cross bar 331 is fixed at one end of the second cross bar 331 close to the wall surface, and the target block 332 is located at one side of the fixing rod 311 departing from the wall surface.

Referring to fig. 1 and 3, the calibration point 3321 and the scale 3322 are disposed on the target block 332, the laser of the laser lamp 322 vertically irradiates on the calibration point 3321, the length direction of the scale 3322 is the same as the length direction of the second cross bar 331, and the inclination degree of the whole wall surface is determined by observing the position of the laser on the scale 3322.

An escape groove is formed in the middle of the leveling plate 21, and when the fixing rod 311 is retracted, a part of the target block 332 is positioned in the escape groove.

The implementation principle of the embodiment of the application is as follows: the base plate 11 is moved so that the device is close to the wall, the level tubes 22 are observed, and the electric cylinders 24 are adjusted so that the air bubbles of both level tubes 22 are located in the middle. The insertion rod 323 is adjusted so that the laser light of the laser lamp 322 is irradiated onto the calibration point 3321. The bottom plate 11 is pushed to enable the first cross rod 321 and the second cross rod 331 to be tightly abutted to the wall surface, and the position of the laser on the target block 332 is observed to judge the overall perpendicularity of the wall surface.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a building wall straightness detection device that hangs down for decoration, its characterized in that: the device comprises a mobile module (1), a leveling module (2) arranged on the mobile module (1) and a detection module (3) arranged on the leveling module (2), wherein the detection module (3) comprises an installation rod (31) vertically arranged at one end of the leveling module (2), a laser component (32) vertically penetrating through the top of the installation rod (31) and a target component (33) vertically penetrating through the bottom of the installation rod (31); the laser assembly (32) comprises a first cross rod (321) vertically penetrating through the mounting rod (31) and a laser lamp (322) vertically arranged at one end of the first cross rod (321), two ends of the first cross rod (321) penetrate through the mounting rod (31), one end of the first cross rod (321) abuts against a wall surface, and the laser lamp (322) is arranged at the other end of the first cross rod (321); the target assembly (33) comprises a second cross rod (331) vertically penetrating through the mounting rod (31) and a target block (332) fixed at one end of the cross rod, two ends of the second cross rod (331) penetrate through the mounting rod (31), one end of the second cross rod (331) abuts against the wall surface, and the target block (332) is fixed at the other end of the second cross rod (331); the calibration point (3321) is marked on the top end surface of the target block (332), and in an initial state, the laser of the laser lamp (322) irradiates the calibration point (3321).

2. The building wall perpendicularity detecting device for decoration according to claim 1, characterized in that: the mobile module (1) comprises a bottom plate (11) and universal wheels (12) arranged below the bottom plate (11).

3. The building wall perpendicularity detecting device for decoration according to claim 2, characterized in that: the leveling module (2) comprises a leveling plate (21) arranged at an interval with the bottom plate (11), two leveling tubes (22) horizontally arranged on the leveling plate (21), a universal ball (23) arranged between the leveling plate (21) and the bottom plate (11) and two electric cylinders (24) vertically arranged; the electric cylinder (24) is fixed on the leveling plate (21), a piston rod of the electric cylinder (24) penetrates through the leveling plate (21), and the piston rod of the electric cylinder (24) is abutted against the bottom plate (11); the universal ball (23) and the two electric cylinders (24) are arranged in a triangular manner; the two leveling tubes (22) are arranged vertically to each other; the mounting rod (31) is arranged at one end of the leveling plate (21).

4. The building wall perpendicularity detecting device for decoration according to claim 3, characterized in that: installation pole (31) rotate to be connected on leveling board (21), and installation pole (31) keep away from one side of leveling board (21) and be equipped with fixed plate (25) of vertical setting, fixed plate (25) vertical fixation is on leveling board (21), and installation pole (31) pass through the bolt fastening on fixed plate (25).

5. The building wall perpendicularity detecting device for decoration according to claim 4, characterized in that: the mounting rod (31) is arranged in a telescopic manner.

6. The building wall perpendicularity detecting device for decoration according to claim 1, characterized in that: one side of the laser lamp (322) facing the first cross rod (321) is provided with an insertion rod (323), the insertion rod (323) is inserted into the first cross rod (321), a bolt penetrates through the outside of the first cross rod (321), and one end of the bolt penetrating through the first cross rod (321) abuts against the side wall of the insertion rod (323).

7. The building wall perpendicularity detecting device for decoration according to claim 1, characterized in that: first horizontal pole (321) and second horizontal pole (331) are close to the one end of wall and all are equipped with reset spring (4), and every reset spring (4) are close to the one end of installation pole (31) and all are fixed in on installation pole (31).

8. The building wall perpendicularity detecting device for decoration according to claim 1, characterized in that: the top end face of the target block (332) is provided with scales (3322), and the length direction of the scales (3322) is the same as that of the second cross rod (331).

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