CN211691543U - Assembled shear force wall hoist and mount laser positioning device - Google Patents

Abstract

The utility model relates to an assembled shear force wall hoist and mount laser positioning device for location when component hoist and mount, including laser positioning device, be used for fixed laser positioning device's pre-buried magnetic support, be equipped with pre-buried fixed knot between pre-buried magnetic support and the component and construct, one side that the component was kept away from to pre-buried magnetic support is equipped with the magnetic attraction structure that is used for adsorbing installation laser positioning device, is used for the location laser positioning device position location structure. The utility model provides a simple to operate and the turnover of being convenient for, positioning accuracy is high, can have enough to meet the need assembled shear force wall hoist and mount laser positioning device that the nature is high, and consumptive material is with low costs, laser rangefinder probe can have enough to meet the need the use, can realize the quick adjustment location that assembled shear force wall hoisted.

Description

Assembled shear force wall hoist and mount laser positioning device

Technical Field

The utility model belongs to the technical field of the building, especially, relate to an assembled shear force wall hoist and mount laser positioning device.

Background

In the prefabricated building residential construction engineering, the elevation position must be accurately adjusted when the prefabricated wall panel is installed, the outer wall must be ensured to be perpendicular to a floor panel, the prefabricated wall panel cannot be toppled or tilted backwards, and then the wall panel positioning and the hook taking of a tower crane can be completed. But often because the accurate influence of measuring difficulty and the straightness measurement difficulty etc. of elevation in actual work progress when leading to prefabricated wallboard installation slow, inefficiency often because the accurate fine tuning job schedule of elevation, this just requires to have can be quick, accurate measuring elevation and straightness's that hangs down instrument, and possesses the turnover ability when every component hoists.

At present, a common elevation control mode is realized through a steel gasket, which is not accurate enough, and fine adjustment is needed after a prefabricated wallboard is positioned, so that the method is very troublesome and inefficient; and after the elevation of the lower part is adjusted, an auxiliary mode of accurate measurement is also needed when the elevation of the upper layer laminated slab is controlled. When the prefabricated wall panel is hoisted and installed on site, the height of the gasket is often not accurately set, so that the elevation needs to be finely adjusted again after installation, and the construction progress is delayed; or abandoning elevation adjustment to cause overlarge gap between the upper part of the wallboard and the upper laminated slab, thereby causing potential quality safety hazards. There is therefore a need for a control device that can make highly accurate measurements both down and up to adjust and correct the component elevation. Simultaneously, in the installation of prefabricated wallboard handling now, when the bearing diagonal installation, need to hang down the straightness to the wallboard and carry out meticulous control, all measure repeatedly through the guiding ruler at present, efficiency is very low, the precision is not enough, and if hang down straightness control is not good, can lead to whole unable smoothly of follow-up component installation work to develop, consequently needs a controlling means that can be quick, the straightness that hangs down of accurate adjustment wallboard to guarantee that the bearing diagonal installation is accomplished smoothly.

Therefore, based on the problems, the assembling type shear wall hoisting laser positioning device which is convenient to install and turnover, high in positioning accuracy and turnover performance is provided, and the assembling type shear wall hoisting laser positioning device has important practical significance.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that exists among the above-mentioned prior art, provide a simple to operate and be convenient for the turnover, positioning accuracy is high, can have enough to meet the need the high assembled shear force wall hoist and mount laser positioning device of nature.

The utility model discloses a solve the technical scheme who takes of this problem and be:

the utility model provides an assembled shear force wall hoist and mount laser positioning device for location when component hoist and mount, including laser positioning device, the pre-buried magnetic base that is used for fixed laser positioning device, be equipped with pre-buried fixed knot between pre-buried magnetic base and the component and construct, one side that pre-buried magnetic base kept away from the component is equipped with the magnetic attraction structure that is used for adsorbing installation laser positioning device, is used for the location structure of location laser positioning device position.

Preferably, the at least two pre-buried fixed parts of the pre-buried fixed structure are pre-buried on the member, and a pre-buried anchoring end is arranged at one end of the pre-buried fixed part in the member.

Preferably, one end of the embedded fixing piece, which is far away from the embedded anchoring end, is fixedly connected with the embedded magnetic seat.

Preferably, the embedded fixing structure further comprises a supporting seat, one end of the embedded fixing piece, which is far away from the embedded anchoring end, is fixedly connected with the supporting seat, and an adjusting part for adjusting the inclination angle of the embedded magnetic seat is arranged between the supporting seat and the embedded magnetic seat.

Preferably, the adjusting part comprises a rotating connecting piece fixedly connected to the supporting seat, at least one adjusting connecting piece fixedly connected to the supporting seat, and an annular chute fixedly mounted on one side of the embedded magnetic seat facing the component, wherein one end of the rotating connecting piece, which is far away from the supporting seat, is rotatably connected with the embedded magnetic seat through the rotating piece, centers of the annular chute and the supporting seat respectively fall on a central axis of the rotating connecting piece, and a sliding block is fixedly connected to one end of the adjusting connecting piece, which is far away from the supporting seat, and is slidably matched in the annular chute.

Further preferably, still be equipped with the locking part who is used for locking pre-buried magnetic support position between supporting seat and the pre-buried magnetic support, locking part includes that at least four are the annular array and distribute in the clamping groove structure of supporting seat in the one side of pre-buried magnetic support, a pair of rigid coupling in pre-buried magnetic support in the one side of supporting seat and can match the card strip structure of joint in the clamping groove structure, card strip structure are arranged along the radial direction of supporting seat, annular chute respectively.

Further preferred, swivel connected coupler, regulation connecting piece are telescopic structure respectively, are respectively including pegging graft in first connecting piece, second connecting piece of an organic whole, the second connecting piece is hollow tubular structure, evenly be formed with many edges and strips that set up along its length direction on the outer wall of first connecting piece, just the open end of second connecting piece is equipped with the slot with edge sliding adaptation, the tip that first connecting piece is located the second connecting piece is equipped with the limiting plate, the size of limiting plate is greater than the size of the open end of second connecting piece, just the cover is equipped with expanding spring on the first connecting piece between limiting plate and the second connecting piece.

Preferably, the magnetic attraction structure comprises a magnet sheet formed on one surface of the pre-buried magnetic base, which faces away from the member, and a magnetic fixing base fixedly connected to one surface of the laser positioning device, which faces the pre-buried magnetic base.

Preferably, the location structure includes four location bayonets that are used for fixing a position four angular ends departments of laser positioner respectively, location bayonet socket has seted up the location breach respectively towards one corner of pre-buried magnetic base center department.

Preferably, the laser positioning device further comprises a laser ranging probe, a verticality sensor and a wireless transmission module

Preferably, the system further comprises a data receiving device, and the data receiving device is a wireless handheld device.

The utility model has the advantages and positive effects that:

1. the utility model discloses in, pre-buried fixed knot constructs can realize fixing between pre-buried magnetic support and the component, installation convenient to use, and laser positioning device passes through location structure, magnetism and inhales the structure to be fixed on pre-buried magnetic support, and the location is accurate, and the consumptive material is with low costs.

2. The utility model discloses technical integration and innovation are reasonable, simple to operate and the turnover of being convenient for, and positioning accuracy is high, can have enough to meet the need the nature high, can effectively solve the problem that prefabricated wallboard hoist and mount location is inaccurate, adjustment inefficiency.

3. The utility model discloses when hoist and mount location adjustment, need not the manual work and measurationing repeatedly, the location precision is high, the governing speed is fast, has greatly reduced prefabricated wallboard component's hoist and mount time, has improved job site hoist and mount efficiency for the site operation progress.

4. The utility model discloses in, laser rangefinder probe has the laser rangefinder function, and the straightness sensor that hangs down has the angle of inclination measurement function, and laser positioning device can realize laser rangefinder data and the real-time demonstration and the storage transmission of the straightness data that hangs down to supporting data receiver with the data wireless transmission who gathers.

5. The utility model discloses in, through the inclination of the adjustable pre-buried magnetic support of adjusting part on the supporting seat, drive the laser positioner on the pre-buried magnetic support thereupon and alternate inclination then, the laser beam direct projection direction of optical ranging probe changes thereupon, realizes the location regulation of a plurality of angles, and the location precision is high, the speed of adjustment is fast.

Drawings

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for illustrative purposes only and thus are not intended to limit the scope of the present invention. Furthermore, unless otherwise indicated, the drawings are intended to be illustrative of the structural configurations described herein and are not necessarily drawn to scale.

FIG. 1 is a schematic view of the structure of the present invention in an assembled state;

fig. 2 is a schematic structural view of an assembly manner of the laser positioning device, the embedded magnetic base and the embedded fixing structure in embodiment 1;

FIG. 3 is a schematic front view of the laser positioning device of FIG. 2;

FIG. 4 is a left side view of FIG. 3;

fig. 5 is a schematic front view of the embedded magnetic base in embodiment 1;

FIG. 6 is a top view of FIG. 5;

fig. 7 is a schematic structural view of an assembled state of the embedded magnetic base and the embedded fixing structure in embodiment 2;

FIG. 8 is a top view of FIG. 7;

FIG. 9 is a schematic cross-sectional view taken along the line A-A of FIG. 8;

FIG. 10 is a schematic view of the rotary/adjustment connection of FIG. 7;

FIG. 11 is a schematic cross-sectional view taken along the line B-B in FIG. 10;

FIG. 12 is a schematic cross-sectional view taken along plane C-C of FIG. 10;

FIG. 13 is a bottom view of the pre-buried magnetic seat of FIG. 7;

FIG. 14 is a top view of the support base of FIG. 7;

fig. 15 is a schematic configuration diagram of the data receiving apparatus.

In the figure: 1. the device comprises a component, 2, a laser positioning device, 3, an embedded magnetic seat, 4, an embedded fixing piece, 5, an embedded anchoring end, 6, a supporting seat, 7, a rotating connecting piece, 8, an adjusting connecting piece, 9, an annular sliding groove, 10, a rotating piece, 11, a sliding block, 12, a clamping groove structure, 13, a clamping strip structure, 14, a first connecting piece, 15, a second connecting piece, 16, a ridge, 17, a slot, 18, a limiting plate, 19, an expansion spring, 20, a magnetic fixing base, 21, a positioning bayonet, 22, a positioning notch, 23, a laser ranging probe, 24, a data receiving device, 25, a floor panel and 26, and a laser beam.

Detailed Description

First, it should be noted that the specific structures, features, advantages, etc. of the present invention will be described in detail below by way of example, but all the descriptions are only for illustrative purpose and should not be construed as forming any limitation to the present invention. Furthermore, any single feature described or implicit in any embodiment or any single feature shown or implicit in any drawing may still be combined or subtracted between any of the features (or equivalents thereof) to obtain still further embodiments of the invention that may not be directly mentioned herein. In addition, for the sake of simplicity, the same or similar features may be indicated in only one place in the same drawing.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations. The present invention will be described in detail with reference to fig. 1 to 15.

Example 1

The utility model provides an assembled shear force wall hoist and mount laser positioning device for location when component 1 hoists, including laser positioning device 2, the pre-buried magnetic base 3 that is used for fixed laser positioning device 2, be equipped with pre-buried fixed knot between pre-buried magnetic base 3 and the component 1 and construct, one side that pre-buried magnetic base 3 kept away from component 1 is equipped with the magnetic attraction structure that is used for adsorbing installation laser positioning device 2, is used for the location laser positioning device 2 location's location structure.

The working principle is as follows: as shown in fig. 1-6, when a component 1 (prefabricated wall panel) is installed, the elevation position must be accurately adjusted, the outer wall must be ensured to be perpendicular to a floor panel 25, and the outer wall cannot be toppled or tilted backwards, and then wall panel positioning and hook taking by a tower crane can be completed, namely after the prefabricated wall panel component is hoisted and positioned, the assembled shear wall hoisting laser positioning device is used for accurate positioning adjustment; wherein: the embedded magnetic seat 3 finishes embedding when the component 1 is produced, the surface of the embedded magnetic seat is ensured to be horizontal to the component 1, an embedded fixing structure is arranged between the embedded magnetic seat 3 and the component 1 to realize the fixation between the embedded magnetic seat 3 and the component 1, the installation and the use are convenient, one side of the embedded magnetic seat 3, which is far away from the component 1, is provided with a magnetic attraction structure for adsorbing and installing the laser positioning device 2 and a positioning structure for positioning the position of the laser positioning device 2, so that the laser positioning device 2 is fixed on the embedded magnetic seat 3 through the positioning structure and the magnetic attraction structure, when in use, a laser ranging probe 23 of the laser positioning device 2 is firstly adsorbed and fixed on the embedded magnetic seat 3 downwards, a laser beam 26 of the laser ranging probe 23 is vertically and directly projected downwards to ensure the accurate positioning, then the positioning adjustment of the component 1 is started according to real-time display data, after, the device is reasonable in technical integration and innovation, convenient to install and turnover, high in positioning precision and turnover, capable of effectively solving the problems of inaccurate lifting positioning and low adjusting efficiency of the prefabricated wallboard, free of manual repeated measurement during lifting positioning adjustment, high in positioning precision and high in adjusting speed, greatly reduces the lifting time of the prefabricated wallboard component, improves the lifting efficiency of a construction site, and accelerates the site construction progress; and the measured data is formed for storage and filing, so that the later inspection and use are facilitated.

Furthermore, it can be considered in this embodiment that the at least two pre-buried fixing members 4 of the pre-buried fixing structure are pre-buried on the member 1, and one end of the pre-buried fixing member 4 in the member 1 is provided with a pre-buried anchor end 5. The embedded fixing piece 4 is embedded at the position of 2 m height of the component 1 when the component 1 is produced, the embedded magnetic seat 3 is parallel to the surface of the component 1, then the laser positioning device 2 can be fixed on the embedded magnetic seat 3 through a positioning structure and a magnetic attraction structure, the embedded magnetic seat 3 is symmetrical up and down, and the laser ranging probe 23 can be installed downwards or the laser ranging probe 23 can be installed upwards.

Furthermore, it can be considered in this embodiment that one end of the embedded fixing member 4 away from the embedded anchor end 5 is fixedly connected to the embedded magnetic base 3. The connection mode between the embedded fixing piece 4 and the embedded magnetic seat 3 can be, but is not limited to, welding.

Example 2

As shown in fig. 7 to 14, on the basis of embodiment 1, it is further considered that the embedded fixing structure further includes a supporting seat 6, the supporting seat 6 is parallel to the embedded magnetic seat 3, one end of the embedded fixing member 4, which is far away from the embedded anchoring end 5, is fixedly connected to the supporting seat 6, and an adjusting component for adjusting an inclination angle of the embedded magnetic seat 3 is disposed between the supporting seat 6 and the embedded magnetic seat 3. The supporting seat 6 is fixed with the component 1 through the embedded fixing piece 4 and is parallel to each other, the inclination angle of the embedded magnetic seat 3 on the supporting seat 6 can be adjusted through the adjusting part, then the laser positioning device 2 on the embedded magnetic seat 3 is driven to change the inclination angle, the direct irradiation direction of the laser beam 26 of the optical ranging probe 23 changes accordingly, positioning adjustment of multiple angles is achieved, positioning accuracy is high, and adjusting speed is high.

Furthermore, it can be considered in this embodiment that the adjusting component includes a rotating connector 7 fixedly connected to the supporting seat 6, at least one adjusting connector 8 fixedly connected to the supporting seat 6, and an annular sliding groove 9 fixedly mounted on one side of the embedded magnetic seat 3 facing the component, wherein one end of the rotating connector 7 away from the supporting seat 6 is rotatably connected to the embedded magnetic seat 3 through a rotating part 10, centers of circles of the annular sliding groove 9 and the supporting seat 6 respectively fall on a central axis of the rotating connector 7, one end of the adjusting connector 8 away from the supporting seat 6 is fixedly connected to a sliding block 11, and the sliding block 11 is slidably fitted in the annular sliding groove 9. An operator can hold the embedded magnetic base 3 by hand to drive the rotating part 10 on the embedded magnetic base 3 to rotate on the rotating connecting part 7, namely, the embedded magnetic base 3 rotates by taking the rotating connecting part 7 as a circle center, and the sliding block 11 on the adjusting connecting part 8 slides on the annular sliding groove 9, so that the inclination angle of the embedded magnetic base 3 on the supporting seat 6 is adjusted.

Further, still consider in this embodiment, still be equipped with the locking part that is used for locking pre-buried magnetic support 3 position between supporting seat 6 and the pre-buried magnetic support 3, locking part includes that at least four are the annular array and distribute in the supporting seat 6 towards the draw-in groove structure 12 on the one side of pre-buried magnetic support 3, a pair of rigid coupling in pre-buried magnetic support 3 towards supporting seat 6 on the one side and can match the card strip structure 13 of joint in draw-in groove structure 12, card strip structure 13 are arranged along the radial direction of supporting seat 6, annular chute 9 respectively. The position of the embedded magnetic seat 3 can be locked by a locking component after the inclination angle of the embedded magnetic seat 3 on the supporting seat 6 is adjusted. Wherein: the locking component comprises at least four clamping groove structures 12 which are distributed on one surface of the supporting seat 6 facing the embedded magnetic seat 3 in an annular array manner, and a pair of clamping strip structures 13 which are fixedly connected to one surface of the embedded magnetic seat 3 facing the supporting seat 6 and can be matched and clamped in the clamping groove structures 12.

Further, still consider in this embodiment, swivel connected coupler 7, regulation connecting piece 8 are telescopic structure respectively, respectively including pegging graft in first connecting piece 14, second connecting piece 15 of an organic whole, second connecting piece 15 is hollow tube structure, evenly be formed with many edges and strips 16 that set up along its length direction on the outer wall of first connecting piece 14, just the open end of second connecting piece 15 is equipped with the slot 17 with 16 slip adaptations of edges and strips, the tip that first connecting piece 14 is located in second connecting piece 15 is equipped with limiting plate 18, limiting plate 18's size is greater than the size of the open end of second connecting piece 15, just the cover is equipped with expanding spring 19 between limiting plate 18 and the second connecting piece 15.

When the inclination angle of the embedded magnetic seat 3 on the supporting seat 6 needs to be adjusted, the embedded magnetic seat 3 is manually pulled to move towards the direction away from the component 1, at the moment, the expansion spring 19 is in a compression state, the rotating connecting piece 7 and the adjusting connecting piece 8 are in an extension state, the distance between the embedded magnetic seat 3 and the supporting seat 6 is increased, the clamping strip structure 13 can be drawn out from the clamping groove structure 12, at the moment, the rotatable embedded magnetic seat 3 rotates by taking the rotating connecting piece 7 as a shaft, when the position of the embedded magnetic seat 3 needs to be locked, the embedded magnetic seat 3 is pressed to move towards the component 1, the clamping strip structure 13 is clamped into the clamping groove structure 12 corresponding to the position, at the moment, the embedded magnetic seat 3 cannot rotate again, the locking of the position of the embedded magnetic seat 3 and the locking of the position of the laser positioning device 2.

It should be noted that the number of the card slot structures 12 distributed on one surface of the supporting seat 6 facing the embedded magnetic seat 3 in an annular array manner is at least four, when the number is four, the corresponding angles of the four card slot structures 12 are 0 °, 90 °, 180 °, and 270 °, so as to realize the adjustment of four positive directions of the embedded magnetic seat 3, and when the number is eight, the corresponding angles of the eight card slot structures 12 are 0 °, 45 °, 90 °, 135 °, 180 °, 225 °, 270 °, and 315 °, so as to realize the adjustment of more angles; and the slot structure 12 is a slot structure formed by two oppositely arranged card bodies, and can be but not limited to be provided with rubber bulges on the opposite surfaces of the card bodies for improving the stability. The card strip structure 13 can be inserted and clamped in the card slot structure 12, and the free end of the card strip structure can be designed to be pointed in order to facilitate the insertion of the card strip structure.

Furthermore, it is also considered that in the present embodiment 1/2, the magnetic attraction structure includes a magnet piece formed on a surface of the pre-buried magnet seat 3 facing away from the member 1, and a magnetic fixing base 20 fixed to a surface of the laser positioning device 2 facing the pre-buried magnet seat 3. The embedded magnetic base 3 can be but not limited to be designed into a rectangle, one side of the embedded magnetic base 3, which faces away from the component 1, is designed into a thin magnet piece which is not easy to bend, the laser positioning device 2 can be magnetically attracted on the embedded magnetic base 3 through the magnetic fixing base 20 (installed in the arrow direction in fig. 2), the laser positioning device 2 is fixed by magnetic force, and the operation is convenient, wherein the shape of the magnetic fixing base 20 is inosculated with the embedded magnetic base 3, but not limited to be a rectangle, and the magnetic fixing base 20 has magnetism.

Furthermore, it can be considered in this embodiment 1/2 that the positioning structure includes four positioning bayonets 21 respectively used for positioning four corner ends of the laser positioning device 2, and one corner of the positioning bayonets 21 facing the center of the embedded magnetic base 3 is respectively provided with a positioning notch 22. The positioning bayonets 21 are respectively and fixedly connected with one surface of the embedded magnetic base 3, which faces away from the component 1. Laser positioning device 2 can be located on the location breach 22 of four location bayonets 21, effectively inlays fixedly on pre-buried magnetic support 3, and receives the restriction of location bayonet 21, realizes laser positioning device 2's accurate location, and the precision is high.

Furthermore, it is also considered in this embodiment 1/2 that the laser positioning device 2 further includes a laser ranging probe 23, a verticality sensor, and a wireless transmission module. The outer surface of the laser positioning device 2 is box-shaped, a laser ranging probe 23 extends out, a verticality sensor is embedded in the side surface, a data wireless transmission module is arranged at the tail end, the laser ranging probe 23 has a laser ranging function, is accurate to millimeter and can wirelessly transmit acquired data to a matched data receiving device 24; the verticality sensor has an inclination angle measuring function, is accurate to the minute, and can wirelessly transmit acquired data to the matched data receiving device 24, so that real-time display, storage and transmission of laser ranging data and verticality data are realized.

Also included is a data receiving means 24, which is a wireless handheld device. The wireless transmission module is used for realizing data transmission between the laser positioning device and the data receiving device in a wireless transmission mode, the wireless transmission module can be but is not limited to one of a Bluetooth module, a WIFI module, a Zigbee module and the like, and the transmission mode is selected according to specific conditions. At present, wireless transmission modules are generally arranged in wireless handheld devices in the market, each wireless transmission module generally comprises a transmitter, a receiver and a controller, an operator can send detected data information to a data receiving device in a wireless transmission mode after measuring data information such as distance, verticality and the like through a laser positioning device, and the data receiving device converts the data information in a wireless signal form into data information which can be identified by other electronic elements, so that data recording is realized; the data receiving device 24 is provided with a display screen, a menu bar is arranged after the display screen is started, and the display screen can display and store elevation data and verticality data received from the laser positioning device 2 in real time; positive and negative difference data are directly displayed through a preset elevation target value, so that accurate adjustment is facilitated; and moreover, the component numbers can be edited in advance in a menu bar, and the component numbers can be interconnected with a computer to transmit data after the data measurement is completed, so that a total EXCEL form file can be directly formed.

It should be noted that the laser positioning device and the wireless handheld device are all commercially available products, and the specific structure and the operation principle thereof are not described in detail herein.

The using method of the device specifically comprises the following steps: after the prefabricated wall plate component 1 is hoisted and placed, the device is used when accurate positioning adjustment is started, during use, the laser ranging probe 23 of the laser positioning device 2 is downwards adsorbed and fixed on the embedded magnetic seat 3 to ensure accurate positioning, then the handheld data receiving device switch is turned on, and parameters are preset in a menu bar. And then opening a switch of the laser positioning device 2, checking whether the real-time display data is normal, starting positioning adjustment of the component 1 according to the real-time display data after the preparation is ready, closing and taking down the laser positioning device 2 after the positioning of the component 1 is finished, reusing the next prefabricated component 1 according to the steps when the prefabricated component is hoisted, and having high turnover.

In addition, this device can also assist the support system and carry out floor elevation adjustment. When a next-step supporting system of the upper-layer laminated slab component is built, a laser ranging probe 23 of a laser positioning device 2 is upwards adsorbed and fixed on an embedded magnetic seat 3 of a peripheral component 1 to ensure accurate positioning, then a switch of a handheld data receiving device is turned on, a switch of the laser positioning device 2 is turned on again to check whether real-time display data are normal, after the real-time display data are ready, a supporting system elevation control component is ensured to be arranged on a laser path, and then floor elevation adjustment can be carried out according to the real-time display data.

To sum up, the utility model provides a simple to operate and the turnover of being convenient for, positioning accuracy is high, assembled shear force wall hoist and mount laser positioning device that can have enough to meet need the nature height.

The above embodiments are described in detail, but the above description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides an assembled shear force wall hoist and mount laser positioning device for location when component hoist and mount, its characterized in that: the laser positioning device comprises a laser positioning device and an embedded magnetic seat for fixing the laser positioning device, wherein an embedded fixing structure is arranged between the embedded magnetic seat and a component, and a magnetic attraction structure for adsorbing and installing the laser positioning device and a positioning structure for positioning the position of the laser positioning device are arranged on one side, far away from the component, of the embedded magnetic seat.

2. The assembled shear wall hoisting laser positioning device of claim 1, wherein: the embedded fixing structure comprises at least two embedded fixing pieces, wherein the embedded fixing pieces are embedded in the member in advance, and an embedded anchoring end is arranged at one end embedded in the member.

3. The assembled shear wall hoisting laser positioning device of claim 2, wherein: the embedded fixing structure further comprises a supporting seat, one end, far away from the embedded anchoring end, of the embedded fixing piece is fixedly connected with the supporting seat, and an adjusting part used for adjusting the inclination angle of the embedded magnetic seat is arranged between the supporting seat and the embedded magnetic seat.

4. The assembled shear wall hoisting laser positioning device of claim 3, wherein: the adjusting part comprises a rotary connecting piece fixedly connected on the supporting seat, at least one adjusting connecting piece fixedly connected on the supporting seat and an annular sliding groove fixedly installed on one side of the pre-buried magnetic seat facing the component, one end, far away from the supporting seat, of the rotary connecting piece is rotatably connected with the pre-buried magnetic seat through the rotary piece, the circle centers of the annular sliding groove and the supporting seat respectively fall on the central axis of the rotary connecting piece, a sliding block is fixedly connected to one end, far away from the supporting seat, of the adjusting connecting piece, and the sliding block is in sliding fit with the annular sliding groove.

5. The assembled shear wall hoisting laser positioning device of claim 4, wherein: still be equipped with the locking part who is used for locking pre-buried magnetic support position between supporting seat and the pre-buried magnetic support, locking part includes that at least four are the annular array and distribute in the supporting seat towards the draw-in groove structure on the one side of pre-buried magnetic support, a pair of rigid coupling in pre-buried magnetic support towards the one side of supporting seat on and can match the card strip structure of joint in the draw-in groove structure, card strip structure are arranged along the radial direction of supporting seat, annular chute respectively.

6. The assembled shear wall hoisting laser positioning device of claim 5, wherein: swivel connected coupler, regulation connecting piece are telescopic structure respectively, are respectively including pegging graft in first connecting piece, second connecting piece of an organic whole, the second connecting piece is cavity tubular structure, evenly be formed with many edges and strips that set up along its length direction on the outer wall of first connecting piece, just the open end of second connecting piece is equipped with the slot with the slip adaptation of edges and strips, the tip that first connecting piece is located the second connecting piece is equipped with the limiting plate, the size of limiting plate is greater than the size of the open end of second connecting piece, just the cover is equipped with expanding spring on the first connecting piece between limiting plate and the second connecting piece.

7. The assembled shear wall hoisting laser positioning device according to any one of claims 1 to 6, wherein: the magnetic attraction structure comprises a magnet sheet formed on one surface of the embedded magnetic seat, which is back to the component, and a magnetic fixing base fixedly connected to one surface of the laser positioning device, which faces to the embedded magnetic seat.

8. The assembled shear wall hoisting laser positioning device of claim 7, wherein: the positioning structure comprises four positioning bayonets which are used for positioning four corner ends of the laser positioning device respectively, and positioning notches are formed in one corner of each positioning bayonet, which faces the center of the embedded magnetic seat, respectively.

9. The assembled shear wall hoisting laser positioning device of claim 1, wherein: the laser positioning device further comprises a laser ranging probe, a verticality sensor and a wireless transmission module.

10. The assembled shear wall hoisting laser positioning device of claim 1, wherein: the system also comprises a data receiving device, wherein the data receiving device is wireless handheld equipment.

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