CN215631787U - Auxiliary positioning device for mounting prefabricated wall - Google Patents

Abstract

The utility model discloses an auxiliary positioning device for mounting an assembled prefabricated wall, which comprises: a support; the adjusting mechanism comprises a vertical moving assembly arranged on the support, a first horizontal moving assembly connected with the vertical moving assembly, and two groups of second horizontal moving assemblies connected with the first horizontal moving assembly, and a wall clamping assembly is arranged on each second horizontal moving assembly; the vertical moving assembly comprises an outer frame and a first air cylinder, the outer frame is connected with the support, the outer frame is connected with an inner frame in an up-down sliding mode, and an output shaft of the first air cylinder is connected with the inner frame. According to the utility model, the position of the prefabricated wall body is adjusted by arranging the vertical moving assembly, the first horizontal moving assembly and the second horizontal moving assembly, so that the mounting accuracy of the prefabricated wall body is improved.

Description

Auxiliary positioning device for mounting prefabricated wall

Technical Field

The utility model relates to the technical field of building equipment. More specifically, the utility model relates to an auxiliary positioning device for mounting an assembled prefabricated wall.

Background

The assembly type construction technology transfers a large amount of field operation work in the traditional construction mode to a factory for carrying out, such as building component prefabricated floor slabs, prefabricated wall boards, prefabricated stairs and the like, the prefabricated components are transported to a building construction site for direct assembly and installation, the environmental pollution is small, the construction speed is high, and the assembly type construction technology is popularized in a large range in China. The prefabricated wall body of assembled needs auxiliary device to accomplish at the work progress, but current wall body installation auxiliary positioning device needs many operating personnel to adjust, guide the wall body in the use to be convenient for adjust the position of prefabricated wall body, and influence the installation accuracy of prefabricated wall body.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The utility model also aims to provide an auxiliary positioning device for mounting an assembled prefabricated wall, which realizes the adjustment of the position of the prefabricated wall by arranging the vertical moving component, the first horizontal moving component and the second horizontal moving component so as to improve the mounting accuracy of the prefabricated wall.

To achieve these objects and other advantages in accordance with the purpose of the utility model, there is provided an assembly type prefabricated wall installation auxiliary positioning device, including:

a support, which is movable;

the adjusting mechanism comprises a vertical moving assembly arranged on the support, a first horizontal moving assembly connected with the vertical moving assembly, and two groups of second horizontal moving assemblies connected with the first horizontal moving assembly, and wall body clamping assemblies are arranged on the second horizontal moving assemblies.

Preferably, the vertical moving assembly comprises an outer frame and a first air cylinder, the outer frame is connected with the support, the inner frame is connected with the outer frame in an up-down sliding mode, and an output shaft of the first air cylinder is connected with the inner frame.

Preferably, the first horizontal moving assembly comprises a first base connected with the inner frame and a first bottom plate connected with the first base in a sliding manner, the first base is vertically and rotatably connected with a first rotating shaft, a first gear is coaxially and fixedly arranged on the first rotating shaft, and a first rack meshed with the first gear is arranged on the first bottom plate to drive the first bottom plate to move.

Preferably, two sets of second horizontal migration subassemblies are arranged along the length direction interval of first bottom plate, the second horizontal migration subassembly include with first bottom plate sliding connection's second bottom plate, be equipped with the second rack on the second bottom plate, wherein, vertical swivelling joint has the second pivot on the first bottom plate, coaxial setting has on the second pivot with the second gear that the second rack meshes mutually.

Preferably, the wall body solid component comprises a main clamping portion and an auxiliary clamping portion, the main clamping portion comprises a second air cylinder connected with the second bottom plate, a connecting rod connected with an output shaft of the second air cylinder, a main mandrel with the top end connected with the connecting rod, and a main rubber block rotationally connected with the main mandrel, the auxiliary clamping portion comprises a supporting block detachably connected with the second bottom plate, and a steering shaft, an auxiliary rubber block rotationally connected with the steering shaft, and a limiting component used for fixing the steering shaft are rotationally connected to the supporting block.

Preferably, the top surface of the supporting block is recessed downwards to form an accommodating groove for accommodating the secondary rubber block, the limiting assembly comprises a through hole arranged in the steering shaft, the through hole is arranged along the length direction of the steering shaft, two pairs of positioning holes are correspondingly arranged on the side wall of the accommodating groove, and the through hole is connected with the positioning holes through orientation rods to fix the steering shaft.

Preferably, the end of the second bottom plate is provided with a bump, the bump is provided with a plurality of first fixing holes at intervals along the length direction, the end of the supporting block is sunken to form a U-shaped notch, the notch is provided with a plurality of pairs of second fixing holes at intervals along the length direction, and the first fixing holes are connected with the second fixing holes through inserting rods so as to realize detachable connection of the second bottom plate and the supporting block.

Preferably, the first bottom plate is provided with a first elongated opening penetrating vertically, and the first rack is arranged on a side wall of the first opening.

Preferably, a rotatable main fixing block is arranged on the main mandrel, and the main rubber block is of a hollow structure and is fixedly arranged on the main fixing block.

Preferably, be equipped with the slide on the support, the slide with first bottom plate is parallel, it is equipped with the sliding block to slide on the slide, be equipped with the bracing piece on the sliding block, be equipped with rotatable camera on the bracing piece, when the wall body is located on the wall body solid subassembly, rotatable camera is located the below of wall body.

The utility model at least comprises the following beneficial effects:

firstly, the height of the first horizontal moving assembly and the height of the second horizontal moving assembly are driven by arranging the vertical moving assembly, and the position of the prefabricated wall 907 is adjusted by the first horizontal moving assembly and the second horizontal moving assembly, so that the installation accuracy of the prefabricated wall 907 is improved.

Secondly, the accommodating groove is arranged, so that the wall body can be fixed during working, and the auxiliary rubber block is convenient to accommodate through the accommodating groove so as to fix the wall body between the main rubber block and the auxiliary rubber block; through setting up lug, breach, inserted bar not only can realize the second bottom plate with the detachable of supporting shoe is connected, makes the second fixed orifices of difference right and the first fixed orifices of difference right pass through the inserted bar and is connected moreover, can effectively adjust the distance between main block rubber and the vice block rubber, realizes that prefabricated wall body installation auxiliary positioning device of assembled is applicable to the wall body of multiple thickness, improves positioner's range of application.

Thirdly, the accommodating groove is arranged, so that the wall body can be fixed during working, and the auxiliary rubber block is convenient to accommodate through the accommodating groove so as to fix the wall body between the main rubber block and the auxiliary rubber block; the inner frame is driven to move up and down through the first air cylinder so as to drive the first horizontal moving assembly to move up and down, and the stability of support can be effectively improved through the arrangement of the outer frame and the inner frame; the first gear, the first rack are arranged in the first opening and the first cover body, so that the first gear and the first rack are protected on one hand, and dust accumulation on the first gear and the first rack can be reduced on the other hand; the installation condition of the prefabricated wall body can be observed at multiple positions and multiple angles by arranging the slide rail, the slide block and the rotatable camera.

Fourthly, in the prior art, the position of the wall body is manually adjusted, the same position is inconvenient to maintain after adjustment, the lower steel bars need to be adjusted when meeting construction errors, and the prefabricated wall body is difficult to maintain at the same position after a period of time; the utility model can continuously keep the position of the prefabricated wall unchanged without manually adjusting the device, thereby being more convenient for the adjustment operation of the lower reinforcing steel bars.

Fifthly, in the prior art, the positions of the prefabricated wall body to be adjusted by people for squatting and observation and by hand are in close contact or direct contact with large components, so that the safety is low; in the utility model, the operator only needs to approach the prefabricated wall body when adjusting the position of the rotatable camera and the state of the auxiliary rubber block, and the operator is far away from the prefabricated wall body in other construction processes, thereby effectively improving the safety of the operator.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic structural diagram of an auxiliary positioning device for installation of an assembled prefabricated wall according to one embodiment of the utility model;

fig. 2 is a schematic structural diagram of an auxiliary positioning device for installation of an assembled prefabricated wall according to one embodiment of the utility model;

fig. 3 is a schematic structural diagram of a vertical moving assembly according to one embodiment of the present invention;

fig. 4 is a schematic structural diagram of the second horizontal moving assembly according to one embodiment of the present invention;

fig. 5 is a schematic structural view of the second horizontal moving assembly according to one embodiment of the present invention;

fig. 6 is a schematic structural diagram of the first base plate according to one embodiment of the present invention;

fig. 7 is a schematic structural diagram of the first base according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a rotatable camera according to one embodiment of the present invention;

fig. 9 is a schematic structural view of the second horizontal moving assembly according to one embodiment of the present invention;

FIG. 10 is a diagram illustrating an auxiliary positioning device for installation of prefabricated wall according to one embodiment of the present invention;

FIG. 11 is a diagram illustrating an auxiliary positioning device for installation of prefabricated wall according to one embodiment of the present invention;

fig. 12 is an enlarged view of a in fig. 11.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the utility model by referring to the description text.

As shown in fig. 1 to 12, the present invention provides an auxiliary positioning device for mounting an assembled prefabricated wall, comprising:

a bracket 1 movable to facilitate moving the wall 907 to a pre-installation position;

the adjusting mechanism comprises a vertical moving assembly arranged on the support 1, a first horizontal moving assembly connected with the vertical moving assembly, and two groups of second horizontal moving assemblies connected with the first horizontal moving assembly, wherein the second horizontal moving assemblies are provided with wall body 907 clamping assemblies.

In the technical scheme, the vertical moving assembly is used for driving the first horizontal moving assembly and the second horizontal moving assembly, the first horizontal moving assembly and the second horizontal moving assembly are used for adjusting the position of the wall 907 in the horizontal direction, the moving directions of the second horizontal moving assembly and the first horizontal moving assembly are different, and the prefabricated wall installation auxiliary positioning device is matched with a tower crane for use.

In the using process, in the first step, the wall 907 is moved to a pre-installation position through a tower crane, and the wall 907 is a primary positioning wall 907; secondly, moving the support 1 to a pre-installation position for fixing (at the moment, the vertical moving assembly drives the first horizontal moving group and the second horizontal moving assembly to ascend), and fixing the lower part of the wall body through the clamping assembly; thirdly, the steel bars from the position of the wall 907 to the bottom of the wall 907 are adjusted to correspond to the wall grouting sleeves one by one through the first horizontal moving assembly and the second horizontal moving fine adjustment, and the wall 907 is accurately positioned; fourthly, the wall 907 is moved downwards through a tower crane (the first horizontal moving assembly and the second horizontal moving assembly move downwards) until the reinforcing steel bar part at the bottom of the wall 907 is positioned in the wall grouting sleeve (at the moment, the wall is accurately positioned); fifthly, separating the bracket 1 from the wall 907 and removing the bracket 1; and sixthly, continuously moving the wall 907 downwards to the position, where the steel bars at the bottom of the wall 907 are located in the grouting sleeve of the wall 907 completely through a tower crane, and finishing the installation of the wall 907.

By adopting the technical scheme, the height of the first horizontal moving assembly and the height of the second horizontal moving assembly are driven by arranging the vertical moving assembly, and the position of the prefabricated wall 907 is adjusted by the first horizontal moving assembly and the second horizontal moving assembly, so that the installation accuracy of the prefabricated wall 907 is improved.

In another technical solution, the vertical moving assembly includes an outer frame 401 and a first cylinder 403 connected to the support 1, an inner frame 402 is connected to the outer frame 401 in a sliding manner up and down (a third sliding rail 404 is vertically disposed on the outer frame 401, a third sliding block is disposed on the inner frame 402, the third sliding block is slidably connected to the third sliding rail 404 to achieve the up-and-down sliding connection between the inner frame 402 and the outer frame 401), an output shaft of the first cylinder 403 is connected to the inner frame 402, the outer frame 401 and the inner frame 402 may both be U-shaped, the inner frame 402 is disposed below the outer frame 401, the third sliding rails 404 and the third sliding blocks are both two, the two third sliding rails 404 are respectively vertically disposed on two vertical edges of the outer frame 401, the two third sliding blocks are respectively disposed on two vertical edges of the inner frame 402, the first cylinder is disposed below the inner frame 402, and an output shaft of the first cylinder 403 is connected to a horizontal edge of the inner frame 402, in the using process, the first cylinder 403 is used for driving the first horizontal moving assembly and the second horizontal moving assembly to move up and down, the wall body moves downwards depending on the tower crane, after the position of the wall body 907 is adjusted through the first horizontal moving assembly and the second horizontal moving assembly, the output shaft of the first cylinder 403 contracts to the shortest length, and the wall body 407 moves downwards through the tower crane (the wall body 907 moves up and down depending on the tower crane, and the first cylinder 403 is only used for driving the first horizontal moving assembly and the second horizontal moving assembly to move up and down). By adopting the technical scheme, the inner frame 402 is driven to move up and down through the first air cylinder 403 so as to drive the first horizontal moving assembly to move up and down, and the supporting stability can be effectively improved by arranging the outer frame 401 and the inner frame 402.

In another technical solution, the first horizontal moving assembly includes a first base 501 connected to the inner frame 402, a first bottom plate 502 connected to the first base 501 in a sliding manner (a first sliding rail 510 is disposed on the first base 501, a first sliding block 512 is slidably disposed on the first sliding rail 510, the first sliding block 512 is connected to the first bottom plate 502 to realize the sliding connection between the first base 501 and the first bottom plate 502), a first rotating shaft 504 is vertically and rotatably connected to the first base 501, a first gear 509 is coaxially and fixedly disposed on the first rotating shaft 504 (the top end of the first rotating shaft 504 is provided with a first hand wheel 506, one of the manners of implementing the first gear 509 and the first rotating shaft 504 may be that the first base 501 is provided with a first gear shaft, the first gear shaft is rotatably connected to the first base 501 through a first bearing 511, the first gear shaft is connected to the first gear 509, the first gear 509 is connected to the first rotating shaft 504), and a first rack 508 engaged with the first gear 509 is disposed on the first base plate 502 to drive the first base plate 502 to move. By adopting the technical scheme, the first base plate 502 can be driven to horizontally move relative to the first base 501.

In another technical solution, two sets of second horizontal moving assemblies are arranged at intervals along the length direction of the first base plate 502, each second horizontal moving assembly includes a second base plate 601 slidably connected to the first base plate 502 (one implementation manner of the sliding connection may be specifically that a second base 516 is arranged on the first base plate 502, a second sliding rail 513 is arranged on the second base 516, a second sliding block 514 is arranged on the second sliding rail 513, the second base plate 601 is connected to the second sliding block 514, the moving direction of the second base 516 and the first base plate 502 is perpendicular, the second base plate 601 moves along the length direction of the second base 516, a second gear 607 is arranged on the second base plate 601, wherein a second rotating shaft 605 is vertically and rotatably connected to the first base plate 502, a second gear 603 engaged with the second gear 607 is coaxially and fixedly arranged on the second rotating shaft 605 (the top end of the second rotating shaft 605 is provided with a second gear 606, one implementation manner of the second gear 603 and the second rotating shaft 605 may specifically be: a first gear shaft is arranged on the second base 516, the first gear shaft is rotatably connected with the second base 516 through a second bearing 515, the second gear shaft is connected with the second gear 603, the second gear 602 is connected with the second rotating shaft 515, a long strip-shaped second opening 608 (which is identical to the moving direction of the second base plate 601) which penetrates through the second base plate 601 up and down is arranged on the second base plate 601, the second rack 607 is arranged on the side wall of the second opening 608, the second rotating shaft 605 penetrates through the second opening 608, a second cover body 602 is arranged at the top end of the second opening 608, a long strip-shaped second through hole 604 is arranged on the second cover body 602, the second rotating shaft 605 penetrates through the second through hole 604, the direction of the second through hole 604 is identical to that of the second opening 608, and a second wheel 606 is arranged at the end of the second rotating shaft 605. By adopting the technical scheme, the second gear 603 and the second rack 607 are arranged to drive the second bottom plate 601 to move, and the second gear 603 and the second rack 607 are arranged in the second opening 608 and the second cover 602, so that the second gear 603 and the second rack 607 are protected, and dust accumulation on the second gear 603 and the second rack 607 is reduced.

In another technical solution, the wall 907 solid component includes a main clamping portion and an auxiliary clamping portion, the main clamping portion includes a second cylinder 701 connected to the second bottom plate 601 (an output shaft of the second cylinder 701 is vertically disposed), a connecting rod 703 connected to an output shaft of the second cylinder 701, a main spindle 707 (the main spindle 707 is vertically disposed) having a top end connected to the connecting rod 703 (the connecting rod 703 is horizontally disposed), and a main rubber block 702 rotationally connected to the main spindle (a lower main end cap 704 is fixedly disposed under the main spindle 707, and an upper main end cap 705 is fixedly disposed at an upper end of the main spindle to prevent the main rubber block 702 from being disengaged from the main spindle 707), the auxiliary clamping portion includes a supporting block 805 detachably connected to the second bottom plate 601, a steering shaft 802 is rotationally connected to the supporting block 805, and an auxiliary rubber block 801 rotationally connected to the steering shaft 802 (one implementation manner of the spindle may be specifically that an auxiliary spindle 806 is fixedly disposed on the steering shaft 802, an auxiliary fixing block 807 is rotatably connected to the auxiliary mandrel 806, the auxiliary rubber block 801 is fixedly connected with the auxiliary fixing block 807, and an upper auxiliary end cover 803 is arranged at the top end of the auxiliary mandrel 806 to fix the auxiliary rubber block 801 and a limiting assembly for fixing the steering shaft 802. By adopting the technical scheme, the main clamping part and the auxiliary clamping part are arranged, the main rubber block 702 is driven to move by arranging the second air cylinder 701, so that the wall 907 is fixed, meanwhile, the fine adjustment effect on the position of the wall 907 is realized by the rotation of the main rubber block 702 and the rotation of the auxiliary rubber block 801, the installation accuracy of the prefabricated wall 907 can be effectively improved, and meanwhile, the fixing stability of the wall 907 can be improved.

In another technical solution, the top surface of the supporting block 805 is recessed downward to form a receiving groove 804 to receive the secondary rubber block 801, the limiting assembly includes a through hole 808 disposed in the steering shaft 802, the through hole 808 is disposed along the length direction of the steering shaft 802, two pairs of positioning holes 809 are correspondingly disposed on the side walls of the receiving groove 804 (two positioning holes 809 in each pair of positioning holes 809 are respectively disposed on two side walls of the receiving groove 804), and the through hole 808 and the positioning holes 809 are connected by a directional rod 810 to fix the steering shaft 802 (in the use process, the directional rod 810 passes through the through hole 808 and one pair of positioning holes 809). By adopting the technical scheme, the accommodating groove 804 is arranged, so that the wall 907 can be fixed during working, and the auxiliary rubber block 801 is convenient to accommodate by arranging the accommodating groove 804 so as to move the wall 907 out of the space between the main rubber block 702 and the auxiliary rubber block 801.

In another technical solution, a plurality of first fixing holes 905 are formed at intervals in an end portion of the second bottom plate 601, the plurality of first fixing holes 905 are formed at intervals in a length direction (i.e., a moving direction of the second bottom plate 601) of the protrusion 901, the end portion of the supporting block 805 is recessed to form a U-shaped notch 903, a plurality of pairs of second fixing holes 904 are formed at intervals in the length direction of the notch 903, the notch 903 is provided with a plurality of pairs of second fixing holes 904 at intervals (two second fixing holes 904 in each pair of second fixing holes 904 are respectively disposed on two sides of the notch 903), and the first fixing holes 905 are connected with the second fixing holes 904 through inserting rods 902 to detachably connect the second bottom plate 601 with the supporting block 805. By adopting the technical scheme, the second bottom plate 601 can be detachably connected with the supporting block 805 by arranging the convex block 901, the notch 903 and the inserting rod 902, the second fixing holes 904 in different pairs are connected with the first fixing holes 905 in different pairs through the inserting rod 902, the distance between the main rubber block 702 and the auxiliary rubber block 801 can be effectively adjusted, the assembling type prefabricated wall body installation auxiliary positioning device is suitable for wall bodies 907 with various thicknesses, and the application range of the positioning device is expanded.

In another technical solution, a first elongated opening 507 (which is in accordance with the moving direction of the first bottom plate 502) is formed in the first bottom plate 502, the first rack 508 is disposed on a side wall of the first opening 507, the first rotating shaft 504 passes through the first opening 507, a first cover 503 is disposed at a top end of the first opening 507, a first elongated through hole 505 is formed in the first cover 503, the first rotating shaft 504 passes through the first through hole 505, and the first through hole 505 is in accordance with the first opening 507. With this configuration, by disposing the first gear 509 and the first rack 508 in the first opening 507 and the first cover 503, the first gear 509 and the first rack 508 are protected, and dust accumulation on the first gear 509 and the first rack 508 can be reduced.

In another technical solution, a main fixing block 706 is rotatably connected to the main spindle 707 (the main spindle 707 penetrates through the main fixing block 706), and the main rubber block 702 is a hollow structure and is fixedly disposed on the main fixing block 706 (the main fixing block 706 penetrates through the main rubber block 702). By adopting the technical scheme, the stability supported by the main rubber block 702 is improved by arranging the main fixing block 706.

In another technical scheme, a slide rail 2 is arranged on the bracket 1, the slide rail 2 is parallel to the first bottom plate 502, a slide block 301 is slidably arranged on the slide rail 2, a support rod 302 is arranged on the slide block 301, a rotatable camera 3 is arranged on the support rod 302, when the wall 907 is positioned on the wall 907 solid component (after adjustment through a first horizontal moving component and a second horizontal moving component), the rotatable camera 3 is positioned below the prefabricated wall, a display screen 906 can be arranged on the bracket 1 in the using process (the connection between the display screen 906 and the rotatable camera 3 adopts the prior art), and the display screen 906 is connected with the rotatable camera 3 so as to better observe the irradiation range of the rotatable camera 3 (namely, the steel bars at the bottom of the wall 907 are connected with a wall grouting sleeve). By adopting the technical scheme, the installation condition of the prefabricated wall 907 is observed at multiple positions and multiple angles by arranging the slide rail 2, the slide block 301 and the rotatable camera 3.

The sizes of the main rubber block and the auxiliary rubber block are set based on the size of most of the wall body to improve the support stability.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the positioning aid for installation of prefabricated walls according to the present invention will be apparent to those skilled in the art.

While embodiments of the utility model have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. Prefabricated wall body installation auxiliary positioning device of assembled, its characterized in that includes:

a support, which is movable;

the adjusting mechanism comprises a vertical moving assembly arranged on the support, a first horizontal moving assembly connected with the vertical moving assembly, and two groups of second horizontal moving assemblies connected with the first horizontal moving assembly, and wall body clamping assemblies are arranged on the second horizontal moving assemblies.

2. The mounting auxiliary positioning device for the prefabricated wall body according to claim 1, wherein the vertical moving assembly comprises an outer frame connected with the support, and a first air cylinder, the outer frame is connected with an inner frame in an up-and-down sliding manner, and an output shaft of the first air cylinder is connected with the inner frame.

3. The mounting auxiliary positioning device for the prefabricated wall according to claim 2, wherein the first horizontal moving assembly comprises a first base connected with the inner frame and a first bottom plate slidably connected with the first base, a first rotating shaft is vertically and rotatably connected to the first base, a first gear is coaxially and fixedly arranged on the first rotating shaft, and a first rack engaged with the first gear is arranged on the first bottom plate to drive the first bottom plate to move.

4. The auxiliary positioning device for the installation of the prefabricated wall body according to claim 3, wherein two sets of second horizontal moving assemblies are arranged at intervals along the length direction of the first bottom plate, each second horizontal moving assembly comprises a second bottom plate slidably connected with the first bottom plate, a second rack is arranged on each second bottom plate, a second rotating shaft is vertically and rotatably connected to the first bottom plate, and a second gear meshed with the second rack is coaxially and fixedly arranged on each second rotating shaft.

5. The auxiliary positioning device for the installation of the prefabricated wall body according to claim 4, wherein the wall body solid component comprises a main clamping part and an auxiliary clamping part, the main clamping part comprises a second cylinder connected with the second bottom plate, a connecting rod connected with an output shaft of the second cylinder, a main mandrel with the top end connected with the connecting rod, and a main rubber block rotationally connected with the main mandrel, the auxiliary clamping part comprises a supporting block detachably connected with the second bottom plate, and a steering shaft, an auxiliary rubber block rotationally connected with the steering shaft, and a limiting component for fixing the steering shaft are rotationally connected with the supporting block.

6. The auxiliary positioning device for the assembly type prefabricated wall body installation according to claim 5, wherein the top surface of the supporting block is recessed downwards to form a receiving groove for receiving the secondary rubber block, the limiting component comprises a through hole arranged in the steering shaft, the through hole is arranged along the length direction of the steering shaft, two pairs of positioning holes are correspondingly arranged on the side wall of the receiving groove, and the through hole is connected with the positioning holes through the orientation rod to fix the steering shaft.

7. The auxiliary positioning device for the installation of the prefabricated assembly wall of claim 5, wherein the end of the second bottom plate is provided with a plurality of first fixing holes at intervals along the length direction of the second bottom plate, the end of the supporting block is recessed to form a U-shaped notch, the notch is provided with a plurality of pairs of second fixing holes at intervals along the length direction of the supporting block, and the first fixing holes and the second fixing holes are connected through inserting rods to realize the detachable connection of the second bottom plate and the supporting block.

8. The auxiliary positioning device for the installation of the prefabricated assembly wall body as claimed in claim 3, wherein the first bottom plate is provided with a first elongated opening which penetrates vertically, and the first rack is arranged on the side wall of the first opening.

9. The auxiliary positioning device for the installation of the prefabricated wall body according to claim 5, wherein a rotatable main fixing block is arranged on the main mandrel, and the main rubber block is of a hollow structure and is fixedly arranged on the main fixing block.

10. The assembly-type prefabricated wall installation auxiliary positioning device of claim 3, wherein a slide is arranged on the support, the slide is parallel to the first bottom plate, a sliding block is slidably arranged on the slide, a support rod is arranged on the sliding block, a rotatable camera is arranged on the support rod, and when the wall body is arranged on the wall body solid component, the rotatable camera is arranged below the wall body.

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