CN219710990U

CN219710990U - Building aluminum template demolding device

Info

Publication number: CN219710990U
Application number: CN202321122490.3U
Authority: CN
Inventors: 张翠娟; 李军停; 张凯敏; 董怀羽; 程文龙; 张晓雷
Original assignee: Hebei Shunze Aluminum Products Technology Co ltd
Current assignee: Hebei Shunze Aluminum Products Technology Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-09-19
Anticipated expiration: 2033-05-11

Abstract

The utility model discloses a building aluminum template demolding device, which comprises a base, wherein a bracket is fixed on the base, a first rotating shaft and a rotary driving mechanism for driving the first rotating shaft to rotate are arranged on the bracket, a roll-over stand is arranged on the first rotating shaft, a linear driving mechanism is arranged on the roll-over stand, an adsorption mechanism is arranged at the output end of the linear driving mechanism, and the adsorption mechanism comprises two vacuum suckers with changeable intervals; the base is provided with a travelling wheel and a stepping mechanism. The aluminum templates can be stably adsorbed by arranging the two vacuum chucks, the distance between the two vacuum chucks is adjustable, the height is adjustable, the aluminum templates with various sizes and different heights can be adsorbed conveniently, the vacuum chucks are driven to rotate by the rotary driving mechanism, and the aluminum templates on walls and roofs can be adsorbed conveniently; the vacuum chuck is driven to move through the linear driving mechanism, so that the aluminum template is convenient to detach, compared with the mode of prying the aluminum template outside a crowbar, the stress of the aluminum template is more uniform, the deformation of the aluminum template is reduced, and the aluminum template is convenient to renew and recycle.

Description

Building aluminum template demolding device

Technical Field

The utility model relates to the technical field of aluminum template disassembly, in particular to a building aluminum template disassembling device.

Background

After the aluminum template is used, the aluminum template is removed through the die removing device, and the removed aluminum template can be reused after being renovated. Most of the existing dismounting devices adopt a method of dismounting an aluminum template by using a crowbar, for example, the application number is CN202022577467.6 patent, and discloses a novel die dismounting device, wherein the template is dismounted by using a lever principle during die dismounting operation through arranging a first fin and a second fin to form a certain included angle.

When the device is used for removing the die, the stress of the aluminum film plate is uneven, the stress of the contact point of the die remover and the aluminum film plate is large, and the aluminum film plate is easy to deform in the process of removing, so that the recycling is influenced.

The foregoing is not necessarily a prior art, and falls within the technical scope of the inventors.

Disclosure of Invention

Based on the above, it is necessary to provide a building aluminum form stripping device for solving the above technical problems.

In order to achieve the above purpose, the utility model provides a building aluminum template demolding device, which comprises a base, wherein a bracket is fixed on the base, a first rotating shaft and a rotary driving mechanism for driving the first rotating shaft to rotate are arranged on the bracket, a roll-over stand is arranged on the first rotating shaft, a linear driving mechanism is arranged on the roll-over stand, an adsorption mechanism is arranged at the output end of the linear driving mechanism, and the adsorption mechanism comprises two vacuum suckers with changeable intervals; the walking wheel and the stepping mechanism are arranged on the base, the stepping mechanism comprises a pedal, a pressure spring, a first guide rod, a first guide sleeve and a antiskid plate, the first guide sleeve is fixedly arranged on the base, the first guide rod is slidably arranged in the first guide sleeve, the upper end of the first guide rod is located above the base and fixedly connected with the pedal, the lower end of the first guide rod is located below the base and fixedly connected with the antiskid plate, the upper end of the pressure spring is connected with the pedal, and the lower end of the pressure spring is connected with the base. The vacuum chuck is a sponge vacuum chuck.

By adopting the scheme, the aluminum template is adsorbed by utilizing the two vacuum chucks, after a human body stands on the pedal, the pressure spring is compressed, the pedal drives the first guide rod and the antiskid plate to descend, so that the antiskid plate lands, the friction force between the device and the ground is increased, the vacuum chucks and the aluminum template are conveniently driven to move by the linear driving mechanism, the aluminum template is removed, the stress of the aluminum template is more uniform compared with a crowbar external prying mode, the deformation of the aluminum template is reduced, and the aluminum template is conveniently retreaded and reused; the distance between the two vacuum sucking discs is adjustable, the height is adjustable, and the aluminum templates with different sizes and different heights can be adsorbed conveniently; the turnover frame and the vacuum chuck are driven to rotate through the rotary driving mechanism, and the vacuum chuck can adsorb the aluminum template on the roof after being turned by 90 degrees.

Preferably, the rotary driving mechanism comprises a first worm wheel and a first worm, the first worm wheel is fixedly arranged on the first rotating shaft, the first worm is rotatably arranged on the bracket, and the first worm wheel is meshed with the first worm.

Through adopting above-mentioned scheme, through driving first worm rotation, drive first worm wheel, first pivot rotation, first worm wheel and first worm play laborsaving and self-locking effect, can be convenient for drive first pivot rotation, restrict first pivot rotation simultaneously for the angle of roll-over stand can be controlled.

Preferably, the rotary driving mechanism further comprises a first bevel gear, a second rotating shaft and a first rotary hand wheel, wherein the first bevel gear is fixedly arranged on the first worm, the second rotating shaft is rotatably arranged on the bracket, the first rotary hand wheel and the second bevel gear are fixedly arranged on the second rotating shaft, and the second bevel gear is meshed and connected with the first bevel gear.

Through adopting above-mentioned scheme, through rotating first rotatory hand wheel, and then drive second pivot, second bevel gear and rotate, second bevel gear drives first bevel gear, first worm and rotates, can be convenient for drive first worm and rotate.

Preferably, the linear driving mechanism comprises a third rotating shaft, a cylindrical gear, a straight rack, a chute guide rail and a sliding plate, wherein the third rotating shaft is rotatably arranged on the roll-over stand, the cylindrical gear is fixedly arranged on the third rotating shaft, the chute guide rail is fixedly arranged on the roll-over stand, the sliding plate is slidably arranged on the chute guide rail, the straight rack is fixed at the lower end of the sliding plate, and the straight rack is meshed and connected with the cylindrical gear.

Through adopting above-mentioned scheme, spout guide rail plays support and direction effect to the slide, rotates through the drive third pivot, and the third pivot drives the rotation of cylindrical gear, and the cylindrical gear drives straight rack, slide and removes, and then drives vacuum chuck and remove.

Preferably, the linear driving mechanism further comprises a second worm wheel and a second worm, the second worm wheel is fixedly arranged on the third rotating shaft, the second worm is rotatably arranged on the roll-over stand, and the second worm wheel is meshed with the second worm.

Through adopting above-mentioned scheme, through driving the rotation of second worm, drive second worm wheel, third pivot is rotatory, and second worm wheel and second worm play laborsaving and self-locking effect, can be convenient for drive third pivot and rotate, restriction third pivot rotation simultaneously for adsorption equipment's position can be controlled.

Preferably, the linear driving mechanism further comprises a third bevel gear, a fourth rotating shaft and a second rotating hand wheel, wherein the third bevel gear is fixedly arranged on the second worm, the fourth rotating shaft is rotatably arranged on the roll-over stand, the second rotating hand wheel and the fourth bevel gear are fixedly arranged on the fourth rotating shaft, and the third bevel gear is meshed with the fourth bevel gear.

Through adopting above-mentioned scheme, through rotating the rotatory hand wheel of second, and then drive fourth pivot, fourth bevel gear and rotate, fourth bevel gear drives third bevel gear, second worm and rotates, can be convenient for drive second worm and rotate.

Preferably, the adsorption mechanism further comprises a mounting frame and two symmetrically arranged manual sliding tables fixed on the mounting frame, the two manual sliding tables are coaxially arranged, and the two vacuum suction cups are respectively arranged at the output ends of the two manual sliding tables.

Through adopting above-mentioned scheme, through two manual slip tables of operation, can be convenient for adjust two vacuum chuck's interval and height.

Preferably, the linear driving mechanism further comprises a second guide rod and a second guide sleeve, the second guide sleeve is fixedly arranged on the roll-over stand, the second guide rod is slidably arranged in the second guide sleeve, and one end of the second guide rod is fixedly connected with the mounting frame.

Through adopting above-mentioned scheme, second guide bar and second uide bushing play support and direction effect to adsorption equipment, can make straight line actuating mechanism can drive adsorption equipment steady rectilinear motion.

The beneficial effects of this technical scheme:

the aluminum templates can be stably adsorbed by arranging the two vacuum chucks, the distance between the two vacuum chucks is adjustable, the height is adjustable, the aluminum templates with various sizes and different heights can be adsorbed conveniently, the vacuum chucks are driven to rotate by the rotary driving mechanism, and the aluminum templates on walls and roofs can be adsorbed conveniently; the vacuum chuck is driven to move through the linear driving mechanism, so that the aluminum template is convenient to detach, the stress of the aluminum template is more uniform compared with a crowbar external prying mode, the deformation of the aluminum template is reduced, and the aluminum template is convenient to renew and recycle;

through setting up and stepping on the mechanism, stand on the footboard through the human body, utilize the weight to compress the pressure spring, the footboard drives first guide bar, antiskid ribbed tile decline for antiskid ribbed tile lands, increases the frictional force between this device and the ground, avoids the base to remove, can be convenient for drive vacuum chuck, aluminum mould board through sharp actuating mechanism and remove the aluminum mould board.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is another state diagram (flipped 90 degrees) of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

in the figure, 1, a base; 2. a bracket; 3. a first rotating shaft; 4. a rotary driving mechanism; 41. a first worm wheel; 42. a first worm; 43. a first bevel gear; 44. a second bevel gear; 45. a second rotating shaft; 46. a first rotary hand wheel; 5. a roll-over stand; 6. a linear driving mechanism; 601. a third rotating shaft; 602. a cylindrical gear; 603. a straight rack; 604. a chute guide rail; 605. a slide plate; 606. a second worm wheel; 607. a second worm; 68. a third bevel gear; 609. a fourth bevel gear; 610. a fourth rotating shaft; 611. the second rotating hand wheel; 612. a second guide bar; 613. a second guide sleeve; 7. an adsorption mechanism; 71. a vacuum chuck; 72. a mounting frame; 73. a manual sliding table; 8. a walking wheel; 9. a stepping mechanism; 91. a pedal; 92. a pressure spring; 93. a first guide bar; 94. a first guide sleeve; 95. a antiskid plate.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

Referring to fig. 1 to 3, an embodiment of the present utility model provides a building aluminum form stripping device, including a base 1, a support 2 is fixed on the base 1, a first rotating shaft 3 and a rotation driving mechanism 4 for driving the first rotating shaft 3 to rotate are installed on the support 2, the first rotating shaft 3 is rotatably installed on the support 2 through a bearing, a roll-over stand 5 is installed on the first rotating shaft 3, a linear driving mechanism 6 is installed on the roll-over stand 5, an adsorption mechanism 7 is installed at an output end of the linear driving mechanism 6, the adsorption mechanism 7 includes two vacuum chucks 71 with variable intervals, the vacuum chucks 71 are sponge vacuum chucks 71 in the prior art, the sponge vacuum chucks 71 mainly consist of sponge, a vacuum generator, an energy accumulator, an independent valve body, a housing and an air interface, the sponge in contact with the sponge vacuum chucks 71 can be well contacted with the surface of an aluminum form with unevenness and covered with concrete blocks due to softness and plasticity, a whole block of sealing vacuum chuck keeps good air supply performance, whole suction force can be larger, an input end of the vacuum chucks 71 is communicated with an external air source, and the vacuum chucks 71 can be also arranged on the base 1, such as an air pump 71; the walking wheel 8 and the stepping mechanism 9 are installed on the base 1, the stepping mechanism 9 comprises a pedal 91, a pressure spring 92, a first guide rod 93, a first guide sleeve 94 and a antiskid plate 60595, the first guide rod 93 and the first guide sleeve 94 are all four, the first guide sleeve 94 is fixedly installed on the base 1, the first guide rod 93 is slidably installed in the first guide sleeve 94, the upper end of the first guide rod 93 is located above the base 1 and fixedly connected with the pedal 91, the lower end of the first guide rod 93 is located below the base 1 and fixedly connected with the antiskid plate 60595, the upper end of the pressure spring 92 is connected with the pedal 91, and the lower end of the pressure spring 92 is connected with the base 1.

The travelling wheel 8 is arranged, so that the device can be conveniently pushed to move, the travelling wheel 8 can be arranged as a universal wheel with a brake, and the aluminum template can be stably adsorbed by arranging two vacuum sucking discs 71; after the vacuum chuck 71 adsorbs the aluminum template, a human body can stand on the pedal 91, the pressure spring 92 is compressed by the weight, and the pedal 91 drives the first guide rod 93 and the antiskid plate 60595 to descend, so that the antiskid plate 60595 lands, the friction between the device and the ground is increased, and the movement of the base 1 is avoided; the vacuum chuck 71 and the aluminum template can be conveniently driven to move by the linear driving mechanism 6, so that the aluminum template is removed, and compared with a crowbar external prying mode, the aluminum template is more uniformly stressed, the deformation of the aluminum template is reduced, and the aluminum template is conveniently retreaded and reused; the distance between the two vacuum chucks 71 is adjustable, the height is adjustable, and the aluminum templates with different sizes and different heights can be adsorbed conveniently; the turnover frame 5 and the vacuum chuck 71 are driven to rotate by the rotary driving mechanism 4, and as shown in fig. 2, the vacuum chuck 71 can adsorb the aluminum templates on the roof after being turned by 90 degrees.

In a specific embodiment, the rotation driving mechanism 4 includes a first worm wheel 41 and a first worm 42, the first worm wheel 41 is fixedly mounted on the first rotating shaft 3, the first worm 42 is rotatably mounted on the bracket 2 specifically through a bearing, and the first worm wheel 41 is in meshed connection with the first worm 42.

Through driving first worm 42 to rotate, drive first worm wheel 41, first pivot 3 rotation, first worm wheel 41 and first worm 42 play laborsaving and self-locking effect, can be convenient for drive first pivot 3 rotation, restrict first pivot 3 rotation simultaneously for the angle of roll-over stand 5 can be controlled.

In a specific embodiment, the rotary driving mechanism 4 further includes a first bevel gear 43, a second bevel gear 44, a second rotating shaft 45 and a first rotating hand wheel 46, where the first bevel gear 43 is fixedly mounted on the first worm 42, the second rotating shaft 45 is rotatably mounted on the bracket 2, the first rotating hand wheel 46 and the second bevel gear 44 are fixedly mounted on the second rotating shaft 45, and the second bevel gear 44 is in meshed connection with the first bevel gear 43.

By rotating the first rotating hand wheel 46, the second rotating shaft 45 and the second bevel gear 44 are driven to rotate, and the second bevel gear 44 drives the first bevel gear 43 and the first worm 42 to rotate, so that the first worm 42 can be conveniently driven to rotate.

In a specific embodiment, the linear driving mechanism 6 includes a third rotating shaft 601, a cylindrical gear 602, a straight rack 603, a sliding groove guide rail 604 and a sliding plate 605, wherein the third rotating shaft 601 is rotatably mounted on the roll-over stand 5, the third rotating shaft 601 is rotatably mounted on the roll-over stand 5 specifically through a bearing, the cylindrical gear 602 is fixedly mounted on the third rotating shaft 601, the sliding groove guide rail 604 is fixedly mounted on the roll-over stand 5, the sliding plate 605 is slidably mounted on the sliding groove guide rail 604, the straight rack 603 is fixed at the lower end of the sliding plate 605, and the straight rack 603 is in meshed connection with the cylindrical gear 602.

The sliding groove guide rail 604 plays a role in supporting and guiding the sliding plate 605, and the third rotating shaft 601 is driven to rotate, the third rotating shaft 601 drives the cylindrical gear 602 to rotate, and the cylindrical gear 602 drives the straight rack 603 and the sliding plate 605 to move, so that the vacuum chuck 71 is driven to move.

In a specific embodiment, the linear driving mechanism 6 further includes a second worm wheel 606, a second worm 607, where the second worm wheel 606 is fixedly installed on the third rotating shaft 601, the second worm 607 is rotatably installed on the roll-over stand 5, and the second worm 607 is specifically rotatably installed on the roll-over stand 5 through a bearing, and the second worm wheel 606 is engaged with the second worm 607.

Through driving second worm 607 rotation, drive second worm wheel 606, the rotation of third pivot 601, second worm wheel 606 and second worm 607 play laborsaving and self-locking effect, can be convenient for drive third pivot 601 rotation, restrict the rotation of third pivot 601 simultaneously for adsorption equipment 7's position can be controlled.

In a specific embodiment, the linear driving mechanism 6 further includes a third bevel gear 608, a fourth bevel gear 609, a fourth rotating shaft 610, and a second rotating hand wheel 611, where the third bevel gear 608 is fixedly installed on the second worm 607, the fourth rotating shaft 610 is rotatably installed on the roll-over stand 5, the second rotating hand wheel 611 and the fourth bevel gear 609 are fixedly installed on the fourth rotating shaft 610, and the third bevel gear 608 is engaged with the fourth bevel gear 609.

By rotating the second rotating hand wheel 611, the fourth rotating shaft 610 and the fourth bevel gear 609 are further driven to rotate, and the fourth bevel gear 609 drives the third bevel gear 608 and the second worm 607 to rotate, so that the second worm 607 can be conveniently driven to rotate.

In a specific embodiment, the adsorption mechanism 7 further includes a mounting frame 72 and two symmetrically arranged manual sliding tables 73 fixed on the mounting frame 72, the two manual sliding tables 73 are coaxially arranged, and the two vacuum chucks 71 are respectively installed at the output ends of the two manual sliding tables 73.

By operating the two manual slipways 73, it is possible to easily adjust the pitch and height of the two vacuum chucks 71.

In a specific embodiment, the linear driving mechanism 6 further includes a second guide rod 612 and a second guide sleeve 613, the second guide sleeve 613 is fixedly mounted on the roll-over stand 5, the second guide rod 612 is slidably mounted in the second guide sleeve 613, and one end of the second guide rod 612 is fixedly connected with the mounting frame 72.

The second guide rod 612 and the second guide sleeve 613 are two, and the second guide rod 612 and the second guide sleeve 613 can support and guide the adsorption mechanism 7, so that the linear driving mechanism 6 can drive the adsorption mechanism 7 to move linearly stably.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Claims

1. The utility model provides a building aluminum template demolding device, includes base (1), is fixed with support (2) on base (1), its characterized in that, install first pivot (3) and be used for driving first pivot (3) pivoted rotary driving mechanism (4) on support (2), install roll-over stand (5) on first pivot (3), install sharp actuating mechanism (6) on roll-over stand (5), adsorption mechanism (7) are installed to sharp actuating mechanism (6) output, adsorption mechanism (7) are including two interval changeable vacuum chuck (71); the base (1) is provided with a traveling wheel (8) and a pressing mechanism (9), the pressing mechanism (9) comprises a pedal (91), a pressure spring (92), a first guide rod (93), a first guide sleeve (94) and a antiskid plate (605) (95), the first guide sleeve (94) is fixedly arranged on the base (1), the first guide rod (93) is slidably arranged in the first guide sleeve (94), the upper end of the first guide rod (93) is located above the base (1) and fixedly connected with the pedal (91), the lower end of the first guide rod (93) is located below the base (1) and fixedly connected with the antiskid plate (605) (95), the upper end of the pressure spring (92) is connected with the pedal (91), and the lower end of the pressure spring (92) is connected with the base (1).

2. The building aluminum formwork stripping device according to claim 1, wherein the rotary driving mechanism (4) comprises a first worm wheel (41) and a first worm (42), the first worm wheel (41) is fixedly arranged on the first rotating shaft (3), the first worm (42) is rotatably arranged on the support (2), and the first worm wheel (41) is in meshed connection with the first worm (42).

3. The building aluminum form stripping device according to claim 2, wherein the rotary driving mechanism (4) further comprises a first bevel gear (43), a second bevel gear (44), a second rotating shaft (45) and a first rotary hand wheel (46), the first bevel gear (43) is fixedly arranged on the first worm (42), the second rotating shaft (45) is rotatably arranged on the bracket (2), the first rotary hand wheel (46) and the second bevel gear (44) are fixedly arranged on the second rotating shaft (45), and the second bevel gear (44) is in meshed connection with the first bevel gear (43).

4. The building aluminum formwork stripping device according to claim 1, wherein the linear driving mechanism (6) comprises a third rotating shaft (601), a cylindrical gear (602), a straight rack (603), a sliding groove guide rail (604) and a sliding plate (605), the third rotating shaft (601) is rotatably mounted on the roll-over stand (5), the cylindrical gear (602) is fixedly mounted on the third rotating shaft (601), the sliding groove guide rail (604) is fixedly mounted on the roll-over stand (5), the sliding plate (605) is slidably mounted on the sliding groove guide rail (604), the straight rack (603) is fixed at the lower end of the sliding plate (605), and the straight rack (603) is in meshed connection with the cylindrical gear (602).

5. The building aluminum formwork stripping device according to claim 4, wherein the linear driving mechanism (6) further comprises a second worm wheel (606) and a second worm (607), the second worm wheel (606) is fixedly arranged on the third rotating shaft (601), the second worm (607) is rotatably arranged on the turnover frame (5), and the second worm wheel (606) is in meshed connection with the second worm (607).

6. The building aluminum formwork stripping device according to claim 5, wherein the linear driving mechanism (6) further comprises a third bevel gear (608), a fourth bevel gear (609), a fourth rotating shaft (610) and a second rotating hand wheel (611), the third bevel gear (608) is fixedly arranged on the second worm (607), the fourth rotating shaft (610) is rotatably arranged on the roll-over stand (5), the second rotating hand wheel (611) and the fourth bevel gear (609) are fixedly arranged on the fourth rotating shaft (610), and the third bevel gear (608) is in meshed connection with the fourth bevel gear (609).

7. The building aluminum formwork stripping device according to claim 1, wherein the adsorption mechanism (7) further comprises a mounting frame (72) and two symmetrically arranged manual sliding tables (73) fixed on the mounting frame (72), the two manual sliding tables (73) are coaxially arranged, and the two vacuum suction cups (71) are respectively arranged at the output ends of the two manual sliding tables (73).

8. The building aluminum formwork stripping device according to claim 7, wherein the linear driving mechanism (6) further comprises a second guide rod (612) and a second guide sleeve (613), the second guide sleeve (613) is fixedly arranged on the roll-over stand (5), the second guide rod (612) is slidably arranged in the second guide sleeve (613), and one end of the second guide rod (612) is fixedly connected with the mounting frame (72).