阅读说明：本技术 一种高稳定性的门式起重机 (Gantry crane with high stability ) 是由 叶丹茜 于 2020-07-15 设计创作，主要内容包括：本发明公开了高稳定性的门式起重机,包括基面、仓库、左支撑腿和右支撑腿,所述仓库的左侧开设有仓门,所述基面对接仓门的出入口并安装,所述右支撑腿和左支撑腿分别位于基面的上方,所述基面的上表面左右两侧均焊接有轨体,所述轨体的左右槽口处安装有槽轮体,两组所述槽轮体通过轴承连接有轮体安装座。该高稳定性的门式起重机,在两组同向双杆靠上部位焊接连接杆,用于对对接板的支撑,待左支撑腿和右支撑腿角度调节好后,在其中间部位所连接的支撑骨杆将会处于一个横向状态,并对左支撑腿和右支撑腿的支撑定位,使其稳固,同时在支撑骨杆的上表面安装安装的横向工装用于对物件的提升与位移。(The invention discloses a high-stability portal crane which comprises a base plane, a warehouse, a left supporting leg and a right supporting leg, wherein a bin door is arranged on the left side of the warehouse, the base plane is in butt joint with an entrance and an exit of the bin door and is installed, the right supporting leg and the left supporting leg are respectively positioned above the base plane, rail bodies are welded on the left side and the right side of the upper surface of the base plane, grooved wheel bodies are installed at the left notch and the right notch of each rail body, and the two groups of grooved wheel bodies are connected with wheel body installation seats through bearings. This gantry crane of high stability leans on upper portion position welded connection pole at two sets of syntropy double poles for to the support of butt joint plate, treat left supporting leg and right supporting leg angle modulation back, the support bone pole that connects at its middle part will be in a horizontal state, and to the support location of left supporting leg and right supporting leg, make it firm, the horizontal frock of the last surface mounting installation of supporting bone pole is used for promotion and displacement to the article simultaneously.)

1. The utility model provides a gantry crane of high stability, includes base face (1), warehouse (2), left supporting leg (13) and right supporting leg (8), its characterized in that: the warehouse comprises a warehouse body (2), a base surface (1), rails (12), groove wheel bodies (39), two groups of groove wheel bodies (39) and pressure seats (37), wherein the warehouse door (3) is arranged on the left side of the warehouse body (2), the base surface (1) is in butt joint with an entrance and an exit of the warehouse door (3) and is installed, the right supporting leg (8) and the left supporting leg (13) are respectively positioned above the base surface (1), the left side and the right side of the upper surface of the base surface (1) are welded with the rails (12), the left groove opening and the right groove opening of the rails (12) are provided with the groove wheel bodies (39), the two groups of groove wheel bodies (39) are connected with wheel body installation seats (4) through bearings, the left side and the right side of the upper surface of the wheel body installation seats (4) are welded with the pressure seats (37), the;

the top ends of the right supporting leg (8) and the left supporting leg (13) are respectively provided with a top seat (57), the left side upper surface of the top seat (57) is provided with a butt joint base block (38), the right side upper surface of the top seat (57) is provided with a butt joint plate (6), the upper surface of the butt joint plate (6) is welded with a welding plate (52), the outer walls of the welding plate (52) and the butt joint base block (38) are respectively welded with a positioning panel (20), the outer wall of the positioning panel (20) is welded with a guardrail (19), the inner side of the positioning panel (20) is welded with a transverse nut fastening strip (51) close to the right part, the upper surface of the butt joint base block (38) is welded with a base (17), the upper surface of the base (17) is provided with a roller mounting seat (50), and rollers are mounted on the inner side of the roller mounting seat;

the utility model discloses a support frame, including right side supporting leg (8) and left supporting leg (13), the inboard all welding of support bone pole (7), two sets of the upper surface screw connection of support bone pole (7) has electric power input seat (9), and is two sets of the welding has horizontal frock (36) between electric power input seat (9), the lower surface of horizontal frock (36) is provided with frame body (28), the welding has triangular support pole support body (10) in the inside casing of horizontal frock (36).

2. High stability gantry crane according to claim 1, characterized in that: the lower surface of the butt joint plate (6) is welded with a welding bottom plate (54), the left side and the right side of the lower surface of the welding bottom plate (54) are respectively provided with a shaft lever installation seat (53), the bottom end of the shaft lever installation seat (53) at the right side is welded with a connecting rod (55), the lower surface of the shaft lever installation seat (53) at the left side is welded with the top end of the left supporting leg (13), the bottom end of the connecting rod (55) is provided with a rotating shaft block, the block body part is welded with the equidirectional double rods (56), the bottom ends of the equidirectional double rods (56) are welded with the inner sides of the left supporting legs (13), an inclined backbone (15) is welded at the outer side of the left supporting leg (13), the top end of the inclined backbone (15) is welded with a top seat (57), axial support (42) are installed to the bottom of left side supporting leg (13), the bottom of axial support (42) and the upper surface welding of butt joint pillar (11).

3. High stability gantry crane according to claim 1, characterized in that: the welding of the upper surface right side of horizontal frock (36) has vertical board (25), the right side outer wall of L shape locating plate (26) leans on the lower part position welding to have L shape wheel frid (35), the last surface mounting of L shape wheel frid (35) has motor (21), gyro wheel (22) are installed to the drive end of motor (21), the front end welding of motor (21) has L shape locating plate (26), the protrusion board is installed to the left wall of L shape locating plate (26), and rotates on the back of protrusion board and be connected with gyro wheel two (34), the outer wall of gyro wheel two (34) contacts with the lower surface of L shape wheel frid (35), the lower surface and the frame body (28) top welding of gyro wheel two (34).

4. High stability gantry crane according to claim 3, characterized in that: the bottom end of the L-shaped positioning plate (26) is welded with a supporting top plate (33), the number of the first motors (21) is two, a fixing plate is arranged between the two first motors (21), a transverse welding frame (24) is welded on the outer wall of the fixing plate, double-body wheels (23) are arranged on the lower surface of a transverse block of the transverse welding frame (24), the vertical plate (25) is located between the two double-body wheels (23), a support rod (27) is welded in an inner frame of the frame body (28), a transverse square column (29) is arranged at the center of the frame body (28), and the top end of the transverse square column (29) is welded with the center of the lower surface of the supporting top plate (33).

5. High stability gantry crane according to claim 4, characterized in that: the bottom of horizontal square column (29) has nut welded plate (32) through the screw installation, the outer wall welding of nut welded plate (32) leans on lower position at the inside casing of frame body (28), motor two (30) are installed to the inside casing lower part of frame body (28), rope winding box (31) are installed to the drive end of motor two (30), the winding has the iron rope on rope winding box (31) outer wall.

6. High stability gantry crane according to claim 1, characterized in that: two sets of the last skin weld of gyro wheel mount pad (50) has installation base board (49), the upper surface of installation base board (49) leans on left position to install motor three (48), gear installation case (40) are installed to the drive end of motor three (48), the lower surface of gear installation case (40) is fixed with the upper surface right side nut of installation base board (49), rope winding roller (41) are installed to the right side drive end of gear installation case (40).

7. High stability gantry crane according to claim 6, characterized in that: the upper surface right side position ann amber of installation base plate (49) has mount (45) that, install a location section of thick bamboo (44) in the frame of mount (45), the drive end of a location section of thick bamboo (44) is installed around roller (46), the welding has centre gripping axostylus axostyle board (43) on the left wall of mount (45), the left side holder mouth department of centre gripping axostylus axostyle board (43) rotates and is connected with motor three (48), motor three (48) are in the right side of installation base plate (49).

Technical Field

The invention relates to the field of cranes, in particular to a high-stability portal crane.

Background

The gantry crane is a variant of a bridge crane and is also called a gantry crane. The device is mainly used for loading and unloading outdoor goods yards, stockyards and bulk goods. The metal structure of the device is like a door-shaped frame, two support legs are arranged under a bearing main beam and can directly walk on a track on the ground, and overhanging cantilever beams can be arranged at the two ends of the main beam. The portal crane has the characteristics of high site utilization rate, large operation range, wide application range, strong universality and the like, and is widely used in port goods yards.

The application improves to prior art, gantry crane among the prior art is when lifting by crane the article, the majority lifts by crane for the unipolar, under certain specific conditions, in order to practice thrift the vanning time, the unipolar lifts by crane and adopts the car to move, the axle decides the flow, and current door body hoist still exists the flaw in the installation of jack-up skeleton, wherein the skeleton majority is the welding after for example the installation, dock jack-up skeleton and supporting framework through the nut, installation and dismantlement time increase easily appear, secondly the position that the nut was installed is the overlay type, certain personnel danger coefficient appears in jack-up skeleton's horizontal face department mounting nut.

Disclosure of Invention

The present invention is directed to a gantry crane with high stability to solve the above problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

the gantry crane with high stability comprises a base plane, a warehouse, a left supporting leg and a right supporting leg, wherein a bin door is arranged on the left side of the warehouse, the base plane is abutted to an entrance and an exit of the bin door and is installed, the right supporting leg and the left supporting leg are respectively positioned above the base plane, rail bodies are welded on the left side and the right side of the upper surface of the base plane, grooved wheel bodies are installed at the left notch and the right notch of each rail body, two groups of grooved wheel bodies are connected with wheel body installation seats through bearings, pressure seats are welded on the left side and the right side of the upper surface of each wheel body installation seat, supporting seats are welded on the upper surfaces of the two groups of pressure seats, abutting struts are welded on the upper surfaces of the; the top ends of the right supporting leg and the left supporting leg are respectively provided with a top seat, the upper surface of the top seat on the left side is provided with a butt joint base block, the upper surface of the top seat on the right side is provided with a butt joint plate, the upper surface of the butt joint plate is welded with a welding plate, the outer walls of the welding plate and the butt joint base block are respectively welded with a positioning panel, the outer wall of the positioning panel is welded with a guardrail, the inner side of the positioning panel close to the right part is welded with a transverse nut closing strip, the upper surface of the butt joint base block is welded with a base, the upper surface of the base is provided with a roller mounting seat, and the inner side of the roller; the supporting bone rods are welded on the inner sides of the right supporting leg and the left supporting leg, the supporting bone rods are two groups of electric power input seats are connected to the upper surface of each supporting bone rod through screws, transverse tools are welded between the electric power input seats, the lower surfaces of the transverse tools are provided with frame bodies, and triangular support rod frame bodies are welded in the inner frame of each transverse tool.

As a still further scheme of the invention: the lower surface welding of butt joint plate has a welding baseplate, the axostylus axostyle mount pad is all installed to the lower surface left and right sides of welding baseplate, and the right side the bottom welding of axostylus axostyle mount pad has a connecting rod, and the left side the lower surface of axostylus axostyle mount pad welds with the top of left supporting leg, the pivot piece is installed to the bottom of connecting rod, and the block position welds with the syntropy double-pole, syntropy double-pole bottom welds with the inboard of left supporting leg, the outside welding of left supporting leg has the slope diaphysis, the top and the footstock welding of slope diaphysis, the axial support is installed to the bottom of left supporting.

As a still further scheme of the invention: the welding of the upper surface right side of horizontal frock has vertical board, the right side outer wall of L shape locating plate leans on lower part position welding to have L shape wheel frid, the last surface mounting of L shape wheel frid has motor one, gyro wheel one is installed to the drive end of motor one, the welding of the front end of motor one has L shape locating plate, the protrusion board is installed to the left wall of L shape locating plate, and rotates on the back of protrusion board and be connected with gyro wheel two, the outer wall of gyro wheel two contacts with the lower surface of L shape wheel frid, the lower surface and the welding of framework body top of gyro wheel two.

As a still further scheme of the invention: the bottom end of the L-shaped positioning plate is welded with a supporting top plate, the number of the first motors is two, a fixing plate is arranged between the two first motors, a transverse welding frame is welded on the outer wall of the fixing plate, two body wheels are arranged on the lower surface of a transverse block of the transverse welding frame, the vertical plate is located between the two body wheels, a support rod is welded in an inner frame of the frame body, a transverse square column is arranged at the center of the frame body, and the top end of the transverse square column is welded with the center of the lower surface of the supporting top plate.

As a still further scheme of the invention: the bottom of horizontal square column has nut welded plate through the mounting screw, the outer wall welding of nut welded plate leans on lower position at the inside casing of frame body, motor two is installed to the inside casing lower position of frame body, the rope winding box is installed to the drive end of motor two, the winding has the iron rope on the rope winding box outer wall.

As a still further scheme of the invention: two sets of the last surface welding of gyro wheel mount pad has the installation base board, the upper surface of installation base board leans on left position to install motor three, gear installation case is installed to the drive end of motor three, the lower surface of gear installation case is fixed with the upper surface right side nut of installation base board, the rope winding roller is installed to the right side drive end of gear installation case.

As a still further scheme of the invention: the utility model discloses a mounting base plate, including mounting base plate, locating cylinder, roller, centre gripping axle plate, motor three is in mounting base plate's right side, and there is the mount at that upper surface right side position ann amber of mounting base plate, install a location section of thick bamboo in the frame of mount, the drive end of a location section of thick bamboo is installed around the roller, the welding has centre gripping axle plate on the left wall of mount, the left side nip department of centre gripping axle plate rotates and is connected with motor three, motor three is.

Compared with the prior art, the invention has the beneficial effects that:

the utility model discloses, with the rope winding on the outer wall of winding roller, the winding is on the outer wall of winding roller the one end that the rope passes through centre gripping axostylus axostyle board, at the three outer wall upper surfaces of motor through connecting on the centre gripping axostylus axostyle board outer wall to twine with the winding roller, in the time of the use: control motor three and function, the drive end of motor three will drive the gyro wheel of gear installation case lower surface and rotate, connected mode is with meshing the realization through the gear, and the gyro wheel is in the installation in the gyro wheel mount pad, and contact with the base, realize that the gyro wheel mount pad is at the outer wall of base displacement, secondly the drive end of gear installation case also can drive the rope-winding roller and rotate, after the rope-winding roller is rotatory, will receive and release winding rope on the outer wall, realize the promotion to the article, and the displacement of gyro wheel mount pad, realize the displacement about the article, the structure promotes and the displacement to placing the article at base face middle part in the figure 3, the structure in the figure 2 promotes and the displacement to placing the article at base face left and right parts, its structure is more optimized, the design is more reasonable.

The utility model discloses, control motor two and function, after motor two functions, the wiring box that its drive end is connected will twine the rope body and the unwrapping wire, and at the horizontal square column of frame body frame position installation, and the top and the roof of horizontal square column dock, realize increasing the weight of roof support, can increase the bearing capacity of being connected between binary wheel and the vertical board, avoid the frame body to appear droing in the displacement, hang the promotion that the winding rope body couple position of nut welded plate outer wall can be to the article with the article, can put the displacement of controlling of article through the drive of motor one.

The utility model is characterized in that a wheel body mounting seat is arranged above a rail body, the sheave body connected in the inner frame of the wheel body mounting seat is butted with the left and right side groove openings of the rail body, a pressure seat and a supporting seat are welded on the upper surface of the wheel body mounting seat, the butt joint supporting column butted at the top end of the supporting seat is used for supporting the integral part, the butt joint supporting column is butted by a screw mounting plate, two groups of butt joint supporting columns are integrated, an axial supporting seat is arranged on the upper surface of the screw mounting plate, a left supporting leg is arranged at the rotating shaft position and used for adjusting the angle of a clamping shaft rod plate, an inclined backbone is arranged at the outer side of the clamping shaft rod plate, two same-direction rods are arranged at the inner side of the inclined backbone, connecting rods are welded at the upper parts of the two groups of same-direction rods and used for supporting the butt joint plate, after the angles of the left and right supporting legs are adjusted, the supporting rods connected at the middle parts, and the support positioning of the left support leg and the right support leg makes the left support leg and the right support leg stable, and meanwhile, a transverse tool installed on the upper surface of the support framework rod is used for lifting and displacing the object.

Drawings

Fig. 1 is a schematic structural diagram of a high-stability gantry crane.

Fig. 2 is an enlarged view of fig. 1 at a in the high stability gantry crane.

FIG. 3 is an enlarged view of FIG. 1 at B in the high stability gantry crane;

FIG. 4 is an enlarged view of FIG. 1 at C in the high stability gantry crane;

FIG. 5 is a top view of a transverse tool in the high-stability portal crane;

FIG. 6 is a left side view of a support fixture in a high stability gantry crane;

FIG. 7 is a top view of a high-stability portal crane middle support tool.

In the figure: the device comprises a base surface 1, a warehouse 2, a bin gate 3, a wheel body mounting seat 4, a supporting seat 5, a butt joint plate 6, a supporting bone rod 7, a right supporting leg 8, an electric power input seat 9, a triangular supporting rod frame body 10, a butt joint support post 11, a rail body 12, a left supporting leg 13, a screw mounting plate 14, an inclined bone rod 15, a driving frame box 16, a base 17, an air cylinder 18, a guardrail 19, a positioning panel 20, a first motor 21, a first roller 22, a double-body wheel 23, a transverse welding frame 24, a vertical plate 25, an L-shaped positioning plate 26, a support rod 27, a frame body 28, a transverse square column 29, a second motor 30, a rope winding box 31, a nut welding plate 32, a supporting top plate 33, a second roller 34, an L-shaped wheel groove plate 35, a transverse tool 36, a pressure seat 37, a butt joint base block 38, a sheave body 39, a gear mounting box 40, a rope winding roller 41, an axial support 42, a clamping shaft rod plate 43, a, Motor three 48, installation base plate 49, roller wheel installation seat 50, transverse nut fastening strip 51, welding plate 52, shaft lever installation seat 53, welding bottom plate 54, connecting rod 55, homodromous double-rod 56 and top seat 57.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, in the embodiment of the present invention, a gantry crane with high stability includes a base plane 1, a warehouse 2, a left support leg 13 and a right support leg 8, a bin door 3 is disposed on the left side of the warehouse 2, the base plane 1 is abutted to an entrance and exit of the bin door 3 and is installed, the right support leg 8 and the left support leg 13 are respectively located above the base plane 1, rail bodies 12 are welded on the left and right sides of the upper surface of the base plane 1, groove wheel bodies 39 are installed on the left and right notches of the rail bodies 12, two sets of groove wheel bodies 39 are connected with a wheel body installation seat 4 through bearings, pressure seats 37 are welded on the left and right sides of the upper surface of the wheel body installation seat 4, support seats 5 are welded on the upper surface of the two sets of pressure seats 37, abutting columns 11 are welded on the; the top ends of the right supporting leg 8 and the left supporting leg 13 are respectively provided with a top seat 57, the upper surface of the left top seat 57 is provided with a butt joint base block 38, the upper surface of the right top seat 57 is provided with a butt joint plate 6, the upper surface of the butt joint plate 6 is welded with a welding plate 52, the outer walls of the welding plate 52 and the butt joint base block 38 are respectively welded with a positioning panel 20, the outer wall of the positioning panel 20 is welded with a guardrail 19, the right part of the inner side of the positioning panel 20 is welded with a transverse nut fastening strip 51, the upper surface of the butt joint base block 38 is welded with a base 17, the upper surface of the base 17 is provided with a roller mounting seat 50, and the inner side of; the inner sides of the right supporting leg 8 and the left supporting leg 13 are welded with supporting bone rods 7, the upper surfaces of the two groups of supporting bone rods 7 are connected with power input seats 9 through screws, a transverse tool 36 is welded between the two groups of power input seats 9, the lower surface of the transverse tool 36 is provided with a frame body 28, a triangular supporting rod frame body 10 is welded in the inner frame of the transverse tool 36, the lower surface of a butt plate 6 is welded with a welding bottom plate 54, the left side and the right side of the lower surface of the welding bottom plate 54 are respectively provided with a shaft rod mounting seat 53, the bottom end of the right side shaft rod mounting seat 53 is welded with a connecting rod 55, the lower surface of the left side shaft rod mounting seat 53 is welded with the top end of the left supporting leg 13, the bottom end of the connecting rod 55 is provided with a rotating shaft block, the block part is welded with a same-direction double rod 56, the bottom end of the, an axial support 42 is installed at the bottom end of the left supporting leg 13, the bottom end of the axial support 42 is welded with the upper surface of the butt-joint support 11, a vertical plate 25 is welded on the right side of the upper surface of the transverse tool 36, an L-shaped wheel groove plate 35 is welded on the outer wall of the right side of the L-shaped positioning plate 26 close to the lower portion, a first motor 21 is installed on the upper surface of the L-shaped wheel groove plate 35, a first roller 22 is installed at the driving end of the first motor 21, an L-shaped positioning plate 26 is welded at the front end of the first motor 21, a protruding plate is installed on the left wall of the L-shaped positioning plate 26, a second roller 34 is rotatably connected to the back of the protruding plate, the outer wall of the second roller 34 is in contact with the lower surface of the L-shaped wheel groove plate 35, the lower surface of the second roller 34 is welded with the top end of the frame body 28, a supporting top plate 33 is, the lower surface of a transverse block of a transverse welding frame 24 is provided with two-body wheels 23, a vertical plate 25 is positioned between the two groups of two-body wheels 23, a support rod 27 is welded in an inner frame of a frame body 28, a transverse square column 29 is arranged at the central part of the frame body 28, the top end of the transverse square column 29 is welded with the central part of the lower surface of a support top plate 33, a nut welding plate 32 is arranged at the bottom end of the transverse square column 29 through a screw, the outer wall of the nut welding plate 32 is welded at the lower part of the inner frame of the frame body 28, a motor II 30 is arranged at the lower part of the inner frame of the frame body 28, a rope winding box 31 is arranged at the driving end of the motor II 30, an iron rope is wound on the outer wall of the rope winding box 31, a mounting base plate 49 is welded on the upper surface of two groups of roller mounting bases 50, a motor III 48 is arranged at the left part of the upper surface of the mounting base plate 49, rope winding rollers 41 are installed at the right-side driving end of the gear installation box 40, a fixing frame 45 is arranged at the right-side part of the upper surface of the installation base plate 49, a positioning cylinder 44 is installed in a frame of the fixing frame 45, a winding roller 46 is installed at the driving end of the positioning cylinder 44, a clamping shaft plate 43 is welded on the left wall of the fixing frame 45, a motor III 48 is rotatably connected to a left-side clamping opening of the clamping shaft plate 43, and the motor III 48 is located on the right side of the installation base plate 49.

Installation: installing the integral framework in the attached figure 1;

the rail body 12 is welded at the corner of the wall of the warehouse 2, and after the installation, a supporting transverse plate can be welded on the outer wall of the warehouse 2 or fixed through a plurality of groups of screws for supporting the installed integral framework;

a wheel body mounting seat 4 is arranged above a rail body 12, a grooved wheel body 39 connected in an inner frame of the wheel body mounting seat 4 is abutted against the left and right side notch parts of the rail body 12, a pressure seat 37 and a supporting seat 5 are welded on the upper surface of the wheel body mounting seat 4, an abutting pillar 11 abutted against the top end of the supporting seat 5 is used for supporting the integral part, the abutting pillar 11 is abutted by a screw mounting plate 14, two groups of abutting pillars 11 are combined into a whole, an axial support 42 is arranged on the upper surface of the screw mounting plate 14, a left supporting leg 13 is arranged on a rotating shaft part and used for clamping the angle adjustment of a shaft rod plate 43, an inclined backbone 15 arranged on the outer side of the clamping shaft rod plate 43 is arranged, a homodromous double rod 56 is arranged on the inner side of the inclined backbone 15, a connecting rod 55 is welded on the upper part of the two groups of homodromous double rods 56 and used for supporting the connecting plate 6, after the angles of the left supporting leg 13, the supporting bone rod 7 connected with the middle part of the supporting bone rod is in a transverse state, the left supporting leg 13 and the right supporting leg 8 are supported and positioned to be stable, and meanwhile, a transverse tool 36 installed on the upper surface of the supporting bone rod 7 is used for lifting and displacing objects;

the method comprises the following specific operations: controlling the first motor 21 to operate, and after the first motor 21 operates, driving the first roller 22 to rotate, wherein the first roller 22 is positioned at the side part of the L-shaped wheel groove plate 35 and is in rolling connection with the side surface of the first motor, the L-shaped positioning plate 26 welded on the outer wall of the first motor 21 close to the front part is matched with the upper supporting top plate 33 to support the whole walking part, the transverse welding frame 24 welded on the outer wall of the supporting plate connected between the two groups of first motors 21 is matched with the double-body wheel 23 to install the two groups of double-body wheels 23 outside the vertical plate 25, and the double-body wheel 23 is in sliding connection with the vertical plate 25, so that the double-body wheel 23 can slide on the outer wall of the vertical plate 25, and meanwhile, the supporting and clamping of the supporting frame of the frame body 28 can be realized to be positioned on the outer wall of the transverse tool 36;

the second motor 30 is controlled to operate, after the second motor 30 operates, the rope winding box 31 connected with the driving end of the second motor is used for winding and paying off the rope, the transverse square column 29 is installed at the frame part of the frame body 28, the top end of the transverse square column 29 is in butt joint with the supporting top plate 33, the weight of the supporting top plate 33 is increased, the connecting bearing capacity between the double-body wheel 23 and the vertical plate 25 is increased, the frame body 28 is prevented from falling off during displacement, the object can be lifted by hanging the object at the rope hook part wound on the outer wall of the nut welding plate 32, and the object can be placed in a left-right displacement mode through the driving of the first motor 21;

secondly the positioning panel 20 connected outside the docking plate 6 and the frame body 28 will form one whole for driving the mounting base plate 49;

the method comprises the following specific operations: the operation of the control cylinder 18 is performed, the driving frame box 16 connected to the driving end of the cylinder 18 is contracted, a welding plate is arranged in the driving frame box 16 and is a fixed body, one end of the driving frame box 16 is a driving body, and the driving body moves towards the fixed body, so that the cylinder 18 is clamped on the outer wall of the top seat 57 to form fixation, and the stability of the positioning panel 20 is improved;

the rope is wound on the outer wall of the winding roller 46, one end of the rope, which passes through the clamping shaft rod plate 43, is wound on the outer wall of the winding roller 46, the upper surface of the outer wall of the motor III 48, which is connected on the outer wall of the clamping shaft rod plate 43, is wound with the rope winding roller 41, and when the rope winding device is used: control motor three 48 and function, the drive end of motor three 48 will drive the gyro wheel of gear installation case 40 lower surface and rotate, connected mode is realized with meshing through the gear, and the gyro wheel is in installation in gyro wheel mount pad 50, and contact with base 17, realize that gyro wheel mount pad 50 carries out the displacement on the outer wall of base 17, secondly the drive end of gear installation case 40 also can drive the wire winding roller 41 and rotate, after wire winding roller 41 rotates, will receive and release winding rope on the outer wall, realize the promotion to the article, and the displacement of gyro wheel mount pad 50, realize the displacement about the article, the structure in figure 3 promotes and the displacement to placing the article at base face 1 middle part, the structure in figure 2 promotes and the displacement to placing the article at base face 1 left and right parts.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.