CN114832990A

CN114832990A - Automatic rust-removing and-preventing equipment for scaffold

Info

Publication number: CN114832990A
Application number: CN202210561077.0A
Authority: CN
Inventors: 李玉香
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-23
Filing date: 2022-05-23
Publication date: 2022-08-02

Abstract

The invention discloses automatic derusting and antirust equipment for a scaffold, which comprises a storage device, a positioning device, a traction device and a derusting and spraying device, wherein the storage device is used for placing scaffold pipes to be treated, the positioning device is used for identifying the central line position of the scaffold pipes, the traction device adjusts the driving angle of a power friction wheel according to different pipe diameters of the scaffold pipes so as to adapt to the scaffold pipes with different pipe diameters, the scaffold pipes are drawn to move, and the derusting and spraying device carries out derusting and spraying treatment on the scaffold pipes.

Description

Automatic rust-removing and-preventing equipment for scaffold

Technical Field

The invention relates to the technical field of rust removal, in particular to automatic rust removal and prevention equipment for a scaffold.

Background

Scaffold has often a large amount of applications in the building trade, and scaffold mainly comprises the steel pipe, because scaffold often is in under the environment that the wind blows the sun, scaffold rusts extremely easily, and long-term use can lead to the fact certain influence to the security. For such a situation, manual rust removal and prevention are generally adopted, but the manual rust removal and prevention are time-consuming and labor-consuming, and uniform rust removal and prevention cannot be performed. Application No. 201610232999.1 discloses a method for removing rust from a pipe and a rust removing apparatus for the pipe, but the apparatus cannot adjust the positioning of the pipe body according to the pipe diameter, and cannot be adapted to the pipe bodies of different pipe diameters for removing rust.

Disclosure of Invention

The invention provides automatic rust removing and preventing equipment for a scaffold, which comprises scaffold pipes and a traction device, wherein the traction device comprises an opening and closing sliding assembly and an angle change assembly, the opening and closing sliding assembly is arranged on the surface of the traction device, the scaffold pipes are placed in the middle of the opening and closing sliding assembly, and the opening and closing sliding assembly can symmetrically open and close and slide towards two sides of the vertical central line of the scaffold pipes to clamp the scaffold pipes with different pipe diameters; the opening and closing sliding assembly is provided with a mechanism which drives the angle change assembly to rotate when the opening and closing sliding assembly slides so as to adapt to positioning rust removal and rust prevention of different pipe diameters, and the spraying device is arranged above the traction device and can move up and down relative to the traction device to remove rust and prevent rust.

The opening and closing sliding assembly is provided with a mechanism which drives the angle change assembly to rotate when the opening and closing sliding assembly slides, and the mechanism comprises an angle triangular plate which is fixedly arranged on the opening and closing sliding assembly; the angle sliding rod is slidably mounted on the opening and closing sliding assembly, an elastic part is sleeved on the angle sliding rod, one end of the angle sliding rod is fixedly provided with an angle sliding head, the other end of the angle sliding rod is rotatably mounted on a driving gear sliding strip, the driving gear sliding strip is slidably mounted on an angle adjusting driving gear, a friction wheel shaft is further rotatably mounted on the opening and closing sliding assembly, one end of the friction wheel shaft is fixedly provided with an angle adjusting driven gear, the other end of the friction wheel shaft is fixedly connected with an angle changing assembly, the angle adjusting driving gear and the angle adjusting driven gear form gear matching, and the angle sliding head slides on the angle triangular plate to adjust the angle change of the angle changing assembly.

The opening and closing sliding assembly comprises a connecting component and a moving component, the moving component comprises an L-shaped plate and a traction sliding rail group, the L-shaped plate is slidably mounted on the traction sliding rail group, and the traction sliding rail group is fixedly mounted on a traction frame; the connecting member transmits the power source to the moving member.

The angle change assembly comprises a wheel carrier, a power friction wheel and a wheel shaft rod, wherein the power friction wheel is fixedly arranged on the wheel shaft rod, and the wheel shaft rod is rotatably arranged on the wheel carrier.

Furthermore, the spraying device comprises a derusting component and a spraying component, one end of the spraying component is fixedly arranged on the derusting component, and spraying oil is sprayed for rust prevention after the derusting component derusts rust.

Furthermore, the derusting component comprises a lifting structure and a derusting belt, and the lifting structure can carry out derusting operation according to scaffold pipes with different heights caused by different pipe diameters.

Furthermore, the spraying component comprises a spray head, and a plurality of spray head holes are uniformly distributed on the spray head.

Furthermore, the moving component comprises a power belt pulley set and a power rod, the belt pulley set is sleeved on the power rod, the power rod is fixedly installed on the wheel shaft rod, and the power belt pulley set is used for enabling the power friction wheel to drive the scaffold tube to move.

Furthermore, the automatic rust removing and preventing equipment for the scaffold further comprises a storage device and a positioning device, wherein the storage device and the positioning device are matched with each other to place and align the scaffold tube to the center line.

Compared with the prior art, the invention has the beneficial effects that: 1. the angle change component is driven to move by the sliding of the opening and closing sliding component of the traction device, so that the scaffold pipes with different pipe diameters can be automatically clamped and positioned integrally. 2. The angle change assembly can be changed through a mechanism arranged on the opening and closing sliding assembly, so that when the pipe bodies of different pipe diameters face, the surfaces of the scaffold pipes can still be tightly attached and positioned. 3. Through the moving part of the traction device, the pipe body can still move facing the pipe bodies with different pipe diameters, and then the rust removal operation is carried out through the spraying device. Through the mutual cooperation of the storage device and the positioning device, the scaffold tube can be accurately placed, and the rust removal and spraying operation is facilitated.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the storage device of the present invention.

FIG. 3 is a schematic view of a positioning device according to the present invention.

Fig. 4 is a schematic structural diagram of the traction device of the present invention.

FIG. 5 is a schematic structural view of the rust removing and spraying device of the present invention.

FIG. 6 is a schematic view of a showerhead according to the present invention.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): the automatic rust removing and preventing equipment for the scaffold, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, comprises a storage device 1, a positioning device 2, a traction device 3 and a rust removing and spraying device 4.

The centering motor 106 and the screw rod mounting block 109 in the storage slide rail 102 are fixedly mounted on the upper surface of the plane plate 101, the base frame 201 is fixedly mounted on the upper surface of the plane plate 101, the traction frame 301, the clamping motor 315, the vertical conversion slide 331 and the friction power motor 334 are fixedly mounted on the upper surface of the plane plate 101, and the derusting base 401, the motor mounting plate 412 and the spraying machine box 414 are fixedly mounted on the upper surface of the plane plate 101.

The storage device 1 comprises a plane plate 101, storage slide rails 102, storage sliders 103, driving racks 104, driving gears 105, centering motors 106, centering gears 107, two-way screw rods 108, screw rod mounting blocks 109, storage polished rods 110, left centering blocks 111, right centering blocks 112 and middle connecting plates 113, wherein the storage sliders 103 are slidably mounted in the storage slide rails 102, the number of the driving racks 104 is six, the driving racks 104 are fixedly mounted on the upper surfaces of the two storage sliders 103, the driving gears 105 and the driving racks 104 form gear fit, the driving gears 105 are fixedly mounted on rotating shafts of the centering motors 106, the centering gears 107 and the driving racks 104 form gear engagement, the centering gears 107 are fixedly mounted at the end parts of the two-way screw rods 108, the two-way screw rods 108 are rotatably mounted on the two screw rod mounting blocks 109, the storage polished rods 110 are fixedly mounted between the two screw rod mounting blocks 109, the left centering blocks 111, the middle connecting plates 113 and the middle connecting plates 113, The right centering block 112 and the bidirectional screw rod 108 form threaded fit, the left centering block 111, the right centering block 112 and the storage polished rod 110 form sliding fit, and two ends of the middle connecting plate 113 are fixedly connected with the storage slider 103. The centering motor 106 provides power, and the driving rack 104 moves linearly along the storage slide rail 102 through gear transmission, so as to drive the bidirectional screw rod 108 to rotate. Through screw transmission, the left centering block 111 and the right centering block 112 are simultaneously centered and close to each other or simultaneously far away from each other so as to adapt to scaffolds with different pipe diameters.

The positioning device 2 comprises a base frame 201, a positioning slide bar 202, a positioning spring 203, a triangular roller groove 204 and a positioning roller 205, wherein the base frame 201 is fixedly arranged on the upper surface of the plane plate 101, the positioning slide bar 202 and the base frame 201 form sliding fit, the triangular roller groove 204 is fixedly arranged at the end part of the positioning slide bar 202, the positioning roller 205 is rotatably arranged on the triangular roller groove 204, the positioning spring 203 penetrates through the positioning slide bar 202, one end of the positioning slide bar 202 abuts against the triangular roller groove 204, and the other end of the positioning slide bar 202 abuts against the base frame 201. The steel pipe of scaffold puts into this device, and the location slide bar 202 slides along base frame 201, and when location slide bar 202 moving speed approached zero, centering motor 106 stopped operation, and the steel pipe of scaffold is taken one's place.

The traction device 3 comprises a traction frame 301, a clamping motor 315, a vertical conversion sliding seat 331 and a friction power motor 334; a traction slide rail set 302, a traction slide block set 303, an L-shaped plate 304, a friction wheel shaft 305, an angle adjustment driven gear 306, an angle adjustment driving gear 307, a driving gear groove shaft 308, a driving gear slide bar 309, an angle slide bar 310, an angle baffle 311, a clamping extension plate 312, a clamping rocker plate 313, a clamping central plate 314, an angle spring 316, an angle slide head 317, an angle triangle plate 318, a wheel frame 319, a wheel frame spring 320, a dynamic friction wheel 321, a wheel shaft rod 322, a universal joint 323, a power rod 324, an auxiliary slide seat 325, an auxiliary slide bar 326, an auxiliary sliding sleeve 327, an auxiliary slide block 328, an auxiliary sliding groove 329, a vertical friction belt 330, a horizontal friction belt 332 and a reversing friction belt 333, wherein the traction frame 301 is fixedly installed on the upper surface of the plane plate 101, the traction slide rail set 302 is fixedly installed on the upper surface of the traction slide rail set 301, the traction slide block set 303 is slidably installed on the traction slide rail set 302, the traction slide block set 303 is fixedly installed on the lower surface of the L-shaped plate 304, an angle adjusting driven gear 306 is fixedly arranged at the end part of a friction wheel shaft 305, the friction wheel shaft 305 is rotatably arranged on an L-shaped plate 304, the angle adjusting driven gear 306 is in gear engagement with an angle adjusting driving gear 307, the angle adjusting driving gear 307 is fixedly arranged at the middle part of a driving gear groove shaft 308, an angle sliding rod 310 is in sliding fit with an angle baffle 311, an angle spring 316 penetrates through the cylinder of the angle sliding rod 310, one end of the angle spring 316 is tightly attached to the lower surface of the angle baffle 311, the other end of the angle spring 316 is tightly attached to the upper surface of an angle sliding head 317, the arc surface of the angle sliding head 317 is tightly attached to an angle triangular plate 318, the angle triangular plate 318 is fixedly arranged on the side surface of the traction sliding rail set 302, a clamping extension plate 312 is fixedly arranged on the lower surface of the L-shaped plate 304, one end of the clamping rocker plate 313 is rotatably arranged at the lower end of the clamping extension plate 312, and two ends of a clamping central plate 314 are respectively rotatably arranged with the other end of the clamping rocker plate 313, the middle part of the clamping center plate 314 is fixedly arranged on a rotating shaft of a clamping motor 315, a wheel carrier 319 is fixedly arranged at the other end part of a friction wheel shaft 305, a wheel carrier spring 320 penetrates through the friction wheel shaft 305, one end of the wheel carrier spring 320 is tightly attached to the back of a vertical plate of an L-shaped plate 304, the other end of the wheel carrier spring 320 is tightly attached to the wheel carrier 319, a power friction wheel 321 is rotatably arranged on the wheel carrier 319, a wheel shaft rod 322 is fixedly arranged with the rotating shaft of the power friction wheel 321, two ends of a universal joint 323 are respectively fixedly arranged with the wheel shaft rod 322 and a power rod 324, an auxiliary sliding seat 325 is in sliding fit with the power rod 324, an auxiliary sliding rod 326 is fixedly arranged on an auxiliary sliding seat 325, an auxiliary sliding rod 326 is in sliding fit with an auxiliary sliding sleeve 327, the fixed end part of an auxiliary sliding block 328 is fixedly arranged on the auxiliary sliding fit with an auxiliary sliding chute 329, and the auxiliary chute 329 is fixedly arranged on the side surface of the L-shaped plate 304, one end of the vertical friction belt 330 is in friction fit with the power rod 324, the other end of the vertical friction belt 330 is in friction fit with the vertical conversion sliding base 331, the vertical friction belt 330 has strong elasticity and can be suitable for different distance transmission, one end of the horizontal friction belt 332 is in friction fit with the vertical conversion sliding base 331, the other end of the horizontal friction belt 332 is in friction fit with the rotating shaft of the friction power motor 334, and the end of the horizontal friction belt 332 is in gear fit with the rotating shaft of the friction power motor 334. The clamping motor 315 provides power, the L-shaped plate 304 is driven by the connecting rod to linearly move along the traction sliding rail set 302, so that the power friction wheel 321 can clamp scaffolds with different pipe diameters, the angle slider 317 slides along the angle triangular plate 318, the angle slider 310 slides along the angle baffle 311, and the angle of the friction wheel shaft 305 is changed by the gear transmission, so as to adapt to the scaffolds with different pipe diameters. The friction power motor 334 provides power to rotate the two power friction wheels 321 in the same direction through the transmission of the friction wheel belt, so that the scaffold tube 5 moves forward.

Rust removing and spraying device 4: a derusting base 401, a motor mounting plate 412 and a spraying machine case 414; a derusting top plate frame 402, a derusting slide bar 403, a double-cylinder motor 404, a derusting slide plate 405, a derusting rocking plate 406, a derusting belt mounting frame 407, a derusting side plate 408, a derusting belt shaft 409, a derusting belt 410, a derusting belt motor 411, a nozzle driving rod 413, a spraying hose 415 and a nozzle 416, wherein the derusting base 401 is fixedly arranged on the upper surface of the plane plate 101, the derusting top plate frame 402 is fixedly arranged on the derusting base 401, the derusting slide bar 403 is fixedly arranged on the derusting top plate frame 402, the double-cylinder motor 404 is fixedly arranged on the lower surface of the derusting top plate frame 402, a telescopic shaft of the double-cylinder motor 404 is fixedly arranged on the derusting slide plate 405, the derusting slide plate 405 is slidably arranged on the derusting slide bar 403, the number of the derusting rocking plates 406 is four, one end of the derusting rocking plate 406 is rotatably arranged at the end of the derusting slide plate 405, the other end of the derusting rocking plate 406 is rotatably arranged on the upper surface of the derusting belt mounting frame 407, the derusting side plate 408 is fixedly arranged on the lower surface of the derusting belt mounting frame 407, two derusting belt shafts 409 are provided, the derusting belt shafts 409 are rotatably arranged on a derusting side plate 408, two ends of a derusting belt 410 are arranged on the derusting belt shafts 409 in a friction mode, a rotating shaft of a derusting belt motor 411 is fixedly arranged on the derusting belt shafts 409, the derusting belt motor 411 is fixedly arranged on the upper surface of a motor mounting plate 412, two ends of a spray head driving rod 413 are fixedly connected with a derusting belt mounting frame 407 and a spray head 416 respectively, and one end of a spraying hose 415 is fixedly connected with a spraying machine box 414. The double-cylinder motor 404 provides power to enable the two rust removing sliding plates 405 to move along the rust removing sliding rods 403, so that the rust removing side plates 408 move up and down, the rust removing belts 410 are close to the scaffold pipes 5, and the rust removing belts 411 provide power to enable the rust removing belts 410 to run to achieve the purpose of removing rust. The spray booth 414 provides spray oil to spray the scaffold tubes 5 through the spray head 416. The spray head 416 comprises a plurality of spray head holes 4161, a plurality of spray head uniform distribution cavities 4162 and a plurality of spray head inlet pipes 4163, the spray head holes 4161 are uniformly formed in the lower surface of the spray head 416 respectively, the spray head uniform distribution cavities 4162 are located inside the spray head 416, the spray head inlet pipes 4163 are located on the upper portion of the spray head 416, and the spray head 416 is fixedly connected with the other end of the spraying hose 415.

The driving gear groove shaft 308 is rotatably installed on the vertical plate of the L-shaped plate 304, one end of the driving gear sliding bar 309 forms a sliding fit with the sliding groove at the end of the driving gear groove shaft 308, and the other end of the driving gear sliding bar 309 forms a rotating fit with the end of the angle sliding bar 310. The angle triangle 318 is a triangle oblique block, and the oblique surface of the angle triangle 318 is attached to the arc surface of the angle slider 317. The gimbal 323 is a flexible gimbal, that is, a gimbal with elasticity.

Claims

1. The automatic rust removing and preventing equipment for the scaffold comprises scaffold pipes and is characterized by further comprising a traction device, wherein the traction device comprises an opening and closing sliding assembly, an angle changing assembly and a moving assembly, the opening and closing sliding assembly is arranged on the surface of the traction device, the angle changing assembly is arranged on the opening and closing sliding assembly, the scaffold pipes are placed in the middle of the angle changing assembly, the opening and closing sliding assembly can symmetrically open and close and slide towards two sides of a vertical central line of the scaffold pipes, and the angle changing assembly is driven to clamp and position the scaffold pipes through sliding; the opening and closing sliding assembly is provided with a mechanism which drives the angle change assembly to rotate when the opening and closing sliding assembly slides, and the movable assembly can adapt to scaffold tubes with different tube diameters when working;

and the spraying device is arranged above the traction device and can move up and down relative to the traction device to remove rust and prevent rust.

2. The automatic rust removing and preventing equipment for the scaffold as claimed in claim 1, wherein the open-close sliding assembly is provided with a mechanism which drives the angle change assembly to rotate when the open-close sliding assembly slides, and the mechanism comprises an angle triangular plate which is fixedly arranged on the open-close sliding assembly; the angle sliding rod is slidably mounted on the opening and closing sliding assembly, an elastic part is sleeved on the angle sliding rod, one end of the angle sliding rod is fixedly provided with an angle sliding head, the other end of the angle sliding rod is rotatably mounted on a driving gear sliding strip, the driving gear sliding strip is slidably mounted on an angle adjusting driving gear, a friction wheel shaft is further rotatably mounted on the opening and closing sliding assembly, one end of the friction wheel shaft is fixedly provided with an angle adjusting driven gear, the other end of the friction wheel shaft is fixedly connected with an angle changing assembly, the angle adjusting driving gear and the angle adjusting driven gear form gear matching, and the angle sliding head slides on the angle triangular plate to adjust the angle change of the angle changing assembly.

3. The automatic rust removing and preventing equipment for the scaffolds as claimed in claim 2, wherein the open-close sliding assembly comprises a connecting component and a moving component, the moving component comprises an L-shaped plate and a traction sliding rail set, the L-shaped plate is slidably mounted on the traction sliding rail set, and the traction sliding rail set is fixedly mounted on a traction frame; the connecting member transmits the power source to the moving member.

4. The automatic rust removing and preventing equipment for the scaffolds as claimed in claim 2, wherein the angle change assembly comprises a wheel frame, a dynamic friction wheel and an axle rod, the dynamic friction wheel is fixedly installed on the axle rod, and the axle rod is rotatably installed on the wheel frame.

5. The automatic rust removing and preventing equipment for the scaffold as claimed in claim 1, wherein the spraying device comprises a rust removing part and a spraying part, one end of the spraying part is fixedly installed on the rust removing part, and spraying oil is used for preventing rust after the rust removing part removes rust.

6. The automatic rust removing and preventing equipment for the scaffolds as claimed in claim 5, wherein the rust removing component comprises a lifting structure and a rust removing belt, and the lifting structure can perform rust removing operation according to scaffold pipes with different heights caused by different pipe diameters.

7. The automatic rust removing and preventing equipment for the scaffolds as claimed in claim 5, wherein the spraying component comprises a nozzle, and a plurality of nozzle holes are uniformly distributed on the nozzle.

8. The automatic rust removing and preventing equipment for the scaffold as claimed in claim 1, wherein the moving part comprises a power belt pulley set and a power rod, the power rod is sleeved with the belt pulley set, the power rod is fixedly installed on a wheel shaft rod, and the power belt pulley set is used for driving a power friction wheel to drive the scaffold tube to move.

9. The automatic rust removing and preventing equipment for the scaffolds as claimed in any one of claims 1 to 8, further comprising a storage device and a positioning device, wherein the storage device and the positioning device are mutually matched to perform the operations of placing and aligning the scaffold tubes with the central line.