CN115254635A - Whole plant logistics process for aluminum profile production - Google Patents

Abstract

The invention discloses a whole plant logistics process for aluminum profile production, which relates to the field of aluminum profile transportation, and comprises a clamping and lifting frame and a clamping and lifting mechanism arranged in the clamping and lifting frame, wherein the clamping mechanism comprises a sliding assembly, a connecting assembly and a clamping assembly; the sliding assembly comprises a clamping and lifting motor, a clamping and lifting screw rod and a threaded sliding block, the inner wall of the clamping and lifting frame is fixedly connected with the clamping and lifting motor, and the output end of the clamping and lifting motor is provided with the clamping and lifting screw rod; through setting up the anticreep and lifting the board, the screw slider passes through the sliding guide pole and drives link block along the outer wall slip of spacing spout, and link block slides and drives through pressing from both sides tight guide arm and press from both sides tight guide block and lift the inner wall slip of frame along pressing from both sides, presss from both sides tight guide block and drives the anticreep and lift the board and fix with goods material frame, through the relative slip of four groups of anticreeps lift the board, realizes steadily pressing from both sides the operation of getting to goods material frame.

Description

Whole plant logistics process for aluminum profile production

Technical Field

The invention relates to the field of aluminum profile transportation, in particular to a whole plant logistics process for aluminum profile production.

Background

In recent years, the upgrading of the manufacturing industry in China promotes the comprehensive development of intelligent manufacturing, wherein extruded aluminum profiles are important branches of nonferrous metals in China, and the aluminum profiles need to be transported and operated when being produced and stored.

However, the problem of the unable three-dimensional storage of aluminium alloy appears when using in current aluminium alloy processing transportation equipment, the area that leads to the aluminium alloy is great, and the problem that drops appears in goods material frame easily when using in current aluminium alloy processing transportation equipment, lead to the aluminium alloy to drop easily and lead to warping, and the problem of the unable stable material loading storage of aluminium alloy appears in current aluminium alloy processing transportation equipment when using, the aluminium alloy is because self inertia leads to rocking easily, unsatisfied people's user demand, we propose a whole factory logistics technology for aluminium alloy production for this reason.

Disclosure of Invention

The invention aims to provide a whole plant logistics process for aluminum profile production, which aims to solve the problems that three-dimensional storage cannot be realized, a cargo material frame is easy to fall off, and aluminum profiles cannot be stably loaded and stored in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a whole plant logistics process for aluminum profile production comprises a clamping and lifting frame and a clamping and lifting mechanism arranged inside the clamping and lifting frame, wherein the clamping mechanism comprises a sliding assembly, a connecting assembly and a clamping assembly;

the sliding assembly comprises a clamping and lifting motor, a clamping and lifting screw rod and a threaded sliding block, the inner wall of the clamping and lifting frame is fixedly connected with the clamping and lifting motor, the clamping and lifting screw rod is installed at the output end of the clamping and lifting motor, and the outer wall of the clamping and lifting screw rod is in threaded connection with the threaded sliding block which is in sliding connection with the inner wall of the clamping and lifting frame;

the connecting assembly comprises a sliding guide rod, a connecting slide block and a limiting sliding groove, the side wall of the threaded slide block is screwed with the sliding guide rod, one end of the sliding guide rod is screwed with the connecting slide block, and the limiting sliding groove is formed in the connecting part of the connecting slide block and the clamping and lifting frame;

the clamping assembly comprises a clamping guide rod, a clamping guide block, an anti-falling lifting plate, a cargo material frame and a gasket, the side wall of the connecting slide block is connected with the clamping guide rod in a screwed mode, one end of the clamping guide rod is connected with the clamping guide block which is connected with the inner wall of the clamping lifting frame in a sliding mode, the bottom end of the clamping guide block extends to the lower fixedly connected with anti-falling lifting plate which is connected with the clamping lifting frame in a clamped mode, the outer wall of the anti-falling lifting plate is tightly attached to the cargo material frame, and the outer wall of the cargo material frame is fixedly connected with the gasket which is attached to the outer wall of the anti-falling lifting plate.

Preferably, the automatic feeding device comprises an extruder, wherein the output end of the extruder is located below a clamping and lifting frame and is provided with a roller conveyor, the outer wall of the roller conveyor is connected with a roller in a rotating mode, the side wall of the roller conveyor is fixedly connected with a supporting column, the inner wall of the supporting column is fixedly connected with a lifting motor, the output end of the lifting motor is provided with a threaded rod, the outer wall of the threaded rod is in threaded connection with a lifting slider, the side wall of the lifting slider is fixedly connected with a lifting side plate in sliding connection with the outer wall of the supporting column, the bottom end of the lifting side plate is fixedly connected with a feeding frame, one side of the feeding frame, far away from the roller conveyor, is fixedly connected with a goods shelf, and the outer wall of the goods shelf is provided with a shuttling frame.

Preferably, the sliding guide rods are provided with two groups, the position relation of the two groups of sliding guide rods is symmetrical about the threaded sliding block, and the connecting sliding block and the limiting sliding groove support form a sliding structure through the threaded sliding block and the sliding guide rods.

Preferably, the clamping guide rods are provided with two groups, the position relation of the two groups of clamping guide rods is symmetrical about the connecting slide block, and the anti-falling lifting plate and the cargo material frame form a positioning structure through the clamping guide rods and the clamping guide blocks.

Preferably, the material loading frame includes material loading motor, pivot, initiative runner, belt, driven runner, gear, pinion rack and connecting plate, material loading frame's top fixedly connected with material loading motor, the pivot is installed to the output of material loading motor, the outer wall of pivot has set firmly fixedly connected with initiative runner, the outer wall winding of initiative runner has the belt, the outer wall laminating of belt has the driven runner that connects soon with material loading frame outer wall, the outer wall fixedly connected with gear of driven runner, the meshing face meshing of gear has the pinion rack with material loading frame outer wall sliding connection, the bottom of pinion rack is located the below fixedly connected with of material loading frame and presss from both sides the connecting plate that lifts frame top fixed connection.

Preferably, the driven rotating wheels are provided with two groups, the position relation of the two groups of driven rotating wheels is symmetrical about the driving rotating wheel, and the connecting plate forms a sliding structure with the feeding frame through a gear and a toothed plate.

Preferably, the shuttle framework includes lifting motor, cylinder, connection rope, leading wheel, lift truck, electric putter, jacking slider, slip connecting rod, butt slider, connects even board and flexible pole of supporting, the top fixedly connected with lifting motor of shuttle framework, the cylinder is installed to the output of lifting motor, the outer wall winding of cylinder has the connection rope, the outer wall of connecting the rope is provided with the leading wheel with shuttle framework top fixed connection, the bottom fixedly connected with of connecting the rope and shuttle framework outer wall sliding connection's lift truck, the outer wall fixedly connected with electric putter of lift truck, the jacking slider is installed to electric putter's output, the lateral wall of jacking slider has connect the slip connecting rod soon, the bottom of slip connecting rod has connect the butt slider soon, the bottom fixedly connected with of butt slider connects even board, the one end fixedly connected with of connecting even board supports the pole with the flexible of shuttle framework outer wall sliding connection.

Preferably, the lift truck is provided with two sets, the position relation of the two sets of lift trucks is symmetrical about the goods shelf, and the lift truck passes through a roller and a lifting structure formed between the connecting rope and the shuttle framework.

Preferably, the butt slider passes through to constitute extending structure between jacking slider and the slip connecting rod and the lift truck, flexible pole is provided with two sets ofly, and two sets of flexible pole is supported in the position relation is symmetrical about connecting the even board.

The scheme also provides a whole plant logistics process for aluminum profile production, and the method comprises the following steps:

s1, firstly, placing an aluminum bar in an extruder by a worker, pushing an aluminum profile into a goods material frame by the extruder for stacking, and transferring the goods material frame to one side of a goods shelf through a roller on a roller conveyor;

s2, then, clamping the cargo material frame, wherein in the clamping and lifting frame, a clamping and lifting motor works to drive a threaded slider to slide along the inner wall of the clamping and lifting frame through a clamping and lifting screw rod, the threaded slider slides to drive two sets of sliding guide rods, so that the threaded slider drives a connecting slider to slide along the outer wall of a limiting sliding groove through the sliding guide rods, the connecting slider slides to drive two sets of clamping guide rods to synchronously move, the connecting slider slides to drive a clamping guide block to slide along the inner wall of the clamping and lifting frame through the clamping guide rods, the clamping guide block drives an anti-falling lifting plate to be fixed with the cargo material frame, and the stable clamping operation of the cargo material frame is realized through the relative sliding of the four sets of anti-falling lifting plates;

s3, lifting the cargo material frame, driving a lifting slider to vertically slide along the inner wall of the support column through a threaded rod when a lifting motor works, driving a clamping and lifting frame at the bottom end of the loading frame to synchronously vertically slide through a lifting side plate when the lifting slider slides, and driving the cargo material frame to vertically slide through the vertical sliding of the clamping and lifting frame to realize the lifting operation of the cargo material frame;

s4, then, loading and storing the goods frame, wherein in the loading frame, a loading motor works to drive a driving rotating wheel to rotate through a rotating shaft, the driving rotating wheel rotates to drive two groups of driven rotating wheels through a belt, the driven rotating wheels rotate to drive a connecting plate to slide along the outer wall of the loading frame through meshing of a gear and a toothed plate, so that the connecting plate slides to drive a clamping and lifting frame to synchronously slide along the outer wall of the loading frame, the clamping and lifting frame drives the goods frame to be transferred onto a goods shelf, and the loading and storing operation of the goods frame is realized;

s5, finally, in the frame that shuttles back and forth, lifting motor work drives the cylinder and rotates, the cylinder rotates and drives the lift truck through connecting the rope and follow the vertical slip of outer wall of frame that shuttles back and forth, slide the lift truck to appointed high back, then, tear frame operation open to the inside goods material frame of goods shelves, electric putter work drives the jacking slider and slides along the outer wall of lift truck, the jacking slider slides and drives the butt slider through the slip connecting rod and slide along the outer wall of lift truck, the butt slider slides and drives flexible support rod and lift truck relative slip through connecting the link plate, so that flexible support rod extends goods material frame below, the realization is to tearing frame operation open of the inside goods material frame of goods shelves.

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

1. this aluminium alloy production is with whole factory logistics technology, through setting up the anticreep and lifting the board, the screw thread slider drives link block through the slip guide pole and slides along the outer wall of spacing spout, and link block slides and drives through pressing from both sides tight guide pole and press from both sides tight guide block and lift the inner wall of frame and slide along pressing from both sides, presss from both sides tight guide block and drives the anticreep and lift the board and fix with goods material frame, through the relative slip of four groups of anticreeps lifting the board, realize getting the operation to goods material frame is stable.

2. This aluminium alloy production is with whole factory logistics process, through setting up lifting slide block, the threaded rod rotates and drives lifting slide block along the vertical slip of inner wall of support column, and lifting slide block slides and lifts the synchronous vertical slip of frame through pressing from both sides that the lifting curb plate drove the material loading frame bottom, presss from both sides and lifts the vertical slip of frame and drive the vertical slip of goods material frame, realizes the lifting operation to goods material frame.

3. This whole factory logistics process is used in aluminium alloy production, through setting up gear and pinion rack, the initiative runner rotates and drives two sets of driven runners through the belt, driven runner rotates and drives the connecting plate through gear and pinion rack meshing and slide along the outer wall of material loading frame, so that the connecting plate slides and drives the clamp and lift the outer wall synchronous slip of frame along material loading frame, so that the clamp lifts the frame and drives goods material frame and shift to goods shelves on, realize the stable material loading storage operation to goods material frame.

4. This whole factory logistics process is used in aluminium alloy production connects the rope through setting up, and lifting motor work drives the cylinder and rotates, and the cylinder rotates and drives the lift truck along the vertical slip of the outer wall of frame that shuttles back and forth through connecting the rope, is convenient for slide the lift truck to the assigned height.

5. This whole factory logistics process is used in aluminium alloy production through setting up flexible pole that supports, and the jacking slider slides and drives the butt slider through the slip connecting rod and slides along the outer wall of lift truck, and the butt slider slides and drives flexible pole and lift truck relative slip through connecting even board to make flexible pole that supports extend to goods material frame below, realize the frame operation of tearing open of goods material frame inside the goods shelves, realize the three-dimensional storage operation to the aluminium alloy.

Drawings

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

FIG. 2 is a schematic view of the connection structure of the cargo material frame and the roller conveyor of the present invention;

FIG. 3 is a schematic view of a connecting structure of the loading frame according to the present invention;

FIG. 4 is a schematic cross-sectional view of the support post of the present invention;

FIG. 5 is a schematic view of the connection structure of the driven wheel of the present invention;

FIG. 6 is a schematic view of the anti-separation lifting plate connection structure of the present invention;

FIG. 7 is a schematic view of a shelf and shuttle frame connection configuration of the present invention;

fig. 8 is a schematic view of the outer wall connection structure of the lift truck of the present invention.

In the figure: 1. clamping and lifting the frame; 2. a clamping and lifting motor; 3. clamping and lifting the screw rod; 4. a threaded slider; 5. sliding the guide bar; 6. connecting the sliding block; 7. a limiting chute; 8. clamping the guide rod; 9. clamping the guide block; 10. the anti-falling lifting plate; 11. a cargo material frame; 12. a gasket; 13. an extruder; 14. a roller conveyor; 15. a roller; 16. a support column; 17. a lifting motor; 18. a threaded rod; 19. a lifting slide block; 20. lifting the side plate; 21. a feeding frame; 2101. a feeding motor; 2102. a rotating shaft; 2103. a driving runner; 2104. a belt; 2105. a driven runner; 2106. a gear; 2107. a toothed plate; 2108. a connecting plate; 22. a shelf; 23. a shuttle framework; 2301. a lifting motor; 2302. a drum; 2303. a connecting rope; 2304. a guide wheel; 2305. a lift car; 2306. an electric push rod; 2307. jacking a sliding block; 2308. a sliding connecting rod; 2309. abutting against the sliding block; 2310. connecting the connecting plate; 2311. the flexible pole that supports.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 8, in an embodiment of the present invention, a whole plant logistics process for aluminum profile production includes a clamping and lifting frame 1 and a clamping and lifting mechanism arranged inside the clamping and lifting frame 1, where the clamping mechanism includes a sliding assembly, a connecting assembly, and a clamping assembly;

the sliding assembly comprises a clamping and lifting motor 2, a clamping and lifting screw rod 3 and a threaded sliding block 4, the inner wall of the clamping and lifting frame 1 is fixedly connected with the clamping and lifting motor 2, the clamping and lifting screw rod 3 is installed at the output end of the clamping and lifting motor 2, and the outer wall of the clamping and lifting screw rod 3 is in threaded connection with the threaded sliding block 4 in sliding connection with the inner wall of the clamping and lifting frame 1;

the connecting assembly comprises a sliding guide rod 5, a connecting slide block 6 and a limiting sliding groove 7, the side wall of the threaded slide block 4 is screwed with the sliding guide rod 5, one end of the sliding guide rod 5 is screwed with the connecting slide block 6, and the connecting part of the connecting slide block 6 and the clamping and lifting frame 1 is provided with the limiting sliding groove 7;

clamping unit is including pressing from both sides tight guide arm 8, press from both sides tight guide block 9, the anticreep is lifted board 10, goods material frame 11 and gasket 12, the lateral wall of link block 6 has connect soon and has pressed from both sides tight guide arm 8, the one end that presss from both sides tight guide arm 8 has connect soon and presss from both sides tight guide block 9 that lifts frame 1 inner wall sliding connection with the clamp, the bottom that presss from both sides tight guide block 9 extends to the clamp and lifts the below fixedly connected with anticreep of frame 1 and lifts board 10, the anticreep is lifted the outer wall of board 10 and is closely laminated and have goods material frame 11, the outer wall fixedly connected with of goods material frame 11 lifts the gasket 12 that board 10 outer wall was laminated mutually with the anticreep.

Further, the automatic feeding device comprises an extruder 13, wherein an output end of the extruder 13 is located below the clamping and lifting frame 1 and is provided with a roller conveyor 14, the outer wall of the roller conveyor 14 is screwed with a roller 15, the side wall of the roller conveyor 14 is fixedly connected with a supporting column 16, the inner wall of the supporting column 16 is fixedly connected with a lifting motor 17, the output end of the lifting motor 17 is provided with a threaded rod 18, the outer wall of the threaded rod 18 is in threaded connection with a lifting slider 19, the side wall of the lifting slider 19 is fixedly connected with a lifting side plate 20 in sliding connection with the outer wall of the supporting column 16, the bottom end of the lifting side plate 20 is fixedly connected with a feeding frame 21, one side of the feeding frame 21, which is far away from the roller conveyor 14, is fixedly connected with a goods shelf 22, the outer wall of the goods shelf 22 is provided with a shuttle frame 23, and by arranging the shuttle frame 23, the single frame and the multiple frames can be flexibly switched and meet the requirements of one-to-many, many-to-many process paths.

Further, the sliding guide rods 5 are provided with two sets, the position relation of the two sets of sliding guide rods 5 is symmetrical about the threaded sliding block 4, the connecting sliding block 6 forms a sliding structure with the support of the limiting sliding groove 7 through the threaded sliding block 4 and the sliding guide rods 5, and the two sets of sliding guide rods 5 are beneficial to sliding of the threaded sliding block 4 to drive the two sets of sliding guide rods 5, so that the threaded sliding block 4 drives the connecting sliding block 6 to slide along the outer wall of the limiting sliding groove 7 through the sliding guide rods 5, and the sliding control operation of the connecting sliding block 6 is realized.

Further, the clamping guide rods 8 are provided with two groups, the position relation of the two groups of clamping guide rods 8 is symmetrical about the connecting slide block 6, the anti-falling lifting plate 10 forms a positioning structure between the clamping guide rods 8 and the clamping guide block 9 and the cargo material frame 11, the two groups of clamping guide rods 8 are arranged, the connecting slide block 6 is favorable for sliding to drive the two groups of clamping guide rods 8 to move synchronously, the connecting slide block 6 further slides to drive the clamping guide block 9 to slide along the inner wall of the clamping lifting frame 1 through the clamping guide rods 8, the clamping guide block 9 drives the anti-falling lifting plate 10 to be fixed with the cargo material frame 11, and stable clamping operation of the cargo material frame 11 is realized through relative sliding of the four groups of anti-falling lifting plates 10.

Further, the feeding frame 21 includes a feeding motor 2101, a rotating shaft 2102, a driving rotating wheel 2103, a belt 2104, a driven rotating wheel 2105, a gear 2106, a toothed plate 2107 and a connecting plate 2108, the top end of the feeding frame 21 is fixedly connected with the feeding motor 2101, the rotating shaft 2102 is installed at the output end of the feeding motor 2101, the driving rotating wheel 2103 is fixedly connected to the outer wall of the rotating shaft 2102, the belt 2104 is wound on the outer wall of the driving rotating wheel 2103, the driven rotating wheel 2105 screwed with the outer wall of the feeding frame 21 is attached to the outer wall of the belt 2104, the gear 2106 is fixedly connected to the outer wall of the driven rotating wheel 2105, the toothed plate 2107 slidably connected with the outer wall of the feeding frame 21 is engaged with the meshing surface of the gear 2106, the bottom end of the toothed plate 2107 is fixedly connected below the feeding frame 21 and is fixedly connected with the connecting plate 2108 fixedly connected with the top end of the clamp frame 1, by arranging the feeding frame 21, the driving rotating wheel drives the two sets of the driven rotating wheel 2103 to drive the two sets of the driven rotating wheels 2105 through the belt 2106 and the gear 2107 is engaged with the connecting plate 2108, the outer wall of the clamping frame 2108, so that the goods is synchronously lifted along the sliding plate 21011, the feeding frame, and the goods storage frame is driven lifting frame 21011;

further, driven runner 2105 is provided with two sets ofly, two sets of driven runners 2105's positional relation is symmetrical about driving runner 2103, connecting plate 2108 passes through and constitutes sliding structure between gear 2106 and pinion rack 2107 and the material loading frame 21, be favorable to driving runner 2103 to rotate and drive two sets of driven runners 2105 through belt 2104, driven runner 2105 rotates and drives connecting plate 2108 through gear 2106 and pinion rack 2107 meshing and slide along the outer wall of material loading frame 21, realize the gliding control operation of connecting plate 2108.

Further, the shuttle framework 23 comprises a lifting motor 2301, a roller 2302, a connecting rope 2303, a guide wheel 2304, a lift car 2305, an electric push rod 2306, a jacking slider 2307, a sliding connecting rod 2308, a butting slider 2309, a connecting plate 2310 and a telescopic abutting rod 2311, the top end of the shuttle framework 23 is fixedly connected with the lifting motor 2301, the roller 2302 is installed at the output end of the lifting motor 2301, the connecting rope 2303 is wound on the outer wall of the roller 2302, the guide wheel 2304 fixedly connected with the top end of the shuttle framework 23 is arranged on the outer wall of the connecting rope 2303, the lift car 2305 slidably connected with the outer wall of the shuttle framework 23 is fixedly connected with the bottom end of the connecting rope 2303, the electric push rod 2306 is fixedly connected with the outer wall of the lift car 2305, the jacking slider 2307 is installed at the output end of the electric push rod 2306, the sliding connecting plate 2307 is rotatably connected with the side wall of the jacking slider 2308, the sliding connecting rod 2309 is rotatably connected with the bottom end of the sliding connecting plate 2310 and the telescopic abutting rod 2311 slidably connected with the shuttle framework 23, by arranging the shuttle frame 23, the operation of the lifting motor 2301 is facilitated to drive the roller 2302 to rotate, the roller 2302 rotates to drive the lift car 2305 to vertically slide along the outer wall of the shuttle frame 23 through the connecting rope 2303, and after the lift car 2305 slides to a specified height, then, the goods material frame 11 in the goods shelf 22 is disassembled, the electric push rod 2306 works to drive the jacking slide block 2307 to slide along the outer wall of the lift truck 2305, the jacking slide block 2307 slides to drive the abutting slide block 2309 to slide along the outer wall of the lift truck 2305 through the sliding connecting rod 2308, the abutting slide block 2309 slides to drive the telescopic abutting rod 2311 to slide relative to the lift truck 2305 through the connecting plate 2310, so that the telescopic rod 2311 extends to the lower part of the goods frame 11 to realize the frame dismantling operation of the goods frame 11 inside the goods shelf 22.

Further, lift truck 2305 is provided with two sets ofly, two sets of lift truck 2305's positional relationship is symmetrical about goods shelves 22, lift truck 2305 passes through the cylinder 2302 and connects rope 2303 and shuttle frame 23 between constitute elevation structure, be favorable to lifting motor 2301 work to drive cylinder 2302 and rotate, cylinder 2302 rotates and drives lift truck 2305 along the vertical slip of outer wall of shuttle frame 23 through connecting rope 2303, through setting up two sets of lift truck 2305, realize the control operation of the stable centre gripping of goods material frame 11.

Further, the butt slider 2309 forms extending structure through between jacking slider 2307 and the slip connecting rod 2308 and the lift truck 2305, the flexible pole 2311 that supports is provided with two sets ofly, two sets of flexible poles 2311 that support's positional relation is symmetrical about connecting link plate 2310, be favorable to jacking slider 2307 to slide and drive butt slider 2309 through slip connecting rod 2308 and slide along the outer wall of lift truck 2305, the butt slider 2309 slides and drives flexible pole 2311 and the lift truck 2305 relative slip through connecting link plate 2310, realize the flexible gliding control operation of pole 2311 that supports.

The embodiment also provides a use scheme of the whole plant logistics process for aluminum profile production, and the device is adopted, and the method comprises the following steps:

s1, firstly, a worker places an aluminum bar in an extruder 13, the extruder 13 pushes an aluminum profile into a cargo material frame 11 to be stacked, and then the cargo material frame 11 is transferred to one side of a shelf 22 through a roller 15 on a roller conveyor 14;

s2, then, clamping the cargo material frame 11, in the clamping and lifting frame 1, the clamping and lifting motor 2 works to drive the threaded slide block 4 to slide along the inner wall of the clamping and lifting frame 1 through the clamping and lifting screw rod 3, the threaded slide block 4 slides to drive the two sets of sliding guide rods 5, so that the threaded slide block 4 drives the connecting slide block 6 to slide along the outer wall of the limiting sliding groove 7 through the sliding guide rods 5, the connecting slide block 6 slides to drive the two sets of clamping guide rods 8 to move synchronously, the connecting slide block 6 slides to drive the clamping guide block 9 to slide along the inner wall of the clamping and lifting frame 1 through the clamping guide rods 8, the clamping guide block 9 drives the anti-falling lifting plate 10 to be fixed with the cargo material frame 11, and stable clamping operation of the cargo material frame 11 is realized through relative sliding of the four sets of anti-falling lifting plates 10;

s3, then, the cargo material frame 11 is lifted, the lifting motor 17 drives the lifting slide block 19 to vertically slide along the inner wall of the supporting column 16 through the threaded rod 18 during working, the lifting slide block 19 drives the clamping and lifting frame 1 at the bottom end of the loading frame 21 to synchronously vertically slide through the lifting side plate 20 during sliding, and the clamping and lifting frame 1 vertically slides to drive the cargo material frame 11 to vertically slide, so that the cargo material frame 11 is lifted;

s4, then, loading and storing the goods frame 11, wherein in the loading frame 21, the loading motor 2101 works to drive the driving rotating wheel 2103 to rotate through the rotating shaft 2102, the driving rotating wheel 2103 rotates to drive the two groups of driven rotating wheels 2105 through the belt 2104, the driven rotating wheels 2105 rotate to drive the connecting plate 2108 to slide along the outer wall of the loading frame 21 through the meshing of the gear 2106 and the toothed plate 2107, so that the connecting plate 2108 slides to drive the lifting frame 1 to slide along the outer wall of the loading frame 21 synchronously, the lifting frame 1 drives the goods frame 11 to be transferred onto the goods shelf 22, and the loading and storing operation of the goods frame 11 is realized;

s5, finally, in the shuttle framework 23, the lifting motor 2301 works to drive the roller 2302 to rotate, the roller 2302 rotates to drive the lift car 2305 to vertically slide along the outer wall of the shuttle framework 23 through the connecting rope 2303, after the lift car 2305 slides to a specified height, then the goods material frame 11 in the goods shelf 22 is subjected to frame dismantling operation, the electric push rod 2306 works to drive the jacking slide block 2307 to slide along the outer wall of the lift car 2305, the jacking slide block 2307 slides to drive the abutting slide block 2309 to slide along the outer wall of the lift car 2305 through the sliding connecting rod 2308, the abutting slide block 2309 slides to drive the telescopic abutting rod 2311 to slide relative to the lift car 2305 through the connecting plate 2310, so that the telescopic abutting rod 2311 extends to the lower part of the goods material frame 11, and the frame dismantling operation of the goods material frame 11 in the goods shelf 22 is realized,

the working principle of the invention is as follows: when the whole plant logistics process for aluminum profile production is used, firstly, workers place aluminum bars in the extruder 13, the extruder 13 pushes the aluminum profiles into the goods material frame 11 to be stacked when the extruder 13 works, and then the goods material frame 11 is transferred to one side of the goods shelf 22 through the roller 15 on the roller conveyor 14;

then, clamping operation is carried out on the cargo material frame 11, in the clamping and lifting frame 1, a clamping and lifting motor 2 works to drive a threaded slide block 4 to slide along the inner wall of the clamping and lifting frame 1 through a clamping and lifting screw rod 3, the threaded slide block 4 drives two sets of sliding guide rods 5 in a sliding mode, so that the threaded slide block 4 drives a connecting slide block 6 to slide along the outer wall of a limiting sliding groove 7 through the sliding guide rods 5, the connecting slide block 6 drives two sets of clamping guide rods 8 to move synchronously in a sliding mode, the connecting slide block 6 further drives a clamping guide block 9 to slide along the inner wall of the clamping and lifting frame 1 through the clamping guide rods 8 in a sliding mode, the clamping guide block 9 drives an anti-falling lifting plate 10 to be fixed with the cargo material frame 11, and stable clamping operation of the cargo material frame 11 is achieved through relative sliding of the four sets of anti-falling lifting plates 10;

then, the cargo material frame 11 is lifted, the lifting motor 17 drives the lifting slide block 19 to vertically slide along the inner wall of the support column 16 through the threaded rod 18, the lifting slide block 19 drives the clamping and lifting frame 1 at the bottom end of the loading frame 21 to synchronously vertically slide through the lifting side plate 20, the clamping and lifting frame 1 vertically slides to drive the cargo material frame 11 to vertically slide, and the lifting operation of the cargo material frame 11 is realized;

next, a loading storage operation is performed on the goods frame 11, in the loading frame 21, the loading motor 2101 works to drive the driving rotating wheel 2103 to rotate through the rotating shaft 2102, the driving rotating wheel 2103 rotates to drive the two groups of driven rotating wheels 2105 through the belt 2104, the driven rotating wheels 2105 rotate to drive the connecting plate 2108 to slide along the outer wall of the loading frame 21 through the meshing of the gear 2106 and the toothed plate 2107, so that the connecting plate 2108 slides to drive the clamping and lifting frame 1 to slide along the outer wall of the loading frame 21 synchronously, so that the clamping and lifting frame 1 drives the goods frame 11 to be transferred onto the goods shelf 22, and the loading storage operation on the goods frame 11 is realized;

finally, in the shuttle frame 23, the lifting motor 2301 works to drive the roller 2302 to rotate, the roller 2302 rotates to drive the lift car 2305 to vertically slide along the outer wall of the shuttle frame 23 through the connecting rope 2303, the lift car 2305 slides to a specified height, then, the goods material frame 11 inside the goods shelf 22 is subjected to frame dismantling operation, the electric push rod 2306 works to drive the jacking slide block 2307 to slide along the outer wall of the lift car 2305, the jacking slide block 2307 slides to drive the abutting slide block 2309 to slide along the outer wall of the lift car 2305 through the sliding connecting rod 2308, the abutting slide block 2309 slides to drive the telescopic abutting rod 2311 to slide relative to the lift car 2305 through the connecting plate 2310, so that the telescopic abutting rod 2311 extends below the goods material frame 11, and the frame dismantling operation of the goods material frame 11 inside the goods shelf 22 is realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides an aluminium alloy production is with whole factory logistics technology, lifts frame (1) and sets up and lifts the mechanism in the clamp of frame (1) inside including pressing from both sides, its characterized in that: the clamping mechanism comprises a sliding assembly, a connecting assembly and a clamping assembly;

the sliding assembly comprises a clamping and lifting motor (2), a clamping and lifting screw rod (3) and a threaded sliding block (4), the inner wall of the clamping and lifting frame (1) is fixedly connected with the clamping and lifting motor (2), the clamping and lifting screw rod (3) is installed at the output end of the clamping and lifting motor (2), and the outer wall of the clamping and lifting screw rod (3) is in threaded connection with the threaded sliding block (4) which is in sliding connection with the inner wall of the clamping and lifting frame (1);

the connecting assembly comprises a sliding guide rod (5), a connecting slide block (6) and a limiting sliding groove (7), the side wall of the threaded slide block (4) is screwed with the sliding guide rod (5), one end of the sliding guide rod (5) is screwed with the connecting slide block (6), and the limiting sliding groove (7) is formed in the connecting part of the connecting slide block (6) and the clamping and lifting frame (1);

the clamping assembly comprises a clamping guide rod (8), a clamping guide block (9), an anti-falling lifting plate (10), a cargo material frame (11) and a gasket (12), the side wall of the connecting slide block (6) is connected with the clamping guide rod (8) in a rotating mode, one end of the clamping guide rod (8) is connected with the clamping guide block (9) in a rotating mode, the clamping guide block is slidably connected with the inner wall of the clamping lifting frame (1), the bottom end of the clamping guide block (9) extends to the anti-falling lifting plate (10) fixedly connected with the lower portion of the clamping lifting frame (1), the outer wall of the anti-falling lifting plate (10) is tightly attached to the cargo material frame (11), and the gasket (12) attached to the outer wall of the anti-falling lifting plate (10) is fixedly connected with the outer wall of the cargo material frame (11).

2. The whole plant logistics process for aluminum profile production according to claim 1, characterized in that: including extruder (13), roller conveyor (14) are installed to the below that the output of extruder (13) is located to press from both sides and lift frame (1), the outer wall of roller conveyor (14) has connect roller (15) soon, the lateral wall fixedly connected with support column (16) of roller conveyor (14), the inner wall fixedly connected with elevator motor (17) of support column (16), threaded rod (18) are installed to the output of elevator motor (17), the outer wall threaded connection of threaded rod (18) has lifting slide (19), the lateral wall fixedly connected with of lifting slide (19) and support column (16) outer wall sliding connection's lifting curb plate (20), the bottom fixedly connected with of lifting curb plate (20) material loading frame (21), one side fixedly connected with goods shelves (22) of roller conveyor (14) are kept away from in material loading frame (21), frame (23) of shuttling is installed to the outer wall of goods shelves (22).

3. The whole plant logistics process for aluminum profile production according to claim 1, characterized in that: the two groups of sliding guide rods (5) are arranged, the position relation of the two groups of sliding guide rods (5) is symmetrical about the threaded sliding block (4), and the connecting sliding block (6) forms a sliding structure with the limiting sliding groove (7) through the threaded sliding block (4), the sliding guide rods (5) and the support.

4. The whole plant logistics process for aluminum profile production according to claim 1, characterized in that: the anti-falling lifting plate is characterized in that two groups of clamping guide rods (8) are arranged, the position relation of the two groups of clamping guide rods (8) is symmetrical about the connecting slide block (6), and the anti-falling lifting plate (10) forms a positioning structure with the cargo material frame (11) through the clamping guide rods (8), the clamping guide blocks (9) and the cargo material frame.

5. The whole plant logistics process for aluminum profile production according to claim 2, characterized in that: the utility model discloses a material loading frame, including material loading motor (2101), pivot (2102), initiative runner (2103), belt (2104), driven runner (2105), gear (2106), pinion rack (2107) and connecting plate (2108), the top fixedly connected with material loading motor (2101) of material loading frame (21), pivot (2102) are installed to the output of material loading motor (2101), the outer wall of pivot (2102) has fixedly connected with initiative runner (2103), the outer wall winding of initiative runner (2103) has belt (2104), the outer wall laminating of belt (2104) has driven runner (2105) of connecing soon with material loading frame (21) outer wall, the outer wall fixedly connected with gear (2106) of driven runner (2105), the meshing face meshing of gear (2106) has pinion rack (7) with material loading frame (21) outer wall sliding connection, the bottom of pinion rack (2107) is located the below fixedly connected with material loading frame (21021) and lifts connecting plate (2108) of clamp frame (2101) top fixedly connected with material loading frame (2108).

6. The whole plant logistics process for aluminum profile production according to claim 5, characterized in that: the driven rotating wheels (2105) are provided with two sets, the position relation of the two sets of driven rotating wheels (2105) is symmetrical about the driving rotating wheel (2103), and the connecting plate (2108) forms a sliding structure with the feeding frame (21) through a gear (2106) and a toothed plate (2107).

7. The whole plant logistics process for aluminum profile production as claimed in claim 2, wherein the whole plant logistics process comprises the following steps: the shuttle frame (23) comprises a lifting motor (2301), a roller (2302), a connecting rope (2303), guide wheels (2304), a lift truck (2305), an electric push rod (2306), a jacking sliding block (2307), a sliding connecting rod (2308), a butting sliding block (2309), a connecting plate (2310) and a telescopic butting rod (2311), the top end of the shuttle frame (23) is fixedly connected with the lifting motor (2301), the roller (2302) is installed at the output end of the lifting motor (2301), the connecting rope (2303) is wound on the outer wall of the roller (2302), the outer wall of the connecting rope (2303) is provided with the guide wheels (2304) fixedly connected with the top end of the shuttle frame (23), the bottom end of the connecting rope (2303) is fixedly connected with the lift truck (2305) slidably connected with the outer wall of the shuttle frame (23), the outer wall of the lift truck (2305) is fixedly connected with the electric push rod (2306), the output end of the electric push rod (2306) is provided with the lifting sliding block (2307), the side wall of the sliding block (2307) is rotatably connected with the jacking sliding connecting rod (2308), the outer wall of the sliding connecting rod (2309) is rotatably connected with the outer wall of the jacking sliding connecting rod (2300), and the connecting rod (2300) .

8. The whole plant logistics transportation method for aluminum profile production as claimed in claim 7, characterized in that: the lift truck (2305) is provided with two groups, the position relation of the two groups of lift trucks (2305) is symmetrical about the goods shelf (22), and the lift truck (2305) forms a lifting structure through a roller (2302) and a connecting rope (2303) and the shuttle framework (23).

9. The whole plant logistics process for aluminum profile production according to claim 7, characterized in that: the abutting sliding block (2309) and the lift truck (2305) form a telescopic structure through the jacking sliding block (2307) and the sliding connecting rod (2308), two groups of telescopic abutting rods (2311) are arranged, and the position relation of the two groups of telescopic abutting rods (2311) is symmetrical about the connecting plate (2310).

10. The whole plant logistics process for aluminum profile production as claimed in claim 1, characterized by comprising the following steps:

s1, firstly, a worker places an aluminum bar in an extruder (13), the extruder (13) pushes an aluminum profile into a cargo material frame (11) to be stacked, and then the cargo material frame (11) is transferred to one side of a shelf (22) through a roller (15) on a roller conveyor (14);

s2, then, clamping and taking the cargo material frame (11), in the clamping and lifting frame (1), a clamping and lifting motor (2) works to drive a threaded slide block (4) to slide along the inner wall of the clamping and lifting frame (1) through a clamping and lifting screw rod (3), the threaded slide block (4) slides to drive two groups of sliding guide rods (5), so that the threaded slide block (4) drives a connecting slide block (6) to slide along the outer wall of a limiting sliding groove (7) through the sliding guide rods (5), the connecting slide block (6) slides to drive two groups of clamping guide rods (8) to synchronously move, the connecting slide block (6) slides to drive a clamping guide block (9) to slide along the inner wall of the clamping and lifting frame (1) through the clamping guide rods (8), the clamping guide block (9) drives an anti-falling lifting plate (10) to be fixed with the cargo material frame (11), and stable operation of the cargo material frame (11) is realized through relative sliding of the four groups of clamping and taking the anti-falling lifting plate (10);

s3, then, the cargo material frame (11) is lifted, a lifting motor (17) works to drive a lifting slide block (19) to vertically slide along the inner wall of a supporting column (16) through a threaded rod (18), the lifting slide block (19) slides to drive a clamping and lifting frame (1) at the bottom end of the loading frame (21) to synchronously vertically slide through a lifting side plate (20), the clamping and lifting frame (1) vertically slides to drive the cargo material frame (11) to vertically slide, and the lifting operation of the cargo material frame (11) is realized;

s4, then, the goods material frame (11) is loaded and stored, in the loading frame (21), a loading motor (2101) works to drive a driving rotating wheel (2103) to rotate through a rotating shaft (2102), the driving rotating wheel (2103) rotates to drive two groups of driven rotating wheels (2105) through a belt (2104), the driven rotating wheels (2105) rotate to drive a connecting plate (2108) to slide along the outer wall of the loading frame (21) through meshing of a gear (2106) and a toothed plate (2107), so that the connecting plate (2108) slides to drive the clamping and lifting frame (1) to slide along the outer wall of the loading frame (21) synchronously, the clamping and lifting frame (1) drives the goods material frame (11) to be transferred onto a goods shelf (22), and the loading and storing operations of the goods material frame (11) are achieved;

s5, finally, in shuttle frame (23), lifting motor (2301) work drives cylinder (2302) and rotates, cylinder (2302) rotate and drive lift truck (2305) through connecting rope (2303) and slide along the outer wall of shuttle frame (23) is vertical, slide lift truck (2305) to appointed height after, then, to goods material frame (11) of goods shelves (22) inside tear open the frame operation, electric putter (2306) work drives jacking slider (2307) and slides along the outer wall of lift truck (2305), jacking slider (2307) slide and drive butt slider (2309) through slip connecting rod (2308) and slide along the outer wall of lift truck (2305), butt slider (2309) slide and drive flexible butt bar (2311) and lift truck (2305) relative slip through connecting link plate (2310), so that flexible butt bar (2311) extend to goods material frame (11) below, realize tearing open the goods frame operation of goods shelves (22) inside material frame (11).

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