CN218432005U - Aluminum profile packaging machine - Google Patents

Abstract

The utility model discloses an aluminum profile packaging machine, which is used for conveying the aluminum profile pasted with a film on a transfer rack forwards through a first synchronous belt for packaging operation, and comprises a feeding device, wherein the feeding device can axially adjust the position of the aluminum profile and then send the aluminum profile to the packaging paper of a paper cutting device through a feeding mechanism; the paper cutting device comprises a paper feeding mechanism and a paper feeding mechanism, and two paper sheet clamping devices of the paper feeding mechanism move around an elliptical track to draw a paper tape to feed the paper; the three-station paper folding packaging equipment comprises a material blocking device and a paper folding packaging mechanism with three stations, and is used for carrying out paper folding and adhesive tape winding binding operation; the traction device can clamp the packaged aluminum profile and place the aluminum profile on the third roller; automatic dress frame device, automatic dress frame device can rise the back horizontal migration to the third synchronous belt with the aluminium alloy of placing on the third barrel, through power device level promotion aluminium alloy to hydraulic lifting platform on, hydraulic lifting platform puts into the material frame with the aluminium alloy.

Description

Aluminum profile packaging machine

Technical Field

The utility model relates to an automatic packaging machinery of aluminium alloy improves design technical field, especially relates to an aluminium alloy packagine machine.

Background

The aluminum section bar mainly relates to procedures of cutting packaging paper, putting on the shelf of the aluminum section bar, folding the paper, winding the tape for packaging, framing the aluminum section bar and the like in the packaging process. For two packaging preconditions of paper cutting and feeding, one process efficiency is reduced to influence the other process efficiency, a bundle of qualified packaging section bars is subjected to at least 7-8 tape winding packaging processes, and the current single-station tape winding packaging mechanism cannot greatly improve the automatic packaging efficiency.

To this end, we propose an aluminum profile packaging machine that solves the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that exists among the prior art, and the aluminium alloy packagine machine who proposes merges into a process with paper folding and kinking area packing, adopts three station paper folding packagine machine to construct, improves packing efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an aluminum profile packaging machine comprises a feeding device, wherein a baffle mechanism of the feeding device blocks an aluminum profile conveyed by the tail end of a second synchronous belt through a liftable baffle; the first roller of the adjusting mechanism can move in a lifting way; the supporting rod of the feeding mechanism can move up and down; the long rod of the stock stop mechanism can move up and down, and the tail end of the long rod is provided with a stop block;

the paper feeding mechanism of the paper cutting device conveys the paper tape on the paper roll forwards through the traction of the paper feeding roller and the roller with the chain wheel; the paper cutting mechanism comprises an upper blade and a lower blade which are positioned on two sides of the paper tape; the paper feeding mechanism comprises two paper sheet clamping devices with the same structure, the paper sheet clamping devices move around an elliptical track through a transmission mechanism to draw a paper tape, the elliptical track comprises an elliptical outer guide rail and an elliptical inner guide rail, the elliptical inner guide rail is fixed through a rack, one side of the elliptical outer guide rail, which is close to the paper cutting mechanism, is provided with a pressing sheet capable of moving in a lifting mode, and one side of the elliptical outer guide rail, which is far away from the paper cutting mechanism, is provided with a bulge;

the three-station paper folding packaging equipment comprises a material blocking device, wherein a material blocking plate of the material blocking device can move in a lifting mode; the paper folding packaging mechanism comprises an adhesive tape roll which can rotate around the periphery of the aluminum profile and an upper paper folding device, wherein a lifting elastic adhesive tape of the upper paper folding device is suspended above the aluminum profile; the glue-padding rollers capable of moving horizontally of the side paper folding device are positioned at the left side and the right side of the aluminum profile; the cutting device comprises a blade arranged on the tool rest; the clamping device comprises two clamping sheets which are oppositely arranged;

the traction device comprises a lower support capable of moving horizontally, the lower support drives the upper support to move up and down through a rotating cylinder, two oppositely arranged material clamp mechanisms are arranged on the upper support, and a material clamp with a rubber cushion of the material clamp mechanism can clamp an aluminum profile and place the aluminum profile on a third roller;

automatic dress frame device, automatic dress frame device is including shifting the mechanism, and the flitch that lifts of shifting the mechanism can rise back horizontal migration to the third synchronous belt with the aluminium alloy of placing on the third roller, and pushing equipment is installed to third synchronous belt lateral part, is equipped with the one-way board that can reset on the pushing equipment, but the vertical direction setting of one-way board just horizontal rotation, but the one-way board passes through power device level promotion aluminium alloy to hydraulic lifting platform on, hydraulic lifting platform puts into the material frame with the aluminium alloy in.

The baffle is driven by the baffle cylinder to move up and down, the vertical part of the baffle penetrates through the shaft sleeve, and the horizontal part of the baffle is connected with the baffle cylinder; two ends of the first roller are mounted on a supporting plate through bearings, the lower part of the supporting plate is connected with an adjusting cylinder, and the adjusting cylinder is mounted on the side part of the baffle cylinder; the tail end of the horizontal part of the supporting rod is obliquely designed, the vertical part of the supporting rod is connected with a feeding cylinder, the feeding cylinder is arranged on a first support, the first support is driven to move in a horizontal linear mode through a motor, and the motor drives the first support to horizontally reciprocate through a chain connector on a chain transmission mechanism.

The vertical part of the long rod is connected with the material blocking cylinder, the material blocking cylinder is arranged on the second support, the second support is driven to move in a horizontal linear mode through the motor, and the motor drives the second support to move horizontally in a reciprocating mode through a chain connector on the chain transmission mechanism.

The upper chain wheel of the belt chain wheel roller is driven by a first chain, the first chain wheel is driven after being decelerated by a motor, the number of the belt chain wheel rollers is three, the upper paper roller is connected with a first cylinder, a guide roller is further arranged between a lower blade and an upper paper mechanism, and the upper blade is connected with a second cylinder.

First lower plate lateral part is fixed with first tight seat of clamp, first upper plate of pivot rotatable coupling is gone up to first tight seat of clamp, still pull up first upper plate paper supply area through first spring coupling and pass between first tight seat of clamp and the first upper plate, the breach that matches the size of oval outer guide rail is seted up to the oval track department that the hold-down strip below corresponds, the third cylinder is connected to the hold-down strip, the second chain is connected through first connecting pin respectively at first lower plate both ends, the second chain forms oval shape through a plurality of second sprockets, the second sprocket passes through the motor deceleration back drive, first upper plate passes through first outer bearing gyro wheel and follows oval outer guide rail motion, first lower plate passes through first inner bearing gyro wheel and follows oval inner guide rail motion, still be equipped with the second roller of a plurality of equidistance in the frame.

Paper folding packagine machine constructs and is equipped with threely and be first station in proper order, second station and third station, first dam device is established between first station and second station, second dam device is located the third station outside, striker plate connects the fender cylinder, the sticky tape is rolled up and is installed on rotating the wheel, it establishes the outside at the aluminium alloy to rotate the wheel, it passes through belt and band pulley drive to rotate the wheel, the band pulley passes through motor deceleration back drive, it is including installing the last paper folding cylinder on cylinder support to go up paper folding device, go up paper folding cylinder connection adhesive tape support, the adhesive tape support is equipped with elasticity adhesive tape outward, the pad of side paper folding device is glued the roller and is fixed on the mounting bracket, side paper folding cylinder is connected to the mounting bracket.

The lower part of the tool rest is provided with a first gear, the first gear is in meshing transmission through a first rack, the first rack is driven by a cutting cylinder, a first guide wheel is installed on the side part of the first rack, second gears are arranged below the first clamping piece and the second clamping piece, the two second gears are meshed with each other, the second gears are in meshing transmission through second racks, the second racks are driven by a clamping cylinder, and a second guide wheel is installed on the side part of each second rack.

Two ends of the lower support are movably connected with the plane track through third bearing idler wheels respectively, the lower support is further connected with a third chain through a third connecting pin, and the third chain is driven to work through a motor deceleration rear driving chain wheel. One end of the lower support is hinged with the connecting seat, the connecting seat is fixed below the upper support, the other end of the lower support is hinged with the rotary air cylinder, the rotary air cylinder is connected with the upper support and can drive the upper support to move up and down around the hinged position of the connecting seat, and the material clamp with the rubber cushion is driven by the material clamp air cylinder.

The transfer mechanism comprises a material lifting plate driven by a feeding cylinder, the feeding cylinder is arranged on a support frame, and the support frame is connected with a material moving cylinder; supporting mechanism is still installed to third hold-in range lateral part, and supporting mechanism's support backing plate drives after passing through the motor deceleration, and support backing plate tip is equipped with the filler strip.

The material pushing mechanism comprises a connecting support, a one-way plate is hinged to the connecting support, and the connecting support is driven by a material pushing cylinder to move horizontally.

Compared with the prior art, the beneficial effects of the utility model are that: the device combines paper folding and tape winding into one process, adopts a three-station paper folding packaging mechanism, increases the linkage performance of the traction device and the previous process, and improves the packaging efficiency of the whole production line.

Drawings

Fig. 1 is a top view of the present invention;

FIG. 2 is a schematic view of a feeding device and a paper cutting device;

FIG. 3 is a side view of the flapper mechanism and adjustment mechanism;

FIG. 4 is a schematic view of a baffle mechanism;

FIG. 5 is a schematic view of an adjustment mechanism;

fig. 6 is a side view of the feeding mechanism and the stock stop;

FIG. 7 is a schematic view of a feed mechanism;

fig. 8 is a schematic view of a stock stop;

FIG. 9 is a schematic view of the operation of FIG. 3;

FIG. 10 is a schematic view of the operation of FIG. 6;

FIG. 11 is a side view of the cutting device;

FIG. 12 is a cross-sectional view of FIG. 11;

FIG. 13 is a schematic view of a first leatheroid clamp;

FIG. 14 is a schematic view of the operation of FIG. 11;

FIG. 15 is a top view of the three station paper folding packaging apparatus and pulling mechanism;

FIG. 16 is a schematic view of a paper folding packaging mechanism;

fig. 17 is a schematic view of a stock stop;

FIG. 18 is a schematic view of a paper folding apparatus;

FIG. 19 is a schematic view of a side folding apparatus;

FIG. 20 is a schematic view of a severing device and a clamping device;

FIG. 21 is a schematic view of the operating condition of FIG. 16;

FIG. 22 is a side view of the pulling mechanism;

FIG. 23 is a schematic view of the operation of the traction mechanism;

FIG. 24 is a side view of the automatic framing apparatus;

FIG. 25 is a schematic view of the operation of the automatic framing apparatus.

In the figure: 1. a feeding device; 11. a second synchronous belt; 12. a baffle mechanism; 121. a baffle cylinder; 122. a baffle plate; 123. a shaft sleeve; 13. an adjustment mechanism; 131. adjusting the cylinder; 132. a first slider; 133. a first guide rail; 134. a bearing; 135. a first roller; 136. a support plate; 14. a feeding mechanism; 141. a second guide rail; 142. a second slider; 143. a first bracket; 144. a third slider; 145. a third guide rail; 146. a support bar; 147. a feeding cylinder; 15. a stock stop mechanism; 151. a fourth guide rail; 152. a fourth slider; 153. a second bracket; 154. a material blocking cylinder; 155. a long rod; 156. a stopper; 157. a fifth slider; 158. a fifth guide rail; 16. wrapping paper; 2. a paper cutting device; 21. a paper roll; 22. a roller with a chain wheel; 23. a first chain; 24. a first sprocket; 25. a paper feeding roller; 26. a first cylinder; 27. an upper blade; 28. a second cylinder; 29. a guide roller; 210. a lower blade; 211. a compressing sheet; 212. a third cylinder; 213. a first leatheroid clamp; 2131. a first outer bearing roller; 2132. a first upper splint; 2133. a first clamping seat; 2134. a first spring; 2135. a first lower splint; 2136. a first inner bearing roller; 2137. a first connecting pin; 214. an elliptical inner guide rail; 215. an elliptical outer guide rail; 216. a second chain; 217. a second leatheroid clamp; 218. a second roller; 219. a frame; 3. three-station paper folding and packaging equipment; 30. a first material blocking device; 31. a second material blocking device; 311. a striker plate; 312. a first guide bar; 313. a material blocking bracket; 314. a material blocking cylinder; 32. a pulley; 33. a belt; 34. a rotating wheel; 35. an adhesive tape roll; 36. an upward paper folding device; 361. an upward paper folding cylinder; 362. a second guide bar; 363. a cylinder support; 364. a rubber strip support; 365. an elastic rubber strip; 37. a side paper folding device; 371. a rubber cushion roller; 372. a side paper folding cylinder; 373. a mounting frame; 38. a cutting device; 381. cutting off the air cylinder; 382. a first rack; 383. a first guide wheel; 384. a first gear; 385. a tool holder; 386. a blade; 39. a clamping device; 391. a clamping cylinder; 392. a second rack; 393. a second guide wheel; 394. a second gear; 395. a first clamping piece; 396. a second clamping piece; 4. a traction device; 41. a material clamping mechanism; 411. a material clamp with a rubber cushion; 412. a material clamp cylinder; 42. an upper bracket; 43. a connecting seat; 44. a lower bracket; 45. a rotating cylinder; 46. a third bearing roller; 47. a planar track; 48. a third connecting pin; 49. a third chain; 5. an automatic framing device; 51. a third roller; 52. a third synchronous belt; 53. a transfer mechanism; 531. lifting a material plate; 532. a sixth slider; 533. a sixth guide rail; 534. a third guide bar; 535. a feeding cylinder; 536. a support frame; 537. a material moving cylinder; 54. a material pushing mechanism; 541. a material pushing cylinder; 542. connecting a bracket; 543. a seventh slider; 544. a seventh guide rail; 545. a one-way plate; 55. a support mechanism; 551. an eighth guide rail; 552. an eighth slider; 553. a support pad; 554. a filler strip; 56. a hydraulic lifting platform; 57. material frame; 6. an aluminum profile; 7. a first synchronization belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 25, in the first embodiment, the feeding device 1 is used for transferring a filmed aluminum profile 6 from a transfer frame to a packing paper 16, the transfer frame is provided with a first synchronous belt 7, the feeding device includes a second synchronous belt 11, a baffle mechanism 12, a vertical part of a baffle 122 of the baffle mechanism penetrates through a shaft sleeve 123, and a horizontal part of the baffle is connected with a baffle cylinder 121; the axial direction of a first roller 135 of the adjusting mechanism is parallel to the conveying direction of the second synchronous belt, two ends of the first roller are arranged on a supporting plate 136 through a bearing 134, the supporting plate is driven through an adjusting cylinder 131, and the adjusting cylinder is arranged on the side part of the baffle cylinder; the supporting rod 146 of the feeding mechanism is driven by the feeding cylinder 147 to move up and down; the long rod 155 of the material blocking mechanism 15 is driven by the material blocking cylinder 154 to move up and down, and the end of the long rod is provided with a stop block 156.

The support plate is also engaged with the first slider 132 through the first guide rail 133. The tail end of the horizontal part of the supporting rod is designed in an inclined mode, the feeding air cylinder is arranged on the first support 143, the second sliding block 142 is arranged on the lower portion of the first support and matched with the second guide rail 141, the second guide rail is parallel to the horizontal part of the supporting rod, and the motor drives the first support to horizontally reciprocate through a chain connector on the chain transmission mechanism. The support bar is further connected to a third slide 144, which is slidably engaged with a third guide 145, which is parallel to the vertical portion of the support bar.

The material blocking cylinder is arranged on the second support 153, the lower part of the second support is provided with a fourth sliding block 152, the fourth sliding block is matched with a fourth guide rail 151, the fourth guide rail is parallel to the horizontal part of the long rod, and the motor drives the second support to horizontally reciprocate through a chain connector on the chain transmission mechanism. The long rod is also connected with a fifth slide block 157 which is matched with a fifth guide rail 158 in a sliding way, the fifth guide rail is parallel to the vertical part of the long rod,

the working principle of the feeding device is as follows, as shown in fig. 9 and 10, before the second synchronous belt moves, the baffle cylinder drives the baffle to ascend; the second synchronous belt moves to convey the aluminum profile to the tail end of the second synchronous belt and then stops; the baffle cylinder drives the baffle to move downwards and reset; the adjusting cylinder drives the first roller and the aluminum profile to ascend; according to the position of wrapping paper on the paper cutting device, the aluminum section bar is moved axially and is subjected to manual fine adjustment, so that the end face of the paper is in the same straight line with the end face of the aluminum section bar; the adjusting cylinder drives the first roller and the aluminum profile to descend and reset, and the aluminum profile is placed on the second synchronous belt; the feeding cylinder drives the supporting rod and the aluminum profile to ascend, so that the aluminum profile leaves the second synchronous belt; the feeding mechanism is driven by a motor and a chain and chain wheel transmission mechanism to move towards the paper cutting device, so that the aluminum profile is transferred to the packaging paper; the stop cylinder drives the stop block and the long rod to ascend; the stop mechanism moves towards the paper cutting device under the driving of the motor, the chain wheel and the chain, and moves the stop block to the side surface of the aluminum profile to stop the aluminum profile; the feeding mechanism is driven by the motor chain and chain wheel transmission mechanism to move in the opposite direction of the paper cutting device, the aluminum profile slides downwards along the inclined plane of the supporting rod under the action of self gravity and the blocking of the stop block, and the aluminum profile is placed on the packaging paper; the feeding cylinder drives the supporting rod to descend, and the feeding mechanism resets; the stock stop moves in the opposite direction of the paper cutting device under the drive of the motor, the chain wheel and the chain; the material blocking cylinder drives the stop block and the long rod to descend, and the material blocking mechanism resets.

In the second embodiment, in the paper cutting device 2, the paper tape on the paper roll 21 of the paper feeding mechanism of the paper cutting device is conveyed forwards by the traction of the paper feeding roller 25 and the roller 22 with the chain wheel, the chain wheel of the roller with the chain wheel is driven by the first chain 23 and the first chain wheel 24, the speed of the first chain wheel is reduced by the motor and then driven, the roller with the chain wheel is provided with three arc tracks which are arranged, the paper feeding roller is connected with the first air cylinder 26, the paper feeding roller can be lifted to be in contact with the roller with the chain wheel, and the paper tape is conveyed by the traction of the roller with the chain wheel; the paper cutting mechanism comprises an upper blade 27 and a lower blade 210 which are positioned at the upper side and the lower side of the paper tape, a guide roller 29 is also arranged between the lower blade and the upper paper mechanism, the guide roller is a component for supporting and assisting feeding before the paper tape is cut, and the upper blade is driven by a second air cylinder 28 to be matched with the lower blade to cut the paper tape; the paper feeding mechanism comprises a first paper sheet clamp 213 and a second paper sheet clamp 214 which are arranged on an elliptical track and have the same structure, paper tapes are pulled by the fact that the first paper sheet clamp 213 and the second paper sheet clamp 214 move around the elliptical track through a transmission mechanism, the elliptical track comprises an elliptical outer guide rail 215 and an elliptical inner guide rail 214, the elliptical inner guide rail is located in a cavity of the elliptical outer guide rail and is fixed through a rack 219, a pressing piece 211 is arranged on one side, close to the paper cutting mechanism, of the elliptical outer guide rail and is driven by a third cylinder 212 to move up and down, a protruding portion is arranged on one side, far away from the paper cutting mechanism, of the elliptical outer guide rail, a first paper sheet clamp is elastically hinged to a first upper clamp plate 2132 and a first lower clamp plate 2135 to clamp the paper tapes, the first upper clamp plate moves along the elliptical outer guide rail, and the first lower clamp plate moves along the elliptical inner guide rail.

The first clamping seat 2133 is fixed on the side part of the first lower clamping plate, the first upper clamping plate is rotatably connected on the first clamping seat through a pivot, so that the first upper clamping plate can be opened rotatably relative to the first lower clamping plate, and the first clamping seat and the first upper clamping plate are also connected through a first spring 2134 to pull up the first upper clamping plate for allowing a paper tape to pass through. The oval track department that the pressing sheet below corresponds has seted up the breach that matches oval outer guide rail size, and at this breach department, because do not have oval outer guide rail spacing to first punch holder, under the effort of first spring, first punch holder unilateral is opened, and the paper tape is carried forward to between first punch holder and the first lower plate this moment, and the centre gripping of paper tape is accomplished to rethread pressing sheet pushing down first punch holder. The two ends of the first lower clamping plate are respectively connected with a second chain 216 through a first connecting pin 2137, the second chain forms an oval shape through a plurality of second chain wheels, and the second chain wheels are driven after the speed is reduced through a motor. Under the power drive of the second chain, the first paper sheet clamping device which finishes the paper tape clamping operation continues to move forwards along the elliptical track, and when the first upper clamping plate leaves a gap formed in the elliptical track, the first upper clamping plate is limited after entering the elliptical outer guide rail so as to continue to clamp the paper tape and convey forwards. The first upper clamping plate moves along the elliptical outer guide rail through the first outer bearing roller 2131, the first lower clamping plate moves along the elliptical inner guide rail through the first inner bearing roller 2136, and a plurality of second rollers 218 with equal intervals are further arranged on the rack. One side of the oval outer guide rail, which is far away from the paper cutting mechanism, is provided with a bulge part, namely, the tail end of the oval outer guide rail in the horizontal direction is designed into an obliquely upward bulge part, at the moment, the distance between the first outer bearing roller and the first lower clamping plate is enlarged, the clamped paper tape is loosened, and the conveying operation of the paper tape is completed.

The working principle of the paper cutting device is that a paper tape of a paper tube roll is driven by the upper paper mechanism to penetrate a first paper sheet clamp between an upper blade and a lower blade; the third cylinder pulls the pressing sheet to move downwards to press the outer bearing rollers on the two sides of the upper clamping plate, so that the upper clamping plate and the lower clamping plate are occluded to clamp the paper tape; the second chain drives the first paper leather clamping device to straighten and draw the paper tape; the first air cylinder presses the paper feeding roller downwards to enable the paper belt to be tightly pressed; the second cylinder acts to enable the upper blade to descend so as to cut the paper tape; the third cylinder drives the pressing sheet to ascend and reset; the second chain drives the first paper sheet clamping device to continuously move forwards, and when the first paper sheet clamping device reaches the bulge of the outer rail, the upper clamping plate and the lower clamping plate are separately reset, so that the paper tape is loosened, and the paper tape is placed on a paper bed of the paper cutting device to form wrapping paper; the next paper cutting is pulled and cut by the second leatheroid clamp in turn, so that the paper cutting efficiency is improved. Wherein, the length of single cut paper is detected by the encoder to the chain.

In the third embodiment, the three-station paper folding packaging equipment 3, as shown in fig. 15, 3A, 3B and 3C are a first station, a second station and a third station, the first material blocking device 30 is arranged between the first station and the second station, the second material blocking device 31 is positioned outside the third station, the material blocking plate 311 of the first material blocking device is driven by the material blocking cylinder 314, the material blocking cylinder is installed on the material blocking bracket 313, and the material blocking bracket and the material blocking plate are guided by the first guide rod 312; the paper folding packaging mechanism comprises an adhesive tape roll 35, the adhesive tape roll is mounted on a rotating wheel 34, the rotating wheel is arranged outside the aluminum profile, the rotating wheel is driven by a belt 33 and a belt wheel 32, the belt wheel is driven after the speed is reduced by a motor, and a liftable elastic adhesive tape 365 of an upper paper folding device 36 is suspended above the aluminum profile; the glue-padding rollers 371 capable of moving horizontally of the side paper folding device 37 are positioned at the left side and the right side of the aluminum profile; cutting device 38 includes a blade 386 mounted on a blade holder 385; the clamping device 39 comprises a first clamping flap 395 and a second clamping flap 396 arranged opposite.

The paper folding device comprises an upper paper folding cylinder 361 installed on a cylinder support 363, the upper paper folding cylinder is connected with a rubber strip support 364, an elastic rubber strip is arranged outside the rubber strip support, and the rubber strip support is further movably connected with the cylinder support through a second guide rod 362. The side paper folding device is equipped with two, two fill up the rubber roll and establish respectively in the left and right sides of aluminium alloy, fill up the rubber roll and fix on mounting bracket 373, the mounting bracket passes through the drive of side paper folding cylinder 372 and horizontal motion. The lower part of the tool rest is provided with a first gear 384 which is in meshing transmission through a first rack 382, and the first rack is driven through a cutting cylinder 381. A first guide wheel 383 is installed on the side of the first rack, and a first gear, the first guide wheel and the cutting cylinder are all installed on the bottom plate. And a second gear 394 is arranged below the first clamping piece and the second clamping piece, the two second gears are meshed with each other, the second gears are meshed and driven through a second rack 392, and the second rack is driven through a clamping cylinder 391. A second guide wheel 393 is installed at the side part of the second rack, and the second gear, the second guide wheel and the cutting cylinder are all installed on the bottom plate.

The three-station paper folding and packaging equipment has the working principle that after the aluminum profile and the packaging paper are conveyed by the paper cutting device, the aluminum profile and the packaging paper touch the first stop device, the paper folding and packaging mechanism at the first station starts to work, and the side paper folding cylinder pushes the glue filling roller to extrude and press the packaging paper at two sides of the aluminum profile; the upward paper folding cylinder acts to push the elastic adhesive tape to extrude and compress the packing paper on the upper end surface of the aluminum section; the motor is started to enable the rotating wheel to rotate, when the adhesive tape roll moves for about 3/4 of a circle, the adhesive tape is already bound to the two surfaces of the aluminum section bar, and the motor stops working; the clamping cylinder pushes the second rack and the second gear to drive the two clamping pieces to rotate and open, and the end of the adhesive tape is loosened; the motor continues to run to drive the rotating wheel to rotate, and when the adhesive tape moves for about 1.25 circles, the motor stops; the clamping cylinder is reset to drive the two clamping sheets to clamp the adhesive tape; and the cutting cylinder acts to push the first rack and the first gear to drive the tool rest and the blade to rotate, so that the adhesive tape between the clamping device and the aluminum profile is cut off, and after one-time paper folding binding and packaging is completed, all the devices are in a reset state to wait for the next paper folding binding and packaging operation. After the aluminum profile and the packaging paper are bound and packaged together, the aluminum profile and the packaging paper are continuously conveyed to pass through the three-station paper folding packaging equipment, the second material blocking device is touched, at the moment, paper folding, adhesive tape binding and winding work is carried out simultaneously at three stations of 3A, 3B and 3C, after the paper folding, binding and packaging work is finished at the three stations, the second material blocking device resets, and the aluminum profile enters the next procedure to be subjected to traction operation.

In the fourth embodiment, the traction device 4 includes a lower support 44 capable of moving horizontally, two oppositely arranged material clamping mechanisms 41 are installed on the upper support 42, and a material clamp 411 with a rubber pad of the material clamping mechanism can clamp the aluminum profile and place the aluminum profile on the third roller. The two ends of the lower bracket are respectively movably connected with a plane track 47 through a third bearing roller 46, the lower bracket is also connected with a third chain 49 through a third connecting pin 48, and the third chain is driven to work by a driving chain wheel after the speed of the motor is reduced. One end of the lower support is hinged with a connecting seat 43, the connecting seat is fixed below the upper support, the other end of the lower support is hinged with a rotary air cylinder 45, the rotary air cylinder is connected with the upper support and can drive the upper support to move up and down around the hinged position of the connecting seat, the material clamp with the rubber pad is driven by a material clamp air cylinder, and the material clamp air cylinder is installed on the side part of the upper support.

The working principle of the traction device is that after the paper folding packaging mechanisms at the three stations of 3A, 3B and 3C simultaneously perform paper folding, adhesive tape binding and winding work, the material blocking cylinder of the second material blocking device acts to drive the material blocking plate to move downwards to reset; the material clamp cylinders of the two material clamp mechanisms act to drive the material clamp with the rubber pad to clamp the aluminum profile; the third chain drives the aluminum profile to move forwards under the driving of the motor, the traction distance is calculated by the encoder, the operation is stopped when the aluminum profile is dragged to a certain distance, the three stations 3A, 3B and 3C simultaneously perform paper folding, adhesive tape binding and winding work again, and after the adhesive tape winding work is finished, the motor is started again to drive the third chain to drag the aluminum profile to the tail end of the automatic framing mechanism; the material clamp cylinders of the two material clamp mechanisms act and reset to loosen the aluminum profile; the rotating cylinder acts to jack the upper bracket away from the automatic framing mechanism and the aluminum profile; and the motor is started to drive the third chain to pull the upper bracket to the rear end of the second material retaining device to descend and reset, so that the work of pulling the single aluminum profile is completed.

In the fifth embodiment, the automatic framing device 5 includes a transfer mechanism 53, a material lifting plate 531 of the transfer mechanism can lift the aluminum profile placed on the third roller 51 and then horizontally move the aluminum profile onto the third synchronous belt 52, a material pushing mechanism 54 is installed at a side portion of the third synchronous belt, a resettable one-way plate 545 is arranged on the material pushing mechanism, the one-way plate horizontally pushes the aluminum profile onto the hydraulic lifting platform 56 through a power device, and the hydraulic lifting platform puts the aluminum profile into the material frame 57. The transfer mechanism comprises a material lifting plate driven by a feeding cylinder 535, the feeding cylinder is arranged on a support frame 536, and the support frame is connected with a material moving cylinder 537; a supporting mechanism 55 is further installed at the side of the third synchronous belt, a supporting base plate 553 of the supporting mechanism is driven by the motor to move horizontally after the speed is reduced, a backing strip 554 is arranged at the end of the supporting base plate, and the aluminum profiles are pushed to the backing strip by the one-way plate to be arranged in order. The support frame is movably connected with the material lifting plate through a third guide rod 534, a sixth sliding block 532 is arranged at the lower part of the support frame, a sixth guide rail 533 is arranged on the sixth sliding block in a penetrating mode, and the length direction of the sixth guide rail is the same as the telescopic direction of the material moving cylinder; the pushing mechanism comprises a connecting support 542, a one-way plate is hinged to the connecting support, a torsion spring is mounted on the one-way plate, the connecting support is driven by a pushing cylinder 541 to move horizontally, a seventh sliding block 543 is arranged on the lower portion of the connecting support, a seventh guide rail 544 penetrates through the seventh sliding block, an eighth sliding block 552 is arranged below the supporting plate, and an eighth guide rail 551 penetrates through the eighth sliding block.

The automatic framing device has the working principle that after the aluminum profile is pulled to the tail end of the automatic framing device by the traction device, the feeding air cylinder acts to lift the aluminum profile; moving the aluminum profile to the position above the third synchronous belt by the action of the material moving cylinder; the feeding cylinder descends to place the aluminum profile on the third synchronous belt; resetting the material moving cylinder; the third synchronous belt moves to convey the aluminum profile to the supporting base plate, and when the aluminum profile passes through the one-way plate of the material pushing mechanism, the one-way plate is pressed downwards and flattened, and the aluminum profile is automatically reset due to the gravity of the one-way plate after the aluminum profile leaves; the pushing cylinder drives the connecting bracket and the one-way plate to move forwards, and the aluminum profile is transferred to the filler strip from the supporting pad; when the number of the aluminum profiles on the backing strip is reached, the motor is started to enable the backing strip to move backwards, and the whole layer of aluminum profiles are placed on the hydraulic lifting platform; the hydraulic lifting platform is set to be high and is descended; starting a motor to enable the filler strip to move forwards so as to prepare for supporting the whole layer of aluminum section in a layering manner; when the number of aluminum profile layers on the hydraulic lifting platform reaches the set number of layers, the hydraulic lifting platform descends, the aluminum profile layers are placed on the material frame, and the automatic framing is finished.

The utility model discloses in the device, cylinder, sensor, hydraulic lifting platform, motor or the motor that involve choose for use and its be prior art or material such as control software, affiliated technical staff can directly purchase or order from the market according to required product model and specification.

Claims (10)

1. An aluminum profile packaging machine is used for conveying a filmed aluminum profile on a transfer frame forward through a first synchronous belt for packaging operation and is characterized by comprising a feeding device, wherein the feeding device comprises a baffle mechanism which blocks the aluminum profile conveyed by the tail end of a second synchronous belt through a liftable baffle; the adjusting mechanism comprises a plurality of first rollers which are arranged in a staggered manner with the second synchronous belts, the axial direction of each first roller is parallel to the conveying direction of the second synchronous belts, and the first rollers can move up and down to support the aluminum profiles blocked by the baffles; the feeding mechanism comprises a plurality of supporting rods which are arranged in a staggered manner with the second synchronous belt, the supporting rods can move up and down to support the aluminum profiles, and the lower parts of the supporting rods move linearly to be close to or far away from the paper cutting mechanism through the driving device; the stop mechanism comprises a plurality of long rods arranged in a staggered manner with the second synchronous belts, the long rods can move in a lifting manner, the tail ends of the long rods are provided with stop blocks, and the direction of linear motion of the lower parts of the long rods through the driving devices is parallel to the conveying direction of the second synchronous belts;

the paper cutting device comprises a paper feeding mechanism, the paper feeding mechanism comprises a paper roll, and a paper tape on the paper roll is conveyed forwards through the traction of a paper feeding roller and a roller with a chain wheel; the paper cutting mechanism comprises an upper blade and a lower blade which are positioned on two sides of the paper tape, and the upper blade and the lower blade move relatively to complete the cutting of the paper tape; the paper feeding mechanism comprises a first paper sheet clamp and a second paper sheet clamp which are arranged on an oval track, the first paper sheet clamp and the second paper sheet clamp are identical in structure and move around the oval track through a transmission mechanism to draw a paper tape, the oval track comprises an oval outer guide rail and an oval inner guide rail, the oval inner guide rail is positioned in a cavity of the oval outer guide rail and is fixed through a rack, a pressing sheet capable of moving in a lifting mode is arranged on one side, close to the paper cutting mechanism, of the oval outer guide rail, a protruding portion is arranged on one side, far away from the paper cutting mechanism, of the oval outer guide rail, the first paper sheet clamp clamps the paper tape through a first upper clamp plate and a first lower clamp plate which are hinged elastically, the first upper clamp plate moves along the oval outer guide rail, and the first lower clamp plate moves along the oval inner guide rail;

the three-station paper folding packaging equipment comprises a material blocking device, wherein a material blocking plate of the material blocking device can move in a lifting mode to block packaging paper and aluminum profiles; the paper folding packaging mechanism comprises an adhesive tape roll which can rotate around the periphery of the aluminum profile, and an upper paper folding device, wherein the adhesive tape on the adhesive tape roll is wound outside the packaging paper of the aluminum profile in a traction manner; the side paper folding device comprises rubber cushion rollers capable of moving horizontally, and the rubber cushion rollers are positioned on the left side and the right side of the aluminum profile; the cutting device comprises a blade arranged on a tool rest, and the tool rest is driven by a gear rack mechanism to rotate and cut off the adhesive tape; the clamping device comprises a first clamping piece and a second clamping piece which are oppositely arranged, and the first clamping piece and the second clamping piece are driven by a gear rack mechanism to clamp or release the adhesive tape;

the traction device comprises a lower support capable of moving horizontally, the lower support drives the upper support to move up and down through a rotating cylinder, two oppositely arranged material clamp mechanisms are installed on the upper support, and a material clamp with a rubber mat of the material clamp mechanism can clamp an aluminum profile and place the aluminum profile on a third roller;

the automatic framing device comprises a transfer mechanism, a material lifting plate of the transfer mechanism can lift an aluminum profile placed on a third roller to be horizontally moved to a third synchronous belt, a material pushing mechanism is installed on the side portion of the third synchronous belt, a resettable one-way plate is arranged on the material pushing mechanism, the one-way plate is arranged in the vertical direction and can horizontally rotate, the one-way plate horizontally pushes the aluminum profile to a hydraulic lifting platform through a power device, and the hydraulic lifting platform puts the aluminum profile into a material frame.

2. The aluminum profile packaging machine according to claim 1, wherein the baffle is driven by a baffle cylinder to perform lifting motion, the baffle cylinder is installed on the side part of the tail end of the second synchronous belt, the vertical part of the baffle penetrates through the shaft sleeve, and the horizontal part of the baffle is connected with the telescopic shaft of the baffle cylinder; the first roller is rotatably arranged on a supporting plate, the supporting plate drives the baffle cylinder to move up and down through an adjusting cylinder, the adjusting cylinder is arranged on the side part of the baffle cylinder, two ends of the first roller are arranged on the supporting plate through bearings, the supporting plate is matched with a first sliding block through a first guide rail, and the first sliding block is positioned on the side part of a cylinder mounting plate of the adjusting cylinder; the tail end of the horizontal part of the supporting rod is obliquely designed, the vertical part of the supporting rod is driven by the feeding cylinder to move up and down, the feeding cylinder is arranged on the first support, the first support is driven by the motor to move horizontally and linearly, the supporting rod is further connected with the third sliding block, the third sliding block is in sliding fit with the third guide rail, the third guide rail is parallel to the vertical part of the supporting rod, the second sliding block is arranged on the lower part of the first support and matched with the second guide rail, the second sliding block is parallel to the horizontal part of the supporting rod, and the motor drives the first support to horizontally reciprocate through a chain connector on the chain transmission mechanism.

3. The aluminum profile packaging machine as claimed in claim 2, wherein the vertical part of the long rod is driven by a material blocking cylinder to move up and down, the material blocking cylinder is arranged on the second support, the second support is driven by a motor to move horizontally and linearly, the long rod is further connected with a fifth sliding block, the fifth sliding block is in sliding fit with a fifth guide rail, the fifth guide rail is parallel to the vertical part of the long rod, a fourth sliding block is arranged at the lower part of the second support and is matched with the fourth guide rail, the fourth guide rail is parallel to the horizontal part of the long rod, and the motor drives the second support to horizontally reciprocate through a chain connector on the chain transmission mechanism.

4. The aluminum profile packaging machine as claimed in claim 1, wherein the chain wheel on the roller with the chain wheel is connected with the first chain wheel through a chain to provide power, the first chain wheel is driven after the speed of the motor is reduced, three rollers with the chain wheel are provided, the paper feeding roller is driven by the first cylinder to move up and down, the paper feeding roller is suspended above the roller with the chain wheel close to the paper cutting mechanism, a guide roller is further arranged between the lower blade and the paper feeding mechanism, and the upper blade is driven by the second cylinder to move up and down.

5. The aluminum profile packaging machine as claimed in claim 4, wherein a first clamping seat is fixed on a side portion of the first lower clamping plate, the first clamping seat is rotatably connected with the first upper clamping plate through a pivot, the first clamping seat and the first upper clamping plate are connected through a first spring to pull up the first upper clamping plate to enable a paper feeding belt to pass through, a notch matched with the size of the oval outer guide rail is formed in a corresponding oval track below the pressing piece, the pressing piece is driven by a third cylinder to move up and down, two ends of the first lower clamping plate are respectively connected with a second chain through first connecting pins, the second chain forms an oval shape through a plurality of second chain wheels, the chain wheels are driven by a motor after the speed is reduced, the first upper clamping plate moves along the oval outer guide rail through a first outer bearing roller, the first lower clamping plate moves along the oval inner guide rail through a first inner bearing roller, the first outer bearing roller and the first outer bearing roller are arranged opposite, and a plurality of second rollers which are equidistant are arranged on the machine frame.

6. The aluminum profile packaging machine according to claim 1, wherein the paper folding packaging mechanism is provided with three first stations, a second station and a third station in sequence, each material blocking device comprises a first material blocking device and a second material blocking device, the first material blocking devices are arranged between the first stations and the second stations, the second material blocking devices are located on the outer side of the third stations, the material blocking plates are driven by material blocking cylinders, the material blocking cylinders are mounted on the material blocking supports, the material blocking supports and the material blocking plates are movably connected through first guide rods, the adhesive tape rolls are mounted on rotating wheels, the rotating wheels are arranged on the outer portions of the aluminum profiles and are driven by belts and belt wheels, the belt wheels are driven by motors after speed reduction, the paper folding devices comprise paper folding cylinders mounted on the cylinder supports, the paper folding cylinders are connected with adhesive tape supports, the adhesive tape supports are externally provided with adhesive tapes, the adhesive tape supports are movably connected with the cylinder supports through second guide rods, the two side paper folding devices are arranged on the left side and the right side of the aluminum profile respectively, the adhesive tape rolls are fixed on the left side and the left side of the aluminum profile support, and the adhesive tape supports are driven by elastic side rollers.

7. The aluminum profile packaging machine according to claim 6, wherein a first gear is arranged at the lower part of the knife rest, the first gear is in meshing transmission through a first rack, the first rack is driven through a cutting cylinder, a first guide wheel is arranged at the side part of the first rack, the first gear, the first guide wheel and the cutting cylinder are all arranged on the bottom plate, a second gear is arranged below the first clamping piece and the second clamping piece, the two second gears are meshed with each other, the second gear is in meshing transmission through a second rack, the second rack is driven through a clamping cylinder, a second guide wheel is arranged at the side part of the second rack, and the second gear, the second guide wheel and the cutting cylinder are all arranged on the bottom plate.

8. The aluminum profile packaging machine according to claim 1, wherein two ends of the lower support are movably connected with the plane rail through a third bearing roller respectively, the lower support is further connected with a third chain through a third connecting pin, the third chain is driven by a driving sprocket after the speed of the motor is reduced to work, one end of the lower support is hinged to a connecting seat, the connecting seat is fixed below the upper support, the other end of the lower support is hinged to a rotary air cylinder, the rotary air cylinder is connected with the upper support and can drive the upper support to move up and down around a hinged position of the connecting seat, the material clamp with the rubber cushion is driven by a material clamp air cylinder, and the material clamp air cylinder is installed on the side portion of the upper support.

9. The aluminum profile packaging machine according to claim 1, wherein the transfer mechanism comprises a material lifting plate driven by a material loading cylinder, the material loading cylinder is arranged on a support frame, and the support frame is connected with a telescopic shaft of the material moving cylinder; the third hold-in range lateral part still install supporting mechanism, supporting mechanism's support backing plate drives and horizontal migration after through the motor deceleration, support backing plate tip is equipped with the filler strip, the one-way board promotes aluminium alloy to neatly arrange on the filler strip.

10. The aluminum profile packaging machine according to claim 9, wherein the support frame is movably connected with the material lifting plate through a third guide rod, a sixth sliding block is arranged at the lower part of the support frame, a sixth guide rail penetrates through the sixth sliding block, and the length direction of the sixth guide rail is the same as the telescopic direction of the material moving cylinder; the pushing mechanism comprises a connecting support, a one-way plate is hinged to the connecting support, a torsion spring is installed on the one-way plate, the connecting support is driven by a pushing cylinder to move horizontally, a seventh sliding block is arranged on the lower portion of the connecting support, a seventh guide rail is arranged on the seventh sliding block in a penetrating mode, an eighth sliding block is arranged below the supporting plate, and an eighth guide rail is arranged on the eighth sliding block in a penetrating mode.

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