CN118025605A - Automatic packaging machine is used in repair subsides production - Google Patents

Abstract

The invention relates to the technical field of production and packaging, in particular to an automatic packaging machine for repairing and repairing paste production; comprises an equipment rack; the equipment rack on install the base, the symmetry is installed two a extension board around on the base, rotates through a roller between two a extension boards and installs a conveyer belt that is used for carrying the packing carton, the symmetry is installed two No. two extension boards that are located a conveyer belt front side around on the base, rotate through No. two rollers between two No. two extension boards and install No. two conveyer belts that are used for carrying the aluminium foil bag, and No. two roller and a roller fixed connection that corresponds are provided with pushing mechanism on the base. The pushing mechanism compresses the piled aluminum foil bags through the extruding plate, so that the thickness of the piled aluminum foil bags is temporarily reduced, more aluminum foil bags are conveniently placed into the packaging box, the space utilization of the packaging box is improved, meanwhile, the piled aluminum foil bags are conveniently and rapidly placed into the packaging box, and the packaging clamping stagnation is avoided.

Description

Automatic packaging machine is used in repair subsides production

Technical Field

The invention relates to the technical field of production and packaging, in particular to an automatic packaging machine for repairing and repairing paste production.

Background

A repair patch is a common skin care product for repairing facial skin, and is usually used in the form of a patch or a mask; the facial repair patch mainly contains essence, wherein the essence generally contains various nutritional components such as vitamins, antioxidants, moisturizers, collagen, plant extracts and the like, and has the effects of moistening, repairing and nourishing skin; the repairing and packaging process is to pack the mask and essence into aluminum foil bags to ensure that the product is not affected by external air, moisture and pollutants, so as to maintain the quality and use effect of the product, stack a plurality of aluminum foil bags on a conveyor belt, move the aluminum foil bags to the position of a packaging box through the conveyor belt, directly push the stacked aluminum foil bags into the packaging box, and bend a cover plate and a dustproof wing of the packaging box into the packaging box through a box sealing machine so as to realize the sealing processing of the packaging box.

However, the current aluminum foil bags have the following problems in the process of placing the aluminum foil bags into packaging boxes: because the loose between the aluminium foil bags of the pile for the aluminium foil bags of the pile occupation space is big, thereby restrict the quantity of packing into in the packing carton, lead to the space in the packing carton not by make full use of, and then cause packaging material's waste, second in-process that the aluminium foil bags of the pile were directly pushed into in the packing carton, the aluminium foil bags of the pile can warp or drop because of rocking, thereby influence the aluminium foil bag and get into in the packing carton, reduce packing efficiency.

Disclosure of Invention

In view of the above, an embodiment of the present invention provides an automatic packaging machine for producing repair patches, so as to solve the above-mentioned technical problems.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the embodiment of the invention provides an automatic packaging machine for repairing and pasting production, which comprises an equipment rack; the equipment rack on install the base, the symmetry is installed two a extension board around on the base, rotates through a roller between two a extension boards and installs a conveyer belt that is used for carrying the packing carton, the symmetry is installed two No. two extension boards that are located a conveyer belt front side around on the base, rotate through No. two rollers between two No. two extension boards and install No. two conveyer belts that are used for carrying the aluminium foil bag, and No. two roller and a roller fixed connection that corresponds are provided with pushing mechanism on the base.

As the preferable scheme, the baffle plate for blocking the backward movement of the packing box is arranged on the upper end face of the first support plate positioned at the rear side, and the shielding plate for limiting the turnover of the cover plate of the packing box is arranged on the upper end face of the first support plate positioned at the front side.

As the preferred scheme, pushing mechanism include the backup pad, the symmetry is provided with two backup pads with base fixed connection around the right side of No. two conveyer belts, the roof is installed jointly to the up end of two backup pads, roof up end slidable mounting has flexible cylinder, the expansion section of flexible cylinder installs even board, even four corners of board lower terminal surface all installs the pillar, two waist slots have been seted up to bilateral symmetry on the roof, a support is installed jointly behind the waist slot that corresponds in the slip of pillar lower extreme, and the support is 匚 type structure, installs the U template between two longitudinal sections of support.

As the preferable scheme, the rear side of roof is provided with the fixed part that is used for rectifying and fixed packing carton, is provided with the extrusion portion that is used for compressing the aluminium foil bag on the U template, and moves through linkage portion synchronization between fixed part and the extrusion portion.

As the preferred scheme, extrusion portion include L template, bilateral symmetry slidable mounting has two L templates on the U template, installs compression spring between the horizontal segment of L template and the U template, the extrusion plate is installed jointly to the horizontal segment lower extreme face of L template, the top of extrusion plate is provided with the driving piece, install the fixed plate with extrusion plate fixed connection between the horizontal segment of L template, install the magnetic force frame that is located under the extrusion plate on the base, the up end of magnetic force frame adsorbs there is the bottom plate, the rear side of U template is provided with the plastic piece, the rear side of U template still is provided with the piece that blocks that is used for blockking the aluminium foil bag.

As the preferred scheme, the linkage portion include the connecting plate, the upper end face of roof front and back symmetry install the connecting plate, and the connecting plate is the structure of falling the U, the vertical section slip of connecting plate runs through the roof, fixed mounting has the axostylus axostyle between the horizontal segment of two connecting plates, even board upper end passes through axle bed and axostylus axostyle sliding connection.

As the preferred scheme, fixed part include the pinion rack, the pinion rack is all installed to the lower terminal surface of two vertical sections of the connecting plate that are located the rear side, bilateral symmetry installs two axises that are located between the pinion rack on the roof, rotates between two axises and installs the pivot, the shaping plate is all installed through a pressure spring to the opposite sides of two axises, and pivot both ends slip run through the shaping plate that corresponds, the spur gear with the pinion rack meshing is all installed to the opposite sides of two shaping plates, be provided with the pusher shoe between pinion rack and the shaping plate that corresponds.

As the preferred scheme, the driving piece include the lead screw, rotate between two backup pads and install the lead screw, threaded connection has the spiral shell piece on the lead screw, and spiral shell piece and roof sliding connection, spiral shell piece below is provided with and holds the board, and it is the L type structure of falling to accept the board, be provided with the butt casting die on the board, hold the board up end and install the stand that runs through the spiral shell piece in the slip, the vertical section that holds the board is located the front side of support, terminal surface slidable mounting has the riser under the roof, and the lead screw slides and runs through the riser, bilateral symmetry has seted up U type hole on the riser, each slidable mounting has a T type pole in the U type downthehole, the rear end of T type pole slides and runs through behind the board with support fixed connection, be provided with the locating part on the riser, install the extension spring between terminal surface and the corresponding backup pad before the riser.

As the preferred scheme, the barrier include the baffle, the right side of U template is provided with the baffle, and the preceding terminal surface bilateral symmetry of baffle installs two guide bars, the front end slip of guide bar runs through U template, support and accepted the board, and the front end and the riser upper and lower sliding connection of guide bar.

As the preferred scheme, plastic piece include the push pedal, the rear side bilateral symmetry slidable mounting of U template has two push pedals, the spliced pole is installed to the preceding terminal surface of push pedal, has seted up waist type groove with the position that the spliced pole corresponds on the U template, installs the support behind the spliced pole slip runs through the waist type groove that corresponds, and support and U template sliding connection.

As the preferred scheme, the butt casting die include extrusion piece, the extrusion piece is installed to the horizontal segment lower terminal surface of receiving plate, extrusion piece's rear side is provided with the conflict board, and the conflict board is the type structure of falling L, the side dog is installed to the lower terminal surface of extrusion piece, the lower terminal surface of side dog is provided with the electromagnetism piece with bottom plate complex, the up end of fixed plate is provided with the butt dog, the butt dog is inconsistent and the two conflict faces of extrusion piece are the inclined plane, the up end of two vertical sections of U template is all installed a connecting rod through torsional spring pole rotation, and a connecting rod one end is contradicted with the extrusion piece, a connecting rod other end is articulated with the support through No. two connecting rods.

As the preferred scheme, the locating part include spacing post, a rectangular plate is respectively installed at the left and right sides both ends of riser, slidable mounting has spacing post on the rectangular plate, be provided with the chimb on the spacing post, install No. two pressure springs between the chimb on the spacing post and the up end of the rectangular plate that corresponds, the stopper is installed with the position of spacing post one-to-one to the lower terminal surface of roof, the region between spacing post and the riser side end face is relative with the stopper that corresponds, and the stopper is the right angled triangle structure of inclined plane orientation spacing post, the slider is installed to the lower terminal surface of spacing post, and slider slidable mounting is on the riser, the butt plate is installed jointly to the rear end face of two sliders, and butt plate rear end face is the inclined plane.

As the preferred scheme, the pushing part include the pushing piece, the pushing piece is installed to the opposite face of two pinion racks, and the pushing piece is right triangle-shaped structure, the sloping block of contradicting with the pushing piece inclined plane is installed to the opposite side of two shaping boards.

The above technical solutions in the embodiments of the present invention at least have the following technical effects: 1. the pushing mechanism compresses the piled aluminum foil bags through the extruding plate, so that the thickness of the piled aluminum foil bags is temporarily reduced, more aluminum foil bags are conveniently placed into the packaging box, the space utilization of the packaging box is improved, meanwhile, the piled aluminum foil bags are conveniently and rapidly placed into the packaging box, the situation that the packaging is blocked is avoided, the extruding plate and the pushing plate can enter the packaging box together with the aluminum foil bags, the stability of the piled aluminum foil bags in the pushing process is guaranteed, and the aluminum foil bags are guaranteed to stably enter the packaging box.

2. The fixing part synchronously moves along with the downward movement of the extrusion part so as to shape and fix the packaging box, thereby ensuring the stability of the aluminum foil bag in the packaging process, improving the smoothness of the aluminum foil bag in the packaging bag, synchronously moving the fixing part and the extrusion part through the linkage piece, reducing the driving source, improving the overall linkage of the packaging machine and avoiding unnecessary pause execution operation.

3. According to the invention, the blocking piece is used for pushing the piled aluminum foil bags into the packaging box in an auxiliary way through the blocking plate, meanwhile, the extrusion plate and the push plate are separated from the packaging box in advance through the limiting piece, and then the blocking plate is driven to move out and away from the packaging box, so that the aluminum foil bags are prevented from being carried out of the packaging box when the push plate and the extrusion plate move out of the packaging box.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic partial perspective view of fig. 1.

Fig. 3 is an enlarged view of the structure at a in fig. 2.

Fig. 4 is a cross-sectional view of the present invention.

Fig. 5 is an enlarged view of the structure at B in fig. 4.

Fig. 6 is a schematic partial perspective view of the pushing mechanism of the present invention.

Fig. 7 is an enlarged view of the structure at C in fig. 6.

Fig. 8 is a schematic partial perspective view of a driving member according to the present invention.

Fig. 9 is a schematic partial perspective view of a limiting member according to the present invention.

Reference numerals: 10. an equipment rack; 11. a base; 12. a first support plate; 13. a first conveyor belt; 14. a second support plate; 15. a second conveyer belt; 16. a baffle; 17. a shutter; 2. a pushing mechanism; 20. a support plate; 21. a top plate; 22. a telescopic cylinder; 23. a connecting plate; 24. a support post; 25. a bracket; 26. a U-shaped plate; 27. an extrusion part; 270. an L-shaped plate; 271. an extrusion plate; 272. a fixing plate; 273. a magnetic frame; 274. a bottom plate; 3. shaping piece; 30. a push plate; 31. a support; 4. a blocking member; 40. a baffle plate; 41. a guide rod; 5. a driving member; 50. a screw rod; 51. a screw block; 52. a receiving plate; 53. a column; 54. a vertical plate; 55. a T-shaped rod; 56. a tension spring; 6. a pressing member; 60. extruding a block; 61. a contact plate; 62. a side stopper; 63. an electromagnetic block; 64. a stopper; 65. a first connecting rod; 66. a second connecting rod; 7. a limiting piece; 70. a limit column; 71. a second pressure spring; 72. a limiting block; 73. a slide block; 74. a retaining plate; 28. a fixing part; 280. a toothed plate; 281. a shaft plate; 282. a rotating shaft; 283. shaping plates; 284. spur gears; 8. a pusher shoe; 80. pushing the block; 81. a sloping block; 29. a linkage part; 290. a connecting plate; 291. and a shaft lever.

Detailed Description

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

As shown in fig. 1, an automatic packaging machine for producing repair patches includes an equipment rack 10; the equipment rack 10 on install base 11, the symmetry is installed two a extension board 12 around on the base 11, is installed a conveyer belt 13 that is used for carrying the packing carton through a roller rotation between two extension boards 12, the symmetry is installed two No. two extension boards 14 that are located a conveyer belt 13 front side around on the base 11, is installed a conveyer belt 15 that is used for carrying the aluminium foil bag through No. two roller rotations between two No. two extension boards 14, and No. two roller and a roller fixed connection that corresponds, the up end of base 11 is provided with push mechanism 2.

As shown in fig. 1 and 2, a baffle 16 for blocking rearward movement of the pack is installed at an upper end surface of the first plate 12 located at the rear side, and a shutter 17 for restricting overturning of a cover plate of the pack is installed at an upper end surface of the first plate 12 located at the front side.

As shown in fig. 1, fig. 2 and fig. 8, the pushing mechanism 2 includes a supporting plate 20, two supporting plates 20 fixedly connected with the base 11 are symmetrically arranged around the right side of the second conveyor belt 15, a top plate 21 is jointly mounted on the upper end surfaces of the two supporting plates 20, a telescopic cylinder 22 is slidably mounted on the upper end surface of the top plate 21 through a linear guide rail (not shown in the drawings), a connecting plate 23 is mounted on a telescopic section of the telescopic cylinder 22, supporting columns 24 are mounted at four corners of the lower end surface of the connecting plate 23, two waist slots are symmetrically formed in the top plate 21, a bracket 25 is jointly mounted after the lower ends of the supporting columns 24 slidably penetrate through the corresponding waist slots, the bracket 25 is of a 匚 type structure, and a U-shaped plate 26 is mounted between two longitudinal sections of the bracket 25.

As shown in fig. 1 and 2, a fixing portion 28 for aligning and fixing the package is provided at the rear side of the top plate 21, a pressing portion 27 for compressing the aluminum foil bag is provided on the u-shaped plate 26, and the fixing portion 28 and the pressing portion 27 are synchronously operated through a linkage portion 29.

As shown in fig. 1 and 2, the linkage part 29 includes a connecting plate 290, the upper end surface of the top plate 21 is provided with the connecting plate 290 symmetrically in front and back, the connecting plate 290 has an inverted u-shaped structure, the vertical section of the connecting plate 290 penetrates through the top plate 21 in a sliding manner, a shaft lever 291 is fixedly installed between the horizontal sections of the two connecting plates 290, and the upper end of the connecting plate 23 is connected with the shaft lever 291 in a sliding manner through a shaft seat.

As shown in fig. 2 and 3, the fixing portion 28 includes a toothed plate 280, the toothed plate 280 is mounted on the lower end surfaces of two vertical sections of the connecting plate 290 at the rear side, two shaft plates 281 between the toothed plate 280 are symmetrically mounted on the top plate 21, a rotating shaft 282 is rotatably mounted between the two shaft plates 281, the opposite sides of the two shaft plates 281 are respectively provided with a shaping plate 283 through a first pressure spring, two ends of the rotating shaft 282 slidably penetrate through the corresponding shaping plates 283, straight gears 284 meshed with the toothed plate 280 are mounted on the opposite sides of the two shaping plates 283, and a pushing member 8 is arranged between the toothed plate 280 and the corresponding shaping plates 283.

As shown in fig. 3, the pusher shoe 8 includes a pushing block 80, the pushing blocks 80 are mounted on opposite sides of two toothed plates 280, the pushing blocks 80 are in right triangle structure, and inclined blocks 81 abutting against inclined surfaces of the pushing blocks 80 are mounted on opposite sides of two shaping plates 283.

Specifically, during operation, the first motor (the first motor can be mounted on the base 11) outside drives the second roller on the left side to rotate, the second roller synchronously drives the first roller connected with the second roller to rotate, so that the first conveyor belt 13 and the second conveyor belt 15 rotate, the second conveyor belt 15 drives the stacked aluminum foil bags to move rightwards until moving to the extrusion part 27, the first conveyor belt 13 drives the corresponding packaging boxes to move to the working area of the pushing mechanism 2, at the moment, the first conveyor belt 13 and the second conveyor belt 15 stop moving, then the telescopic section of the telescopic cylinder 22 pulls the connecting plate 23 to move downwards, the connecting plate 23 drives the extrusion part 27 to move to the position of the stacked aluminum foil bags through the support posts 24 and the supports 25, the connecting plate 23 simultaneously drives the connecting plate 290 to move downwards synchronously through the shaft rod 291, the toothed plate 280 moves downwards and drives the spur gear 284 to rotate, the spur gear 284 drives the rotary shaft 282 to rotate, the two rectifying plates 283 to rotate downwards and are positioned on the left and right sides of the corresponding packaging boxes, then the toothed plate 280 moves downwards along with the continuous toothed plate 280, the toothed plate 280 moves downwards, the toothed plate 280 does not collide with the extrusion plate 283, and the packaging boxes 80 are pushed into the extrusion plate 80, and then the packaging boxes are fixed by the extrusion plate 283.

As shown in fig. 2, 4, 5 and 8, the pressing part 27 includes an L-shaped plate 270, two L-shaped plates 270 are symmetrically and slidably mounted on the u-shaped plate 26, compression springs (not shown in the drawings) are mounted between the horizontal sections of the L-shaped plate 270 and the u-shaped plate 26, the pressing plate 271 is mounted on the lower end surface of the horizontal section of the L-shaped plate 270, a fixed plate 272 fixedly connected with the pressing plate 271 is mounted between the horizontal sections of the plate 270 of the driving member 5,L above the pressing plate 271, a magnetic frame 273 located right below the pressing plate 271 is mounted on the base 11, the magnetic frame 273 is composed of an electromagnetic plate disposed on the upper end of the chassis and the chassis, a bottom plate 274 is adsorbed on the upper end surface of the magnetic frame 273, a shaping member 3 is disposed on the rear side of the u-shaped plate 26, and a blocking member 4 for blocking an aluminum foil bag is disposed on the rear side of the u-shaped plate 26.

As shown in fig. 2, fig. 4, fig. 6, fig. 8 and fig. 9, the driving member 5 includes a screw rod 50, a screw rod 50 is rotatably mounted between two support plates 20, a screw block 51 is screwed on the screw rod 50, the screw block 51 is slidably connected with a top plate 21, a supporting plate 52 is provided below the screw block 51, the supporting plate 52 is in an inverted L-shaped structure, a pressing member 6 is provided on the supporting plate 52, a stand column 53 slidably penetrating the screw block 51 is mounted on the upper end surface of the supporting plate 52, a vertical section of the supporting plate 52 is located at the front side of the support 25, a vertical plate 54 is slidably mounted on the lower end surface of the top plate 21, the screw rod 50 slidably penetrates through the vertical plate 54, U-shaped holes are symmetrically formed in the vertical plate 54, a T-shaped rod 55 is slidably mounted in each U-shaped hole, the rear end of the T-shaped rod 55 slidably penetrates through the supporting plate 52 and is fixedly connected with the support 25, a limiting member 7 is provided on the vertical plate 54, and a tension spring 56 is mounted between the front end surface of the vertical plate 54 and the corresponding support plate 20.

As shown in fig. 4, 5 and 8, the blocking member 4 includes a blocking plate 40, the right side of the u-shaped plate 26 is provided with the blocking plate 40, and the front end surface of the blocking plate 40 is symmetrically provided with two guide rods 41, the front ends of the guide rods 41 penetrate through the u-shaped plate 26, the bracket 25 and the receiving plate 52 in a sliding manner, and the front ends of the guide rods 41 are connected with the vertical plates 54 in an up-down sliding manner.

As shown in fig. 6 and 7, the shaping member 3 includes a push plate 30, two push plates 30 are symmetrically slidably mounted on the rear side of the u-shaped plate 26, a shaft post is mounted on the front end surface of the push plate 30, a waist-shaped groove is formed in a position corresponding to the shaft post on the u-shaped plate 26, a support 31 is mounted after the shaft post slidably penetrates through the corresponding waist-shaped groove, and the support 31 is slidably connected with the u-shaped plate 26.

As shown in fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the pressing member 6 includes a pressing block 60, the pressing block 60 is installed on the lower end surface of the horizontal section of the receiving plate 52, the pressing block 61 is provided on the rear side of the pressing block 60, the pressing plate 61 is in an inverted L-shaped structure, the lower end surface of the pressing block 60 is provided with a side stop 62, the lower end surface of the side stop 62 is provided with an electromagnetic block 63 matched with the bottom plate 274, the upper end surface of the fixing plate 272 is provided with a resisting block 64, the resisting block 64 is in contact with the pressing block 60 and the two pressing surfaces are inclined surfaces, the upper end surfaces of the two vertical sections of the u-shaped plate 26 are both rotatably provided with a first connecting rod 65 through torsion spring rods, one end of the first connecting rod 65 is in contact with the pressing block 60, and the other end of the first connecting rod 65 is hinged with the support 31 through a second connecting rod 66.

As shown in fig. 8 and 9, the limiting member 7 includes a limiting post 70, a rectangular plate is respectively mounted at the left and right ends of the vertical plate 54, the rectangular plate is slidably mounted with the limiting post 70, a convex edge is provided on the limiting post 70, a second compression spring 71 is mounted between the convex edge on the limiting post 70 and the upper end surface of the corresponding rectangular plate, a limiting block 72 is mounted at a position corresponding to the limiting post 70 one by one on the lower end surface of the top plate 21, the area between the limiting post 70 and the side end surface of the vertical plate 54 is opposite to the corresponding limiting block 72, the limiting block 72 is in a right triangle structure with an inclined surface facing the limiting post 70, a sliding block 73 is mounted at the lower end surface of the limiting post 70, the sliding blocks 73 are slidably mounted on the vertical plate 54, a retaining plate 74 is mounted at the rear end surfaces of the two sliding blocks 73 together, and the rear end surfaces of the retaining plate 74 are inclined surfaces.

In specific operation, the telescopic cylinder 22 pushes the extrusion part 27 to move downwards to the position of the piled aluminum foil bags through the connecting plate 23, the support 24 and the bracket 25, then the two push plates 30 are positioned at the left side and the right side of the piled aluminum foil bags, then an external second motor (not shown in the figure) arranged on the top plate 21 drives the screw rod 50 to rotate, the screw rod 50 rotates to drive the screw block 51 to move towards the extrusion plate 271, the screw block 51 drives the bearing plate 52 to move through the upright post 53, the bearing plate 52 drives the extrusion block 60 to move towards the abutting block 64, the extrusion block 60 firstly pushes the first connecting rod 65 to rotate, the first connecting rod 65 rotates to drive the second connecting rod 66 to rotate, the second connecting rod 66 rotates to drive the push plate 30 to move towards the piled aluminum foil bags through the support 31 and the shaft post to shape and limit the piled aluminum foil bags, then the extrusion block 60 can collide with the abutting block 64 to push the abutting block 64 downwards, the fixing plate 272, the L-shaped plate 270 and the extruding plate 271 are moved downwards to compress the piled aluminum foil bags to reduce the height of the piled aluminum foil bags, meanwhile, the electromagnetic block 63 is attached to the bottom plate 274, the magnetic frame 273 is powered off for demagnetizing to release the bottom plate 274, the electromagnetic block 63 is powered on for generating magnetism to absorb the bottom plate 274, the side stop block 62 is abutted with the U-shaped plate 26, then the screw block 51 continues to move towards the packing box along with the continuing rotation of the screw rod 50, the vertical plate 54 moves along with the screw block 51 through the T-shaped rod 55, meanwhile, the tension spring 56 is stretched, the extruding plate 271 keeps pressing the piled aluminum foil bags, the push plate 30 keeps shaping and limiting the aluminum foil bags, the telescopic cylinder 22 drives the pushing mechanism 2 to move upwards for a certain length to enable the bottom plate 274 to be higher than the shielding plate 17, the piled aluminum foil bags in a limiting and compressed state are moved into the packing box along with the movement of the screw block 51, and in the moving process, the convex edge on the limiting post 70 is abutted against the inclined surface of the limiting block 72, so that along with the movement of the limiting post 70, the limiting post 70 is abutted against the inclined surface of the limiting block 72 to move downwards until the convex edge of the limiting post 70 is in contact with the lower end of the limiting block 72, the limiting post 70 is not moved downwards again because the convex edge of the limiting post 70 is not in contact with the inclined surface of the limiting block 72, the limiting post 70 is finally positioned at the left rear side of the limiting block 72, the upper end of the convex edge of the limiting post 70 is still in contact with the lower end of the limiting block 72, meanwhile, the stacked aluminum foil bags are completely moved into the packaging box, then the screw rod 50 is driven by the external second motor to reversely rotate, the screw block 51 moves towards the vertical plate 54, the screw block 51 moves away from the abutting block 64 and the first connecting rod 65, the L-shaped plate 270 moves upwards under the action of the compression spring, the extruding plate 271 is away from the stacked aluminum foil bags, the first connecting rod 65 rotates under the action of the torsion spring rod to drive the second connecting rod 66 to rotate, the second connecting rod 66 drives the push plate 30 to be far away from the piled aluminum foil bags through the support 31 and the shaft post, then the abutting plate 61 abuts against the resisting block 64, the push plate 30, the extruding plate 271 and the bottom plate 274 are separated from the packaging box along with the movement of the screw block 51, the resisting plate 40 is kept still to stop the piled aluminum foil bags, the piled aluminum foil bags are prevented from being carried out, then the screw block 51 abuts against the resisting plate 74 to push the resisting plate 74 to move downwards, the resisting plate 74 drives the limiting post 70 to move downwards through the sliding block 73 to be far away from the limiting block 72, at the moment, the vertical plate 54 is pulled forwards to reset under the action of the tension spring 56, the vertical plate 54 drives the resisting plate 40 to move forwards to reset through the guide rod 41, then the extruding part 27 moves to be right above the magnetic frame 273, the telescopic cylinder 22 pulls the connecting plate 23 to move downwards, the bottom plate 274 is contacted with the magnetic frame 273 through the support posts 24 and the support frames 25, then the electromagnetic block 63 is powered off to demagnetize to remove the adsorption to the bottom plate 274, the magnetic frame 273 is electrified to generate magnetism to adsorb the bottom plate 274, then the first conveyor belt 13 and the second conveyor belt 15 are continuously driven to rotate by the first motor outside, so that the packaging box filled with the aluminum foil bags moves rightwards to seal, and the empty packaging box and the piled aluminum foil bags on the right side move to the pushing mechanism 2 to continue the packaging.

In the description of the present invention, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present invention; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

In the description of the present invention, it is also to be noted that unless explicitly specified and defined otherwise, the meaning of "plurality" means at least two, such as two, three, etc.; the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (10)

1. An automatic packaging machine for repair patch production comprises an equipment rack (10); the method is characterized in that: the device is characterized in that a base (11) is arranged on the device frame (10), two first support plates (12) are symmetrically arranged on the base (11) front and back, a first conveying belt (13) for conveying packaging boxes is rotatably arranged between the two first support plates (12) through a first roller shaft, two second support plates (14) positioned on the front side of the first conveying belt (13) are symmetrically arranged on the base (11) front and back, a second conveying belt (15) for conveying aluminum foil bags is rotatably arranged between the two second support plates (14) through a second roller shaft, the second roller shaft is fixedly connected with the corresponding first roller shaft, and a pushing mechanism (2) is arranged on the base (11); wherein:

a baffle (16) is arranged on the upper end surface of the first support plate (12) positioned at the rear side, and a shielding plate (17) is arranged on the upper end surface of the first support plate (12) positioned at the front side;

The pushing mechanism (2) comprises a supporting plate (20), two supporting plates (20) fixedly connected with a base (11) are symmetrically arranged on the front and back of the right side of a second conveying belt (15), a top plate (21) is jointly installed on the upper end faces of the two supporting plates (20), a telescopic cylinder (22) is slidably installed on the upper end face of the top plate (21), connecting plates (23) are installed on telescopic sections of the telescopic cylinder (22), supporting columns (24) are installed at four corners of the lower end face of each connecting plate (23), two waist slots are symmetrically formed in the top plate (21), a bracket (25) is jointly installed after the lower ends of the supporting columns (24) penetrate through the corresponding waist slots in a sliding mode, and a 匚 -shaped structure is formed in the bracket (25), and a U-shaped plate (26) is installed between two longitudinal sections of the bracket (25);

The rear side of the top plate (21) is provided with a fixing part (28) for righting and fixing the packing box, the U-shaped plate (26) is provided with a squeezing part (27) for compressing the aluminum foil bag, and the fixing part (28) and the squeezing part (27) synchronously run through a linkage part (29).

2. An automatic packaging machine for producing repair patches according to claim 1, characterized in that: the extrusion part (27) include L template (270), bilateral symmetry slidable mounting has two L templates (270) on U template (26), install compression spring between the horizontal segment of L template (270) and U template (26), extrusion board (271) are installed jointly to the horizontal segment lower extreme face of L template (270), the top of extrusion board (271) is provided with driving piece (5), install fixed plate (272) with extrusion board (271) fixed connection between the horizontal segment of L template (270), install magnetic force frame (273) that are located extrusion board (271) under on base (11), the up end of magnetic force frame (273) adsorbs bottom plate (274), the rear side of U template (26) is provided with plastic piece (3), the rear side of U template (26) still is provided with stop piece (4) that are used for stopping the aluminium foil bag.

3. An automatic packaging machine for producing repair patches according to claim 1, characterized in that: the linkage part (29) include connecting plate (290), connecting plate (290) are installed to upper end face front-back symmetry of roof (21), and connecting plate (290) are the structure of falling the U, vertical section slip of connecting plate (290) runs through roof (21), fixed mounting has axostylus axostyle (291) between the horizontal segment of two connecting plates (290), connecting plate (23) upper end passes through axle bed and axostylus axostyle (291) sliding connection.

4. An automatic packaging machine for producing repair patches according to claim 3, characterized in that: fixed part (28) include pinion rack (280), pinion rack (280) are installed to the lower terminal surface of two vertical sections of connecting plate (290) that are located the rear side, bilateral symmetry installs two axials (281) that are located between pinion rack (280) on roof (21), rotate between two axials (281) and install pivot (282), shaping plate (283) are all installed through a pressure spring to the opposite side of two axials (281), and pivot (282) both ends slip runs through shaping plate (283) that correspond, spur gear (284) with pinion rack (280) meshing are all installed to the opposite side of two shaping plates (283), be provided with between pinion rack (280) and corresponding shaping plate (283) and move piece (8).

5. An automatic packaging machine for producing repair patches according to claim 2, characterized in that: the driving piece (5) include lead screw (50), rotate between two backup pads (20) and install lead screw (50), threaded connection has screw block (51) on lead screw (50), and screw block (51) and roof (21) sliding connection, screw block (51) below is provided with and holds board (52), and accept board (52) and be the L type structure of falling, be provided with on accepting board (52) and prop up casting die (6), accept up casting die (52) up end and install stand (53) that the slip runs through screw block (51), accept vertical section of board (52) and be located the front side of support (25), terminal surface slidable mounting has riser (54) under roof (21), and lead screw (50) slip runs through riser (54), the left and right sides symmetry has seted up the U type hole on riser (54), each slidable mounting has a T type pole (55), the rear end slip of T type pole (55) runs through behind accepting board (52) with support (25) fixed connection, be provided with spacing piece (7) on riser (54), install extension spring (56) between riser (54) and backup pad (20) that correspond.

6. The automatic packaging machine for producing repair patches according to claim 5, wherein: the blocking piece (4) comprises a blocking plate (40), the right side of the U-shaped plate (26) is provided with the blocking plate (40), the front end face of the blocking plate (40) is symmetrically provided with two guide rods (41) left and right, the front ends of the guide rods (41) penetrate through the U-shaped plate (26), the support (25) and the bearing plate (52) in a sliding mode, and the front ends of the guide rods (41) are connected with the vertical plate (54) in an up-down sliding mode.

7. An automatic packaging machine for producing repair patches according to claim 2, characterized in that: shaping piece (3) include push pedal (30), the rear side bilateral symmetry slidable mounting of U template (26) has two push pedal (30), the spliced pole is installed to the preceding terminal surface of push pedal (30), has seted up waist type groove with the position that the spliced pole corresponds on U template (26), installs support (31) behind the spliced pole slip through corresponding waist type groove, and support (31) and U template (26) sliding connection.

8. The automatic packaging machine for producing repair patches according to claim 5, wherein: the pressing piece (6) comprises a pressing block (60), the pressing block (60) is installed on the lower end face of the horizontal section of the bearing plate (52), a first connecting rod (65) is installed on the upper end face of the two vertical sections of the U-shaped plate (26) in a rotating mode through a torsion spring rod, one end of the first connecting rod (65) is in an inverted-L-shaped structure, a side stop block (62) is installed on the lower end face of the pressing block (60), an electromagnetic block (63) matched with a bottom plate (274) is arranged on the lower end face of the side stop block (62), a stop block (64) is arranged on the upper end face of the fixing plate (272), the stop block (64) is in contact with the pressing block (60) and the two contact faces are inclined planes, the first connecting rod (65) is installed on the upper end faces of the two vertical sections of the U-shaped plate (26) in a rotating mode through a torsion spring rod, and the other end of the first connecting rod (65) is hinged to the support (31) through a second connecting rod (66).

9. The automatic packaging machine for producing repair patches according to claim 5, wherein: the limiting piece (7) comprises limiting columns (70), wherein a rectangular plate is respectively arranged at the left end and the right end of each vertical plate (54), limiting columns (70) are slidably arranged on the rectangular plates, convex edges are arranged on the limiting columns (70), a second pressure spring (71) is arranged between the convex edges on the limiting columns (70) and the upper end faces of the corresponding rectangular plates, limiting blocks (72) are arranged at positions, corresponding to the limiting columns (70), of the lower end faces of the top plate (21), the areas between the limiting columns (70) and the side end faces of the vertical plates (54) are opposite to the corresponding limiting blocks (72), the limiting blocks (72) are of right-angle triangular structures with inclined faces towards the limiting columns (70), sliding blocks (73) are arranged on the lower end faces of the limiting columns (70), the sliding blocks (73) are slidably arranged on the vertical plates (54), a retaining plate (74) is jointly arranged on the rear end faces of the two sliding blocks (73), and the rear end faces of the retaining plates (74) are inclined faces.

10. An automatic packaging machine for producing repair patches according to claim 4, wherein: the pushing piece (8) comprises pushing blocks (80), the pushing blocks (80) are arranged on opposite surfaces of the two toothed plates (280), the pushing blocks (80) are of right-angled triangle structures, and inclined blocks (81) which are in collision with inclined surfaces of the pushing blocks (80) are arranged on opposite sides of the two shaping plates (283).