CN107253552B - Buffering shaping device - Google Patents

Abstract

The invention discloses a buffer shaping device. The buffer shaping device is provided with a buffer shaping plate, a receiving plate and a shaping plate driving part, wherein the receiving plate is used for placing a glue bag; every two buffer shaping plates form a group, and the two buffer shaping plates of each group are oppositely arranged; at least one group of buffer shaping plates are arranged on two opposite sides of the receiving plate; the shaping plate driving component is used for driving the two buffering shaping plates of each group to move towards each other so as to squeeze the rubber bags or reset. The buffering shaping device can save manpower and time when being used for arranging materials in the compressed plastic bags.

Description

Buffering shaping device

Technical Field

The invention relates to the field of packaging of knitted fabric, in particular to a buffering and shaping device.

Background

At present, the textile industry still relies on manual operation completely to knit finished fabric folding package, and the amount of labour is big, takes time and labor. Wherein, manual folding packaging process: manual folding, manual bag taking, bag opening, manual bagging, manual air exhausting and manual sealing. After the knitted finished product in the processing mode is packaged, the plastic bag is required to be manually extruded, so that the knitted finished product in the plastic bag is compacted to reduce occupied space, and the defects of the manual operation are high labor intensity, time and labor consumption, low efficiency and unstable packaging quality.

Disclosure of Invention

Based on this, it is necessary to provide a buffering and shaping device which can save labor and time when used for arranging materials in a compressed plastic bag.

The buffer shaping device is provided with a buffer shaping plate, a receiving plate and a shaping plate driving part, wherein the receiving plate is used for placing a glue bag; every two buffer shaping plates form a group, and the two buffer shaping plates of each group are oppositely arranged; at least one group of buffer shaping plates are arranged on two opposite sides of the receiving plate; the shaping plate driving component is used for driving the two buffering shaping plates of each group to move towards each other so as to squeeze the rubber bags or reset.

In one embodiment, a group of buffer shaping plates are arranged between the sealing devices, two shaping plate driving components are arranged on the machine table and are respectively connected with the two buffer shaping plates.

In one embodiment, the buffer shaping device further comprises two support plates, the two support plates are arranged oppositely, and the two shaping plate driving components are respectively arranged on the two support plates.

In one embodiment, the bottom of each buffering shaping plate is hinged on the corresponding supporting plate, and each shaping plate driving component is connected to the top of the corresponding buffering shaping plate.

In one embodiment, the cushion shaping device further has an elastic member, and an upper portion of each cushion shaping plate is connected to the corresponding support plate through the elastic member.

In one embodiment, the resilient member is a spring.

In one embodiment, the device further comprises a conveying device, wherein the conveying device is located at the bottom of the receiving plate, and the receiving plate, one of the supporting plates and the buffering shaping plate connected to the supporting plate are connected to the conveying device.

In one embodiment, the conveying device is provided with an output platform, a conveying screw rod, a base and a conveying driving component;

the feeding device comprises a feeding platform, a feeding plate, a feeding screw, a feeding driving part, a feeding screw, a feeding plate, a feeding platform sliding connection, a feeding screw and a feeding driving part.

In one embodiment, the device further comprises an ejection device, wherein the ejection device is provided with a push plate and an ejection driving part; the push plate is connected to the inward surface of the buffering shaping plate on the conveying device, the buffering shaping plate penetrates through a yielding window, the pushing-out driving part is connected to the supporting plate on the conveying device and connected to the push plate through the yielding window, and the pushing-out driving part is used for pushing out the plastic bag on the receiving plate through driving the push plate to push out.

In one embodiment, the bottom of the push plate is hinged to the corresponding cushioning shaping plate, and the push-out driving member is connected to the top of the push plate.

The buffer shaping device is provided with a buffer shaping plate, a receiving plate and a shaping plate driving part, wherein the receiving plate is used for placing a glue bag; every two buffer shaping plates form a group, and the two buffer shaping plates of each group are oppositely arranged; at least one group of buffer shaping plates are arranged on two opposite sides of the receiving plate; the shaping plate driving component is used for driving the two buffering shaping plates of each group to move towards each other so as to squeeze the rubber bags or reset. When the bag is placed on the receiving plate and the bag is connected to a material such as a textile product, the one or more groups of buffer shaping plates are close to each other to squeeze the bag, so that the material such as the textile product in the bag is compressed, and the vacuumizing process of the downstream process is facilitated. The automatic shaping and compressing device saves labor and time and has high efficiency of compression and shaping.

Drawings

FIG. 1 is a schematic view of an embodiment automatic packaging mechanism for textile products;

FIG. 2 is a side view of the automatic packaging mechanism for textile products of FIG. 1;

FIG. 3 is another side view of the automatic packaging mechanism for textile products of FIG. 1;

FIG. 4 is a schematic view of the hollow tube of the automatic packaging mechanism for textile products shown in FIG. 1 mated with the sealing blade seat and the glue board seat;

fig. 5 is a schematic view of a bag sucking and sleeving device of the automatic packaging mechanism for textile products shown in fig. 1.

Description of the reference numerals

1. An automatic packaging mechanism for textile products; 10. a vacuum pumping device; 100. a suction driving part; 110. a hollow tube; 120. an exhaust fan; 130. a bracket; 140. a suction tube; 20. a folding device; 200. lifting a plate; 201. a guard board; 210. folding the hinge; 220. folding the driving part in half; 30. a bag opening supporting device; 300. a bag-supporting side plate; 310. a compression bar; 320. a bag opening driving part; 330. a pressing bag mouth driving part; 340. a bag supporting seat; 350. a linear guide rail; 40. a bag sucking and sleeving device; 400. a glue bag box; 401. a notch; 410. a suction cup; 420. a suction cup driving part; 430. swing arms; 440. swing rod; 450. a bagging driving part; 460. a swing driving part; 470. a sucker seat; 480. a column; 481. a limit ball; 490. a bagging seat; 50. a sealing device; 500. a knife sealing seat; 510. a heat sealing knife; 520. a silicone plate; 530. a tool apron driving part; 540. a seal cutter driving part; 550. a rubber plate driving part; 560. a rubber plate seat; 561. a yielding through groove; 60. a buffer shaping device; 600. a buffer shaping plate; 610. a receiving plate; 620. a shaping plate driving part; 630. a support plate; 640. an elastic member; 650. a protective rod; 70. a machine table; 700. a work table; 701. a material passing channel; 80. a conveying device; 800. an output platform; 810. conveying screw rods; 820. a base; 830. a conveyance driving part; 90. an ejector device; 900. a push plate; 910. the driving member is pushed out.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, the present embodiment relates to an automatic packaging mechanism 1 for textile products. The automatic packaging mechanism 1 for textile products comprises a machine table 70, a vacuumizing device 10, a doubling device 20, a bag sucking and sleeving device 40, a bag opening supporting device 30, a sealing device 50 and a control device. Wherein the control device may be a PLC.

It should be noted that the machine 70, the folding device 20 and the control device may form an automatic folding and receiving device, so as to be suitable for automatic folding materials such as textile products.

The machine 70, the bag sucking and sleeving device 40, the bag opening device 30 and the control device can also form an automatic bag opening and opening supporting mechanism, so that the automatic bag sucking and opening supporting mechanism is independently applicable to automatic bag sucking and opening of a plastic bag.

The above-mentioned machine 70, the vacuumizing device 10, the doubling-up device 20, the bag-sucking and bagging device 40, the bag opening-supporting device 30 and the sealing device 50 are described in further detail below.

Referring to fig. 1 and 2, a table 700 is provided on the machine 70. The table 700 is penetrated by a material passage 701.

Referring to fig. 1, 2 and 3, the vacuum apparatus 10 includes a suction pipe 140 provided on the machine 70. The control device is electrically connected to the vacuumizing device 10.

Further, referring to fig. 1, 2 and 3, the vacuum apparatus 10 further has a suction fan 120 and a suction driving part 100. The suction fan 120 is connected to one end of the suction tube 140 for vacuuming the plastic bag through the suction tube 140, and the suction driving part 100 is disposed on the machine table 70 and above the table 700, and the suction driving part 100 is connected to the other end of the suction tube 140 for driving the end of the suction tube 140 to be inserted into the plastic bag.

The control device is electrically connected to the suction fan 120 and the suction driving part 100. Further, the suction driving part 100 may be a driving motor.

Further, referring to fig. 1, 2 and 3, the vacuum apparatus 10 further has a rodless cylinder, a hollow tube 110 and a bracket 130. The suction driving part 100 is a rodless cylinder. The stand 130 is provided on the machine 70, the rodless cylinder is connected to the stand 130, the hollow tube 110 is provided in the suction driving part 100, the suction tube 140 is communicated with the suction driving part 100, and the suction driving part 100 can drive the hollow tube 110 to move telescopically.

Referring to fig. 1, 2 and 3, the folding device 20 has a plurality of lifting plates 200, and at least two lifting plates 20 are respectively located at two opposite sides of the material passing channel 701. In the present embodiment, the number of the lift plates 200 is two. The two lifting plates 200 are arranged on the working table 700 and are respectively positioned at two opposite sides of the material passing channel 701. The edges of one side of the two lifting plates 200, which are close to the material passing channel 701, are movably connected, such as hinged, on the working table 700 by a folding hinge 210.

Further, referring to fig. 2 and 3, the folding device 20 has at least two folding driving members 220. The plurality of folding driving parts 220 are all arranged on the working table 700, each lifting plate 200 corresponds to at least one folding driving part 220, and each folding driving part 220 is used for driving two lifting plates 200 to rotate respectively. When the lifting plates 200 rotate, the lifting plates rotate towards the material passing channel 701, so that materials such as textile products on the two lifting plates 200 fall into the material passing channel 701 under the action of self gravity, at this time, the materials such as textile products are folded towards the middle due to the two ends and further fall into the rubber bags on the material receiving plate 610 below the material passing channel 701, so as to realize automatic material folding and material receiving.

Preferably, in the present embodiment, the number of the fold-back driving parts 220 is two, and it is understood that the number of the fold-back driving parts 220 may be three, four, or the like. The two folding driving parts 220 are all on the working table 700, the two folding driving parts 220 correspond to the two lifting plates 200 respectively, and the two folding driving parts 220 are used for driving the two lifting plates 200 to rotate respectively. The control device is electrically connected to the folding driving part 220. The fold-back driving part 220 may be a driving motor.

Two fold-over driving parts 220 are respectively connected to the ends of the corresponding lift plates 200, which are away from the material passing channel 701. Each of the fold-back driving parts 220 is connected to the lower bottom surface of the corresponding lift plate 200, respectively.

Further, as shown in fig. 1, two guard plates 201 are connected to the upper surfaces of the two lift plates 200, and the two guard plates 201 on each lift plate 200 are connected to both side edges parallel to the rotation surface when the lift plate 200 rotates. Both guard plates 201 on each lift plate 200 extend toward the outside of the lift plate 200.

Referring to fig. 1, 2 and 3, the pouch bagging apparatus 40 has a pouch case 400, a suction cup 410, a suction cup driving member 420, a swing arm 430, a swing lever 440, a bagging driving member 450, and a swing driving member 460. The plastic bag box 400 is connected to the machine 70 and located below the working table 700, and a plurality of posts 480 for sleeving through holes on the plastic bag are connected to the plastic bag box 400.

Referring to fig. 1 and 5, a suction cup driving part 420 is provided at the lower bottom surface of the table top 700 and connected to the suction cup 410 for driving the suction cup 410 to move onto the pouch case 400 or reset. The control device is electrically connected to the chuck driving part 420, the bagging driving part 450 and the swing driving part 460. Further, the suction cup drive member 420, the pocket drive member 450, and the swing drive member 460 may each be a drive motor.

Further, referring to fig. 1, 2 and 3, the pouch bagging apparatus 40 further has a bagging seat 490, and the bagging seat 490 is connected to the swing driving member 460.

Referring to fig. 5, the number of swing bars 440 and the number of pocket driving members 450 are two. Both pocket driving parts 450 are provided on the pocket seat 490. Two bag driving parts 450 are respectively connected with one swing link 440. The two pocket driving parts 450 can be used to drive the two swing rods 440 toward each other to be inserted into the adhesive pocket on the adhesive pocket case 400, respectively, or to drive the two swing rods 440 away from each other to open the adhesive pocket, respectively. The swing driving part 460 drives the swing rod 440 and the opened plastic bag to move to the bag mouth of the plastic bag to be sleeved on the bag opening side plates 300 by driving the bag sleeving seat 490 to rotate.

Preferably, as seen in fig. 1, 2 and 3, the pouch bagging apparatus 40 also has a suction cup seat 470. The suction cup driving part 420 is connected to the suction cup holder 470, and the suction cup 410 is connected to the suction cup holder 470.

Referring to fig. 1 and 3, the number of suction cups 410 is plural. A plurality of suction cups 410 are each attached to the bottom surface of suction cup holder 470.

Preferably, as shown in fig. 1 and 5, the suction cup seat 470 is elongated. The plurality of suction cups 410 are uniformly distributed on the bottom surface of the suction cup holder 470.

Further, referring to fig. 1 and 3, at least two posts 480 are connected to the upper surface of the pouch case 400, and the diameter of the posts 480 is smaller than the hole diameter of the through hole of the pouch.

Preferably, as shown in fig. 3, a limit ball 481 is connected to the upper end of the upright 480, and the diameter of the limit ball 481 is equal to the aperture of the plastic bag.

Referring to fig. 1 and 5, the side of the plastic bag box 400 facing the interior of the machine 70 has a notch 401. Preferably, the side of the pouch case 400 to which the upright 480 is connected is positioned below the suction cup 410, and the other side of the pouch case 400 protrudes to the outside of the machine 70.

Referring to fig. 1 and 2, the swing driving member 460 is provided on the machine table 70 and below the table 700. At least two pocket driving parts 450 are connected to the swing driving part 460. The bagging driving member 450 is connected with a swing link 440, and a swing arm 430 is connected to the lower end of the swing link 440. The plurality of pocket driving parts 450 can cooperatively drive at least two swing rods 440 away from each other to open the adhesive pocket or toward each other.

Referring to fig. 1 and 2, the bag opening device 30 has a bag opening side plate 300, a pressing lever 310, a bag opening driving member 320, and a compression bag opening driving member 330. The number of the bag opening driving parts 320 is at least two. The bag opening driving parts 320 are all arranged below the working table 700 and are respectively connected with the bag opening side plates 300. The bag opening driving parts 320 can cooperatively drive the bag opening side plates 300 to be far away from or close to each other, the outer surface of each bag opening side plate 300 is respectively corresponding to one pressing rod 310 and one pressing bag opening driving part 330, the upper end of each pressing rod 310 is hinged on the corresponding bag opening side plate 300, and each pressing bag opening driving part 330 is used for driving the corresponding pressing rod 310 to rotate.

The length of the swing link 440 is equal to the distance from the swing driving member 460 to the upper surface of the pouch case 400 and is also equal to the distance from the swing driving member 460 to the lower side of the pouch sidewall 300. That is, the swing arm 430 on the swing lever 440 can be rotated to the upper surface of the pouch case 400 and can be rotated to the lower side of the pouch side plate 300.

The control device is electrically connected to the bag opening driving part 320 and the pressing bag opening driving part 330. The mouth opening driving part 320 and the pressing mouth driving part 330 may be driving motors.

Further, referring to fig. 1 and 2, the bag opening device 30 further has a bag opening seat 340. The bag supporting seat 340 is connected to the lower bottom surface of the table top 700 and is close to the material passing channel 701.

The number of the bag opening driving parts 320 is two. The two bag opening driving parts 320 are opposite and are connected to the bag opening seat 340.

Preferably, referring to fig. 1 and 2, the bag opening device 30 further has a linear guide 350. The linear guide 350 is connected to the bag supporting seat 340, the linear guide 350 is close to the material passing channel 701, and the middle part of the linear guide 350 is aligned with the middle part of the material passing channel 701.

Referring to fig. 2, both bag-side panels 300 are slidably coupled to linear guide 350. The two bag opening driving parts 320 are respectively used for driving the bag opening side plates 300 to move along the linear guide rail 350.

The sealing device 50 is arranged on the working table 700 for sealing the mouth of the plastic bag. The control device is electrically connected to the sealing device 50.

In the present embodiment, referring to fig. 1 and 2, the sealing device 50 has a sealing blade holder 500, a heat sealing blade 510, a silicone plate 520, a blade holder driving part 530, a sealing blade driving part 540, and a sealing plate driving part 550. The silicone plate 520 and the seal holder 500 are both located below and opposite to the table top 700. The control device is electrically connected to the tool post driving part 530, the tool sealing driving part 540 and the glue plate driving part 550. The tool holder driving part 530, the sealing tool driving part 540, and the stripper plate driving part 550 may be driving motors.

Referring to fig. 2, a tool holder driving part 530 is disposed on the machine 70 and below the table 700, and the tool holder driving part 530 is connected to the tool sealing holder 500 for driving the tool sealing holder 500 to move toward the silicone plate 520; the side of the sealing knife holder 500 facing the silicone plate 520 is provided with a knife groove, the heat sealing knife 510 is movably connected in the knife groove, and a sealing knife driving part 540 is arranged on the sealing knife holder 500 and connected to the heat sealing knife 510 for driving the heat sealing knife 510 to move towards the silicone plate 520.

Referring to fig. 2, a glue plate driving part 550 is provided on the machine 70 below the table 700, and the glue plate driving part 550 is connected to the glue plate 520 for driving the glue plate 520 to move toward the heat sealing knife 510.

Further, referring to fig. 2, the sealing device 50 further has a glue plate seat 560. The rubber plate seat 560 is connected to the rubber plate driving part 550, the side of the rubber plate seat 560 facing the heat sealing knife 510 is provided with a rubber plate groove, and the silica gel plate 520 is arranged in the rubber plate groove.

Further, referring to fig. 2 and 4, the side of the rubber plate base 560 facing the seal holder 500 has a relief groove 561 penetrating the upper surface and the lower bottom surface of the rubber plate base 560. When the seal holder 500 and the rubber plate holder 560 are moved into contact with each other, the relief groove 561 allows the suction tube 140 to pass through and be inserted into the rubber bag.

Further, referring to fig. 1 and 2, a buffer shaping device 60 is further included. It should be noted that, the buffer shaping device 60 may be used alone, and the buffer shaping device 60 may be used alone in the material receiving and material receiving compression finishing processes in various situations.

The buffer shaper 60 has a buffer shaper plate, a receiving plate 610 and a shaper plate drive 620.

Referring to fig. 1 and 2, a receiving plate 610 is located at the bottom of the machine 70 for placing the glue bags. Every two buffer shaping plates form a group. The two buffer shaping plates of each group are oppositely arranged. At least one set of cushioning shaping plates is provided between the receiving plate 610 and the sealing device 50. The shaping plate driving part 620 is used for driving the two buffering shaping plates of each group to move towards each other to squeeze the plastic bag or reset, and the direction in which the buffering shaping plates 600 move towards each other to squeeze the plastic bag is referred to as the squeezing direction.

The control device is electrically connected to the shaping plate driving part 620. The shaping plate driving part 620 may be a driving motor.

Further, referring to fig. 2, a set of cushioning shaping plates are provided between the receiving plate 610 and the sealing device 50. The shaping plate driving parts 620 have two, and the two shaping plate driving parts 620 are both disposed on the machine table 70 and are respectively connected to the two buffering shaping plates.

Further, as shown in fig. 2, the cushion shaping device 60 also has two support plates 630. The two support plates 630 are disposed opposite to each other, and the two shaping plate driving parts 620 are respectively located on the two support plates 630.

Further, referring to fig. 2, the bottom of each cushioning shaping plate is hinged to a corresponding support plate 630. Each of the shaping plate driving members 620 is connected to the top of the corresponding buffer shaping plate, respectively.

Further, as shown in fig. 2, the cushion shaping device 60 also has an elastic member 640. The upper portion of each cushioning shaping plate is connected to a corresponding support plate 630 by an elastic member 640. Preferably, the elastic member 640 is a spring.

Further, referring to fig. 1, 2 and 3, a conveying device 80 is further included. The conveyor 80 is located at the bottom of the table 70. The receiving plate 610, one of the support plates 630, and the cushioning shaping plate attached to that support plate 630 are all attached to the conveyor 80. That is, as shown in fig. 1 to 3, the conveying direction of the conveying device 80 is arranged vertically in the pressing direction of the cushioning shaping plate 600.

Further, referring to fig. 1, 2 and 3, the conveying device 80 has an output stage 800, a conveying screw 810, a base 820, and a conveying driving part 830. The output platform 800 is connected with a receiving plate 610, the output platform 800 is slidably connected to the base 820, the conveying screw 810 is in threaded connection with the output platform 800, and the conveying driving component 830 is arranged on the base 820 and connected to the conveying screw 810 for driving the output platform 800 to move by driving the conveying screw 810 to rotate. The control device is electrically connected to the conveying driving part 830. The transport driving part 830 may be a driving motor.

Further, referring to fig. 1 and 2, an ejector 90 is further included. The ejector 90 has a push plate 900 and an ejector driving member 910. The pusher 900 is attached to the inwardly facing surface of a cushioning shaping plate on the conveyor 80 that extends through a relief window. The push-out driving part 910 is connected to a support plate 630 on the conveyor 80 and is connected to the push plate 900 through a relief window. The push-out driving part 910 is used to push out the adhesive bag located on the receiving plate 610 by driving the push plate 900 to push out. The control device is electrically connected to the push-out driving part 910. The push-out driving part 910 may be a driving motor.

Further, referring to fig. 1 and 2, the bottom of the push plate 900 is hinged to a corresponding cushioning shaping plate, and the push-out driving member 910 is connected to the top of the push plate 900.

Further, referring to fig. 1 and 2, the upper portions of the two cushioning shaping plates of each set are bent away from each other.

Further, as shown in fig. 2, a guard bar 650 is attached to a side edge of at least one of the cushioning conversion plates, the guard bar 650 extending toward the opposite cushioning conversion plate.

The automatic packaging mechanism 1 for textile products in this embodiment relates to an automatic packaging method for textile products when used for packaging materials.

Referring to fig. 1, 2 and 3, an automatic packaging method for textile products comprises the following steps:

the plastic bag is placed on the plastic bag box 400, and the plastic bag through hole is sleeved on the upright column 480. When the rubber bag is not provided with through holes, 10mm mouths can be cut out at the positions corresponding to the two upright posts 480 through manual work, so that the rubber bag is conveniently sleeved on the upright posts 480.

At this time, the conveying driving part 830 of the conveying device 80 drives the output platform 800 and the supporting plate 630 above the output platform and the corresponding buffering shaping plate to move out of the machine table 70 so as to give way to the bag sucking and bagging device 40. That is, as shown in fig. 1 to 3, before bagging, the conveying device 80 drives the material receiving plate 610, the cushioning shaping plate 600 on the side corresponding to the suction bagging device 40, to move away from the suction bagging device 40 in the conveying direction of the conveying device 80.

The suction cup driving part 420 of the suction bag bagging device 40 drives the suction cup 410 to press down onto the adhesive bag of the adhesive bag box 400, and after the suction cup 410 sucks the upper layer of the adhesive bag, the suction cup driving part 420 drives the suction cup 410 to drive the upper layer of the adhesive bag to rise so as to open the bag mouth of the adhesive bag.

The swing driving part 460 of the bag sucking and bagging device 40 drives the plurality of bagging driving parts 450 to rotate so as to drive the swing rods 440 and swing arms 430 connected with the lower ends of the swing rods 440 to swing into the bag openings of the adhesive bags, and the plurality of bagging driving parts 450 cooperatively drive the plurality of swing rods 440 to drive the corresponding swing arms 430 to move away from each other to the inner walls of the bag openings opposite to the adhesive bags so as to open the adhesive bags; the swing driving part 460 drives the plurality of bagging driving parts 450 to reversely rotate below the bag opening supporting device 30, and enables the bag openings of the adhesive bags to be sleeved on the plurality of bag opening side plates 300, and at the moment, the bottoms of the adhesive bags are positioned on the material receiving plate 610.

The bag opening driving part 320 of the bag opening device 30 drives the plurality of bag opening side plates 300 away from the inner wall of the bag opening opposite to the bag to open the bag.

The plurality of bagging driving parts 450 cooperate to drive the plurality of swinging rods 440 to drive the swinging arms 430 to reset, and the swinging driving parts 460 drive the plurality of bagging driving parts 450 to rotate so as to drive the swinging rods 440 and the swinging arms 430 to reset.

The compression pocket driving part 330 of the pocket opening device 30 drives the corresponding compression bars 310 to rotate so as to clamp the pocket opening of the adhesive pocket between the pocket opening side plate 300 and the corresponding compression bars 310.

At this time, the conveying driving part 830 of the conveying device 80 drives the output platform 800 and the supporting plate 630 above the output platform and the corresponding buffer shaping plate to move into the machine 70. That is, referring to fig. 1 to 3, the conveying device 80 drives the receiving plate 610, and the buffer shaping plate 600 on the side corresponding to the bag suction bagging device 40, to move closer to the bag suction bagging device 40 in the conveying direction of the conveying device 80 for resetting.

After the two lifting plates 200 of the doubling-up device 20 receive materials, the lifting plates 200 are respectively driven by the corresponding doubling-up driving parts 220 to rotate towards the material passing channel 701 on the workbench surface 700, so that two ends of materials on the two lifting plates 200 are inwards doubled up and fall into a plastic bag below the material passing channel 701 through the material passing channel 701.

The blade holder driving part 530 of the sealing device 50 drives the sealing blade holder 500 to move toward the silicone plate 520, and the adhesive plate driving part 550 drives the adhesive plate holder 560 to move toward the sealing blade holder 500. The seal holder 500 is close to the rubber plate holder 560 so that the bag mouth of the rubber bag is attached.

The shaping plate driving part 620 of the buffer shaping device 60 drives the two buffer shaping plates to move toward each other to squeeze the plastic bag, and the rear buffer shaping plate is reset.

The suction tube 140 of the vacuum device 10 extends into the plastic bag through the yielding through groove 561 to vacuumize the plastic bag.

The sealing knife driving part 540 drives the heat sealing knife 510 to move out of the knife groove towards the direction of the silica gel plate 520 and contact with the silica gel plate 520 so as to heat seal the bag mouth of the plastic bag.

The sealing knife driving part 540 drives the heat sealing knife 510 to reset. The knife holder driving part 530 drives the knife sealing seat 500 to reset, and the rubber plate driving part 550 drives the rubber plate seat 560 to reset.

The conveying driving part 830 of the conveying device 80 drives the output platform 800 to move by driving the conveying screw 810 to rotate, so as to drive the material receiving plate 610 to move out to a predetermined position, in this embodiment, to move out to the outside of the machine.

The push-out driving part 910 of the ejector 90 ejects the adhesive bag located on the receiving plate 610 by driving the push plate 900.

The automatic bag opening and opening mechanism sucks the upper layer of the adhesive tape through the bag sucking and sleeving device 40 to open the bag opening of the adhesive tape, the adhesive tape can be sent to the bag opening device 30 through the swing of the swing rod 440, the bag opening can be continuously opened by the bag opening side plate 300 of the bag opening device 30, the bag opening can be tightly pressed between the bag opening side plate 300 and the pressure rod 310 through the pressure rod 310, the slipping of the adhesive tape is avoided, and the bag opening side plate 300 and the pressure rod 310 are positioned below the working table 700 and move in the transverse direction, so that the opening of the bag opening faces upwards, and the material receiving is facilitated. The automatic bag opening and bag opening supporting mechanism can automatically open and support the bag opening, saves time and labor, and is high in efficiency when used for packaging materials.

The buffer shaping device 60 is provided with a buffer shaping plate 600, a receiving plate 610 and a shaping plate driving component 620, wherein the receiving plate 610 is used for placing a plastic bag; every two cushioning-shaping plates 600 form a group, and the two cushioning-shaping plates 600 of each group are oppositely arranged; at least one group of buffer shaping plates 600 are arranged on two opposite sides of the receiving plate 610; the cam driving part 620 is used to drive the two buffer cams 600 of each group to move toward each other to press the pouch or reset. After the bag is placed on the receiving plate 610 and the bag is received in a material such as a textile product, one or more sets of cushioning shaping plates 600 are brought closer to each other to compress the bag so that the material such as the textile product in the bag is compressed to facilitate the evacuation process of the downstream process. The automatic shaping and compressing device saves labor and time and has high efficiency of compression and shaping.

The automatic folding and receiving device composed of the machine table 70 and the folding device 20, wherein the lifting plates 200 rotate towards the material passing channel 701 when rotating, so that the materials such as textile products on the two lifting plates 200 fall into the material passing channel 701 under the action of the gravity of the materials, such as textile products, at this time, the materials are folded towards the middle due to the two ends of the textile products, and further fall into the glue bags on the receiving plate 610 below the material passing channel 701, so as to realize automatic folding and receiving.

The automatic packaging mechanism 1 for textile products according to this embodiment is provided with a machine 70, a vacuumizing device 10, a doubling-up device 20, a bag suction and covering device 40, a bag opening supporting device 30 and a sealing device 50 which are mutually matched. The process of packaging the plastic bags is realized by the following method: the sucker driving part 420 of the bag sucking and sleeving device 40 drives the sucker 410 to press down on the plastic bag of the plastic bag box 400, and after the sucker 410 sucks the upper layer of the plastic bag, the sucker driving part 420 drives the sucker 410 to drive the upper layer of the plastic bag to rise so as to open the bag mouth of the plastic bag; the swing driving part 460 drives the plurality of bagging driving parts 450 to rotate so as to drive the swing rods 440 and the swing arms 430 connected with the lower ends of the swing rods 440 to swing into the bag openings of the adhesive bags, and the plurality of bagging driving parts 450 cooperatively drive the plurality of swing rods 440 to drive the corresponding swing arms 430 to be mutually far away from the inner walls of the bag openings opposite to the adhesive bags so as to open the adhesive bags; the swing driving part 460 drives the plurality of bagging driving parts 450 to reversely rotate below the bag opening supporting device 30, and enables the bag openings of the adhesive bags to be sleeved on the plurality of bag opening side plates 300; the bag opening driving part 320 of the bag opening device 30 drives the plurality of bag opening side plates 300 to be away from the inner wall of the bag opening opposite to the bag to open the bag; the plurality of bagging driving parts 450 are matched to drive the plurality of swinging rods 440 to drive the swinging arms 430 to reset, and the swinging driving parts 460 drive the plurality of bagging driving parts 450 to rotate so as to drive the swinging rods 440 and the swinging arms 430 to reset; the pressing mouth driving part 330 of the mouth opening device 30 drives the corresponding pressing bars 310 to rotate so as to clamp the mouth opening of the adhesive bag between the bag opening side plate 300 and the corresponding pressing bars 310; after the two lifting plates 200 of the doubling-up device 20 receive materials, the lifting plates 200 rotate towards the material passing channel 701 on the working table 700, so that the materials on the two lifting plates 200 fall into the plastic bag below the material passing channel 701 through the material passing channel 701; the suction tube 140 of the vacuumizing device 10 extends into the plastic bag to vacuumize the plastic bag; the sealing device 50 seals the mouth of the plastic bag. Through the cooperation of above-mentioned each part, realized that the plastic bag is from material loading, prop the sack, connect material, evacuation, a complete packaging process of sealing, whole degree of automation is high, practices thrift manpower, save time, and the efficient of packing.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The buffering and shaping device is characterized in that a bag sucking and sleeving device is arranged on the side part of the buffering and shaping device, a bag opening supporting device is arranged above the buffering and shaping device, the buffering and shaping device is provided with a buffering shaping plate, a receiving plate and a shaping plate driving part, and the receiving plate is used for placing a rubber bag; every two buffer shaping plates form a group, and the two buffer shaping plates of each group are oppositely arranged; at least one group of buffer shaping plates are arranged on two opposite sides of the receiving plate; the shaping plate driving component is used for driving the two buffering shaping plates of each group to move in opposite directions so as to squeeze the rubber bags or reset, and the direction of the buffering shaping plates moving in opposite directions so as to squeeze the rubber bags is recorded as the squeezing direction;

the buffer shaping device further comprises a conveying device, the conveying device is positioned at the bottom of the material receiving plate, the conveying direction of the conveying device is vertically arranged along the extrusion direction of the buffer shaping plate, and the material receiving plate and the buffer shaping plate at the side corresponding to the bag suction and bagging device are connected to the conveying device;

before bagging, the conveying device drives the material receiving plate and the buffer shaping plate at the side corresponding to the bag suction and bagging device to move away from the bag suction and bagging device along the conveying direction of the conveying device, and the buffer shaping plate is used for giving way to the bag suction and bagging device so that the bag suction and bagging device sleeves the rubber bag on the bag opening device;

after bagging, the conveying device drives the material receiving plate, the buffer shaping plates on the sides corresponding to the bag sucking and bagging devices move close to the bag sucking and bagging devices in the conveying direction of the conveying device to reset, the shaping plate driving part can drive two buffer shaping plates of each group to move in opposite directions so as to extrude the rubber bags to reset, and the conveying device can drive the material receiving plate and the rubber bags on the material receiving plate to move out to a preset position.

2. The cushion shaping device according to claim 1, wherein a sealing device is arranged between the bag opening supporting device and the cushion shaping device, a group of cushion shaping plates are arranged between the material receiving plate and the sealing device, two shaping plate driving components are arranged on a machine table and are respectively connected with the two cushion shaping plates.

3. The cushion shaping device according to claim 2, further comprising two support plates, the two support plates being disposed opposite each other, the two shaping plate driving members being disposed on the two support plates, respectively.

4. A cushioning shaping device as set forth in claim 3 wherein the bottom of each of said cushioning shaping plates is hinged to the corresponding support plate and each of said shaping plate drive members is connected to the top of the corresponding cushioning shaping plate.

5. The cushion shaping device according to claim 4, further comprising an elastic member, an upper portion of each cushion shaping plate being connected to the corresponding support plate by the elastic member.

6. The cushion shaping device of claim 5, wherein the resilient member is a spring.

7. The cushion shaping device according to any one of claims 3-5, wherein the support plate corresponding to the cushion shaping plate to which the conveying device is connected to the conveying device.

8. The cushion shaping device according to claim 7, wherein the conveying device has an output platform, a conveying screw, a base, and a conveying drive member;

the feeding device comprises a feeding platform, a feeding plate, a feeding screw, a feeding driving part, a feeding screw, a feeding plate, a feeding platform sliding connection, a feeding screw and a feeding driving part.

9. The cushion shaping device of claim 7, further comprising an ejector device having a push plate and an ejector drive member; the push plate is connected to the inward surface of the buffering shaping plate on the conveying device, the buffering shaping plate penetrates through a yielding window, the pushing-out driving part is connected to the supporting plate on the conveying device and connected to the push plate through the yielding window, and the pushing-out driving part is used for pushing out the plastic bag on the receiving plate through driving the push plate to push out.

10. The cushion shaping device according to claim 9, wherein the bottom of the push plate is hinged to the corresponding cushion shaping plate, and the push-out driving part is connected to the top of the push plate.