CN210823020U - Horizontal film glove bagging machine - Google Patents

Abstract

The utility model relates to a horizontal film glove bagging machine, including frame and the glove waste material of rack-mounted tears and shifts the mechanism, send membrane mechanism, sack forming mechanism and horizontal income bag mechanism, the glove waste material tears and shifts the mechanism and arranges the feed end in the frame for get the film glove that waits to pack and shift film glove to horizontal income bag mechanism with the waste material of a whole pile of semi-manufactured goods film gloves, send membrane mechanism to be used for two membranes from being located frame upper and lower part front end two new membrane book guide to sack forming mechanism and retrieve remaining membrane from sack forming mechanism to be located frame upper and lower part rear end two useless membrane book; the bag forming mechanism is horizontally arranged in the middle of the frame and used for sealing one end of the two films passing through the bag forming mechanism and sealing one end of the two films provided with the thin film gloves into a packaging bag, and the horizontal bag feeding mechanism is used for horizontally feeding the thin film gloves between the two films with one ends sealed.

Description

Horizontal film glove bagging machine

Technical Field

The utility model relates to a equipment for packing field specifically relates to a horizontal film gloves sack filling machine.

Background

The disposable film gloves are made of nontoxic and odorless polyethylene materials, and are nontoxic, harmless, odorless, firm and durable. Most of the existing film gloves are packaged by manual operation, which causes great labor intensity, easy fatigue and lower efficiency. Chinese patent application CN206664999U discloses an automatic glove bagging machine, which works by removing glove waste, conveying the glove to the bottom of which a layer of packaging tape film has been laid, and then sealing the glove by a heat sealing device, and has the following disadvantages of 1) low automation degree, and 2) waste of a large amount of packaging tape film.

Disclosure of Invention

The utility model aims at providing a horizontal film gloves sack filling machine to solve above-mentioned technical problem. Therefore, the utility model discloses a specific technical scheme as follows:

a horizontal type film glove bagging machine comprises a rack, and a glove waste tearing and transferring mechanism, a film feeding mechanism, a bag forming mechanism and a horizontal type bag feeding mechanism which are arranged on the rack, wherein the glove waste tearing and transferring mechanism is arranged at the feeding end of the rack and is used for removing waste of a whole stack of semi-finished film gloves to obtain film gloves to be packaged and transferring the film gloves to the horizontal type bag feeding mechanism, the semi-finished film gloves comprise film gloves which are connected together in a virtual mode and waste which wraps the film gloves, and the feeding direction is called as the front-back direction; the film feeding mechanism is used for guiding two films from two new film rolls positioned at the front ends of the upper part and the lower part of the rack to the bag forming mechanism and recovering the residual films from the bag forming mechanism to two waste film rolls positioned at the rear ends of the upper part and the lower part of the rack; the bag forming mechanism is horizontally arranged in the middle of the machine frame and used for sealing one ends of the two films passing through the bag forming mechanism and sealing one end of the two films provided with the thin film gloves to form a packaging bag, and the horizontal bag feeding mechanism is used for horizontally feeding the thin film gloves between the two films with one ends sealed.

Further, send membrane mechanism to include two from top to bottom and send membrane module, every send membrane module to include conveying reel, conveying motor, preceding lift tensioning roller mechanism, a plurality of horizontal deflector rolls, back lift tensioning roller mechanism, retrieve spool and retrieve the motor, conveying reel with preceding lift tensioning roller mechanism with retrieve the spool with back lift tensioning roller mechanism respectively symmetrical arrangement is in both ends around the sack forming mechanism, horizontal deflector roll arranges both ends around the sack forming mechanism, new membrane is rolled up fixedly to be placed on conveying reel, conveying motor with conveying reel drive is connected, useless membrane is rolled up fixedly to be placed on retrieving the spool, retrieve the motor with retrieve the spool drive and be connected, the membrane follows new membrane is rolled up and is passed through in proper order preceding lift tensioning roller mechanism horizontal deflector roll the sack forming mechanism, The horizontal guide roller and the rear lifting tensioning roller mechanism are recycled to the waste film roll.

Further, preceding lift tensioning roller mechanism is the same with back lift tensioning roller mechanism structure, including mounting bracket, two fixed deflector rolls and a lift roller, be equipped with the open slot of perpendicular extension on the curb plate of mounting bracket, lift roller movable mounting in the open slot, two fixed deflector rolls fixed mounting be in the open slot both sides the upper end of mounting bracket.

Further, the bag forming mechanism comprises a door-shaped cutter, an upper mounting seat, a cutter driving air cylinder, a door-shaped silica gel strip, a lower clamping block, a lower mounting seat and a membrane clamping air cylinder, wherein the upper mounting seat is located above the lower mounting seat, the door-shaped cutter is installed on the lower surface of the upper mounting seat, the cutter driving air cylinder drives the upper mounting seat to move up and down, the door-shaped silica gel strip is installed on the upper surface of the lower mounting seat and is aligned with the door-shaped cutter, the lower clamping block is installed on two sides of the upper surface of the lower mounting seat and is aligned with the upper clamping block fixedly installed on the horizontal guide roller mounting frame, and the membrane clamping air cylinder drives the lower mounting seat to move up and down so as to clamp two sides of two membranes through the upper clamping block and the lower clamping block.

Furthermore, the bag forming mechanism further comprises a semicircular easy-to-tear opening cutter and a semicircular silica gel block, the easy-to-tear opening cutter is fixedly installed on the outer side of the transverse part of the door-shaped cutter, and the silica gel block is fixedly installed on the lower installation seat and aligned to the easy-to-tear opening cutter.

Furthermore, a notch is formed in the transverse part of the door-shaped cutter, and the easy-to-tear cutter is fixedly installed on the notch.

Further, the glove waste tearing and transferring mechanism comprises a base, a left tearing mechanism, a right tearing mechanism, a glove placing table, a horizontal linear reciprocating motion mechanism and a glove clamping mechanism, wherein the base is provided with two branch parts with one ends connected together and in a splayed shape, the glove placing table is installed on a joint part of the two branch parts, the left tearing mechanism and the right tearing mechanism are respectively installed on the two branch parts, the glove clamping mechanism is installed on the horizontal linear reciprocating motion mechanism and is used for being matched with the left tearing mechanism and the right tearing mechanism to remove the waste and transfer the gloves to the horizontal bag entering mechanism.

Further, control and tear mechanism about including control the arc slide rail, control the slider, control the anchor clamps mount pad, control anchor clamps and control and drive actuating cylinder, control the arc slide rail and install respectively on two branching parts, control the slider sliding joint respectively about on the arc slide rail, control anchor clamps mount pad fixed mounting respectively on control the slider, control drive actuating cylinder's piston rod respectively with control anchor clamps mount pad drive connection, control anchor clamps are used for cliping the waste material, including control last clamp splice, control lower clamp splice and control clamp splice drive actuating cylinder, control lower clamp splice fixed mounting respectively in control the lower part of anchor clamps mount pad, control clamp splice drive actuating cylinder respectively fixed mounting about the upper portion of anchor clamps mount pad and its piston rod with control last clamp splice drive connection.

Further, the horizontal bag-feeding mechanism comprises a mounting frame, a horizontal inserting plate, a glove pressing assembly, a belt pulley transmission assembly and a motor, wherein the mounting frame is fixed on the frame and comprises two longitudinal beams and a transverse plate, the longitudinal beams extend along the front-back direction, slide rails are arranged on the longitudinal beams, two ends of the transverse plate are connected on the slide rails in a sliding manner through slide blocks, one end of the horizontal inserting plate is fixed on the transverse plate, the glove pressing assembly comprises a left pressing wheel, a right pressing wheel, a left pressing mounting block, a right pressing mounting block, a left guide rod, a right guide rod, a left guide rod fixing seat, a right guide rod fixing seat, a cylinder push block and a cylinder, the left pressing wheel and the right pressing mounting block are respectively mounted on the left pressing mounting block and the right pressing mounting block, the left guide rod and the right guide rod fixing seats are, the lower ends of the left guide pillar and the right guide pillar are fixedly connected to the air cylinder push block, the left guide pillar and the right guide pillar are mounted on the transverse plate through linear bearings, the air cylinder fixing seat is fixedly mounted on the transverse plate, the air cylinder is mounted on the air cylinder fixing seat, a piston rod of the air cylinder push block is fixedly connected to the air cylinder push block, the belt pulley transmission assembly comprises a driving wheel, a driven wheel and a belt, the driving wheel is mounted on a rotating shaft of the motor, the driven wheel is mounted on the rack, the belt is wound on the driving wheel and the driven wheel, and the transverse plate is fixedly connected with the belt through a belt.

Further, control the guide arm and all include two upper and lower guide arms, be equipped with the connection piece between two guide arms, all overlap on upper guide arm and the lower guide arm and be equipped with the spring, the spring one end butt on the upper guide arm compresses tightly the installation piece, other end butt connection piece, the spring one end butt connection piece of lower guide arm, other end butt guide arm fixing base.

The utility model adopts the above technical scheme, the beneficial effect who has is: the utility model discloses compact structure, sack are sealed by two membrane edgewise and are formed, can not waste the membrane, and whole packaging process all goes on automatically, and production efficiency is big, has saved the labour greatly.

Drawings

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

Fig. 1 is a perspective view of the horizontal type film glove bagging machine of the present invention;

FIG. 2 is a perspective view of the glove waste removal and transfer mechanism of the horizontal film glove bagging machine of FIG. 1;

FIG. 3 is a perspective view of the tear mechanism of the glove waste tear and transfer mechanism shown in FIG. 2;

FIG. 4 is a perspective view of the film feeding mechanism of the horizontal film glove bagging machine shown in FIG. 1;

fig. 5 is a perspective view of a bag forming mechanism of the horizontal film glove bag loader shown in fig. 1;

FIG. 6 is a perspective view of a gate knife of the bag forming mechanism shown in FIG. 5;

fig. 7 is a perspective view of a horizontal bag feeding mechanism of the horizontal type film glove bag filling machine shown in fig. 1.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

As shown in fig. 1, the horizontal type film glove bagging machine comprises a frame 1, a glove waste tearing and transferring mechanism 2, a film feeding mechanism 3, a bag forming mechanism 4, a horizontal bag feeding mechanism 5 and a control system, wherein the glove waste tearing and transferring mechanism 2, the film feeding mechanism 3, the bag forming mechanism 4 and the horizontal bag feeding mechanism 5 are installed on the frame 1. The control system is used for controlling each mechanism to automatically operate so as to realize the automatic packaging of the thin film gloves. The control system may be a PLC-based automated control system, and the specific configuration thereof may be selected and set by those skilled in the art as required, and will not be described herein. For convenience of description, the feeding direction is defined as a front-rear direction, in which the glove waste tearing and transferring mechanism 2 is installed at the front of the frame, and the film feeding mechanism 3, the bag forming mechanism 4, and the horizontal bag feeding mechanism 5 are installed at the rear of the frame.

As shown in fig. 1-3, the film glove discarding and transferring mechanism 2 includes a base 21, left and right tearing mechanisms 22 (only one of which is labeled in the drawings for clarity), a glove placing table 23, a horizontal linear reciprocating mechanism 24, and a glove holding mechanism 25. The base 21 has two bifurcated portions 211, 211' in a figure of eight joined at one end. The base 21 is typically machined from sheet steel. The glove placing table 23 is installed on a joint portion of the two bifurcated portions, and the film glove intermediates can be transferred onto the glove placing table 23 from an upstream process. The glove placing table 23 is liftable. The left and right tearing mechanisms 22 are respectively installed on the two diverging portions 211 for tearing the waste to the left and right sides to separate it from the semi-finished product of the film glove. The structure of the left and right tear mechanisms 22 will be described further below. The glove clamping mechanism 25 is mounted on the horizontal linear reciprocating mechanism 24 and is used for being matched with the left and right tearing mechanisms 22 to remove waste materials and transfer the thin-film gloves to the horizontal bag feeding mechanism.

The left and right tearing mechanism 22 may comprise left and right arcuate slide rails 221, left and right sliders 222, left and right clamp mounts 223, left and right clamps 224, and left and right drive cylinders 225. The left and right arc-shaped slide rails 221 are respectively installed on the two branched portions 211 to form a figure of eight. The left and right sliders 222 are slidably engaged with the left and right arc-shaped slide rails 221, respectively, that is, the left and right sliders 222 can slide along the left and right arc-shaped slide rails 221. The left and right jig mounting seats 223 are fixedly mounted on the left and right sliders 222, respectively. The piston rods of the left and right drive cylinders 225 are drivingly connected to the left and right jig mounting bases 223, respectively. Left and right clamps 224 are used to clamp the scrap. Therefore, the left and right driving cylinders 225 can drive the left and right clamps 224 to move, thereby achieving the purpose of tearing the waste to the left and right sides to separate the waste from the semi-finished product of the thin film glove.

Specifically, the left and right clamps 224 may include left and right upper clamp blocks 2241, left and right lower clamp blocks 2242, and left and right clamp block driving cylinders 2243, the left and right lower clamp blocks 2242 being fixedly installed at lower portions of the left and right clamp installation seats 223, respectively, the left and right clamp block driving cylinders 2243 being fixedly installed at upper portions of the left and right clamp installation seats 223, respectively, and piston rods thereof being drivingly connected to the left and right upper clamp blocks 221. That is, the left and right clamp block driving cylinders 2243 drives the left and right upper clamp blocks 221 to move up and down to achieve clamping and unclamping.

In order to prevent the gloves from slipping off during the clamping process, anti-slip structures (e.g., corrugated structures, concave-convex structures, etc.) are disposed on the opposite surfaces of the left and right upper clamping blocks 2241 and the left and right lower clamping blocks 2242.

The glove gripping mechanism 25 may include a mount 251, a lower support 252, an upper press 253, and a press drive cylinder 254. The mounting plate 251 is vertically fixed (e.g., by screws) to the horizontal linear reciprocating mechanism 24 (specifically, the slider 244). The lower supporting block 252 is fixedly installed on the lower end portion of the installation base 251 for supporting the head of the film glove. The pressing block driving cylinder 254 is installed on the installation plate 251, and a piston rod thereof is fixedly connected with the upper pressing block 253. Therefore, the press block driving cylinder 254 can drive the upper press block 253 to move up and down, and the clamping and the releasing of the thin film gloves are realized through the matching of the upper press block 253 and the supporting block 252.

The horizontal linear reciprocating mechanism 24 may include a longitudinal beam 241, a lead screw 242, a motor 243, and a slider 244. The longitudinal beam 241 is fixedly arranged on the frame 1, the screw rod 242 and the motor 243 are arranged on the longitudinal beam 241, the screw rod is in driving connection with an output shaft of the motor 243, and the sliding block 244 is in threaded connection with the screw rod 242. Therefore, the slide block 244 can horizontally reciprocate under the driving of the motor 243, so as to drive the glove clamping mechanism 25 to reciprocate, thereby achieving the purposes of removing waste materials and transferring the film gloves to the horizontal bag-feeding mechanism 5.

As shown in fig. 1 and 4, the film feeding mechanism 3 may include two upper and lower film feeding assemblies, each of which includes a feeding reel 31, a feeding motor 32, a front lifting tension roller mechanism 33, a plurality of horizontal guide rollers 34, a rear lifting tension roller mechanism 35, a recovery reel 36, and a recovery motor 37. The conveying reel 31 and the front elevation tension roller mechanism 33, and the recovery reel 36 and the rear elevation tension roller mechanism 35 are symmetrically disposed at the front and rear ends of the bag forming mechanism 4, respectively. Horizontal guide rollers 34 are disposed at both front and rear ends of the bag forming mechanism 4 so that the two films are in a horizontal state in the bag forming mechanism 4. The number and position of the horizontal guide rollers 34 can be arranged according to actual needs. The new film roll 6 is fixedly arranged on the conveying scroll 31, the conveying motor 32 is in driving connection with the conveying scroll 31, the waste film roll 7 is fixedly arranged on the recovery scroll 36, and the recovery motor 37 is in driving connection with the recovery scroll 36. Therefore, the film is unwound from the new film roll 6, passes through the front elevation tension roller mechanism 33, the horizontal guide roller 34, the bag forming mechanism 4, the horizontal guide roller 34, and the rear elevation tension roller mechanism 35 in this order, and is recovered to the waste film roll 7.

The front lifting tension roller mechanism 33 and the rear lifting tension roller mechanism 35 have the same structure, and each of the front lifting tension roller mechanism 33 and the rear lifting tension roller mechanism 35 may include a mounting frame 331, two upper fixed guide rollers 332 and 333, a lower fixed guide roller 334, and a lifting roller 335 (fig. 4 only shows the components of the front lifting tension roller mechanism 33). The mounting frame 331 is formed of two side plates 3311 and a plurality of fixing rods 3312. A side plate 3311 of the mounting block 331 is provided with a vertically extending open groove 33111, a lifting roller 335 is movably installed in the open groove 33111, and two upper fixed guide rollers 332, 333 are fixedly installed at upper ends of the mounting block 331 (specifically, the side plate 3311) at both sides of the open groove. The tensioning of the film is achieved by the gravity of the lifting roller 335. It should be understood that the lower stationary guide roller 334 may also be omitted. In addition, the film feeding mechanism 3 may include a plurality of position sensors (not shown) for detecting the upper and lower limit positions of the lifting roller, and the conveying motor 32 and the recovery motor 37 may be started or stopped according to signals of the position sensors, so as to control the film feeding process.

Now, the working process of the film feeding mechanism 3 will be briefly described, 1, the preparation stage: the film is unwound from the new film roll 6 and sequentially passes through an upper fixed guide roller 332, a lifting roller 335, an upper fixed guide roller 333, a lower fixed guide roller 334, a horizontal guide roller 34 and a lower fixed guide roller, an upper fixed roller, a lifting roller and an upper fixed roller of a rear lifting tensioning roller mechanism 35 to the waste film roll; 2. and (3) film feeding process: the conveying motor 32 rotates to drive the film to be unwound from the film roll 7, the lifting roller 335 descends to the lowest position, the conveying motor 32 stops, then the recovery motor 37 rotates to pull the film to advance, the lifting roller 335 of the front lifting tensioning roller mechanism 33 ascends to the highest position in the process of advancing the film, the recovery motor 37 stops, namely the film is conveyed in place, and the film conveying process is circularly carried out until the film is used up. Each film feeding process delivers a desired length of film for one bag.

As shown in fig. 1 and 4-6, the bag forming mechanism 4 is located between the upper and lower film feeding assemblies of the film feeding mechanism 3, and may include a door-shaped cutter 41, an upper mounting seat 42, a cutter driving cylinder 43, a door-shaped silicone strip 44, a lower clamping block 45, a lower mounting seat 46 and a film clamping cylinder 47. The upper mounting seat 42 is located above the lower mounting seat 46, the portal cutter 41 is mounted on the lower surface of the upper mounting seat 42, and the piston rod of the cutter driving cylinder 43 is fixedly connected to the upper mounting seat 42 to drive the upper mounting seat 42 (the portal cutter 41) to move up and down. An n-shaped silicone strip 44 is mounted on the upper surface of the lower mounting seat 46 in alignment with the n-shaped cutter 41. Of course, the door-shaped silicone strip 44 could also be replaced by a one-piece silicone plate. The lower clamping blocks 45 are mounted on both sides of the upper surface of the lower mounting block 46 in alignment with the upper clamping blocks 45' fixedly mounted on the horizontal guide roller mounting frame 341. The piston rod of the membrane clamping cylinder 47 is fixedly connected to the lower mounting seat 46 to drive the lower mounting seat 46 to move up and down, so that the two sides of the two membranes are clamped by the upper and lower clamping blocks 45' and 45.

In addition, the bag forming mechanism 4 may further include a semicircular tear-off cutter 48 and a semicircular silicone block 49. The easy-tear cutter 48 is fixedly mounted on the outer side of the lateral portion of the portal-shaped cutter 41 (specifically, the notch 411), and the silicone rubber block 49 is fixedly mounted on the lower mount 46 in alignment with the easy-tear cutter 48. Of course, the tear-off knife 48 and the silicone block 49 may have other shapes.

The bag forming mechanism 4 works by driving the lower clamping block 45 to move upwards by the film clamping cylinder 47 to clamp two sides of two films, and then driving the door-shaped cutter 41 and the easy tearing cutter 48 to move downwards by the cutter driving cylinder 43 to seal the remaining three openings (two-side opening and front opening) of one bag and the rear opening of the next bag. It should be noted that the bag is not used in the first forming because the rear opening is not sealed.

As shown in fig. 1 and 7, the horizontal bagging mechanism 5 may include a mounting bracket 51, a horizontal insertion plate 52, a glove compression assembly, a pulley drive assembly 54, and a motor 55. The mounting frame 51 is fixed to the frame 1 and includes two longitudinal beams 511 and a transverse plate 512. The longitudinal beams 511 extend in the front-rear direction, and are provided with slide rails 513, and both ends of the transverse plate 512 are slidably engaged with the slide rails 513 via slide blocks 514. The horizontal insert plate 52 is secured at one end to the cross plate 512 for loading the glove 100 placed thereon between the two films sealed at one end in the bag forming mechanism. The glove pressing component comprises a left pressing wheel 531, a right pressing wheel 531, a left pressing mounting block 532, a right pressing mounting block 533, a left guide rod fixing seat 534, a right guide rod 535, a cylinder fixing seat 536, a cylinder push block 537 and a cylinder 538. Left and right pinch rollers 531 are mounted on left and right pinch mounting blocks 532, respectively, for gripping and releasing the glove 100 placed on the horizontal insert plate 52. The left and right pressing and mounting blocks 53 are slidably mounted on left and right guide rods 533, and the front ends of the left and right guide rods 533 are fixedly mounted on the left and right guide rod fixing seats 534. The left and right guide rod fixing seats 534 are fixedly arranged at the upper ends of the left and right guide rods 535, the lower ends of the left and right guide rods 535 are fixedly connected to the cylinder push block 537, and the left and right guide rods 535 are arranged on the transverse plate 512 through linear bearings. The cylinder fixing seat 536 is fixedly installed on the transverse plate 512, the cylinder 538 is installed on the cylinder fixing seat 536, and a piston rod of the cylinder fixing seat is fixedly connected to the cylinder push block 537. Thus, cylinder 538 can drive pinch roller 531 up or down to release or grip glove 100. The belt pulley transmission assembly 54 comprises a driving wheel 541, a driven wheel 542 and a belt 543, the driving wheel 541 is mounted on the rotating shaft of the motor 55, the driven wheel 542 is mounted on the frame 1, the belt 543 surrounds the driving wheel 541 and the driven wheel 542, and the transverse plate 512 is fixedly connected with the belt 543 through a belt clamping block 56. The horizontal plate 512 is moved back and forth by the rotation of the motor 55, and the horizontal insertion plate 52 is inserted into or removed from the bag forming mechanism to complete the bagging process.

In the illustrated embodiment, each of the left and right guide rods 533 includes an upper guide rod and a lower guide rod, a connecting plate 5331 is disposed between the two guide rods, springs 5332 and 5333 are respectively sleeved on the upper guide rod and the lower guide rod, one end of the spring 5332 on the upper guide rod abuts against the pressing mounting block 532, the other end abuts against the connecting plate 5331, one end of the spring 5333 on the lower guide rod abuts against the connecting plate 5331, and the other end abuts against the guide rod fixing seat 534. The pinch roller 531 can be rolled back and forth by the springs 5332 and 5333.

Returning to fig. 1, the horizontal film glove sack filling machine may further comprise a first conveyor belt 8 and a second conveyor belt 9 arranged transversely. A first conveyor belt 8 is located below the scrap tearing and transferring mechanism 2 for conveying the scrap. A second conveyor belt 9 is arranged below the bag forming mechanism 4 for transporting the packed bag-formed gloves.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A horizontal type film glove bagging machine is characterized by comprising a rack, a glove waste tearing and transferring mechanism, a film feeding mechanism, a bag forming mechanism and a horizontal bag feeding mechanism, wherein the glove waste tearing and transferring mechanism, the film feeding mechanism, the bag forming mechanism and the horizontal bag feeding mechanism are arranged on the rack, the glove waste tearing and transferring mechanism is arranged at the feeding end of the rack and is used for removing waste of a whole stack of semi-finished film gloves to obtain film gloves to be packaged and transferring the film gloves to the horizontal bag feeding mechanism, the semi-finished film gloves comprise film gloves and waste wrapping the film gloves which are connected together in a virtual mode, and the feeding direction is called as the front-back direction; the film feeding mechanism is used for guiding two films from two new film rolls positioned at the front ends of the upper part and the lower part of the rack to the bag forming mechanism and recovering the residual films from the bag forming mechanism to two waste film rolls positioned at the rear ends of the upper part and the lower part of the rack; the bag forming mechanism is horizontally arranged in the middle of the machine frame and used for sealing one ends of the two films passing through the bag forming mechanism and sealing one end of the two films provided with the thin film gloves to form a packaging bag, and the horizontal bag feeding mechanism is used for horizontally feeding the thin film gloves between the two films with one ends sealed.

2. The horizontal type film glove bagging machine according to claim 1, wherein the film feeding mechanism comprises an upper film feeding assembly and a lower film feeding assembly, each film feeding assembly comprises a conveying scroll, a conveying motor, a front lifting tensioning roller mechanism, a plurality of horizontal guide rollers, a rear lifting tensioning roller mechanism, a recovery scroll and a recovery motor, the conveying scroll, the front lifting tensioning roller mechanism, the recovery scroll and the rear lifting tensioning roller mechanism are symmetrically arranged at the front end and the rear end of the bag forming mechanism respectively, the horizontal guide rollers are arranged at the front end and the rear end of the bag forming mechanism, the new film roll is fixedly arranged on the conveying scroll, the conveying motor is in driving connection with the conveying scroll, the waste film roll is fixedly arranged on the recovery scroll, the recovery motor is in driving connection with the recovery scroll, and the film sequentially passes through the front lifting tensioning roller mechanism from the new film roll, The horizontal guide roller, the bag forming mechanism, the horizontal guide roller and the rear lifting tensioning roller mechanism are recovered to the waste film roll.

3. The horizontal type film glove bagging machine according to claim 2, wherein the front lifting tension roller mechanism and the rear lifting tension roller mechanism are identical in structure and comprise a mounting frame, two fixed guide rollers and a lifting roller, a side plate of the mounting frame is provided with a vertically extending open slot, the lifting roller is movably mounted in the open slot, and the two fixed guide rollers are fixedly mounted at the upper end of the mounting frame on two sides of the open slot.

4. The horizontal type film glove bagging machine according to claim 2, wherein the bag forming mechanism comprises a door-shaped cutter, an upper mounting seat, a cutter driving air cylinder, a door-shaped silica gel strip, a lower clamping block, a lower mounting seat and a film clamping air cylinder, the upper mounting seat is positioned above the lower mounting seat, the door-shaped cutter is arranged on the lower surface of the upper mounting seat, the cutter driving cylinder drives the upper mounting seat to move up and down, the door-shaped silica gel strip is arranged on the upper surface of the lower mounting seat, aligned with the door-shaped cutter, the lower clamping blocks are arranged on two sides of the upper surface of the lower mounting seat, the film clamping cylinder is aligned with an upper clamping block fixedly arranged on the horizontal guide roller mounting frame, and drives the lower mounting seat to move up and down so as to clamp two sides of two films through the upper and lower clamping blocks.

5. The horizontal film glove bagging machine of claim 4, wherein the bag forming mechanism further comprises a semi-circular easy-tear cutter fixedly mounted on an outer side of the transverse portion of the portal cutter and a semi-circular silicone block fixedly mounted on the lower mounting seat in alignment with the easy-tear cutter.

6. The horizontal film glove bagging machine according to claim 5, wherein a notch is provided on a transverse portion of the gate-shaped cutter, and the easy-tear cutter is fixedly mounted on the notch.

7. The horizontal type thin-film glove bagging machine according to claim 1, wherein the glove waste tearing and transferring mechanism comprises a base, a left and right tearing mechanism, a glove placing table, a horizontal linear reciprocating mechanism and a glove clamping mechanism, the base is provided with two branch parts which are connected together at one end and are in a splayed shape, the glove placing table is installed on the joint part of the two branch parts, the left and right tearing mechanism is respectively installed on the two branch parts, and the glove clamping mechanism is installed on the horizontal linear reciprocating mechanism and is used for being matched with the left and right tearing mechanism to remove the waste and transfer gloves to the horizontal type bag entering mechanism.

8. The horizontal type thin-film glove bagging machine according to claim 7, wherein the left and right tearing mechanisms comprise left and right arc-shaped sliding rails, left and right sliding blocks, left and right clamp mounting seats, left and right clamps and left and right driving cylinders, the left and right arc-shaped slide rails are respectively arranged on the two branch parts, the left and right slide blocks are respectively jointed on the left and right arc-shaped slide rails in a sliding way, the left and right clamp mounting seats are respectively and fixedly mounted on the left and right sliding blocks, piston rods of the left and right driving cylinders are respectively in driving connection with the left and right clamp mounting seats, the left and right clamps are used for clamping the waste and comprise left and right upper clamping blocks, left and right lower clamping blocks and left and right clamping block driving cylinders, the left and right lower clamping blocks are respectively and fixedly arranged at the lower parts of the left and right clamp mounting seats, the left and right clamping block driving cylinders are respectively and fixedly arranged at the upper parts of the left and right clamp mounting seats, and piston rods of the left and right clamping block driving cylinders are in driving connection with the left and right upper clamping blocks.

9. The horizontal type thin-film glove bagging machine according to claim 7, wherein the horizontal type bag feeding mechanism comprises a mounting frame, a horizontal insertion plate, a glove pressing assembly, a belt pulley transmission assembly and a motor, the mounting frame is fixed on the frame and comprises two longitudinal beams and a transverse plate, the longitudinal beams extend in the front-rear direction, sliding rails are arranged on the longitudinal beams, two ends of the transverse plate are slidably connected to the sliding rails through sliding blocks, one end of the horizontal insertion plate is fixed on the transverse plate, the glove pressing assembly comprises left and right pressing wheels, left and right pressing mounting blocks, left and right guide rods, left and right guide rod fixing seats, left and right guide columns, a cylinder fixing seat, a cylinder push block and a cylinder, the left and right pressing wheels are respectively mounted on the left and right pressing mounting blocks, the left and right pressing mounting blocks are mounted at one ends of the left and right guide rods, and the other ends, the belt pulley transmission assembly comprises a driving wheel, a driven wheel and a belt, the driving wheel is installed on a rotating shaft of the motor, the driven wheel is installed on the rack, the belt is wound on the driving wheel and the driven wheel, and the transverse plate is fixedly connected with the belt through a belt clamping block.

10. The horizontal type film glove bagging machine according to claim 9, wherein the left guide rod and the right guide rod respectively comprise an upper guide rod and a lower guide rod, a connecting piece is arranged between the two guide rods, springs are sleeved on the upper guide rod and the lower guide rod respectively, one end of each spring on the upper guide rod is abutted to the corresponding mounting block, the other end of each spring on the upper guide rod is abutted to the corresponding connecting piece, one end of each spring on the lower guide rod is abutted to the corresponding connecting piece, and the other end.

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