CN210820375U - High-performance film hanging piece airing and drying automatic production line system - Google Patents

Abstract

The utility model discloses a high performance film lacing film dries in air and dries by fire automatic production line system, include: the automatic film hanging machine comprises an automatic film hanging machine, a drying conveying line and a drying machine room; the transfer chain that dries includes: the automatic film hanging machine comprises a feeding area, a drying section and a discharging area which are connected in sequence, wherein the feeding end of the feeding area is connected to the discharging end of the automatic film hanging machine, and the drying section is arranged in the drying machine room, so that the functions of film hanging, transportation, aging drying, timed constant-temperature drying, discharging temporary storage and the like can be automatically completed after films are thinned, cut and discharged from a preorder device; adopt the utility model provides a high performance film lacing film dries in air and dries by fire automatic production line system solves artifical high load and the instability problem of hanging of drying in the air, realizes high performance film high efficiency, high-quality, controllable, the controllable intelligent production of quality of temperature, time.

Description

High-performance film hanging piece airing and drying automatic production line system

Technical Field

The utility model relates to a rubber production technical field, in particular to high performance film lacing film dries in air and dries by fire automatic production line system.

Background

Modern production processes are increasingly demanding with regard to the degree of automation.

In some semi-finished product processing fields, such as in traditional high-performance film production methods, manual hanging still causes high load and instability problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a high performance film lacing film dries in air and dries by fire automatic production line system, traditional high performance film production mode is broken to this production system, solves the artifical high load and the instability problem of hanging that dries in the air, realizes high performance film high efficiency, high-quality, and temperature, time are controllable, the controllable intelligent production of quality.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a high performance film hanging piece dries in air and dries by fire automatic production line system, includes: the automatic film hanging machine comprises an automatic film hanging machine, a drying conveying line and a drying machine room;

the transfer chain that dries includes: the automatic sheet hanging machine comprises a feeding area, a drying section and a discharging area which are sequentially connected, wherein the feeding end of the feeding area is connected with the discharging end of the automatic sheet hanging machine, and the drying section is arranged in the drying machine room.

Preferably, the feeding area comprises a feeding section and a drying section which are connected in sequence.

Preferably, the blanking zone comprises a blanking buffer section.

Preferably, the feeding section, the drying section and/or the blanking temporary storage section are of a multilayer structure and comprise a first-layer line body, a second-layer line body and a climbing line body connected between the first-layer line body and the second-layer line body.

Preferably, the several layers in the multilayer structure comprise: the device comprises a turning line body and a plurality of linear line bodies, wherein two adjacent linear line bodies are connected through the turning line body.

Preferably, the linear bodies in each layer are arranged in parallel.

Preferably, the automatic sheet hanging machine comprises:

a frame;

the feeding line is arranged on the frame and is used for butting the discharge end of the preorder equipment;

the hanging piece clamping jaw is provided with a fork-shaped structure matched with the hanging tool;

the clamping jaw driving mechanism is arranged on the rack and used for driving the hanging piece clamping jaw to move between the feeding line and the hanging tool;

and the material inlet sensor is used for detecting whether the film on the feeding line is conveyed in place or not.

Preferably, the hanging piece clamping jaw comprises: a first fixed block and a parallel rod;

the number of the parallel rods is two, the two parallel rods are connected to the first fixing block through one ends, and the other ends of the two parallel rods form a fork-shaped structure capable of allowing the hanger to penetrate through.

Preferably, the feed line has a clearance for cooperation with the fork-like structure of the hanging piece clamping jaw.

Preferably, the feed line comprises: a W-shaped docking mechanism and a belt assembly; the W-shaped docking mechanism includes: the belt component can be conveyed along the rollers to form the clearance.

According to the technical scheme, the embodiment of the utility model provides an in the high performance film lacing film dries by air and dries by fire automatic production line system, adopt automatic lacing film machine to receive the supplied materials and hang the film to drying the transfer chain, the film gets into the process of drying along with the operation of drying the transfer chain earlier, moves to the drying machine room and carries out the drying process again after reaching predetermined drying ageing; after the film finishes the specified drying aging, the film is moved to a blanking area to wait for the finished product to be off-line, so that the production process of the finished film product is finished, the production processes of automatic film hanging, airing, drying and the like of the film can be realized, the strength of manual operation is effectively relieved, and the stability of film production is also ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a high-performance film hanging piece airing and drying automatic production line system provided by an embodiment of the present invention;

FIG. 2 is a schematic flow diagram of an automatic production line system for drying high-performance film hanging films according to an embodiment of the present invention;

fig. 3 is a schematic plan view of the drying conveyor line according to an embodiment of the present invention;

fig. 4 is a schematic view of a drying-side three-dimensional structure of the drying conveying line provided by the embodiment of the present invention;

fig. 5 is a schematic view of a feeding side three-dimensional structure of the drying conveyor line according to the embodiment of the present invention;

fig. 6 is a schematic view of a hanging member of an automatic film hanging machine according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an automatic film hanger according to an embodiment of the present invention;

fig. 8 is a schematic view of the engagement between the hanging piece clamping jaw and the hanging tool provided by the embodiment of the present invention;

fig. 9 is a schematic structural view of a hanging piece clamping jaw provided by an embodiment of the present invention;

fig. 10 is a schematic structural view of a hanger according to an embodiment of the present invention;

fig. 11 is a schematic view of the engagement between the hanging piece clamping jaw and the W-shaped docking mechanism provided in the embodiment of the present invention;

fig. 12 is a schematic structural diagram of a W-shaped docking mechanism according to an embodiment of the present invention;

fig. 13 is an installation schematic diagram of the material sensor provided by the embodiment of the present invention.

Wherein, 10 is a preamble device;

20, an automatic film hanging machine, 21, a rack, 22, a feeding line, 22-1, a W-shaped butt joint mechanism, 22-1a, a motor, 22-1b, a roller, 22-2, a belt component, 23, a clamping jaw driving mechanism, 23-1, an X-axis moving platform, 23-2, a Z-axis moving platform, 24, a material sensor, 25, a film hanging clamping jaw, 25-1, a first fixing block, 25-2, a parallel rod, 26, a hanger, 26-1, a lifting appliance, 26-2, a connecting frame, 26-3, a hanging rod, 26-4, a second fixing block, 26-5, a reinforcing plate and 27, an electric cabinet;

30 is an airing conveying line, 31 is a feeding section, 32 is an airing section, 33 is a drying section, 34 is a blanking temporary storage section, 35 is a blanking area, 36 is a transmission chain, 37 is a transmission rail, 38 is a support frame, 39 is an airing frame, 40 is a layer of line body, 41 is a layer of line body, 42 is a climbing line body, 43 is a turning line body, and 44 is a driving box;

50 is a drying machine room;

and 60 is a film.

Detailed Description

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

The embodiment of the utility model provides a high performance film lacing film dries in air and dries by fire automatic production line system, include: the automatic film hanging machine 20, the airing conveying line 30 and the drying machine room 50 have the structure shown in the figures 1, 2 and 3;

the airing transfer line 30 includes: the automatic sheet hanging machine comprises a feeding area, a drying section 33 and a discharging area 35 which are connected in sequence, wherein the feeding end of the feeding area is connected to the discharging end of the automatic sheet hanging machine 20, and the drying section 33 is arranged in a drying machine room 50.

According to the technical scheme, the embodiment of the utility model provides an in the high performance film lacing film dries by air and dries by fire automatic production line system, adopt automatic lacing film machine to receive the supplied materials and hang the film to drying the transfer chain, the film gets into the process of drying along with the operation of drying the transfer chain earlier, moves to the drying machine room and carries out the drying process again after reaching predetermined drying ageing; after the film finishes the specified drying aging, the film is moved to a blanking area to wait for the finished product to be off-line, so that the production process of the finished film product is finished, the production processes of automatic film hanging, airing, drying and the like of the film can be realized, the strength of manual operation is effectively relieved, and the stability of film production is also ensured.

In this embodiment, the feeding area includes a feeding section 31 and a drying section 32 connected in sequence, and the structure of the feeding area can be shown in fig. 3; it will be appreciated that the loading end of the loading section 31 is butted against the discharge end of the automatic sheet hanging machine 20; in order to meet the production process requirements of the film 60, the running time of the film 60 on the airing section 32 needs to reach the preset airing time period; if the drying section 32 runs at a constant speed, the length of the drying section 32 meeting the requirement can be designed through calculation; in order to improve the utilization rate of the internal space and simplify the overall dimension of the device, the airing section 32 adopts a winding design, for example, a serpentine structure provided in the embodiment of the utility model, and the airing section 32 in the scheme adopts a serpentine structure, so that the device has the characteristics of easy processing, large space utilization rate and the like; of course, other structural forms may also be adopted, for example, a square, a circular ring, etc., which are not described herein again; in addition, the running time of the film on the airing section 32 can be adjusted by additionally arranging a speed adjusting device, so that the requirements of different airing time-dependent days of the film 60 are met; in addition, the length of the airing section 32 is matched with the length of other sections, so that the space layout of each section is reasonable.

In order to further optimize the above technical solution, the blanking area 35 includes a blanking temporary storage section 34, the structure of which can be shown in fig. 2 and 3; similarly, in order to meet the requirements of the production process of the film 60, the running time of the film 60 on the feeding buffer section 34 is required to reach the specified number of days for buffering and can be off-line; correspondingly, a blanking machine is arranged at the blanking end of the blanking temporary storage section 34, the blanking machine is a reverse action of a feeding machine (namely the automatic sheet hanging machine 20), and similarly comprises a blanking manipulator and a material taking clamping jaw, so that the products are automatically blanked from an air-drying rack at the blanking end of the conveying line to a corresponding material receiving production line, and the blanking machine can be butted with subsequent sections of conveying, folding, weighing, packaging and the like; in order to realize the cyclic transportation of the airing conveying line 30 and improve the transportation efficiency, the airing conveying line 30 adopts a closed loop structure, that is, the tail end of the blanking temporary storage section 34 is connected to the front end of the feeding section 31, that is, the tail end of the blanking temporary storage section 34 is equal to the front end of the feeding section 31.

Specifically, the feeding section 31, the airing section 32, the drying section 33 and/or the discharging temporary storage section 34 are of a multilayer structure, and include a first-layer line 40, a second-layer line 41 and a climbing line 42 connected therebetween, and the structure thereof can be shown in fig. 4 and 5; the climbing line 42 is a connection section between the first layer line 40 and the second layer line 41, and can realize transition connection between the first layer line 40 and the second layer line 41 so as to ensure structural integrity; the drying conveying line 30 adopts a multi-layer arrangement, so that the drying quantity of the films 60 is increased, and the utilization rate of the internal space is improved; in addition, the climbing line 42 can be designed to be top-down or bottom-up according to the running direction of the airing conveying line 30, so as to meet different connection requirements. In addition, according to the production process requirement of the film 60, the length of each functional section is designed according to the capacity of the preorder equipment 10 and the baking time of the drying machine room 50, so that the conveying operation is ensured to meet the process requirement of baking for 1 day after drying for 3 days and temporarily storing for 1 day; but also requires that each section has reasonable space layout and clear dryness and wetness.

In this embodiment, the plurality of layers in the multi-layer structure includes: the structure of the curved line body 43 and the plurality of linear line bodies, two adjacent linear line bodies are connected through the curved line body 43, and the structure can be shown in fig. 4, so that a snake-shaped line body is formed, which just corresponds to the preferred snake-shaped structure mentioned in the above embodiment, and not only can meet the aging requirements of the film 60 in each functional section, but also can make the structure more compact.

In order to further optimize the technical scheme, the linear lines in each layer are arranged in parallel, so that the intensive arrangement of the linear lines can be realized, the effect of maximally utilizing the internal structure is achieved, and the manufacturing cost of the linear lines is relatively low.

Preferably, the automatic sheet hanger 20 includes:

a frame 21;

a feeding line 22 arranged on the frame 21 and used for butting the discharge end of the preorder device 10. In this context, preamble device 10 is intended to mean a device having a thinning and/or severing function. For example, a five-in-one creper, a butt-joint thinning machine or a cutting machine is used for providing a cut and formed film 60 for an automatic film hanging machine so as to ensure the continuity of the working procedures;

the film hanging clamping jaw 25 is provided with a fork-shaped structure matched with the hanging tool 26, so that the film hanging clamping jaw 25 lifting the film 60 can penetrate through the hanging tool 26 from top to bottom, the film 60 can be hung on the hanging tool 26 along the trend, and the butt joint of the film 60 is realized;

a clamping jaw driving mechanism 23 arranged on the frame 21 and used for driving the piece hanging clamping jaw 25 to move between the feeding line 22 and the hanging tool 26;

an incoming sensor 24 for detecting whether the film 60 on the feed line 22 is in position; when detecting that the film 60 is conveyed to the position, the material-to-feed sensor 24 triggers the film-hanging clamping jaws 25 to extract the film 60 conveyed to the material loading position on the material-conveying line 22 through a control center (the control center is distributed in an electric cabinet 27 in fig. 6), so that the conveying to the position and the extracting action of the film 60 are realized. Accordingly, the structure of the above paragraphs can be seen with reference to fig. 6 and 7.

Further, the automatic film hanger uses the material sensor 24 to set the loading position of the film 60 on the feeding line 22, and when the material sensor 24 detects that the film 60 is conveyed to the position, the claw driving mechanism 23 is triggered to drive the film hanging claw 25 to take the film 60 and move to the hanger 26. The film hanging clamping jaw 25 penetrates through the hanging tool 26 through a fork-shaped structure, so that the film 60 can be hung on the hanging tool 26 in a smooth manner, the butt joint film hanging of the film 60 is completed, the automatic film hanging of the film 60 is realized, the film hanging efficiency is greatly improved, and the stability of the film hanging is effectively ensured.

Specifically, the hanging piece holding jaw 25 includes: a first fixed block 25-1 and a parallel rod 25-2;

the number of the parallel rods 25-2 is two, the two parallel rods 25-2 are connected to the first fixing block 25-1 through one end, and the other ends of the two parallel rods 25-2 form the fork-shaped structure capable of allowing the hanging tool 26 to pass through, and the structure can be seen in fig. 9. In this embodiment, the parallel bar 25-2 is used to take the film 60 from the feed line 22 and transfer it above the hanger 26 under the action of the gripper drive mechanism 23. When the parallel rods 25-2 move downwards to be close to the hanger 26, the hanger 26 can be effectively avoided based on the fork-shaped gap between the two parallel rods 25-2, and the film hanging clamping jaws 25 can smoothly pass through the hanger 26, so that the films 60 can be hung on the hanger 26 along the trend. And the film 60 is also separated from the restraint of the film hanging clamping jaw 25 along the way, thereby realizing the automatic film hanging of the film 60.

In this embodiment, the feeding line 22 has a clearance for matching with the fork structure of the film hanging clamping jaw 25, so that the film hanging clamping jaw 50 can stop at this position, the upper surface of the film hanging clamping jaw 25 is flush with or slightly lower than the conveying surface of the feeding line 22, the stable conveying of the film 60 on the feeding line 22 is prevented from being affected, and the purpose of taking the film from the bottom of the film 60 by the film hanging clamping jaw 25 is achieved, and the structure of the feeding line can be shown in fig. 11.

Further, the feed line 22 includes: a W-shaped butt joint mechanism 22-1 and a belt assembly 22-2; the W-shaped docking mechanism 22-1 includes: the plurality of rollers 22-1b are positioned at the feeding position of the feeding line 22 and are arranged according to the W-shaped orientation, so that the belt assembly 22-2 can walk around the plurality of rollers 22-1b, the belt assembly 22-2 can be conveyed along the plurality of rollers 22-1b to form clearance, and the structure of the belt assembly can be shown in figure 12. The clearance is similar to a W-shaped groove, thereby creating two clearance positions for the two parallel bars 25-2 of the film hanging clamping jaw 25 to be stopped in advance, thereby making the structure more compact. In the scheme, the film hanging clamping jaws 25 can be pre-buried below the conveying surface of the feeding line 22 before the films 60 are conveyed, so that the films 60 can be normally conveyed on the feeding line 22, and favorable conditions are created for the extraction of the films 60.

In order to further optimize the above technical solution, the hanger 26 comprises: the structure of the lifting appliance 26-1, the connecting frame 26-2 and the hanging rod 26-3 can be shown by referring to FIG. 10;

the connection frame 26-2 includes: the lifting device comprises a horizontal rod and a vertical rod, wherein the first end of the horizontal rod is connected with the bottom end of a lifting appliance 26-1 (the top end of the lifting appliance 26-1 is a lifting hook), and the second end of the horizontal rod is connected with the upper end of the vertical rod; the lower end of the vertical rod is connected with one end of the hanging rod 26-3, the gap between the horizontal rod and the hanging rod 26-3 can allow the film 60 to pass through, and the width of the hanging rod 26-3 is smaller than the fork-shaped gap between the two parallel rods 25-2. Based on the design thought, the connecting frame 26-2 can be designed into an L-shaped connecting frame, and has the characteristics of simple structure, easiness in processing and the like. Correspondingly, the hanging rod 26-3 can be a round hanging rod, which is beneficial to increasing the contact area of the film 60 and the hanging rod 26-3 and ensuring the stability of the hanging piece.

In the scheme, the gap between the horizontal rod and the hanging rod 26-3 can allow the film 60 to pass through, so that the parallel rod 25-2 is fed to the hanging rod 26-3 through the gap, the parallel rod 25-2 runs above the hanging rod 26-3, and the occupation is prepared for the suspension butt joint of the film 60; and the width of the hanging rod 26-3 is smaller than the fork-shaped gap between the two parallel rods 25-2, so that the two parallel rods 25-2 can pass through the hanging rod 26-3 when moving downwards, the film 60 is separated from the parallel rods 25-2 and is hung on the hanging rod 26-3 in a smooth manner, and the stable film hanging of the film 60 is realized.

The present solution is further described below with reference to specific embodiments:

the embodiment of the utility model provides a high performance film hangs and dries by fire automatic production line system can realize that the film is from preorder equipment 10 (here be the attenuate, decide the function machine, for example: five unification crepers, butt joint attenuate machine or cutting machine) attenuate, decide the ejection of compact after, accomplish the pendant of film automatically, functions such as transportation, ageing dry, regularly dry with constant temperature, unloading are kept in. The design can realize the airing and hanging of the film for 3 days and the drying process requirement for 1 day.

The system consists of 1 automatic film hanging machine 20, 1 set of airing conveying line 30 and 1 set of drying machine room 50. After the film 60 is thinned by the preorder device 10 and cut into sheets to be discharged, the automatic film hanging machine 20 receives the materials and automatically hangs the film 60 to the airing conveying line 30, the conveying line continuously runs, the sufficient film 60 is accumulated and runs to the drying machine room 50 after the preset aging, the film 60 finishes the drying of 24-hour high-performance films in the drying room, the film 60 finally runs to the discharging area of the conveying line to be discharged, finished products are discharged, then the next round of feeding is carried out, and the continuous production is carried out. The production system breaks through the traditional high-performance film production mode, solves the problems of high load and instability of manual hanging, and realizes the intelligent production of high-performance films with high efficiency, high quality, controllable temperature and time and controllable quality.

As shown in fig. 6, 7 and 13, the automatic film hanging machine 20 is mainly composed of a frame 21, a feeding line 22, a film hanging jaw 25, a jaw driving mechanism 23, a hanger 26, a material sensor 24 and the like. After the film 60 is discharged from the previous-sequence equipment, the film 60 is conveyed to a film hanging and loading position through the material conveying line 22, the material sensor 24 senses the material, the film clamping jaws 25 immediately pick up the film 60, the film 60 is conveyed to the corresponding positions of the airing rack of the airing conveying line 30, the film 60 is hung on the hangers 26 on the airing rack, the film clamping jaws 25 return to enter the next cycle, and the process is repeated to continuously produce the film hanging.

The film hanging clamping jaw 25 of the automatic film hanging machine 20 is mounted on the clamping jaw driving mechanism 23, as shown in fig. 9 and 10, and is composed of two parallel rods and a first fixing block 25-1, and is of a fork-shaped structure, and the fork-shaped structure is used for enabling the clamping jaw to penetrate through the circular hanging rod of the hanging tool 26 to achieve tacit fit.

As shown in fig. 10, the hanger 26 is composed of an inverted hanger, a second fixing block 26-4, a reinforcing plate 26-5, an L-shaped connecting frame, a circular hanging rod and the like. The structure can facilitate the automatic film hanging machine to hang the film 60 on the hanging tool 26, and realize the stable airing and hanging of the film 60 and the stable running on the track.

As shown in fig. 13, the arrival sensor 24 is located at the end of the feeding line 22, so that the arrival sensor 24 can timely sense the front end of the film 60, and then send a feeding signal to the jaw driving mechanism 23 through the control center, and the film hanging jaw 25 can pick up the film 60 from the clearance. To accommodate this design scenario, the material sensor 24 is a contact sensor. The mounting position of the inductor through the contact presets the material position to the film 60, ensures that the film 60 can be carried to the assigned position when to in time draw the film hanging clamping jaw 25, realized the accurate material of getting of film 60. Meanwhile, the material feeding sensor 24 is arranged at the tail end of the feeding line 22 and can play a role of clamping, so that the film 60 can be ensured to stay at a set material feeding position, and the film hanging clamping jaw 25 can further conveniently and accurately extract the film 60.

The embodiment of the utility model provides an automatic lacing film machine, its lacing film process is as follows:

as shown in fig. 8, when the film 60 is carried by the jaws and moved to a position right above the hanging rod 26-3 by the jaw driving mechanism 23, the jaws are driven to move downward, the fork-shaped structure passes through the circular hanging rod, the film 60 is hung on the hanging rod 26-3 along the same line and is skillfully separated from the film hanging jaw 25, and then the film hanging jaw 25 is driven to move downward to the bottom end of the film 60 and then returns to the loading position, thereby completing the film 60 hanging process.

It is further explained that the feeding assembly line (namely, the feeding line 22) provided by the embodiment of the present invention is used for transporting the film 60 to the hanging piece loading position, namely, the middle position of the feeding line 22, and is butted with the hanging piece clamping jaw 25. The feed line 22 is mainly composed of: the device comprises a rack, a belt line, a roller, a driving system, a W-shaped docking mechanism 22-1, an inductor and the like. The drive system drives the belt line to move, when the film 10 is discharged from the front-end equipment and flows into the feeding production line, the film hanging clamping jaw 25 stops at the W-shaped butt joint mechanism 22-1 in advance to wait for the film 60 to flow through. When the film 60 flows to the loading position, the sensor detects the material, the clamping jaw driving mechanism 23 drives the clamping jaw to ascend, the material taking action of the film hanging machine is completed, and the film hanging machine is hung on a drying rack of the drying conveying line 30.

Wherein, the hanging piece fork-shaped clamping jaw is butted with the W-shaped butting mechanism 22-1, so that the film 60 is stably transited on the production line, and the film 60 is loaded and hung from the middle. Specifically, the W-shaped docking mechanism 22-1 is a specially designed belt transmission mechanism, and mainly comprises a motor 22-1a, rollers 22-1b and the like, as shown in fig. 12, a plurality of groups of rollers 22-1b are arranged according to specific positions, so that a belt line forms a W shape when walking around the rollers 22-1b, two clearance positions are generated, a fork-shaped clamping jaw stops at the position when taking materials, and the upper surface of the clamping jaw is flush with the parallel surface of the belt assembly 22-2, so that the stable conveying of the film 60 on the assembly line 22 is realized, and the purpose that the fork-shaped clamping jaw accurately takes materials from the middle of the film 60 is achieved. In addition, after the film 60 moves to the proper position along with the feeding line 22, the material sensor 24 detects the material and sends out a film hanging signal, and the mechanical arm lifts up the film hanging.

As shown in fig. 4 and 5, the airing conveying line 30 is composed of two layers of lines, including a first layer of line 40, a second layer of line 41, a climbing line 42, and a turning line 43, and the number of the airing films 60 can be increased by arranging the lines in multiple layers, thereby saving space. The conveying line mainly comprises a supporting frame 38, a transmission chain 36, a transmission rail 37, a driving box 44 and the like, is provided with a speed regulation function, and can set the speed according to production requirements.

As shown in fig. 3, according to the requirement of high-performance film production process, the conveyor line includes a loading section 31, an airing section 32, a drying section 33, and a blanking temporary storage section 34, each section is designed according to the capacity of the pre-order device 10 and the baking time of the dryer room 50, and the conveying operation meets the process requirement of baking for 1 day after 3 days of airing and temporary storage for 1 day. Each section has reasonable space layout and clear dryness and wetness.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a high performance film lacing film dries in air and dries by fire automatic production line system which characterized in that includes: the automatic film hanging machine comprises an automatic film hanging machine (20), a drying conveying line (30) and a drying machine room (50);

the airing conveying line (30) comprises: the automatic sheet hanging machine comprises a feeding area, a drying section (33) and a discharging area (35) which are sequentially connected, wherein the feeding end of the feeding area is connected with the discharging end of the automatic sheet hanging machine (20), and the drying section (33) is arranged in the drying machine room (50).

2. The automatic production line system for hanging and drying high-performance films according to claim 1, wherein the loading area comprises a loading section (31) and a drying section (32) which are connected in sequence.

3. The high-performance film hanging and drying automatic production line system according to claim 2, wherein the blanking section (35) comprises a blanking buffer section (34).

4. The high-performance film hanging and airing automatic production line system according to claim 3, wherein the feeding section (31), the airing section (32), the drying section (33) and/or the blanking temporary storage section (34) are of a multi-layer structure including: the device comprises a first-layer wire body (40), a second-layer wire body (41) and a climbing wire body (42) connected between the first-layer wire body and the second-layer wire body.

5. The high performance film hanging and drying automatic production line system according to claim 4, wherein the plurality of layers of the multi-layer structure comprise: the bending line body (43) is connected with a plurality of linear line bodies, and every two adjacent linear line bodies are connected through the bending line body (43).

6. The automatic production line system for hanging film and drying according to claim 5, wherein the linear lines in each layer are arranged in parallel.

7. The high-performance film hanging drying automatic production line system according to any one of claims 1 to 6, wherein the automatic film hanging machine (20) comprises:

a frame (21);

a feeding line (22) arranged on the frame (21) and used for butting the discharge end of the preorder equipment (10);

a hanging piece clamping jaw (25), wherein the hanging piece clamping jaw (25) is provided with a fork-shaped structure used for being matched with a hanging tool (26);

a clamping jaw driving mechanism (23) arranged on the frame (21) and used for driving the hanging piece clamping jaw (25) to move between the feeding line (22) and the hanging tool (26);

an incoming feed sensor (24) for detecting whether film (60) on the feed line (22) is in place.

8. The high performance film hanging airing automatic production line system according to claim 7, wherein said hanging jaw (25) comprises: a first fixed block (25-1) and a parallel rod (25-2);

the number of the parallel rods (25-2) is two, the two parallel rods (25-2) are connected to the first fixing block (25-1) through one ends, and the other ends of the two parallel rods (25-2) form a fork-shaped structure capable of allowing the hanger (26) to penetrate through.

9. The high performance film hanging and drying automatic production line system according to claim 7, characterized in that the feeding line (22) has a clearance for cooperating with the fork structure of the hanging piece clamping jaw (25).

10. The high performance film hanging and drying automatic production line system according to claim 9, wherein the feeding line (22) comprises: a W-shaped butt joint mechanism (22-1) and a belt assembly (22-2); the W-shaped docking mechanism (22-1) includes: a plurality of rollers (22-1b), wherein the belt assembly (22-2) can be conveyed along the plurality of rollers (22-1b) to form the clearance.

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