CN209815319U - Edge material processing mechanism of bubble film blowing machine - Google Patents

Abstract

The utility model discloses a scrap edge processing mechanism of a bubble film blowing machine, which comprises a film blowing machine frame and a rotary roller arranged on the frame and used for conveying bubble films; the conveying roller and the edge material roller are arranged on the rack and positioned below the rotating roller and used for separating the bubble film and the edge material; the corner mechanism is arranged on one side of the rack and used for sorting the edge materials so as to be convenient for storage and treatment; and the traction mechanism is arranged on one side of the rack and used for drawing, accommodating and integrating the rim charge. The utility model has the advantages that the corner mechanism is arranged, so that the rim charge on the two sides can be conveniently stored and arranged; the angle block is arranged on the guide rail, the height of the angle block can be adjusted according to actual needs, and the angle wheel is fixed on the adjusting vertical seat and can adjust the deflection angle of the angle wheel according to actual needs; through establishing motor reducer into drive mechanism's power unit to accomodate for the rim charge and provide continuous stable traction force, improve the holistic job stabilization nature of bubble inflation film manufacturing machine.

Description

Edge material processing mechanism of bubble film blowing machine

Technical Field

The utility model relates to a inflation film manufacturing machine auxiliary assembly field, especially bubble inflation film manufacturing machine rim charge processing mechanism.

Background

Bubble inflation film manufacturing machine need tailor to former bubble membrane in process of production, makes it satisfy the requirement of processing product size, but to how the rim charge after tailorring handles, all can be given the discretion by it on the ground conventionally, piles up and is collected in the sack in unison by the workman after a certain amount and take away. The method has the possibility that the leftover materials are piled too much and are brought into the equipment again when the workers do not process the leftover materials in time, and the piled leftover materials are not beneficial to the clean processing of the factory environment.

Through patent retrieval, publication No. CN204508358U publication No. 20150729 proposes an edge trim recovery mechanism for a bubble film blowing machine, and the device described in the document separates edge trims from cloth through a feeding claw, then the edge trims enter a feeding hole, and then the edge trims are blown away from a discharge hole at one end of a conveying air duct by a fan. A fan in the equipment is used as a main power element, and blows the rim charge in a conveying air duct through wind power so as to draw the rim charge on a material guiding claw to move, but the size of the wind power is unstable, so that the continuous and stable work of the equipment cannot be ensured; and the position of the feeding claw is fixed, so that the feeding claw cannot be adjusted according to actual requirements, and the arrangement is not flexible enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a scrap edge processing mechanism of the bubble film blowing machine is designed.

The technical scheme of the utility model is that the scrap edge processing mechanism of the bubble film blowing machine comprises a frame of the film blowing machine and a roller which is arranged on the frame and used for conveying bubble films; the conveying roller and the scrap roller are arranged on the rack and positioned below the rotating roller and used for separating the bubble film and the scrap; the corner mechanism is arranged on one side of the rack and used for sorting the edge materials so as to be convenient for storage and treatment; and the traction mechanism is arranged on one side of the rack and used for drawing, accommodating and integrating the rim charge.

Specifically, the delivery roller is arranged at a position which is lower than the conveying direction of the rotating roller, and receives and delivers the bubble film with the rim charge removed; the scrap roller is arranged below the delivery roller, receives the removed scrap and delivers the removed scrap to the corner mechanism.

Specifically, the delivery roller and the scrap roller are fixed on the frame and can rotate freely by taking two ends of the delivery roller and the scrap roller as shafts.

Furthermore, the corner mechanism comprises a guide rail fixed on the side surface of the rack and a corner block arranged on the guide rail and capable of freely sliding along the guide rail, and the position of the corner block on the guide rail can be adjusted by loosening and disassembling screws.

Furthermore, the rack is located on the guide rail, one side of the rack is provided with two corner blocks with different deflection angles, and the other side of the rack is provided with one corner block.

Furthermore, the corner block further comprises a sliding seat which is in contact with the guide rail and can slide along the guide rail, an adjusting vertical seat which is arranged outside the sliding seat and used for adjusting the rotating angle, a corner wheel which is fixed with the adjusting vertical seat and arranged on the side wall of the corner wheel and used for changing the conveying direction of the rim charge, and a buckling cap which is arranged above the adjusting vertical seat and can slide along the guide rail independently.

Furthermore, the adjusting vertical seat is a regular polygon body with a through hole in the center, and a corresponding regular polygon groove is arranged on the sliding seat and in contact with the adjusting vertical seat.

Furthermore, the traction mechanism comprises a traction motor, a speed reducer connected with the traction motor and a plurality of traction wheels controlled by the speed reducer to rotate.

Preferably, the number of a plurality of traction wheels is two, and its height is inconsistent, and the traction wheel that is close to the frame is lower, is convenient for twine the rim charge and relies on friction to provide traction force.

Furthermore, a material crusher used for crushing the rim charge is arranged on one side of the traction mechanism and far away from the rack.

The corner mechanism has the beneficial effects that 1, the corner mechanism is arranged, so that the rim charge on two sides can be conveniently stored and arranged. In the consideration of the arrangement position of the equipment, the traction mechanism can only be placed on one side of the bubble film blowing machine, but in the processing production, both sides of the original bubble film can be provided with scraps, so that a corner mechanism is required to be arranged on the two sides for guiding the scraps generated on the two sides to the same side, a corner block arranged on the corner mechanism can adjust the angle of a corner wheel according to the requirement, the scraps can be placed on the corner wheel along the corner wheel to change the original conveying direction, and the scraps on the two sides can be conveniently stored and arranged.

2. Through setting up the corner piece on the guide rail, its place height can be adjusted according to actual need to the corner piece, and the corner wheel is fixed on adjusting the vertical seat, can adjust its deflection angle according to actual need. The two are combined, so that the free adjustment of the corner wheel can be realized, and the corner wheel is used for changing the conveying direction of the rim charge, so that the flexible adjustment can be performed according to different rim charge sizes.

3. Through establishing motor reducer into drive mechanism's power unit to accomodate for the rim charge and provide continuous stable traction force, improve the holistic job stabilization nature of bubble inflation film manufacturing machine.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the scrap conveying method of the present invention;

fig. 3 is a schematic structural view of the corner mechanism of the present invention;

FIG. 4 is an exploded view of the structure of FIG. 3;

in the figure, 1, a frame; 101. rotating the roller; 2. a delivery roller; 3. a scrap roller; 4. a corner turning mechanism; 401. a guide rail; 402. a corner block; 4021. a slide base; 4022. adjusting the vertical seat; 4023. a corner wheel; 4024. a fastening cap; 5. a traction mechanism; 501. a traction motor; 502. a speed reducer; 503. a traction wheel; 6. a material crusher.

Detailed Description

The following describes the present invention in detail with reference to the accompanying drawings (wherein, the grid-shaped section in fig. 2 is a bubble film, the middle is a part that can be used after cutting, and the dense grids at both sides are rim charge), and as shown in fig. 1-4, the rim charge processing mechanism of the bubble film blowing machine comprises a frame 1 of the bubble film blowing machine, a rotating roller 101 arranged on the frame 1 for conveying the bubble film, a delivery roller 2, a rim charge roller 3, a corner mechanism 4 and a traction mechanism 5. The conveying roller 2 and the rim charge roller 3 are arranged on the frame 1 and located below the rotating rollers 101 and used for separating a bubble film and rim charges, the bubble film completes a bubble film cutting process in a previous mechanism of the rotating rollers 101, the bubble film is conveyed from top to bottom from the middle of the two rotating rollers 101, then the middle part of the bubble film is conveyed to a next mechanism through the conveying roller 2, and the rim charges on two sides of the bubble film are conveyed to a corner mechanism 4 through the rim charge roller 3 for carrying out next storage processing; the corner mechanism 4 is arranged on one side of the rack 1 and used for sorting the edge materials so as to be convenient for storage and processing, in actual production, the film blowing machine is formed by linearly arranging a plurality of mechanisms in a flow line mode, so that auxiliary equipment is added into the film blowing machine and can only be arranged on one side of the film blowing machine, the traction mechanism 5 can only be arranged on one side of the bubble film blowing machine, but in consideration of the processing production, the edge materials can be generated on two sides of an original bubble film, a mechanism is required to be arranged and used for guiding the edge materials generated on the two sides to the same side, and the corner mechanism 4 has the function of enabling the edge materials to enter the auxiliary equipment fixed on one side of the film blowing machine by changing the conveying direction of the edge materials on the two sides; and a drawing mechanism 5 which is provided at one side of the frame 1 and draws and stores the rim charge and integrates the rim charge, and the rim charge conveyed from the rim charge roller 3 directly drops on the ground without involving other mechanisms, so that the conveyance of the rim charge needs a drawing force of the rim charge to guide the conveyance, and the drawing mechanism 5 is a power mechanism for drawing the rim charge.

As shown in fig. 1-2, the delivery roller 2 is disposed at a position lower than the conveying direction of the rotating roller 101, and receives and delivers the bubble film from which the rim charge is removed; the edge material roller 3 is arranged below the delivery roller 2, receives the removed edge material and delivers the removed edge material to the corner mechanism 4, the delivery roller 2 and the edge material roller 3 are both fixed on the rack 1 and can freely rotate by taking two ends as shafts, two ends of the delivery roller are not connected with any rotating mechanism and can only rotate along with the delivery of the bubble film or the edge material, and the delivery roller 2 and the edge material roller 3 are mainly used for separating the middle part of the bubble film from the edge material at two sides.

As shown in fig. 3-4, the corner mechanism 4 includes a guide rail 401 fixed on the side of the frame 1, and a corner block 402 disposed on the guide rail 401 and capable of sliding freely along the guide rail 401, the position of the corner block 402 on the guide rail 401 can be adjusted by loosening and loosening screws, because the cutting size of the rim charge is different in actual production, the corner of the rim charge requires different distances or rotating spaces (for a wider rim charge, the distance to complete the corner is larger, and therefore the position of the corner block 402 needs to be adjusted downward), the corner block 402 is a component for changing the conveying direction of the rim charge, and therefore the position of the corner block can directly affect the stability of the rim charge conveying process (the higher the conveying speed of the rim charge, the larger the distance between the corner block 402 and the rim charge roller 3, otherwise the rim charge can be derailed and wound by itself), by disposing the corner block 402 on the guide rail 401, the position of the edge material is adjusted according to the width and the conveying speed of the edge material, so that the flexibility of the edge material is improved, and meanwhile, the working stability of the edge material can be adjusted in real time.

As shown in fig. 3 to 4, the corner block 402 further includes a sliding base 4021 contacting and sliding along the guide rail 401, an adjusting vertical base 4022 disposed outside the sliding base 4021 for adjusting a rotation angle, a corner wheel 4023 fixed to the adjusting vertical base 4022 and disposed on a side wall thereof for changing a scrap conveying direction, and a locking cap 4024 disposed above the adjusting vertical base 4022 and capable of sliding independently along the guide rail 401, where the adjusting vertical base 4022 is a regular polygon body having a through hole at a center thereof, a corresponding regular polygon groove is disposed on the sliding base 4021 and in contact with the adjusting vertical base 4022, the adjusting vertical base 4022 and the corner wheel 4023 are fixed together, and in an operating state, the adjusting vertical base 4022 is locked in the regular polygon groove between the dividing line and the locking cap 4024 (in order to make the adjusting vertical base 4022 more stable, a single column may be fixed in the middle of the regular polygon groove, the adjustment is found the center trompil of seat 4022 and is alternates on this stand, can make the adjustment stand 4022 more stable), when the turned angle of corner wheel 4023 is adjusted to needs, will lock cap 4024 breaks away from along guide rail 401 upwards slides the adjustment stand 4022, and the adjustment stands seat 4022 and upwards extracts and breaks away from slide 4021 bottom surface recess rotates an angle and connects according to the original step re-joint (the utility model discloses an adjustment stand 4022 and be 8 prismatic, so its angle of adjustment is the multiple of 45 degrees, according to actual need, changes the arris number of just many arriss, can define its minimum angle of adjustment).

As shown in fig. 1-2, on the frame 1 and at the position of the guide rail 401, one side is provided with two corner blocks 402 with different deflection angles, and the other side is provided with one corner block 402, because the larger the angle of the rim charge conveying direction change is, the more corners need to be passed, so the above-mentioned arrangement mode is only shown as an example, and the actual arrangement mode is not limited,

as shown in fig. 1, the traction mechanism 5 includes a traction motor 501, a speed reducer 502 connected to the traction motor 501, and a plurality of traction wheels 503 controlled by the speed reducer 502 to rotate, and the fan described in the existing document provides unstable wind power, and is changed to provide continuous and stable power through the traction motor 501, so that the operation of the utility model is more stable and efficient.

As shown in fig. 2, the number of the plurality of the traction wheels 503 is two, and the heights of the traction wheels are different, the traction wheel 503 close to the rack 1 is lower, because the rim charge is delivered from the lower part of the traction wheel 503 and then enters the subsequent processing equipment through the traction wheel 503, friction force is generated between the rim charge and the wheels due to self weight when the rim charge is conveyed on the traction wheel 503, and then the traction motor 501 drives the traction wheel 503 to rotate, so that the rim charge is pulled to continuously move through the friction force, the rim charge cannot be separated from the traction wheel 503 in the conveying process, and the stability of the working state is ensured.

As shown in fig. 1-2, a material crusher 6 for crushing the rim charge is disposed at a position on one side of the traction mechanism 5 and away from the frame 1, the rim charge enters the material crusher 6 through a traction wheel 503 and is crushed, and then is re-melted into raw material particles with bubble films for use, and other devices (including but not limited to sterilization, oil removal and drying devices) can be added after the traction mechanism 5 according to actual needs to meet the requirements of sterilization, oil removal and drying related pre-treatment of rim charge melting.

The utility model discloses a working procedure and theory of operation do:

1. separating the bubble film from the rim charge: bubble chamber film by the utility model discloses a leading mechanism carries out the size cutting to it, then the bubble chamber film after the cutting is accomplished is followed two with the rim charge in the middle of changeing roller 101, from top to bottom transport, then the middle usable portion of bubble chamber film can warp delivery roller 2 carries next mechanism of cutting, cuts the length of bubble chamber film, and the rim charge of bubble chamber film both sides can warp rim charge roller 3 carries and arranges in order on next step and accomodates work in the corner mechanism 4.

2. And (3) arranging and storing rim charge: the rim charge can pass through the corner wheel 4023 of the corner mechanism 4 after coming out of the rim charge roller 3, the corner mechanism 4 is used for changing the conveying direction of the rim charge, because the axis of the corner wheel 4023 and the axis of the rim charge roller 3 form a certain included angle, the rim charge can change the original conveying direction after passing through the corner wheel 4023 (the principle is the same as the pulling force direction of a rope can be changed by a fixed pulley), when the conveying angle needs to be changed according to the width of the rim charge, the included angle between the axis of the corner wheel 4023 and the axis of the rim charge roller 3 can be changed by changing the placing angle of the adjusting vertical seat 4022 on the sliding seat 4021, the conveying direction of the rim charge is further changed, (when the conveying angle needs to be greatly changed, the conveying direction of the rim charge can be gradually changed by increasing or decreasing the number of the corner wheels 4023), and the rim charge on two sides of the bubble film can be overlapped together after passing through the corner mechanism 4 and.

3. And (3) containing and processing the rim charge: the rim charge is conveyed to a traction wheel 503 of a traction mechanism 5 by a corner wheel 4023 and then is delivered to a material crusher 6 by the traction wheel 503, the traction wheel 503 is used as a power mechanism for accommodating the rim charge, the rim charge is continuously and stably delivered to the material crusher 6 by being dragged to continuously move through friction between the traction wheel 503 and the rim charge, and the rim charge is further subjected to melting operation to form reusable bubble film raw material particles.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (10)

1. The bubble film blowing machine scrap edge processing mechanism is characterized by comprising a film blowing machine frame and a rotary roller which is arranged on the frame and used for conveying a bubble film;

the conveying roller and the scrap roller are arranged on the rack and positioned below the rotating roller and used for separating the bubble film and the scrap;

the corner mechanism is arranged on one side of the rack and used for sorting the edge materials so as to be convenient for storage and treatment;

and the traction mechanism is arranged on one side of the rack and used for drawing, accommodating and integrating the rim charge.

2. The scrap handling mechanism of a bubble film blowing machine according to claim 1, wherein the delivery roller is disposed at a position lower than the conveying direction of the rotating roller, and receives and delivers the bubble film from which the scrap is removed; the scrap roller is arranged below the delivery roller, receives the removed scrap and delivers the removed scrap to the corner mechanism.

3. The scrap handling mechanism of a bubble film blowing machine according to claim 1, wherein the delivery roller and the scrap roller are fixed on the frame and can rotate freely with both ends thereof as shafts.

4. The scrap handling mechanism of the bubble film blowing machine according to claim 1, wherein the corner mechanism comprises a guide rail fixed on the side of the frame, and a corner block arranged on the guide rail and capable of freely sliding along the guide rail, and the position of the corner block on the guide rail can be adjusted by loosening and disassembling screws.

5. The scrap handling mechanism of the bubble film blowing machine according to claim 4, wherein the frame is located on the guide rail, one side of the frame is provided with two corner blocks with different deflection angles, and the other side of the frame is provided with one corner block.

6. The scrap handling mechanism of the bubble film blowing machine according to claim 4, wherein the corner block further comprises a sliding seat contacting with the guide rail and capable of sliding along the guide rail, an adjusting vertical seat arranged outside the sliding seat and used for adjusting a rotation angle, a corner wheel fixed with the adjusting vertical seat and arranged on a side wall of the adjusting vertical seat and used for changing the conveying direction of the scrap, and a buckling cap arranged above the adjusting vertical seat and capable of sliding independently along the guide rail.

7. The scrap edge processing mechanism of the bubble film blowing machine according to claim 6, wherein the adjusting vertical seat is a regular polygon body with a through hole in the center, and a corresponding regular polygon groove is formed in the position on the sliding seat and in contact with the adjusting vertical seat.

8. The scrap handling mechanism of the bubble film blowing machine according to claim 1, wherein the traction mechanism comprises a traction motor, a reducer connected with the traction motor, and a plurality of traction wheels controlled by the reducer to rotate.

9. The edge-trim processing mechanism of the bubble film blowing machine according to claim 8, wherein the number of the plurality of the traction wheels is two, the height of the traction wheels is inconsistent, the traction wheels near the frame are lower, and the traction wheels are convenient for winding the edge-trim and provide traction force by friction.

10. The scrap handling mechanism of the bubble film blowing machine according to claim 1, wherein a material crusher for crushing the scrap is arranged on one side of the traction mechanism and at a position far away from the frame.