CN103818754A - Online synchronous film leftover recycling device - Google Patents

Abstract

The invention discloses an online synchronous film leftover recycling device which comprises a base, a winding mechanism, a transmission mechanism and at least one spring. The winding mechanism and the transmission mechanism are arranged on the base. The winding mechanism comprises a winding shaft. The transmission mechanism comprises a driving bearing wheel, a driven bearing wheel and a bearing wheel connecting rod. The driving bearing wheel and the driven bearing wheel are respectively mounted at two ends of the bearing wheel connecting rod and are in transmission connection through a transmission chain or cog belt. The driving bearing wheel is closely abutted to a driving roller, the driven bearing wheel is closely abutted to the winding shaft, the joints of the first ends of the springs are kept constant relative to the base, and the second ends of the springs are connected to the winding mechanism or the transmission mechanism. By the aid of the power of the driving roller of a winding device on a production line, film leftover recycling synchronous with the production line is realized, rotation speed of the winding shaft can be automatically controlled and is ensured to be synchronous with production speed of a film making machine.

Description

Thin film leftover material on-line synchronous regenerative apparatus

Technical field

The present invention relates to a kind of thin film leftover material on-line synchronous regenerative apparatus.

Background technology

On factory's plastic film production lines, can produce uneven rim charge, or in product encapsulation process, cut out the consistent waste film band of width.These thin film leftover material light weights are inflammable, if can not process in time, are deposited in a jumble the both sides on manufacturing line, bring hidden danger to safety in production, take factory building space simultaneously, therefore need rim charge to collect, and maintain the clean of field operation, are convenient to secondary utilization.

The mode of collecting at present rim charge has following several:

The first, directly suck melting hopper by air suctiton ventilator, melt and be transformed into the granular feedstock line recycling that puts into production after cooling, this mode has the feature of line cocycle, convenient, degree of utilization is high, but its installation cost expense is high, and product object is single, not improving the film degree of utilization of output, is not the first-selection of little manufacturers.The second way of recycling is by rim charge by the folding accumulation of mechanism, and the method is simple and easy to do, has but ignored the irregularity of rim charge and the elasticity of rim charge, causes accumulation loose, and heap is high easily to fall.The third, be coiling collection mode, thin film leftover material be wound on the reel of furling mechanism by actuating device, such collection mode is more efficient compared to other, more save factory building space, and form after reclaiming can directly enter next manufacturing line and carries out small size blister-pack.

The packaging film waste material recovery device of announcing according to Chinese patent 01207961.8, comprising: support, actuating device, recovery rotating disk, movable reel, waste material collating unit; Actuating device is to be located on a support, for driving waste material collating unit, reclaims rotating disk and is connected on actuating device by belt and belt pulley, to obtain rotational power; The problem that this technical scheme exists is: actuating device adopts motor, drive and reclaim dial rotation by belt and belt pulley, motor speed is fixed, and the speed that waste film band produces is determined by speed on manufacturing line, and remains unchanged, along with the waste material of rolling on movable reel increases, reclaim rotating disk radius and increase, the rotating speed of rotating disk cannot change, and makes film side material strip twine tighter and tighter, finally cause fracture, consequent unbalance stress has also increased mechanical wear.

Summary of the invention

The technical matters that the present invention mainly solves is to provide a kind of thin film leftover material on-line synchronous regenerative apparatus, not demand motive motor, realize and synchronize thin film leftover material recovery with manufacturing line by the power of wrap-up drive roll on manufacturing line, the thin film leftover material reclaiming can directly drop into packing or the winding of packaging production line for small-size product, improves the degree of utilization of once producing film product; Can automatically control Scroll rotating speed, guarantee to synchronize with film-making machine speed of production.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: a kind of thin film leftover material on-line synchronous regenerative apparatus is provided, be applied to manufacturing line and with manufacturing line on wrap-up drive roll cooperating collect thin film leftover material, described thin film leftover material on-line synchronous regenerative apparatus comprises base, rolling-up mechanism, transmission device and at least one spring, and described rolling-up mechanism and transmission device are arranged on described base; Described rolling-up mechanism comprises Scroll, described transmission device comprises initiatively roller, driven wheel and roller connecting rod, described active roller and driven wheel are arranged on respectively the two ends of described roller connecting rod, between described active roller and driven wheel, be connected by driving chain or cog belt driving type, described active roller is near described drive roll, described driven wheel is near described Scroll, the connection location of the first end of described spring is relative with the position of described base constant, and the second end of described spring is connected on described rolling-up mechanism or transmission device.

In a preferred embodiment of the present invention, between the central symmetry axis of described drive roll, the central symmetry axis of Scroll, the active central symmetry axis of roller and the central symmetry axis of driven wheel, be parallel to each other.

In a preferred embodiment of the present invention, described rolling-up mechanism further comprises Scroll support, and described Scroll frame bottom is connected with base, and top is connected with described Scroll is movable; Described transmission device further comprises initiatively wheel bracket and driven wheel support, the bottom of described active wheel bracket and driven wheel support is connected with described base respectively, the top of described active wheel bracket is connected with the first end of roller connecting rod, wherein, described active wheel bracket is near described active roller, and described driven wheel support is near described driven wheel.

In a preferred embodiment of the present invention, described active wheel bracket and driven wheel support are can reduction support, the bottom of described active wheel bracket is fixedly connected with described base, the bottom of described driven wheel support is connected with described base is movable, and the top of described driven wheel support is connected with the second end of described roller connecting rod.

In a preferred embodiment of the present invention, described spring comprises the first spring and the second spring, described the first spring housing is on described active wheel bracket, described the second spring housing is on described driven wheel support, the first end of described the first spring and the second spring is fixedly connected with base respectively, the second end of the first spring is connected with the first end of described roller connecting rod, and the second end of the second spring is connected with the second end of described roller connecting rod, and described the first spring and the second spring are in compressive state.

In a preferred embodiment of the present invention, the bottom of described active wheel bracket is connected with base is movable, and the bottom of described driven wheel support is fixedly connected with base.

In a preferred embodiment of the present invention, described spring comprises the first spring and the second spring, and the first end of described the first spring is connected with described active wheel bracket, and the second end is connected with base; The first end of described the second spring is connected with described roller connecting rod, and the second end props up top of the trellis with driven wheel and is connected, and the first spring and the second spring are all in extended state.

In a preferred embodiment of the present invention, the first end of described the first spring is less than the first end of described the first spring to the distance of active wheel bracket bottom to the distance at active wheel bracket top; The first end of described the second spring is greater than the first end of described the second spring to the distance of described driven wheel to the distance of described active roller.

In a preferred embodiment of the present invention, the second end of described the first spring equals the second end of described the first spring to the distance of described active wheel bracket bottom and the distance sum of described active wheel bracket bottom and driven wheel frame bottom support to the distance of described driven wheel frame bottom.

In a preferred embodiment of the present invention, the bottom of described active wheel bracket and driven wheel support is fixedly connected with described base respectively, the top of described driven wheel support is connected with the second end of described roller connecting rod, described Scroll frame bottom is connected with base is movable, the first end of described spring is connected with described Scroll support, the second end is connected with base, the distance that the first end of described spring props up top of the trellis to Scroll is less than the first end of described spring to the distance of Scroll frame bottom, and described spring is in extended state.

The invention has the beneficial effects as follows: not demand motive motor, realize and synchronize thin film leftover material recovery with manufacturing line by the power of wrap-up drive roll on manufacturing line, the thin film leftover material reclaiming can directly drop into packing or the winding of packaging production line for small-size product, improves the degree of utilization of once producing film product; Can automatically control Scroll rotating speed, guarantee to synchronize with film-making machine speed of production.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing, wherein:

Fig. 1 is the structural representation of a preferred embodiment of the present invention;

Fig. 2 is the structural representation of another preferred embodiment of the present invention;

Fig. 3 is the structural representation of another preferred embodiment of the present invention.

In accompanying drawing, the mark of each parts is as follows: 1, drive roll; 2, thin film leftover material; 3, base; 4, rolling-up mechanism; 401, Scroll; 402, Scroll support; 5, transmission device; 501, active roller; 502, driven wheel; 503, roller connecting rod; 504, active wheel bracket; 505, driven wheel support; 6, spring; 7, driving chain or cog belt.

The specific embodiment

To the technical scheme in the embodiment of the present invention be clearly and completely described below, obviously, described embodiment is only a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making all other embodiment that obtain under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1 to Fig. 3, the present invention includes:

A kind of thin film leftover material on-line synchronous regenerative apparatus, be applied to manufacturing line and with manufacturing line on wrap-up drive roll 1 cooperating collect thin film leftover material 2, described thin film leftover material on-line synchronous regenerative apparatus comprises base 3, rolling-up mechanism 4, transmission device 5 and at least one spring 6, and described rolling-up mechanism 4 and transmission device 5 are arranged on described base 3; Described rolling-up mechanism 4 comprises Scroll 401, described transmission device 5 comprises initiatively roller 501, driven wheel 502 and roller connecting rod 503, described active roller 501 and driven wheel 502 are arranged on respectively the two ends of described roller connecting rod 503, between described active roller 501 and driven wheel 502, be connected by driving chain or cog belt 7 driving types, rotate with identical linear velocity.

Described active roller 501 is near described drive roll 1, and described driven wheel 502 is near described Scroll 401.The connection location of the first end of described spring 6 is relative constant with the position of described base 3, and the second end of described spring 6 is connected on described rolling-up mechanism 4 or transmission device 5, and described spring 6 can make driven wheel 502 near described Scroll 401.

Wherein, between the central symmetry axis of the central symmetry axis of described drive roll 1, Scroll 401, the initiatively central symmetry axis of roller 501 and the central symmetry axis of driven wheel 502, be parallel to each other.

Described rolling-up mechanism 4 further comprises Scroll support 402, and described Scroll support 402 bottoms are connected with base 3, top and described movable connection of Scroll 401; Described transmission device 5 further comprises initiatively wheel bracket 504 and driven wheel support 505, the bottom of described active wheel bracket 504 and driven wheel support 505 is connected with described base 3 respectively, the top of described active wheel bracket 504 is connected with the first end of roller connecting rod 503, wherein, described active wheel bracket 504 is near described active roller 501, and described driven wheel support 505 is near described driven wheel 502.

The present invention includes following three embodiment:

Embodiment mono-:

Described active wheel bracket 504 and driven wheel support 505 are can reduction support, the bottom of described active wheel bracket 504 is fixedly connected with described base 3, the bottom of described driven wheel support 505 is connected with the second end of described roller connecting rod 503 with described movable connection of base 3, the top of described driven wheel support 505.

Described spring 6 comprises the first spring and the second spring, described the first spring housing is on described active wheel bracket 504, described the second spring housing is on described driven wheel support 505, the first end of described the first spring and the second spring is fixedly connected with base 3 respectively, the second end of the first spring is connected with the first end of described roller connecting rod 503, the second end of the second spring is connected with the second end of described roller connecting rod 503, and described the first spring and the second spring are in compressive state.

Due to described active wheel bracket 504 and driven wheel support 505 are can reduction support, length can regulate by spring 6, the tension force of the first spring and the second spring can make described driven wheel 502 always near described Scroll 401 edges, and described active roller 501 is always near described drive roll 1 edge.

Embodiment bis-:

The bottom of described active wheel bracket 504 is connected with base 3 is movable, and the bottom of described driven wheel support 505 is fixedly connected with base 3.

Described spring 6 comprises the first spring and the second spring, and the first end of described the first spring is connected with described active wheel bracket 504, and the second end is connected with base 3; The first end of described the second spring is connected with described roller connecting rod 503, and the second end is connected with driven wheel support 505 tops, and the first spring and the second spring are all in extended state.

The first end of described the first spring is less than the first end of described the first spring to the distance of active wheel bracket 504 bottoms to the distance at active wheel bracket 504 tops; The first end of described the second spring is greater than the first end of described the second spring to the distance of described driven wheel 502 to the distance of described active roller 501.

The second end of described the first spring equals the second end of described the first spring to the distance of described active wheel bracket 504 bottoms and the distance sum of described active wheel bracket 504 bottoms and driven wheel support 505 bottom brackets to the distance of described driven wheel support 505 bottoms.

Because bottom and the roller connecting rod 503 of described active wheel bracket 504 can be movable, the pulling force of the first spring and the second spring can make described driven wheel 502 always near described Scroll 401 edges, and described active roller 501 is always near described drive roll 1 edge.

Embodiment tri-:

The bottom of described active wheel bracket 504 and driven wheel support 505 is fixedly connected with described base 3 respectively, the top of described driven wheel support 505 is connected with the second end of described roller connecting rod 503, described Scroll support 402 bottoms are connected with base 3 is movable, the first end of described spring 6 is connected with described Scroll support 402, the second end is connected with base 3, the first end of described spring 6 is less than the first end of described spring 6 to the distance of Scroll support 402 bottoms to the distance at Scroll support 402 tops, and described spring 6 is in extended state.

Because the bottom of described Scroll support 402 can be movable, the pulling force of described spring can make described Scroll 401 edges near described driven wheel 502.

The present invention is demand motive motor not, realize and synchronize thin film leftover material 2 with manufacturing line and reclaim by the power of wrap-up drive roll 1 on manufacturing line, the thin film leftover material 2 reclaiming can directly drop into packing or the winding of packaging production line for small-size product, improves the degree of utilization of once producing film product; Can automatically control Scroll 401 rotating speeds, guarantee to synchronize with film-making machine speed of production.

The foregoing is only embodiments of the invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes description of the present invention to do; or be directly or indirectly used in other relevant technical field, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a thin film leftover material on-line synchronous regenerative apparatus, be applied to manufacturing line and with manufacturing line on wrap-up drive roll (1) cooperating collect thin film leftover material (2), it is characterized in that, described thin film leftover material on-line synchronous regenerative apparatus comprises base (3), rolling-up mechanism (4), transmission device (5) and at least one spring (6), and described rolling-up mechanism and transmission device are arranged on described base, described rolling-up mechanism comprises Scroll (401), described transmission device comprises initiatively roller (501), driven wheel (502) and roller connecting rod (503), described active roller and driven wheel are arranged on respectively the two ends of described roller connecting rod, between described active roller and driven wheel, be connected by driving chain or cog belt (7) driving type, described active roller is near described drive roll, described driven wheel is near described Scroll, the connection location of the first end of described spring is relative with the position of described base constant, the second end of described spring is connected on described rolling-up mechanism or transmission device.

2. thin film leftover material on-line synchronous regenerative apparatus according to claim 1, is characterized in that, between the central symmetry axis of described drive roll, the central symmetry axis of Scroll, the active central symmetry axis of roller and the central symmetry axis of driven wheel, is parallel to each other.

3. thin film leftover material on-line synchronous regenerative apparatus according to claim 1, is characterized in that, described rolling-up mechanism further comprises Scroll support (402), and described Scroll frame bottom is connected with base, and top is connected with described Scroll is movable; Described transmission device further comprises initiatively wheel bracket (504) and driven wheel support (505), the bottom of described active wheel bracket and driven wheel support is connected with described base respectively, the top of described active wheel bracket is connected with the first end of roller connecting rod, wherein, described active wheel bracket is near described active roller, and described driven wheel support is near described driven wheel.

4. thin film leftover material on-line synchronous regenerative apparatus according to claim 3, it is characterized in that, described active wheel bracket and driven wheel support are can reduction support, the bottom of described active wheel bracket is fixedly connected with described base, the bottom of described driven wheel support is connected with described base is movable, and the top of described driven wheel support is connected with the second end of described roller connecting rod.

5. thin film leftover material on-line synchronous regenerative apparatus according to claim 4, it is characterized in that, described spring comprises the first spring and the second spring, described the first spring housing is on described active wheel bracket, described the second spring housing is on described driven wheel support, the first end of described the first spring and the second spring is fixedly connected with base respectively, the second end of the first spring is connected with the first end of described roller connecting rod, the second end of the second spring is connected with the second end of described roller connecting rod, and described the first spring and the second spring are in compressive state.

6. thin film leftover material on-line synchronous regenerative apparatus according to claim 3, is characterized in that, the bottom of described active wheel bracket is connected with base is movable, and the bottom of described driven wheel support is fixedly connected with base.

7. thin film leftover material on-line synchronous regenerative apparatus according to claim 6, is characterized in that, described spring comprises the first spring and the second spring, and the first end of described the first spring is connected with described active wheel bracket, and the second end is connected with base; The first end of described the second spring is connected with described roller connecting rod, and the second end props up top of the trellis with driven wheel and is connected, and the first spring and the second spring are all in extended state.

8. thin film leftover material on-line synchronous regenerative apparatus according to claim 7, is characterized in that, the first end of described the first spring is less than the first end of described the first spring to the distance of active wheel bracket bottom to the distance at active wheel bracket top; The first end of described the second spring is greater than the first end of described the second spring to the distance of described driven wheel to the distance of described active roller.

9. thin film leftover material on-line synchronous regenerative apparatus according to claim 8, it is characterized in that, the second end of described the first spring equals the second end of described the first spring to the distance of described active wheel bracket bottom and the distance sum of described active wheel bracket bottom and driven wheel frame bottom support to the distance of described driven wheel frame bottom.

10. thin film leftover material on-line synchronous regenerative apparatus according to claim 3, it is characterized in that, the bottom of described active wheel bracket and driven wheel support is fixedly connected with described base respectively, the top of described driven wheel support is connected with the second end of described roller connecting rod, described Scroll frame bottom is connected with base is movable, the first end of described spring is connected with described Scroll support, the second end is connected with base, the distance that the first end of described spring props up top of the trellis to Scroll is less than the first end of described spring to the distance of Scroll frame bottom, described spring is in extended state.

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