CN214298562U - Rotary film supply mechanism for heat transfer film slitting equipment - Google Patents

Abstract

The utility model discloses a gyration is supplied membrane mechanism for equipment is cut to heat-transfer die cuts and is equipped with material supply membrane roll portion around the bottom of rolling up mechanism, and the membrane material carries the bench to be equipped with the membrane material revolving axle, and cuts material separating mechanism, cuts material separating mechanism including setting up at the fixed clamp plate seat of membrane material transport table discharge end one side, and the removal clamp plate seat that possesses linear displacement on the membrane material transport table, fixed clamp plate seat is equipped with cutting knife portion towards one side that moves the clamp plate seat. The utility model discloses a mode of gyration feed satisfies the integrated demand of cutting around rolling up on the mechanism of feed membrane book portion for loading and unloading material homonymy has reduced loading and unloading material running cost, practices thrift the reloading time. Through cutting material separating mechanism design, can realize satisfying protection film concatenation demand to the separation of deciding of heat-transfer die, need not the manual work and carry out the protection film coiling, through the forward and reverse drive design of feeding membrane roll portion, can realize deciding the tension control of separation back feeding membrane, prevent effectively that the coating material from hanging down.

Description

Rotary film supply mechanism for heat transfer film slitting equipment

Technical Field

The utility model relates to a membrane mechanism is supplied in gyration for equipment is cut to heat-transfer die belongs to the rotation and supplies the technical field of membrane concatenation feed.

Background

The thermal transfer film is a medium material of a thermal transfer process. In the production process, the heat transfer printing film is wound by a reel, and according to different axial size requirements, the reel heat transfer printing film needs to be unreeled, cut and wound into a finished reel product.

After the thermal transfer printing film is wound, product protection needs to be carried out on the finished product material roll, namely, the finished product material roll is wound with the protective film, and the protective film has the characteristics of heat insulation, UV resistance and the like, so that the product protection effect is achieved. The tradition equipment of cutting can't realize the protection film cooperation winding, needs the later stage to carry out manual coiling, and the heat-transfer die has various size differences of cutting, hardly satisfies general size demand, can be equipped with the protection film book of a large amount of sizes, and the coiling cost is higher and the cost of prepareeing material is higher. Present heat-transfer die equipment cut and adopt the mode that the front end supplied the membrane, supply the membrane material axle with cut rolling material axle phase separation, and general material is all placed and is cutting rolling material one side, is unfavorable for supplying the loading material of membrane material axle, and the transportation is comparatively loaded down with trivial details, and in addition, traditional confession membrane material axle adopts passive unpowered axle, and it hardly realizes that the heat-transfer die cuts concatenation stroke control.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the not enough of above-mentioned prior art, keeping away from the problem that the operation material is comparatively loaded down with trivial details and the feed axle is unpowered can't realize cutting off the membrane and separate concatenation etc. to traditional feed axle and cut rolling material axle mutually, propose the gyration that is used for the heat-transfer die to cut equipment and supply membrane mechanism.

In order to achieve the above purpose, the utility model discloses the technical scheme who adopts is:

a rotary film supply mechanism for a thermal transfer film slitting device, wherein the thermal transfer film slitting device is sequentially provided with a film material conveying platform, a film material tension control conveying mechanism, a slitting mechanism and a slitting and winding mechanism along the film material supply direction,

the bottom of the slitting and winding mechanism is provided with a material supplying film winding part, the film material conveying platform is provided with a film material rotating shaft and a cutting material separating mechanism arranged between the film material rotating shaft and the film material tension control conveying mechanism,

the material supply of the material supply film roll part is connected to the film material tension control conveying mechanism through the film material rotating shaft and the cutting material separating mechanism,

the cutting material separating mechanism comprises a fixed pressing plate seat arranged on one side of the discharge end of the film material conveying table and a moving pressing plate seat which is arranged on the film material conveying table and has linear displacement, wherein the moving pressing plate seat is arranged between the fixed pressing plate seat and the film material rotating shaft, and a cutting part is arranged on one side, facing the moving pressing plate seat, of the fixed pressing plate seat.

Preferably, the rotation driving source of the feeding film winding part has forward and reverse rotation driving displacement.

Preferably, the bottom of the film material rotating shaft is provided with a tension guide shaft, and the tension guide shaft is in communication connection with the rotary driving source.

Preferably, the bottom of the film material tension control conveying mechanism and the bottom of the splitting mechanism are respectively provided with a guide shaft body.

Preferably, the movable pressure plate seat is provided with a linear displacement drive source, and the movable pressure plate seat is provided with a pressure rising and reducing plate and a drive cylinder.

Preferably, the fixed pressure plate seat is provided with a fixed pressure lifting and lowering plate and a lifting and lowering driving cylinder.

The beneficial effects of the utility model are mainly embodied in that:

1. the rotary feeding mode is adopted, the requirement that the feeding film roll part is integrated on the slitting and winding mechanism is met, the loading and unloading materials are on the same side, the loading and unloading operation cost is reduced, and the material changing time is saved.

2. Through cutting material separating mechanism design, can realize satisfying protection film concatenation demand to the separation of deciding of heat-transfer die, need not the manual work and carry out the protection film coiling, through the forward and reverse drive design of feeding membrane roll portion, can realize deciding the tension control of separation back feeding membrane, prevent effectively that the coating material from hanging down.

3. The whole design is ingenious, and the method is suitable for popularization and application.

Drawings

Fig. 1 is a schematic structural diagram of a rotary film supply mechanism for a thermal transfer film slitting device of the present invention.

Fig. 2 is a schematic structural diagram of the cutting material separation of the rotary film supply mechanism of the heat transfer film slitting device of the present invention.

Detailed Description

The utility model provides a gyration that is used for heat-transfer die to cut equipment supplies membrane mechanism. The technical solution of the present invention will be described in detail below with reference to the accompanying drawings so as to be easier to understand and grasp.

As shown in fig. 1 and 2, the thermal transfer printing slitting device is provided with a film material conveying table 1, a film material tension control conveying mechanism 2, a slitting mechanism 3, and a slitting and winding mechanism 4 in sequence along a film material supply direction.

The bottom of the slitting and winding mechanism 4 is provided with a material feeding film winding part 5, the material feeding film winding part 5 is provided with a rotary driving source, and the film material conveying platform 1 is provided with a film material rotating shaft 6 and a cutting material separating mechanism 7 arranged between the film material rotating shaft 6 and the film material tension control conveying mechanism 2. The material supplied by the material supplying film roll part 5 is connected to the film material tension control conveying mechanism 2 through the film material rotating shaft 6 and the cutting material separating mechanism 7.

The cutting material separating mechanism 7 comprises a fixed pressing plate seat 8 arranged on one side of the discharging end of the film material conveying platform 1 and a movable pressing plate seat 9 which is provided with linear displacement on the film material conveying platform and is arranged between the fixed pressing plate seat and the film material rotating shaft, and a cutting knife part 10 is arranged on one side, facing the movable pressing plate seat, of the fixed pressing plate seat 8.

The specific implementation process and principle description are as follows:

cut around rolling up mechanism 4 and undertaken the carrying demand of cutting material book and feed membrane book portion 5, satisfy feed membrane book portion 5 promptly and cut material book homonymy carrying demand, the unloading operation of being convenient for has reduced the operation human cost.

This ejection of compact of feed membrane roll section 5 inserts membrane material tension control conveying mechanism 2 through membrane material revolving axle 6 and through cutting material separating mechanism 7 for the membrane material can be revolved through the horizontally material separating mechanism 7 that cuts, thereby satisfies the demand of deciding of cutting material separating mechanism 7, can realize reverse rolling simultaneously, and the rotary drive source of feed membrane roll section 5 possesses forward and reverse rotation drive displacement promptly.

When normal slitting operation is carried out, as shown in fig. 1, the movable platen base 9 and the fixed platen base 8 are attached to each other, the platens of the movable platen base 9 and the fixed platen base 8 are both in a release state, and the film material can freely pass through the release state.

When deciding the concatenation operation, the clamp plate that removes clamp plate seat 9 and fixed clamp plate seat 8 in fig. 1 all pushes down, it is fixed with the feed membrane centre gripping, then manual drive cuts out sword portion 10, the supply heat-transfer seal membrane that will remove clamp plate seat 9 and fixed clamp plate seat 8 splice seam is decided, then as shown in fig. 2, remove clamp plate seat 9 and deviate from the displacement of fixed clamp plate seat 8 direction, in step, feed membrane book portion 5 is turned over the book, thereby satisfy the membrane end on the movable clamp plate seat 9 and the membrane end phase separation demand on the fixed clamp plate seat 8, carry out the concatenation of protection film this moment can, the concatenation can be realized manually or with the help of supplementary concatenation equipment.

In one embodiment, the bottom of the film material rotating shaft 6 is provided with a tension guide shaft 11, and the tension guide shaft 11 is connected with a rotary driving source in a communication mode.

The specific implementation process and principle description are as follows:

tension guiding axle 11 is used for the feed tension control of gyration membrane, and when the separation is decided to the appearance, this tension guiding axle 11 can monitor tension and disappear, and the rotary drive source of feed film roll portion 5 at this moment carries out reverse tightening up to make tension guiding axle 11 maintain effective tension, so can satisfy feed tension control demand, prevent that the membrane material from hanging down.

In one embodiment, the bottom of the film material tension control conveying mechanism 2 and the bottom of the slitting mechanism 3 are respectively provided with a guide shaft body 12.

Specifically, the guide shaft body 12 is used for output guidance of the feeding film roll portion 5, and prevents the film material from being hung and affecting tension control, thereby stabilizing film material feeding.

In one embodiment, the moving platen base 9 is provided with a linear displacement drive source, and the moving platen base is provided with a pressure-increasing and-decreasing plate and a drive cylinder. The fixed pressure plate seat is provided with a fixed pressure lifting plate and a lifting driving cylinder.

Referring to fig. 1 and 2, a feeding gap is left between the pressing plate and the bearing table, and when stopping operation is performed, the driving cylinder drives the pressing plate to press down to clamp the film material, so as to lock the film material.

Can discover through the above description, the utility model is used for the gyration of equipment is cut to heat-transfer die supplies membrane mechanism adopts the mode of gyration feed, satisfies the integrated demand of cutting around rolling up on the mechanism of feed membrane book portion for loading and unloading material homonymy has reduced loading and unloading material running cost, practices thrift the time of reloading. Through cutting material separating mechanism design, can realize satisfying protection film concatenation demand to the separation of deciding of heat-transfer die, need not the manual work and carry out the protection film coiling, through the forward and reverse drive design of feeding membrane roll portion, can realize deciding the tension control of separation back feeding membrane, prevent effectively that the coating material from hanging down. The whole design is ingenious, and the method is suitable for popularization and application.

The above technical solutions of the present invention have been fully described, and it should be noted that the present invention is not limited by the above description, and all technical solutions formed by equivalent transformation or equivalent transformation adopted by the spirit of the present invention in the aspects of structure, method or function by those of ordinary skill in the art all fall within the protection scope of the present invention.

Claims (6)

1. A gyration supplies membrane mechanism for equipment is cut to heat-transfer die, equipment is cut to heat-transfer die has set gradually membrane material along membrane material direction of supply and has carried platform, membrane material tension control conveying mechanism, cut the mechanism, cut around rolling up mechanism, its characterized in that:

the bottom of the slitting and winding mechanism is provided with a material supplying film winding part, the film material conveying platform is provided with a film material rotating shaft and a cutting material separating mechanism arranged between the film material rotating shaft and the film material tension control conveying mechanism,

the material supply of the material supply film roll part is connected to the film material tension control conveying mechanism through the film material rotating shaft and the cutting material separating mechanism,

the cutting material separating mechanism comprises a fixed pressing plate seat arranged on one side of the discharge end of the film material conveying table and a moving pressing plate seat which is arranged on the film material conveying table and has linear displacement, wherein the moving pressing plate seat is arranged between the fixed pressing plate seat and the film material rotating shaft, and a cutting part is arranged on one side, facing the moving pressing plate seat, of the fixed pressing plate seat.

2. The rotary film supply mechanism for the thermal transfer film slitting device according to claim 1, characterized in that:

the rotary driving source of the feeding film roll part has forward and reverse rotary driving displacement.

3. The rotary film supply mechanism for the thermal transfer film slitting device according to claim 2, characterized in that:

and the bottom of the film material rotating shaft is provided with a tension guide shaft, and the tension guide shaft is in communication connection with the rotary driving source.

4. The rotary film supply mechanism for the thermal transfer film slitting device according to claim 3, characterized in that:

and guide shaft bodies are respectively arranged at the bottom of the film material tension control conveying mechanism and the bottom of the slitting mechanism.

5. The rotary film supply mechanism for the thermal transfer film slitting device according to claim 1, characterized in that:

the movable pressure plate seat is provided with a linear displacement driving source, and a pressure rising and reducing plate and a driving cylinder are arranged on the movable pressure plate seat.

6. The rotary film supply mechanism for the thermal transfer film slitting device according to claim 1, characterized in that:

and the fixed pressure plate seat is provided with a fixed pressure lifting and lowering plate and a lifting and driving cylinder.

Images