CN213622728U - Winding mechanism of non-setting adhesive trademark die cutting machine - Google Patents

Abstract

The application relates to a winding mechanism of a non-setting adhesive trademark die-cutting machine, which comprises a rack, wherein a main material winding mechanism and a waste material winding mechanism are arranged on the rack, the main material winding mechanism comprises a main winding shaft arranged on the rack, and the main winding shaft is driven to rotate by a driving mechanism; the waste material winding mechanism comprises a waste material active winding shaft and at least one secondary winding shaft, the waste material active winding shaft drives the waste material active winding shaft to rotate through a waste material winding driving mechanism, and the secondary winding shaft drives the secondary winding shaft to rotate through a winding driving mechanism. Drive waste material rolling axle through waste material rolling actuating mechanism and rotate the rolling that carries out the waste material, can separate the waste material from the shear mark material well, guaranteed the quality of the finished product material of rolling, simultaneously through setting up at least one secondary rolling axle, if the waste material is broken in the rolling, the waste material then can drop to secondary rolling epaxially, prevent that the waste material from falling into the finished product material on, cause the quality problem, second rolling axle drives the waste material and continues the rolling simultaneously, guaranteed that the production line does not shut down.

Description

Winding mechanism of non-setting adhesive trademark die cutting machine

Technical Field

The application relates to the technical field of material rolling, in particular to a rolling mechanism of a non-setting adhesive trademark die-cutting machine.

Background

The current die cutting process is the most commonly used process for packaging printed matters, namely, the forming process of combining a die cutting plate by a die cutting knife according to patterns of product design requirements and rolling and cutting the printed matters or other ring-packed blanks into required shapes or cutting marks under the action of pressure.

Present non-setting adhesive trade mark cross cutting machine is when carrying out non-setting adhesive trade mark cross cutting, need roll up material process blowing, cross cutting, processes such as rolling, when the rolling, need separate waste material and finished product material on the cut mark material after the cross cutting, that is to say need separate the rolling with finished product material and waste material, because the width of waste material is less, leads to the waste material to be broken easily when the rolling, if by the broken back, the waste material can paste on the finished product material to influence the quality of finished product material.

SUMMERY OF THE UTILITY MODEL

The utility model provides a winding mechanism of non-setting adhesive trade mark cross cutting machine for solve at the in-process of rolling, the problem that the finished product material was influenced to the waste material snap easily.

In order to achieve the purpose, the method adopted by the application is as follows: a winding mechanism of a non-setting adhesive trademark die-cutting machine comprises a rack, wherein a main material winding mechanism and a waste material winding mechanism are arranged on the rack, the main material winding mechanism comprises a main winding shaft arranged on the rack, and the main winding shaft is driven to rotate by a driving mechanism; the waste material winding mechanism comprises a waste material active winding shaft and at least one secondary winding shaft, the waste material active winding shaft drives the waste material active winding shaft to rotate through a waste material winding driving mechanism, and the secondary winding shaft also drives the secondary winding shaft to rotate through a winding driving mechanism.

Through the technical scheme, adopt actuating mechanism to drive main rolling axle and rotate the rolling that carries out the finished product material, drive waste material rolling axle through waste material rolling actuating mechanism and rotate the rolling that carries out the waste material, can separate the waste material from the shear mark material well, the quality of the finished product material of rolling has been guaranteed, simultaneously through setting up at least one secondary rolling axle, if the waste material is broken in the rolling, the waste material then can drop to the secondary rolling epaxially, because the one end of waste material is viscidity, can glue on the second rolling axle, prevent that the waste material from falling into the finished product material, cause quality problems, second rolling axle drives its rotation through a rolling actuating mechanism simultaneously, second rolling axle also can drive the waste material and continue the rolling like this, it need not shut down to have guaranteed the production line like this.

Optionally, the secondary winding shaft is arranged at a position below the waste active winding shaft.

Through above-mentioned technical scheme, set up secondary rolling axle in the below position of waste material initiative rolling axle, set up like this, when the waste material is broken, fall into on the secondary rolling axle easily.

Optionally, the waste winding driving mechanism is a waste winding motor, and the waste winding motor drives the secondary winding shaft to rotate through a chain wheel and a chain.

Through above-mentioned technical scheme, drive waste material initiative rolling axle and secondary rolling axle respectively through waste material rolling motor and rotate, such mode can guarantee that the transmission is synchronous between waste material initiative rolling axle and the secondary rolling axle, has also practiced thrift the motor simultaneously.

Optionally, a positioning rod is further disposed on the rack, the positioning rod is parallel to the main winding shaft, and the positioning rod is provided with scale marks; the positioning rod is further provided with a positioning sliding block, the positioning sliding block can slide and be locked on the positioning rod, the positioning sliding block is further provided with a positioning baffle, one end of the positioning baffle is arranged on the positioning sliding block, and the other end of the positioning baffle extends towards the main winding shaft and is used for limiting a material coil on the main winding shaft.

According to the technical scheme, the positioning rod is arranged, the scale marks are arranged on the positioning rod, the positioning sliding block is arranged on the positioning rod, the positioning baffle extending to the main winding shaft is arranged on the positioning sliding block, the material roll to be wound can be positioned through the positioning baffle, the material roll in the material collecting process corresponds to the material roll in the material discharging process, and the winding accuracy of finished materials is improved; meanwhile, the positioning baffle plate is used for positioning the position of the material roll only by abutting one end of the material roll against the positioning baffle plate during winding, so that the mounting speed of an empty material roll is effectively improved; through the location slider slip and locking on the locating lever, can be according to the demand of the material of different width book, the removal location slider just so can adjust the position of location baffle.

Optionally, an avoiding groove is formed in the positioning baffle plate, and the avoiding groove is sleeved on the main winding shaft.

Through above-mentioned technical scheme, dodge the groove through setting up, will mainly roll the axle and set up to dodge the inslot, can be convenient for like this roll up and fix a position after conflicting with the location baffle with the biggest distribution of area of location baffle in main rolling axle department.

Optionally, the main winding shaft is an inflatable shaft.

Through above-mentioned technical scheme, adopt an physiosis axle with main rolling axle, when the time of needs rolling after, will empty the material book cover on the physiosis axle, then start switch, physiosis axle bloated to open and to press from both sides tightly the hole material book, its is fast, efficient.

Optionally, the positioning baffle is formed by hinging a first baffle and a second baffle, wherein a half groove body is respectively arranged on the first baffle and the second baffle, and the two half groove bodies form an avoiding groove.

Through above-mentioned technical scheme, set the positioning baffle to first baffle and articulated constitution of second baffle, respectively be provided with a half cell body on first baffle and the second baffle, two half cell bodies constitute one and dodge the groove, in the positioning baffle installation, only need rotate first baffle and second baffle and can set up main rolling axle and dodge the inslot, improved the convenience of positioning baffle installation.

Optionally, the positioning sliding block is sleeved on the positioning rod, the positioning rod is provided with a locking groove, fixing holes are uniformly distributed in the locking groove, and the positioning sliding block is provided with a locking screw hole.

Through the technical scheme, the positioning sliding block slides on the positioning rod, and the positioning sliding block is locked in the fixing hole in the locking groove through the locking bolt, so that the positioning sliding block can be moved and locked.

Optionally, the distance between the positioning rod and the main winding shaft is adjustable.

Through above-mentioned technical scheme, through adjusting the distance between locating lever and the main rolling axle, the position of adjusting the locating lever can be selected to the thickness of rolling as required, has guaranteed not to take place to interfere between the material book on locating lever and the main rolling axle.

Optionally, a guide groove is formed in the rack, the positioning rod is arranged in the guide groove through a sliding block, a lead screw is further arranged in the guide groove, the lead screw is connected with the sliding block, and the lead screw rotates to drive the sliding block to move in the guide groove.

Through the technical scheme, the sliding block can be driven to move in the guide groove through the rotation of the screw rod, so that the positioning rod is driven to adjust the position, and the distance between the positioning rod and the main winding shaft is adjusted.

In summary, the present application includes at least one of the following beneficial technical effects:

1. this application adopts actuating mechanism to drive main rolling axle and rotates the rolling that carries out the finished product material, drive waste material rolling axle through waste material rolling actuating mechanism and rotate the rolling that carries out the waste material, can separate the waste material from the shear mark material well, the quality of the finished product material of rolling has been guaranteed, simultaneously through setting up at least one secondary rolling axle, if the waste material is broken in the rolling, the waste material then can drop to the secondary rolling epaxially, because the one end of waste material is viscidity, can glue on the second rolling axle, prevent that the waste material from falling into the finished product material, cause the quality problems, second rolling axle drives its rotation through a rolling actuating mechanism simultaneously, second rolling axle also can drive the waste material and continue the rolling like this, it need not shut down to have guaranteed the production line like this.

2. According to the waste material active winding device, the secondary winding shaft is arranged below the waste material active winding shaft, so that when the waste material is broken by pulling, the waste material is easy to fall onto the secondary winding shaft; the waste material winding motor drives the waste material active winding shaft and the secondary winding shaft to rotate respectively, so that the waste material active winding shaft and the secondary winding shaft can be synchronously driven, and the motor is saved.

3. By arranging the positioning rod, arranging the scale marks on the positioning rod, arranging the positioning slide block on the positioning rod and arranging the positioning baffle plate extending to the main winding shaft on the positioning slide block, the material roll to be wound can be positioned through the positioning baffle plate, the material roll position in the material collecting process is ensured to correspond to the material roll position in the material discharging process, and the winding accuracy of finished materials is improved; meanwhile, the positioning baffle plate is used for positioning the position of the material roll only by abutting one end of the material roll against the positioning baffle plate during winding, so that the mounting speed of the material roll is effectively improved; through the location slider slide and locking on the locating lever, can remove the slider according to the demand of the material of the volume of different width, just so can adjust the position of location baffle.

4. This application can drive the slider through the rotation of lead screw and remove in the guide slot to drive the locating lever and carry out the regulation of position, thereby adjust the distance between locating lever and the main rolling axle, the maximum thickness that can the material of rolling as required selects the position of adjusting the locating lever, has guaranteed that rolling in-process locating lever and material are rolled up and are not taken place to interfere between.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present application.

Fig. 2 is a schematic structural view of the positioning rod of the present application.

Fig. 3 is a schematic structural diagram of a waste winding mechanism according to the present application.

Fig. 4 is a schematic structural diagram of the winding mechanism of the present application during winding.

Fig. 5 is a schematic structural diagram of embodiment 2 of the present application.

The reference number indicates that 1, a positioning slide block, 2 and a positioning baffle plate; 3. fixing the disc; 4. a primary wind-up shaft; 5. a bearing seat; 6. a winding motor; 7. an avoidance groove; 8. a waste material winding mechanism; 9. a pressure regulating roller; 10. a first traction mechanism; 11. a frame; 12. positioning a rod; 13. a locking groove; 14. a fixing hole; 15. a second traction mechanism; 16. cutting a trace material; 17. waste materials; 18. finished product materials; 19. a screw rod; 20. a guide groove; 21. a rocking handle; 201. a first baffle plate; 202. a second baffle; 801. a waste material winding motor; 802. a chain; 803. a sprocket; 804. a connecting plate; 805. a mounting frame; 806. a second secondary wind-up shaft; 807. a first secondary wind-up shaft; 808. the waste material initiatively rolls up the shaft.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Example 1:

referring to fig. 1 and 2, the embodiment of the application discloses a winding mechanism of a non-setting adhesive trademark die-cutting machine, which comprises a rack 11, wherein a main material winding mechanism and a waste material winding mechanism 8 are arranged on the rack 11. The main material winding mechanism comprises a main winding shaft 4 arranged on the rack, the main winding shaft 4 is arranged on the rack 11 through a bearing seat 5 and drives the main winding shaft 4 to rotate through a winding motor 6, and the main winding shaft 4 adopts an inflatable shaft in the embodiment.

The winding machine is characterized in that the rack 11 is further provided with a positioning rod 12, the positioning rod 12 is arranged at a position close to the main winding shaft 4, the positioning rod 12 is arranged in parallel with the main winding shaft 4, one end of the positioning rod 12 is connected with a fixed disc 3, the fixed disc 3 is fixed on the rack 11 through screws, and the other end of the positioning rod 12 is a free end. The positioning rod 12 is provided with scale marks; the positioning rod 12 is further provided with a positioning slider 1, and the positioning slider 1 is fitted from the free end of the positioning rod 12 and is slidable on the positioning rod 12.

Referring to fig. 1 and 2, a locking groove 13 is further formed in the positioning rod 12, fixing holes 14 are uniformly distributed in the locking groove 13, a locking screw hole is formed in the positioning slider 1, and the positioning slider 1 is fixed with the fixing holes 14 in the locking groove 13 through locking screws to complete locking of the positioning slider 1.

Continuing to refer to fig. 1 and 2, a positioning baffle 2 is further arranged on the positioning slider 1, the positioning baffle 2 is formed by hinging a first baffle 201 and a second baffle 202, the first baffle 201 and the second baffle 202 are of a symmetrical structure, a half groove body is arranged on the first baffle 201, a half groove body is also arranged on the second baffle 202, the first baffle 201 and the second baffle 202 rotate along a hinge shaft in opposite directions, the half groove body on the first baffle 201 and the half groove body on the second baffle can be shifted to the main winding shaft 4, the half groove body on the first baffle 201 and the half groove body on the second baffle 72 can form an avoiding groove 7, the avoiding groove 7 is a waist-shaped groove, and the avoiding groove 7 of the waist-shaped is sleeved on the main winding shaft 4.

Referring to fig. 2, the first barrier 201 and the second barrier 202 are reversely rotated about the hinge shaft, so that the first barrier 201 and the second barrier 202 can be detached from the primary winding shaft 4. Thus, when the positioning baffle 2 is not needed to be positioned, the first baffle 201 and the second baffle 202 can be separated from the main winding shaft 4 only by rotating the first baffle 201 and the second baffle 202 in opposite directions.

Referring to fig. 1 and 3, the waste material winding mechanism 8 includes an installation frame 805, the installation frame 805 is fixed on the rack 11, a waste material active winding shaft 808 is arranged on the installation frame 805, the waste material active winding shaft 808 drives the waste material winding motor 801 to rotate, a first secondary winding shaft 807 and a second secondary winding shaft 806 are further arranged on the installation frame 11, the first secondary winding shaft 807 and the second secondary winding shaft 806 are both fixed on the installation frame 11 through a connection plate 804, the heights of the waste material active winding shaft 808, the first secondary winding shaft 807 and the second secondary winding shaft 806 are gradually reduced in the vertical direction, and the distances between the waste material active winding shaft 808, the first secondary winding shaft 807 and the second secondary winding shaft 806 and the main winding shaft 4 are gradually increased in the horizontal direction. The scrap winder 801 further drives the first rewinding shaft 807 and the second rewinding shaft 806 to rotate through the sprocket 803 and the chain 802.

The working process of the embodiment is as follows:

referring to fig. 1 and 4, in the winding process, after the die-cut kerf materials 16 pass through a first traction mechanism 10 and an adjustable compression roller 9, the waste materials 17 and the finished product materials 18 are separated, the waste materials 17 are wound through a waste material active winding shaft 808, and the finished product materials 18 are sent to a main winding shaft 4 through a second traction mechanism 15 to be wound.

When the waste material 17 is wound, the waste material active winding shaft 808 is sleeved with an empty material coil, the waste material 17 is wound through the empty material coil, the empty material coil is sleeved on the first secondary winding shaft 807 and the second secondary winding shaft 806, and when the waste material active winding shaft 808 is wound, the waste material 17 is not in contact with the first secondary winding shaft 807 and the second secondary winding shaft 806. If the scrap 17 is broken during the winding of the scrap 17, the scrap 17 falls onto the first secondary winding shaft 807 or the second secondary winding shaft 806 according to the position of the fracture, and since one side of the scrap 17 is sticky, the scrap adheres to the first secondary winding shaft 807 or the second secondary winding shaft 806, and continues to be wound by the first secondary winding shaft 807 or the second secondary winding shaft 806.

When the main winding shaft 4 winds, firstly, the positioning slide block 1 slides to a set position according to the position of a material coil during discharging, and the positioning slide block 1 is locked. Then, the first baffle plate 201 and the second baffle plate 202 are rotated in opposite directions, and the half groove bodies on the first baffle plate 201 and the half groove bodies on the second baffle plate 202 are rotated to the main winding shaft 4, so that the two half groove bodies form a waist-shaped avoiding groove 7, and the arrangement of the positioning baffle plate 2 is completed. Then an empty material roll is loaded on the main winding shaft 4, one end of the empty material roll is abutted against the positioning baffle plate 2 and is expanded through the main winding shaft 4 to clamp the empty material roll, then the finished product material 18 is wound on the main winding shaft 4, and the winding motor 6 is started to wind the finished product material 18. After a material is completely wound, the main winding shaft 4 releases the finished material roll after the material is completely wound, and the finished material roll is taken down. And then, winding the next roll, wherein the positioning slide block 1 does not need to be adjusted as long as the discharging part is the material with the same specification.

Example 2:

the embodiment is the same as the rest of the structure of the embodiment 1, except that in the embodiment, in order to prevent the winding, the thickness of the material roll is large, so that the interference between the material roll and the positioning rod 12 is caused.

The mounting structure of the positioning rod 12 is specifically:

referring to fig. 5, the back of the fixed disk 3 connected with one end of the positioning rod 12 is provided with a sliding block, a guide groove 20 is arranged on the rack 11, the sliding block is arranged in the guide groove 20, a screw rod 19 is further arranged in the guide groove 20, the screw rod 19 is connected with the sliding block, the screw rod 19 rotates to drive the sliding block to move in the guide groove 20, one end of the screw rod 19 extending out of the guide groove 20 is further connected with a rocking handle 21, the positioning rod 12 can be driven to move along the direction of the guide groove 20 by rotating the rocking handle 21, the positioning rod 12 moves to drive the positioning baffle 2 to move, and the avoidance groove 7 on the positioning baffle 2 is a waist-shaped groove, so that the positioning baffle 2 cannot interfere with the main winding shaft 4 when moving.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a winding mechanism of non-setting adhesive trade mark cross cutting machine, includes frame (11), its characterized in that: a main material winding mechanism and a waste material winding mechanism (8) are arranged on the rack (11), the main material winding mechanism comprises a main winding shaft (4) arranged on the rack (11), and the main winding shaft (4) is driven to rotate by a driving mechanism; the waste material rolling mechanism (8) comprises a waste material active rolling shaft (808) and at least one secondary rolling shaft, the waste material active rolling shaft (808) drives the waste material active rolling shaft to rotate through a waste material rolling driving mechanism, and the secondary rolling shaft also drives the secondary rolling shaft to rotate through a rolling driving mechanism.

2. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 1, which is characterized in that: the secondary winding shaft is arranged at the position below the waste active winding shaft (808).

3. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 2, characterized in that: the waste material rolling driving mechanism is a waste material rolling motor (801), and the waste material rolling motor (801) drives the secondary rolling shaft to rotate through a chain wheel (803) and a chain (802).

4. The winding mechanism of the pressure-sensitive adhesive trademark die-cutting machine according to claim 1 or 2, which is characterized in that: a positioning rod (12) is further arranged on the rack (11), the positioning rod (12) is arranged in parallel with the main winding shaft (4), and scale marks are arranged on the positioning rod (12); the positioning rod (12) on still be provided with location slider (1), location slider (1) can locating rod (12) on slide and lock location slider (1) on still be provided with a location baffle (2), location baffle (2) one end set up location slider (1) on, the other end to main rolling axle (4) department extend for the material is rolled up spacingly on main rolling axle (4).

5. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 4, characterized in that: an avoiding groove (7) is formed in the positioning baffle (2), and the avoiding groove (7) is sleeved on the main winding shaft (4).

6. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 5, characterized in that: the main winding shaft (4) is an inflatable shaft.

7. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 5, characterized in that: the positioning baffle (2) is formed by hinging a first baffle (201) and a second baffle (202), wherein the first baffle (201) and the second baffle (202) are respectively provided with a half groove body, and the two half groove bodies form an avoiding groove (7).

8. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 5, characterized in that: the positioning slide block (1) is sleeved on the positioning rod (12), a locking groove (13) is formed in the positioning rod (12), fixing holes (14) are uniformly distributed in the locking groove (13), and a locking screw hole is formed in the positioning slide block (1).

9. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 4, characterized in that: the distance between the positioning rod (12) and the main winding shaft (4) is adjustable.

10. The winding mechanism of the non-setting adhesive trademark die cutting machine according to claim 9, characterized in that: the automatic positioning device is characterized in that a guide groove (20) is formed in the rack (11), the positioning rod (12) is arranged in the guide groove (20) through a sliding block, a screw rod (19) is further arranged in the guide groove (20), the screw rod (19) is connected with the sliding block, and the screw rod (19) rotates to drive the sliding block to move in the guide groove (20).

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