CN113650091A - Static cross cutting machine is prevented to non-setting adhesive label - Google Patents

Abstract

The invention relates to a label anti-static die cutting machine, which relates to the technical field of label die cutting and comprises a rack, a die cutting mechanism, an anti-static mechanism, a cutting mechanism and a coiling mechanism, wherein the anti-static machine is used for carrying out anti-static processing on labels, the die cutting mechanism is used for cutting the labels, the cutting mechanism is used for cutting label coils, the coiling mechanism is used for collecting the cut label coils, the cutting mechanism comprises a cutting motor, a cutting shaft, a cutting ring and a fixing component, the cutting shaft is connected with the cutting motor, the cutting motor is used for driving the cutting shaft to rotate, the cutting ring is sleeved on the cutting shaft, the fixing component is used for fixing the cutting ring on the cutting shaft, and the cutting ring is used for separating and cutting the labels. The label is cut by the cutting ring, so that a larger label is decomposed into two labels with smaller sizes, and the labels are rolled into a smaller label roll under the action of the rolling mechanism, so that the label roll is convenient for processing personnel to carry, and the labor intensity of the processing personnel is reduced.

Description

Static cross cutting machine is prevented to non-setting adhesive label

Technical Field

The invention relates to the field of non-setting adhesive label die cutting technology, in particular to an anti-static die cutting machine for a non-setting adhesive label.

Background

In the middle of work and life today, people often need to use self-adhesive labels to mark required articles in order to distinguish the articles. The self-adhesive label roll comprises a substrate, a silicone oil layer, an adhesive and a surface paper layer, wherein labels are printed on the surface paper layer, a plurality of labels are adhered to the substrate in sequence, and then the labels are cut by a die cutting machine. Then, the label part is connected into a roll by depending on the substrate, and the waste paper part is connected into a roll for collection.

Traditional cross cutting machine for the machining efficiency who improves processing label usually can use great label book, then uses cross cutting machine to carry out the cross cutting to the label on the label book and decomposes for once cross cutting accomplishes the back, can process out a plurality of labels. However, the size of the label roll is large during the processing, and the size of the label roll after the processing is large.

In view of the above-described related art, the inventors have considered that when a worker takes off and carries a label roll from a die cutter, an excessively large label roll increases the labor intensity of the worker, and the worker is inconvenienced with carrying the label roll.

Disclosure of Invention

The invention provides an anti-static label die-cutting machine, which aims to reduce the labor intensity of carrying label rolls by processing personnel.

The invention provides a label anti-static die cutting machine, which adopts the following technical scheme:

the utility model provides a label prevents static cross cutting machine, includes the frame, is located die cutting mechanism in the frame, prevent static mechanism, cutting mechanism and two at least lapping mechanisms, prevent that static mechanism sets up in the frame, prevent static mechanism and be used for preventing static processing to the label, cutting mechanism sets up die cutting mechanism's discharge gate department, die cutting mechanism is used for cutting the label and handles, cutting mechanism is used for rolling up the label and cuts, lapping mechanism is used for collecting the label book after the cutting, cutting mechanism includes cutting motor, cutting shaft, at least one cutting ring and fixed subassembly, the both ends of cutting shaft are rotated and are set up in the frame, the cutting shaft stretches out the one end of frame with the cutting motor is connected, the cutting motor is used for the drive the cutting shaft rotates, the cutting ring overlaps and establishes cutting epaxially, the cutting ring can slide along the cutting shaft, the fixing assembly is used for fixing the cutting ring on the cutting shaft, and the cutting ring is used for separating and cutting labels.

Through adopting above-mentioned technical scheme, during the use, adjust fixed subassembly, it is fixed to remove appointed position department with the cutting ring. Then, adjust the cutting motor, the drive shaft of cutting motor drives the cutting axle and rotates, and the cutting axle drives the cutting ring and rotates. When the label passes through the die-cutting mechanism, the die-cutting mechanism decomposes the label to a desired size. When the label is through preventing static mechanism, prevent that static mechanism prevents static and handle the label, can reduce the static and cause the influence to the cross cutting process of label. When the label passes through the cutting ring, the cutting ring cuts the label and the face paper, the complete label paper is cut into a required size, and then the cut label paper is rolled up under the action of the rolling mechanism to form a new label roll. Through the cutting ring, the label after the die cutting is finished can be cut under the action of the cutting motor, so that a larger label is decomposed into at least two labels with smaller sizes, the label after being divided can be rolled into a smaller label roll under the action of the rolling mechanism, the label roll is convenient for processing personnel to carry, and the labor intensity of the processing personnel to carry the label roll is reduced.

Optionally, the fixing assembly includes at least two fixing plates and a fixing screw, the fixing plates are respectively disposed on two sides of the cutting ring, the fixing screw penetrates through the fixing plates, and the fixing screw is used for fixing the fixing plates on the cutting shaft.

Through adopting above-mentioned technical scheme, when the size that needs to roll up the label was adjusted, adjust fixing screw, then remove the fixed plate, the fixed plate drives the cutting ring and moves. When the cutting ring is moved to the designated position, the fixing screw rod is adjusted, the fixing plate is fixed on the cutting shaft by the fixing screw rod, and then the position of the cutting ring on the cutting shaft is adjusted. The fixed subassembly that sets up can realize that the cutting ring is epaxial fixed in the cutting, is convenient for adjust the position of cutting ring according to the cutting size needs to the label, and then the label of when time mark roll of signing cut into not unidimensional.

Optionally, at least one sliding groove is formed in the cutting shaft along the length direction, at least one sliding block is arranged on the fixing plate, and the sliding block can slide along the sliding groove.

Through adopting above-mentioned technical scheme, the slider of setting can play certain guide effect to the motion of fixed plate under the effect of spout, reduces the cutting ring and takes place to rotate at the in-process of motion, and then makes the cutting ring can follow the spout and move steadily.

Optionally, a graduated scale is arranged on the cutting shaft, and the graduated scale is arranged along the length direction of the cutting shaft.

Through adopting above-mentioned technical scheme, the scale of setting can play certain indicative function to the motion position of cutting ring, and then improves the accuracy of cutting the label.

Optionally, still be provided with butt mechanism in the frame, butt mechanism sets up the below of cutting axle, butt mechanism includes butt axle and butt ring, the butt groove has been seted up in the frame, the butt axle sets up the butt inslot, the both ends of butt axle with the frame is connected, just the butt axle is parallel with cutting axle axial, the butt ring overlaps to be established the butt epaxially, set up on the butt ring and to supply cutting ring male holding tank.

Through adopting above-mentioned technical scheme, when the cutting ring cuts the label, under the effect of butt joint ring, can make the cutting ring stretch into and cut in the groove, and then make the cutting ring can cut the label completely, improve the cutting quality of cutting ring to the label. The butt mechanism that sets up can make the cutting ring insert cut groove in, and then makes the cutting ring can carry out the complete cutting to the label, and then improves the cutting quality of cutting ring to the label.

Optionally, prevent static mechanism and include conducting rod, earth connection, two electrically conductive framves, installation component, current conducting plate and prevent static brush, electrically conductive frame parallel arrangement is in the frame, electrically conductive frame is located respectively the feed inlet of die-cutting mechanism and the discharge gate department of die-cutting mechanism, the current conducting plate sets up through the installation component respectively the bottom of electrically conductive frame, prevent that static brush sets up respectively on the diapire of current conducting plate, it is used for carrying out electrostatic treatment to the label to prevent static brush, the conducting rod sets up between the electrically conductive frame, the conducting rod is followed the length direction of frame sets up, the earth connection is connected with the conducting rod, the earth connection is kept away from the one end of conducting rod is used for ground connection.

Through adopting above-mentioned technical scheme, when the label got into die cutting mechanism and when will leaving die cutting mechanism, two prevent that the static brush is respectively with the static drainage that the label produced to the current conducting plate, the current conducting plate with static drainage to electrically conductive frame, under the effect of conducting rod, can with on the static drainage to the earth connection on the label, and then with static ground connection, reduce the static that the label produced in the cutting process and lead to the fact the influence to the cross cutting of label. The anti-static mechanism that sets up can carry out ground connection with the static that the label produced and handle, reduces static and produces the influence to the label at the in-process of cross cutting.

Optionally, the installation component includes at least one installation screw, the mounting groove has been seted up respectively to the diapire of electrically conductive frame, the mounting groove is followed the length direction of electrically conductive frame sets up, the electrically conductive plate sets up in the mounting groove, the installation screw be used for with the electrically conductive plate is fixed electrically conductive on the frame.

Through adopting above-mentioned technical scheme, during the installation current conducting plate, insert the mounting groove with the current conducting plate, then adjust the installation screw rod, fix the current conducting plate in the mounting groove. When the anti-static brush needs to be replaced, the installation screw rod is adjusted, and the conductive plate can be taken out from the installation groove to be replaced. The installation component that sets up can realize the installation of current conducting plate on electrically conductive frame, is convenient for change antistatic brush as required, realizes the connection of dismantling of antistatic brush.

Optionally, the automatic adhesive tape cutting machine further comprises a material guiding mechanism, wherein the material guiding mechanism comprises a driving assembly and two material guiding rollers, the material guiding rollers are respectively rotatably connected to the rack, the material guiding rollers are respectively located at a feed inlet of the die cutting mechanism and a discharge outlet of the die cutting mechanism, the material guiding rollers are axially parallel to the cutting shaft, the material guiding rollers are used for guiding non-adhesive labels, the driving assembly is arranged at one end, extending out of the rack, of the material guiding rollers, and the driving assembly is used for driving the material guiding rollers to rotate.

Through adopting above-mentioned technical scheme, adjust drive assembly, drive assembly drives two guide rollers and rotates simultaneously, when label paper process, under the effect of guide roller, can make the label get into die-cutting mechanism smoothly in, make die-cutting mechanism carry out the cross cutting to the label and handle. After the labels are separated, the labels can move forward under the action of the material guide roller, so that the phenomenon that the labels are curled in the moving process is reduced, and the conveying efficiency of the labels is improved. The guide mechanism that sets up can play the effect of certain direction to the motion of label, can reduce the label and take place the turn-up at the in-process of motion, can improve the conveying efficiency of label.

Optionally, drive assembly includes driving motor, drive chain and two drive gears, drive gear coaxial setting is in on the guide roller, drive chain is around establishing on the drive gear, just drive chain meshes with drive gear mutually, driving motor is connected with the guide roller, driving motor is used for the drive the guide roller rotates.

Through adopting above-mentioned technical scheme, adjust driving motor, driving motor's drive shaft drives the guide roller and rotates, and the guide roller drives drive gear and rotates, and under drive chain's effect, driving motor can drive two drive gears and rotate simultaneously, and then drives two guide rollers and rotate, and then realizes the transport to label paper. The drive assembly who sets up can provide power for the rotation of guide roller, can provide power to the motion of label, reduces the label and takes place the turn-up at the in-process of motion, and then improves the motion efficiency of label.

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

1. through the cutting ring, the label after die cutting is finished can be cut under the action of the cutting motor, so that a larger label is decomposed into at least two labels with smaller sizes, and the divided labels can be rolled into a smaller label roll under the action of the rolling mechanism, so that the label roll is convenient for processing personnel to carry, and the labor intensity of the processing personnel to carry the label roll is reduced;

2. the arranged fixing assembly can realize the fixation of the cutting ring on the cutting shaft, so that the position of the cutting ring can be conveniently adjusted according to the requirement on the cutting size of the label, and the label roll is further divided into labels with different sizes;

3. the arranged abutting mechanism can enable the cutting ring to be inserted into the cutting groove, so that the label can be completely cut by the cutting ring, and the cutting quality of the label by the cutting ring is improved;

4. the arranged anti-static mechanism can perform grounding treatment on static electricity generated by the label, so that the influence of the static electricity on the label in the die cutting process is reduced;

5. the guide mechanism that sets up can play the effect of certain direction to the motion of label, can reduce the label and take place the turn-up at the in-process of motion, can improve the conveying efficiency of label.

Drawings

Fig. 1 is a schematic overall structure diagram of a label anti-static die cutting machine according to an embodiment of the invention.

Fig. 2 is a cross-sectional view of a label antistatic die cutting machine according to an embodiment of the present invention.

FIG. 3 is a cross-sectional view from another perspective of a label antistatic die cutting machine according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of a portion a of fig. 1.

Fig. 5 is an enlarged schematic view of part B of fig. 3.

Fig. 6 is an enlarged schematic view of the portion C in fig. 4.

Reference numerals: 1. a frame; 11. a butt joint groove; 2. a die-cutting mechanism; 3. an anti-static mechanism; 31. a conductive rod; 32. a ground line; 33. a conductive frame; 331. mounting grooves; 34. mounting the component; 341. installing a screw rod; 35. a conductive plate; 36. an anti-static brush; 4. a cutting mechanism; 41. cutting the motor; 42. cutting the shaft; 421. a chute; 43. cutting a ring; 44. a fixing assembly; 441. a fixing plate; 442. fixing the screw rod; 443. a slider; 45. a graduated scale; 5. a coiling mechanism; 51. a first roll of labels; 52. a first scrap roll; 53. a second roll of labels; 54. a second waste roll; 6. an abutting mechanism; 61. a butt joint shaft; 62. a butting ring; 621. accommodating grooves; 63. a butting block; 64. abutting against the screw; 7. a material guiding mechanism; 71. a drive assembly; 711. a drive motor; 712. a drive chain; 713. a drive gear; 72. and a material guide roller.

Detailed Description

The invention is described in further detail below with reference to figures 1-6.

The embodiment of the invention discloses an anti-static label die cutting machine. Referring to fig. 1, 2 and 3, the label static electricity prevention die cutting machine comprises a frame 1, a die cutting mechanism 2, a static electricity prevention mechanism 3, a cutting mechanism 4 and two rolling mechanisms 5, wherein the die cutting mechanism 2, the static electricity prevention mechanism 3, the cutting mechanism 4 and the two rolling mechanisms 5 are arranged on the frame 1, the static electricity prevention mechanism 3 can perform static electricity prevention processing on labels, the cutting mechanism 4 is arranged at a discharge port of the die cutting mechanism 2, the die cutting mechanism 2 can perform die cutting processing on the labels, the cutting mechanism 4 can cut the labels to divide the labels into two parts, the rolling mechanisms 5 comprise a first label roll 51, a first waste roll 52, a second label roll 53 and a second waste roll 54, the first label roll 51 and the second label roll 53 can roll up the cut labels, and the first waste roll 52 and the second waste roll 54 can roll up the waste labels after die cutting.

Referring to fig. 3, 4 and 5, in order to cut the label into two parts, the labor intensity of the processor for carrying the label roll is reduced. Cutting mechanism 4 includes cutting motor 41, cutting axle 42, cutting ring 43 and fixed subassembly 44, and the both ends of cutting axle 42 are isomorphic bearing connection respectively on frame 1, the inner circle and the cutting wheel interference fit of bearing, the outer lane and the frame 1 interference fit of bearing, and this embodiment bearing does not mark. One end of the cutting shaft 42 extending out of the machine frame 1 is in key connection with a driving shaft of the cutting motor 41, and a base of the cutting motor 41 is fixed on the machine frame 1 through bolts. By adjusting the cutting motor 41, the cutting shaft 42 can be driven to rotate. The cutting ring 43 is sleeved on the cutting shaft 42, and the cutting ring 43 can slide along the cutting shaft 42. The fixing assembly 44 can fix the cutting ring 43 on the cutting shaft 42, and the cutting ring 43 can cut the label.

Referring to fig. 4, 5 and 6, the fixing assembly 44 includes two fixing plates 441 and a fixing screw 442, the fixing plates 441 are respectively disposed at both sides of the cutting ring 43, and the fixing plates 441 are integrally connected with the cutting ring 43. The fixing screw 442 is provided to penetrate the fixing plate 441, and the fixing plate 441 can be firmly fixed to the cutting shaft 42 by adjusting the fixing screw 442. Two sliding grooves 421 are formed in the cutting shaft 42 along the length direction, two sliding blocks 443 are integrally connected to the fixing plate 441, and the sliding blocks 443 can slide along the sliding grooves 421. The cutting shaft 42 is provided with a graduated scale 45, and the graduated scale 45 is distributed along the length direction of the cutting shaft 42.

Referring to fig. 3, 4 and 5, in order to improve the label cutting effect of the cutting ring 43, the frame 1 is further provided with an abutting mechanism 6, and the abutting mechanism 6 is arranged right below the cutting shaft 42. The abutting mechanism 6 comprises an abutting shaft 61 and an abutting ring 62, an abutting groove 11 is formed in the machine frame 1, the abutting groove 11 is distributed along the length direction of the cutting shaft 42, the abutting shaft 61 is arranged in the abutting groove 11, two ends of the abutting shaft 61 are welded to the machine frame 1, and the abutting shaft 61 is axially parallel to the cutting shaft 42. The butt ring 62 is sleeved on the butt shaft 61, the butt ring 62 can slide along the butt shaft 61, the butt ring 62 is provided with an accommodating groove 621 for inserting the cutting ring 43, two ends of the butt ring 62 are respectively and integrally connected with a butt block 63, the butt block 63 is provided with a butt screw 64, the butt block 63 can be fixed on the butt shaft 61 by adjusting the butt screw 64, and the butt ring 62 is further fixed on the butt shaft 61.

Referring to fig. 2, 3 and 4, in order to reduce static generated during die cutting of the label, the static preventing mechanism 3 includes a conductive rod 31, a ground wire 32, two conductive frames 33, a mounting assembly 34, a conductive plate 35 and a static preventing brush 36, the conductive frames 33 are arranged on the rack 1 in parallel, the conductive frames 33 are welded on the rack 1, the conductive frames 33 are respectively arranged at a feed inlet of the die cutting mechanism 2 and a discharge outlet of the die cutting mechanism 2, the conductive plate 35 is respectively arranged at the bottom of the conductive frames 33 through the mounting assembly 34, the static preventing brush 36 is respectively arranged on the bottom wall of the conductive plate 35, and the static preventing brush 36 can perform static processing on the label. The conducting rods 31 are arranged between the conducting frames 33, two ends of the conducting rods 31 are welded on the conducting frames 33, and the conducting rods 31 are distributed along the length direction of the rack 1. The ground wire 32 is connected to the conductive rod 31, and one end of the ground wire 32 remote from the conductive rod 31 is connected to the ground. The installation component 34 includes an installation screw 341, the bottom wall of the conductive frame 33 is respectively provided with an installation groove 331, the installation grooves 331 are distributed along the length direction of the conductive frame 33, the conductive plate 35 is embedded in the installation grooves 331, and the conductive plate 35 can be fixed on the conductive frame 33 by adjusting the installation screw 341.

Referring to fig. 1, the label cutting machine further comprises a material guiding mechanism 7, wherein the material guiding mechanism 7 comprises a driving assembly 71 and two material guiding rollers 72, the material guiding rollers 72 are respectively rotatably connected to the frame 1, the material guiding rollers 72 are respectively located at a feed port of the die cutting mechanism 2 and a discharge port of the die cutting mechanism 2, the material guiding rollers 72 are axially parallel to the cutting shaft 42, and the material guiding rollers 72 are used for guiding labels and reducing curling of the labels. The driving assembly 71 is arranged at one end of the material guiding roller 72 extending out of the frame 1, and the driving assembly 71 is used for driving the material guiding roller 72 to rotate. The driving assembly 71 comprises a driving motor 711, a driving chain 712 and two driving gears 713, wherein the driving gears 713 are coaxially arranged on the guide roller 72, and the driving gears 713 are connected with the guide roller 72 through keys. A drive chain 712 is wound around the drive gear 713, and the drive chain 712 is engaged with the drive gear 713. The driving motor 711 is in key connection with the guide roller 72, and the base of the driving motor 711 is fixed on the frame 1 through bolts. The guide roller 72 can be rotated by adjusting the drive motor 711.

The implementation principle of the label anti-static die cutting machine provided by the embodiment of the invention is as follows: in use, the fixing screw 442 and the abutment screw 64 are adjusted to move the abutment ring 62 and the cutting ring 43 to the designated positions, respectively, with reference to the scale 45. The abutment screw 64 and the fixing screw 442 are adjusted, the abutment ring 62 is fixed to the abutment shaft 61, and the cutting ring 43 is fixed to the cutting shaft 42, whereby the position of the cutting ring 43 on the cutting shaft 42 is adjusted. Then, the cutting motor 41 is adjusted, the driving shaft of the cutting motor 41 drives the cutting shaft 42 to rotate, and the cutting shaft 42 drives the cutting ring 43 to rotate.

In order to reduce the occurrence of label curling, the driving motor 711 is adjusted, the driving shaft of the driving motor 711 drives the guide roller 72 to rotate, the guide roller 72 drives the driving gear 713 to rotate, under the action of the driving chain 712, the driving motor 711 can drive the two driving gears 713 to rotate simultaneously, and then the two guide rollers 72 are driven to rotate, so that the label paper is conveyed. Through the guide roller 72, the label can smoothly enter the die-cutting mechanism 2, so that the die-cutting mechanism 2 performs die-cutting processing on the label. After the labels are separated, the labels can continue to move forwards under the action of the material guide roller 72, so that the phenomenon that the labels are curled in the moving process is reduced, and the conveying efficiency of the labels is improved.

When the label gets into die-cutting mechanism 2 and when will leaving die-cutting mechanism 2, two prevent that static brush 36 drains conducting plate 35 with the static that the label produced respectively, and conducting plate 35 drains static to conducting frame 33, under conducting rod 31's effect, can drain the static on the label to earth connection 32 on, and then with static ground connection, reduce the static and cause the influence to the cross cutting of label. When the label passes through the die-cutting mechanism 2, the die-cutting mechanism 2 decomposes the label to make the label reach a desired size.

The cutting ring 43 cuts the label as it passes the cutting ring 43, thereby cutting the completed label into two small labels, which are then rolled up by the first and second label rolls 51, 53, respectively, to form small label rolls. Finally, the cut label waste is wound up by the first waste roll 52 and the second waste roll 54 to form a waste roll.

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

Claims (9)

1. The utility model provides a static cross cutting machine is prevented to label which characterized in that: including frame (1), be located die cutting mechanism (2), prevent static mechanism (3), cutting mechanism (4) and two at least lapping mechanism (5) in frame (1), prevent that static mechanism (3) sets up in frame (1), prevent that static mechanism (3) is used for preventing static to handle the label, cutting mechanism (4) set up the discharge gate department of die cutting mechanism (2), die cutting mechanism (2) are used for cutting the label and handle, cutting mechanism (4) are used for rolling up the label and cut, lapping mechanism (5) are used for collecting the label book after the cutting, cutting mechanism (4) are including cutting motor (41), cutting shaft (42), at least one cutting ring (43) and fixed subassembly (44), the both ends rotation of cutting shaft (42) sets up in frame (1), cutting axle (42) stretch out the one end of frame (1) with cutting motor (41) are connected, cutting motor (41) are used for the drive cutting axle (42) rotate, cutting ring (43) cover is established on cutting axle (42), cutting ring (43) can be followed cutting axle (42) slide, fixed subassembly (44) are used for with cutting ring (43) are fixed on cutting axle (42), cutting ring (43) are used for separating the cutting to the label.

2. The anti-static label die cutting machine according to claim 1, characterized in that: the fixing assembly (44) comprises at least two fixing plates (441) and fixing screw rods (442), the fixing plates (441) are respectively arranged on two sides of the cutting ring (43), the fixing screw rods (442) penetrate through the fixing plates (441), and the fixing screw rods (442) are used for fixing the fixing plates (441) on the cutting shaft (42).

3. The anti-static label die cutting machine according to claim 2, characterized in that: at least one sliding groove (421) is formed in the cutting shaft (42) along the length direction, at least one sliding block (443) is arranged on the fixing plate (441), and the sliding block (443) can slide along the sliding groove (421).

4. The anti-static label die cutting machine according to claim 1, characterized in that: the cutting shaft (42) is provided with a graduated scale (45), and the graduated scale (45) is arranged along the length direction of the cutting shaft (42).

5. The anti-static label die cutting machine according to claim 1, characterized in that: still be provided with butt mechanism (6) on frame (1), butt mechanism (6) set up the below of cutting axle (42), butt mechanism (6) are including butt axle (61) and butt ring (62), butt groove (11) have been seted up on frame (1), butt axle (61) set up in butt groove (11), the both ends of butt axle (61) with frame (1) are connected, just butt axle (61) and cutting axle (42) axial direction parallel, butt ring (62) cover is established on butt axle (61), seted up on butt ring (62) and supplied cutting ring (43) male holding tank (621).

6. The anti-static label die cutting machine according to claim 1, characterized in that: prevent static mechanism (3) including conducting rod (31), earth connection (32), two electrically conductive frame (33), installation component (34), conducting plate (35) and prevent static brush (36), electrically conductive frame (33) parallel arrangement is in frame (1), electrically conductive frame (33) are located respectively the feed inlet of die cutting mechanism (2) and the discharge gate department of die cutting mechanism (2), electrically conductive plate (35) set up respectively through installation component (34) the bottom of electrically conductive frame (33), prevent that static brush (36) set up respectively on the diapire of electrically conductive plate (35), prevent static brush (36) and be used for carrying out electrostatic treatment to the label, conducting rod (31) set up between electrically conductive frame (33), conducting rod (31) are followed the length direction of frame (1) sets up, earth connection (32) are connected with conducting rod (31), one end of the grounding wire (32) far away from the conductive rod (31) is used for grounding.

7. The anti-static label die cutting machine according to claim 6, characterized in that: the mounting assembly (34) comprises at least one mounting screw (341), the bottom wall of the conductive frame (33) is respectively provided with a mounting groove (331), the mounting groove (331) is arranged along the length direction of the conductive frame (33), the conductive plate (35) is arranged in the mounting groove (331), and the mounting screw (341) is used for fixing the conductive plate (35) on the conductive frame (33).

8. The anti-static label die cutting machine according to claim 1, characterized in that: still include guide mechanism (7), guide mechanism (7) include drive assembly (71) and two guide rollers (72), guide roller (72) rotate respectively and are connected in on frame (1), guide roller (72) are located respectively the feed inlet of die cutting mechanism (2) and die cutting mechanism (2) discharge gate department, just guide roller (72) and cutting axle (42) axial direction parallel, guide roller (72) are used for leading the non-stick label, drive assembly (71) set up guide roller (72) stretch out the one end of frame (1), drive assembly (71) are used for the drive guide roller (72) rotate.

9. The anti-static label die cutting machine according to claim 8, characterized in that: the driving assembly (71) comprises a driving motor (711), a driving chain (712) and two driving gears (713), the driving gears (713) are coaxially arranged on the guide roller (72), the driving chain (712) is wound on the driving gears (713), the driving chain (712) is meshed with the driving gears (713), the driving motor (711) is connected with the guide roller (72), and the driving motor (711) is used for driving the guide roller (72) to rotate.

Images