CN216299519U - Multifunctional digital labeling machine - Google Patents

Abstract

The utility model belongs to the technical field of labelers, and particularly relates to a multifunctional digital labeler which comprises a case, wherein a raw paper roller, a film covering machine, a raw film roller, a waste collecting roller, a labeler and a plurality of finished product rollers are arranged in the case, the raw paper roller is provided with a first main driving mechanism, the film covering machine is provided with a second main driving mechanism, the finished product rollers are provided with a third main driving mechanism, the case is also internally provided with a film cutting machine, a first movable guide rod, a second movable guide rod, a third movable guide rod, a first opening-closing type compression roller mechanism and a second opening-closing type compression roller mechanism, the defects of the prior art are overcome, the film cutting machine is arranged on the traditional digital labeler, the pattern on the raw paper is further cut by the film cutting machine, when a first strip plate covers a separation sensor and a second strip plate covers the separation sensor, the second main driving mechanism and the third main driving mechanism do not work, after the film cutting machine works, the label cutting machine continues to work, integrates the printing function, the label digital die cutting and the laminating cutting into a whole, and has complete functions.

Description

Multifunctional digital labeling machine

Technical Field

The utility model belongs to the technical field of labeling machines, and particularly relates to a multifunctional digital labeling machine.

Background

The labeler adopts digital die cutting to cut the label area, then utilizes the finished product roller to collect the finished product that will have the label, and the roller that wastes is collected to the utilization of abandonment part, and it only has digital die cutting and the function of wasting discharge, but along with the development of science and technology, the labeler that only has this function can not satisfy the demand in market yet, consequently need develop one kind and collect print function, label digital die cutting and tectorial membrane cut in the demand in market of multi-functional digital labeler of an organic whole.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional digital labeling machine, which overcomes the defects of the prior art, a film cutting machine is arranged on the traditional digital labeling machine, the film cutting machine is used for further cutting patterns on base paper, when a strip-shaped plate I covers a separation sensor II and a strip-shaped plate II covers a separation sensor III, a main driving mechanism II and a main driving mechanism III do not work, the amount of paper back and forth movement required during the operation of the film cutting machine is realized by the up-and-down movement of a movable guide rod II and the movable guide rod III, when the movable guide rod II and the movable guide rod III move up and down, the strip-shaped plate I covers the separation sensor II and the strip-shaped plate II covers the separation sensor III, other work on two sides is stopped, the operation is continued after the operation of the film cutting machine is finished, meanwhile, a printer can be arranged on the base paper, and the printing function, the label die cutting number and the film cutting are integrated, the functions are complete.

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

a multifunctional digital labeling machine comprises a machine case, wherein a raw paper roller, a film laminating machine, a raw film roller, a waste collecting roller, a labeling machine and a plurality of finished product rollers are arranged in the machine case, raw paper is arranged on the raw paper roller, raw films are arranged on the raw film roller, a first main driving mechanism is arranged on the raw paper roller, a second main driving mechanism is arranged on the film laminating machine, a third main driving mechanism is arranged on the finished product roller, a film cutting machine, a first movable guide rod, a second movable guide rod, a third movable guide rod, a first opening-closing type compression roller mechanism and a second opening-closing type compression roller mechanism are further arranged in the machine case, the first movable guide rod, the second movable guide rod and the third movable guide rod are fixed on the machine case through vertically movable sliding blocks and move up and down along with the sliding blocks, the first film cutting machine, the first opening-closing type compression roller mechanism and the second opening-closing type compression roller mechanism are all located above the machine case and are sequentially installed, and the first movable guide rod, the second movable guide rod, the first movable guide rod, the second movable guide rod and the second movable guide rod are fixed on the machine case, the first movable guide rod and the second guide rod and the first movable guide rod are fixed on the machine, and the second guide rod and the movable guide rod fixed on the machine, and the second guide rod fixed on the machine, and the movable guide rod fixed on the machine, and the machine, wherein the movable guide rod are arranged in the movable guide rod fixed on the machine, the movable guide rod, and the movable guide rod, and the movable guide rod, and the movable guide rod, and the movable guide rod, and the movable guide rod, and the movable guide rod, the, A first sensor, a second sensor and a third sensor are arranged on a slide block of the first movable guide rod and move up and down along with the first sensor, the first sensor is connected with a first main driving mechanism to control a first paper feeding roller, the second sensor is arranged on the second movable guide rod and is positioned in the middle, the paper feeding device is characterized in that a first strip-shaped plate used for shielding a second sensor is arranged on a sliding block of the second movable guide rod, when the sliding block moves upwards and is separated from the second sensor, a second main driving mechanism starts to work to start paper feeding, the sliding block moves downwards, the first strip-shaped plate moves downwards, when the first strip-shaped plate is separated from the second sensor again, paper feeding is stopped, a third sensor is arranged on the three side of the third movable guide rod and is located at the middle position, a second strip-shaped plate used for shielding the third sensor is arranged on the sliding block of the third movable guide rod, when the sliding block moves downwards and is separated from the third sensor, a third main driving mechanism starts to work to start paper collection, the sliding block moves upwards, the second strip-shaped plate moves upwards, when the second strip-shaped plate is separated from the second sensor again, paper collection is stopped, the second strip-shaped plate moves downwards, and when the third strip-shaped plate is separated from the third sensor again, the third main driving mechanism starts to collect paper again, when the first strip-shaped plate covers the second separation sensor and the second strip-shaped plate covers the third separation sensor, the second main driving mechanism and the third main driving mechanism do not work, the amount of paper back and forth movement required by the film cutting machine during working is achieved by reciprocating the second movable guide rod and the third movable guide rod, and when the second movable guide rod and the third movable guide rod reciprocate, the first strip-shaped plate covers the second separation sensor and the second strip-shaped plate covers the third separation sensor, other work on two sides is stopped, and the film cutting machine continues to work after the work is completed.

Further, the machine is internally provided with a printer and a movable guide rod IV, the printer is positioned above the original paper roller, the movable guide rod IV is fixed through a circumference oscillating bar and moves in a swinging mode, the movable guide rod IV is positioned between the printer and the original paper roller, the original paper is tensioned through the movable guide rod IV and then conveyed to the printer, and finally the printer is transferred to a second position of the movable guide rod, the circumference oscillating bar is provided with a sensor IV, the sensor IV is connected with a main driving mechanism I to control feeding of the original paper roller, and the sensor I is connected with the printer to control feeding of the printer.

Further, the first sensor, the second sensor, the third sensor and the fourth sensor are all photoelectric sensors.

Further, the first open-close type compression roller mechanism and the second open-close type compression roller mechanism are consistent in structure and respectively comprise a fixed roller, a movable compression roller and a fixed support, fixed shafts are arranged at two ends of the fixed roller and are fixed through bearings, a driving gear is connected to the fixed shaft at one end along the outside of the bearings, a movable shaft is arranged in the middle of the movable compression roller through a ball bearing, two ends of the movable shaft extend to the outside of the movable compression roller, the two fixed supports are distributed at two ends of the movable compression roller, a U-shaped notch is formed above the fixed support, a slider structure moving up and down is arranged in the U-shaped notch, two ends of the movable shaft are fixed on the slider structure through bearings, eccentric wheels are arranged at two ends of the movable shaft and are positioned between the slider structure and the movable compression roller, and a horizontal table is arranged below the fixed support and towards the direction of the movable compression roller, the eccentric wheel is located the horizontal stand top, when the eccentric wheel is located the horizontal stand top in the farthest position only, fixed roll and movable compression roller do not laminate.

Furthermore, a horizontal panel is arranged at the farthest position of the eccentric wheel.

Furthermore, one end of the movable shaft extends out of the fixed support and is connected with a handle.

Furthermore, both sides of the sliding block structure are provided with hanging rings, and the hanging rings are provided with tensioning springs.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model relates to a multifunctional digital labeling machine, which is characterized in that a film cutting machine is arranged on the traditional digital labeling machine, patterns on base paper are further cut by the film cutting machine, when a strip-shaped plate I covers a separation sensor II and a strip-shaped plate II covers a separation sensor III, a main driving mechanism II and a main driving mechanism III do not work, the amount of paper back and forth movement required by the film cutting machine during working is realized by up-and-down movement of a movable guide rod II and the movable guide rod III, when the movable guide rod II and the movable guide rod III move up and down, the strip-shaped plate I covers the separation sensor II and the strip-shaped plate II covers the separation sensor III, other work on two sides is stopped, the work is continued after the film cutting machine finishes working, and the printing function, the digital label die cutting and the film cutting are integrated, and the functions are complete.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional digital labeling machine.

Fig. 2 is a schematic perspective view of the front internal structure of a multifunctional digital labeling machine.

Fig. 3 is a schematic diagram of the internal structure of the front side of the multifunctional digital labeling machine.

Fig. 4 is a schematic diagram of the internal structure of the back side of the multifunctional digital labeling machine.

Fig. 5 is a schematic structural diagram of the opening-closing type press roll mechanism.

Fig. 6 is a schematic top view of the folding-unfolding type press roll mechanism.

Fig. 7 is a side structural schematic diagram of the opening-closing type press roll mechanism.

Fig. 8 is a schematic side internal structure diagram of the opening-closing type press roll mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in the figure, the multifunctional digital labeling machine comprises a machine case 1, wherein a raw paper roller 2, a film laminating machine 6, a raw film roller 4, a waste collecting roller 5, a labeling machine 11 and a plurality of finished product rollers 8 are arranged in the machine case, raw paper is arranged on the raw paper roller, a raw film is arranged on the raw film roller, a main driving mechanism I is arranged on the raw paper roller, a main driving mechanism II is arranged on the film laminating machine, a main driving mechanism III is arranged on the finished product rollers, a film cutting machine 7, a movable guide rod I14, a movable guide rod II 15, a movable guide rod III 16, an opening-closing type press roll mechanism I901 and an opening-closing type press roll mechanism II 901 are further arranged in the machine case, the movable guide rod I, the movable guide rod II and the movable guide rod III are fixed on the machine case through vertically movable sliders and move up and down along with the sliders, and the film cutting machine, the opening-closing type press roll mechanism I and the opening-closing type press roll mechanism II are all positioned above the machine case and are sequentially installed, the raw film is directly connected to the film laminating machine and is processed on the raw paper through the film laminating machine, a first sensor, a second sensor and a third sensor are arranged on the case, the first sensor is arranged on a sliding block of the first movable guide rod and moves up and down along with the sliding block, the first sensor is connected with the first main driving mechanism to control the roller of the raw paper, the sensor II is arranged on the side of the movable guide rod II and is located at the middle position, a first strip plate 151 used for shielding the sensor II is arranged on a sliding block of the movable guide rod II, when the sliding block moves upwards, the first strip plate 151 is separated from the sensor II, the main driving mechanism II starts to work to start paper feeding, the sliding block moves downwards, the first strip plate moves downwards, when the first strip plate is separated from the sensor II again, the paper feeding is stopped, the sensor III is arranged on the three side of the movable guide rod and is located at the middle position, a second strip plate 161 used for shielding the sensor III is arranged on a sliding block of the movable guide rod III, when the sliding block moves downwards, the main driving mechanism III starts to work to start paper collection, the sliding block moves upwards, the second strip plate moves upwards, when the second strip plate is separated from the sensor II again, the paper collection is stopped, and the second strip plate moves downwards, when the paper is separated from the sensor III again, the main driving mechanism III starts to collect the paper again; the printer is arranged above a raw paper roller and is fixed through a circumferential oscillating bar and moves in an oscillating mode, the movable guide bar four is arranged between the printer and the raw paper roller, the raw paper is tensioned through the movable guide bar four and then conveyed to the printer, and finally is transmitted to a movable guide bar two position, a sensor four is arranged on the circumferential oscillating bar and is connected with a main driving mechanism one to control feeding of the raw paper roller, and the sensor one is connected with the printer to control feeding of the printer; the first sensor, the second sensor, the third sensor and the fourth sensor are all photoelectric sensors. When the first strip-shaped plate covers the second separation sensor and the second strip-shaped plate covers the third separation sensor, the second main driving mechanism and the third main driving mechanism do not work, the amount of paper back and forth movement required by the film cutting machine during working is achieved by reciprocating the second movable guide rod and the third movable guide rod, and when the second movable guide rod and the third movable guide rod reciprocate, the first strip-shaped plate covers the second separation sensor and the second strip-shaped plate covers the third separation sensor, other work on two sides is stopped, and the film cutting machine continues to work after the work is completed.

Example two

As shown in the figure, the open-close type compression roller mechanism comprises a fixed roller 91, a movable compression roller 92 and a fixed support 93, wherein fixed shafts 910 are arranged at two ends of the fixed roller and are fixed through bearings 911, a driving gear 912 is connected to the fixed shaft at one end along the outside of the bearing, a movable shaft 921 is arranged in the middle of the movable compression roller 92 through a ball bearing, two ends of the movable shaft are arranged along the outside of the movable compression roller, the two fixed supports 93 are distributed at two ends of the movable compression roller, U-shaped notches are arranged above the fixed support, a slider structure 931 moving up and down is arranged in each U-shaped notch, two ends of each movable shaft are fixed on the slider structure through bearings, eccentric wheels 94 are arranged at two ends of each movable shaft and are positioned between the slider structure and the movable compression roller, a horizontal platform is arranged below the fixed support and in the direction of the movable compression roller, and the eccentric wheels are positioned above the horizontal platform, when the eccentric wheel is positioned above the horizontal table at the farthest position, the fixed roller and the movable pressing roller are not attached; a horizontal panel 941 is arranged at the farthest position of the eccentric wheel; one end of the movable shaft extends out of the fixed bracket and is connected with a handle 922; and hanging rings 932 are arranged on two sides of the sliding block structure, and tensioning springs are arranged on the hanging rings. The upper and lower drop of movable compression roller is realized by the open-close type compression roller mechanism through the eccentric wheel, when the horizontal panel of the eccentric wheel is positioned on the horizontal table, the movable compression roller is supported, a larger gap is formed between the movable compression roller and the fixed roller, the material is conveniently penetrated, after the material penetrating is finished, the eccentric wheel is rotated, the movable compression roller can be pressed on the fixed roller again, the feeding difficulty of the compression roller mechanism is reduced, and the feeding efficiency of the compression roller mechanism is improved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a multi-functional digital labeller, includes quick-witted case, quick-witted incasement is equipped with former paper material roller, laminating machine, former film material roller, receipts waste roller, labeller and a plurality of finished product roller, be equipped with the body paper on the former paper material roller, be equipped with former membrane on the former film material roller, be equipped with main actuating mechanism one on the former paper material roller be equipped with main actuating mechanism two on the laminating machine, be equipped with main actuating mechanism three on the finished product roller, its characterized in that: the automatic film cutting machine is characterized in that a film cutting machine, a first movable guide rod, a second movable guide rod, a third movable guide rod, a first opening-closing type compression roller mechanism and a second opening-closing type compression roller mechanism are further arranged in the case, the first movable guide rod, the second movable guide rod and the third movable guide rod are fixed on the case through vertically movable sliders and move up and down along with the sliders, the film cutting machine, the first opening-closing type compression roller mechanism and the second opening-closing type compression roller mechanism are located above the case and are sequentially installed, the first movable guide rod, the second movable guide rod and the third movable guide rod are located below the labeling machine, the first movable guide rod and the second movable guide rod are located on two sides of the labeling machine, the second movable guide rod and the third movable guide rod are located on two sides of the film cutting machine, the base paper sequentially passes through the first movable guide rod, the film laminating machine, the second movable guide rod, the film cutting machine and the second movable guide rod, The automatic paper feeding device comprises a movable guide rod III, an open-close type compression roller mechanism I, a labeler, an open-close type compression roller mechanism II and a finished product roller, wherein a raw film is directly connected to the film laminating machine and is processed on raw paper through the film laminating machine, a sensor I, a sensor II and a sensor III are arranged on a case, the sensor I is arranged on a sliding block of the movable guide rod I and moves up and down along with the sliding block, the sensor I is connected with a main driving mechanism I to control the paper feeding roller to feed paper, the sensor II is arranged on the side of the movable guide rod II and is located in the middle position, and a strip plate I used for shielding the sensor II is arranged on a sliding block of the movable guide rod II.

2. A multi-functional digital labeling machine according to claim 1, further comprising: the automatic paper feeding machine is characterized in that a printer and a movable guide rod IV are further arranged in the machine box, the printer is located above an original paper roller, the movable guide rod IV is fixed through a circumference swing rod and moves in a swing mode, the movable guide rod IV is located between the printer and the original paper roller, the original paper is conveyed to the printer after being tensioned through the movable guide rod IV, and finally the printer is conveyed to a position of the movable guide rod II, a sensor IV is arranged on the circumference swing rod and connected with a main driving mechanism I to control feeding of the original paper roller, and the sensor I is connected with the printer to control feeding of the printer.

3. A multi-functional digital labeling machine according to claim 2, further comprising: the first sensor, the second sensor, the third sensor and the fourth sensor are all photoelectric sensors.

4. A multi-functional digital labeling machine according to any one of claims 1 to 3, characterized in that: the first opening-closing type compression roller mechanism and the second opening-closing type compression roller mechanism are consistent in structure and respectively comprise a fixed roller, a movable compression roller and a fixed support, fixed shafts are arranged at two ends of the fixed roller and are fixed through bearings, a driving gear is connected to the outside of the bearings along the fixed shaft at one end, a movable shaft is arranged in the middle of the movable compression roller through a ball bearing, two ends of the movable shaft extend to the outside of the movable compression roller, the two fixed supports are distributed at two ends of the movable compression roller, a U-shaped notch is formed in the upper portion of the fixed support, a slider structure which can move up and down is arranged in the U-shaped notch, two ends of the movable shaft are fixed on the slider structure through bearings, eccentric wheels are arranged at two ends of the movable shaft and are located between the slider structure and the movable compression roller, a horizontal table is arranged below the fixed support and towards the direction of the movable compression roller, and the eccentric wheels are located above the horizontal table, when the eccentric wheel is located above the horizontal table at the farthest position, the fixed roller and the movable pressing roller are not attached.

5. A multi-functional digital labeling machine according to claim 4, further comprising: the farthest position of the eccentric wheel is provided with a horizontal panel.

6. A multi-functional digital labeling machine according to claim 4, further comprising: one end of the movable shaft extends out of the fixed support and is connected with a handle.

7. A multi-functional digital labeling machine according to claim 4, further comprising: and hanging rings are arranged on two sides of the sliding block structure, and tensioning springs are arranged on the hanging rings.

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