CN109704123B - Labeling machine - Google Patents

Abstract

The invention relates to the field of label production, in particular to a labeling machine, which aims to solve the problems of reciprocating transportation and repeated inspection in the label processing process, and the technical scheme is as follows: the label paper cutting device comprises a rack, a paper feeding device, a first detection device, a die cutting device, a second detection device, a finished product roll dividing device and an alarm device, wherein the finished product roll dividing device is positioned at a position below the second detection device and used for tearing a film on the label paper, the alarm device is coupled with the first detection device and the second detection device and used for giving an alarm according to a detection result, and the label paper position is limited and driven by a plurality of rotating rollers connected to the rack. According to the invention, through the design of the first detection device, the second detection device and the alarm device, the label paper can be automatically inspected while the next process is carried out, so that the trouble of reciprocating transportation is reduced, and workers do not need to stare at the site in real time and manually inspect the label paper.

Description

Labeling machine

Technical Field

The invention relates to the field of label production, in particular to a labeling machine.

Background

Labels are simple labels used to indicate information such as the name, weight, volume, use, etc. of an article. The method is divided into traditional printing labels and modern bar code printing labels, and has extremely wide application in daily production of people.

The existing label is relatively mature in manufacturing process, generally label paper is processed into long strips, the long strips are rolled up like a film, and then the film is cut one by one to form finished labels.

In the process, the reciprocating transportation and the repeated inspection of a plurality of processing procedures such as printing, die cutting, finished product rolling and the like are needed, so that the labor and the energy are wasted.

Therefore, a new solution is needed to solve this problem.

Disclosure of Invention

In view of the defects in the prior art, the invention aims to provide a labeling machine, which can automatically perform the next process and simultaneously perform the inspection through the design of a first detection device, a second detection device and an alarm device, thereby not only reducing the trouble of reciprocating transportation, but also ensuring that the staff does not need to stare at the watch and perform manual inspection in real time.

The technical purpose of the invention is realized by the following technical scheme: the label paper cutting device comprises a frame, connect in the paper feed device of frame one end, connect in the frame and carry out the first detection device that detects label paper printing condition, the cross cutting device who is located the next station of first detection device, be located the next station of cross cutting device and carry out the second detection device that detects label paper die cutting condition, the finished product bundling device that is located the next station of second detection device and tears the membrane to label paper, coupling is in the alarm device of first detection device and second detection device and according to the testing result police dispatch newspaper, wherein label paper position is spacing and drive through connecting in a plurality of live-rollers of frame.

The paper feeding device can be directly connected with the printing machine for transmission, but because the printing machine occupies too large area of the used dyeing part when printing different colors on the label paper, the device can also be separated from the printing machine, the printed label paper is placed at the paper feeding position of the device, and the paper feeding is carried out through the rotating roller;

the first detection device needs to be preset according to the graph of the label paper to be detected so as to detect the printing effect and prevent inferior products;

the die cutting device is used for carrying out primary cutting on the label paper to separate the label from the label so as to facilitate subsequent use of a purchaser;

the second detection device is positioned at the next station of the die cutting device and is used for detecting the cutting mark of the label paper after die cutting and the movement speed of the label paper;

and finally, separating the label paper along the cutting mark through a finished product roll separating device, and respectively winding and collecting the finished product and the waste paper.

The invention is further configured to: the first detection device comprises a detection frame which is connected to the top of the rack and is positioned right above the label paper, and a plurality of detection heads which are connected to the detection frame in a sliding mode and face downwards to the label paper, and the connection mode of the second detection device is the same as that of the first detection device; the first detection device uses a camera and is controlled by a first detection circuit, and the first detection circuit comprises a comparator coupled with the detection head and an execution circuit coupled with the comparator and controlling the alarm device.

The first detection device uses a plurality of cameras, and can push the cameras to slide along the length direction of the detection frame according to the difference of the sizes of the label paper so as to adjust the number and the distribution of the cameras, thereby acquiring images on the label paper, comparing the acquired images with template images in the comparator and realizing the detection of the printing quality;

when the problem is detected, controlling an alarm device to give an alarm; and when no problem is detected, performing the next die cutting process.

The invention is further configured to: the die cutting device comprises a lifting plate which is rotatably connected to the rack and located below the label paper, a die cutting plate which is detachably connected to the rack and located above the label paper, and an electric cylinder which drives the lifting plate to move.

Because the specifications of the labels are different, the position of a cutter of the die cutting plate needs to be correspondingly changed, so the die cutting plate needs to be detachably connected with the rack so as to be convenient for replacement, if the label is convenient for replacement, the connection strength can be reduced certainly, and position change or even danger can occur in the reciprocating up-and-down die cutting process, so in the equipment, the position of the die cutting plate is not moved, the lifting plate is lifted by an electric cylinder to lift, and is abutted against the die cutting to cut off when the lifting plate rises, and is separated from the die cutting plate to be transported when the lifting plate falls;

simultaneously, for the convenience of changing the die-cutting plate, also for making the label paper break away from under the action of gravity automatically and drag the cutting plate after can the cross cutting, locate the label paper top with the die-cutting plate, locate the label paper below with the lifting board.

The invention is further configured to: the label paper cutting device is characterized in that a buffering part is arranged between the first detection device and the die cutting device, a rotating roller for driving the label paper to move is arranged on one side, facing the buffering part, of the first detection device, a rotating roller for driving the label paper to move is arranged on one side, far away from the buffering part, of the die cutting device, and the label paper is in a loose state in the buffering part.

On one hand, the buffer part is designed, because the lifting of the lifting plate needs a certain margin of the label paper, the label paper can move without being damaged, and meanwhile, the contrast detection of the first detection device also needs a certain reaction time;

when the comparison detection is carried out, the lifting plate pushes the label paper against the die cutting plate, at the moment, the rotating roller does not drive the label paper, the label paper is in a horizontal static state, and the rotating roller continues to move to drive the label paper to horizontally move along the rack until the die cutting is finished and the comparison of the first detection device is finished;

in the whole process, the label paper needs a certain buffer amount, so that a buffer part is arranged;

meanwhile, the buffer part is driven only by the rotating roller, and other equipment is not needed to carry out work detection on the buffer part, so that the label paper at the position is not shielded by foreign objects, and workers can conveniently observe and recheck the label paper from the position.

The invention is further configured to: and a limiting mechanism is arranged between the buffer part and the die cutting device, the limiting mechanism comprises an upper limiting roller which is abutted against the upper top surface of the label paper and a lower limiting roller which is abutted against the lower bottom surface of the label paper, and the upper limiting roller and the lower limiting roller are both rotationally connected to the lifting plate.

In order to prevent the deviation of die cutting caused by the fact that the lifting plate of the label paper is not smooth enough when pulled, the upper limiting roller and the lower limiting roller are used for clamping the label paper; the tag paper can drive the limiting roller to rotate so as to reduce friction force and not influence the normal movement of the tag paper.

The second detection device uses the distance sensor for detection and is controlled by a second detection circuit; the second detection circuit comprises a time delay circuit coupled to the distance sensor and a control circuit coupled to the time delay circuit and controlling the alarm device.

The second detection circuit is used for detecting the cutter marks left after the die cutting device cuts, the detection distance between the cutter marks and the sensor becomes far, the data detected by the distance sensor are processed through the delay circuit, and once the data which becomes far are not contacted after a certain time, the fact that the cutter marks do not exist at the position is shown, the die cutting device has problems, and the alarm device gives an alarm.

The invention is further configured to: the alarm device comprises a first alarm coupled to the first detection device and a second alarm coupled to the second detection device, and the first alarm and the second alarm use different alarm modes.

The first alarm and the second alarm use different alarm modes, so that workers can quickly and respectively go out where the problems occur, and corresponding processing is carried out.

The invention is further configured to: the finished product coiling device comprises a first collecting roller which is rotatably connected to the top of the rack and used for tearing the die-cutting device to cut waste materials, and a second collecting roller which is rotatably connected to the bottom of the rack and used for collecting the rest part of the label paper.

The label paper is divided into a pasting part with label content and a base paper part for storing labels, after the label paper is subjected to die cutting, the pasting part between the labels can be pulled down, the pasting part is waste, and the rest is a part which is subjected to die cutting and can be used after being torn from a notch after the die cutting; therefore, when the waste materials are collected in a roll dividing manner, firstly, a part of the waste materials are manually torn off, the waste materials are pasted and wound on a first collecting roller, meanwhile, a finished product part is wound on a second collecting roller, then, the first collecting roller and the second collecting roller are started simultaneously, and the waste materials are wound on the first collecting roller under the traction of the previous part of the waste materials; the usable portion is wound onto a second collecting roll under the traction of the base paper to effect separate collection.

In conclusion, the invention has the following beneficial effects:

firstly, through the design of the first detection device, the second detection device and the alarm device, the label paper can be automatically inspected while the next process is carried out, the trouble of reciprocating transportation is reduced, and workers do not need to stare at the label paper in real time and manually inspect the label paper;

secondly, through the design of buffer portion for the tag paper can be convenient carry out reinspection, spot check by the staff, thereby further guarantee the quality.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a circuit flow diagram of a first detection circuit;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is a sectional view of the present embodiment;

fig. 5 is a circuit diagram of the second detection circuit.

In the figure: 1. a frame; 2. a paper feeding device; 3. a first detection device; 31. a detection frame; 32. a detection head; 33. a first detection circuit; 34. a comparator; 35. an execution circuit; 4. a die cutting device; 41. lifting the plate; 42. die cutting the plate; 43. an electric cylinder; 44. a first connecting pipe; 45. a second connecting pipe; 46. a bolt; 5. a second detection device; 51. a distance sensor; 52. a second detection circuit; 53. a delay circuit; 54. a control circuit; 6. a finished product bundling device; 61. a first collecting roller; 62. a second collecting roller; 7. label paper; 8. an alarm device; 81. a first alarm; 82. a second alarm; 9. a buffer section; 91. an upper limit roller; 92. and a lower limit roller.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

Example (b): a labeler is shown in figure 1 and comprises a frame 1, a paper feeding device 2 connected to one end of the frame 1, a first detection device 3 connected to the frame 1 and used for detecting the printing condition of label paper 7, a die cutting device 4 located at the next station of the first detection device 3, a second detection device 5 located at the next station of the die cutting device 4 and used for detecting the die cutting condition of the label paper 7, a finished product roll separating device 6 located at the next station of the second detection device 5 and used for tearing the label paper 7, and an alarm device 8 coupled to the first detection device 3 and the second detection device 5 and used for giving an alarm according to a detection result, wherein the label paper 7 is limited and driven by a plurality of rotating rollers connected to the frame 1.

When the device is used, the paper feeding device 2 can be directly connected with a printing machine for transmission, but because the printing machine occupies too large area of the used dyeing part when printing different colors on the label paper 7, the device can be separated from the printing machine under the condition of limited factory area, the printed label paper 7 is placed at the paper feeding device 2 of the device and sleeved on the rotating roller, and the paper feeding is carried out through the rotating roller.

As shown in fig. 1 and 2, the first detection device 3 needs to be preset according to the pattern of the label paper 7 to be detected, so as to detect the printing effect and prevent the occurrence of inferior products. The first detection device 3 includes a detection frame 31 connected to the top of the frame 1 and located right above the label paper 7, and a plurality of detection heads 32 slidably connected to the detection frame 31 and facing downward to the label paper 7. Wherein detect head 32 and use the camera, according to the difference of label paper 7 size, can promote the camera and slide along detection frame 31 length direction to the quantity and the distribution of adjustment camera, thereby gather the digital image on the label paper 7.

The first detecting device 3 is controlled by a first detecting circuit 33, the first detecting circuit 33 includes a comparator 34 coupled to the camera, and an executing circuit 35 coupled to the comparator 34 and controlling the alarm device 8, wherein the comparator 34 is used for comparing the acquired digital image with a required digital image to check the actual printed image. When detecting that there is a problem, controlling the alarm device 8 to give an alarm; when no problem is detected, the label paper 7 is fed to the die-cutting device 4 by the rotating roller to perform the next process.

As shown in fig. 1 and 3, the die cutting device 4 is used to perform a preliminary cutting operation on the label paper 7 to separate the label from the label for subsequent use by the purchaser. The die cutting device 4 comprises a lifting plate 41 rotatably connected to the frame 1 and positioned below the label paper 7, a die cutting plate 42 detachably connected to the frame 1 and positioned above the label paper 7, and an electric cylinder 43 for driving the lifting plate 41 to move. Wherein, because the specification of the label is different, the cutter position of the die-cutting plate 42 also needs to be changed correspondingly, so the die-cutting plate 42 needs to be detachably connected with the machine frame 1 for replacement. The die-cutting plate 42 is rectangular, a first connecting pipe 44 extending vertically and downwards is arranged at the four corners of the bottom surface of the die-cutting plate 42, and a second connecting pipe 45 coaxially embedded in the circular pipe is arranged on the rack 1; after the first connecting pipe 44 fully wraps the second connecting pipe 45 under the pressure of the gravity of the die-cutting plate 42, the two connecting pipes are penetrated and locked along the radial directions of the first connecting pipe 44 and the second connecting pipe 45 through the bolt 46, and the first connecting pipe 44 and the second connecting pipe 45 are provided with pin holes matched with the bolt 46. In order to facilitate the detachment of the die-cutting plate 42, a handle is further provided at the peripheral wall of the die-cutting plate 42.

As shown in fig. 1 and 4, one end of the lifting plate 41 far away from the first detection device 3 is rotatably connected to the frame 1, and the other end is driven by the electric cylinder 43 to lift; the label paper 7 is placed on the top surface of the lifting plate 41, and the electric cylinder 43 is attached to the bottom surface of the lifting plate 41. In the use of the die cutting device 4, if the die cutting plate 42 is to be easily replaced, the connecting strength of the die cutting plate 42 to the frame 1 is necessarily reduced. In this case, if the die-cutting plate 42 is subjected to up-and-down reciprocating die-cutting, the connection of the die-cutting plate 42 may be loosened during the movement, so that the position of the die-cutting plate 42 may be changed, or even dangerous.

Therefore, in the present apparatus, the die cutting plate 42 is not moved, the lifting plate 41 is lifted by the electric cylinder 43 to be lifted, and when the lifting plate 41 is lifted, the label paper 7 is cut by abutting against the die cutting; when the lifting plate 41 descends, the label paper 7 is separated from the die cutting plate 42 for transportation; meanwhile, in order to facilitate replacement of the die cutting plate 42 and also to enable the label paper 7 to be automatically separated from the dragging and cutting plate under the action of gravity after die cutting, the die cutting plate 42 is arranged above the label paper 7, and the lifting plate 41 is arranged below the label paper 7.

Since the lifting of the lifting plate 41 requires a certain margin of the label paper 7 to ensure that the label paper 7 can move without being damaged, the contrast detection of the first detection device 3 also requires a certain response time. Therefore, a buffer part 9 is arranged between the first detection device 3 and the die cutting device 4, a rotating roller for driving the label paper 7 to move is arranged on one side of the first detection device 3 facing the buffer part 9, a rotating roller for driving the label paper 7 to move is arranged on one side of the die cutting device 4 far away from the buffer part 9, and the label paper 7 is in a loose state in the buffer part 9.

When the comparison detection is carried out, the lifting plate 41 rotates to enable the label paper 7 to abut against the die cutting plate 42, at the moment, the rotating roller does not drive the label paper 7, and the label paper 7 is in a horizontal static state; and (3) continuing to move the rotating roller until the die cutting is finished and the comparison of the first detection device is finished, so as to drive the label paper 7 to horizontally move along the rack 1, wherein the label paper 7 needs a certain buffer amount in the whole process.

In order to prevent the label paper 7 from being uneven when pulled by the lifting plate 41, which causes die cutting deviation, a limiting mechanism is arranged between the buffer part 9 and the die cutting device 4, the limiting mechanism comprises an upper limiting roller 91 abutting against the upper top surface of the label paper 7 and a lower limiting roller 92 abutting against the lower bottom surface of the label paper 7, and the upper limiting roller 91 and the lower limiting roller 92 are both rotatably connected to the lifting plate 41. When the label paper 7 moves, the upper limit roller 91 and the lower limit roller 92 are used for clamping the label paper 7, but the upper limit roller 91 and the lower limit roller 92 can be driven by the label paper 7 to rotate so as to reduce friction force, so that the normal movement of the label paper 7 is not influenced.

Meanwhile, the buffer part 9 is driven only by the rotating roller, so that the label paper 7 is not shielded by foreign objects, and a worker can conveniently observe and recheck the label paper 7 from the position.

As shown in fig. 1 and 5, the second detecting device 5 is located at a next station of the die-cutting device 4, and detects a cut mark of the label paper 7 after die-cutting and a moving speed of the label paper 7. The second detecting device 5 is connected to the other detecting frame 31 in the same manner as the first detecting device 3. The second detection device 5 uses the distance sensor 51 for detection and is controlled by a second detection circuit 52; the second detection circuit 52 includes a delay circuit 53 coupled to the distance sensor 51, and a control circuit 54 coupled to the delay circuit 53 and controlling the alarm device 8. The delay circuit 53 uses a 555 delay device, and the control circuit 54 uses a relay, and the specific connection mode is shown in fig. 5.

The second detection circuit 52 is used for detecting the tool marks left after the cutting of the die-cutting device 4, the detection distance between the tool marks and the sensor 51 becomes far, the data detected by the sensor 51 is processed through the delay circuit 53, and once the data which becomes far is not contacted after a certain time, the situation that the tool marks do not exist at the position is shown, the problem exists in the die-cutting device 4, and the alarm device 8 gives an alarm. Since the label paper 7 stops moving when the die cutting is performed, the second detection circuit 52 stops detecting synchronously when the die cutting is performed until the label paper 7 continues to move and the second detection circuit 52 continues to detect.

As shown in fig. 1, the alarm device 8 includes a first alarm 81 coupled to the first detection device 3 and a second alarm 82 coupled to the second detection device 5, and the first alarm 81 and the second alarm 82 use different colored bulbs to alarm, so that the staff can quickly and respectively go where the problem occurs and perform corresponding processing.

The label paper 7 is divided into an adhering part with label content and a base paper part for storing labels, after the label paper 7 is subjected to die cutting, the adhering part between the labels can be pulled down, the torn adhering part is waste, and the rest adhering part and all the base paper parts are finished products subjected to die cutting. The finished product roll dividing device 6 is used for respectively winding and collecting the finished products of the label paper 7 and the waste paper, and the finished product roll dividing device 6 comprises a first collecting roller 61 which is rotatably connected to the top of the machine frame 1 and tears the waste materials cut off by the die cutting device 4, and a second collecting roller 62 which is rotatably connected to the bottom of the machine frame 1 and collects the rest of the label paper 7.

When collecting the partial rolls, firstly, manually tearing off a part of the waste material, pasting and winding the part of the waste material on the first collecting roller 61, and simultaneously winding the finished product part on the second collecting roller 62; subsequently, the first collecting roller 61 and the second collecting roller 62 are simultaneously started, and the waste material is wound on the first collecting roller 61 under the traction of the previous part of waste material; separate collection can be achieved using portions that are wound onto the second collection roll 62 under the pull of the liner.

The working process is as follows: the paper feeding device 2 can be directly connected with the printer for transmission, but because the printer occupies too large area of the dyeing part when printing different colors on the label paper 7, the device can be separated from the printer, the printed label paper 7 is placed at the paper feeding position of the device, and the paper feeding is carried out through a rotating roller;

the first detection device 3 needs to be preset according to the graph of the label paper 7 to be detected so as to detect the printing effect and prevent inferior products;

the die cutting device 4 is used for carrying out primary cutting on the label paper 7 to separate the label from the label for subsequent use by a purchaser;

the second detection device 5 is positioned at the next station of the die cutting device 4 and is used for detecting the cutting mark of the label paper 7 after die cutting and the movement speed of the label paper 7;

finally, the label paper 7 is separated along the cutting mark through a finished product bundling device 6, and the finished product and the waste paper are respectively wound and collected.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (5)

1. A labeler is characterized in that: the label cutting machine comprises a rack (1), a paper feeding device (2) connected to one end of the rack (1), a first detection device (3) connected to the rack (1) and used for detecting the printing condition of label paper (7), a die cutting device (4) located at the next station of the first detection device (3), a second detection device (5) located at the next station of the die cutting device (4) and used for detecting the die cutting condition of the label paper (7), a finished product roll separating device (6) located at the next station of the second detection device (5) and used for tearing the label paper (7), and an alarm device (8) coupled to the first detection device (3) and the second detection device (5) and used for giving an alarm according to a detection result, wherein the label paper (7) is limited and driven through a plurality of rotating rollers connected to the rack (1); the die cutting device (4) comprises a lifting plate (41) which is rotatably connected to the rack (1) and is positioned below the label paper (7), a die cutting plate (42) which is detachably connected to the rack (1) and is positioned above the label paper (7), and an electric cylinder (43) which drives the lifting plate (41) to move; a buffer part (9) is arranged between the first detection device (3) and the die cutting device (4), the label paper (7) is in a loose state in the buffer part (9), a rotating roller for driving the label paper (7) to move is arranged on one side, facing the buffer part (9), of the first detection device (3), and a rotating roller for driving the label paper (7) to move is arranged on one side, far away from the buffer part (9), of the die cutting device (4); and a limiting mechanism is arranged between the buffer part (9) and the die cutting device (4), the limiting mechanism comprises an upper limiting roller (91) abutted to the upper top surface of the label paper (7) and a lower limiting roller (92) abutted to the lower bottom surface of the label paper (7), and the upper limiting roller (91) and the lower limiting roller (92) are both rotationally connected to the lifting plate (41).

2. A labelling machine as claimed in claim 1, wherein: the first detection device (3) comprises a detection frame (31) which is connected to the top of the rack (1) and is positioned right above the label paper (7), and a plurality of detection heads (32) which are connected to the detection frame (31) in a sliding mode and face downwards to the label paper (7), and the connection mode of the second detection device (5) is the same as that of the first detection device (3); the first detection device (3) uses a camera and is controlled by a first detection circuit (33), and the first detection circuit (33) comprises a comparator (34) coupled to the detection head (32) and an execution circuit (35) coupled to the comparator (34) and controlling the alarm device (8).

3. A labelling machine as claimed in claim 1, wherein: the second detection device (5) uses a distance sensor (51) for detection and is controlled by a second detection circuit (52); the second detection circuit (52) comprises a delay circuit (53) coupled to the distance sensor (51), a control circuit (54) coupled to the delay circuit (53) and controlling the alarm device (8).

4. A labelling machine as claimed in claim 1, wherein: the alarm device (8) comprises a first alarm (81) coupled to the first detection device (3) and a second alarm (82) coupled to the second detection device (5), and the first alarm (81) and the second alarm (82) use different alarm modes.

5. A labelling machine as claimed in claim 1, wherein: the finished product roll dividing device (6) comprises a first collecting roller (61) which is rotatably connected to the top of the rack (1) and tears the die cutting device (4) to cut waste materials, and a second collecting roller (62) which is rotatably connected to the bottom of the rack (1) and collects the rest of the label paper (7).

Images