CN109551878B - Full-rotation six-color double-layer label printing device and printing process thereof - Google Patents

Abstract

The invention discloses an all-wheel six-color double-layer label printing device and a printing process thereof. The printing machine is reasonable in structural design, a plurality of printing seats are arranged on the circumference of the rotating wheel of the all-wheel rotating machine for printing, discharging is carried out at multiple stations, raw materials are discharged from one position, printed, then another raw material is pasted, and then printing is carried out, so that the double-layer label is printed at one time, the working procedures are reduced, and the efficiency is improved; and before the two raw materials are attached to each other, the surfaces of the two raw materials can be subjected to dust collection through the first dust collection mechanism and the second dust collection mechanism.

Description

Full-rotation six-color double-layer label printing device and printing process thereof

Technical Field

The invention relates to a full-rotation six-color double-layer label printing device, in particular to a full-rotation six-color double-layer label printing device and a printing process thereof, and belongs to the technical field of double-layer label printing application.

Background

A two-layer label is a label that looks similar to a normal label, but is actually composed of two layers of material; increasingly widely applied to daily chemicals, foods, medicines, electronic products and household daily necessities, and can cover a huge amount of information within a small size.

The existing double-layer label printing process is generally used for printing two layers of materials independently, the materials need to be printed twice and then are attached together, the process is complex, the production efficiency is low, and the production cost of the double-layer label is increased. Therefore, the full-rotation six-color double-layer label printing device and the printing process thereof are provided for solving the problems.

Disclosure of Invention

The invention aims to solve the problems and provide an all-round six-color double-layer label printing device and a printing process thereof.

The invention realizes the aim through the following technical scheme, and the full-wheel six-color double-layer label printing device and the printing process thereof comprise a rotating wheel of a full-wheel rotating machine, a lower layer discharging shaft, an upper layer discharging shaft, a lower layer material roll, an upper layer material roll, a material receiving shaft and a deviation rectifying mechanism, a plurality of first guide shafts are arranged between the rotating wheel and the lower layer discharging shaft, the lower layer material coil sequentially bypasses the lower layer discharging shaft, the first guide shafts and the rotating wheel, a plurality of second guide shafts are arranged between the rotating wheel and the upper-layer discharging shaft, the upper-layer material coil sequentially bypasses the upper-layer discharging shaft, the second guide shafts and the rotating wheel, the lower layer material roll and the upper layer material roll are combined to form a combined printing roll, a plurality of third guide shafts are arranged between the rotating wheel and the material receiving shaft, and the combined printing roll sequentially winds the third guide shafts and the material receiving shaft;

the rotary wheel is characterized in that a first printing seat, a second printing seat, a third printing seat, a fourth printing seat, a fifth printing seat and a sixth printing seat are sequentially arranged on the periphery of the rotary wheel along the anticlockwise direction, an oil passing seat is arranged at the top of the rotary wheel, a first dust suction mechanism and a second dust suction mechanism are respectively arranged at the bottom of the lower layer material roll and the top of the upper layer material roll, and a deviation rectifying mechanism is arranged between the rotary wheel and the upper layer discharging shaft.

Preferably, the deviation correcting mechanism is a belt deviation correcting machine, and the deviation correcting mechanism is located at the bottom of the second dust collecting mechanism.

Preferably, the first dust suction mechanism and the second dust suction mechanism are consistent in structure, and both the first dust suction mechanism and the second dust suction mechanism adopt industrial dust collectors.

Preferably, first printing seat, second printing seat, third printing seat, fourth printing seat, fifth printing seat and sixth printing seat evenly set up in the both sides of rotating the wheel, and first printing seat, second printing seat, third printing seat, fourth printing seat, fifth printing seat and sixth printing seat and rotate the distance between the wheel and all the same.

Preferably, the second printing seat and the third printing seat are respectively positioned at the top and the bottom of the upper-layer material roll, and the upper-layer material roll penetrates through a gap formed between the third printing seat and the rotating wheel.

Preferably, the lower material roll is positioned on the top of the first printing seat, and the lower material roll penetrates through a gap formed between the first printing seat and the rotating wheel.

Preferably, the centers of the lower layer discharging shaft, the upper layer discharging shaft and the material receiving shaft are fixedly sleeved with an external motor output shaft.

Preferably, the first printing seat, the second printing seat, the third printing seat, the fourth printing seat, the fifth printing seat and the sixth printing seat are all consistent in structure.

Preferably, the lower roll of material wound around the wheel is located between the outer side of the wheel and the upper roll of material.

Preferably, the printing process comprises the following steps:

a. the method comprises the following steps of feeding, wherein a lower layer material roll and an upper layer material roll are respectively wound on a lower layer feeding shaft and an upper layer feeding shaft, an external motor connected with the lower layer feeding shaft and the upper layer feeding shaft is started, the external motor drives the lower layer feeding shaft to rotate anticlockwise and drives the upper layer feeding shaft to rotate clockwise, feeding of the lower layer material roll and the upper layer material roll is carried out, the lower layer material roll and the upper layer material roll respectively flow out in a guiding mode through a first guiding shaft and a second guiding shaft and wind around a rotating wheel, when the upper layer material roll flows, the upper layer material roll can be corrected through a correction mechanism, and a first dust collection mechanism and a second dust collection mechanism respectively collect dust on the surfaces of the lower layer material roll and the upper layer material roll;

b. printing a lower-layer material roll, wherein the lower-layer material roll passes through the space between the first printing seat and the rotating wheel, winds onto the rotating wheel, moves on the rotating wheel along the anticlockwise direction, and performs printing processing on the surface of the lower-layer material roll through the first printing seat and the second printing seat, and the first printing seat and the second printing seat enable the surface of the lower-layer material roll to be printed with two colors;

c. the upper layer material roll penetrates through the space between the rotating wheel and the third printing seat, the upper layer material roll is attached to the lower layer material roll, the upper layer material roll covers the surface of the lower layer material roll to form a covered printing roll, the covered printing roll moves on the rotating wheel along the anticlockwise direction, and the third printing seat, the fourth printing seat, the fifth printing seat and the sixth printing seat print the upper layer material roll on the covered printing roll and sequentially print four different colors;

d. the rolling, compound printing book is through crossing oily back of oil seat, flows out between the wheel and the oil seat of crossing, receives the material axle and drives through outside motor, receives the material axle and carries out anticlockwise rotation, rolls up compound printing book, and compound printing book is after leading through the third guiding axle, and the rolling is received epaxially.

The invention has the beneficial effects that: the printing machine is reasonable in structural design, a plurality of printing seats are arranged on the circumference of the rotating wheel of the all-wheel rotating machine for printing, discharging is carried out at multiple stations, raw materials are discharged from one position, printed, then another raw material is pasted, and then printing is carried out, so that the double-layer label is printed at one time, the working procedures are reduced, the efficiency is improved, and the production cost is reduced; and two raw and other materials can carry out the dust absorption to the surface of pasting two raw and other materials through first dust absorption mechanism and second dust absorption mechanism before going on pasting, avoid mixing with the dust between two raw and other materials, ensured the production quality of double-deck label.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic top view of the material receiving shaft according to the present invention;

fig. 3 is a flow chart of a printing process of the present invention.

In the figure: 1. the printing machine comprises a rotating wheel, 2, a lower layer discharging shaft, 3, a first guide shaft, 4, a first dust collection mechanism, 5, a lower layer material roll, 6, an upper layer discharging shaft, 7, an upper layer material roll, 8, a deviation correction mechanism, 9, a second dust collection mechanism, 10, a second guide shaft, 11, a first printing seat, 12, a second printing seat, 13, a third printing seat, 14, a fourth printing seat, 15, a fifth printing seat, 16, a sixth printing seat, 17, an oil passing seat, 18, a composite printing roll, 19, a third guide shaft, 20 and a material collecting shaft.

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.

Referring to fig. 1-3, an all-wheel six-color double-layer label printing device and a printing process thereof includes a rotating wheel 1, a lower discharging shaft 2, an upper discharging shaft 6, a lower material roll 5, an upper material roll 7, a receiving shaft 20 and a deviation correcting mechanism 8 of an all-wheel rotating machine, wherein a plurality of first guide shafts 3 are arranged between the rotating wheel 1 and the lower discharging shaft 2, the lower material roll 5 sequentially bypasses the lower discharging shaft 2, the first guide shafts 3 and the rotating wheel 1, a plurality of second guide shafts 10 are arranged between the rotating wheel 1 and the upper discharging shaft 6, the upper discharging shaft 6 and the lower discharging shaft 2 respectively discharge the upper material roll 7 and the lower material roll 5, the upper material roll 7 sequentially bypasses the upper discharging shaft 6, the second guide shafts 10 and the rotating wheel 1, the lower material roll 5 and the upper material roll 7 are combined to form a combined printing roll 18, a plurality of third guide shafts 19 are arranged between the rotating wheel 1 and the material receiving shaft 20, the composite printing roll 18 sequentially bypasses the third guide shafts 19 and the material receiving shaft 20, and the material receiving shaft 20 receives the composite printing roll 18;

rotate wheel 1 all around along anticlockwise set gradually first printing seat 11, second printing seat 12, third printing seat 13, fourth printing seat 14, fifth printing seat 15 and sixth printing seat 16, it is provided with oil seat 17 to rotate 1 top of wheel, the bottom of lower floor material book 5 and upper strata material book 7 top are provided with first dust absorption mechanism 4 and second dust absorption mechanism 9 respectively, it is provided with deviation correcting mechanism 8 to rotate between wheel 1 and the upper strata blowing axle 6, and first dust absorption mechanism 4 and second dust absorption mechanism 9 carry out the dust absorption to the face that covers between upper strata material book 7 and the lower floor material book 5, avoid mixing with the dust, and upper strata material book 7 and lower floor material are rolled up 5 and are the two-layer material of double-deck label.

The deviation correcting mechanism 8 is a belt deviation correcting machine, the deviation correcting mechanism 8 is positioned at the bottom of the second dust collecting mechanism 9, and the deviation correcting mechanism 8 can correct the deviation of the upper-layer material coil 7 to enable the upper-layer material coil 7 and the lower-layer material coil 5 to be aligned; the first dust collection mechanism 4 and the second dust collection mechanism 9 are consistent in structure, the first dust collection mechanism 4 and the second dust collection mechanism 9 both adopt industrial dust collectors, and the first dust collection mechanism 4 and the second dust collection mechanism collect dust on a surface covered between the upper layer material roll 7 and the lower layer material roll 5, so that dust is prevented from being mixed; the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 are uniformly arranged on two sides of the rotating wheel 1, the distances between the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 and the rotating wheel 1 are the same, the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 can print the upper layer material coil 7 and the lower layer material coil 5, and the colors printed by the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 are different, so that the processed double-layer label has six colors; the second printing seat 12 and the third printing seat 13 are respectively positioned at the top and the bottom of the upper-layer material coil 7, the upper-layer material coil 7 penetrates through a gap formed between the third printing seat 13 and the rotating wheel 1, and after the lower-layer material coil 5 is dyed with two colors, the upper-layer material coil 7 enters the rotating wheel 1 and is covered with the lower-layer material coil 5; the lower-layer material roll 5 is positioned at the top of the first printing seat 11, the lower-layer material roll 5 penetrates through a gap formed between the first printing seat 11 and the rotating wheel 1, the lower-layer material roll 5 enters, and the first printing seat 11 prints the lower-layer material roll; the centers of the lower discharging shaft 2, the upper discharging shaft 6 and the receiving shaft 20 are all fixedly sleeved with an external motor output shaft, and the external motor drives the lower discharging shaft 2, the upper discharging shaft 6 and the receiving shaft 20 to discharge and receive materials; the structures of the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 are all consistent, and the first printing seat 11, the second printing seat 12, the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 dye the upper-layer material coil 7 and the lower-layer material coil 5; the lower layer material roll 5 wound on the rotating wheel 1 is positioned between the outer side of the rotating wheel 1 and the upper layer material roll 7, the upper layer material roll 7 covers the surface of the lower layer material roll 5, and when the upper layer material roll 7 is printed, the lower layer material roll 5 is not printed;

the printing process comprises the following steps:

a. discharging, wherein a lower layer material roll 5 and an upper layer material roll 7 are respectively wound on a lower layer discharging shaft 2 and an upper layer discharging shaft 6, an external motor connected with the lower layer discharging shaft 2 and the upper layer discharging shaft 6 is started, the external motor drives the lower layer discharging shaft 2 to rotate anticlockwise to drive the upper layer discharging shaft 6 to rotate clockwise, discharging of the lower layer material roll 5 and the upper layer material roll 7 is carried out, the lower layer material roll 5 and the upper layer material roll 7 respectively flow out in a guiding mode through a first guiding shaft 3 and a second guiding shaft 10 and wind onto a rotating wheel 1, when the upper layer material roll 7 flows, the upper layer material roll 7 can be corrected through a correcting mechanism 8, and a first dust suction mechanism 4 and a second dust suction mechanism 9 respectively suck dust on the surfaces of the lower layer material roll 5 and the upper layer material roll 7;

b. printing the lower-layer material roll 5, wherein the lower-layer material roll 5 passes through the space between the first printing seat 11 and the rotating wheel 1, winds onto the rotating wheel 1, moves on the rotating wheel 1 along the anticlockwise direction, and prints and processes the surface of the lower-layer material roll 5 through the first printing seat 11 and the second printing seat 12, and the first printing seat 11 and the second printing seat 12 enable the surface of the lower-layer material roll 5 to be printed with two colors;

c. the lower layer material roll 5 and the upper layer material roll 7 are combined, the upper layer material roll 7 penetrates through the rotating wheel 1 and the third printing seat 13, the upper layer material roll 7 is attached to the lower layer material roll 5, the upper layer material roll 7 covers the surface of the lower layer material roll 5 to form a combined printing roll 18, the combined printing roll 18 moves on the rotating wheel 1 along the anticlockwise direction, and the third printing seat 13, the fourth printing seat 14, the fifth printing seat 15 and the sixth printing seat 16 print the upper layer material roll 7 on the combined printing roll 18 and print four different colors in sequence;

d. and (3) rolling, wherein after the composite printing roll 18 passes through the oil passing seat 17, the composite printing roll flows out from between the rotating wheel 1 and the oil passing seat 17, the material receiving shaft 20 is driven by an external motor, the material receiving shaft 20 rotates anticlockwise to roll the composite printing roll 18, and after the composite printing roll 18 is guided by the third guide shaft 19, the composite printing roll is rolled on the material receiving shaft 20.

In conclusion, the invention reduces the working procedures and improves the efficiency, thereby reducing the production cost; and two raw and other materials can carry out the dust absorption to the surface of pasting two raw and other materials through first dust absorption mechanism 4 and second dust absorption mechanism 9 before going on pasting, avoid mixing with the dust between two raw and other materials, ensured the production quality of double-deck label.

It will be evident to those skilled in the art that the invention 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 invention 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a double-deck label printing device of six colours is changeed in all rounds which characterized in that: comprises a rotating wheel (1), a lower discharging shaft (2), an upper discharging shaft (6), a lower material roll (5), an upper material roll (7), a receiving shaft (20) and a deviation rectifying mechanism (8) of a full-wheel rotating machine, wherein a plurality of first guide shafts (3) are arranged between the rotating wheel (1) and the lower material roll (2), the lower material roll (5) sequentially bypasses the lower material roll (2), the first guide shafts (3) and the rotating wheel (1), a plurality of second guide shafts (10) are arranged between the rotating wheel (1) and the upper material roll (6), the upper material roll (7) sequentially bypasses the upper material roll (6), the second guide shafts (10) and the rotating wheel (1), the lower material roll (5) and the upper material roll (7) are combined to form a combined printing roll (18), and a plurality of third guide shafts (19) are arranged between the rotating wheel (1) and the receiving shaft (20), the composite printing roll (18) sequentially rounds a third guide shaft (19) and a material receiving shaft (20);

a first printing seat (11), a second printing seat (12), a third printing seat (13), a fourth printing seat (14), a fifth printing seat (15) and a sixth printing seat (16) are sequentially arranged around the rotating wheel (1) along the anticlockwise direction, an oil passing seat (17) is arranged at the top of the rotating wheel (1), a first dust collection mechanism (4) and a second dust collection mechanism (9) are respectively arranged at the bottom of the lower layer material coil (5) and the top of the upper layer material coil (7), and a deviation correction mechanism (8) is arranged between the rotating wheel (1) and the upper layer discharging shaft (6);

the second printing seat (12) and the third printing seat (13) are respectively positioned at the top and the bottom of the upper-layer material coil (7), and the upper-layer material coil (7) penetrates through a gap formed between the third printing seat (13) and the rotating wheel (1);

the lower-layer material roll (5) is positioned at the top of the first printing seat (11), and the lower-layer material roll (5) penetrates through a gap formed between the first printing seat (11) and the rotating wheel (1).

2. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: the deviation rectifying mechanism (8) is a belt deviation rectifying machine, and the deviation rectifying mechanism (8) is positioned at the bottom of the second dust collecting mechanism (9).

3. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: the first dust collection mechanism (4) and the second dust collection mechanism (9) are consistent in structure, and both the first dust collection mechanism (4) and the second dust collection mechanism (9) adopt industrial dust collectors.

4. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: first printing seat (11), second printing seat (12), third printing seat (13), fourth printing seat (14), fifth printing seat (15) and sixth printing seat (16) evenly set up in the both sides of rotating wheel (1), and first printing seat (11), second printing seat (12), third printing seat (13), fourth printing seat (14), fifth printing seat (15) and sixth printing seat (16) and rotate the distance between wheel (1) and all the same.

5. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: the center of the lower discharging shaft (2), the upper discharging shaft (6) and the center of the material receiving shaft (20) are fixedly sleeved with an external motor output shaft.

6. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: the structure of the first printing seat (11), the second printing seat (12), the third printing seat (13), the fourth printing seat (14), the fifth printing seat (15) and the sixth printing seat (16) is consistent.

7. The full-rotation six-color double-layer label printing device and the printing process thereof according to claim 1, characterized in that: the lower layer material roll (5) wound on the rotating wheel (1) is positioned between the outer side of the rotating wheel (1) and the upper layer material roll (7).

8. A printing process for an all-round six-color two-layer label printing unit according to any one of claims 1 to 7, wherein: the printing process comprises the following steps:

a. discharging, winding a lower layer material coil (5) and an upper layer material coil (7) on a lower layer discharging shaft (2) and an upper layer discharging shaft (6) respectively, starting an external motor connected with the lower layer discharging shaft (2) and the upper layer discharging shaft (6), driving the lower layer discharging shaft (2) to rotate anticlockwise by the external motor, driving the upper layer discharging shaft (6) to rotate clockwise, discharging the lower layer material coil (5) and the upper layer material coil (7), guiding the lower layer material coil (5) and the upper layer material coil (7) to flow out through a first guide shaft (3) and a second guide shaft (10) respectively, winding on a rotating wheel (1), when the upper layer material coil (7) flows, the upper layer material roll (7) can be corrected through the correction mechanism (8), and the first dust suction mechanism (4) and the second dust suction mechanism (9) respectively suck dust on the surfaces of the lower layer material roll (5) and the upper layer material roll (7);

b. printing a lower layer material roll (5), wherein the lower layer material roll (5) penetrates through a position between a first printing seat (11) and a rotating wheel (1), winds onto the rotating wheel (1), moves on the rotating wheel (1) along the anticlockwise direction, performs printing processing on the surface of the lower layer material roll (5) through the first printing seat (11) and a second printing seat (12), and prints two colors on the surface of the lower layer material roll (5) through the first printing seat (11) and the second printing seat (12);

c. the method comprises the following steps of (1) covering a lower-layer material roll (5) and an upper-layer material roll (7) and printing the upper-layer material roll (7), wherein the upper-layer material roll (7) penetrates through a position between a rotating wheel (1) and a third printing seat (13), the upper-layer material roll (7) is attached to the lower-layer material roll (5), the upper-layer material roll (7) covers the surface of the lower-layer material roll (5) to form a covered printing roll (18), the covered printing roll (18) moves on the rotating wheel (1) along the anticlockwise direction, the third printing seat (13), a fourth printing seat (14), a fifth printing seat (15) and a sixth printing seat (16) print the upper-layer material roll (7) on the covered printing roll (18), and four different colors are printed in sequence;

d. and (2) rolling, after the composite printing roll (18) passes through the oil passing seat (17), the composite printing roll flows out from between the rotating wheel (1) and the oil passing seat (17), the material receiving shaft (20) is driven by an external motor, the material receiving shaft (20) rotates anticlockwise, the composite printing roll (18) is rolled, and after the composite printing roll (18) is guided by the third guide shaft (19), the composite printing roll is rolled on the material receiving shaft (20).

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