CN213894579U - Paper tape splicing device - Google Patents

Abstract

The utility model discloses a paper tape splicing device, which comprises a first discharging mechanism, a first compression roller mechanism, a second discharging mechanism, a third compression roller mechanism, a fourth compression roller mechanism, a paper cutting and sticking mechanism, a fifth compression roller mechanism, a pressing mechanism, a first sensor for detecting the paper tape on the first discharging mechanism and a second sensor for detecting the paper tape on the second discharging mechanism; the paper tape on the first discharging mechanism sequentially passes through the first compression roller mechanism, the second compression roller mechanism, the paper cutting and sticking mechanism and the fifth compression roller mechanism, and the paper tape on the second discharging mechanism sequentially passes through the third compression roller mechanism, the fourth compression roller mechanism, the paper cutting and sticking mechanism and the pressing mechanism. The utility model discloses can make the paper tape on every roll web can make full use of, reduce the waste of paper, belong to the technical field that the paper tape was carried.

Description

Paper tape splicing device

Technical Field

The utility model relates to a technical field that the paper tape was carried especially relates to a paper splicing apparatus of paper tape.

Background

In roll paper printing, in order to improve production efficiency and reduce waste, an un-stop unreeling machine is often arranged to perform double-station un-stop switching paper supply, two un-stop paper supply mechanisms are provided at present, one is zero-speed paper receiving, namely paper supply is performed through a paper storage rack, the new and old paper rolls are switched at zero speed in the switching process, the other is high-speed switching, no matter which switching mode is adopted at present, a part of materials are remained in a paper core, because the current switching judgment time is that an operator inputs the diameter of the paper core into a control system in advance, then inputs the diameter of the old paper roll needing to be switched, when the diameter is detected by equipment, the switching is performed, the detection diameter of the equipment is calculated through linear speed and angular speed, the direct measurement is not performed, because the size of the paper core has certain error, and a certain time error also exists in the switching mechanism, if the paper core is set according to the actual size of the paper core, the phenomenon that the paper is pulled up individually occurs, paper is cut off and stops, material and labor are wasted, so that the size of an operator is increased for ensuring safe switching during setting, a large part of paper is left in the paper core after switching, and when the paper for producing the coated paper is thin, the rest paper can only be treated as waste paper, and a lot of paper is wasted in one day.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists among the prior art, the utility model aims at: the utility model provides a paper tape meet paper device, the utility model discloses can make the paper tape on every roll web can make full use of, reduce the waste of paper.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a paper receiving device for a paper tape comprises a first discharging mechanism, a first compression roller mechanism, a second discharging mechanism, a third compression roller mechanism, a fourth compression roller mechanism, a paper cutting and sticking mechanism, a fifth compression roller mechanism, a pressing mechanism, a first sensor for detecting the paper tape on the first discharging mechanism, and a second sensor for detecting the paper tape on the second discharging mechanism;

the paper tape on the first discharging mechanism sequentially passes through the first compression roller mechanism, the second compression roller mechanism, the paper cutting and sticking mechanism and the fifth compression roller mechanism, and the paper tape on the second discharging mechanism sequentially passes through the third compression roller mechanism, the fourth compression roller mechanism and the paper cutting and sticking mechanism, and then is clamped on the pressing mechanism.

Further, the first press roller mechanism comprises a first positioning roller, a first brake roller and a first driving piece for driving the first brake roller to move away from/close to the first positioning roller; the second press roller mechanism comprises a second positioning roller, a second brake roller and a first driving piece for driving the second brake roller to move away from/close to the second positioning roller; and the paper tape on the first discharging mechanism sequentially bypasses the first positioning roller and the second positioning roller.

Further, the paper splicing device of the paper tape also comprises a first guide roller and a second guide roller; and a paper tape on the first discharging mechanism sequentially bypasses the first positioning roller, the second positioning roller, the first guide roller and the second guide roller and then passes through the paper cutting and sticking mechanism.

Further, the third press roller mechanism comprises a third positioning roller, a third brake roller and a third driving member for driving the third brake roller to move away from/close to the third positioning roller; the fourth press roller mechanism comprises a fourth positioning roller, a fourth brake roller and a fourth driving piece for driving the fourth brake roller to move away from/close to the fourth positioning roller; and the paper tape on the second discharging mechanism sequentially bypasses the third positioning roller and the fourth positioning roller.

Further, the paper splicing device of the paper tape also comprises a third guide roller and a fourth guide roller; and a paper tape on the second discharging mechanism sequentially bypasses the third positioning roller, the fourth positioning roller, the third guide roller and the fourth guide roller and then passes through the paper cutting and sticking mechanism.

Further, the fifth pressure roller mechanism comprises a fifth positioning roller, a fifth brake roller and a fifth driving piece for driving the fifth brake roller to move away from/close to the fifth positioning roller; the paper tape passes between a fifth registration roller and the fifth brake roller.

Further, the paper cutting and sticking mechanism comprises a first clamping plate, a second clamping plate, a first air cylinder, a first workbench, a second air cylinder, a cutter connected with an expansion link of the second air cylinder, a third air cylinder, a first suction plate connected with an expansion link of the third air cylinder, a fourth air cylinder, a second workbench, a fifth air cylinder, a chopping board connected with an expansion link of the fifth air cylinder, a sixth air cylinder and a second suction plate connected with an expansion link of the sixth air cylinder; adhesive tapes are respectively sucked on the first suction plate and the second suction plate;

the paper tape is clamped between the first clamping plate and the second clamping plate, the first clamping plate and the second clamping plate are positioned between the first workbench and the second workbench, the first clamping plate is provided with a first window, the second clamping plate is provided with a second window opposite to the first window, the second cylinder for driving the cutter to extend out or retract from the first window and the third cylinder for driving the first suction plate to extend out or retract from the first window are both arranged on the first workbench, the fifth cylinder for driving the cutting plate to extend out or retract from the second window and the sixth cylinder for driving the second suction plate to extend out or retract from the second window are both arranged on the second workbench, and a telescopic rod for switching the cutter and the first suction plate to alternately align to the first cylinder of the first window is connected with the first workbench, and the telescopic rod used for switching the cutting board and the second suction board to alternately align with the fourth cylinder of the second window is connected with the second workbench.

Further, the paper cutting and sticking mechanism further comprises a seventh air cylinder for driving the first clamping plate to approach/separate to/from the second clamping plate and an eighth air cylinder for driving the second clamping plate to approach/separate to/from the first clamping plate; the telescopic rod of the seventh cylinder is connected with the first clamping plate, and the telescopic rod of the eighth cylinder is connected with the second clamping plate.

Further, the number of the pressing mechanisms is two; one of the pressing mechanisms is used for clamping a paper tape of the roll paper to be conveyed on the first discharging mechanism, and the other pressing mechanism is used for clamping a paper tape of the roll paper to be conveyed on the second discharging mechanism.

Generally, compared with the prior art, the utility model, its beneficial effect lies in: the utility model discloses be equipped with first drop feed mechanism and the second drop feed mechanism that is used for carrying the paper tape, come the paper on the roll web of carrying in turn through first drop feed mechanism and second drop feed mechanism, the paper tape that first drop feed mechanism and second drop feed mechanism carried can be switched over in turn automatically, has improved the efficiency of paper tape printing. Simultaneously the utility model discloses set up first sensor, second sensor, whether can accurately detect the paper tape on first drop feed mechanism and the second drop feed mechanism and carried, improve the utilization ratio of paper tape, reduced the waste of paper tape.

Drawings

Fig. 1 is a schematic structural diagram of a paper splicing device of a paper tape.

Fig. 2 is a schematic structural diagram of a paper cutting and sticking mechanism.

In the figure, 1 is a first discharging mechanism, 2 is a second discharging mechanism, 3 is a first press roller mechanism, 4 is a second press roller mechanism, 5 is a third press roller mechanism, 6 is a fourth press roller mechanism, 7 is a fifth press roller mechanism, 8 is a paper cutting and sticking mechanism, 9 is a pressing mechanism, 10 is a first sensor, 11 is a second sensor, 12 is a first guide roller, 13 is a second guide roller, 14 is a third guide roller, 15 is a fourth guide roller, 100 is a paper tape, 200 is a paper storage mechanism, and 300 is printing equipment;

801 is a first clamping plate, 802 is a second clamping plate, 803 is a first air cylinder, 804 is a first workbench, 805 is a second air cylinder, 806 is a cutter, 807 is a third air cylinder, 808 is a first suction plate, 809 is a fourth air cylinder, 810 is a second workbench, 811 is a fifth air cylinder, 812 is a cutting board, 813 is a sixth air cylinder, 814 is a second suction plate, 815 is a first window, 816 is a second window, 817 is a seventh air cylinder, and 818 is an eighth air cylinder.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "communicating" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For convenience of description, unless otherwise noted, the up-down direction described below coincides with the up-down direction of fig. 1 itself, and the left-right direction described below coincides with the left-right direction of fig. 1 itself.

As shown in fig. 1 to 2, the present embodiment provides a paper splicing apparatus for a paper tape 100, which includes a first discharging mechanism 1, a first press roller mechanism 3, a second press roller mechanism 4, a second discharging mechanism 2, a third press roller mechanism 5, a fourth press roller mechanism 6, a paper cutting and sticking mechanism 8, a fifth press roller mechanism 7, a pressing mechanism 9, a first sensor 10 for detecting the paper tape 100 on the first discharging mechanism 1, and a second sensor 11 for detecting the paper tape 100 on the second discharging mechanism 2; the first discharging mechanism 1 and the second discharging mechanism 2 are placed to alternately convey the paper tape 100, when the first discharging mechanism 1 is in a state of conveying the paper tape 100, the second discharging mechanism 2 is in a state of waiting to convey the paper tape 100, the paper tape 100 on the first discharging mechanism 1 is conveyed to the second discharging mechanism 2, the first discharging mechanism 1 puts the new paper tape 100 of the roll paper again, the paper tape 100 on the second discharging mechanism 2 is conveyed to the first discharging mechanism 1 again after being conveyed, the second discharging mechanism 2 puts the new roll paper tape 100 again, the processes are repeated continuously, and double-station non-stop paper supply switching is achieved. The first discharging mechanism 1 and the second discharging mechanism 2 are both provided with a central shaft for placing roll paper, and the paper core of the roll paper is sleeved on the central shaft.

Carry paper tape 100 and pass first compression roller mechanism 3, second compression roller mechanism 4, cut paper sticky paper mechanism 8, fifth compression roller mechanism 7 in proper order on the first drop feed mechanism 1, the realization tensioning of first compression roller mechanism 3, second compression roller mechanism 4 is passed according to the route of S-shaped to paper tape 100 for paper tape 100 is in the tensioning state all the time from first drop feed mechanism 1 to first compression roller mechanism 3, second compression roller mechanism 4, increase frictional force, prevent that paper tape 100 is drawn light in the twinkling of an eye. The tensioned paper tape 100 then passes through the paper cutting and pasting mechanism 8 and the fifth roller mechanism 7, and the fifth roller mechanism 7 can also tension the paper tape 100. The paper web 100 passes through the fifth roll mechanism 7 to the paper storage mechanism 200, and is finally fed to the printing apparatus 300.

The paper tape 100 to be conveyed on the second discharging mechanism 2 sequentially passes through the third press roller mechanism 5, the fourth press roller mechanism 6, the paper cutting and sticking mechanism 8 and the pressing mechanism 9. The pressing mechanism 9 is used for clamping a paper head of a paper tape 100 to be conveyed, and the paper tape 100 passes through the third pressing roller mechanism 5 and the fourth pressing roller mechanism 6 to be tensioned according to an S-shaped path, so that the paper tape 100 is always tensioned from the second discharging mechanism 2 to the third pressing roller mechanism 5 and the fourth pressing roller mechanism 6. The paper tape 100 in a tensioned state passes through the paper cutting and sticking mechanism 8 and the pressing mechanism 9 and is clamped on the pressing mechanism 9, and the pressing mechanism 9 can also make the paper tape 100 in a tensioned state. After the first sensor 10 detects that the paper tape 100 on the first discharging mechanism 1 is conveyed completely, the first pressure roller mechanism 3, the second pressure roller mechanism 4 and the fifth pressure roller mechanism 7 clamp the paper tape 100 conveyed on the first discharging mechanism 1, the paper tape 100 clamped on the first discharging mechanism 1 and the paper tape 100 conveyed on the second discharging mechanism 2 are cut off through the paper cutting and sticking mechanism 8, after the paper tape 100 clamped on the pressing mechanism 9 and the paper tape 100 clamped on the first pressure roller mechanism 3 and the second pressure roller mechanism 4 are removed, the paper tape 100 clamped on the fifth pressure roller mechanism 7 and the paper tape 100 conveyed on the second discharging mechanism 2 are stuck together through the paper cutting and sticking mechanism 8, paper splicing is completed, finally, the paper tape 100 is loosened through the fifth pressure roller mechanism 7, and the paper splicing device continues to convey the paper tape 100 on the second discharging mechanism 2. And a new roll paper is placed on the first discharging mechanism 1 again, and the second sensor 11 detects that the paper tape 100 on the second discharging mechanism 2 is conveyed, and then the steps are switched, so that the paper tape 100 is conveyed continuously at double stations.

Specifically, in one embodiment, the first pressure roller mechanism 3 includes a first positioning roller, a first brake roller, and a first driving member that drives the first brake roller to move away from/close to the first positioning roller; the second press roller mechanism 4 comprises a second positioning roller, a second brake roller and a first driving piece for driving the second brake roller to move away from/close to the second positioning roller; the paper tape 100 on the first discharging mechanism 1 sequentially bypasses the first positioning roller and the second positioning roller. The paper tape 100 winds around the first registration roller and the second registration roller along the S-shaped path against the circumferential side of the first registration roller and the circumferential side of the second registration roller, increasing friction force and preventing the paper tape 100 from being instantly pulled. The first positioning roller and the second positioning roller can rotate to provide power for conveying the paper tape 100, and the paper tape 100 on the first discharging mechanism 1 sequentially passes through the space between the first positioning roller and the first brake roller and the space between the second positioning roller and the second brake roller. After the first sensor 10 detects that the paper tape 100 on the first discharging mechanism 1 is conveyed, the first brake roller approaches to the first positioning roller, and the second brake roller approaches to the second positioning roller, so that the tail of the roll paper is clamped, and the paper tape 100 stops conveying.

Specifically, in one embodiment, the paper splicing device for the paper tape 100 further comprises a first guide roller 12 and a second guide roller 13, and the paper tape 100 on the first discharging mechanism 1 sequentially bypasses the first positioning roller, the second positioning roller, the first guide roller 12 and the second guide roller 13 and then passes through the paper cutting and sticking mechanism 8. The paper web 100 passes around the first guide roller 12 and the second guide roller 13 in order against the circumferential side of the first guide roller 12 and the circumferential side of the second guide roller 13, so that the paper web 100 is deflected upward through the cut-and-stick mechanism 8.

Specifically, in one embodiment, the third pressure roller mechanism 5 includes a third registration roller, a third brake roller, and a third driving member that drives the third brake roller to move away from/close to the third registration roller; the fourth press roller mechanism 6 comprises a fourth positioning roller, a fourth brake roller and a fourth driving piece for driving the fourth brake roller to move away from/close to the fourth positioning roller; the paper tape 100 on the second discharging mechanism 2 sequentially bypasses the third positioning roller and the fourth positioning roller. The paper tape 100 winds around the third positioning roller and the fourth positioning roller along an S-shaped path along the circumferential side surface of the third positioning roller and the circumferential side surface of the fourth positioning roller, the third positioning roller and the fourth positioning roller can rotate to provide power for conveying the paper tape 100, and the paper tape 100 on the second discharging mechanism 2 sequentially passes through the space between the third positioning roller and the third brake roller and the space between the fourth positioning roller and the fourth brake roller. After the second sensor 11 detects that the paper tape 100 on the second discharging mechanism 2 is conveyed, the third brake roller approaches to the third positioning roller, and the fourth brake roller approaches to the fourth positioning roller, so that the tail of the roll paper is clamped, and the paper tape 100 stops conveying.

Specifically, in one embodiment, the paper splicing device for the paper tape 100 further comprises a third guide roller 14 and a fourth guide roller 15, and the paper tape 100 on the second discharging mechanism 2 sequentially passes through the paper cutting and sticking mechanism 8 after passing around the third positioning roller, the fourth positioning roller, the third guide roller 14 and the fourth guide roller 15. The paper web 100 passes around the third guide roller 14 and the fourth guide roller 15 in this order against the circumferential side of the third guide roller 14 and the circumferential side of the fourth guide roller 15, so that the paper web 100 is deflected upward through the cut-and-stick mechanism 8.

Specifically, in one embodiment, the fifth pressure roller mechanism 7 includes a fifth registration roller, a fifth brake roller, and a fifth driving member that drives the fifth brake roller to move away from/close to the fifth registration roller; paper strap 100 is positioned between the fifth registration roller and the fifth brake roller. The paper tape 100 conveyed to the paper storage mechanism 200 passes through the space between the fifth positioning roller and the fifth brake roller, after the paper tape 100 on the first discharging mechanism 1 or the second discharging mechanism 2 is conveyed, the fifth brake roller approaches to the fifth positioning roller to clamp the paper tape 100, and after the paper cutting and sticking mechanism 8 finishes the paper cutting and sticking process, the fifth brake roller is far away from the fifth positioning roller to release the paper tape 100, and finally the paper tape 100 is continuously conveyed to the paper storage mechanism 200.

Specifically, in one embodiment, the paper cutting and sticking mechanism 8 includes a first clamping plate 801, a second clamping plate 802, a first air cylinder 803, a first workbench 804, a second air cylinder 805, a cutter 806 connected with an expansion link of the second air cylinder 805, a third air cylinder 807, a first suction plate 808 connected with an expansion link of the third air cylinder 807, a fourth air cylinder 809, a second workbench 810, a fifth air cylinder 811, a cutting plate 812 connected with an expansion link of the fifth air cylinder 811, a sixth air cylinder 813, and a second suction plate 814 connected with an expansion link of the sixth air cylinder 813; the first suction plate 808 and the second suction plate 814 are respectively sucked with adhesive tapes; paper tape 100 is held between first clamping plate 801 and second clamping plate 802, first clamping plate 801 and second clamping plate 802 are positioned between first working table 804 and second working table 810, first window 815 is provided on first clamping plate 801, second window 816 opposite to first window 815 is provided on second clamping plate 802, second cylinder 805 for driving cutter 806 to extend/retract from first window 815 and third cylinder 807 for driving first suction plate 808 to extend/retract from first window 815 are both mounted on first working table 804, fifth cylinder 811 for driving cutter 812 to extend/retract from second window 816 and sixth cylinder 813 for driving second suction plate 814 to extend/retract from second window 816 are both mounted on second working table 810, a telescopic bar for switching cutter 806 and first suction plate 808 to align alternately with first cylinder 803 of first window 815 is connected to first working table 804, a telescopic rod of a fourth cylinder 809 for switching the cutting board 812 and the second suction board 814 to be alternately aligned with the second window 816 is connected with the second worktable 810. The first suction plate 808 and the second suction plate 814 are respectively provided with a plurality of negative pressure holes, the adhesive tape is sucked through the negative pressure, and the adhesive surface of the adhesive tape on the first suction plate 808 is opposite to the adhesive surface of the adhesive tape on the second suction plate 814. When the paper needs to be spliced, the cutter 806 extends out of the first window 815, the cutting board 812 extends out of the second window 816, the paper tape 100 discharged from the first discharging mechanism 1 and the paper tape 100 discharged from the second discharging mechanism 2 are cut simultaneously, and the cutter 806 and the cutting board 812 are reset. Then, the paper head (with little margin) discharged by the second discharging mechanism 2 and the paper tail (with little margin) discharged by the first discharging mechanism 1 are removed, then the first suction plate 808 and the second suction plate 814 are respectively aligned to the first window 815 and the second window 816 through the first air cylinder 803 and the fourth air cylinder 809, the first suction plate 808 and the second suction plate 814 are driven to approach each other and the paper tape 100 clamped on the fifth compression roller mechanism 7 and the paper tape 100 discharged by the second discharging mechanism 2 are bonded together, the paper splicing is completed, and the device is started to convey the paper tape 100 on the second discharging mechanism 2.

Specifically, in one embodiment, the paper cutting and sticking mechanism 8 further includes a seventh air cylinder 817 for driving the first clamp plate 801 to approach/separate toward/from the second clamp plate 802, and an eighth air cylinder 818 for driving the second clamp plate 802 to approach/separate toward/from the first clamp plate 801. When the paper is not spliced, the first clamping plate 801 and the second clamping plate 802 are separated, so that the paper tape 100 can pass through the paper splicing device conveniently, and when the paper tape 100 is cut and pasted, the first clamping plate 801 and the second clamping plate 802 are close to and clamp the paper tape 100, so that the paper tape 100 is prevented from losing the tension and falling after being cut, and the subsequent work of pasting the paper tape 100 is facilitated.

Specifically, in one embodiment, there are two hold-down mechanisms 9; one of the pressing mechanisms 9 is used for clamping the paper strip 100 of the rolled paper on the first discharging mechanism 1, and the other pressing mechanism 9 is used for clamping the paper strip 100 of the rolled paper on the second discharging mechanism 2.

The working process of the paper receiving device comprises the following steps:

s1: preparing a first discharging mechanism 1, a first compression roller mechanism 3, a second compression roller mechanism 4, a second discharging mechanism 2, a third compression roller mechanism 5, a fourth compression roller mechanism 6, a paper cutting and sticking mechanism 8, a fifth compression roller mechanism 7, a pressing mechanism 9, a first sensor 10 and a second sensor 11; the first discharging mechanism 1 and the second discharging mechanism 2 alternately convey the paper tape 100.

S2: roll paper is placed on the first material placing mechanism 1 and the second material placing mechanism 2; the first sensor 10 is arranged beside the first discharging mechanism 1 and used for detecting the thickness of the rolled paper on the first discharging mechanism 1, and the second sensor 11 is arranged beside the second discharging mechanism 2 and used for detecting the thickness of the rolled paper on the second discharging mechanism 2; when the first sensor 10 detects that the residual diameter of the roll paper on the first discharging mechanism 1 is larger than the diameter of the paper core by 5mm, the detected signal is effective, and the control system considers that the roll paper exists on the first discharging mechanism 1, so that the misoperation interference is effectively prevented. When the second sensor 11 detects that the residual diameter of the roll paper on the second discharging mechanism 2 is larger than the diameter of the paper core by 5mm, the detected signal is calculated, and the control system considers that the roll paper exists on the second discharging mechanism 2, so that the misoperation is effectively prevented from being interfered. The detection point of the first sensor 10 is at the cutting point of the paper tape 100 on the first discharging mechanism 1, after the paper tape 100 on the first discharging mechanism 1 is discharged, no paper tape 100 exists between the first discharging mechanism 1 and the first press roller mechanism 3, and the first sensor 10 cannot detect the paper tape 100, which indicates that the paper tape 100 of the first discharging mechanism 1 is conveyed completely. The detection point of the second sensor 11 is at the cutting point of the paper tape 100 on the second discharging mechanism 2, after the paper tape 100 on the second discharging mechanism 2 is discharged, no paper tape 100 exists between the second discharging mechanism 2 and the second pressing roller mechanism 4, and the second sensor 11 cannot detect the paper tape 100, which indicates that the paper tape 100 is completely conveyed.

S3: sequentially enabling a paper tape 100 of the roll paper on the first discharging mechanism 1 to pass through a first compression roller mechanism 3, a second compression roller mechanism 4, a paper cutting and sticking mechanism 8 and a fifth compression roller mechanism 7; and the paper tape 100 of the roll paper on the second discharging mechanism 2 sequentially passes through the third pressing roller mechanism 5, the fourth pressing roller mechanism 6, the paper cutting and sticking mechanism 8 and the pressing mechanism 9 and is clamped on the pressing mechanism 9. When the roll paper on the second discharging mechanism 2 is conveyed, the paper tape 100 of the roll paper on the second discharging mechanism 2 sequentially passes through the third pressing roller mechanism 5, the fourth pressing roller mechanism 6, the paper cutting and sticking mechanism 8 and the fifth pressing roller mechanism 7; the paper tape 100 of the roll paper on the first discharging mechanism 1 sequentially passes through the first pressing roller mechanism 3, the paper cutting and sticking mechanism 8 and the pressing mechanism 9 and is clamped on the pressing mechanism 9, and the roll paper on the first discharging mechanism 1 is in a tape conveying state.

S4: starting the paper receiving device, so that the paper tape 100 of the roll paper on the first discharging mechanism 1 is continuously sent to a subsequent processing procedure from the fifth compression roller mechanism 7; the subsequent processing steps are the paper storage mechanism 200 and the printing apparatus 300.

S5: after the first sensor 10 detects that the paper tape 100 of the roll paper on the first discharging mechanism 1 is discharged, the first press roller mechanism 3, the second press roller mechanism 4 and the fifth press roller mechanism 7 simultaneously clamp the paper tape 100 (tail) discharged from the first discharging mechanism 1;

s6: the paper cutting and sticking mechanism 8 simultaneously clamps and cuts the paper tape 100 discharged by the first discharging mechanism 1 and the paper tape 100 discharged by the second discharging mechanism 2, the pressing mechanism 9 pulls the paper tape 100 (paper head) discharged by the second discharging mechanism 2 clamped by the pressing mechanism out of the paper cutting and sticking mechanism 8, and the second compression roller mechanism 4 pulls the paper tape 100 (paper tail) discharged by the first discharging mechanism 1 clamped by the pressing mechanism out of the paper cutting and sticking mechanism 8; the pressing mechanism 9 is two rotating shafts, the paper tape 100 is clamped between the two rotating shafts, and the paper tape 100 is clamped by the two rotating shafts to send out the paper tape 100, so that the paper tape removing process is completed. After the paper tail of the first discharging mechanism 1 is removed by the first pressing roller mechanism 3 and the second pressing roller mechanism 4, new roll paper is placed on the first discharging mechanism 1 again, the paper head of the new roll paper sequentially passes through the first pressing roller mechanism 3, the second pressing roller mechanism 4 and the paper cutting and sticking mechanism 8 and is finally clamped on the pressing mechanism 9, and the roll paper on the first discharging mechanism 1 is switched back again after the roll paper of the second discharging mechanism 2 is conveyed.

S7: the paper cutting and sticking mechanism 8 is used for bonding the paper tape 100 clamped by the fifth compression roller mechanism 7 with the paper tape 100 discharged by the second discharging mechanism 2;

s8: starting the paper receiving device, and conveying the paper tape 100 discharged by the second discharging mechanism 2 to a subsequent processing procedure from the fifth compression roller mechanism 7;

s9: after the paper tape 100 discharged from the second discharging mechanism 2 is used up, the third roller mechanism 5, the fourth roller mechanism 6 and the fifth roller mechanism 7 nip the paper tail conveyed by the first discharging mechanism 1, and the steps from S5 to S8 are switched.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (9)

1. A paper splicing device of paper tape is characterized in that: the automatic paper tape feeding device comprises a first feeding mechanism, a first compression roller mechanism, a second feeding mechanism, a third compression roller mechanism, a fourth compression roller mechanism, a paper cutting and sticking mechanism, a fifth compression roller mechanism, a pressing mechanism, a first sensor for detecting a paper tape on the first feeding mechanism, and a second sensor for detecting the paper tape on the second feeding mechanism;

the paper tape on the first discharging mechanism sequentially passes through the first compression roller mechanism, the second compression roller mechanism, the paper cutting and sticking mechanism and the fifth compression roller mechanism, and the paper tape on the second discharging mechanism sequentially passes through the third compression roller mechanism, the fourth compression roller mechanism and the paper cutting and sticking mechanism, and then is clamped on the pressing mechanism.

2. A splicing device for paper strips according to claim 1, characterized in that: the first press roller mechanism comprises a first positioning roller, a first brake roller and a first driving piece for driving the first brake roller to move away from/close to the first positioning roller; the second press roller mechanism comprises a second positioning roller, a second brake roller and a first driving piece for driving the second brake roller to move away from/close to the second positioning roller; and the paper tape on the first discharging mechanism sequentially bypasses the first positioning roller and the second positioning roller.

3. A splicing device for paper strips according to claim 2, characterized in that: the device also comprises a first guide roller and a second guide roller; and a paper tape on the first discharging mechanism sequentially bypasses the first positioning roller, the second positioning roller, the first guide roller and the second guide roller and then passes through the paper cutting and sticking mechanism.

4. A splicing device for paper strips according to claim 1, characterized in that: the third press roller mechanism comprises a third positioning roller, a third brake roller and a third driving piece for driving the third brake roller to move away from/close to the third positioning roller; the fourth press roller mechanism comprises a fourth positioning roller, a fourth brake roller and a fourth driving piece for driving the fourth brake roller to move away from/close to the fourth positioning roller; and the paper tape on the second discharging mechanism sequentially bypasses the third positioning roller and the fourth positioning roller.

5. A splicing device for paper strips according to claim 4, characterized in that: the device also comprises a third guide roller and a fourth guide roller; and a paper tape on the second discharging mechanism sequentially bypasses the third positioning roller, the fourth positioning roller, the third guide roller and the fourth guide roller and then passes through the paper cutting and sticking mechanism.

6. A splicing device for paper strips according to claim 1, characterized in that: the fifth pressure roller mechanism comprises a fifth positioning roller, a fifth brake roller and a fifth driving piece for driving the fifth brake roller to move away from/close to the fifth positioning roller; the paper tape passes between a fifth registration roller and the fifth brake roller.

7. A splicing device for paper strips according to claim 1, characterized in that: the paper cutting and sticking mechanism comprises a first clamping plate, a second clamping plate, a first air cylinder, a first workbench, a second air cylinder, a cutter connected with an expansion link of the second air cylinder, a third air cylinder, a first suction plate connected with an expansion link of the third air cylinder, a fourth air cylinder, a second workbench, a fifth air cylinder, a chopping board connected with an expansion link of the fifth air cylinder, a sixth air cylinder and a second suction plate connected with an expansion link of the sixth air cylinder; adhesive tapes are respectively sucked on the first suction plate and the second suction plate;

the paper tape is clamped between the first clamping plate and the second clamping plate, the first clamping plate and the second clamping plate are positioned between the first workbench and the second workbench, the first clamping plate is provided with a first window, the second clamping plate is provided with a second window opposite to the first window, the second cylinder for driving the cutter to extend out or retract from the first window and the third cylinder for driving the first suction plate to extend out or retract from the first window are both arranged on the first workbench, the fifth cylinder for driving the cutting plate to extend out or retract from the second window and the sixth cylinder for driving the second suction plate to extend out or retract from the second window are both arranged on the second workbench, and a telescopic rod for switching the cutter and the first suction plate to alternately align to the first cylinder of the first window is connected with the first workbench, and the telescopic rod used for switching the cutting board and the second suction board to alternately align with the fourth cylinder of the second window is connected with the second workbench.

8. A splicing device for paper strips according to claim 7, characterized in that: the paper cutting and sticking mechanism further comprises a seventh air cylinder for driving the first clamping plate to approach to/depart from the second clamping plate and an eighth air cylinder for driving the second clamping plate to approach to/depart from the first clamping plate; the telescopic rod of the seventh cylinder is connected with the first clamping plate, and the telescopic rod of the eighth cylinder is connected with the second clamping plate.

9. A splicing device for paper strips according to claim 1, characterized in that: the number of the pressing mechanisms is two; one of the pressing mechanisms is used for clamping a paper tape of the roll paper to be conveyed on the first discharging mechanism, and the other pressing mechanism is used for clamping a paper tape of the roll paper to be conveyed on the second discharging mechanism.

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