CN105501533A - Device used for splicing roll type raw and auxiliary materials and splicing method - Google Patents

Abstract

The invention discloses a device used for splicing roll type raw and auxiliary materials. The device comprises two feeding rolls which are arranged on a splicing core area and a cutting knife rest, wherein the two feeding rolls are in parallel arranged left and right; the cutting knife rest is positioned above the two feeding rolls; the outer sides of the two feeding rolls are respectively provided with a synchronous belt conveying mechanism; the two feeding rolls oppositely rotate, one feeding roller can generate radical movement in a rotary process under the driving of an eccentric shaft, so that one feeding roll gets close to the other feeding roll; mandrels used for mounting coils are in parallel arranged at the two sides above the splicing core area; and a steering roll is arranged between the mandrels and the synchronous belt conveying mechanism. In a working process, the device does not generate flat plate type contact, and realizes splicing by utilizing roll-to-roll extrusion type contact, so that the generated noises are smaller. The invention further discloses a splicing method for roll type raw and auxiliary materials.

Description

For splicing device and the joining method of coil type raw and auxiliary material

Technical field

The present invention relates to a kind of tobacco package machinery, being specifically related to a kind of device for splicing coil type raw and auxiliary material.The invention still further relates to a kind of joining method of coil type raw and auxiliary material.

Background technology

In tobacco industry, need to carry out automation splicing to the coil type such as paper material or film raw and auxiliary material, as the splicing to aluminium foil paper, thus formed the continual raw and auxiliary material supply of next procedure.

Existing splicing apparatus is made up of two cylinders that about two is the movable carriages of 45 degree of angles placements and the Immovable support of midway location and the swing of control movable carriage.This splicing apparatus, owing to being 45 degree of fan-shaped layouts between two movable carriage, therefore take installing space comparatively large, simultaneously when completing splicing, left and right movable carriage need be patted mutually in very short time, causes larger noise and wearing and tearing.In addition, when carrying out dead work, operation is more, and operative employee must manually the Paper tractor on for subsequent use coiling to movable carriage sticks Acrylic Foam Tape, and in this process, hand may come in contact with cutting knife, have certain potential safety hazard.

Summary of the invention

Technical matters to be solved by this invention is to provide a kind of device for splicing coil type raw and auxiliary material, and coil type raw and auxiliary material can be carried out effective failure-free automation splicing by it, and easy-to-operate.

For solving the problems of the technologies described above, the present invention for splicing the technical solution of the device of coil type raw and auxiliary material is:

For work paper 14 and paper for subsequent use 13 are bondd by double faced adhesive tape 30, it is characterized in that: comprise be arranged at splicing nucleus 15 two feeding-in rolls 17,18, cutting knife 16, two feeding-in rolls 17, about 18 are set up in parallel, and cutting knife 16 is positioned at the top of two feeding-in rolls 17,18; The two ends, left and right of cutting knife 16 are respectively arranged with cutting knife 45,46, and the two ends, left and right of cutting knife 16 can move downward; The outside of two feeding-in rolls 17,18 is respectively arranged with synchronous belt conveying mechanism 20,19; The sense of motion of the Timing Belt 40 of described two synchronous belt conveying mechanisms 20,19 is relative; Two feeding-in rolls 17,18 rotate relatively, and one of them feeding-in roll 18 can move radially under eccentric shaft drives in rotary course simultaneously, thus make one of them feeding-in roll 18 near another feeding-in roll 17; The both sides, top of splicing nucleus 15 are set side by side with for installing the axle 11,12 coiling 10,9; Slewing rollers 21,21-1 is provided with between axle 11,12 and synchronous belt conveying mechanism 20,19; The below of two feeding-in rolls 17,18 is provided with lower slewing rollers 22.

Enter synchronous belt conveying mechanism 20 after slewing rollers 21 walked around by described the first paper 14 coiling 10, be delivered to feeding-in roll 17 through synchronous belt conveying mechanism 20; Enter another synchronous belt conveying mechanism 19 after another slewing rollers 21-1 walked around by another second paper 13 coiling 9, be delivered to another feeding-in roll 18 through another synchronous belt conveying mechanism 19; Paper 14,13 exports between two feeding-in rolls 17,18 by two feeding-in rolls 17,18 in rotary course, one of them feeding-in roll 18 moves radially and another feeding-in roll 17 close in rotary course, double faced adhesive tape 30 in the beginning section of the second paper 13 is squeezed on the first paper 14 by two feeding-in rolls 17,18 in the process of relative movement, realizes the splicing of two paper 13,14; One end of cutting knife 16 is moved downward, and the front end of the first paper 14 cuts off by this Front cutting tool 45 of cutting knife 16, then the stub segment splicing of the first paper 14 becomes the paper that newly works on the second paper 13; New work paper exports subsequent processing to through lower slewing rollers 22.

The middle part of described cutting knife 16 connects double-acting cylinder group 26 by cutting knife axle 27, and the two ends, left and right of cutting knife 16 can be driven under the driving of double-acting cylinder group 26 to move downward.

Described feeding-in roll 18 connects paper feeding roll shaft 29, and paper feeding roll shaft 29 connects rotary cylinder 32 by coupler 31; Feeding-in roll 18 can be driven to rotate by rotary cylinder 32; Feeding-in roll 18 is provided with gas distribution plate 43, and gas distribution plate 43 is connected with negative pressure air distribution shaft 34 by casing 23, and feeding-in roll 18 is by negative-pressure adsorption paper.

The paper feeding roll shaft 29 of one of them feeding-in roll 18 described is eccentric shaft, axle centered by the paper feeding roll shaft 28 of another feeding-in roll 17 described.

Described synchronous belt conveying mechanism 20 comprises between two synchronous pulleys, 35, two synchronous pulleys 35 and is connected with Timing Belt 40; One of them synchronous pulley 35 connects Timing Belt wheel shaft 33, and Timing Belt wheel shaft 33 connects stepping motor 39 by coupler 37; Drive synchronous pulley 35 to rotate by stepping motor 39, thus realize the motion of Timing Belt 40; Timing Belt 40 is provided with multiple pore, and Timing Belt 40 connects distribution delivery platform 44; Distribution delivery platform 44 connects tracheae 38, and tracheae 38 is for inputting negative pressure gas; The negative pressure gas inputted through tracheae 38 to export the pore on Timing Belt 40 to by the air drain of distribution delivery platform 44, by the pore absorption paper on Timing Belt 40.

The present invention also provides a kind of joining method of coil type raw and auxiliary material, and work paper 14 and paper for subsequent use 13 can be bondd by double faced adhesive tape 30, its technical solution is, comprises the following steps:

Enter left synchronous belt conveying mechanism 20 after making work paper 14 walk around left steering roller 21, open the negative-pressure adsorption work paper 14 of left synchronous belt conveying mechanism 20; Start the stepping motor 39 of left synchronous belt conveying mechanism 20, stepping motor 39 drives synchronous pulley 35 to rotate, and work paper 14 is delivered to the vertical direction region of left feeding-in roll 17 by Timing Belt 40; Close the negative pressure of left synchronous belt conveying mechanism 20, open the negative pressure of left feeding-in roll 17 simultaneously, left feeding-in roll 17 is by negative-pressure adsorption work paper 14; Enter right synchronous belt conveying mechanism 19 after making paper 13 for subsequent use walk around right steering roller 21-1, open the negative-pressure adsorption paper 13 for subsequent use of right synchronous belt conveying mechanism 19; Double faced adhesive tape 30 is pasted in the beginning section of paper 13 for subsequent use; Then start the stepping motor 39 of right synchronous belt conveying mechanism 19, stepping motor 39 drives synchronous pulley 35 to rotate, and paper 13 for subsequent use is delivered to the vertical direction region of right feeding-in roll 18 by Timing Belt 40; Close the negative pressure of right synchronous belt conveying mechanism 19, open the negative pressure of right feeding-in roll 18 simultaneously, right feeding-in roll 18 is by negative-pressure adsorption paper 13 for subsequent use; Start the rotary cylinder 32 of left feeding-in roll 17 and right feeding-in roll 18 respectively, work paper 14 and paper for subsequent use 13 export between left feeding-in roll 17 and right feeding-in roll 18 by left feeding-in roll 17 and right feeding-in roll 18 respectively; Right feeding-in roll 18 radially parallel motion under the drive of eccentric shaft, make right feeding-in roll 18 near left feeding-in roll 17, paper for subsequent use 13 on it extrudes on the work paper 14 of contact on left feeding-in roll 17 by right feeding-in roll 18, thus together with being pasted with work paper 14 by paper 13 for subsequent use, realize the splicing of paper 13 for subsequent use and work paper 14; Start double-acting cylinder group 26, double-acting cylinder group 26 drives the left end of cutting knife 16 to move downward, the front end of work paper 14 cuts off by the left end cutting knife 45 of cutting knife 16, now the work front end of paper 14 has been spliced on paper 13 for subsequent use, and namely the stub segment of former work paper 14 is pasted by double faced adhesive tape 30 becomes the paper that newly works on paper 13 for subsequent use; Close the negative pressure of right feeding-in roll 18, the paper that newly works is pulled down move and walk around lower slewing rollers 22, make new work paper enter next station.

The paste place of described double faced adhesive tape 30 on paper 13 for subsequent use pastes region 25,24 by the double faced adhesive tape on synchronous belt conveying mechanism 20,19 and realizes location, and double faced adhesive tape is pasted region 25,24 and is positioned on the distribution delivery platform 44 of synchronous belt conveying mechanism 20,19.

The technique effect that the present invention can reach is:

The present invention in operation, only needs a people just can complete all operations, the risk simultaneously do not contacted with cutting knife, easy-to-operate.

Layer of structure of the present invention is clear, and outward appearance is neatly compact, is applicable to installing with the modular insert of complete machine.

There is not the contact of clappers formula at working process in the present invention, utilize roll-to-roll squash type contact to realize splicing, the noise therefore produced is less.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation:

Fig. 1 is that the present invention is for splicing the schematic diagram of the device of coil type raw and auxiliary material;

Fig. 2 is the birds-eye view of Fig. 1;

Fig. 3 to Fig. 6 is working state schematic representation of the present invention;

Fig. 7 is the A-A cutaway view of Fig. 3;

Fig. 8 is the B-B cutaway view of Fig. 3.

Description of reference numerals in figure:

9 coil for for subsequent use, and 10 coil for work,

11 is left axle, and 12 is right axle,

13 is paper for subsequent use, and 14 is work paper,

15 splicing nucleuses, 16 is cutting knife,

17,18 is feeding-in roll, and 19,20 is synchronous belt conveying mechanism,

21,21-1 is slewing rollers, and 22 is lower slewing rollers,

23 is casing, and 24,25 paste region for double faced adhesive tape,

26 is double-acting cylinder group,

27 is cutting knife axle, and 28 is paper feeding roll shaft,

29 is eccentric paper feeding roll shaft, and 30 is double faced adhesive tape,

31 is coupler, and 32 is rotary cylinder,

33 is Timing Belt wheel shaft, and 34 is negative pressure air distribution shaft,

35 is synchronous pulley, and 36 is support,

37 is coupler, and 38 is tracheae,

39 is stepping motor, and 40 is Timing Belt,

41 is the paper roll that newly works, and 42 is the paper that newly works,

43 is gas distribution plate, and 44 is distribution delivery platform,

45,46 is cutting knife.

Detailed description of the invention

As shown in Figure 1, the present invention is for splicing the device of coil type raw and auxiliary material, for work paper 14 and paper for subsequent use 13 are bondd by double faced adhesive tape 30, comprise be arranged at splicing nucleus 15 two feeding-in rolls 17,18, cutting knife 16, two feeding-in rolls 17, about 18 are set up in parallel, and cutting knife 16 is positioned at the top of two feeding-in rolls 17,18; The outside of two feeding-in rolls 17,18 is respectively arranged with synchronous belt conveying mechanism 20,19;

The both sides, top of splicing nucleus 15 are set side by side with for installing the axle 11,12 coiling 10,9; Slewing rollers 21,21-1 is provided with between axle 11,12 and synchronous belt conveying mechanism 20,19;

The below of two feeding-in rolls 17,18 is provided with lower slewing rollers 22.

The two ends, left and right of cutting knife 16 are respectively arranged with cutting knife 45,46, for cutting off paper when splicing; As shown in Figure 2, the middle part of cutting knife 16 connects double-acting cylinder group 26 by cutting knife axle 27, and the two ends, left and right of cutting knife 16 can be driven under the driving of double-acting cylinder group 26 to move downward;

The double-acting cylinder that double-acting cylinder group 26 is installed by two dos-à-doss forms, and can be in three stations by cutting knife 16 under the driving of double-acting cylinder group 26: level attitude, right-hand member (cut off right side paper) downwards, left end (cuts off left side paper) downwards.

As shown in Figure 7, feeding-in roll 18 connects paper feeding roll shaft 29, and paper feeding roll shaft 29 connects rotary cylinder 32 by coupler 31; Feeding-in roll 18 can be driven to rotate by rotary cylinder 32;

Feeding-in roll 18 is provided with gas distribution plate 43, and gas distribution plate 43 is connected with negative pressure air distribution shaft 34 by casing 23, and feeding-in roll 18 is by negative-pressure adsorption paper, and gas distribution plate 43 is for controlling switching on and off of gas circuit;

Left feeding-in roll 17 is substantially identical with the structure of right feeding-in roll 18, and its difference is only that the paper feeding roll shaft 29 of feeding-in roll 18 is eccentric shaft, and axle centered by the paper feeding roll shaft 28 of feeding-in roll 17; Left feeding-in roll 17 is relative under respective rotary cylinder 32 drives with right feeding-in roll 18 to be rotated, and in the process that rotary cylinder 32 drives right feeding-in roll 18 to rotate by eccentric shaft, right feeding-in roll 18 can be made to move radially, thus make right feeding-in roll 18 near left feeding-in roll 17.

As shown in Figure 8, left synchronous belt conveying mechanism 20 comprises between two synchronous pulleys, 35, two synchronous pulleys 35 and is connected with Timing Belt 40; One of them synchronous pulley 35 connects Timing Belt wheel shaft 33, and Timing Belt wheel shaft 33 connects stepping motor 39 by coupler 37; Drive synchronous pulley 35 to rotate by stepping motor 39, thus realize the motion of Timing Belt 40;

Timing Belt 40 is provided with multiple pore, and Timing Belt 40 connects distribution delivery platform 44, and distribution delivery platform 44 realizes supporting by support 36; Distribution delivery platform 44 connects tracheae 38, and tracheae 38 is for inputting negative pressure gas; The negative pressure gas inputted through tracheae 38 to export the pore on Timing Belt 40 to by the air drain of distribution delivery platform 44, by the pore absorption paper on Timing Belt 40;

Right synchronous belt conveying mechanism 19 is identical with the structure of left synchronous belt conveying mechanism 20, and the Timing Belt 40 of right synchronous belt conveying mechanism 19 is relative with Timing Belt 40 sense of motion of left synchronous belt conveying mechanism 20.

Working process of the present invention is as follows:

The work of work paper 14 is coiled 10 to be installed in left axle 11, paper 13 for subsequent use for subsequent use is coiled 9 and be installed in right axle 12 that (work can certainly be coiled 10 is installed in right axle 12, coil 9 be installed on for subsequent use in left axle 11, principle of work is identical); Enter left synchronous belt conveying mechanism 20 after making work paper 14 walk around left steering roller 21, open the negative-pressure adsorption work paper 14 of left synchronous belt conveying mechanism 20; Start the stepping motor 39 of left synchronous belt conveying mechanism 20, stepping motor 39 drives synchronous pulley 35 to rotate, and work paper 14 is delivered to the vertical direction region of left feeding-in roll 17 by Timing Belt 40; Close the negative pressure of left synchronous belt conveying mechanism 20, open the negative pressure of left feeding-in roll 17 simultaneously, left feeding-in roll 17 is by negative-pressure adsorption work paper 14;

Enter right synchronous belt conveying mechanism 19 after making paper 13 for subsequent use walk around right steering roller 21-1, open the negative-pressure adsorption paper 13 for subsequent use of right synchronous belt conveying mechanism 19; As shown in Figure 3, double faced adhesive tape 30 is pasted in the beginning section of paper 13 for subsequent use, the paste place of double faced adhesive tape 30 on paper 13 for subsequent use pastes region 25,24 by the double faced adhesive tape on synchronous belt conveying mechanism 20,19 and realizes location, as shown in Figure 2, double faced adhesive tape is pasted region 25,24 and is positioned on the distribution delivery platform 44 of synchronous belt conveying mechanism 20,19; After double faced adhesive tape 30 has been pasted, start the stepping motor 39 of right synchronous belt conveying mechanism 19, stepping motor 39 drives synchronous pulley 35 to rotate, and paper 13 for subsequent use is delivered to the vertical direction region of right feeding-in roll 18 by Timing Belt 40; Close the negative pressure of right synchronous belt conveying mechanism 19, open the negative pressure of right feeding-in roll 18 simultaneously, right feeding-in roll 18 is by negative-pressure adsorption paper 13 for subsequent use;

Start the rotary cylinder 32 of left feeding-in roll 17 and right feeding-in roll 18 respectively, work paper 14 and paper for subsequent use 13 export between left feeding-in roll 17 and right feeding-in roll 18 by left feeding-in roll 17 and right feeding-in roll 18 respectively, as shown in Figure 4;

Right feeding-in roll 18 radially parallel motion one segment distance under the drive of eccentric shaft, make right feeding-in roll 18 near left feeding-in roll 17, double faced adhesive tape 30 now on paper 13 for subsequent use is in the position with right feeding-in roll 18 Horizontal-shaft vertical, as shown in Figure 5, paper for subsequent use 13 on it extrudes on the work paper 14 of contact on left feeding-in roll 17 by right feeding-in roll 18, thus together with being pasted with work paper 14 by paper 13 for subsequent use, realize the splicing of paper 13 for subsequent use and work paper 14;

Start double-acting cylinder group 26, double-acting cylinder group 26 drives the left end of cutting knife 16 to move downward, the front end of work paper 14 cuts off by the left end cutting knife 45 of cutting knife 16, now the work front end of paper 14 has been spliced on paper 13 for subsequent use, and namely the stub segment (front end of work paper 14) of former work paper 14 is pasted by double faced adhesive tape 30 and become the paper that newly works on paper 13 for subsequent use;

Close the negative pressure of right feeding-in roll 18, the paper that newly works is pulled down move and walk around lower slewing rollers 22, make new work paper enter subsequent processing; And former work paper 14 cut-off after former work coil 10 and no longer participate in work, wait is removed, and replaces with next new work paper roll 41 and new work paper 42, as shown in Figure 6.

The present invention can be used for the splicing of aluminium foil paper in tobacco packaging machine.

Claims (8)

1. one kind for splicing the device of coil type raw and auxiliary material, for work paper (14) and paper for subsequent use (13) are bondd by double faced adhesive tape (30), it is characterized in that: comprise two feeding-in rolls (17,18), the cutting knife (16) that are arranged at splicing nucleus (15), two feeding-in roll (17,18) left and right are set up in parallel, and cutting knife (16) is positioned at the top of two feeding-in rolls (17,18); The two ends, left and right of cutting knife (16) are respectively arranged with cutting knife (45,46), and the two ends, left and right of cutting knife (16) can move downward; The outside of two feeding-in rolls (17,18) is respectively arranged with synchronous belt conveying mechanism (20,19); The sense of motion of the Timing Belt (40) of described two synchronous belt conveying mechanisms (20,19) is relative;

Two feeding-in rolls (17,18) rotate relatively, and one of them feeding-in roll (18) can move radially under eccentric shaft drives in rotary course simultaneously, thus make one of them feeding-in roll (18) near another feeding-in roll (17);

The both sides, top of splicing nucleus (15) are set side by side with for installing the axle (11,12) coiling (10,9); Slewing rollers (21,21-1) are provided with between axle (11,12) and synchronous belt conveying mechanism (20,19).

2. the device for splicing coil type raw and auxiliary material according to claim 1, it is characterized in that: described in coil (10) the first paper (14) walk around slewing rollers (21) after enter synchronous belt conveying mechanism (20), be delivered to feeding-in roll (17) through synchronous belt conveying mechanism (20); Enter another synchronous belt conveying mechanism (19) after another slewing rollers (21-1) walked around by the second paper (13) that another is coiled (9), be delivered to another feeding-in roll (18) through another synchronous belt conveying mechanism (19);

Paper (14,13) exports between two feeding-in rolls (17,18) by two feeding-in rolls (17,18) in rotary course, one of them feeding-in roll (18) moves radially and close another feeding-in roll (17) in rotary course, double faced adhesive tape (30) in the beginning section of the second paper (13) is squeezed on the first paper (14) by two feeding-in rolls (17,18) in the process of relative movement, realizes the splicing of two paper (13,14);

One end of cutting knife (16) is moved downward, the front end of the first paper (14) cuts off by this Front cutting tool (45) of cutting knife (16), then the stub segment splicing of the first paper (14) becomes the paper that newly works on the second paper (13); New work paper exports subsequent processing to through lower slewing rollers (22).

3. the device for splicing coil type raw and auxiliary material according to claim 1, it is characterized in that: the middle part of described cutting knife (16) connects double-acting cylinder group (26) by cutting knife axle (27), and the two ends, left and right of cutting knife (16) can be driven under the driving of double-acting cylinder group (26) to move downward.

4. the device for splicing coil type raw and auxiliary material according to claim 1, it is characterized in that: described feeding-in roll (18) connects paper feeding roll shaft (29), paper feeding roll shaft (29) connects rotary cylinder (32) by coupler (31); Feeding-in roll (18) can be driven to rotate by rotary cylinder (32); Feeding-in roll (18) is provided with gas distribution plate (43), and gas distribution plate (43) is connected with negative pressure air distribution shaft (34) by casing (23), and feeding-in roll (18) is by negative-pressure adsorption paper.

5. the device for splicing coil type raw and auxiliary material according to claim 1, it is characterized in that: the paper feeding roll shaft (29) of described one of them feeding-in roll (18) is eccentric shaft, axle centered by the paper feeding roll shaft (28) of described another feeding-in roll (17).

6. the device for splicing coil type raw and auxiliary material according to claim 1, it is characterized in that: described synchronous belt conveying mechanism (20) comprises two synchronous pulleys (35), between two synchronous pulleys (35), be connected with Timing Belt (40); One of them synchronous pulley (35) connects Timing Belt wheel shaft (33), and Timing Belt wheel shaft (33) connects stepping motor (39) by coupler (37); Drive synchronous pulley (35) to rotate by stepping motor (39), thus realize the motion of Timing Belt (40); (40) are provided with multiple pore to Timing Belt, and Timing Belt (40) connects distribution delivery platform (44); Distribution delivery platform (44) connects tracheae (38), and tracheae (38) is for inputting negative pressure gas; The negative pressure gas inputted through tracheae (38) exports the pore on Timing Belt (40) to by the air drain of distribution delivery platform (44), by the pore absorption paper on Timing Belt (40).

7. one kind adopts the joining method of the device for splicing coil type raw and auxiliary material according to claim 1, work paper (14) and paper for subsequent use (13) can be bondd by double faced adhesive tape (30), it is characterized in that, comprise the following steps:

Enter left synchronous belt conveying mechanism (20) after making work paper (14) walk around left steering roller (21), open the negative-pressure adsorption work paper (14) of left synchronous belt conveying mechanism (20); Start the stepping motor (39) of left synchronous belt conveying mechanism (20), stepping motor (39) drives synchronous pulley (35) to rotate, and work paper (14) is delivered to the vertical direction region of left feeding-in roll (17) by Timing Belt (40); Close the negative pressure of left synchronous belt conveying mechanism 20, open the negative pressure of left feeding-in roll (17) simultaneously, left feeding-in roll (17) is by negative-pressure adsorption work paper (14);

Enter right synchronous belt conveying mechanism (19) after making paper for subsequent use (13) walk around right steering roller (21-1), open the negative-pressure adsorption paper for subsequent use (13) of right synchronous belt conveying mechanism (19); Double faced adhesive tape (30) is pasted in the beginning section of paper for subsequent use (13); Then the stepping motor (39) of right synchronous belt conveying mechanism (19) is started, stepping motor (39) drives synchronous pulley (35) to rotate, and paper for subsequent use (13) is delivered to the vertical direction region of right feeding-in roll (18) by Timing Belt (40); Close the negative pressure of right synchronous belt conveying mechanism (19), open the negative pressure of right feeding-in roll (18) simultaneously, right feeding-in roll (18) is by negative-pressure adsorption paper for subsequent use (13);

Start the rotary cylinder (32) of left feeding-in roll (17) and right feeding-in roll (18) respectively, work paper (14) and paper for subsequent use (13) export between left feeding-in roll (17) and right feeding-in roll (18) by left feeding-in roll (17) and right feeding-in roll (18) respectively;

Right feeding-in roll (18) radially parallel motion under the drive of eccentric shaft, make right feeding-in roll (18) near left feeding-in roll (17), paper for subsequent use (13) extruding on it contacts on the work paper (14) on left feeding-in roll (17) by right feeding-in roll (18), thus together with being pasted with work paper (14) by paper for subsequent use (13), realize the splicing of paper for subsequent use (13) and work paper (14);

Start double-acting cylinder group (26), double-acting cylinder group (26) drives the left end of cutting knife (16) to move downward, the front end of work paper (14) cuts off by the left end cutting knife (45) of cutting knife (16), now the work front end of paper (14) has been spliced on paper for subsequent use (13), and namely the stub segment of former work paper (14) is pasted by double faced adhesive tape (30) becomes the paper that newly works on paper for subsequent use (13);

Close the negative pressure of right feeding-in roll (18), the paper that newly works is pulled down move and walk around lower slewing rollers (22), make new work paper enter next station.

8. the joining method of coil type raw and auxiliary material according to claim 7, it is characterized in that: the paste place of described double faced adhesive tape (30) on paper for subsequent use (13) pastes region (25,24) by the double faced adhesive tape on synchronous belt conveying mechanism (20,19) and realize location, and double faced adhesive tape is pasted region (25,24) and is positioned on the distribution delivery platform (44) of synchronous belt conveying mechanism (20,19).