阅读说明：本技术 一种自动制作纸筒装置 (Automatic paper tube manufacturing device ) 是由 赵凤玲 于 2021-01-28 设计创作，主要内容包括：本发明涉及一种工程领域,更具体的说是一种自动制作纸筒装置,可以通过改变两个滚轮之间的距离来适配纸片的厚度；通过改变装置运行速度来适配各个装置的协作,改变电机一在电机底座内的位置进而改变了转轮二的转速,进而改变了连接柱一的转速,改变了半转轮的转速,进而改变了滑块往复运动的速度,进而改变了将上架体内的纸片一张一张推出的速度,由于转轮二的速度改变,进而改变了皮带二的转速,进而改变了转轮五的转速,进而改变了滚轮一的转速,进而改变了将纸片推出的速度,由此可以控制配合纸片进入折纸筒装置的速度,由于齿轮一和直齿一啮合传动,进而带动滚轮二向上或者向下移动,进而改变了滚轮一和滚轮二之间的间距来适配纸片的厚度。(The invention relates to the field of engineering, in particular to a device for automatically manufacturing a paper tube, which can adapt to the thickness of a paper sheet by changing the distance between two rollers; the cooperation of each device is adapted by changing the running speed of the device, the position of the motor I in the motor base is changed, the rotating speed of the rotating wheel II is changed, the rotating speed of the connecting column I is changed, the rotating speed of the semi-rotating wheel is changed, the reciprocating motion speed of the sliding block is changed, the speed of pushing paper sheets out of the upper frame body one by one is changed, the rotating speed of the belt II is changed due to the change of the speed of the rotating wheel II, the rotating speed of the rotating wheel V is changed, the rotating speed of the roller I is changed, the speed of pushing the paper sheets out is changed, the speed of matching the paper sheets into the paper folding cylinder device can be controlled, the roller II is driven to move upwards or downwards due to the meshing transmission of the gear I and the straight tooth I, and the distance between the roller I and the roller II is changed to adapt to the thickness of the.)

1. The utility model provides an automatic make fiber container device, includes scraps of paper separator (1), paper folding tube device (2), peels off fiber container device (3), belt (4), its characterized in that: the paper sheet separating device (1) is connected with the paper folding cylinder device (2), the paper folding cylinder device (2) is connected with the first belt (4), and the paper stripping cylinder device (3) is connected with the first belt (4).

2. An apparatus for automatically making a paper tube as set forth in claim 1, wherein: the paper sheet separating device (1) comprises a motor I (1-1), a rotating wheel I (1-2), a motor base (1-3), a base (1-4), a foot rest (1-5), a rotating wheel II (1-6), an upper frame body (1-7), a connecting column I (1-8), a half rotating wheel (1-9), a rotating wheel III (1-10), a connecting rod I (1-11), a rotating wheel IV (1-12), a sliding block (1-13), a spring I (1-14), a small cylinder (1-15), a spring II (1-16), a belt II (1-17), a rotating wheel V (1-18), a belt III (1-19), a rotating wheel VI (1-20), a roller I (1-21), a roller II (1-22), a rotating knob (1-23), A first gear (1-24), a first straight tooth (1-25), a first straight groove (1-26), a slide way (1-27) and a rubber brush (1-28), wherein a first motor (1-1) is fixedly connected with a first rotating wheel (1-2), the first motor (1-1) is slidably connected with a base (1-3), the base (1-3) is fixedly connected with a base (1-4), four foot rests (1-5) are fixedly connected with the base (1-4), the first rotating wheel (1-2) is matched and connected with a second rotating wheel (1-6), the base (1-4) is fixedly connected with an upper frame body (1-7), the second rotating wheel (1-6) is fixedly connected with a first connecting column (1-8), the upper frame body (1-7) is rotatably connected with the first connecting column (1-8), a connecting column I (1-8) is fixedly connected with a semi-rotating wheel (1-9), the semi-rotating wheel (1-9) is matched and connected with a rotating wheel III (1-10), the rotating wheel III (1-10) is rotatably connected with a connecting rod I (1-11), the connecting column I (1-8) is fixedly connected with a rotating wheel IV (1-12), a sliding block (1-13) is fixedly connected with a spring I (1-14), the sliding block (1-13) is hinged and connected with the connecting rod I (1-11), the spring I (1-14) is fixedly connected with a base (1-4), two springs II (1-16) are fixedly connected with the sliding block (1-13), a small cylinder (1-15) is fixedly connected with the spring II (1-16), and two small cylinders (1-15) are slidably connected with the sliding block (1-13), the sliding block (1-13) is connected with the upper frame body (1-7) in a sliding manner, the belt II (1-17) is connected with the rotating wheel II (1-6) in a matching manner, the belt II (1-17) is connected with the rotating wheel V (1-18) in a matching manner, the belt III (1-19) is connected with the rotating wheel IV (1-12) in a matching manner, the belt III (1-19) is connected with the rotating wheel VI (1-20) in a matching manner, the rotating wheel VI (1-20) and the rotating wheel V (1-18) are both fixedly connected with the roller I (1-21), the rotating knob (1-23) is fixedly connected with the gear I (1-24), the gear I (1-24) is in meshing transmission with the straight tooth I (1-25), the gear I (1-24) is fixedly connected with the roller II (1-22), the straight tooth I (1-25) is fixedly connected with the upper frame body (1-7), the straight groove I (1-26) is fixedly connected with the upper frame body (1-7), the straight groove I (1-26) is fixedly connected with the roller II (1-22), the slide way (1-27) is fixedly connected with the glue brush (1-28), and the slide way (1-27) is fixedly connected with the base (1-4).

3. An apparatus for automatically making a paper tube as set forth in claim 1, wherein: the paper folding cylinder device (2) comprises a motor II (2-1), a rotating wheel seven (2-2), a rotating wheel eight (2-3), a connecting column five (2-4), a support III (2-5), a belt five (2-6), a rotating wheel nine (2-7), a small cylinder II (2-8), a connecting rod II (2-9), a connecting block (2-10), a straight groove II (2-11), a connecting rod III (2-12), a connecting rod IV (2-13), a connecting rod V (2-14), a small cylinder III (2-15), a support II (2-16), a paper cylinder mold (2-17), a connecting column six (2-18), a groove (2-19), a pulley II (2-20), a small cylinder IV (2-21), a rotating wheel ten (2-22), A small cylinder five (2-23), a connecting rod six (2-24), a straight groove five (2-25), a straight groove six (2-26), a small cylinder ten (2-27), a connecting column ten (2-28) and a gravity block (2-29), a motor two (2-1) is fixedly connected with a rotating wheel seven (2-2), the rotating wheel seven (2-2) is matched and connected with a rotating wheel eight (2-3), the rotating wheel eight (2-3) is fixedly connected with the connecting column five (2-4), the connecting column five (2-4) is rotatably connected with a bracket three (2-5), the rotating wheel eight (2-3) is matched and connected with a belt five (2-6), the connecting column five (2-4) is fixedly connected with a rotating wheel nine (2-7), the rotating wheel nine (2-7) is fixedly connected with a small cylinder two (2-8), the small cylinder II (2-8) is hinged with the connecting rod II (2-9), the connecting rod II (2-9) is hinged with the connecting block (2-10), two groups of connecting rods III (2-12) are hinged with the connecting block (2-10), the connecting rod III (2-12) is hinged with the connecting rod IV (2-13), two connecting rods IV (2-13) are hinged with the connecting rod V (2-14), the connecting rod V (2-14) is fixedly connected with the small cylinder III (2-15), the straight groove II (2-11) is slidably connected with the small cylinder III (2-15), the bracket II (2-16) is fixedly connected with the straight groove II (2-11), the paper tube mold (2-17) is fixedly connected with the connecting column VI (2-18), the connecting column VI (2-18) is fixedly connected with the bracket II (2-16), two grooves (2-19) are all arranged on a paper tube mould (2-17), two pulleys (2-20) are fixedly connected with four small cylinders (2-21), two pulleys (2-20) are all matched and connected with five belts (2-6), two four small cylinders (2-21) are all rotatably connected with two supports (2-16), ten rotating wheels (2-22) are matched and connected with five belts (2-6), ten rotating wheels (2-22) are fixedly connected with five small cylinders (2-23), five small cylinders (2-23) are fixedly connected with six connecting rods (2-24), six connecting rods (2-24) are fixedly connected with ten small cylinders (2-27), five straight grooves (2-25) are fixedly connected with ten connecting columns (2-28), five straight grooves (2-25) are matched and connected with ten small cylinders (2-27), the six straight grooves (2-26) are matched and connected with the ten connecting columns (2-28), the six straight grooves (2-26) are fixedly connected with the second bracket (2-16), the ten connecting columns (2-28) are fixedly connected with the gravity blocks (2-29), and the seven rotating wheels (2-2) are matched and connected with the first belt (4).

4. An apparatus for automatically making a paper tube as set forth in claim 1, wherein: the paper tube stripping device (3) comprises a rotating wheel twenty (3-1), a small cylinder eight (3-2), a support ten (3-3), a leg frame ten (3-4), a small cylinder nine (3-5), a small cylinder ten (3-6), a long rod ten (3-7), a hinged column ten (3-8), a sliding block ten (3-9), a long rod eleven (3-10), a small cylinder eleven (3-11), a function rod (3-12), an outer groove (3-13), an inner groove (3-14) and a boss ten (3-15), wherein the rotating wheel twenty (3-1) is rotatably connected with the small cylinder eight (3-2), the small cylinder eight (3-2) is fixedly connected with the support ten (3-3), and the rotating wheel twenty (3-1) is fixedly connected with the small cylinder nine (3-5), the small cylinders ten (3-6) are fixedly connected with the supports ten (3-3), the small cylinders nine (3-5) are connected with the long rod ten (3-7) in a matching way, the small cylinders ten (3-6) are connected with the long rod ten (3-7) in a matching way, the long rod ten (3-7) is connected with the slide block ten (3-9) in a hinged way through the hinged columns ten (3-8), the slide block ten (3-9) is fixedly connected with the long rod eleven (3-10), the small cylinders eleven (3-11) are fixedly connected with the function rods (3-12), the two groups of outer grooves (3-13) and the inner grooves (3-14) are arranged on the bosses ten (3-15), the outer grooves (3-13) and the inner grooves (3-14) are connected with the small cylinders eleven (3-11) in a sliding way, the long rod eleven (3-10) is connected with the function rods (3-12) in a matching way, the sliding blocks ten (3-9) are in sliding connection with the bosses ten (3-15), the four leg frames ten (3-4) are fixedly connected with the bosses ten (3-15), and the rotating wheel twenty (3-1) is in fit connection with the belt I (4).

Technical Field

The invention relates to the field of engineering, in particular to a device for automatically manufacturing a paper tube.

Background

The paper tube manufacturing device is a common engineering machine, but the common paper tube manufacturing device is operated manually, so that the efficiency is low, and the function is single.

Disclosure of Invention

The invention aims to provide an automatic paper tube making device, which can adapt to the thickness of paper sheets by changing the distance between two rollers; the cooperation of the individual devices is adapted by varying the device operating speed.

The purpose of the invention is realized by the following technical scheme:

the automatic paper tube manufacturing device comprises a paper piece separating device, a paper folding tube device, a paper tube stripping device and a first belt, wherein the paper piece separating device is connected with the paper folding tube device, the paper folding tube device is connected with the first belt, and the paper tube stripping device is connected with the first belt.

As a further optimization of the technical scheme, the invention discloses an automatic paper tube manufacturing device, which comprises a motor I, a rotating wheel I, a motor base, a base, foot rests, a rotating wheel II, an upper frame body, a connecting column I, a semi-rotating wheel, a rotating wheel III, a connecting rod I, a rotating wheel IV, a sliding block, a spring I, a small cylinder, a spring II, a belt II, a rotating wheel V, a belt III, a rotating wheel VI, a roller I, a roller II, a rotating button, a gear I, a straight tooth I, a straight groove I, a slideway and a glue brush, wherein the motor I is fixedly connected with the rotating wheel I, the motor I is slidably connected with the motor base, the motor base is fixedly connected with the base, the four foot rests are fixedly connected with the base, the rotating wheel I is connected with the rotating wheel II in a matching manner, the base is fixedly connected with the upper frame body, the rotating wheel II is fixedly connected with the connecting column I, the, the semi-rotating wheel is matched and connected with a rotating wheel III, the rotating wheel III is connected with a connecting rod in a rotating way, a connecting column I is fixedly connected with a rotating wheel IV, a sliding block is fixedly connected with a spring I, the sliding block is hinged and connected with a connecting rod I, the spring I is fixedly connected with a base, two springs II are fixedly connected with the sliding block, small cylinders are fixedly connected with the spring II, two small cylinders are slidably connected with the sliding block, the sliding block is slidably connected with an upper frame body, a belt II is matched and connected with a rotating wheel II, a belt II is matched and connected with a rotating wheel V, the belt III is matched and connected with the rotating wheel IV, the belt III is matched and connected with a rotating wheel VI, the rotating wheel VI and the rotating wheel V are fixedly connected with a roller I, a knob is fixedly connected with a gear I, the gear I is in meshing transmission with a straight tooth I, the gear I is fixedly connected with the roller II, the straight tooth, the slide is fixedly connected with the rubber brush and the base.

As a further optimization of the technical scheme, the invention relates to an automatic paper tube manufacturing device, which comprises a motor II, a rotating wheel VII, a rotating wheel VIII, a connecting column VI, a support III, a belt V, a rotating wheel IX, a small cylinder II, a connecting rod II, a connecting block, a straight groove II, a connecting rod III, a connecting rod IV, a connecting rod V, a small cylinder III, a support II, a paper tube mold, a connecting column VI, a groove, a pulley II, a small cylinder IV, a rotating wheel Ten, a small cylinder IV, a connecting rod VI, a straight groove IX, a straight groove VI, a small cylinder VII, a connecting column Ten and a gravity block, wherein the motor II is fixedly connected with the rotating wheel VII is matched and connected with the rotating wheel VIII, the rotating wheel VIII is fixedly connected with the support III, the rotating wheel VIII is matched and connected with the belt IX, the connecting column VII is fixedly connected with the rotating wheel IX, the rotating wheel IX is fixedly connected with the small cylinder II, and the connecting rod II is hinged and connected, a connecting rod II is hinged with the connecting block, two groups of connecting rods III are hinged with the connecting block, a connecting rod III is hinged with a connecting rod IV, two connecting rods IV are hinged with a connecting rod V, a connecting rod V is fixedly connected with a small cylinder III, a straight groove II is slidably connected with a small cylinder III, a bracket II is fixedly connected with a straight groove II, a paper tube mold is fixedly connected with a connecting rod VI, the connecting rod VI is fixedly connected with a bracket II, two grooves are formed on the two grooves, a pulley II is fixedly connected with the small cylinder IV, two pulley II is matched and connected with a belt V, two small cylinder IV are rotatably connected with the bracket II, a rotating wheel ten is matched and connected with the belt V, a rotating wheel ten is fixedly connected with the small cylinder V, the small cylinder V is fixedly connected with the connecting rod VI, the connecting rod six is fixedly connected with the small cylinder V, the straight groove V is fixedly connected with the connecting rod V, the straight groove V is matched and connected with the small, the six straight grooves are fixedly connected with the second support, the ten connecting columns are fixedly connected with the gravity block, and the seven rotating wheels are connected with the first belt in a matching mode.

As a further optimization of the technical scheme, the invention relates to an automatic paper tube manufacturing device, which comprises twenty rotating wheels, eight small cylinders, ten supports, ten leg supports, nine small cylinders, ten long rods, ten hinged columns, ten sliding blocks, eleven long rods, eleven small cylinders, a functional rod, an outer groove, an inner groove and ten bosses, wherein the twenty rotating wheels are rotatably connected with the eight small cylinders, the eight small cylinders are fixedly connected with the ten supports, the twenty rotating wheels are fixedly connected with the nine small cylinders, the ten small cylinders are fixedly connected with the ten supports, the nine small cylinders are cooperatively connected with the ten long rods, the ten long rods are hinged with the ten sliding blocks through the ten hinged columns, the ten sliding blocks are fixedly connected with the eleven long rods, the eleven small cylinders are fixedly connected with the functional rod, the two groups of outer grooves and inner grooves are arranged on the eleven bosses, and the outer grooves and the inner grooves are slidably connected with the eleven small cylinders, the eleventh long rod is matched and connected with the functional rod, the tenth sliding block is connected with the tenth boss in a sliding mode, the tenth four leg frames are fixedly connected with the tenth boss, and the twenty rotating wheels are matched and connected with the first belt.

The device for automatically manufacturing the paper tube has the beneficial effects that:

the invention relates to an automatic paper tube making device, which changes the position of a motor I in a motor base so as to change the rotating speed of a rotating wheel II, further changes the rotating speed of a connecting column I, changes the rotating speed of a semi-rotating wheel, further changes the reciprocating speed of a sliding block, further changes the speed of pushing paper sheets out of an upper frame body one by one, and further changes the rotating speed of a belt II due to the change of the speed of the rotating wheel II, further changes the rotating speed of a rotating wheel V, further changes the rotating speed of a roller I, further changes the speed of pushing the paper sheets out, thereby being capable of controlling the speed of matching the paper sheets to enter a paper folding tube device.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

FIG. 2 is a first schematic view of the paper sheet separating apparatus of the present invention;

FIG. 3 is a second schematic view of the sheet separation apparatus of the present invention;

FIG. 4 is a third schematic view of the paper sheet separating apparatus of the present invention;

FIG. 5 is a fourth schematic view of the sheet separation device of the present invention;

FIG. 6 is a first schematic structural diagram of a paper folding cylinder device of the present invention;

FIG. 7 is a second structural view of the paper folding cylinder device of the present invention;

FIG. 8 is a third schematic structural view of a paper folding cylinder device of the present invention;

FIG. 9 is a first schematic structural view of a paper tube peeling device of the present invention;

FIG. 10 is a second schematic structural view of the paper tube peeling device of the present invention.

In the figure: a paper sheet separating device 1; 1-1 of a motor I; 1-2 of a rotating wheel I; 1-3 of a motor base; 1-4 of a base; 1-5 of a foot rest; 1-6 of a second rotating wheel; 1-7 parts of an upper frame body; 1-8 of a connecting column I; 1-9 parts of a semi-rotating wheel; 1-10 parts of a rotating wheel III; 1-11 of a connecting rod I; 1-12 of a rotating wheel; 1-13 of a slide block; 1-14 parts of a first spring; 1-15 parts of small cylinder; a second spring 1-16; a second belt 1-17; five rotating wheels 1-18; a third belt 1-19; 1-20 parts of rotating wheel; 1-21 parts of a first roller; a second roller 1-22; turning buttons 1-23; gears 1-24; 1-25 parts of straight teeth I; 1-26 straight grooves I; 1-27 of a slideway; 1-28 parts of glue brush; a paper folding cylinder device 2; a second motor 2-1; 2-2 parts of a rotating wheel; eight 2-3 rotating wheels; connecting a column five 2-4; 2-5 parts of a bracket III; a fifth belt 2-6; nine 2-7 rotating wheels; 2-8 parts of a small cylinder II; 2-9 parts of a second connecting rod; 2-10 parts of a connecting block; 2-11 parts of a straight groove II; 2-12 of a connecting rod III; connecting rods IV 2-13; connecting rods five 2-14; 2-15 parts of small cylinder; 2-16 parts of a second bracket; 2-17 of a paper tube mold; six connecting columns 2-18; 2-19 of a groove; 2-20 parts of a second pulley; 2-21 parts of small cylinder; ten 2-22 rotating wheels; 2-23 parts of small cylinder; connecting rods six 2-24; 2-25 of a straight groove five; six straight grooves 2-26; ten small cylinders 2-27; ten 2-28 connecting columns; 2-29 parts of gravity block; a paper tube stripping device 3; twenty 3-1 of rotating wheel; eight small cylinders 3-2; ten 3-3 parts of bracket; ten 3-4 of leg frames; nine small cylinders 3-5; ten 3-6 small cylinders; ten 3-7 long rods; hinged columns ten 3-8; ten 3-9 sliding blocks; eleven long rods 3-10; eleven small cylinders 3-11; 3-12 functional rods; 3-13 parts of an outer groove; inner grooves 3-14; ten 3-15 parts of boss; a first belt 4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 10, and an automatic paper tube making device includes a paper sheet separating device 1, a paper folding tube device 2, a paper tube stripping device 3, and a belt one 4, where the paper sheet separating device 1 is connected to the paper folding tube device 2, the paper folding tube device 2 is connected to the belt one 4, and the paper tube stripping device 3 is connected to the belt one 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, and the embodiment will be further described, wherein the paper sheet separating device 1 comprises a motor 1-1, a first rotating wheel 1-2, a motor base 1-3, a base 1-4, a foot rest 1-5, a second rotating wheel 1-6, an upper frame 1-7, a first connecting column 1-8, a first semi-rotating wheel 1-9, a third rotating wheel 1-10, a first connecting rod 1-11, a fourth rotating wheel 1-12, a slider 1-13, a first spring 1-14, a small cylinder 1-15, a second spring 1-16, a second belt 1-17, a fifth rotating wheel 1-18, a third belt 1-19, a sixth rotating wheel 1-20, a first roller 1-21, a second roller 1-22, a knob 1-23, a first gear 1-24, a second belt 1-17, a fifth rotating wheel 1-18, a third, 1-25 parts of a first straight tooth, 1-26 parts of a first straight groove, 1-27 parts of a slideway and 1-28 parts of a glue brush, 1-1 parts of a first motor and 1-2 parts of a first rotating wheel, 1-1 parts of a first motor and 1-3 parts of a base of the motor, 1-3 parts of the base of the motor and 1-4 parts of the base of the motor, 1-5 parts of four foot rests are fixedly connected with 1-4 parts of the base of the motor, 1-2 parts of the first rotating wheel and 1-6 parts of the second rotating wheel are matched and connected, 1-4 parts of the base of the motor and 1-7 parts of an upper frame body are fixedly connected, 1-8 parts of the first rotating wheel, 1-8 parts of the first connecting column and 1-9 parts of a half rotating wheel, 1-9 parts of the half rotating wheel and 1-, the rotating wheel III 1-10 is rotatably connected with the connecting rod I1-11, the connecting column I1-8 is fixedly connected with the rotating wheel IV 1-12, the sliding block 1-13 is fixedly connected with the spring I1-14, the sliding block 1-13 is hinged with the connecting rod I1-11, the spring I1-14 is fixedly connected with the base 1-4, the two springs II 1-16 are fixedly connected with the sliding block 1-13, the small cylinder 1-15 is fixedly connected with the spring II 1-16, the two small cylinders 1-15 are slidably connected with the sliding block 1-13, the sliding block 1-13 is slidably connected with the upper frame body 1-7, the belt II 1-17 is in fit connection with the rotating wheel II 1-6, the belt II 1-17 is in fit connection with the rotating wheel V1-18, and the belt III 1-19 is in fit connection with the rotating wheel IV 1-12, the belt III 1-19 is in fit connection with the rotating wheel VI 1-20, the rotating wheel VI 1-20 and the rotating wheel V1-18 are fixedly connected with the roller I1-21, the rotating knob 1-23 is fixedly connected with the gear I1-24, the gear I1-24 is in meshing transmission with the straight tooth I1-25, the gear I1-24 is fixedly connected with the roller II 1-22, the straight tooth I1-25 is fixedly connected with the upper frame body 1-7, the straight groove I1-26 is fixedly connected with the roller II 1-22, the slide way 1-27 is fixedly connected with the glue brush 1-28, and the slide way 1-27 is fixedly connected with the base 1-4;

starting a motor I1-1 to drive a rotating wheel II 1-6 to rotate, driving a connecting column I1-8 to rotate to drive a semi-rotating wheel I1-9, when a concave part of the semi-rotating wheel I1-9 is contacted with a rotating wheel III 1-10, a spring I1-14 is tightened, a connecting rod I1-11 rotates rightwards, a sliding block 1-13 slides rightwards, a small cylinder 1-15 pushes out the lowest paper sheets in an upper frame body 1-7, when a protruding part of the semi-rotating wheel I1-9 is contacted with the rotating wheel III 1-10, the connecting rod I1-11 rotates leftwards, the sliding block 1-13 slides to the leftmost end, the reciprocating motion can push out the paper sheets in the upper frame body 1-7 one by one, the rotating wheel II 1-6 and the rotating wheel IV 1-12 rotate to respectively drive a belt II 1-17 and a belt III 1-19, further driving the five rotating wheels 1-18 and the six rotating wheels 1-20 to rotate, further driving the first rolling wheels 1-21 to rotate, further pushing the paper sheets pushed out one by one in the upper frame body 1-7 into the slideway 1-27 to slide into the paper folding cylinder device 2, brushing glue on one section of the paper sheet by the sliding paper sheets through the glue brushes 1-28, changing the position of the motor 1-1 in the motor base 1-3 so as to change the rotating speed of the second rotating wheels 1-6, further changing the rotating speed of the connecting column I1-8, changing the rotating speed of the half rotating wheels 1-9, further changing the reciprocating speed of the sliding blocks 1-13, further changing the pushing speed of the paper sheets in the upper frame body 1-7 one by one, further changing the rotating speed of the second rotating wheels 1-6 so as to change the rotating speed of the second belts 1-17, and then the rotating speed of the fifth rotating wheel 1-18 is changed, the rotating speed of the first roller 1-21 is changed, and the speed of pushing the paper sheets out is changed, so that the speed of matching the paper sheets to enter the paper folding cylinder device can be controlled, when the rotating knob 1-23 is rotated, the first gear 1-24 is driven to rotate, and the first gear 1-24 and the first straight tooth 1-25 are in meshing transmission, so that the second roller 1-22 is driven to move upwards or downwards, and the distance between the first roller 1-21 and the second roller 1-22 is changed to match the thickness of the paper sheets.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, and the embodiment further describes the first embodiment, where the paper folding cylinder device 2 includes a second motor 2-1, a seventh rotating wheel 2-2, an eighth rotating wheel 2-3, a fifth connecting column 2-4, a third bracket 2-5, a fifth belt 2-6, a ninth rotating wheel 2-7, a second small cylinder 2-8, a second connecting rod 2-9, a connecting block 2-10, a second straight groove 2-11, a third connecting rod 2-12, a fourth connecting rod 2-13, a fifth connecting rod 2-14, a third small cylinder 2-15, a second bracket 2-16, a paper cylinder mold 2-17, a sixth connecting column 2-18, a groove 2-19, a second pulley 2-20, a fourth small cylinder 2-21, a tenth rotating wheel 2-22, a fifth small cylinder 2-23, a fifth small cylinder 2-17, a paper cylinder mold 2-17, a sixth connecting column, A connecting rod six 2-24, a straight groove five 2-25, a straight groove six 2-26, a small cylinder ten 2-27, a connecting column ten 2-28, a gravity block 2-29, a motor two 2-1 fixedly connected with a rotating wheel seven 2-2, a rotating wheel seven 2-2 matched with a rotating wheel eight 2-3, a rotating wheel eight 2-3 fixedly connected with a connecting column five 2-4, a connecting column five 2-4 rotatably connected with a bracket three 2-5, a rotating wheel eight 2-3 matched with a belt five 2-6, a connecting column five 2-4 fixedly connected with a rotating wheel nine 2-7, a rotating wheel nine 2-7 fixedly connected with a small cylinder two 2-8, a small cylinder two 2-8 hinged with a connecting rod two 2-9, a connecting rod two 2-9 hinged with a connecting block 2-10, two groups of connecting rods three 2-12 are hinged with connecting blocks 2-10, connecting rods three 2-12 are hinged with connecting rods four 2-13, two connecting rods four 2-13 are hinged with connecting rods five 2-14, connecting rods five 2-14 are fixedly connected with small cylinders three 2-15, straight slots two 2-11 are slidably connected with small cylinders three 2-15, supports two 2-16 are fixedly connected with straight slots two 2-11, paper tube molds 2-17 are fixedly connected with connecting columns six 2-18, connecting columns six 2-18 are fixedly connected with supports two 2-16, two grooves 2-19 are arranged on the paper tube molds 2-17, pulleys two 2-20 are fixedly connected with small cylinders four 2-21, two pulleys two 2-20 are matched and connected with belts five 2-6, the two small cylinders four 2-21 are rotatably connected with the bracket two 2-16, the rotating wheels ten 2-22 are in fit connection with the belt five 2-6, the rotating wheels ten 2-22 are fixedly connected with the small cylinders five 2-23, the small cylinders five 2-23 are fixedly connected with the connecting rods six 2-24, the connecting rods six 2-24 are fixedly connected with the small cylinders ten 2-27, the straight grooves five 2-25 are fixedly connected with the connecting columns ten 2-28, the straight grooves five 2-25 are in fit connection with the small cylinders ten 2-27, the straight grooves six 2-26 are in fit connection with the connecting columns ten 2-28, the straight grooves six 2-26 are fixedly connected with the bracket two 2-16, the connecting columns ten 2-28 are fixedly connected with the gravity blocks 2-29, and the rotating wheels seven 2-2 are in fit connection with the belt one 4;

the paper slip sliding down from the separating device 1 enters the bracket II 2-16, the motor II 2-1 is started to drive the rotating wheel seven 2-2 to rotate, the rotating wheel eight 2-3 is driven to rotate, the connecting rod five 2-4 is driven to rotate, the rotating wheel nine 2-7 is driven to rotate, the connecting rod II 2-9 is driven to move, when the small cylinder II 2-8 moves upwards, the connecting rod II 2-9 pushes the connecting block 2-10 to move upwards, the connecting rod five 2-14 to move upwards, the two connecting rods four 2-13 to tighten inwards, the paper slip is tied on the paper cylinder mould 2-17, when the rotating wheel eight 2-3 rotates, the belt five 2-6 is driven to move, the rotating wheel ten 2-22 is driven to rotate, the connecting rod six 2-24 is driven to move, and the connecting rod ten 2-28 is driven to reciprocate up and down in the straight groove six 2-26, and then the gravity blocks 2-29 are driven to reciprocate up and down, and the two ends of the bent paper sheet are compacted, so that a paper cylinder is formed.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, and the embodiment will be further described, wherein the paper tube peeling device 3 comprises a rotating wheel twenty 3-1, a small cylinder eight 3-2, a support ten 3-3, a leg rest ten 3-4, a small cylinder nine 3-5, a small cylinder ten 3-6, a long rod ten 3-7, a hinge column ten 3-8, a slide block ten 3-9, a long rod eleven 3-10, a small cylinder eleven 3-11, a function rod 3-12, an outer groove 3-13, an inner groove 3-14, a boss ten 3-15, a rotating wheel twenty 3-1 rotatably connected with the small cylinder eight 3-2, a small cylinder eight 3-2 fixedly connected with the support ten 3-3, a rotating wheel twenty 3-1 fixedly connected with the small cylinder nine 3-5, the small cylinder ten 3-6 is fixedly connected with the bracket ten 3-3, the small cylinder nine 3-5 is connected with the long rod ten 3-7 in a matching way, the small cylinder ten 3-6 is connected with the long rod ten 3-7 in a matching way, the long rod ten 3-7 is connected with the slide block ten 3-9 through the hinge column ten 3-8 in a hinge way, the slide block ten 3-9 is fixedly connected with the long rod eleven 3-10, the small cylinder eleven 3-11 is fixedly connected with the function rod 3-12, the two groups of outer grooves 3-13 and inner grooves 3-14 are arranged on the bosses ten 3-15, the outer grooves 3-13 and the inner grooves 3-14 are connected with the small cylinder eleven 3-11 in a sliding way, the long rod eleven 3-10 is connected with the function rod 3-12 in a matching way, and the slide block ten 3-9 is connected with the, the four leg frames ten 3-4 are fixedly connected with the bosses ten 3-15, and the rotating wheel twenty 3-1 is connected with the belt I4 in a matching way;

when the rotating wheel seven 2-2 rotates, the belt 4 is driven to move, the rotating wheel twenty 3-1 is driven to rotate, the long rod ten 3-7 is driven to move, the sliding block ten 3-9 is driven to reciprocate in the middle groove of the boss ten 3-15, when the movable sliding block ten 3-9 moves leftwards in the boss ten 3-15, the small cylinder eleven 3-11 moves leftwards in the outer groove 3-13, when the movable sliding block ten 3-9 moves leftwards to the leftmost end, the small cylinder eleven 3-11 slides to the inner groove 3-14, the left end of the function rod 3-12 enters the groove 2-19, when the small cylinder eleven 3-11 moves rightwards in the inner groove 3-14, the left end of the function rod 3-12 pulls out the paper tube, and the reciprocating motion realizes the effect of continuously pulling out the paper tube.

The invention relates to a device for automatically manufacturing a paper tube, which has the working principle that: starting a motor I1-1 to drive a rotating wheel II 1-6 to rotate, driving a connecting column I1-8 to rotate to drive a semi-rotating wheel I1-9, when a concave part of the semi-rotating wheel I1-9 is contacted with a rotating wheel III 1-10, a spring I1-14 is tightened, a connecting rod I1-11 rotates rightwards, a sliding block 1-13 slides rightwards, a small cylinder 1-15 pushes out the lowest paper sheets in an upper frame body 1-7, when a protruding part of the semi-rotating wheel I1-9 is contacted with the rotating wheel III 1-10, the connecting rod I1-11 rotates leftwards, the sliding block 1-13 slides to the leftmost end, the reciprocating motion can push out the paper sheets in the upper frame body 1-7 one by one, the rotating wheel II 1-6 and the rotating wheel IV 1-12 rotate to respectively drive a belt II 1-17 and a belt III 1-19, further driving the five rotating wheels 1-18 and the six rotating wheels 1-20 to rotate, further driving the first rolling wheels 1-21 to rotate, further pushing the paper sheets pushed out one by one in the upper frame body 1-7 into the slideway 1-27 to slide into the paper folding cylinder device 2, brushing glue on one section of the paper sheet by the sliding paper sheets through the glue brushes 1-28, changing the position of the motor 1-1 in the motor base 1-3 so as to change the rotating speed of the second rotating wheels 1-6, further changing the rotating speed of the connecting column I1-8, changing the rotating speed of the half rotating wheels 1-9, further changing the reciprocating speed of the sliding blocks 1-13, further changing the pushing speed of the paper sheets in the upper frame body 1-7 one by one, further changing the rotating speed of the second rotating wheels 1-6 so as to change the rotating speed of the second belts 1-17, the rotating speed of the fifth rotating wheel 1-18 is changed, the rotating speed of the first roller 1-21 is changed, the speed of pushing the paper sheets out is changed, the speed of matching the paper sheets to enter the paper folding cylinder device can be controlled, when the rotating knob 1-23 is rotated, the first gear 1-24 is driven to rotate, the first gear 1-24 is in meshing transmission with the first straight gear 1-25, the second roller 1-22 is driven to move upwards or downwards, and the distance between the first roller 1-21 and the second roller 1-22 is changed to match the thickness of the paper sheets; the paper slip sliding down from the separating device 1 enters the bracket II 2-16, the motor II 2-1 is started to drive the rotating wheel seven 2-2 to rotate, the rotating wheel eight 2-3 is driven to rotate, the connecting rod five 2-4 is driven to rotate, the rotating wheel nine 2-7 is driven to rotate, the connecting rod II 2-9 is driven to move, when the small cylinder II 2-8 moves upwards, the connecting rod II 2-9 pushes the connecting block 2-10 to move upwards, the connecting rod five 2-14 to move upwards, the two connecting rods four 2-13 to tighten inwards, the paper slip is tied on the paper cylinder mould 2-17, when the rotating wheel eight 2-3 rotates, the belt five 2-6 is driven to move, the rotating wheel ten 2-22 is driven to rotate, the connecting rod six 2-24 is driven to move, and the connecting rod ten 2-28 is driven to reciprocate up and down in the straight groove six 2-26, further driving the gravity blocks 2-29 to reciprocate up and down, further compacting two ends of the bent paper sheet, and further forming a paper cylinder; when the rotating wheel seven 2-2 rotates, the belt 4 is driven to move, the rotating wheel twenty 3-1 is driven to rotate, the long rod ten 3-7 is driven to move, the sliding block ten 3-9 is driven to reciprocate in the middle groove of the boss ten 3-15, when the movable sliding block ten 3-9 moves leftwards in the boss ten 3-15, the small cylinder eleven 3-11 moves leftwards in the outer groove 3-13, when the movable sliding block ten 3-9 moves leftwards to the leftmost end, the small cylinder eleven 3-11 slides to the inner groove 3-14, the left end of the function rod 3-12 enters the groove 2-19, when the small cylinder eleven 3-11 moves rightwards in the inner groove 3-14, the left end of the function rod 3-12 pulls out the paper tube, and the reciprocating motion realizes the effect of continuously pulling out the paper tube.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.