CN213891519U - Automatic production device for extrudable paper straws - Google Patents

Abstract

The invention relates to an automatic production device of an extrudable paper straw, which comprises a paper feeding device, a shearing device, a paper feeding device, a tube core, a pressing device, a lifting device and a profiling machine frame, wherein the paper feeding device is arranged on the paper feeding device; the shearing device is arranged behind the paper feeding device and is fixed on the ground through foundation bolts, the paper outlet of the paper feeding device is flush and tightly attached to the working surface of the shearing device, the side edge of the paper outlet is abutted against the paper feeding device, and the direction of a cutting edge for cutting is vertical to the paper feeding direction; the paper feeding device is arranged in the shearing device and is contacted with the shearing device through a sliding rail to perform linear displacement; the tube core is arranged on the profiling machine frame through a sliding rail, the pressing device is connected with an upright post on the profiling machine frame through a roller, the lifting device is connected with the profiling machine frame through a sliding rail, and the working plane of the profiling machine frame is flush with the paper feeding device; the paper straw manufactured by the invention has the advantages of convenience and rapidness in manufacturing, simple flow and high production efficiency, and the volume of the paper straw is compressed in the storage and transportation processes, so that the purpose of convenience in transportation is achieved.

Description

Automatic production device for extrudable paper straws

Technical Field

The invention relates to a processing mode of a compressible paper straw, in particular to an automatic production device of an extrudable paper straw.

Background

The traditional paper straw can not be compressed, so that more space is occupied during storage, the transportation and storage cost of products is increased, and the traditional paper straw is low in processing speed and low in efficiency; aiming at the problem that the paper suction pipe cannot be compressed in size, the traditional processing mode of the paper suction pipe needs to be upgraded, the structure is improved, the production efficiency is increased, the production cost is reduced, and social resources are saved; the invention aims to manufacture an automatic production device of a squeezable paper straw, which can compress the volume of the paper straw in the storage and transportation process, save the production cost and improve the production efficiency.

Disclosure of Invention

In order to achieve the purpose, the invention discloses an automatic production device for an extrudable paper straw, which can be produced, occupies small space and is convenient to store and transport, and has the advantages of high integration degree, simple manufacturing process and convenient operation.

The invention adopts the following technical scheme:

an automatic squeezable paper straw producing apparatus comprising: the device comprises a paper feeding device, a shearing device, a paper feeding device, a tube core, a pressing device, a lifting device, a profiling machine frame and a packaging device; the paper feeding device is fixed on the ground through foundation bolts, the shearing device is installed behind the paper feeding device and is fixed on the ground through foundation bolts, a paper outlet of the paper feeding device is flush and tightly attached to the working surface of the shearing device, the side edge of the paper feeding device abuts against the paper feeding device, and the direction of a cutting edge of cutting is perpendicular to the direction of paper feeding; the paper feeding device is arranged in the shearing device and is contacted with the shearing device through a sliding rail to perform linear displacement; the tube core is arranged on the profiling rack through a sliding rail, the pressing device is connected with an upright post on the profiling rack through a roller, the lifting device is connected with the profiling rack through a sliding rail, and the working plane of the profiling rack is flush with the paper feeding device; the packaging device is connected with the side edge of the profiling machine frame, and the bottom of the packaging device is used for conveying straws through a sliding plate.

Further, the paper feeding device includes: the device comprises a bracket, a motor I, a roller, a transmission belt, a belt wheel, a transmission belt, a roller frame, a paper feeding guide plate and a paper discharging guide plate; the roller frame is a square tube assembling structure through bolts, the support is a split truss structure formed by welding steel tubes, the upper part cross beam is a polished rod, the polished rod penetrates through the center of a raw material paper roll and is fixedly installed on the vertical frames on two sides through bolts to prevent rolling, the support adopts a three-foot design to improve the overall stability of the support, positioning holes are symmetrically installed on two sides of the vertical frames, and the cross beam is fixed through positioning pins; the motor I is fixed on the roller frame through a bolt; the two rollers are divided into an upper group and a lower group, the upper group is four, the side surfaces are distributed in a triangular mode, the lower group is three, the side surfaces are horizontally arranged in a straight mode and are connected with the roller frame through ball bearings, the distance between the two rollers is 8cm, the two rollers are circumferentially fixed with the belt wheel through flat keys, and the two rollers are driven through narrow flat belts; the transmission belt is a narrow flat belt and is connected with the belt wheel to transmit power; the roller frame is formed by welding low-carbon steel and is divided into an upper part and a lower part which are connected through bolts, two side surfaces of the roller frame are trapezoidal thin plates, the middle of the roller frame is of a hollow frame structure, holes are symmetrically formed in the side walls of the roller frame, and a boss mounting end cover is machined at a bearing mounting position for dust prevention treatment; the edges of the surfaces of the paper feeding guide plate and the paper discharging guide plate are provided with bulges for conveying and guiding paper, and the paper feeding guide plate and the paper discharging guide plate respectively form included angles of 10 degrees and 15 degrees with the horizontal plane, the surfaces of the paper feeding guide plate and the paper discharging guide plate are subjected to roughness treatment to reduce friction force, and the paper feeding guide plate and the paper discharging guide plate are installed on the roller frame through bolts; the motor I drives the shaft to rotate through the coupler to further drive the roller and the conveyor belts to move, and the two sets of conveyor belts drag paper on the support to roll under the action of friction force, so that the input of the paper is realized.

Further, the shearing apparatus includes: the cutting knife, the motor II, the transmission shaft I, the turntable I, the partition plate II, the rack and the box body; the motor II is fixed on the box body through a bolt, a boss is arranged at the joint of the motor II and the bolt to reduce concentrated stress, and double nuts are adopted for connection and looseness prevention; the rotary table I is fixedly arranged on the transmission shaft I through a flat key, the motor II and the transmission shaft I transmit torque through a coupler, and an eccentric hole of the rotary table I is connected with the cutter through a pin; the rack is fixed on the partition plate II through a bolt, and the distance between the side edge of the rack and the side edge of the partition plate II is 5 cm; the cutter includes: a blade, a blade holder; the cutter frame is formed by welding, the center line of the cutter frame is symmetrical, cutter grooves are formed in two sides of the cutter frame, and two countersunk holes in each side of the cutter frame are fixed with the cutter blade through bolts; the blade is forged into a rectangle by adopting forged steel, is provided with two through holes which are symmetrically distributed, is inserted into the cutter groove of the cutter frame and is fixed by a bolt, and the cutter frame penetrates through the partition plate I to limit the horizontal degree of freedom and keep the vertical degree of freedom; the partition plate I and the box body are fixed inside through bolts, so that the partition plate I can be adjusted up and down; the operating platform below the box body is provided with two rectangular cutting seams and a middle seam, and the cutter penetrates through the cutting seams to cut.

Further, the paper feeding device includes: the device comprises a motor III, a motor IV, a turntable II, a motor mounting plate, a transmission shaft II, a connecting frame, a pressing support, a pressing frame, a pressing bin and a pressing plate; the motor III is a constant-speed motor, is fixedly mounted on the motor mounting plate through a bolt, is prevented from loosening through a double nut, and transmits torque through a coupler and the transmission shaft II; the motor mounting plate is fixedly mounted on the pressing frame through bolts, and four corners are fixed with the L-shaped sliding block through bolts, so that the paper feeding device only moves linearly on the partition plate II of the shearing device; the motor IV is fixed to the bottom surface of the motor mounting plate through bolts and is fixed between the two L-shaped sliding blocks; the rotary disc II is circumferentially fixed with the transmission shaft II through a flat key, and the eccentric hole is connected with the connecting frame through a pin; the pressing bracket penetrates through a limiting hole of the pressing bracket and is fixed with the pressing bin through a bolt, and the limiting hole only allows the pressing bracket to vertically move; the pressing bin is in the pressing frame and slides up and down along the inner wall under the driving of a motor III, the pressing bin is of a hexahedral hollow structure, the bottom surface of the pressing bin is provided with two symmetrically distributed strip bosses with blind holes, the pressing bin is fixed with the pressing support through bolts, the side surface of one side of a short edge is provided with two symmetrically distributed strip bosses with blind holes, the pressing bin is fixed with the push plate through bolts, four cylindrical bosses are arranged inside the pressing bin and provided with guide holes in sliding connection with guide columns of the pressing plate, a spring is arranged between the four cylindrical bosses for supporting, the width of the push plate is smaller than the width of a middle seam of a box body workbench in the shearing device, and the push plate can move in the middle seam; the motor IV shaft is fixed with the gear and is connected with the rack of the shearing device; the pressure strip is a thin plate with a rubber coating on the surface, four guide stand columns are arranged on the side face of the pressure strip and are in sliding connection with the guide holes of the pressure bin, and the tail ends of the stand columns are provided with locking buckles to prevent falling off.

Further, the die includes: the core body, the rotating frame and the retainer; the core body is fixed with the rotating frame through bolts; the rotating frame and the retainer are fixed through bolts, and the rotating frame can rotate for 10 degrees around the bolts to adjust the position; the retainer is connected with the profiling rack through a sliding rail, so that the retainer can slide up and down and is fixed by bolts.

Further, the pressing device includes: the device comprises a motor V, a motor VI, a moving block, a pressing frame, a lifting wheel, a pressing plate, a pressing rod, a spring frame and a transmission lead screw I; the motor V is fixed on the pressing frame through a bolt, is connected with the lifting wheel through a coupler and is matched with the upright column on the profiling machine frame to lift the platform; the motor VI is fixed on the pressing frame through a bolt and is connected with the transmission lead screw I through a coupler, and the transmission lead screw I is matched with the moving block through a screw pair to realize the movement of the moving block on a sliding rail on the pressing frame; the pressing frame is a trapezoidal body, a sliding groove is formed in the pressing frame, and square holes are formed in two wings of the pressing frame and are used for allowing the upright posts on the pressing frame to penetrate through; the pressing rod penetrates through the center of the moving block and is connected with the rotary table through a connecting rod for transmission, the lower part of the pressing rod is connected with the pressing plate through a pin, the spring frame is arranged on the pressing rod and the pressing plate on the side edge, and the rotary table drives the pressing rod to move up and down to press paper.

Further, the lifting device includes: the device comprises a motor VII, a transmission screw II, a turning plate, a lifting frame, a roller, a sliding rail, a sliding block, a sliding chute and a telescopic body; the motor VII is fixed on the profiling rack through a bolt, and is connected with the transmission lead screw II through a coupler, and the transmission lead screw II penetrates through the profiling rack to be matched with the lifting rack through a screw pair, so that the lifting rack can move up and down; the turning plate is connected with the upper platform of the lifting frame through a pin, so that 90-degree turning around the pin is realized; the side face of the lifting frame is connected with the roller through a bolt, the slide rail is connected with the profiling rack through a bolt, and the roller rolls in a groove of the slide rail; the sliding block slides in the sliding groove, one end of the sliding block is connected with the telescopic body through a pin, and the other end of the sliding block is connected with the turning plate through a connecting rod; the sliding groove is connected with the lifting frame through a bolt, and the telescopic direction of the telescopic body is parallel to the horizontal direction of the sliding groove and is connected with the sliding groove through a bolt; the telescopic body comprises: the device comprises a box body II, an output shaft I, an input shaft, an output shaft II, a gear I, an incomplete gear I, a gear II, a gear III, an incomplete gear II, a telescopic rod I and a telescopic rod II; the gear II is mounted on the output shaft I through a key, the gear I and the incomplete gear I are mounted on the output shaft I through a key, and the gear III and the incomplete gear II are mounted on the output shaft II through a key; the telescopic rod I is nested inside the telescopic rod II, and racks are arranged outside the telescopic rod I and the telescopic rod II; incomplete gear I with the outside rack toothing of telescopic link I, incomplete gear I incomplete gear II the intermittent type nature reciprocating motion mechanism is constituteed to telescopic link I, and the another side is identical.

Further, the profiling frame comprises: the device comprises a workbench, a conveying wheel and a separator; the transmission wheels are symmetrically distributed on two sides of the center line and connected with the workbench through bolts; the separator is fixed on the upright post on the workbench through a bolt; the separator includes: a separation frame, a revolving body and a separation wheel; the separating frame is fixed with the upright post on the workbench through a bolt, the revolving body rotates for 90 degrees around the revolving center, and the separating wheel is installed on the revolving body through a pin.

The invention also relates to a working method of the automatic production device for the squeezable paper straws, which comprises the following specific steps:

the paper is rolled by the paper feeding device, input into the shearing device for cutting, the cut paper is sent into an operation platform of the profiling frame by the paper feeding device, the paper is conveyed to the lower part of the tube core by a conveying wheel of the profiling frame, the lifting device is lifted upwards, the turning plate turns over two sides of the paper, the pressing device falls, folds and adheres to form a paper suction pipe, the suction pipe is peeled from the tube core by a separator of the profiling frame, and the suction pipe enters the packaging device along the sliding plate to complete packaging.

The automatic production device of the squeezable paper straw has the advantages that:

(1) according to the automatic production device for the squeezable paper straws, the volume of the straws can be compressed during storage by changing the forming mode of the paper straws, so that the space is saved, and the transportation is convenient; when in use, the space of the straw can be formed only by lightly and symmetrically extruding the edge edges by hands.

(2) The automatic production device for the squeezable paper straws has the advantages of high production efficiency, simple production flow, easiness in operation and strong universality.

Drawings

FIG. 1 is a top view of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 2 is a three-dimensional perspective view of a paper feeding device of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 3 is a partial view of a paper feeding device of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 4 is a three-dimensional perspective view of a roller frame of an automatic squeezable paper drinking straw producing apparatus according to the present invention;

FIG. 5 is a three-dimensional perspective view of a stand of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 6 is a three-dimensional perspective view of a shearing device of an automatic squeezable paper drinking straw producing apparatus according to the present invention;

FIG. 7 is a three-dimensional perspective view of a box body worktable of the automatic squeezable paper straw producing apparatus according to the present invention;

FIG. 8 is a three-dimensional perspective view of a cutter of an automatic squeezable paper straw producing apparatus according to the present invention;

FIG. 9 is a three-dimensional perspective view of a paper feeding device of an automatic squeezable paper straw producing apparatus according to the present invention;

FIG. 10 is a combination diagram of a tube core, a pressing device, a lifting device and a profiling frame of the automatic production device for the squeezable paper straws of the present invention;

FIG. 11 is a three-dimensional perspective view of a tube core of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 12 is a three-dimensional perspective view of a pressing device of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 13 is a partial view of a pressing device of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 14 is a three-dimensional perspective view of a lifting device of an automated squeezable paper straw-producing apparatus according to the present invention;

FIG. 15 is a three-dimensional perspective view of a telescopic body of an automatic manufacturing apparatus for squeezable paper straws in accordance with the present invention;

FIG. 16 is a partial view of the telescopic body of an automatic apparatus for producing squeezable paper straws in accordance with the present invention;

FIG. 17 is a three-dimensional perspective view of a profiling frame of an automatic squeezable paper straw-producing apparatus according to the present invention;

FIG. 18 is a three-dimensional perspective view of a separator of an apparatus for automatically producing squeezable paper straws in accordance with the present invention;

in the figure: 1-paper feeding device, 2-shearing device, 3-paper feeding device, 4-tube core, 5-pressing device, 6-lifting device, 7-profiling frame, 11-bracket, 12-motor I, 13-roller, 14-transmission belt, 15-belt wheel, 16-transmission belt, 17-roller frame, 18-paper feeding guide plate, 19-paper discharging guide plate, 21-cutter, 211-blade, 212-knife rest, 22-motor II, 23-transmission shaft I, 24-rotary table I, 25-partition plate I, 26-partition plate II, 27-rack, 28-box body, 31-motor III, 32-motor IV, 33-rotary table II, 34-motor mounting plate, 35-transmission shaft II, 35-tube core, 36-connecting frame, 37-pressing bracket, 38-pressing frame, 39-pressing bin, 310-pressing plate, 41-core body, 42-rotating frame, 43-holding frame, 51-motor V, 52-motor VI, 53-moving block, 54-pressing frame, 55-lifting wheel, 56-pressing plate, 57-pressing rod, 58-spring frame, 59-driving screw I, 61-motor VII, 62-driving screw II, turning plate, 64-lifting frame, 65-roller, 66-sliding rail, 67-sliding block, 68-sliding groove, 69-telescopic body, 691-box body II, 692-output shaft I, 693-input shaft, 694-output shaft II, 695-gear I, 696-incomplete gear I, 696-input shaft II, 692-incomplete gear I, 6-internal gear I, 56-pressing shaft II, 58-spring frame, 61-driving screw I, 61-motor VII, 62-driving screw II, turning plate, 65-roller, 66-sliding rail, 67-sliding block, 68-sliding groove, 69-telescopic body, 691-box body, 692-output shaft I, 696-input shaft I, 696-incomplete gear I, and 696-incomplete gear I, 697-gear II, 698-gear III, 699-incomplete gear II, 6910-telescopic rod I, 6911-telescopic rod II, 71-workbench, 72-transmission wheel, 73-separator, 731-separation frame, 732-revolving body and 733-separation wheel.

Detailed Description

Specific implementations of the present invention are further described below in conjunction with the following figures.

As shown in fig. 1 to 18, an automatic manufacturing apparatus for squeezable paper straws includes: the paper feeding device comprises a paper feeding device 1, a shearing device 2, a paper feeding device 3, a tube core 4, a pressing device 5, a lifting device 6 and a profiling machine frame 7; the paper feeding device 1 is fixed on the ground through foundation bolts; the sheet feeding device 1 includes: the device comprises a bracket 11, a motor I12, a roller 13, a transmission belt 14, a belt wheel 15, a transmission belt 16, a roller frame 17, a paper feeding guide plate 18 and a paper discharging guide plate 19; the shearing device 2 is arranged behind the paper feeding device 1 and is fixed on the ground through foundation bolts, the paper outlet of the paper feeding device 1 is flush and tightly attached to the working surface of the shearing device 2, the side edge of the paper outlet is abutted against the paper feeding device 1, and the direction of a cutting edge for cutting is vertical to the paper feeding direction; the shearing apparatus 2 includes: the cutting knife 21, the motor II 22, the transmission shaft I23, the turntable I24, the partition plate I25, the partition plate II 26, the rack 27 and the box body 28; the cutter 2 includes: blade 211, tool holder 212; the paper feeding device 3 is arranged in the shearing device 2 and is contacted with the shearing device through a sliding rail to perform linear displacement; the paper feeding device 3 includes: the device comprises a motor III 31, a motor IV 32, a turntable II 33, a motor mounting plate 34, a transmission shaft II 35, a connecting frame 36, a pressing bracket 37, a pressing frame 38, a pressing bin 39 and a pressing plate 310; the tube core 4 is arranged on the profiling rack 7 through a slide rail; the die 4 includes: a core body 41, a rotating frame 42, and a holder 43; the pressing device 5 is connected with an upright post on the profiling rack 7 through a roller; the pressing device 5 includes: the device comprises a motor V51, a motor VI 52, a moving block 53, a pressing frame 54, a lifting wheel 55, a pressing plate 56, a pressing rod 57, a spring frame 58 and a transmission lead screw I59; lifting device 6 through the slide rail with die mould frame 7 is connected, lifting device 6 includes: the device comprises a motor VII 61, a transmission screw II 62, a turnover plate 63, a lifting frame 64, a roller 65, a sliding rail 66, a sliding block 67, a sliding groove 68 and a telescopic body 69; the telescopic body 69 includes: the device comprises a box II 691, an output shaft I692, an input shaft 693, an output shaft II 694, a gear I695, an incomplete gear I696, a gear II 697, a gear III 698, an incomplete gear II 699, a telescopic rod I6910 and a telescopic rod II 6911; the working plane of the profiling frame 7 is flush with the paper feeding device 3; the profiling frame 7 comprises: a table 71, a transfer wheel 72, a separator 73.

As shown in fig. 1 to 18, an automatic forming device for a square paper straw has the following working modes:

the motor I12 drives the shaft to rotate through the coupler to further drive the roller 13 and the conveyor belts 16 to move, the two sets of conveyor belts drag paper on the support 11 to roll under the action of friction force, so that the paper is input, the paper feeding device 3 falls to fix the position, the cutter 21 of the shearing device 2 falls to cut, the motor IV 32 drives the gear to form a gear-rack structure with the rack 27 of the shearing device 2 to drive the baffle of the paper feeding device 3 to push paper sheets into the profiling rack 7, so that profiling of the paper is realized, the conveyor wheel 72 of the profiling rack 7 conveys the paper to the position above the lifting device 6, the lifting device 6 rises to enable the paper sheets to be close to the core 41 of the tube core 4, the turning plate 63 of the lifting device 6 is turned over by 90 degrees to enable two sides of the paper sheets to be attached to the core 41 of the tube core 4, the pressing plate 56 of the pressing device 5 is shortened in interval while falling, so that the paper is attached and pasted for forming, the revolving body 732 of the profiling machine frame 7 rotates and is in contact with the formed straws, and the formed straws are pushed to the packaging device by the separating wheel 733; the lifting device 6 is lifted up, the turning plate 63 of the lifting device 6 folds the two sides of the paper, the pressing device 5 falls, folds and sticks to form a straw, the straw is peeled off by the separator 73 of the profiling frame 7, and the straw enters the packaging device.

The scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (8)

1. The utility model provides a squeezable paper straw automatic production device which characterized in that: comprises a paper feeding device (1), a shearing device (2), a paper feeding device (3), a tube core (4), a pressing device (5), a lifting device (6) and a profiling machine frame (7); the paper feeding device (1) is fixed on the ground through foundation bolts, the shearing device (2) is installed behind the paper feeding device (1) and fixed on the ground through foundation bolts, a paper outlet of the paper feeding device (1) is flush and tightly attached to the working surface of the shearing device (2), the side edge of the paper outlet is close to the paper feeding device (1), and the cutting edge direction of cutting is perpendicular to the paper feeding direction; the paper feeding device (3) is arranged in the shearing device (2) and is contacted with the shearing device through a sliding rail to perform linear displacement; the tube core (4) is installed on the profiling rack (7) through a sliding rail, the pressing device (5) is connected with the upright post on the profiling rack (7) through a roller, the lifting device (6) is connected with the profiling rack (7) through a sliding rail, and the working plane of the profiling rack (7) is flush with the paper feeding device (3).

2. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the paper feeding device (1) includes: the paper feeding device comprises a support (11), a motor I (12), a roller (13), a transmission belt (14), a belt wheel (15), a transmission belt (16), a roller frame (17), a paper feeding guide plate (18) and a paper discharging guide plate (19); the roller frame (17) is a square tube assembling structure through bolts, the support (11) is a split truss structure formed by welding steel tubes, the cross beam at the upper part is a polished rod and penetrates through the center of a raw material paper roll and is fixedly installed on the vertical frames at two sides through bolts to prevent rolling, the overall stability of the support is improved by adopting a three-foot design for the support (11), positioning holes are symmetrically installed at two sides of the vertical frames, and the cross beam is fixed through positioning pins; the motor I (12) is fixed on the roller frame (17) through a bolt; the rollers (13) are divided into an upper group and a lower group, the upper group is four, the side surfaces are distributed in a triangular shape, the lower group is three, the side surfaces are horizontally arranged in a straight shape and are connected with the roller frame (17) through ball bearings, the distance between the two rollers is 8cm, the two rollers are circumferentially fixed with the belt wheel (15) through flat keys, and the two rollers are driven through narrow flat belts; the transmission belt (14) adopts a narrow flat belt and is connected with the belt wheel (15) to transmit power; the roller frame (17) is formed by welding low-carbon steel and is divided into an upper part and a lower part which are connected through bolts, two side surfaces of the roller frame (17) are trapezoidal thin plates, the middle of the roller frame is of a hollow frame structure, holes are symmetrically formed in the side walls of the roller frame, and boss mounting end covers are machined at bearing mounting positions to perform dustproof treatment; the paper feeding guide plate (18) and the paper discharging guide plate (19) are provided with bulges at the surface edges to convey and guide paper, and form included angles of 10 degrees and 15 degrees with the horizontal plane respectively, the surfaces of the paper feeding guide plate (18) and the paper discharging guide plate (19) are subjected to roughness treatment to reduce friction force, and the paper feeding guide plate (18) and the paper discharging guide plate (19) are installed on the roller frame (17) through bolts; the motor I (12) drives a shaft to rotate through a coupler to further drive the roller (13) and the conveyor belts (16) to move, and the two sets of conveyor belts drag paper on the support (11) to roll under the action of friction force, so that the input of the paper is realized.

3. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the shearing device (2) comprises: the cutting knife device comprises a cutting knife (21), a motor II (22), a transmission shaft I (23), a turntable I (24), a partition plate I (25), a partition plate II (26), a rack (27) and a box body (28); the motor II (22) is fixed on the box body (28) through a bolt, a boss is arranged at the joint of the motor II (22) and the bolt to reduce concentrated stress, and double nuts are adopted for connection and looseness prevention; the rotary table I (24) is fixedly mounted on the transmission shaft I (23) through a flat key, the motor II (22) and the transmission shaft I (23) transmit torque through a coupler, and an eccentric hole of the rotary table I (24) is connected with the cutter (21) through a pin; the rack (27) is fixed on the partition plate II (26) through a bolt, and the side edge of the rack (27) is 5cm away from the side edge of the partition plate II (26); the cutter (21) comprises: a blade (211), a blade holder (212); the cutter frame (212) is formed by welding, the center line of the cutter frame is symmetrical, cutter grooves are formed in two sides of the cutter frame, and two countersunk holes in each side of the cutter frame are fixed with the cutter blade (211) through bolts; the blade (211) is forged into a rectangle by adopting forged steel, two through holes which are symmetrically distributed are formed, a cutter groove of the cutter frame (212) is inserted and fixed by a bolt, and the cutter frame (212) penetrates through the partition plate I (25) in a connecting mode to limit the horizontal degree of freedom and keep the vertical degree of freedom; the partition plate I (25) and the box body (28) are fixed inside through bolts, so that the partition plate I (25) can be adjusted up and down; the operating platform below the box body (28) is provided with two rectangular cutting seams and a middle seam, and the cutter (21) penetrates through the cutting seams to cut.

4. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the paper feeding device (3) includes: the device comprises a motor III (31), a motor IV (32), a turntable II (33), a motor mounting plate (34), a transmission shaft II (35), a connecting frame (36), a pressing support (37), a pressing frame (38), a pressing bin (39) and a pressing plate (310); the motor III (31) is a constant-speed motor, is fixedly mounted on the motor mounting plate (34) through bolts, is prevented from loosening through double nuts, and transmits torque with the transmission shaft II (35) through a coupler; the motor mounting plate (34) is fixedly mounted on the pressing frame (38) through bolts, and four corners are fixed with the L-shaped sliding block through bolts, so that the paper feeding device (3) only moves linearly on the partition plate II (26) of the shearing device (2); the motor IV (32) is fixed to the bottom surface of the motor mounting plate (34) through bolts, and the motor IV (32) is fixed between the two L-shaped sliding blocks; the rotary disc II (33) is circumferentially fixed with the transmission shaft II (35) through a flat key, and the eccentric hole is connected with the connecting frame (36) through a pin; the pressing bracket (37) penetrates through a limiting hole of the pressing bracket (38) and is fixed with the pressing bin (39) through a bolt, and the limiting hole only allows the pressing bracket (37) to vertically move; the pressing bin (39) is arranged in the pressing frame (38) and driven by a motor III (31) to slide up and down along the inner wall, the pressing bin (39) is of a hexahedral hollow structure, the bottom surface of the pressing bin is provided with two symmetrically distributed strip bosses with blind holes, the pressing bin is fixed with the pressing frame (37) through bolts, the side surface of one side of a short side of the pressing bin is provided with two symmetrically distributed strip bosses with blind holes, the pressing bin is fixed with a push plate through bolts, four cylindrical bosses are arranged inside the pressing bin and provided with guide holes in sliding connection with guide columns of the pressing plate (310), a spring is arranged between the two bosses for supporting, the width of the push plate is smaller than that of a middle seam of a workbench of a box body (28) of the shearing device (2), and the push plate can move in the middle seam; the shaft of the motor IV (32) is fixed with a gear and is connected with a rack (27) of the shearing device (2); the pressing plate (310) is a thin plate with a rubber coating on the surface, four guide stand columns are arranged on the side face of the pressing plate and are in sliding connection with guide holes of the pressing bin (39), and a stop buckle is arranged at the tail end of each stand column to prevent the stand columns from falling off.

5. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the die (4) comprises: a core body (41), a rotating frame (42) and a retainer (43); the core body (41) is fixed with the rotating frame (42) through bolts; the rotating frame (42) and the retainer (43) are fixed through bolts, and the rotation of 10 degrees around the bolts is realized for position adjustment; the retainer (43) is connected with the profiling rack (7) through a sliding rail to realize vertical sliding and is fixed by bolts.

6. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the pressing device (5) comprises: the device comprises a motor V (51), a motor VI (52), a moving block (53), a pressing frame (54), a lifting wheel (55), a pressing plate (56), a pressing rod (57), a spring frame (58) and a transmission lead screw I (59); the motor V (51) is fixed on the pressing frame (54) through bolts, is connected with the lifting wheel (55) through a coupler, and is matched with an upright column on the profiling rack (7) to lift the platform; the motor VI (52) is fixed on the pressing frame (54) through a bolt and is connected with the transmission lead screw I (59) through a coupler, and the transmission lead screw I (59) is matched with the moving block (53) through a screw pair to realize the movement of the moving block (53) on a sliding rail on the pressing frame (54); the pressing frame (54) is a trapezoid body, a sliding groove is formed in the pressing frame, and square holes are formed in two wings of the pressing frame and are used for allowing the upright posts on the pressing frame (7) to penetrate through; the pressing rod (57) penetrates through the center of the moving block (53) and is connected with the rotary table through a connecting rod for transmission, the lower part of the pressing rod is connected with the pressing plate (56) through a pin, the spring frame (58) is arranged on the pressing rod (57) and the pressing plate (56) on the side edge of the pressing rod, and the rotary table drives the pressing rod (57) to move up and down to press paper.

7. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the lifting device (6) comprises: the device comprises a motor VII (61), a transmission screw II (62), a turnover plate (63), a lifting frame (64), a roller (65), a sliding rail (66), a sliding block (67), a sliding groove (68) and a telescopic body (69); the motor VII (61) is fixed on the profiling rack (7) through a bolt, the motor VII (61) is connected with the transmission screw II (62) through a coupler, and the transmission screw II (62) penetrates through the profiling rack (7) to be matched with the lifting rack (64) through a screw pair, so that the lifting rack (64) can move up and down; the turning plate (63) is connected with an upper platform of the lifting frame (64) through a pin, so that 90-degree turning is realized around the pin; the side surface of the lifting frame (64) is connected with the roller (65) through a bolt, the sliding rail (66) is connected with the profiling machine frame (7) through a bolt, and the roller (65) rolls in a groove of the sliding rail (66); the sliding block (67) slides in the sliding groove (68), one end of the sliding block is connected with the telescopic body (69) through a pin, and the other end of the sliding block is connected with the turning plate (63) through a connecting rod; the sliding groove (68) is connected with the lifting frame (64) through a bolt, and the telescopic direction of the telescopic body (69) is parallel to the horizontal direction of the sliding groove (68) and is connected with the sliding groove (68) through a bolt; the telescopic body (69) comprises: the device comprises a box body II (691), an output shaft I (692), an input shaft (693), an output shaft II (694), a gear I (695), an incomplete gear I (696), a gear II (697), a gear III (698), an incomplete gear II (699), a telescopic rod I (6910) and a telescopic rod II (6911); the gear II (697) is mounted on the output shaft I (692) through a key, the gear I (695) and the incomplete gear I (696) are mounted on the output shaft I (692) through a key, and the gear III (698) and the incomplete gear II (699) are mounted on the output shaft II (694) through a key; the telescopic rod I (6910) is nested inside the telescopic rod II (6911), and racks are arranged outside the telescopic rod I (6910) and the telescopic rod II (6911); incomplete gear I (696) with the outside rack toothing of telescopic link I (6910), incomplete gear I (696), incomplete gear II (699), intermittent type nature reciprocating motion mechanism is constituteed to telescopic link I (6910), and the another side is identical.

8. An automatic manufacturing apparatus for squeezable paper drinking straws as set forth in claim 1, wherein: the profiling frame (7) comprises: a work table (71), a conveying wheel (72), and a separator (73); the transmission wheels (72) are symmetrically distributed on two sides of the center line and are connected with the workbench (71) through bolts; the separator (73) is fixed on a vertical column on the workbench (71) through a bolt; the separator (73) comprises: a separation frame (731), a revolving body (732), and a separation wheel (733); the separation frame (731) is fixed to a column on the table (71) by a bolt, the revolving body (732) rotates by 90 degrees around a revolving center, and the separation wheel (733) is mounted on the revolving body (732) by a pin.

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