CN116812275A - Wet water machine for cutting wet buff paper adhesive tape - Google Patents

Abstract

The application discloses a wet buff paper adhesive tape cutting wet water machine, and belongs to the field of cutting and packaging. Comprising the following steps: the traction device is used for conveying the wet buff paper, so that the wet buff paper is pulled out from the paper roll of the wet buff paper; the cutting device is used for cutting the wet buff paper so as to enable the wet buff paper to be cut into an independent unit separated from the wet buff paper roll; the wet paper mechanism is used for humidifying and heating the wet buffalo paper of the independent individual; the paper clamping baffle structure, the traction device, the cutting device and the wet paper mechanism are all arranged inside the workbench and are sequentially installed along the paper outlet direction of the wet buff paper. The application has the beneficial effects of providing the wet buff paper adhesive tape cutting wet water machine with high mounting precision of the bed knife and the upper knife.

Description

Wet water machine for cutting wet buff paper adhesive tape

Technical Field

The application relates to the field of cutting and packaging, in particular to a wet water machine for cutting wet buff paper adhesive tape.

Background

Packaging machines are devices that cut a roll of tape or other paper material after a portion has been pulled outward to obtain individual pieces that are individually used for adhesion or wrapping.

The structure of the product can refer to the traction assembly (3) disclosed in the China patent document CN206691474U, the traction assembly comprises a traction rotating shaft (3-1), a traction wheel (3-2), a paper pressing wheel (3-3), 2 traction driving wheels (3-11), a traction motor (3-10), a connecting shaft (3-5) and a synchronous shaft (3-4), wherein the traction rotating shaft (3-1), the connecting shaft (3-5) and the synchronous shaft (3-4) are arranged in parallel, the traction wheel (3-2) is fixedly arranged on the synchronous shaft (3-4) in a penetrating manner, the paper pressing wheel (3-3) is connected to the connecting shaft (3-5), the paper pressing wheel (3-3) is arranged in parallel in a bisecting manner with the traction wheel (3-2), one end of the synchronous shaft (2-4) is connected with one traction driving wheel (3-11), the output end of the traction motor (3-10) is connected with the other traction driving wheel (3-11), the synchronous belt (3-12) is connected between the 2 traction driving wheels (3-11), and the traction module (7) is electrically connected with the traction module (7); the cutter assembly (4) comprises an upper cutter rest (4-3), a lower cutter support (4-4), a cutter cylinder (4-5), an upper cutter (4-1) and a lower cutter (4-2) which are parallel and overlapped on opposite sides of the cutter assembly, and a cutting area (4-6) formed by the upper cutter (4-1) and the lower cutter (4-2), wherein one end of the upper cutter (4-1) is hinged with the upper cutter rest (4-3), the other end of the upper cutter is connected with the cutter cylinder (4-5) in the vertical direction, the lower cutter (4-2) is semi-embedded on the lower cutter support, and the cutter cylinder (4-5) is electrically connected with the power control module (7).

In the structure, the cutting is driven by the air cylinder, so that the bed knife and the upper knife are overlapped, and the positions of the bed knife and the upper knife cannot accurately control the installation precision during installation.

At present, a wet buff paper adhesive tape cutting wet water machine with high mounting precision of a bed knife and an upper knife does not exist.

Disclosure of Invention

The summary of the application is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. The summary of the application is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

To solve the technical problems mentioned in the background section above, some embodiments of the present application provide a wet buff paper tape cutting wet water machine, comprising: a workbench configured as a box structure; the paper clamping baffle structure is used for installing paper rolls of the wet buffalo paper; the traction device is used for conveying the wet buff paper, so that the wet buff paper is pulled out from the paper roll of the wet buff paper; the cutting device is used for cutting the wet buff paper so as to enable the wet buff paper to be cut into an independent unit separated from the wet buff paper roll; the wet paper mechanism is used for humidifying and heating the wet buffalo paper of the independent individual; the paper clamping baffle structure, the traction device, the cutting device and the wet paper mechanism are all arranged in the workbench and are sequentially arranged along the paper outlet direction of the wet buff paper; the traction device comprises: the triangular bracket is provided with a supporting and guiding part for supporting and guiding the wet buff paper; the driving roller is arranged in the workbench; the driven roller is arranged in the workbench and is contacted with the driving roller so as to clamp the wet buff paper; the driving piece is connected to the driving roller and used for driving the driving roller to rotate around the central axis so as to drive the wet buff paper to be output outwards; the cutting device includes: the carbon-accumulating bracket is arranged in the workbench, is in a state of rotating around the center of the carbon-accumulating bracket and is used for indirectly supporting the driven roller; the bed knife is arranged on the triangular bracket, is arranged in parallel with the triangular bracket, and is abutted against the wet buffalo paper from the first cut side surface; the upper cutter is mounted on the carbon-accumulating support and is indirectly hinged with the carbon-accumulating support, and the upper cutter is abutted with the bed knife so that the upper cutter and the bed knife are mutually perpendicular; the driving wheel is indirectly connected to the carbon-accumulating support and matched with the driving piece, so that the driving wheel can rotate the carbon-accumulating support to drive the upper cutter cutting piece to cut off the wet buffalo paper.

When the tool is used, the bed knife is always kept in butt joint with wet buffalo paper, the upper knife is in butt joint with the end face of the bed knife through the supporting part, the upper knife can be guaranteed to be vertical to the bed knife, then under the guide of the supporting part on the upper knife, no matter how long the tool is used, the upper knife and the bed knife can be kept vertical, errors can not be generated, and the service life and the precision of the tool are greatly improved.

Further, the output end of the driving piece is fixedly provided with a first unidirectional transmission component; the inner wall of the workbench is rotatably provided with a connecting rotating shaft; a second unidirectional transmission component is arranged on the connecting rotating shaft; the second unidirectional transmission assembly is connected with the first unidirectional transmission assembly, so that the driving piece drives the second unidirectional transmission assembly through the first unidirectional transmission assembly; and a linkage plate matched with the driving wheel is arranged on the second carbon fiber bracket.

Further, the first unidirectional transmission assembly is connected with the driving roller; the first unidirectional transmission assembly transmits rotation in a first rotational dimension; the second unidirectional drive assembly transmits rotation in a second rotational dimension; the driving piece drives the first unidirectional transmission assembly to rotate in a first rotation dimension so as to enable the driving roller to rotate together, the first unidirectional transmission assembly drives the second unidirectional transmission assembly, and the linkage plate is static; the driving piece drives the first unidirectional transmission assembly to rotate in the second rotation dimension so as to enable the driving roller to be static, and the first unidirectional transmission assembly drives the second unidirectional transmission assembly so as to enable the second unidirectional transmission assembly to drive the linkage plate to rotate.

Further, the upper blade includes: a positioning part connected to the carbon-accumulating bracket so that the positioning part has a state of rotating relative to the carbon-accumulating bracket; the cutting part is connected with the positioning part and used for cutting the wet buff paper; and the extension part is connected to the positioning part and is abutted with the end surface of the bed knife so that the cutting part is perpendicular to the bed knife.

Further, the triangular bracket extends on the support guide part and then bends downwards to form a bending part lower than the support guide part; the end part of the bending part is provided with a bottom knife rest so that the bottom knife rest is lower than the guide supporting surface; the bed knife is installed on the bed knife rest, and the upper surface of bed knife and wet buff paper butt.

Further, threaded holes are formed in the bottom knife rest and the bottom knife; the two threaded holes are respectively positioned at the central position of the bottom knife rest and the central position of the bottom knife; the threaded hole on the bed knife is a countersunk threaded hole.

Further, the bed knife and the bed knife rest are connected into a whole through screws or bolts or studs.

Further, the wet paper mechanism includes: the water tank is arranged in the workbench and is in engine connection with the inner wall of the workbench, so that the water tank can be detachably positioned in the workbench; a wet paper component is arranged above the water tank; one end of the wet paper component is positioned in the water tank to be in contact with water, and the other end of the wet paper component is positioned above the water tank to be in butt joint with the wet buff paper and is used for humidifying the wet buff paper.

Further, an electric heating plate is arranged above the wet paper assembly and is used for heating the wet buff paper.

The application has the beneficial effects that: the wet water machine for cutting the wet buff paper adhesive tape is high in mounting precision of the bed knife and the upper knife.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, are incorporated in and constitute a part of this specification. The drawings and their description are illustrative of the application and are not to be construed as unduly limiting the application.

In addition, the same or similar reference numerals denote the same or similar elements throughout the drawings. It should be understood that the figures are schematic and that elements and components are not necessarily drawn to scale.

In the drawings:

FIG. 1 is an overall schematic of an embodiment according to the present application;

FIG. 2 is a schematic structural view of a portion of an embodiment, mainly illustrating the internal structure of a table;

FIG. 3 is a schematic structural view of a portion of an embodiment, mainly illustrating the structure of a pinch baffle;

FIG. 4 is a schematic structural view of a portion of an embodiment, primarily illustrating the traction device configuration;

FIG. 5 is a schematic structural view of a portion of an embodiment, primarily showing a carbon-rich scaffold structure;

FIG. 6 is a schematic structural view of a portion of an embodiment, primarily illustrating the tripod configuration;

FIG. 7 is a schematic structural view of a portion of an embodiment, mainly illustrating the exploded schematic structure of the tripod and the platen;

FIG. 8 is a schematic structural view of a portion of an embodiment, showing primarily the structure of the first unidirectional transmission assembly and the second unidirectional transmission assembly from one perspective;

FIG. 9 is a schematic structural view of a portion of an embodiment, primarily illustrating the structure of the first unidirectional transmission assembly and the second unidirectional transmission assembly from another perspective;

FIG. 10 is a schematic structural view of a portion of an embodiment, mainly illustrating the upper blade configuration;

FIG. 11 is a schematic structural view of a part of the embodiment, mainly showing the wet paper mechanism structure;

FIG. 12 is a schematic structural view of a portion of an embodiment, mainly showing the structure of the water tank;

fig. 13 is a schematic structural view of a part of the embodiment, mainly showing an exploded schematic structure of the wet paper mechanism;

FIG. 14 is a schematic structural view of a portion of an embodiment, mainly showing the wet paper assembly structure;

FIG. 15 is a schematic structural view of a portion of the embodiment, mainly showing the structure of the counter plate;

FIG. 16 is a schematic structural view of a portion of the embodiment, primarily illustrating the integral torsion spring structure;

FIG. 17 is a schematic structural view of a portion of an embodiment, mainly showing the support structure;

fig. 18 is a structural schematic diagram of a part of the embodiment, mainly showing the structure of the paper discharge structure;

FIG. 19 is a schematic structural view of a portion of an embodiment, primarily showing a carbon-rich stent structure;

fig. 20 is a schematic structural view of a portion of an embodiment, mainly illustrating a linkage plate structure.

Reference numerals:

a workbench 1 and a touch panel 11;

the paper clamping baffle structure 2, the supporting limiting plate 21, the accommodating groove 22, the connecting piece 23, the supporting piece 24, the locking bolt 25, the rounding 26, the guiding convex part 27,

A traction device 3,

Tripod 31, support guide 311, attachment 312,

An integral part 32, a clamping groove 321, a clamping part 322, a clearance groove 323, a first extension plate 324, a second extension plate 325,

A pressing plate 33,

A driving roller 34, a driven roller 35,

A driving member 36, a driving motor 361, a driving shaft 362,

The first unidirectional transmission assembly 37, the first transmission wheel 371, the first unidirectional output wheel 372 and the first clamping rod 373;

a cutting device 4,

A bed knife 41,

Upper blade 42, positioning portion 421, cutting portion 422, extension portion 423,

The poly support 43, the frame 431, the first transmission shaft 432, the second transmission shaft 433, the third transmission shaft 434, the upper blade holder 435, the reset torsion spring 436, the integral torsion spring 437, the fulcrum portion 4311, the arm portion 4312, the first shaft hole 4313, the second shaft hole 4314, the third shaft hole 4315, the third connection portion 4316, the fourth connection portion 4317, the fifth connection portion 4318, the first ring portion 43131, the first connection portion 43132, the sixth connection portion 43133, the triangle connection portion 43134, the second ring portion 43141, the second connection portion 43142, the torsion spring body 4371, the connection lever 4372, the third shaft hole 4315, the third connection portion 4316, the fourth connection portion 4317, the fifth connection portion 4318,

A bed knife rest 44, a fixed part 441, a threaded hole 442, a curved surface part 443, an expanding part 444,

A driving roller 45,

The linkage plate 46, the connecting shaft 461, the starting point 462, the ending point 463, the mating hole 464, the first arc surface 465, the second arc surface 466, the avoiding groove 467, the convex contour portion 468, the supporting rod body portion 469, the annular portion 460,

A second unidirectional transmission assembly 47, a second transmission wheel 471, a second unidirectional output wheel 472, a second clamping rod 473,

A wet paper mechanism 5,

A water tank 51,

Wet paper unit 52, support 521, counterweight 522, wetting portion 523, insertion portion 5211, contact portion 5212, inclined portion 5213, connecting through hole 5214, rounded edge 5215,

The carrier 53, the first guide 531, the second guide 532, the first mounting plate 533, the second mounting plate 534, the processed notches 535, the detent holes 536, the recessed grooves 537, the limit protrusions 538, the insert rod 539, the limit notches 530

A heat conductive sheet 54,

An electric heating plate 55,

A clamping plate 56,

Side box 6,

A timing disk 7, a through groove 71,

A concave plate 8.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. Embodiments of the present disclosure and features of embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in this disclosure are merely used to distinguish between different devices, modules, or units and are not used to define an order or interdependence of functions performed by the devices, modules, or units.

It should be noted that references to "one", "a plurality" and "a plurality" in this disclosure are intended to be illustrative rather than limiting, and those of ordinary skill in the art will appreciate that "one or more" is intended to be understood as "one or more" unless the context clearly indicates otherwise.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, a wet buff paper tape cutting wet water machine includes: the table 1 is constructed as a box structure. A touch panel 11 for finger touch pressing is provided on one side of the table 1.

Referring to fig. 2, the platen 1 is internally provided with a paper-clamping baffle structure 2, a traction device 3, a cutting device 4, and a wet paper mechanism 5 in this order along the paper-feeding direction (paper-feeding end to paper-discharging end) of the wet buff paper.

Referring to fig. 3, the pinch-off plate structure 2 includes: the support piece 24, the support piece 24 is fixedly connected to the inner wall of the workbench 1. The support piece 24 is in a rod body structure, and two ends of the support piece 24 are fixed with the inner wall of the workbench 1. Two connecting pieces 23 are arranged on the supporting piece 24, and the two connecting pieces 23 are arranged at intervals. Both connecting pieces 23 are sleeved on the supporting piece 24, and form transition fit with interference on the supporting piece 24. The connecting member 23 is a square bar structure. A guide plate is fixedly installed on each connecting piece 23. The guide plate is provided with a containing groove 22, and the containing groove 22 is obliquely downwards arranged from the paper feeding end to the paper discharging end and the end close to the paper discharging end is arc-shaped. The guide plate mounts a roll paper rotating shaft in the accommodating groove 22. The roll paper rotating shaft abuts against the inner wall of the accommodating groove 22 for enabling the roll paper rotating shaft to rotate around the axis of the roll paper rotating shaft.

Referring to fig. 4 to 7, the traction device 3 comprises: the tripod 31, the tripod 31 is constructed in an acute angle structure having an angle of less than 90 degrees, generally 30-60 degrees. The tripod 31 is fixedly installed on the inner wall of the table 1. The tripod 31 comprises a mounting part 312, the mounting part 312 is perpendicular to the bottom surface of the workbench 1, and extends upwards to the paper outlet end, bends and then extends obliquely downwards to form a supporting guide part 311 arranged in the workbench 1, the mounting part 312 and the supporting guide part 311 are perpendicular to the workbench 1, and the upper surface of the supporting guide part 311 is used for guiding the wet buff paper. The tripod 31 is provided with an integral part 32 on the support guide part 311, and the integral part 32 and the tripod 31 are integrally formed and extend upward, and are formed by bending by a bending machine. The upper part of the integral part 32 is fixedly provided with a pressing plate 33, and the lower surface of the pressing plate 33 and the upper surface of the supporting guide part 311 are provided with a gap for accommodating the wet buff paper so as to pass through the wet buff paper. The pressing plate 33 and the supporting guide portion 311 of the tripod 31 are provided with a clearance groove 323. The driving roller 34 is accommodated in the clearance groove 323 of the tripod 31, and a part of the driving roller 34 is positioned in the accommodation groove 22 of the tripod 31 and is abutted against the lower surface of the wet buff paper when in operation. The clearance groove 323 of the pressing plate 33 accommodates the driven roller 35, and a part of the structure of the driven roller 35 is positioned in the clearance groove 323 of the pressing plate 33 and abuts against the upper surface of the wet buff paper. The driving roller 34 and the driven roller 35 press the wet buff paper. The driving roller 34 is provided with a driving piece 36, and the driving piece 36 is used for driving the driving roller 34 to rotate and is used for driving the wet buff paper to be output outwards.

Referring to fig. 8-9, the driver 36 includes: and a driving motor 361, wherein the driving motor 361 is fixedly arranged on the outer wall of the workbench 1. The drive motor 361 is preferably a drive motor 361 with a decelerator in this embodiment. The output end of the driving motor 361 is provided with a driving rotating shaft 362, and the driving rotating shaft 362 is fixedly arranged at the output end of the driving motor 361 and is rotationally connected with the workbench 1. The first unidirectional transmission assembly 37 is mounted on the driving shaft 362. The driving shaft 362 drives the driving roller 34 to rotate through the first unidirectional transmission assembly 37, so that the driving roller 34 drives the wet buff paper to be output outwards.

Referring to fig. 6 to 7, the cutting device 4 includes: the bed knife 41, the bed knife 41 is located on the supporting guide part 311 of the triangular bracket 31, and the blade edge of the bed knife 41 extends out of the supporting guide part 311 towards the paper outlet end direction, and after the bed knife 41 is installed, the upper surface of the supporting guide part 311 is parallel to the upper surface of the bed knife 41. An upper blade 42 is provided outside the bed blade 41, and the upper blade 42 is perpendicular to the bed blade 41. The upper knife 42 is connected with a carbon-accumulating bracket 43, the carbon-accumulating bracket 43 is connected with the first unidirectional transmission component 37, and the carbon-accumulating bracket 43 is used for driving the upper knife 42 to move up and down in a direction perpendicular to the bed knife 41 so that the upper knife 42 and the bed knife 41 cut off the wet buffalo paper.

Referring to fig. 6 to 7, the tripod 31 is provided with a bed knife 41 holder, and the bed knife 41 holder and the tripod 31 are integrally formed.

Referring to fig. 6 and 10, the carbon-rich stent 43 includes: the frame 431, the frame 431 is located inside the workstation 1. The center of the frame body 431 is provided with a first transmission rotating shaft 432, the first transmission rotating shaft 432 is rotatably arranged on the frame body 431, and the first transmission rotating shaft 432 is fixedly arranged in the inner wall of the workbench 1. The frame 431 is provided with a second transmission rotating shaft 433 at one end close to the driven roller 35, and the second transmission rotating shaft 433 is rotatably arranged on the frame 431. The driven roller 35 is fixedly mounted on the second driving shaft 433. The two ends of the second transmission rotating shaft 433 are not contacted with the inner wall of the workbench 1. The end of the frame 431 near the bed knife 41 is provided with a third transmission rotating shaft 434, and the third transmission rotating shaft 434 is rotatably installed on the frame 431. The third transmission rotating shaft 434 is provided with an upper cutter 42 cutter frame, the upper cutter 42 cutter frame is constructed as a plate type structure, and the upper cutter 42 cutter frame is fixedly arranged on the third transmission rotating shaft 434. The upper blade 42 is fixedly mounted on the upper blade 42 holder.

Referring to fig. 10, the upper blade 42 includes: and a positioning part 421, wherein the positioning part 421 is fixedly arranged on the tool rest of the upper tool 42. The positioning portion 421 is provided with a cutting portion 422, and the cutting portion 422 is used for cutting the wet buff paper. Extension portions 423 are provided on both sides of the cutting portion 422. The first transmission rotating shaft 432 is provided with a reset torsion spring 436, one end of the reset torsion spring 436 is abutted against the inner wall of the workbench 1, and the other end of the reset torsion spring 436 is abutted against the frame body 431, so that the frame body 431 has a state of being subjected to clockwise rotation force, namely the second transmission rotating shaft 433 descends and the third transmission rotating shaft 434 ascends. The third transmission shaft 434 is provided with an integral torsion spring 437, and two ends of the integral torsion spring 437 are respectively abutted against two ends of the frame 431. The integral torsion spring 437 includes two torsion spring bodies 4371 and a connecting rod 4372 connecting the two torsion spring bodies 4371, one end of the torsion spring body 4371 is abutted against the frame body 431, and the other end is integrally formed with the connecting rod 4372, so that the upper blade 42 is subjected to a counterclockwise rotation force, and the torsion spring body 4371 can be understood as a single torsion spring structure. The extension 423 always abuts against the bed knife 41 by the counterclockwise force of the upper knife 42.

Referring to fig. 6 to 10, a driving roller 45 is fixedly installed on the second driving shaft 433, and the driving roller 45 is positioned at an outer side of the frame 431. A linkage plate 46 is provided below the driving roller 45, and the linkage plate 46 is configured to have an elliptical-like structure. The linkage plate 46 is abutted with the driving roller 45, and the abutting surface of the linkage plate 46 and the driving roller 45 is an arc-shaped surface, so that the driving wheel is driven; the middle of the linkage plate 46 is provided with a connecting rotating shaft 461, the linkage plate 46 can rotate relative to the connecting rotating shaft 461, and the connecting rotating shaft 461 is rotatably arranged on the inner wall of the workbench 1. The second unidirectional transmission assembly 47 is installed on the connection rotating shaft 461, and the second unidirectional transmission assembly 47 is matched with the first unidirectional transmission assembly 37, so that the first unidirectional transmission assembly 37 can drive the connection rotating shaft 461 to rotate anticlockwise through the second unidirectional transmission assembly 47, the connection rotating shaft 461 drives the linkage plate 46 to rotate anticlockwise, the linkage plate 46 can drive the driving roller 45 to move upwards, and the driving roller 45 drives the frame 431 to rotate around the first transmission rotating shaft 432 through the second transmission rotating shaft 433. The frame 431 drives the upper blade 42 to move downward, which causes the upper blade 42 to move downward. The extension 423 always abuts the bed knife 41, and the upper knife 42 is always at an angle perpendicular to the bed knife 41.

Referring to fig. 6-10, the driving roller 45 abuts against the linkage plate 46, so that the linkage plate 46 cannot rotate counterclockwise, and thus remains in place.

Referring to fig. 8-9, the first one-way drive assembly 37 comprises: the first transmission wheel 371, the first transmission wheel 371 is fixedly mounted on the driving rotation shaft 362. The first transmission wheel 371 is provided with a first unidirectional output wheel 372, the first unidirectional output wheel 372 is rotatably mounted on the first transmission wheel 371, and the driving roller 34 is rotatably mounted on the driving rotating shaft 362. The second one-way transmission assembly 47 comprises: the second driving wheel 471, the second driving wheel 471 is fixedly mounted on the connecting rotating shaft 461. The second driving wheel 471 is provided with a second unidirectional output wheel 472, and the second unidirectional output wheel 472 is unidirectionally rotatably mounted on the second driving wheel 471.

The first unidirectional output wheel 372 rotates in synchronism with the drive roller 34 snap fit and the second unidirectional output wheel 472 rotates in synchronism with the linkage plate 46 snap fit. The driving roller 34 is fixedly provided with a first clamping rod 373, and the first clamping rod 373 is clamped into a groove formed by adjacent chain teeth of the first unidirectional output wheel 372. The second locking rod 473 is fixedly mounted on the linkage plate 46, and the second locking rod 473 is opened into the groove formed by the adjacent sprocket of the second unidirectional output wheel 472. The first drive wheel 371 is engaged with the second drive wheel 471. The driving shaft 362 rotates anticlockwise to drive the first driving wheel 371 and the first unidirectional output wheel 372 to rotate anticlockwise, and the first unidirectional output wheel 372 drives the driving roller 34 to rotate anticlockwise for conveying the wet buff paper outwards; meanwhile, although the first driving wheel 371 drives the second driving wheel 471 to rotate clockwise, the second driving wheel 471 is idle with respect to the second unidirectional output wheel 472, and thus the linkage plate 46 cannot be driven to rotate. The driving shaft 362 rotates clockwise, but cannot drive the first unidirectional output wheel 372 to rotate, the driving roller 34 does not move, the first driving wheel 371 drives the second driving wheel 471 to rotate anticlockwise, the second driving wheel 471 drives the second unidirectional output wheel 472 to rotate, so that the linkage plate 46 is driven to rotate anticlockwise, the linkage plate 46 rotates to press the driving roller 45 upwards, the frame 431 rotates for a certain angle, and therefore downward movement of the upper knife 42 is achieved, and the wet buff paper is cut off.

Referring to fig. 11 to 14, the wet paper apparatus includes: a water tank 51, the water tank 51 being mounted in the inner wall of the table 1. A wet paper assembly 52 is arranged above the water tank 51, a bearing piece 53 is arranged on the wet paper assembly 52, and the bearing piece 53 is configured into a concave shape. The carrier sheet 53 is fixedly installed on the inner wall of the table 1 and above the wet paper assembly 52 for supporting the wet buff paper. The carrier plate 53 is provided with a heat conducting plate which is fixedly arranged above the carrier plate 53 and has a gap with the carrier plate 53 so as to enable the wet buffalo paper to normally pass through. The electric heating plate 55 is arranged on the heat conducting plate, the electric heating plate 55 transmits heat to the heat conducting plate, and the electric heating plate 55 is fixedly arranged above the heat conducting plate. The wet paper module 52 includes: the support portion 521, the support portion 521 is configured in a concave shape. A water delivery portion is provided on one side of the pair of support portions 521. The water delivery part and the supporting part 521 are adhered with the wetting part 523, the wetting part 523 and the water delivery part and the supporting part 521 are adhered together to enable the water delivery part to rotate around the supporting part 521, the wetting part 523 is a component with one surface having viscosity and the other end surface having a water absorption structure, the water absorption structure is wool, sponge, silk, cloth and the like, the wetting part 523 in the embodiment is preferably a magic tape with a wool surface, the wool surface is utilized for wetting, and the cost is low. Two clamping plates 56 are fixedly arranged below the bearing piece 53, an insertion gap is formed below the clamping plates 56 and the bearing piece 53, insertion parts 5211 are formed on two sides of the supporting part 521, the insertion parts 5211 are inserted into the gap and clamped by the clamping plates 56 and the bearing piece 53, so that the upper surface of the supporting part 521 is lower than the upper surface of the bearing piece 53, and the water conveying part is downwards vertical to be inserted into the water tank and is contacted with water in the water tank. So that one part of the wet part 523 is in water, the other part will also become wet. The upper surface of the wetting portion 523 on the supporting portion 521 is in contact with wet buff paper for wetting the wet buff paper.

The two sides of the workbench 1 are provided with side boxes 6, and the side boxes 6 are fixedly arranged on the two sides of the workbench 1. The side case 6 is used for wrapping the driving motor 361.

Referring to fig. 15, a timing disk 7 is fixedly installed on the second transmission shaft 433, and a plurality of through slots 71 are formed in the timing disk 7. The outer wall of the workbench 1 is provided with a concave plate 8. The concave plate 8 is provided with a light source emitter and a light source receiver. For counting the rotation angle of the timing disc 7, that is, the rotation angle of the second driving shaft 433, and further counting the distance of the driven roller 35, that is, the wet buff paper, which is output outwardly.

Example two

A paper output structure comprising: a carrier sheet 53. The carrier sheet 53 is constructed in a plate-like structure. A heat conductive sheet 54 is provided above the carrier sheet 53. Wherein the upper surface of the carrier sheet 53 and the lower surface of the heat conductive sheet 54 form a slit. One end of the carrier piece 53 is formed with a first guide 531 extending obliquely upward. The heat conductive sheet 54 is formed with a second guide portion 532 extending obliquely upward at one end thereof adjacent to the first guide portion 531. A space for passing the wet buff paper is provided between the first guide portion 531 and the second guide portion 532. The upper surface of the heat conductive sheet 54 is provided with an electric heating plate 55, and the electric heating plate 55 is used for heating the heat conductive sheet 54, so that the temperature of the heat conductive sheet 54 is increased, and the wet buffalo paper passing through the gap between the carrier sheet 53 and the heat conductive sheet 54 is heated at high temperature.

The carrier 53 is formed with an upwardly extending first mounting plate 533 on a side thereof; the side surface of the heat conductive sheet 54 is formed with a second mounting plate 534 extending upward; the first mounting plate 533 and the second mounting plate 534 each have two, and the two second mounting plates 534 are located between the two first mounting plates 533. The outer walls of the two second mounting plates 534 abut the inner walls of the two first mounting plates 533. The first mounting plate 533 has a recess 537 formed thereon; the second mounting plate 534 is formed with a rod insertion portion 539 inserted into the recess groove 537. The insert rod portion 539 is inserted into the recess groove 537, and the second mounting plate 534 cannot move horizontally relative to the first mounting plate 533 through the cooperation of the recess groove 537 and the insert rod portion 539, so that the limit of the heat conductive sheet 54 is realized.

One end of the second mounting plate 534 is formed with a limit notch 530; one end of the first mounting plate 533 is formed with a stopper protrusion 538 inserted into the stopper notch 530. The limiting protrusion 538 is inserted into the limiting notch 530 to limit the second mounting plate 534 in the vertical direction, so that the second mounting plate 534 cannot move up and down relative to the first mounting plate 533, and further limit the heat conducting fin 54. The heat conductive sheet 54 is formed with a processing notch 535 at one end thereof remote from the limiting notch 530. One end of the carrier piece 53 remote from the recess 537 is provided with a detent hole 536. The clamping holes 536 are used for mounting and fixing the carrying piece 53 later. The inclination angle of the first guide 531 is 30 °. The inclination angle of the second guide 532 is 35 °.

Example III

A flywheel structure, comprising: table 1, table 1 is constructed as a box structure. A driving member 36 is fixedly arranged on the outer wall of the workbench 1. The driving member 36 is preferably a driving member 36 with a decelerator. The output end of the driving piece 36 is provided with a driving rotating shaft 362, and the driving rotating shaft 362 is fixedly arranged at the output end of the driving piece 36 and is rotationally connected with the workbench 1. The first unidirectional transmission assembly 37 is mounted on the driving shaft 362. Drive roll 34 is also fixedly mounted on drive shaft 362.

Referring to the figure, a tripod 31 is provided under the wet buff paper, and the tripod 31 is fixedly installed on the inner wall of the table 1. The upper surface of the tripod 31 is used for guiding the wet buff paper. The tripod 31 is provided with a clearance groove 323. Part of the structure of the drive roller 34 is located in the clearance groove 323 and abuts against the lower surface of the wet buff paper in operation. A driven roller 35 is arranged above the driving roller 34, and the driven roller 35 is abutted with the driving roller 34 so that the wet buff paper is pressed. The driven roller 35 is rotatably mounted on the inner wall of the table 1 by a shaft structure.

The driving shaft 362 drives the driving roller 34 to rotate through the first unidirectional transmission assembly 37, so that the driving roller 34 drives the wet buff paper to be output outwards.

Referring to the figure, a bed knife 41 is attached to the tripod 31, and the upper surface of the bed knife 41 is in contact with the lower surface of wet buff paper. An upper knife 42 is provided at the bed knife 41. The upper knife 42 is provided with a transmission bracket, and the upper knife 42 is arranged on the transmission bracket and is vertical to the bed knife 41. The first transmission rotating shaft 432 is fixedly arranged at the center of the transmission bracket, and the first transmission rotating shaft 432 is rotationally connected with the inner wall of the workbench 1. The end of the drive bracket adjacent the drive roller 34 is rotatably mounted with a second drive shaft 433. The driven roller 35 is fixedly mounted on the second transmission shaft 433. A torsion spring is mounted on the first drive shaft 432 to urge the drive bracket to rotate clockwise and thereby maintain the driven roller 35 in abutment with the drive roller 34. The second driving shaft 433 is rotatably installed with the driving roller 45 on the portion located outside the driving bracket.

Referring to the drawings, a connection shaft 461 is rotatably installed on the inner wall of the table 1. The connecting shaft 461 is provided with a second unidirectional transmission member which is matched with the first unidirectional transmission member. The connecting shaft 461 is further provided with a linkage plate 46, and the linkage plate 46 is rotatably connected with the connecting shaft 461. The first one-way transmission assembly 37 comprises: the first transmission wheel 371, the first transmission wheel 371 is fixedly mounted on the driving rotation shaft 362. The first transmission wheel 371 is provided with a first unidirectional output wheel 372, the first unidirectional output wheel 372 is rotatably mounted on the first transmission wheel 371, and the driving roller 34 is rotatably mounted on the driving rotating shaft 362. The second one-way transmission assembly 47 comprises: the second driving wheel 471, the second driving wheel 471 is fixedly mounted on the connecting rotating shaft 461. The second driving wheel 471 is provided with a second unidirectional output wheel 472, and the second unidirectional output wheel 472 is rotatably mounted on the second driving wheel 471. The second unidirectional output wheel 472 is fixedly connected with the linkage plate 46. The linkage plate 46 abuts against the driving roller 45.

The first driving wheel 371 and the second driving wheel 471 are gears; the second unidirectional output wheel 472 is disposed near one end of the drive 36; a first unidirectional output wheel 372 is disposed at an end remote from the drive member 36. The first unidirectional output wheel 372 includes: a first transmission part and a first unidirectional part; the first unidirectional part is connected with a first driving wheel 371; the second unidirectional output wheel 472 includes: a second transmission part and a second unidirectional part; the second unidirectional portion is connected with a second driving wheel 471. The first unidirectional part and the second unidirectional part are both unidirectional bearing structures. The driving roller 34 is arranged on the outer circle of the driving rotating shaft 362; a plurality of second positioning grooves are formed on the second transmission part; the drive roller 34 has a plurality of second positioning projections formed thereon that engage the second positioning grooves. The drive roller 34 is rotatably coupled to the drive shaft 362 and rotates in synchronization with the first unidirectional portion. The connecting rotating shaft 461 is provided with a linkage plate 46; a plurality of first positioning grooves are formed on the first transmission part; the linkage plate 46 is formed with a plurality of first positioning projections which are engaged into the first positioning grooves. The link plate 46 is rotatably connected to the connecting shaft 461 and rotates in synchronization with the second unidirectional portion.

The driving shaft 362 rotates anticlockwise to drive the first driving wheel 371 and the first unidirectional output wheel 372 to rotate anticlockwise, and the first unidirectional output wheel 372 drives the driving roller 34 to rotate anticlockwise for conveying the wet buff paper outwards; meanwhile, although the first driving wheel 371 drives the second driving wheel 471 to rotate clockwise, since the second driving wheel 471 and the second unidirectional output wheel 472 can only rotate clockwise in one direction, the second driving wheel 471 idles relative to the second unidirectional output wheel 472, and thus the linkage plate 46 cannot be driven to rotate. The driving shaft 362 rotates clockwise, and cannot drive the first unidirectional output wheel 372 to rotate (because the wet buff paper is pressed on the driving roller 34, the friction force from the wet buff paper needs to be overcome when the driving roller 34 rotates), so that the driving roller 34 is not moved, the first driving wheel 371 drives the second driving wheel 471 to rotate anticlockwise, the second driving wheel 471 drives the second unidirectional output wheel 472 to rotate, and accordingly the linkage plate 46 is driven to rotate anticlockwise, the linkage plate 46 rotates upwards to press the driving roller 45, the frame 431 rotates for a certain angle, and downward movement of the upper cutter 42 is achieved, and the wet buff paper is cut off.

In other embodiments, the first drive wheel 371 and the second drive wheel 471 are each one of a sprocket, a pulley, a sheave; the second unidirectional output wheel 472 and the first unidirectional output wheel 372 are both disposed at an end proximal to the drive 36 or at an end distal to the drive 36.

Example IV

A carbon-rich stent 43 structure comprising: the fulcrum portion 4311 and two arm portions 4312, fulcrum portion 4311 is located the power arm portion 4312 center and with arm portion 4312 integrated into one piece. The force arm 4312 has a first shaft hole 4313 and a second shaft hole 4314 at both ends. The fulcrum portion 4311 defines a third axial hole 4315. The force arm portion 4312 protrudes inward at the edge of the first shaft hole 4313 to form a first annular portion 43131. The fulcrum portion 4311 is formed with a first connection portion 43132 connected to the arm portion 4312, the first ring portion 43131, and the fulcrum portion 4311. The force arm portion 4312 protrudes outward at the edge of the second shaft hole 4314 to form a second annular portion 43141. The force arm portion 4312 is formed with a second connection portion 43142 at the second annular portion 43141, which is connected to the second annular portion 43141 and the moment arm portion 4312. The first connection portion 43132 is perpendicular to the two arm portions 4312. The straight lines formed by extending the first connection portions 43132 to both sides intersect the axis of the third shaft hole 4315 and the axis of the first shaft hole 4313, respectively. The fulcrum portion 4311 is formed with a third connection portion 4316 connected to the fulcrum portion 4311 and the two arm portions 4312 at a side away from the first connection portion 43132. The edge of the third connection part 4316 is formed with a fourth connection part 4317 formed to extend upward and downward perpendicular to the third connection part 4316. The fourth connection portion 4317 is connected to two arm portions 4312. The second connecting portion 43142 is perpendicular to the arm 4312. The straight lines formed by the second connection portions 43142 extending to both sides intersect the axis of the second shaft hole 4314 and the axis of the third shaft hole 4315, respectively. A fifth connection portion 4318 connected to the second connection portion 43142 and the arm portion 4312 is formed at the second connection portion 43142. One end of the fifth connecting portion 4318, which is far from the second connecting portion 43142, is fixed to the angular portion 43143, and the angular portion 43143 is fixed to the arm portion 4312. The fourth connection portion 4317 is perpendicular to the third connection portion 4316 and the arm 4312. The first connecting portions 43132 are provided with two connecting portions, which are perpendicular to the arm portions 4312. A sixth connection portion 43133 is formed between the two first connection portions 43132. The sixth connecting portion 43133 is connected to the two first connecting portions 43132 and the fulcrum portion 4311. A triangle connecting portion 43134 is formed at the connection of the first connecting portion 43132 and the sixth connecting portion 43133.

Example five

A ganged-plate 46 structure, comprising: an engagement hole 464 formed in the link plate 46 so that the link plate 46 rotates about an axis of the engagement hole 464; a first arcuate surface 465 located on the side of the link plate 46 for abutment with the drive wheel extending from a start point 462 to a finish point 463; a second arcuate surface 466 connected to the terminus 463 of the first arcuate portion and extending outwardly away from the first arcuate portion; wherein the distance between the axis of the mating hole 464 and the point on the first arc gradually increases from the start 462 to the end 463 of the first arc; all points on the second arc are spaced from the axis of the mating hole 464 more than the end point 463 is spaced from the axis of the mating hole 464. An avoidance groove 467 is formed in one side of the linkage plate 46, the avoidance groove 467 is arranged close to the second cambered surface 466, an inclined surface is formed in the other side of the linkage plate 46, and the inclined surface is in butt joint with the first cambered surface 465. The point on the first arc near the bevel is the start 462 and the point far from the bevel is the end 463. The distance between the point on the second arc portion in the extending direction of the end point 463 along the first arc portion toward the end point of the other end of the second arc portion and the axis of the fitting hole 464 gradually increases. A raised profile 468 is formed on one of the end edges of the linkage plate 46. The linkage plate 46 has a plurality of support rod portions 469 formed thereon that are connected to the raised profile 468. The linkage plate 46 is formed with two raised annular portions 460 at the axial center of the mating hole 464. The end surface of the linkage plate 46 remote from the raised profile 468 is formed with a plurality of posts 539.

Example six

A tripod 31 installation structure comprising: a mounting portion 312; the supporting and supporting guide part 311 is connected to the mounting part 312 and forms an acute angle frame 431 structure with the mounting part 312, wherein the angle of the acute angle frame 431 structure is smaller than 90 degrees; wherein, a first mounting clip portion is formed on a side surface of the mounting portion 312; two side plates are mounted on both sides of the mounting portion 312; the two side plates are provided with clamping holes which are spliced with the first mounting clamping parts, and the mounting parts 312 are perpendicular to the side plates. The angle of the frame 431 is 30-60 degrees. The side surface of the mounting portion 312 is also formed with a first protruding portion that abuts against the side plate. The first mounting clamp part is positioned in the middle of the first protruding part. The side surface of the support guide 311 is formed with a second protrusion; one end of the second protruding part is connected with the first protruding part, and the other end extends to the concave notch; the second protruding portion is abutted with the side plate. A second mounting clip portion inserted into the mounting clip hole is formed in the middle of the second protruding portion. The support guiding part 311 is provided with a clearance gap. The mounting portion 312 is perpendicular to the bottom surface of the table 1.

A pressing plate 33 is provided above the support guide 311. The pressing plate 33 has a locking portion 322 formed thereon.

The supporting guide part 311 is provided with a concave notch; the support guide 311 is formed with a protrusion extending upward at the concave indentation. The protruding part is provided with a clamping groove 321. The clamping part 322 is clamped into the clamping groove 321; the supporting guide 311 is disposed obliquely downward from the paper feed end to the paper discharge end. The position keeping groove 323 of the pressing plate 33 is fixed with a first extension plate 324 near one side of the paper, and the extension plate is obliquely upwards arranged from one end connected with the upper notch to the paper feeding end. The platen 33 is formed with a second extension plate 325 extending near the paper feed end. The integral part 32 is integrally formed with the support guide 311. The interval between the two integrated portions 32 is the same as the width of the pressing plate 33 so that the pressing plate 33 is restrained in the width direction. The thickness of the integrated portion 32 is identical to that of the support guide 311. The clamping portion 322 has a clearance at least partially perpendicular to the movement of the support guide 311 in the clamping groove 321.

The pressing plate 33 is also provided with a clearance gap. The clearance gap in the platen 33 accommodates a follower roller 35. The clearance gap in the support guide 311 accommodates a drive roller 34. The driving roller 34 and the driven roller 35 press the wet buff paper. The driving roller 34 is provided with a driving piece 36, and the driving piece 36 is used for driving the driving roller 34 to rotate and is used for driving the wet buff paper to be output outwards. The position keeping groove 323 of the pressing plate 33 is fixed with a first extension plate 324 near one side of the paper, and the extension plate is obliquely upwards arranged from one end connected with the upper notch to the paper feeding end. The platen 33 is formed with a second extension plate 325 extending near the paper feed end. The integral part 32 is integrally formed with the support guide 311. The interval between the two integrated portions 32 is the same as the width of the pressing plate 33 so that the pressing plate 33 is restrained in the width direction. The thickness of the integrated portion 32 is identical to that of the support guide 311. The clamping portion 322 has a clearance at least partially perpendicular to the movement of the support guide 311 in the clamping groove 321.

The side of the mounting portion 312 away from the support guide portion 311 is provided with the pinch baffle structure 2.

Paper clamping baffle structure 2 includes: and the limiting plate is used for limiting the wet buffalo paper scroll. Wherein, limiting plates are provided with two, and two limiting plates interval sets up the space that forms one and is used for holding wet buffalo paper scroll. The two limiting plates clamp the wet buff paper roll. The limiting plate is provided with a containing groove 22, and the containing groove 22 is obliquely downwards arranged from the paper feeding end to the paper discharging end. The side of limiting plate is equipped with connecting piece 23, and connecting piece 23 is equipped with two and is connected to two limiting plates respectively to constitute a whole with the limiting plate for support the limiting plate. A supporting piece 24 is arranged above the connecting piece 23, and the supporting piece 24 is horizontally arranged. The support 24 is a rod structure. The connecting piece 23 is provided with a perforation, and the shape and the size of the perforation are the same as the cross section of the supporting piece 24. The support 24 passes through the two perforations and abuts the inner walls of the two perforations for supporting the connector 23. The support 24 is a transition fit with interference with the perforations. The connecting piece 23 can slide on the supporting piece 24, but a great force is needed to slide, so that the position of the connecting piece 23 can be ensured to be fixed, and the position of the connecting piece 23 can be adjusted. Locking bolts 25 are mounted at both ends of the support 24. The locking bolt 25 is located at least partially above the support bar for limiting the connection piece 23. The locking bolt 25 is used for blocking the connecting piece 23, so that the connecting piece 23 cannot leave the supporting piece 24, and the connecting piece 23 is prevented from sliding out on the supporting piece 24. The limiting plate mounts the roll paper rotating shaft in the accommodating groove 22. The roll paper rotating shaft abuts against the inner wall of the accommodating groove 22 for enabling the roll paper rotating shaft to rotate around the axis of the roll paper rotating shaft.

Example seven

Referring to the figure, the wet paper mechanism 5 is additionally installed to install the wet paper mechanism 5, and the wet paper mechanism 5 is installed in the wet buff paper feeding direction so that the wet buff paper is wetted by the wet paper mechanism 5. The wet paper mechanism 5 is provided with a work table 1 outside, and the work table 1 is constructed in a box structure for accommodating and protecting the wet paper mechanism 5.

Referring to the figure, the wet paper mechanism 5 includes: a water tank 51, the water tank 51 being mounted in the inner wall of the table 1. A wet paper module 52 is provided above the water tank 51. A mount for a wet paper machine 5, comprising: the bearing piece 53, the bearing piece 53 is fixed to the inner wall of the workbench 1. A supporting portion 521 is provided below the carrier sheet 53, and the supporting portion 521 is used to support the wet paper assembly 52. Two clamping plates 56 are fixedly arranged below the slide, and an insertion gap is formed below the clamping plates 56 and the bearing plates 53. The insertion portions 5211 are formed at both sides of the supporting portion 521, and the insertion portions 5211 are inserted into the gaps and caught by the catching plate 56 and the carrier 53 such that the upper surface of the supporting portion 521 is lower than the upper surface of the carrier 53.

An abutting portion 5212 is formed on one side of the insertion portion 5211. The contact portion 5212 contacts the catch plate 56. The support 521 is fixed with a slope 5213 inclined obliquely to the direction of the water tank 51. A machining gap is formed between the inclined portion 5213 and the supporting portion 521. The insertion portion 5211 is provided with a connection through hole 5214. The insertion portion 5211 is provided with a plurality of rounded edges 5215. The wet paper module 52 includes: a wetting portion 523, the wetting portion 523 being mounted on the re-supporting portion 521; the upper surface of the wetting portion 523 is not lower than the upper surface of the carrier 53. The water tank is provided with a threaded hole corresponding to the connecting through hole.

A counterweight 522 is provided on one side of the pair of support portions 521. The weight 522 and the supporting portion 521 are adhered with the wetting portion 523, the wetting portion 523 and the weight 522 and the supporting portion 521 are adhered together to enable the weight 522 to rotate around the supporting portion 521, the wetting portion 523 is a member with one surface having viscosity and the other end surface having a water absorbing structure, the water absorbing structure is wool, sponge, silk, cloth or the like, the wetting portion 523 in the embodiment is preferably a velcro with a wool surface, the wool surface is utilized for wetting, and the cost is low. The weight 522 is bent downward and inserted into the water tank to contact the water in the water tank.

The carrier plate 53 is provided with a heat conducting plate which is fixedly arranged above the carrier plate 53 and has a gap with the carrier plate 53 so as to enable the wet buffalo paper to normally pass through. The electric heating plate 55 is arranged on the heat conducting plate, the electric heating plate 55 transmits heat to the heat conducting plate, and the electric heating plate 55 is fixedly arranged above the heat conducting plate.

Example eight

A bed knife 41 knife rest structure of a cutting mechanism, comprising: curved surface 443 connected to tripod 31; a fixed portion 441 connected to one end of the curved surface portion 443 remote from the tripod 31; wherein the curved surface portion 443 extends from one end connected to the tripod 31 in a downward bending manner; so that the upper end surface of the fixing portion 441 is located below the upper end surface of the tripod 31; a screw hole 442 is provided in the center of the fixing portion 441. The fixing portion 441, the curved surface portion 443, and the tripod 31 are integrally formed. A transverse groove is formed between the tripod 31 and the end of the fixing portion 441 adjacent to the tripod 31. The upper end surface of the fixing portion 441 is located parallel to the upper end surface of the tripod 31. The fixing portion 441 is formed at both sides thereof with expansion portions 444 extending parallel to both sides. Vertical grooves are formed between both sides of the fixing portion 441 and the tripod 31. The curved surface 443 and the fixing portion 441 are identical in thickness to the tripod 31.

Example nine

An upper blade 42 mounting structure comprising: the carbon-accumulating holder 43, the carbon-accumulating holder 43 having a rotation motion state of rotating around the center position. One end of the carbon-accumulating bracket 43 is rotatably provided with a first rotating shaft. The first rotating shaft is provided with an upper cutter 42 cutter rest, and the upper cutter 42 cutter rest is fixedly arranged on the first rotating shaft. An integral torsion spring 437 is arranged on the first rotating shaft. One end of the integral torsion spring 437 abuts against the carbon-accumulating bracket 43 and the other end abuts against the upper blade 42 holder such that the upper blade 42 holder is subjected to a force tending to rotate about the carbon-accumulating bracket 43. The upper knife 42 is arranged on the knife rest of the upper knife 42 for cutting the wet buff paper. The center position of the carbon-gathering bracket 43 is penetrated with a second rotating shaft which is fixedly connected with the carbon-gathering bracket 43. And a third rotating shaft is arranged at one end of the cutter frame of the upper cutter 42 for conveying the carbon-accumulating support 43, and the third rotating shaft is rotationally connected with the carbon-accumulating support 43.

The second rotating shaft is provided at both end portions thereof with a table 1, and the table 1 is constructed in a housing structure. The second rotating shaft is rotatably arranged on the inner wall of the workbench 1.

A bed knife 41 knife rest is arranged below the upper knife 42 knife rest; the bed knife 41 is fixedly arranged on the knife rest of the bed knife 41; the upper blade 42 is perpendicular to the bed blade 41. The wet buff paper is conveyed against the upper surface of the bed knife 41.

The third shaft is provided with a driving wheel on the shaft section positioned outside the carbon-gathering bracket 43. A lifting driving piece 36 for driving the driving wheel to move up and down is arranged below the driving wheel. The second rotating shaft is provided with a reset torsion spring 436 for resetting the carbon-accumulating bracket 43. The lift drive 36 includes: a linkage plate 46. The linkage plate 46 abuts the drive wheel. The linkage plate 46 is rotatably connected with the workbench 1, the linkage plate 46 can rotate, and the rotation of the linkage plate 46 can enable the driving wheel to be stressed and then move upwards, so that the other end of the carbon-gathering bracket 43 moves downwards, namely the upper knife 42 moves downwards to cut off the wet buff paper.

The integral torsion spring 437 comprises two torsion spring bodies 4371 and a connecting rod 4372 connecting the two torsion spring bodies 4371, wherein one end of the torsion spring body 4371 is abutted against the carbon-accumulating bracket 43, and the other end of the torsion spring body is integrally formed with the connecting rod 4372, so that the connecting rod body is abutted against the upper knife 42 knife rest and the upper knife 42 knife rest is subjected to a counterclockwise rotation force; the extension 423 always abuts against the bed knife 41 by the counterclockwise force of the upper knife 42.

Specifically, the upper blade 42 carrier is formed with a connecting ear connected to the first shaft for connection thereto. The upper blade 42 is formed with a blade body mounting portion 312 for mounting the upper blade 42. A bending portion is formed between the attachment ear portion and the blade body mounting portion 312 for adjusting the angle between the mounting portion 312 and the attachment ear portion. The bending part is bent downwards to the upper end surface of the cutter body mounting part 312 along the connecting lug part so that the extending rays extending upwards from the cutter body mounting part 312 pass through the axle center of the first rotating shaft. The connecting rod 4372 of the integral torsion spring 437 abuts on one surface of the cutter body mounting portion 312 away from the upper cutter 42. The cutter body mounting portion 312 is provided with a screw hole 442. The upper blade 42 is also provided with a threaded hole 442. The upper blade 42 is fixedly mounted to the blade body mounting portion 312 by bolts.

Specifically, the upper blade 42 is a frame 431 for stamping.

The foregoing description is only of the preferred embodiments of the present disclosure and description of the principles of the technology being employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combination of the above technical features, but encompasses other technical features formed by any combination of the above technical features or their equivalents without departing from the spirit of the invention. Such as the above-described features, are mutually substituted with (but not limited to) the features having similar functions disclosed in the embodiments of the present disclosure.

Claims (10)

1. A wet buff coat tape cutting wet machine comprising:

a work table;

the paper clamping baffle structure is used for installing paper rolls of the wet buffalo paper;

the traction device is used for conveying the wet buff paper, so that the wet buff paper is pulled out from the paper roll of the wet buff paper;

the cutting device is used for cutting the wet buff paper so as to enable the wet buff paper to be cut into an independent unit separated from the wet buff paper roll;

the wet paper mechanism is used for humidifying and heating the wet buffalo paper of the independent individual;

The paper clamping baffle structure, the traction device, the cutting device and the wet paper mechanism are all arranged in the workbench and are sequentially arranged along the paper outlet direction of the wet buff paper;

the method is characterized in that:

the wet buff paper tape cutting wet water machine further comprises:

the driving rotating shaft is rotationally connected with the workbench and is controlled to rotate by a driving piece;

the connecting rotating shaft is rotationally connected with the workbench;

the first unidirectional transmission assembly is connected to the driving rotating shaft;

the second unidirectional transmission assembly is connected to the connecting rotating shaft;

the first unidirectional transmission assembly includes:

the first driving wheel is fixedly arranged on the driving rotating shaft;

the first unidirectional output wheel is arranged on the first driving wheel in a unidirectional rotation way relative to the first driving wheel;

the second unidirectional transmission assembly includes:

the second driving wheel is fixedly arranged on the connecting rotating shaft and is in transmission connection with the first driving wheel;

the second unidirectional output wheel is arranged on the second driving wheel in a unidirectional rotation way relative to the second driving wheel;

the traction device comprises:

the triangular bracket is provided with a supporting and guiding part for supporting and guiding the wet buff paper;

the driving roller is arranged in the workbench and fixedly connected with the driving rotating shaft;

The driven roller is arranged in the workbench and is contacted with the driving roller so as to clamp the wet buff paper;

and the driving piece is connected to the driving rotating shaft and used for driving the driving roller to rotate around the central axis so as to drive the wet buff paper to be output outwards.

2. The wet buff coat tape cutting wet machine according to claim 1, wherein:

the cutting device includes:

the carbon-accumulating bracket is arranged in the workbench;

the bed knife is arranged on the triangular bracket, is arranged in parallel with the triangular bracket, and is abutted against the wet buffalo paper from the first cut side surface;

the upper cutter is arranged on the carbon-accumulating bracket and is indirectly hinged with the carbon-accumulating bracket.

3. The wet buff coat tape cutting wet machine according to claim 2, wherein:

the triangular part is provided with a bottom knife rest, and the bottom knife rest is lower than the guide supporting surface;

the bed knife is arranged on the bed knife rest, and the upper end surface of the bed knife is not higher than the upper surface of the guide supporting surface.

4. A wet buff paper tape cutting wet machine according to claim 3, wherein:

the bottom knife rest is provided with a threaded hole and a bottom knife upper through hole;

the two threaded holes are respectively positioned at the central position of the bottom knife rest and the central position of the bottom knife;

The threaded hole on the bed knife is a countersunk threaded hole.

5. The wet buff coat tape cutting wet machine according to claim 4, wherein:

the wet paper mechanism includes:

the water tank is arranged in the workbench and is in engine connection with the inner wall of the workbench, so that the water tank can be detachably positioned in the workbench;

a wet paper component is arranged above the water tank;

one end of the wet paper component is positioned in the water tank to be in contact with water, and the other end of the wet paper component is positioned above the water tank to be in butt joint with the wet buff paper and is used for humidifying the wet buff paper.

6. The wet buff coat tape cutting wet machine according to claim 5, wherein:

an electric heating plate is arranged above the wet paper assembly and is used for heating the wet buff paper.

The upper blade comprises:

a positioning part connected to the carbon-accumulating bracket so that the positioning part has a state of rotating relative to the carbon-accumulating bracket;

the cutting part is connected with the positioning part and used for cutting the wet buff paper;

and the extension part is connected to the positioning part and is abutted with the end surface of the bed knife so that the cutting part is perpendicular to the bed knife.

7. The wet buff coat tape cutting wet machine according to claim 1, wherein: the paper clamping baffle structure comprises:

the limiting plate is used for limiting the wet buff paper roll;

The two limiting plates are arranged at intervals to form a space for accommodating the wet buffalo paper scroll; the limiting plate is provided with a containing groove which is obliquely downwards arranged from the paper feeding end to the paper discharging end.

8. The wet buff coat tape cutting wet machine as set forth in claim 7, wherein:

the paper clamping baffle structure further comprises:

the connecting piece is provided with two limiting plates which are connected to the two limiting plates respectively and form a whole with the limiting plates, and the connecting piece is used for supporting the limiting plates.

9. The wet buff coat tape cutting wet machine according to claim 8, wherein:

a supporting piece is arranged above the connecting piece;

the connecting piece is provided with a perforation;

the support piece passes through the two through holes and is abutted with the inner walls of the two through holes for supporting the connecting piece.

10. The wet buff coat tape cutting wet machine according to claim 9, wherein:

the support piece is in transition fit with the perforation with interference;

the side surface of the mounting part is also provided with a first protruding part which is abutted with the side plate.