CN115783836B - Frame type full-automatic high-speed slitting rewinder - Google Patents

Abstract

The invention relates to the technical field of rewinders, in particular to a frame type full-automatic high-speed slitting rewinder, which comprises a base, wherein two side lugs are arranged on two vertical faces of the base, an electric push rod is vertically arranged in an inner cavity of the base, two pushing and holding mechanisms are symmetrically arranged on two inclined side walls of the base, three first strip-shaped holes are respectively formed in two first fixing plates, second strip-shaped holes corresponding to the first strip-shaped holes are respectively formed in the two second fixing plates along the axial direction, four first power mechanisms are respectively arranged in the two first strip-shaped holes and the two corresponding second strip-shaped holes at the bottom in a mirror image mode, two second power mechanisms are arranged in the first strip-shaped holes and the corresponding second strip-shaped holes at the top in a mirror image mode, and a cutting device is arranged on the outer wall surface of the second fixing plates.

Description

Frame type full-automatic high-speed slitting rewinder

Technical Field

The invention relates to the technical field of rewinders, in particular to a frame type full-automatic high-speed slitting rewinder.

Background

The rewinding machine is special equipment for paper, mica tapes and films, and is used for sequentially rewinding paper rolls (called raw paper rolls) produced by a paper machine, manufacturing finished paper after rewinding, leaving factories, and cutting the rewound paper rolls according to the required length;

however, in the conventional rewinding machine, the original paper roll is rewound first, and then the rewound paper roll is cut in time according to the required length, so that the efficiency of the mode is low, two devices are required for performing the operation, and a large area is occupied.

Disclosure of Invention

The invention aims to provide a frame type full-automatic high-speed slitting rewinder, which aims to solve the problems of low operation efficiency and large occupied area in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a frame-type full-automatic high-speed slitting rewinder, comprising: the base is of a trapezoid cavity structure, two auxiliary holes are symmetrically formed in the upper wall surface of the base, the number of the side ears is two, the side ears are arranged on two vertical faces of the base, the side ears are of arc structures, the inner sides of the arc are directed vertically upwards, the first electric push rod is vertically arranged in an inner cavity of the base, the output end of the first electric push rod extends out of the base through the auxiliary holes, the auxiliary plates are arc plates and are arranged at the output end of the first electric push rod, the number of the rollers is a plurality of, the rollers are arranged in parallel on the inner sides of the arc of the auxiliary plates, the axes of the rollers are perpendicular to the axis of the auxiliary plates, the pushing and holding mechanisms are symmetrically arranged on two inclined side walls of the base, the first fixing plates are fixed by bolts and arranged on one side lug, the first fixing plates are positioned on the same axis, the distance is reserved between the first fixing plates, three first strip-shaped holes are respectively arranged on the first fixing plates, the three first strip-shaped holes are distributed at a rotation angle of 120 DEG, the length extending direction of one first strip-shaped hole positioned below the axis of the first fixing plate is vertical, the second fixing plates are fixed on the same axis by bolts and arranged on the other side lug, the two second fixed plates are provided with second strip-shaped holes corresponding to the first strip-shaped holes along the axial direction, the second fixed plates are provided with discharge holes along the axial direction, the number of the first power mechanisms is four, the four first power mechanisms are arranged in the two first strip-shaped holes and the two corresponding second strip-shaped holes at the bottom in a mirror image mode, the two second power mechanisms are arranged in the first strip-shaped holes and the corresponding second strip-shaped holes at the top in a mirror image mode, the bottom shaft is positioned on the axes of the first fixed plates and the second fixed plates, the auxiliary mechanism is arranged between the two second fixed plates and is arranged around the discharge holes in a rotation angle of 120 degrees, and the cutting device is arranged on the outer wall surface of the second fixed plates.

Preferably, for adjusting the position of the first power mechanism, the pushing and holding mechanism comprises: limiting plate, ejector pin, second electric putter, the quantity of limiting plate is two, two the limiting plate symmetry sets up on two slope lateral walls of base, the limiting plate is concave rod-like structure, and the opening direction of two limiting plates is relative, set up the spacing groove that trend the same with the limiting plate on the inner wall of limiting plate, the ejector pin is concave structure, and with the shape, the size assorted of spacing groove, second electric putter sets up on the outer wall of limiting plate, and the output of second electric putter extends to in the spacing groove to be connected with the ejector pin.

Preferably, the first fixing plate and the second fixing plate are two circular plates with the same size and are located on the same axis.

Preferably, the first power mechanism provides power for rotation and movement of the bottom shaft, and the first power mechanism comprises: the device comprises a first shaft rod, a first power wheel, a first fixed ring, first sliding rods and a first motor, wherein the first shaft rod is arranged in two first strip-shaped holes below the axis of the first fixed plate, one end of a push rod is rotatably arranged on the outer side of the first shaft rod and between the two first fixed plates, the first power wheel is arranged at one end of the first shaft rod and is positioned at one side between the first fixed plate and the second fixed plate, the first fixed ring is rotatably arranged at the other end of the first shaft rod, the number of the first sliding rods is two, the two first sliding rods are arranged on the first fixed plates and are positioned at two sides of the first fixed ring, the first fixed ring is in sliding connection with the two first sliding rods, the extending direction of the two first sliding rods is consistent with the extending direction of the length of the first strip-shaped holes, and the first motor is arranged on the first fixed ring and is connected with the first shaft rod.

Preferably, the second power mechanism provides power to the rotation and movement of the bottom shaft, and the second power mechanism comprises: the second shaft is arranged in a first bar-shaped hole above the axis of the first fixed plate, the other end of the ejector rod is rotationally arranged on the outer side of the second shaft and between two second fixed plates, the second power wheel is arranged at one end of the second shaft, the first power wheel and the second power wheel are arranged between the first fixed plate and the second fixed plate, the second fixed ring is rotationally arranged at the other end of the second shaft, the second slide rod is arranged on the first fixed plate and is positioned at one side of the second fixed ring, the second fixed ring is in sliding connection with the second slide rod, the screw rod is arranged on the first fixed plate and symmetrically distributed on two sides of the second fixed ring with the second slide rod, the second fixed ring is in threaded connection with the screw rod, the auxiliary motor is arranged on one side of the screw rod and is connected with the screw rod through a belt, and the second motor is rotationally arranged on the second fixed ring and is connected with the second shaft.

Preferably, the stability of the bottom shaft is ensured when the bottom shaft moves axially, and the auxiliary mechanism comprises: auxiliary rod, connecting rod, support, auxiliary roller, spring, the auxiliary rod sets up between two second fixed plates, the intermediate position of connecting rod slides with the angle of perpendicular to auxiliary rod and sets up on the outer wall of auxiliary rod, the quantity of support is two, two the one end setting of support is at the both ends of connecting rod, auxiliary roller rotatable sets up the other end at the support, the spring sets up the outer wall at the auxiliary rod.

Preferably, the bottom shaft after rewinding is equally divided, and the cutting device comprises: the automatic cutting machine comprises a supporting rod, a cutting ring, a third motor, a cutter and a cutting knife, wherein one end of the supporting rod is arranged on the outer wall of a second fixing plate, the cutting ring is arranged at the other end of the supporting rod, the axis of the cutting ring is collinear with the axis of a discharging hole, the third motor is arranged on the cutting ring, one end of the cutter is arranged at the output end of the third motor, and the length of the cutter is matched with the diameter of the cutting ring.

Preferably, the first power wheel and the second power wheel are Mecanum wheels.

The invention provides a frame type full-automatic high-speed slitting rewinder, which has the beneficial effects that: the invention uses the cooperation of the first power mechanism and the second power mechanism to make the bottom shaft axially rotate for rewinding operation, and simultaneously can change the rotation directions of the first power mechanism and the second power mechanism to make the base axially displace, and the base is matched with the cutting mechanism for equidistant segmentation after rewinding.

Drawings

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

FIG. 2 is a first partial schematic view of the present invention;

FIG. 3 is a schematic view of a base of the present invention;

FIG. 4 is a second partial schematic view of the present invention;

FIG. 5 is a third partial schematic view of the present invention;

FIG. 6 is a schematic diagram of an accessory mechanism of the present invention;

FIG. 7 is a schematic diagram of a first power mechanism according to the present invention;

FIG. 8 is a schematic diagram of a second power mechanism of the present invention.

In the figure: 1. a base; 2. an auxiliary hole; 3. a lateral ear; 4. a first electric push rod; 5. an auxiliary plate; 6. a roller; 7. a pushing and holding mechanism; 71. a limiting plate; 72. a limit groove; 73. a push rod; 74. a second electric push rod; 8. a first fixing plate; 9. a first bar-shaped hole; 10. a second fixing plate; 11. a second bar-shaped hole; 12. a discharge hole; 13. a first power mechanism; 131. a first shaft; 132. a first power wheel; 133. a first fixing ring; 134. a first slide bar; 135. a first motor; 14. a second power mechanism; 141. a second shaft; 142. a second power wheel; 143. a second fixing ring; 144. a second slide bar; 145. a screw; 146. an auxiliary motor; 147. a second motor; 15. a bottom shaft; 16. an auxiliary mechanism; 161. an auxiliary lever; 162. a connecting rod; 163. a bracket; 164. an auxiliary roller; 165. a spring; 17. a cutting device; 171. a support rod; 172. cutting a ring; 173. a third motor; 174. and (5) a cutter.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Referring to fig. 1-8, the present invention provides a technical solution: a frame-type full-automatic high-speed slitting rewinder, comprising: the base 1, the side ears 3, the first electric push rod 4, the auxiliary plate 5, the idler wheels 6, the pushing and holding mechanism 7, the first fixed plate 8, the second fixed plate 10, the first power mechanism 13, the second power mechanism 14, the bottom shaft 15, the auxiliary mechanism 16 and the cutting device 17, the base 1 is of a trapezoid cavity structure, the overall weight is lightened, two auxiliary holes 2 are symmetrically formed in the upper wall surface of the base 1, the number of the side ears 3 is two, the two side ears 3 are arranged on two vertical faces of the base 1, the side ears 3 are of arc-shaped structures, the inner sides of the arcs are directed vertically upwards, the first electric push rod 4 is vertically arranged in an inner cavity of the base 1, the output end of the first electric push rod 4 extends out of the base 1 through the auxiliary holes 2, the extension length of the first electric push rod 4 is positioned below the axes of the first fixed plate 8 and the second fixed plate 10, the auxiliary plate 5 is of arc-shaped, the number of the rollers 6 is a plurality, the rollers 6 are arranged in parallel on the inner side of the arc of the auxiliary plate 5, the axes of the rollers 6 are perpendicular to the axes of the auxiliary plate 5, friction force between the auxiliary plate 5 and the bottom shaft 15 when moving along the axes is reduced, the number of the pushing and holding mechanisms 7 is two, the two pushing and holding mechanisms 7 are symmetrically arranged on the two inclined side walls of the base 1, the number of the first fixing plates 8 is two, the two first fixing plates 8 are fixed through bolts, the first fixing plates 8 close to the inner side are arranged on one side lug 3 through bolts, the two first fixing plates 8 are positioned on the same axis, a distance is reserved between the two first fixing plates 8, three first strip-shaped holes 9 are respectively arranged on the two first fixing plates 8, the three first strip-shaped holes 9 are distributed at a rotation angle of 120 ℃, the two first strip-shaped holes 9 below the axis of the first fixing plate 8 are distributed in a mirror image mode, the length extending direction of one first strip-shaped hole 9 above the axis of the first fixing plate 8 is in a vertical direction, the number of the second fixing plates 10 is two, the two second fixing plates 10 are fixed on the same axis through bolts and are arranged on the side lugs 3 at the other side, a distance is reserved between the two second fixing plates 10, the two second fixing plates 10 are provided with second strip-shaped holes 11 corresponding to the positions of the first strip-shaped holes 9 along the axis direction, the axis direction of the second fixing plates 10 is provided with discharge holes 12, the number of the first power mechanisms 13 is four, the four first power mechanisms 13 are respectively arranged in the two first strip-shaped holes 9 at the bottom and the two corresponding second strip-shaped holes 11 in a mirror image mode, the number of the second power mechanisms 14 is two, the two second power mechanisms 14 are arranged in the first strip-shaped holes 9 at the top and the corresponding second strip-shaped holes 11 in a mirror image mode, the center positions of the first power mechanism 13 and the second power mechanism 14 at the same side are the placement positions of the end parts of the bottom shaft 15, the bottom shaft 15 is positioned on the axes of the first fixing plate 8 and the second fixing plate 10, the auxiliary mechanism 16 is arranged between the two second fixing plates 10 and is arranged around the discharge opening at a rotation angle of 120 degrees, the cutting device 17 is arranged on the outer wall surface of the second fixing plate 10, and the auxiliary mechanism 16 and the first power mechanism 13 and the second power mechanism 14 are distributed in a staggered mode.

In the present embodiment, the first fixing plate 8 and the second fixing plate 10 are two circular plates of the same size and are located on the same axis.

More specifically, for the adjustment of the position of the first power mechanism 13, the pushing mechanism 7 includes: the number of the limiting plates 71, the ejector rods 73 and the second electric push rods 74 is two, the two limiting plates 71 are symmetrically arranged on the two inclined side walls of the base 1, the limiting plates 71 are of concave rod-shaped structures, the opening directions of the two limiting plates 71 are opposite, limiting grooves 72 which run along the same direction as the limiting plates 71 are formed in the inner walls of the limiting plates 71, the ejector rods 73 are of concave structures and are matched with the shapes and the sizes of the limiting grooves 72, the ejector rods 73 move in a directional mode along the limiting grooves 72, the moving directions of the ejector rods 73 are consistent with the length extending directions of the first strip-shaped holes 9 and the corresponding second strip-shaped holes 11 respectively, the second electric push rods 74 are arranged on the outer walls of the limiting plates 71, the output ends of the second electric push rods 74 extend into the limiting grooves 72 and are connected with the ejector rods 73, the two first power mechanisms 13 on the same side are controlled by the same ejector rods 73, and the displacement synchronism of the two first power mechanisms 13 can be guaranteed.

More specifically, to power the rotation and movement of the bottom shaft 15, the first power mechanism 13 includes: the first axostylus axostyle 131, first power wheel 132, first solid fixed ring 133, first slide bar 134, first motor 135, first axostylus axostyle 131 sets up in two first bar holes 9 below the first fixed plate 8 axis, the one end rotation of ejector pin 73 is installed in the outside of first axostylus axostyle 131, and be located between two first fixed plates 8, first power wheel 132 sets up the one end at first axostylus axostyle 131, and be located one side between first fixed plate 8 and the second fixed plate 10, first solid fixed ring 133 rotates the other end that sets up at first axostylus axostyle 131, the quantity of first slide bar 134 is two, two first slide bar 134 set up on first fixed plate 8, and be located the both sides of first solid fixed ring 133, first solid fixed ring 133 and two first slide bar 134 sliding connection, the extending direction of two first slide bar 134 is unanimous with the extending direction of first bar hole 9 length, first motor 135 sets up on first solid fixed ring 133, and is connected with first axostylus axostyle 131.

More specifically, to power the rotation and movement of the bottom shaft 15, the second power mechanism 14 includes: the second shaft 141, the second power wheel 142, the second fixed ring 143, the second slide bar 144, the screw 145, the auxiliary motor 146, the second motor 147, the second shaft 141 sets up in the first bar hole 9 that is located above the first fixed plate 8 axis, the other end of ejector pin 73 rotates and installs in the outside of second shaft 141, and be located between two second fixed plates 10, the second power wheel 142 sets up in the one end of second shaft 141, first power wheel 132 and second power wheel 142 are located between first fixed plate 8 and the second fixed plate 10, the second fixed ring 143 rotates and installs in the other end of second shaft 141, the second slide bar 144 sets up on first fixed plate 8, and be located one side of second fixed ring 143, second fixed ring 143 second slide bar 144 sliding connection, screw 145 sets up on first fixed plate 8, and with second slide bar 144 symmetric distribution in the both sides of second fixed ring 143, the spiro union between second fixed ring 143 and the screw 145, the auxiliary motor 146 sets up in one side of screw 145, and rotate through the belt and connect with screw 145, thereby the second power wheel 142 is rotated to the second power wheel 142, the second power wheel is connected with second fixed ring 145, and the second power wheel is connected with second power wheel 145, the second power wheel is arranged on the second fixed ring 142, and the second power wheel is connected with the second fixed ring 145.

In this embodiment, the first power wheel 132 and the second power wheel 142 are Mecanum wheels, and the bottom shaft 15 is driven to axially rotate and axially move by different rotation directions.

More specifically, in order to ensure the stability of the bottom shaft 15 when it moves axially, the auxiliary mechanism 16 comprises: auxiliary rod 161, connecting rod 162, support 163, auxiliary roller 164, spring 165, auxiliary rod 161 sets up between two second fixed plates 10, the intermediate position of connecting rod 162 slides with the angle of perpendicular to auxiliary rod 161 and sets up on the outer wall of auxiliary rod 161, the quantity of support 163 is two, the one end setting of two supports 163 is at the both ends of connecting rod 162, auxiliary roller 164 rotatable setting is at the other end of support 163, spring 165 sets up the outer wall at auxiliary rod 161, obtain the lower shaft 15 of different diameters after the rewinding, when passing through the middle of auxiliary roller 164, spring 165 is compressed, utilize the effort of spring 165, press from both sides lower shaft 15 to guarantee the stability when cutting apart, support 163 can produce slight elastic deformation simultaneously, can guarantee that lower shaft 15 passes through the middle of three auxiliary rollers 164 smoothly.

More specifically, in order to equally divide the rewound bottom shaft 15, the cutting device 17 includes: the supporting rod 171, the cutting ring 172, the third motor 173, the cutter 174 and one end of the supporting rod 171 are arranged on the outer wall of the second fixing plate 10, the cutting ring 172 is arranged at the other end of the supporting rod 171, the axis of the cutting ring 172 and the axis of the discharging hole 12 are collinear, the third motor 173 is arranged on the cutting ring 172, one end of the cutter 174 is arranged on the output end of the third motor 173, the length of the cutter 174 is matched with the diameter of the cutting ring 172, the third motor 173 is a servo motor, and the swinging frequency of the cutter 174 is changed by changing the reciprocating motion of the third motor 173, so that the cutting length of the bottom shaft 15 can be controlled.

The first electric push rod 4, the second electric push rod 74, the first motor 135, the auxiliary motor 146, the second motor 147 and the third motor 173 are all connected with a controller and respectively control operation.

The specific working principle is as follows:

before use, the two first power mechanisms 13 on the first fixing plate 8 and the two first power mechanisms 13 on the second fixing plate 10 and the two second power mechanisms 14 are controlled according to the diameter of the bottom shaft 15, so that one end of the base 1 is fixed between the two first power mechanisms 13 and one second power mechanism 14 on the first fixing plate 8 and the second fixing plate 10, the auxiliary motor 146 is controlled to rotate through the belt between the two first power mechanisms 13 and one second power mechanism 14, the screw 145 is controlled to move the second fixing ring 143 along the direction of the second slide bar 144, the second shaft 141 is driven to move, the pushing of the second electric push rod 74 can control the movement of the push rod 73 in the limiting groove 72, so as to control the displacement of the two first shaft 131 positioned on the same side of the base 1 along the first bar-shaped hole 9, the method comprises adhering the open end of the original paper roll to the bottom shaft 15 by using the diameter of the bottom shaft 15, controlling the rotation of the first motor 135 and the second motor 147 to rotate the bottom shaft 15 along the axis thereof, performing rewinding operation, simultaneously, slowly moving the first power mechanism 13 and the second power mechanism 14 along with the enlargement of the diameter of the bottom shaft 15, matching the radius of the base 1, stopping the rotation of the first motor 135 and the second motor 147 when the rewinding reaches the required diameter, controlling the first electric push rod 4 to move upwards, enabling the upper wall surface of the auxiliary plate 5 to be abutted against the outer wall surface of the bottom shaft 15 after rewinding, controlling the rotation direction of the first motor 135 and the second motor 147 at this time, enabling the bottom shaft 15 after rewinding to move along the axis direction towards the discharging hole 12, simultaneously, enabling the auxiliary roller 164 to contact with the outer wall of the bottom shaft 15 after rewinding to squeeze the same, the first power mechanism 13 and the second power mechanism 14 on the second fixing plate 10 are matched to enable the bottom shaft 15 to slowly move outwards, the third motor 173 drives the cutter 174 to reciprocate, the length of the split bottom shaft 15 is changed by changing the reciprocation frequency, the base 1 passing through the cutting ring 172 is split at equal intervals, and the rewinding and splitting operations are completed.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a full-automatic high-speed rewinding machine that cuts of frame formula which characterized in that includes:

the base (1) is of a trapezoid cavity structure, and two auxiliary holes (2) are symmetrically formed in the upper wall surface of the base (1);

the number of the side ears (3) is two, the two side ears (3) are arranged on two vertical faces of the base (1), and the side ears (3) are of arc structures;

the first electric push rod (4) is vertically arranged in the inner cavity of the base (1), and the output end of the first electric push rod (4) extends out of the outer side of the base (1) through the auxiliary hole (2);

the auxiliary plate (5), the said auxiliary plate (5) is the arcuate plate, and set up in the output end of the first electric putter (4);

the number of the rollers (6) is a plurality, the rollers (6) are arranged in parallel on the inner side of the arc of the auxiliary plate (5), and the axes of the rollers (6) are perpendicular to the axis of the auxiliary plate (5);

the pushing and holding mechanisms (7) are two in number, and the two pushing and holding mechanisms (7) are symmetrically arranged on two inclined side walls of the base (1);

the fixing device comprises two first fixing plates (8), wherein the number of the first fixing plates (8) is two, the two first fixing plates (8) are fixed through bolts and are arranged on one side lug (3), the two first fixing plates (8) are positioned on the same axis, a distance is reserved between the two first fixing plates (8), three first strip-shaped holes (9) are respectively formed in the two first fixing plates (8), the three first strip-shaped holes (9) are distributed at a rotation angle of 120 degrees, the two first strip-shaped holes (9) below the axis of the first fixing plates (8) are distributed in a mirror image mode, and the length extending direction of one first strip-shaped hole (9) above the axis of the first fixing plates (8) is in a vertical direction;

the two second fixing plates (10) are fixed on the same axis through bolts, the two second fixing plates (10) are arranged on the side lugs (3) at the other side, a distance is reserved between the two second fixing plates (10), second strip-shaped holes (11) corresponding to the first strip-shaped holes (9) in position are formed in the two second fixing plates (10) along the axis direction, and discharge holes (12) are formed in the axis direction of the second fixing plates (10);

the number of the first power mechanisms (13) is four, and the four first power mechanisms (13) are arranged in two first strip-shaped holes (9) at the bottom and two corresponding second strip-shaped holes (11) in a mirror image mode respectively;

the number of the second power mechanisms (14) is two, and the two second power mechanisms (14) are arranged in the first strip-shaped holes (9) at the top and the corresponding second strip-shaped holes (11) in a mirror image mode;

a bottom shaft (15), wherein the bottom shaft (15) is positioned on the axes of the first fixed plate (8) and the second fixed plate (10);

an auxiliary mechanism (16), wherein the auxiliary mechanism (16) is arranged between the two second fixing plates (10) and is arranged around the discharge hole at a rotation angle of 120 degrees;

a cutting device (17), wherein the cutting device (17) is arranged on the outer wall surface of the second fixing plate (10);

the pushing and holding mechanism (7) comprises:

the limiting plates (71), the number of the limiting plates (71) is two, the two limiting plates (71) are symmetrically arranged on the two inclined side walls of the base (1), the limiting plates (71) are of concave rod-shaped structures, the opening directions of the two limiting plates (71) are opposite, and limiting grooves (72) with the same trend as the limiting plates (71) are formed in the inner wall of the limiting plates (71);

the ejector rod (73), the ejector rod (73) is of a concave structure and is matched with the limiting groove (72) in shape and size;

the second electric push rod (74) is arranged on the outer wall of the limiting plate (71), and the output end of the second electric push rod (74) extends into the limiting groove (72) and is connected with the ejector rod (73);

the first power mechanism (13) includes:

the first shaft rods (131) are arranged in two first strip-shaped holes (9) below the axes of the first fixing plates (8), and one ends of the ejector rods (73) are rotatably arranged on the outer sides of the first shaft rods (131) and are positioned between the two first fixing plates (8);

a first power wheel (132), wherein the first power wheel (132) is arranged at one end of the first shaft lever (131) and is positioned at one side between the first fixing plate (8) and the second fixing plate (10);

a first fixed ring (133), the first fixed ring (133) being rotatably provided at the other end of the first shaft (131);

the number of the first sliding rods (134) is two, the two first sliding rods (134) are arranged on the first fixed plate (8) and are positioned on two sides of the first fixed ring (133), the first fixed ring (133) is in sliding connection with the two first sliding rods (134), and the extending directions of the two first sliding rods (134) are consistent with the extending directions of the lengths of the first strip-shaped holes (9);

a first motor (135), the first motor (135) being arranged on the first stationary ring (133) and being connected to the first shaft (131);

the second power mechanism (14) includes:

the second shaft rod (141) is arranged in a first strip-shaped hole (9) above the axis of the first fixed plate (8), and the other end of the ejector rod (73) is rotatably arranged on the outer side of the second shaft rod (141) and positioned between the two second fixed plates (10);

a second power wheel (142), the second power wheel (142) is arranged at one end of the second shaft (141), and the first power wheel (132) and the second power wheel (142) are positioned between the first fixing plate (8) and the second fixing plate (10);

a second fixing ring (143), the second fixing ring (143) being rotatably installed at the other end of the second shaft (141);

the second sliding rod (144), the second sliding rod (144) is arranged on the first fixed plate (8) and is positioned at one side of the second fixed ring (143), and the second fixed ring (143) is connected with the second sliding rod (144) in a sliding way;

the screw rods (145) are arranged on the first fixed plate (8) and symmetrically distributed on two sides of the second fixed ring (143) with the second sliding rods (144), and the second fixed ring (143) is in threaded connection with the screw rods (145);

the auxiliary motor (146) is arranged on one side of the screw (145) and is connected with the screw (145) through a belt to drive the screw (145) to rotate;

a second motor (147), the second motor (147) being arranged on the second fixing ring (143) and being connected to the second shaft (141);

the first power wheel (132) and the second power wheel (142) are Mecanum wheels;

the cutting device (17) comprises:

a strut (171), one end of the strut (171) being disposed on an outer wall of the second fixing plate (10);

a cutting ring (172), wherein the cutting ring (172) is arranged at the other end of the supporting rod (171), and the axis of the cutting ring (172) is collinear with the axis of the discharging hole (12);

a third motor (173), the third motor (173) being disposed on the cutting ring (172);

and one end of the cutter (174) is arranged at the output end of the third motor (173), and the length of the cutter (174) is matched with the diameter of the cutting ring (172).

2. The frame-type full-automatic high-speed slitting and rewinding machine as claimed in claim 1, wherein: the first fixing plate (8) and the second fixing plate (10) are two circular plates with the same size and are positioned on the same axis.

3. A frame-type full-automatic high-speed slitter-winder according to claim 2, characterized in that the auxiliary mechanism (16) comprises:

an auxiliary lever (161), the auxiliary lever (161) being disposed between the two second fixing plates (10);

a connecting rod (162), the middle position of the connecting rod (162) is arranged on the outer wall of the auxiliary rod (161) in a sliding way at an angle perpendicular to the auxiliary rod (161);

the number of the brackets (163) is two, and one ends of the two brackets (163) are arranged at two ends of the connecting rod (162);

an auxiliary roller (164), the auxiliary roller (164) being rotatably provided at the other end of the bracket (163);

and a spring (165), wherein the spring (165) is arranged on the outer wall of the auxiliary rod (161).

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