CN220200820U - Feeding mechanism of cutting machine - Google Patents

Abstract

The utility model is suitable for the technical field of cutting machine equipment, and provides a feeding mechanism of a cutting machine. According to the utility model, through the arrangement of the limiting mechanism, the meshing locking of the rotating frame can be released through the unlocking component, then the rotating frame is pulled to rotate by taking the rotating shaft as the axis, meanwhile, the rotating frame can be rotated and limited through the limiting sliding block and the arc-shaped sliding groove, then the fixed shaft is clamped into the rotating frame through the unreeling roller and sleeved with the limiting clamping block, then the fixed shaft is locked through the bolts, then the cloth is pulled to a proper length and placed on the upper surface of the feeding belt, the rotating frame is rotated to drive the material pressing roller to extrude the cloth, and meanwhile, the rotating frame can be rotated and limited through the positioning component, so that the replacement of the unreeling roller and the efficiency of leveling and conveying the cloth are further improved, and the phenomenon that the cloth is wrinkled in the feeding process is effectively avoided.

Description

Feeding mechanism of cutting machine

Technical Field

The utility model belongs to the technical field of cutting machine equipment, and particularly relates to a feeding mechanism of a cutting machine.

Background

The cutting machine is also called a cutting machine, is a processing device for cutting and blanking cloth into a required shape, and the laser cutting machine belongs to one of cutting machines, and is a cutting machine for cutting clothing fabrics by utilizing laser, and consists of a cutting bed, a metal lining plate, a laser cutting head, a transmission positioning device transverse guide rail, a longitudinal guide rail and a laser.

In the use process of the existing cutting machine, because the winding roller which is used for winding cloth is arranged at one side of the cutting machine through the support and drives the cloth to be subjected to discharging operation through the feeding belt matched with the pressing roller, when the cloth is required to be replaced after being completely discharged, personnel are required to manually replace the discharging roller by moving to a high position through equipment, then the end part of the cloth is required to manually pass through the lower part of the pressing roller, and the cloth is easy to wrinkle and fold in the process.

Disclosure of Invention

The utility model provides a feeding mechanism of a cutting machine, which aims to solve the problems mentioned in the background art.

The utility model is realized in such a way, the feeding mechanism of the cutting machine comprises a cutting machine base, wherein one end of the cutting machine base is provided with a motor, the top end of the cutting machine base is longitudinally provided with a feeding belt, the upper surface of the feeding belt is provided with a pressing roller, an unreeling roller is arranged above the pressing roller, both ends of the unreeling roller are rotationally connected with a fixed shaft through damping rotating shafts, one side of the cutting machine base is transversely provided with a limiting mechanism, and the limiting mechanism is used for efficiently installing and conveying cloth;

the limiting mechanism comprises: the device comprises a rotating assembly, a positioning assembly and an unlocking assembly;

the two rotating assemblies are symmetrically arranged at two ends of the base of the cutting machine and are used for driving the unreeling roller and the material pressing roller to synchronously move;

the positioning assembly is arranged below the rotating assemblies and used for limiting the rotation of the two rotating assemblies;

the unlocking component is arranged on one side of the cutting machine base and is used for unlocking the limiting locking of the positioning component to the rotating component.

Preferably, the rotating assembly comprises:

two rotating frames are symmetrically and rotatably connected to two ends of the cutting machine base through rotating shafts, the rotating frames are rotatably connected with the material pressing rollers through rotating shafts and sleeved on the outer wall of the fixed shaft, one end, close to the cutting machine base, of each rotating frame is fixedly connected with a limiting sliding block, and an arc-shaped sliding groove for the sliding of the limiting sliding block is formed in the cutting machine base.

Preferably, the positioning assembly comprises:

the positioning clamping block is arranged on the lower surface of the rotating frame, the connecting block is sleeved on the outer wall of the positioning clamping block, the second springs are arranged on the lower surface of the positioning clamping block, and the end parts of the two ends of the second springs are respectively contacted with the outer wall of the positioning clamping block and the inner wall of the connecting block.

Preferably, the unlocking assembly comprises:

the fixed connection is at the fixed plate of fixed plate one side outer wall of cutting machine frame, the upper surface of fixed plate is provided with the knob, the bottom of knob is through connecting axle fixedly connected with lead screw, the upper surface of lead screw contacts with the lower surface of fixed plate, the lifter plate with connecting block fixed connection has been cup jointed to the outer wall of lead screw, lifter plate and lead screw threaded connection, the outside of knob is provided with the removal slide with fixed plate transverse sliding connection, the one end fixedly connected with of removal slide and knob transverse sliding connection's location picture peg, the gag lever post with fixed plate fixed connection has been cup jointed to the inner wall of removal slide, the outer wall of gag lever post has cup jointed first spring, the both ends tip of first spring respectively with the outer wall of removal slide and the inner wall of fixed plate contact.

Preferably, a plurality of driving rollers which are rotationally connected with the base of the cutting machine through a rotating shaft are arranged in the feeding belt at equal intervals, and one driving roller is fixedly connected with the output end of the motor.

Preferably, a movable chute for the transverse sliding of the fixed shaft is formed in the rotating frame, a limiting clamping block penetrating through the fixed shaft is formed in the movable chute, one side end of the limiting clamping block is in a circular truncated cone shape, and a bolt penetrating through the rotating frame and in threaded connection with the fixed shaft is arranged at the bottom end of the rotating frame.

Preferably, the ratchet piece with positioning fixture block intermeshing is formed to the bottom outer wall of rotating turret, positioning fixture block's appearance is T word form, set up the lift spout that supplies positioning fixture block to slide from top to bottom on the connecting block.

Preferably, the outer walls of the two sides of the positioning plugboard far away from one end of the movable sliding plate are inclined, and the knob is provided with a linear chute for the sliding of the positioning plugboard.

Compared with the prior art, the embodiment of the application has the following main beneficial effects:

according to the utility model, through the arrangement of the limiting mechanism, the meshing locking of the rotating frame can be released through the unlocking component, then the rotating frame is pulled to rotate by taking the rotating shaft as the axis, meanwhile, the rotating frame can be rotated and limited through the limiting sliding block and the arc-shaped sliding groove, then the fixed shaft is clamped into the rotating frame through the unreeling roller and sleeved with the limiting clamping block, then the fixed shaft is locked through the bolts, then the cloth is pulled to a proper length and placed on the upper surface of the feeding belt, the rotating frame is rotated to drive the material pressing roller to extrude the cloth, and meanwhile, the rotating frame can be rotated and limited through the positioning component, so that the replacement of the unreeling roller and the efficiency of leveling and conveying the cloth are further improved, and the phenomenon that the cloth is wrinkled in the feeding process is effectively avoided.

Drawings

FIG. 1 is a schematic view of the structure provided by the present utility model;

FIG. 2 is a schematic cross-sectional view of a limiting mechanism according to the present utility model;

FIG. 3 is a schematic view of the structure of FIG. 2 at a partially enlarged scale provided by the present utility model;

fig. 4 is a schematic view of a partial enlarged structure at B in fig. 2 provided by the present utility model.

In the figure: 1. a cutting machine base; 2. a limiting mechanism; 201. a rotating frame; 202. positioning a clamping block; 203. a lifting plate; 204. a fixing plate; 205. a knob; 206. a moving slide plate; 207. a limit rod; 208. a connecting block; 209. a bolt; 2010. a limit sliding block; 2011. a screw rod; 2012. positioning the plugboard; 2013. a first spring; 2014. a limit clamping block; 2015. a second spring; 2016. an arc chute; 3. a feeding belt; 4. a motor; 5. an unreeling roller; 6. a material pressing roller; 7. and a fixed shaft.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the applications herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the present application and in the description of the figures above are intended to cover non-exclusive inclusions. The terms first, second and the like in the description and in the claims or in the above-described figures, are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The embodiment of the utility model provides a feeding mechanism of a cutting machine, which is shown in figures 1-4, and comprises a cutting machine base 1, wherein one end of the cutting machine base 1 is provided with a motor 4, the top end of the cutting machine base 1 is longitudinally provided with a feeding belt 3, the upper surface of the feeding belt 3 is provided with a pressing roller 6, the upper part of the pressing roller 6 is provided with an unreeling roller 5, both ends of the unreeling roller 5 are rotationally connected with a fixed shaft 7 through damping rotating shafts, a plurality of driving rollers which are rotationally connected with the cutting machine base 1 through rotating shafts are equidistantly arranged in the feeding belt 3, one driving roller is fixedly connected with the output end of the motor 4, one side of the cutting machine base 1 is transversely provided with a limiting mechanism 2, and the limiting mechanism 2 is used for efficiently installing and conveying cloth;

the limiting mechanism 2 comprises: the device comprises a rotating assembly, a positioning assembly and an unlocking assembly;

the two rotating assemblies are symmetrically arranged at two ends of the cutting machine base 1 and are used for driving the unreeling roller 5 and the material pressing roller 6 to synchronously move;

the positioning assembly is arranged below the rotating assemblies and used for limiting the rotation of the two rotating assemblies;

the unlocking component is arranged at one side of the cutting machine base 1 and is used for unlocking the limiting locking of the positioning component to the rotating component;

the rotating assembly comprises:

two rotating frames 201 which are symmetrically and rotatably connected to two ends of the cutter frame 1 through rotating shafts are rotatably connected with the material pressing rollers 6 through rotating shafts and are sleeved on the outer wall of the fixed shaft 7, one end, close to the cutter frame 1, of each rotating frame 201 is fixedly connected with a limiting sliding block 2010, an arc-shaped sliding groove 2016 for sliding of the limiting sliding block 2010 is formed in the cutter frame 1, and a moving sliding groove for transverse sliding of the fixed shaft 7 is formed in each rotating frame 201.

In this embodiment, when the device is used, the unlocking component can release the engagement locking of the rotating frames 201, and then pulls one rotating frame 201 to rotate by taking the rotating shaft as the axis, in the process, one rotating frame 201 drives the other rotating frame 201 to synchronously rotate through the material pressing roller 6, and meanwhile, the limit sliding blocks 2010 on the two rotating frames 201 slide along the inner walls of the arc-shaped sliding grooves 2016 under the driving of the two rotating frames 201 respectively, so that the rotating frames 201 can be limited in rotation;

then the bolts 209 are dismounted through tools, the unreeling roller 5 wound with cloth is moved between the two rotating frames 201, in the process, the two fixed shafts 7 are driven by the unreeling roller 5 to slide into the rotating frames 201, the limiting clamping blocks 2014 are sleeved, and then the fixed shafts 7 are clamped and locked through the bolts 209, so that the unreeling roller 5 can be efficiently fixed;

then, pulling the end part of the cloth to enable the unreeling roller 5 to unreel, placing the unreeled cloth on the upper surface of the feeding belt 3 until the cloth is unreeled to a proper length, and then rotating the rotating frame 201 to drive the material pressing roller 6 to reset, wherein the rotating frame 201 can be limited in rotation through the positioning component in the process;

until the material pressing roller 6 extrudes with the cloth on the upper surface of the feeding belt 3 under the drive of the rotating frame 201, thereby realizing the smooth positioning of the cloth, effectively avoiding the condition that the cloth is wrinkled in the cutting process, then starting the motor 4 to drive one driving roller to rotate, simultaneously, the feeding belt 3 is driven by one driving roller to drive the other driving rollers to synchronously rotate, simultaneously, the material pressing roller 6 is driven by the feeding belt 3 to rotate through the cloth, so that the cloth can be stably conveyed, further improving the replacement of the unreeling roller 5, and the smooth conveying efficiency of the cloth, and effectively avoiding the phenomenon that the cloth is wrinkled in the feeding process.

In a further preferred embodiment of the present utility model, as shown in fig. 2-4, the positioning assembly comprises:

the positioning fixture block 202 is arranged on the lower surface of the rotating frame 201, the connecting block 208 is sleeved on the outer wall of the positioning fixture block 202, the second spring 2015 is arranged on the lower surface of the positioning fixture block 202, the two end parts of the second spring 2015 are respectively contacted with the outer wall of the positioning fixture block 202 and the inner wall of the connecting block 208, a ratchet block meshed with the positioning fixture block 202 is formed on the outer wall of the bottom of the rotating frame 201, the positioning fixture block 202 is T-shaped in shape, and a lifting chute for the positioning fixture block 202 to slide up and down is formed on the connecting block 208;

the unlocking component comprises:

the fixed plate 204 of fixed connection at cutting machine frame 1 one side outer wall, the upper surface of fixed plate 204 is provided with knob 205, the bottom of knob 205 is through connecting axle fixedly connected with lead screw 2011, the upper surface of lead screw 2011 contacts with the lower surface of fixed plate 204, the outer wall of lead screw 2011 cup joints the lifter plate 203 with connecting block 208 fixed connection, lifter plate 203 and lead screw 2011 threaded connection, the outside of knob 205 is provided with the removal slide 206 with fixed plate 204 horizontal sliding connection, the one end fixedly connected with of removal slide 206 and knob 205 horizontal sliding connection's location picture peg 2012, the inner wall of removal slide 206 cup joints the gag lever post 207 with fixed plate 204 fixed connection, the outer wall of gag lever post 207 cup joints first spring 2013, the both ends tip of first spring 2013 respectively with the outer wall of removal slide 206 and the inner wall of fixed plate 204 contact.

In this embodiment, the moving slide plate 206 is pulled to move along the outer wall of the limit rod 207, and the first spring 2013 is extruded to contract, meanwhile, the positioning insertion plate 2012 moves under the driving of the moving slide plate 206 until the positioning insertion plate 2012 and the knob 205 are separated from each other, then the knob 205 is rotated to drive the screw rod 2011 to rotate, at this moment, the lifting plate 203 is driven by the screw thread of the screw rod 2011 to drive the connecting block 208 to descend along the outer wall of the cutter base 1, and meanwhile, the positioning clamping block 202 is driven by the connecting block 208 to be separated from the outer wall of the rotating frame 201, so that the meshing locking on the rotating frame 201 can be released;

after rotating frame 201 passes through bolt 209 to fixed axle 7 fixed, drive lead screw 2011 through rotation knob 205 and rotate, lifter plate 203 is driven down by the screw thread of lead screw 2011 at this moment and resets, positioning fixture block 202 contacts with the outer wall of rotating frame 201 under the drive of connecting block 208 simultaneously, when rotating frame 201 drives swager roll 6 and resets, positioning fixture block 202 descends along the inner wall of connecting block 208 under the extrusion of rotating frame 201 this moment, and extrude second spring 2015 and shrink, when rotating frame 201 outer wall upper and lower one ratchet groove moved to the tip of positioning fixture block 202, second spring 2015 carries out the block location to rotating frame 201 through rebound promotion positioning fixture block 202 this moment, in order to rotate spacing to rotating frame 201.

In a further preferred embodiment of the present utility model, as shown in fig. 2-4, a limiting fixture block 2014 penetrating into the fixed shaft 7 is formed in the moving chute, one side end of the limiting fixture block 2014 is in a shape of a circular table, and a bolt 209 penetrating through the rotating frame 201 and in threaded connection with the fixed shaft 7 is arranged at the bottom end of the rotating frame 201.

In this embodiment, the fixing shaft 7 can accurately socket the limiting clamping block 2014 through the limiting clamping block 2014 in the shape of a circular truncated cone, so that the situation that the unreeling roller 5 is displaced in the unreeling process is avoided.

In a further preferred embodiment of the present utility model, as shown in fig. 2-4, the outer walls of two sides of the positioning insert 2012, which are far away from the end of the moving slide 206, are inclined, and the knob 205 is provided with a linear chute for sliding the positioning insert 2012.

In this embodiment, the positioning insert 2012 can be precisely clamped with the knob 205 by the inclined outer wall.

The working principle of the utility model is as follows: when the device is used, the movable sliding plate 206 is pulled to move along the outer wall of the limiting rod 207, the first spring 2013 is extruded to contract, the positioning inserting plate 2012 is driven by the movable sliding plate 206 to move until the positioning inserting plate 2012 and the knob 205 are separated from each other, then the knob 205 is rotated to drive the screw rod 2011 to rotate, at the moment, the lifting plate 203 is driven by the screw thread of the screw rod 2011 to drive the connecting block 208 to descend along the outer wall of the cutter base 1, and the positioning clamping block 202 is driven by the connecting block 208 to be separated from the outer wall of the rotating frame 201, so that the meshing locking of the rotating frame 201 can be relieved;

then, one rotating frame 201 is pulled to rotate by taking the rotating shaft as the axis, in the process, one rotating frame 201 drives the other rotating frame 201 to synchronously rotate through the material pressing roller 6, and simultaneously, the limit sliding blocks 2010 on the two rotating frames 201 slide along the inner wall of the arc-shaped sliding groove 2016 under the driving of the two rotating frames 201 respectively so as to limit the rotation of the rotating frames 201;

then the bolts 209 are dismounted through the tools, the unreeling roller 5 wound with cloth is moved between the two rotating frames 201, in the process, the two fixed shafts 7 are driven by the unreeling roller 5 to slide into the rotating frames 201, the limiting clamping blocks 2014 are sleeved, then the fixed shafts 7 are clamped and locked through the bolts 209, the unreeling roller 5 is effectively fixed, meanwhile, the screw rods 2011 are driven to rotate by the rotating knob 205, the lifting plate 203 is driven by the threads of the screw rods 2011 to reset, and meanwhile, the positioning clamping blocks 202 are driven by the connecting blocks 208 to contact with the outer wall of the rotating frames 201;

then, pulling the end part of the cloth to enable the unreeling roller 5 to unreel until the cloth is unreeled to a proper length, placing the unreeled cloth on the upper surface of the feeding belt 3, then rotating the rotating frame 201 to drive the material pressing roller 6 to reset, in the process, the positioning clamping block 202 descends along the inner wall of the connecting block 208 under the extrusion of the rotating frame 201, and extrudes the second spring 2015 to shrink, when the upper and lower ratchet grooves of the outer wall of the rotating frame 201 move to the end part of the positioning clamping block 202, at the moment, the second spring 2015 pushes the positioning clamping block 202 to clamp and position the rotating frame 201 through rebound so as to limit the rotation of the rotating frame 201;

until the material pressing roller 6 extrudes with the cloth on the upper surface of the feeding belt 3 under the drive of the rotating frame 201, thereby realizing the smooth positioning of the cloth, effectively avoiding the condition that the cloth is wrinkled in the cutting process, then starting the motor 4 to drive one driving roller to rotate, simultaneously, the feeding belt 3 is driven by one driving roller to drive the other driving rollers to synchronously rotate, simultaneously, the material pressing roller 6 is driven by the feeding belt 3 to rotate through the cloth, so that the cloth can be stably conveyed, further improving the replacement of the unreeling roller 5, and the smooth conveying efficiency of the cloth, and effectively avoiding the phenomenon that the cloth is wrinkled in the feeding process.

It should be noted that, for simplicity of description, the foregoing embodiments are all illustrated as a series of acts, but it should be understood by those skilled in the art that the present utility model is not limited by the order of acts, as some steps may be performed in other order or concurrently in accordance with the present utility model. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required for the present utility model.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, and such partitioning of the above-described elements may be implemented in other manners, e.g., multiple elements or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or communication connection shown or discussed as being between each other may be an indirect coupling or communication connection between devices or elements via some interfaces, which may be in the form of telecommunications or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model. It will be apparent that the described embodiments are merely some, but not all, embodiments of the utility model. Based on these embodiments, all other embodiments that may be obtained by one of ordinary skill in the art without inventive effort are within the scope of the utility model. Although the present utility model has been described in detail with reference to the above embodiments, those skilled in the art may still combine, add or delete features of the embodiments of the present utility model or make other adjustments according to circumstances without any conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present utility model, which also falls within the scope of the present utility model.

Claims (8)

1. The utility model provides a feeding mechanism of cutting machine, includes that one end installs cutting machine frame (1) of motor (4), the top of cutting machine frame (1) vertically is provided with feeding belt (3), the upper surface of feeding belt (3) is provided with swager (6), the top of swager (6) is provided with unreel roller (5), the both ends of unreel roller (5) are all connected with fixed axle (7) through damping pivot rotation, a serial communication port, one side of cutting machine frame (1) transversely is provided with stop gear (2), stop gear (2) are used for carrying out high-efficient installation and transport to the cloth;

the limiting mechanism (2) comprises: the device comprises a rotating assembly, a positioning assembly and an unlocking assembly;

two rotating assemblies symmetrically arranged at two ends of the cutting machine base (1) are used for driving the unreeling roller (5) and the material pressing roller (6) to synchronously move;

the positioning assembly is arranged below the rotating assemblies and used for limiting the rotation of the two rotating assemblies;

the unlocking component is arranged on one side of the cutting machine base (1) and is used for unlocking the limiting locking of the positioning component to the rotating component.

2. The feeding mechanism of a cutter according to claim 1, wherein said rotary assembly comprises:

two rotating frames (201) which are symmetrically connected to two ends of the cutting machine base (1) in a rotating mode are connected with the pressing rollers (6) in a rotating mode through rotating shafts, the rotating frames (201) are connected to the outer walls of the fixing shafts (7) in a sleeved mode, limiting sliding blocks (2010) are fixedly connected to one ends, close to the cutting machine base (1), of the rotating frames (201), and arc sliding grooves (2016) for the limiting sliding blocks (2010) to slide are formed in the cutting machine base (1).

3. The feeding mechanism of a cutting machine as set forth in claim 2, wherein said positioning assembly comprises:

the positioning fixture block (202) is arranged on the lower surface of the rotating frame (201), the connecting block (208) is sleeved on the outer wall of the positioning fixture block (202), a second spring (2015) is arranged on the lower surface of the positioning fixture block (202), and two end parts of the second spring (2015) are respectively contacted with the outer wall of the positioning fixture block (202) and the inner wall of the connecting block (208).

4. A feeder mechanism for a cutter as claimed in claim 3, wherein said unlocking assembly comprises:

fixed connection is at fixed plate (204) of cutting machine frame (1) one side outer wall, the upper surface of fixed plate (204) is provided with knob (205), the bottom of knob (205) is through connecting axle fixedly connected with lead screw (2011), the upper surface of lead screw (2011) is contacted with the lower surface of fixed plate (204), lifting plate (203) with connecting block (208) fixed connection have been cup jointed to the outer wall of lead screw (2011), lifting plate (203) and lead screw (2011) threaded connection, the outside of knob (205) is provided with and moves slide (206) with fixed plate (204) lateral sliding connection, the one end fixedly connected with of moving slide (206) and knob (205) lateral sliding connection's locating picture peg (2012), limit lever (207) with fixed plate (204) fixed connection have been cup jointed to the inner wall of moving slide (206), the outer wall of limit lever (207) cup joints first spring (2013), the both ends tip of first spring (2013) respectively with the outer wall of moving slide (206) and the inner wall of fixed plate (204).

5. A feeding mechanism of a cutting machine according to claim 4, characterized in that a plurality of driving rollers rotatably connected with the base (1) of the cutting machine through a rotating shaft are arranged in the feeding belt (3) at equal intervals, and one driving roller is fixedly connected with the output end of the motor (4).

6. The feeding mechanism of a cutting machine according to claim 5, wherein a moving chute for the fixed shaft (7) to transversely slide is formed on the rotating frame (201), a limit clamping block (2014) penetrating into the fixed shaft (7) is formed in the moving chute, one side end of the limit clamping block (2014) is in a circular truncated cone shape, and a bolt (209) penetrating through the rotating frame (201) and in threaded connection with the fixed shaft (7) is arranged at the bottom end of the rotating frame (201).

7. The feeding mechanism of a cutting machine according to claim 6, wherein a ratchet block meshed with the positioning fixture block (202) is formed on the outer wall of the bottom of the rotating frame (201), the positioning fixture block (202) is in a T-shaped shape, and a lifting chute for the positioning fixture block (202) to slide up and down is formed on the connecting block (208).

8. The feeding mechanism of a cutting machine according to claim 7, wherein outer walls of two sides of one end of the positioning insertion plate (2012) far away from the moving slide plate (206) are inclined, and the knob (205) is provided with a linear chute for sliding the positioning insertion plate (2012).