CN219970129U - Collecting and boxing mechanism of paper rod segmentation cutting machine - Google Patents

Abstract

The utility model discloses a collecting and boxing mechanism of a paper rod segmentation cutting machine, which is characterized in that: comprises a frame, a lifting mechanism, a lifting frame, at least one annular conveying unit, at least one paper rod leading-in sleeve and a vibrating conveying unit which can place a paper box and enable the paper box to shake back and forth; the annular conveying units and the paper rod leading-in sleeves are the same in number and correspond to each other one by one; the annular conveying unit is arranged on the frame, and the paper rod guide sleeve is arranged on the frame in an up-down direction; the lifting mechanism is arranged on the frame, the lifting frame is arranged on the lifting mechanism, and the vibration conveying unit is arranged on the lifting frame and is positioned below the annular conveying unit; the front end of the annular conveying unit is correspondingly matched with the upper end opening of the paper rod guide sleeve, and the lower end opening of the paper rod guide sleeve faces the vibration conveying unit. The collecting and boxing mechanism of the paper rod segmentation cutting machine can orderly and orderly arrange each short rod body in the paper box when boxing, and fully uses the internal space of the paper box.

Description

Collecting and boxing mechanism of paper rod segmentation cutting machine

Technical Field

The utility model relates to the technical field of paper rod production, in particular to a collecting and boxing mechanism of a paper rod segmentation cutting machine.

Background

At present, most of lollipops or solid fragrant lollipops adopt plastic or wooden sticks, but in order to prevent a great deal of pollution to the environment, some manufacturers adopt degradable and recyclable paper sticks to replace the plastic or wooden sticks.

The paper rod generally has length requirements, and different products or manufacturers have different length requirements on the rod body, so that the paper rod cannot be cut according to specifications immediately after being molded, the longer rod body can be cut only during molding, and then the longer rod body is cut into a plurality of short rod bodies with equal length through a paper rod sectional cutting machine according to the specifications. Also, the longer rods are typically collected after cutting and are placed in a box for later use.

At present, after a longer bar body is cut into a plurality of short bar bodies with equal length by a paper bar segmentation cutting machine, the short bar bodies are easy to be scattered, if the scattered short bar bodies are not tidily arranged and then collected, when the paper bar is packaged, the short bar bodies are scattered in a paper box in a staggered way, a large number of redundant gaps are generated in the paper box due to the fact that the short bar bodies are arranged in the paper box, the capacity of the paper box is wasted, the boxing efficiency is reduced, the occupied space in transportation and storage is increased, the scattered short bar bodies are easy to be confused in the transportation and storage process, and the subsequent arrangement is difficult; meanwhile, the gap can lead to the easy deformation of the paper box structure after the boxing, the structural strength of the paper box is reduced, and the deformed paper box is easy to cause the damage and pollution of the short bar body.

Disclosure of Invention

The utility model aims to solve the problem of providing a collecting and boxing mechanism of a paper rod segmentation cutting machine, which can orderly and orderly arrange each short rod body in a carton when boxing and fully use the internal space of the carton.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a collection vanning mechanism of paper stick segmentation guillootine which characterized in that: comprises a frame, a lifting mechanism, a lifting frame, at least one annular conveying unit, at least one paper rod leading-in sleeve and a vibrating conveying unit which can place a paper box and enable the paper box to shake back and forth; the annular conveying units and the paper rod leading-in sleeves are the same in number and correspond to each other one by one; the annular conveying unit is arranged on the frame, and the paper rod guide sleeve is arranged on the frame in an up-down direction; the lifting mechanism is arranged on the frame, the lifting frame is arranged on the lifting mechanism, and the vibration conveying unit is arranged on the lifting frame and is positioned below the annular conveying unit; the front end of the annular conveying unit is correspondingly matched with the upper end opening of the paper rod guide sleeve, and the lower end opening of the paper rod guide sleeve faces the vibration conveying unit.

The definition of front and rear above: the conveying direction of the paper rod is taken as the reference, one side of the paper rod which arrives first is the rear side, and one side of the paper rod which arrives slowly is the front side.

In general, the paper rod introduction sleeve is flat, square in cross section, and has a thickness corresponding to the diameter of the paper rod and a width corresponding to the length of the paper rod.

Before conveying, at least one rod storage groove with the width equal to the length of the paper rod is arranged in the paper box, and the rod storage grooves are the same as the paper rod guide-in sleeves in number and correspond to one another; the lifting frame and the vibrating conveying unit on the lifting frame are driven to descend to the lowest position by the lifting mechanism, the paper box is placed on the vibrating conveying unit, and the paper box is conveyed to the position below the lower end opening of the paper rod guide sleeve by the vibrating conveying unit; and then the lifting frame, the vibration conveying unit and the paper box on the lifting frame are driven by the lifting mechanism to rise to a certain height, so that the paper rod guide sleeve is positioned in the rod storage groove, and a certain blanking interval is formed between the lower end opening of the paper rod guide sleeve and the bottom of the rod storage groove. When in conveying, firstly conveying each short rod body to the rear end of the annular conveying unit one by one, then conveying each short rod body to the opening at the upper end of the paper rod guide sleeve by the annular conveying unit in sequence, enabling each short rod body to fall into the paper rod guide sleeve from the opening at the upper end of the paper rod guide sleeve due to self gravity, and then falling into the rod storage groove from top to bottom under the guide of the paper rod guide sleeve; when the short rod body is continuously discharged into the rod storage groove, the vibration conveying unit also drives the whole paper box to shake back and forth, so that the short rod body in the rod storage groove shakes evenly, the short rod body is orderly and flatly paved in the rod storage groove from bottom to top, a large number of redundant gaps are avoided among the short rod bodies in the paper box, and the inner space of the paper box is fully used. When the short rod body in the rod storage groove is loaded to a certain height, the vibration conveying unit can drive the whole paper box to move a small distance from front to back or from back to front, so that the short rod body can be continuously filled in the front portion or the rear portion of the paper box.

In the preferred scheme, be equipped with full case induction element in the frame, full case induction element is in the front side of annular conveying element front end, full case induction element's detection end is towards vibration conveying element. When the carton is placed on the vibration conveying unit, the detection end of the full-box induction unit faces the inside of the carton, whether the short rod body in the carton is full or not is monitored in real time through the full-box induction unit, and if the short rod body in the carton is full, the vibration conveying unit can drive the carton to move for a small distance.

In a further preferred scheme, the full-box sensing unit is a photoelectric eye or a camera.

In a further preferred scheme, a cross beam is arranged on the frame, the cross beam is positioned at the front side of the front end of the annular conveying unit, at least one blocking curtain which is downwards hung is arranged on the cross beam, the blocking curtains are the same as the paper rod guiding sleeves in number and correspond to each other one by one, and the lower side of the blocking curtain downwards extends along the length direction of the paper rod guiding sleeve. The storage rod groove of the carton corresponds to the baffle, when the short rod bodies in the storage rod groove of the carton are loaded to a certain height, the lower side edge of the baffle on the cross beam applies a tiny pressure to the short rod bodies in the vibration conveying process of the vibration conveying unit, the short rod bodies can be leveled in a shaking mode, and orderly arrangement of the short rod bodies is guaranteed.

In a preferred scheme, the annular conveying unit comprises a first driving motor, a first synchronous belt and two first synchronous wheels, wherein the first driving motor is fixedly arranged on the frame, the two first synchronous wheels are arranged front and back and can be rotatably arranged on the frame, the first synchronous belt is tensioned outside the two first synchronous wheels, and the uplink section of the first synchronous belt runs in a back-to-front direction; a plurality of parallel strip-shaped tooth grooves are uniformly distributed on the belt surface of the first synchronous belt, and the width of each strip-shaped tooth groove is matched with the diameter of the paper rod. The width of the strip-shaped tooth slot is matched with the diameter of the paper rod, and the short rod body in the strip-shaped tooth slot can be well positioned and then conveyed, so that the stability and the accuracy of the short rod body in the conveying process are ensured, and the normal operation of the production line is ensured. The first synchronous wheel is driven to rotate by the first driving motor, and then the ascending section of the first synchronous belt is driven to run in the back-to-front direction, so that each strip tooth slot on the belt surface of the first synchronous belt can accurately feed each short rod body into the paper rod guide sleeve in the rotation process. In general, one endless conveying unit may be provided with one first driving motor, or a plurality of endless conveying units may share one first driving motor.

In the preferred scheme, the vibration conveying unit comprises a second driving motor, a second driving roller, a second driven roller and a second synchronous belt, wherein the second driving motor is fixedly arranged on the lifting frame, the second driving roller and the second driven roller are both rotatably arranged on the lifting frame, the second synchronous belt is tensioned outside the second driving roller and the second driven roller, and the second driving roller is in transmission connection with a power output shaft of the second driving motor; the upstream section of the second timing belt runs in a back-to-front direction or in a front-to-back direction. The second driving roller is driven to rotate by the second driving motor, and the paper box on the second synchronous belt is driven by the second synchronous belt to move. The amplitude and the frequency of shaking are adjusted by controlling the start and stop and the rotating speed of the second driving motor and setting different shaking modes and time intervals so as to realize the front and back shaking of the paper box on the second synchronous belt and shake the short rod bodies in the collecting box uniformly and neatly.

In a further preferable scheme, a limit groove capable of accommodating the paper box is formed in the uplink section of the second synchronous belt. The limiting groove is used for accommodating the paper box and limiting the paper box. When the paper box is placed on the ascending section of the second synchronous belt, the limiting groove can ensure that the paper box is positioned at the correct position, and displacement or sliding of the paper box in the shaking process is prevented.

In a further preferred scheme, a limiting unit capable of limiting the displacement of the carton in the width direction is arranged on the frame, and the limiting unit is positioned at the front side of the front end of the annular conveying unit and corresponds to the limiting groove; the limiting unit comprises a swinging shaft, two oppositely arranged swinging arms and two limiting pins, the swinging shaft is rotatably arranged on the frame, the upper ends of the two swinging arms are respectively arranged at the two ends of the swinging shaft, the two limiting pins are respectively arranged at the lower ends of the two swinging arms, and the two limiting pins are respectively positioned at the inner sides of the corresponding swinging arms. When the carton is placed on the ascending section of the second synchronous belt, the two swing arms are driven to swing through the rotation swing shaft, so that the carton is positioned between the two limiting pins, the two limiting pins limit the displacement of the carton in the width direction, and the stability of the carton in the swinging process is ensured.

In the preferred scheme, elevating system includes elevator motor, at least one vertical guide rail and at least one ball, and vertical guide rail, elevator motor are all installed in the frame, the crane is installed on vertical guide rail and with vertical guide rail sliding fit, ball's screw rod rotatable install in the frame and parallel with vertical guide rail, ball's screw rod is connected with elevator motor's output shaft transmission, and ball's nut is connected with the crane. When the lifting device works, the lifting motor drives the screw rod of the ball screw to rotate forwards or reversely, and the lifting frame is driven to ascend or descend along the vertical guide rail by the nut of the ball screw.

Of course, the specific structure of the lifting mechanism can also comprise a lifting cylinder, at least one lifting guide rod and at least one lifting guide sleeve, wherein the lifting cylinder is arranged on the frame, a piston rod of the lifting cylinder is upwards arranged, and the bottom of the lifting frame is connected with the upper end of the piston rod of the lifting cylinder; the lifting guide rod is vertically arranged on the frame, the lifting guide sleeve is sleeved on the lifting guide rod, and the lifting guide sleeve is connected with the lifting frame. The lifting cylinder is used for driving the lifting frame to move up and down along the lifting guide rod.

Generally, the paper rod segment cutting machine is further provided with a controller, and the annular conveying unit, the vibrating conveying unit, the lifting mechanism, the full box sensing unit and the like which are adopted in the method are electrically connected with the controller.

Compared with the prior art, the utility model has the following advantages:

according to the utility model, each short bar body can be orderly and orderly arranged in the carton during boxing, the internal space of the carton is fully used, the stability of the structure of the packaged carton is ensured, and the short bar bodies are prevented from being damaged and polluted due to the deformation of the carton.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of a structure of a baffle corresponding to a rod storage groove in an embodiment of the present utility model;

fig. 3 is a schematic view of a paper rod in a paper rod introduction sleeve according to an embodiment of the present utility model.

Detailed Description

The utility model is described in detail below with reference to the drawings and the specific embodiments.

As shown in fig. 1 to 3, the collecting and boxing mechanism of the paper bar sectioning and cutting machine in the present embodiment comprises a frame 1, a lifting mechanism 2, a lifting frame 3, three annular conveying units 4, three paper bar leading-in sleeves 5, and a vibrating conveying unit 6 capable of placing and shaking the paper bars back and forth; the annular conveying units 4 are the same in number and in one-to-one correspondence with the paper rod guide-in sleeves 5; the annular conveying unit 4 is arranged on the frame 1, and the paper rod guide sleeve 5 is arranged on the frame 1 in an up-down direction; the lifting mechanism 2 is arranged on the frame 1, the lifting frame 3 is arranged on the lifting mechanism 2, and the vibration conveying unit 6 is arranged on the lifting frame 3 and is positioned below the annular conveying unit 4; the front end of the annular conveying unit 4 is correspondingly matched with the upper end opening of the paper rod guide sleeve 5, and the lower end opening of the paper rod guide sleeve 5 faces the vibrating conveying unit 6.

The definition of front and rear above: the conveying direction of the paper rod is taken as the reference, one side of the paper rod which arrives first is the rear side, and one side of the paper rod which arrives slowly is the front side.

In general, the rod guide sleeve 5 is flat, square in cross section, and has a thickness corresponding to the diameter of the rod 11 and a width corresponding to the length of the rod 11.

Before conveying, three rod storage grooves 121 with the width equal to the length of the paper rods are arranged in the paper box 12, and the rod storage grooves 121 are the same in number and correspond to the paper rod guide-in sleeves 5 one by one; the lifting frame 3 and the vibrating conveying unit 6 on the lifting frame are driven to descend to the lowest position by the lifting mechanism 2, the paper box 12 is placed on the vibrating conveying unit 6, and the paper box 12 is conveyed to the position below the lower end opening of the paper rod guide sleeve 5 by the vibrating conveying unit 6; the lifting frame 3, the vibration conveying unit 6 on the lifting frame and the paper box 12 are driven by the lifting mechanism 2 to rise to a certain height, so that the paper rod guide sleeve 5 is positioned in the rod storage groove 121, and a certain blanking interval is reserved between the lower end opening of the paper rod guide sleeve 5 and the bottom of the rod storage groove 121. When in conveying, firstly conveying each short rod body to the rear end of the annular conveying unit 4 one by one, then conveying each short rod body to the opening of the upper end of the paper rod guide sleeve 5 by the annular conveying unit 4 in sequence, so that each short rod body falls into the paper rod guide sleeve 5 from the opening of the upper end of the paper rod guide sleeve 5 due to self gravity, and then falling into the rod storage groove 121 from top to bottom under the guide of the paper rod guide sleeve 5; when the short rod bodies are continuously fed into the rod storage groove 121, the vibration conveying unit 6 also drives the whole paper box 12 to shake back and forth, so that the short rod bodies in the rod storage groove 121 shake evenly and are orderly and flatly paved in the rod storage groove 121 from bottom to top, a large number of redundant gaps are avoided among the short rod bodies in the paper box 12, and the inner space of the paper box 12 is fully used. When the short bars in the bar storage slot 121 are loaded to a certain height, the vibratory conveying unit 6 can move the entire carton 12 from front to back or back to front for a small distance, so that the short bars can continue to be filled in the front or rear of the carton 12.

Be equipped with full case induction element 7 on the frame 1, full case induction element 7 is in the front side of annular conveying element 4 front end, full case induction element 7's detection end orientation vibration conveying element 6. The full box sensing unit 7 is a camera. When the carton is placed on the vibration conveying unit 6, the detection end of the full-box induction unit 7 faces the inside of the carton, whether the short rod body in the carton is full or not is monitored in real time through the full-box induction unit 7, and if the short rod body in the carton is full, the vibration conveying unit 6 can drive the carton to move for a small distance.

The frame 1 is provided with a cross beam 8, the cross beam 8 is positioned at the front side of the front end of the annular conveying unit 4, the cross beam 8 is provided with three downward hanging baffle curtains 9, the baffle curtains 9 are in same number and in one-to-one correspondence with the paper rod guide-in sleeves 5, and the lower side of the baffle curtains 9 extends downwards along the length direction of the paper rod guide-in sleeves 5. The rod storage groove 121 of the carton 12 corresponds to the baffle 9, when the short rods in the rod storage groove 121 of the carton 12 are loaded to a certain height, the lower side edge of the baffle 9 on the cross beam 8 applies a tiny pressure to the short rods in the vibration conveying process of the vibration conveying unit 6, so that the short rods which are shaking uniformly can be smoothed, and orderly discharged can be ensured.

The annular conveying unit 4 comprises a first driving motor 41, a first synchronous belt 42 and two first synchronous wheels 43, wherein the first driving motor 41 is fixedly arranged on the frame 1, the two first synchronous wheels 43 are arranged front and back and are rotatably arranged on the frame 1, the first synchronous belt 42 is tensioned outside the two first synchronous wheels 43, and the ascending section of the first synchronous belt 42 runs in the back-to-front direction; a plurality of parallel strip-shaped tooth grooves 431 are uniformly distributed on the belt surface of the first synchronous belt 42, and the width of each strip-shaped tooth groove 431 is matched with the diameter of the paper rod. Because the width of the strip-shaped tooth groove 431 is matched with the diameter of the paper rod, the short rod body in the strip-shaped tooth groove 431 can be well positioned and then conveyed, so that the stability and the accuracy of the short rod body in the conveying process are ensured, and the normal operation of the production line is ensured. The first driving motor 41 drives the first synchronous wheel 43 to rotate, and then drives the ascending section of the first synchronous belt 42 to run in the back-to-front direction, so that each strip-shaped tooth groove 431 on the belt surface of the first synchronous belt 42 can accurately feed each short rod body into the paper rod guiding sleeve 5 in the rotation process. In general, one endless conveying unit 4 may be provided with one first driving motor 41, or a plurality of endless conveying units 4 may share one first driving motor 41.

The vibration conveying unit 6 comprises a second driving motor 61, a second driving roller 62, a second driven roller 63 and a second synchronous belt 64, the second driving motor 61 is fixedly arranged on the lifting frame 3, the second driving roller 62 and the second driven roller 63 are rotatably arranged on the lifting frame 3, the second synchronous belt 64 is tensioned outside the second driving roller 62 and the second driven roller 63, and the second driving roller 62 is in transmission connection with a power output shaft of the second driving motor 61; the upstream segment of the second timing belt 64 runs in a back-to-front direction or in a front-to-back direction. The second driving roller 62 is driven to rotate by the second driving motor 61, and the cartons on the second synchronous belt 64 are driven by the second synchronous belt 64 to move. The amplitude and frequency of shaking are adjusted by controlling the start and stop and the rotating speed of the second driving motor 61 and setting different shaking modes and time intervals so as to realize the back and forth shaking of the paper boxes on the second synchronous belt 64 and shake the short rod bodies in the collecting box uniformly and neatly.

The upstream section of the second timing belt 64 is provided with a limiting groove 641 capable of accommodating a carton. The limiting groove 641 is used for accommodating the carton and limiting the carton. When the carton is placed on the upstream section of the second timing belt 64, the limiting groove 641 can ensure that the carton is in a correct position, preventing the carton from being displaced or slid during shaking.

The frame 1 is provided with a limit unit 10 capable of limiting the displacement of the carton in the width direction, and the limit unit 10 is positioned at the front side of the front end of the annular conveying unit 4 and corresponds to the limit groove 641; the limiting unit 10 comprises a swinging shaft 101, two oppositely arranged swinging arms 102 and two limiting pins 103, the swinging shaft 101 is rotatably arranged on the frame 1, the upper ends of the two swinging arms 102 are respectively arranged at two ends of the swinging shaft 101, the two limiting pins 103 are respectively arranged at the lower ends of the two swinging arms 102, and the two limiting pins 103 are respectively positioned at the inner sides of the corresponding swinging arms 102. When the carton is placed on the ascending section of the second synchronous belt 64, the swing shafts 101 can be rotated to drive the two swing arms 102 to swing, so that the carton is positioned between the two limiting pins 103, the two limiting pins 103 limit the displacement of the carton in the width direction, and the carton is ensured to be stable in the swinging process.

The lifting mechanism 2 comprises a lifting motor (not shown in the figure), four vertical guide rails 21 and a ball screw (not shown in the figure), wherein the vertical guide rails 21 and the lifting motor 21 are all installed on the frame 1, the two side walls in the middle and the two side walls in the rear of the lifting frame 3 are respectively installed on the corresponding vertical guide rails 21 and are in sliding fit with the vertical guide rails 21, the screw rod of the ball screw is rotatably installed on the frame 1 and is parallel to the vertical guide rails 21, the screw rod of the ball screw is in transmission connection with an output shaft of the lifting motor 21, and the nut of the ball screw is connected with the lifting frame 3. When the lifting device works, the lifting motor 21 drives the screw rod of the ball screw to rotate forwards or reversely, and the lifting frame 3 is driven to ascend or descend along the vertical guide rail 21 by the nut of the ball screw rod.

In general, the paper bar segment cutting machine is further provided with a controller, and the above-described loop conveying unit 4, the vibration conveying unit 6, the lifting mechanism 2, the full box sensing unit 7, and the like, which are adopted are all electrically connected with the controller.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present utility model are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (9)

1. The utility model provides a collection vanning mechanism of paper stick segmentation guillootine which characterized in that: comprises a frame, a lifting mechanism, a lifting frame, at least one annular conveying unit, at least one paper rod leading-in sleeve and a vibrating conveying unit which can place a paper box and enable the paper box to shake back and forth; the annular conveying units and the paper rod leading-in sleeves are the same in number and correspond to each other one by one; the annular conveying unit is arranged on the frame, and the paper rod guide sleeve is arranged on the frame in an up-down direction; the lifting mechanism is arranged on the frame, the lifting frame is arranged on the lifting mechanism, and the vibration conveying unit is arranged on the lifting frame and is positioned below the annular conveying unit; the front end of the annular conveying unit is correspondingly matched with the upper end opening of the paper rod guide sleeve, and the lower end opening of the paper rod guide sleeve faces the vibration conveying unit.

2. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 1, wherein: be equipped with full case induction element in the frame, full case induction element is in the front side of annular conveying element front end, full case induction element's detection end is towards vibration conveying element.

3. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 2, wherein: the full box sensing unit is a photoelectric eye or a camera.

4. The collecting and boxing mechanism of the paper rod segment cutting machine in accordance with claim 1 or 2, wherein: the machine frame is provided with a cross beam, the cross beam is positioned at the front side of the front end of the annular conveying unit, the cross beam is provided with at least one blocking curtain which is downwards and vertically arranged, the blocking curtains are the same as the paper rod guiding sleeves in number and correspond to each other one by one, and the lower side of the blocking curtain downwards extends along the length direction of the paper rod guiding sleeve.

5. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 1, wherein: the annular conveying unit comprises a first driving motor, a first synchronous belt and two first synchronous wheels, wherein the first driving motor is fixedly arranged on the frame, the two first synchronous wheels are arranged front and back and can be rotatably arranged on the frame, the first synchronous belt is tensioned outside the two first synchronous wheels, and the uplink section of the first synchronous belt runs in a back-to-front direction; a plurality of parallel strip-shaped tooth grooves are uniformly distributed on the belt surface of the first synchronous belt, and the width of each strip-shaped tooth groove is matched with the diameter of the paper rod.

6. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 1, wherein: the vibration conveying unit comprises a second driving motor, a second driving roller, a second driven roller and a second synchronous belt, the second driving motor is fixedly arranged on the lifting frame, the second driving roller and the second driven roller are rotatably arranged on the lifting frame, the second synchronous belt is tensioned outside the second driving roller and the second driven roller, and the second driving roller is in transmission connection with a power output shaft of the second driving motor; the upstream section of the second timing belt runs in a back-to-front direction or in a front-to-back direction.

7. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 6, wherein: and a limiting groove capable of accommodating the paper box is formed in the uplink section of the second synchronous belt.

8. The collecting and boxing mechanism of claim 7, wherein: the machine frame is provided with a limiting unit capable of limiting the displacement of the carton in the width direction, and the limiting unit is positioned at the front side of the front end of the annular conveying unit and corresponds to the limiting groove; the limiting unit comprises a swinging shaft, two oppositely arranged swinging arms and two limiting pins, the swinging shaft is rotatably arranged on the frame, the upper ends of the two swinging arms are respectively arranged at the two ends of the swinging shaft, the two limiting pins are respectively arranged at the lower ends of the two swinging arms, and the two limiting pins are respectively positioned at the inner sides of the corresponding swinging arms.

9. The collecting and boxing mechanism of the sectional paper rod cutting machine in accordance with claim 1, wherein: the lifting mechanism comprises a lifting motor, at least one vertical guide rail and at least one ball screw, wherein the vertical guide rail and the lifting motor are both arranged on the frame, the lifting frame is arranged on the vertical guide rail and is in sliding fit with the vertical guide rail, the screw of the ball screw is rotatably arranged on the frame and is parallel to the vertical guide rail, the screw of the ball screw is in transmission connection with an output shaft of the lifting motor, and a nut of the ball screw is connected with the lifting frame.