CN111805673A - Bamboo pen container continuous production process - Google Patents

Abstract

The invention provides a bamboo pen container continuous production process, which comprises the following steps: the bamboo tube cutting and feeding device comprises a bamboo tube pushing device, a bamboo tube cutting device, a pen container supporting device, a pen container polishing device and a pen container discharging device, wherein a rotating disc is arranged on a secondary workbench, a plurality of installation assemblies are rotatably installed on the rotating disc, positioning assemblies abutting against the bamboo tube and cutting assemblies abutting against the outer wall of the bamboo tube are arranged on the installation assemblies, a driving assembly drives the installation assemblies to sequentially pass through a cutting station, a polishing station and a discharging station through the rotating disc, the driving assembly can drive the installation assemblies to rotate through a transmission assembly to cut and polish, the processes of cutting the bamboo tube, polishing the pen container and blanking the pen container are further realized, and the production efficiency of the pen container is greatly improved.

Description

Bamboo pen container continuous production process

Technical Field

The invention relates to pen container production equipment, in particular to a bamboo pen container continuous production process.

Background

The pen container is a cylindrical pen inserting device made of ceramic, bamboo and the like, wherein a manufacturing method of the bamboo pen container is to intercept one section of suitable bamboo and leave a knot, the bamboo pen container is an original pen container, the outer wall of the bamboo is carved according to the favor, the bamboo pen container has high practical value and collection value, the traditional bamboo pen container production process is to manually saw mao bamboo to obtain blanks, then the blanks are polished and stacked, finally, patterns are engraved or printed on the outer wall of the pen container, and the efficiency of manual production is low.

Disclosure of Invention

In order to solve the problems, the invention provides a continuous production process of a bamboo pen container, which is characterized in that a rotating disc is arranged on a secondary workbench, a plurality of installation assemblies are rotatably installed on the rotating disc, positioning assemblies which are abutted against bamboo tubes and cutting assemblies which are abutted against the outer walls of the bamboo tubes are arranged on the installation assemblies, a driving assembly drives the installation assemblies to sequentially pass through a cutting station, a polishing station and a discharging station through the rotating disc, the driving assembly can drive the installation assemblies to rotate through a transmission assembly to cut and polish, so that the processes of cutting the bamboo tubes, polishing the pen container and blanking the pen container are realized, and the production efficiency of the pen container is greatly improved.

In order to achieve the purpose, the invention provides the following technical scheme:

a bamboo pen container continuous production process comprises the following steps:

the method comprises the following steps: the bamboo tube is pushed, the fixing component fixes one end of the bamboo tube and pushes the bamboo tube to move forward so that the other end of the bamboo tube enters the mounting component;

step two: cutting the bamboo tube, wherein after the first step, bamboo joints in the bamboo tube are abutted against a limiting assembly, the limiting assembly drives two groups of cutting heads symmetrically arranged on two sides of the limiting assembly to simultaneously move towards the middle position and abut against the outer wall of the bamboo tube, then a driving assembly drives the mounting assembly to rotate, and the cutting heads cut the bamboo tube to obtain the pen container;

step three: the pen container is supported, after the second step, the driving assembly drives the pen container and the mounting assembly to move synchronously, and meanwhile, the limiting rod is matched with the limiting ring to push the supporting rod to support and fix the inner wall of the pen container;

step four: polishing the pen container, wherein after the third step, the pen container moves to the outer wall of the pen container along with the mounting assembly to be abutted against the polishing assembly, the driving assembly drives the mounting assembly to rotate, and the polishing assembly polishes the outer wall of the pen container;

step five: and D, discharging the pen container, wherein after the step four, the pen container continuously moves along with the mounting assembly, the limiting rod is matched with the limiting ring to drive the supporting rod to release the support of the pen container, the limiting rod moves outwards to push the pen container away from the limiting assembly, the pen container falls into the material receiving assembly, and then the mounting assembly moves to be opposite to the fixing assembly.

As an improvement, in the first step, the bamboo tube is erected on the bracket when moving;

as an improvement, in the second step, the cutting head and the end part of the limiting assembly are arranged in a staggered mode in the horizontal direction, and the horizontal distance between the cutting head and the end part of the limiting assembly is always kept constant.

As an improvement, in the second step, the bamboo joint of the bamboo tube is abutted against the circular plate at the end of the limiting assembly and then continuously pushed to move, and the cutting head is further abutted against the outer wall of the bamboo tube under the action of the wedge-shaped block.

As an improvement, in the second step, when the bamboo tube pushes the limiting component to move, the limiting rod contracts simultaneously.

As an improvement, in the third step, the limiting rod moves to be matched with the concave part in the limiting ring, so that the limiting rod moves right relative to the limiting component to drive the plurality of supporting rods to be matched with the convex part a in the limiting rod, and the plurality of supporting rods synchronously expand outwards to be abutted against the inner wall of the pen container.

As an improvement, in the fifth step, the limiting rod moves to be matched with the convex part b in the limiting ring, so that the limiting rod moves leftwards relative to the limiting component to drive the supporting rods to be matched with the matching parts a in the limiting rod, and the supporting rods synchronously move inwards to be separated from being abutted against the inner wall of the pen container.

As an improvement, in the fifth step, the pen container is separated from the limiting assembly, falls into the receiving groove and slides down to the receiving box through the receiving groove to be collected.

As a modification, in the second step and the fourth step, the driving assembly only drives the mounting assembly to rotate through the transmission assembly and the ratchet assembly b.

As an improvement, in the third step and the fifth step, the driving assembly drives the rotating disc to rotate independently by matching with the ratchet wheel assembly b, so that the mounting assembly rotates along with the rotating disc.

The invention has the beneficial effects that:

(1) in the first step, the second working table is provided with a rotating disc, the rotating disc is rotatably provided with a plurality of installation assemblies which can sequentially pass through a cutting station, a polishing station and a blanking station, the installation assemblies are respectively provided with a limiting assembly which is abutted against the bamboo tube and a cutting assembly which is used for cutting the bamboo tube, the driving assembly drives the installation assemblies to independently rotate through a transmission assembly, the bamboo tube cutting and the bamboo tube polishing are simultaneously carried out at two stations, the driving assembly drives the rotating disc to independently rotate, the installation assemblies are sequentially switched among three stations, blanking is realized, and the production efficiency of the pen container is greatly improved;

(2) in the second step, the circular plate in the limiting assembly extends into the bamboo tube to be abutted against bamboo joints, the cutting head is abutted against the outer wall of the bamboo tube along with the continuous pushing of the fixing assembly, then the fixing assembly continues to push the bamboo tube, the circular plate moves along with the fixing assembly, the cutting head further moves towards the middle position, the contact force between the cutting head and the bamboo tube is further improved, the cutting efficiency is improved, and the production efficiency is further improved;

(3) in the third step, the end part of the limiting rod moves into the concave part, and then the supporting rod is driven by the convex part a to move outwards to support and fix the bamboo tube, so that the bamboo tube is fixed in the polishing process, and the polishing process is more stable;

(4) in the fifth step, the end part of the limiting rod is matched with the boss b, the limiting rod moves outwards, the supporting rod is further moved back to contact with the pen container, meanwhile, the limiting rod pushes the pen container into the feeding groove, and automatic blanking of the pen container is achieved.

In conclusion, the bamboo pen container has the advantages of simple structure, ingenious design, high pen container production efficiency and the like, and is particularly suitable for production of bamboo pen containers.

Drawings

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2; (ii) a

FIG. 4 is an enlarged view of FIG. 2 at B;

FIG. 5 is an enlarged view at C of FIG. 2;

FIG. 6 is a schematic view of the transmission assembly;

FIG. 7 is a schematic view of the cutting assembly in operation;

FIG. 8 is a schematic view showing the supporting and blanking states of the inner wall of the pen container;

FIG. 9 is a view of the cutting head;

FIG. 10 is a schematic view of the connection state of the connecting rod a and the connecting rod b;

FIG. 11 is a view showing the state of the stop lever cooperating with the stop collar;

FIG. 12 is a schematic view of a ratchet assembly a;

FIG. 13 is a structural view of the ratchet assembly b.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The first embodiment is as follows:

as shown in fig. 1, a bamboo pen container continuous production process comprises the following steps:

the method comprises the following steps: the bamboo tube is pushed, the fixing component 21 fixes one end of the bamboo tube 6 and pushes the bamboo tube 6 to move forward so that the other end of the bamboo tube enters the mounting component 41;

step two: cutting the bamboo tubes, wherein after the first step, bamboo joints in the bamboo tubes 6 are abutted against a limiting assembly 421, the limiting assembly 421 drives two groups of cutting heads 430 symmetrically arranged on two sides of the limiting assembly to simultaneously move towards the middle position and abut against the outer walls of the bamboo tubes 6, then a driving assembly 51 drives the mounting assembly 41 to rotate, and the cutting heads 430 cut the bamboo tubes 6 to obtain the pen container 61;

step three: the pen container support is used for supporting and fixing the inner wall of the pen container 61 by the aid of the support rod 4222 pushed by the limiting rod 4221 and the limiting ring 4223 in a matched mode, and the pen container 61 and the mounting assembly 41 are driven to synchronously move by the driving assembly 51 after the second step;

step four: after the third step, the pen container 61 moves along with the mounting assembly 41 until the outer wall of the pen container 61 abuts against the polishing assembly 3121, the driving assembly 51 drives the mounting assembly 41 to rotate, and the polishing assembly 3121 polishes the outer wall of the pen container 61;

step five: and (3) discharging the pen barrel, after the fourth step, the pen barrel 61 moves continuously along with the mounting assembly 41, the limit rod 4221 is matched with the limit ring 4223 to drive the support rod 4222 to release the support of the pen barrel 61, the limit rod 4223 moves outwards to push the pen barrel 61 away from the limit assembly 421, the pen barrel 61 falls into the material receiving assembly 3131, and then the mounting assembly 41 moves to be opposite to the fixing assembly 21.

Further, in the first step, the bamboo tube 6 is mounted on the bracket 214 while moving;

further, in the second step, the cutting head 430 and the end of the limiting assembly 421 are arranged in a staggered manner in the horizontal direction, and the horizontal distance between the two is always kept constant.

Further, in the second step, after the bamboo joint of the bamboo tube 6 collides with the circular plate 4214 at the end of the limiting assembly 421, the limiting assembly 421 is continuously pushed to move, and the cutting head 430 further collides with the outer wall of the bamboo tube 6 under the action of the wedge-shaped blocks 431.

Further, in the second step, when the bamboo tube 6 pushes the position-limiting assembly 421 to move, the position-limiting rod 4221 contracts simultaneously.

Further, in the third step, the limiting rod 4221 moves to be matched with the concave portion 42231 in the limiting ring 4223, so that the limiting rod 4221 moves to the right relative to the limiting component 421 to drive the plurality of supporting rods 4222 to be matched with the convex portion a422112 in the limiting rod 4221, and the plurality of supporting rods 4222 synchronously expand outwards to abut against the inner wall of the pen container 61.

Further, in the fifth step, the limiting rod 4221 moves to be matched with the boss b42232 in the limiting ring 4223, so that the limiting rod 4221 moves leftwards relative to the limiting component 421 to drive the plurality of supporting rods 4222 to be matched with the matching portion a422111 in the limiting rod 4221, and the plurality of supporting rods 4222 synchronously move inwards to be separated from abutting against the inner wall of the pen barrel 61.

Further, in the fifth step, the pen container 61 is separated from the limit assembly 421 and falls into the receiving groove 31311, and the pen container falls down from the receiving groove 31311 to the receiving box 31312 for collection.

Further, in the second step and the fourth step, the driving assembly 51 drives only the mounting assembly 41 to rotate through the transmission assembly 52 and the ratchet assembly b 523.

Further, in the third step and the fifth step, the driving assembly 51 drives the rotating disc 31 to rotate independently by cooperating with the ratchet assembly b521, so that the mounting assembly 41 rotates along with the rotating disc 31.

Example two:

the invention also provides bamboo pen container continuous processing equipment which comprises the following steps:

as shown in fig. 2 to 5, a bamboo pen container continuous processing apparatus includes:

the workbench 1 comprises a main workbench 11 and an auxiliary workbench 12 arranged on one side of the main workbench 11;

the feeding device 2 comprises a fixed assembly 21 which is arranged on the main workbench 11 in a left-right sliding manner and can be arranged in a rotating manner, and a power assembly 22 which drives the fixed assembly 21 to move;

the rotating device 3 comprises a rotating disc 31 rotatably mounted on the auxiliary workbench 12, the rotating disc 31 is sequentially provided with a cutting station 311, a polishing station 312 and a blanking station 313 along the rotating direction, and the cutting station 311 is arranged opposite to the fixing component 21; the grinding station 312 includes a grinding assembly 3121 secured to the secondary table 12; the blanking station 313 comprises a material receiving assembly 3131 arranged between the main workbench 11 and the auxiliary workbench 12;

the fixing device 4 comprises a plurality of mounting assemblies 41 which are rotatably mounted on the rotating disc 31 and can pass through the cutting station 311, the grinding station 312 and the blanking station 313 respectively, a positioning assembly 42 arranged on the mounting assemblies 41, and cutter assemblies 43 which are mounted on the mounting assemblies 41 and symmetrically arranged at the left side and the right side of the positioning assembly 42;

the positioning assembly 42 comprises a limiting assembly 421 arranged at the middle position of the mounting assembly 41 in a left-right sliding manner and a plurality of supporting assemblies 422 distributed on the limiting assembly 421 in a circumferential array;

the cutter assembly 43 comprises two groups of cutting heads 430 which are arranged in a sliding manner along the direction vertical to the moving direction of the positioning assembly 42 and are arranged in a staggered manner with the end part of the positioning assembly 42; and

and the driving device 5 comprises a driving component 51 in power connection with the rotating disc 31 and a transmission component 52 in transmission connection with the driving component 51 and the plurality of mounting components 41.

Further, as shown in fig. 3, the fixing unit 21 includes a moving plate 211 slidably disposed on the main table 11, a mounting base 212 fixed to the moving plate 211, a chuck fixing unit 213 mounted on the mounting base 212, and a bracket 214 mounted on one end of the main table 11 close to the sub table 12.

It should be noted that the chuck fixing assembly 213 is a three-jaw chuck fixing device, and the working principle and the working process of the chuck fixing assembly 213 are the prior art, and are not described herein in detail.

It should be noted that the power assembly 22 includes a motor 221 mounted on the moving plate 211, a gear a222 coaxially fixed on a power shaft of the motor 221, and a rack b223 disposed on the main table 11 along a length direction of the main table 11 and engaged with the gear a 222.

It is important to note that the bracket 214 stabilizes the forward pushing of the bamboo tube 6.

Further, as shown in fig. 4, 5 and 7, the mounting assembly 41 includes a disk 411 rotatably mounted on the rotating disk 31, and two sleeves 412 vertically fixed on the disk 411 and symmetrically arranged along the radial direction of the disk 411.

Furthermore, the position limiting assembly 421 includes a cross bar 4211 slidably disposed on the disk 411 from left to right and elastically connected to the disk 411, a support rod 4212 slidably disposed in the sleeve 412 and fixedly connected to the cross bar 4211, an installation rod 4213 fixed at a middle position of the cross bar 4211, and a circular plate 4214 rotatably mounted at an end of the installation rod 4213.

It should be noted that the cross bar 411 and the moving seat 311 are elastically connected through a spring.

It should be noted that the circular plate 4214 enters the bamboo tube 6 and is in interference fit with the bamboo joints.

As shown in fig. 7, as a preferred embodiment, the cutter assembly 43 further includes wedge blocks 431 respectively fixed in the two sleeves 412.

Further, as shown in fig. 9, the cutting head 430 includes a sliding block 4301 vertically slidably disposed on a rod 4212 and in interference fit with the wedge-shaped block 431, and a cutting knife 4302 fixed at an end of the sliding block 4301 and facing the positioning assembly 42.

It should be noted that, as shown in fig. 7, the bamboo tube 6 is pushed forward, the circular plate 4214 abuts against the bamboo joint, and then the bamboo tube 6 is pushed forward, the circular plate 4214 is displaced, and the supporting rod 4212 is moved in the sleeve 412, and the cutting head 430 is moved to the middle position by the wedge-shaped block 431 to abut against the outer wall of the bamboo tube 6.

It should be noted that, the bamboo tube 6 is continuously pushed forward, the cutting head 430 is further engaged with the wedge-shaped blocks 431, and thus the contact force between the cutting head 430 and the outer wall of the bamboo tube 6 is improved, and the contact effect is further improved.

As shown in fig. 5 and 8, as a preferred embodiment, the support assembly 422 includes a limit rod 4221 slidably disposed along an axis of a mounting rod 4213 and penetrating through a circular plate 4214, a plurality of support rods 4222 slidably disposed along a radial direction of the mounting rod 4213 and surrounding the mounting rod 4213, and a limit ring 4223 coaxially disposed with the rotating disc 31 and slidably engaged with a distal end of the limit rod 4221, the limit rod 4221 includes a link a42211 and a link b42212 elastically connected left and right, the link a42211 includes an engaging portion a422111 and a protruding portion a422112 disposed left and right and abutting against a bottom of the support rod 4222; the limit ring 4223 comprises a concave part 42231 corresponding to the grinding station 312, a convex part b42232 corresponding to the blanking station 313, and a matching part b42233 connecting the concave part 42231 and the convex part b 42232.

It should be noted that the connection rod a42211 and the connection rod b42212 are matched as shown in fig. 9, so that when the bamboo tube 6 moves forwards to collide with the circular plate 4214 at the cutting station 311, the limiting rod 4221 moves synchronously with the mounting rod 4213; meanwhile, when the other end of the stopper rod 4221 is engaged with the depression 42231, the link a42211 may rapidly move following the link b 42212.

It should be further noted that, as shown in fig. 11, the engagement between the end of the stop rod 4221 and the stop ring 4223 is realized by a universal ball assembly, so that the stop rod 4221 can rotate while moving along the track of the stop ring 4223.

It is important that the concave portion 42231 is arranged corresponding to the polishing station 312, so that the support rod 4222 can support the inner wall of the pen container 61 when entering the polishing station 312, and the pen container is fixed during polishing.

Further, as shown in fig. 5, the sanding assembly 3121 includes a friction bar 31211 fixed to the sub table 12, and the friction bar 31211 is disposed perpendicular to the rotating disk 31.

Further, the material receiving assembly 3131 includes a material receiving groove 31311 disposed obliquely downward, and a material receiving box 31312 disposed at the end of the material receiving groove 31311.

It should be noted that the mounting assembly 41 is not interfered with the friction bar 31211 when the rotating disc 31 moves the mounting assembly into and out of the grinding station 312.

It should be noted that, in the process that the rotating disc 31 drives the mounting assembly 41 to move from the polishing station 312 to the blanking station 313, the limiting rod 4221 cooperates with the protruding portion b42233, so that the limiting rod 4221 pushes the pen barrel 61 to leave the limiting assembly 421 and enter the receiving slot 31311, and then enter the receiving box 31312 through the receiving slot 31311.

It is important to note that the connecting rod a42211 is elastically connected with the connecting rod b42212, and the effect that the connecting rod a42211 enables the pen container 61 to be separated from the limiting assembly 421 is better.

As shown in fig. 6, 12 and 13, the transmission assembly 52 includes a driving tooth 522 connected to the rotating disc 31 through a ratchet assembly a521 and coaxially and fixedly connected to the power shaft of the driving assembly 51, and a driven tooth 524 connected to the disc 411 through a ratchet assembly b523 and engaged with the driving tooth 522, and the ratchet assembly a521 and the ratchet assembly b523 rotate in opposite directions.

It should be noted that the driving assembly 51 is configured as a forward and reverse rotation motor driving assembly.

It should be noted that the ratchet assembly a5521 and the ratchet assembly b523 are the prior art, and the working principle and the working process of the two are not described herein in detail.

It should be further noted that, when the driving assembly 51 drives the rotating disc 31 to rotate, the ratchet assembly a521 is engaged, so that the rotating disc 31 rotates along with the driving assembly 51, meanwhile, the ratchet assembly b523 is not engaged, the driven gear 524 idles, and this process is a process for switching between stations.

It is important to note that after the station switching is completed, the driving assembly 51 rotates reversely, the ratchet assembly a521 does not engage, at this time, the rotating disc 31 does not rotate, and at the same time, the ratchet assembly b523 engages, the driven teeth 524 rotate, and drive the plurality of mounting assemblies 41 to rotate simultaneously.

The working process of the equipment is as follows:

in the present invention, one end of the bamboo tube 6 is fixed by the chuck fixing assembly 213, and the bamboo tube 6 is simultaneously mounted on the bracket 214, then one of the mounting assemblies 41 faces the fixing assembly 21, the power assembly 22 pushes the bamboo tube 6 to move forward, the circular plate 4214 enters the bamboo tube 6, bamboo joints collide with the circular plate 4214, and the power assembly 22 continues to drive the bamboo tube 6 to move forward, the circular plate 4214 generates displacement, further drives the support rod 4212 to move in the sleeve 412, the cutting head 430 moves to a middle position under the action of the wedge block 431 and collides with the outer wall of the bamboo tube 6, then the driving assembly 51 works the ratchet assembly b523 to generate cooperation, the driving tooth 522 drives the driven tooth 524 to rotate, and the tail end of the bamboo tube 6 is smoothly cut into the pen container 61, then the driving assembly 51 rotates reversely, the ratchet assembly b523 does not cooperate with the ratchet assembly a521, the driving tooth 522 drives the rotating disc 31 to rotate, the pen barrel 61 moves towards the polishing station 312, in the process, the limit rod 4221 cooperates with the concave portion 42231, the limit rod 4221 moves rightwards, the support rod 4222 is switched to cooperate with the convex portion a422112 from the cooperating portion a422111, the support rod 4222 moves outwards, the support rod 4222 supports the pen barrel 61, then the outer wall of the pen barrel 61 cooperates with the friction bar 31211, then the driving assembly 51 rotates reversely again, the ratchet assembly 523 b cooperates, the driving tooth 522 drives the driven tooth 524 to rotate, then the friction bar 31211 polishes the outer wall of the pen barrel 61, and after polishing is completed, the driving assembly 51 rotates reversely, the ratchet wheel assembly a521 is matched, the driving tooth 522 drives the rotating disc 31 to rotate, the pen container 61 leaves the polishing station, the tail end of the limiting rod 4221 moves to the boss b42232 to be matched, the limiting rod 4221 moves leftwards, meanwhile, the supporting rod 4222 releases the interference of the pen container 61, the limiting rod 4221 sends the pen container 61 to the material receiving groove 31311, the pen container 61 slides into the material receiving box 31312, then the limiting rod 4221 resets, the driving assembly 51 rotates reversely again, then the rotating disc 31 drives the mounting assembly 41 to move towards the cutting station 311, and then the working process is repeated.

Claims (10)

1. A bamboo pen container continuous production process is characterized by comprising the following steps:

the method comprises the following steps: the bamboo tube is pushed, the fixing component (21) fixes one end of the bamboo tube (6) and pushes the bamboo tube (6) to move forward so that the other end of the bamboo tube enters the mounting component (41);

step two: cutting the bamboo tubes, wherein after the first step, bamboo joints in the bamboo tubes (6) are abutted against a limiting assembly (421), the limiting assembly (421) drives two groups of cutting heads (430) symmetrically arranged on two sides of the limiting assembly to simultaneously move towards the middle position and abut against the outer walls of the bamboo tubes (6), then a driving assembly (51) drives the mounting assembly (41) to rotate, and the cutting heads (430) cut the bamboo tubes (6) to obtain pen containers (61);

step three: the pen container support is characterized in that after the second step, the driving assembly (51) drives the pen container (61) and the mounting assembly (41) to synchronously move, and meanwhile, the limiting rod (4221) and the limiting ring (4223) are matched to push the supporting rod (4222) to support and fix the inner wall of the pen container (61);

step four: after the third step, the pen container (61) moves along with the mounting assembly (41) until the outer wall of the pen container is abutted against the polishing assembly (3121), the driving assembly (51) drives the mounting assembly (41) to rotate, and the polishing assembly (3121) polishes the outer wall of the pen container (61);

step five: and D, discharging the pen container, after the fourth step, the pen container (61) moves continuously along with the mounting assembly (41), the limiting rod (4221) is matched with the limiting ring (4223) to drive the supporting rod (4222) to release the support of the pen container (61), the limiting rod (4223) moves outwards to push the pen container (61) away from the limiting assembly (421), the pen container (61) falls into the material receiving assembly (3131), and then the mounting assembly (41) moves to be opposite to the fixing assembly (21).

2. Bamboo pen container continuous production process according to claim 1, characterized in that in step one, the bamboo tubes (6) are moved while being mounted on the support (214).

3. The bamboo pen container continuous production process as claimed in claim 1, wherein in the second step, the cutting head (430) and the end part of the limiting assembly (421) are arranged in a staggered manner in the horizontal direction, and the horizontal distance between the cutting head and the limiting assembly is always kept constant.

4. The continuous production process of the bamboo pen container as claimed in claim 1, wherein in the second step, the bamboo joint of the bamboo container (6) is abutted against the circular plate (4214) at the end of the limiting assembly (421) and then the limiting assembly (421) is pushed to move, and the cutting head (430) is further abutted against the outer wall of the bamboo container (6) under the action of the wedge block (431).

5. Bamboo pen container continuous production process according to claim 1, characterized in that in step two, the limiting rod (4221) contracts simultaneously when the bamboo tube (6) pushes the limiting component (421) to move.

6. The continuous production process of the bamboo pen container as claimed in claim 1, wherein in the third step, the limiting rod (4221) moves to be matched with the concave part (42231) in the limiting ring (4223) so that the limiting rod (4221) moves to the right relative to the limiting component (421) to drive the plurality of supporting rods (4222) to be matched with the convex part a (422112) in the limiting rod (4221), and the plurality of supporting rods (4222) synchronously expand outwards to be abutted against the inner wall of the pen container (61).

7. The continuous production process of the bamboo pen container as claimed in claim 1, wherein in step five, the limiting rod (4221) moves to be matched with the boss b (42232) in the limiting ring (4223) so that the limiting rod (4221) moves leftwards relative to the limiting component (421) to drive the plurality of supporting rods (4222) to be matched with the matching portions a (422111) in the limiting rod (4221), and the plurality of supporting rods (4222) synchronously move inwards to be separated from being abutted against the inner wall of the pen container (61).

8. Bamboo pen container continuous production process according to claim 1, characterized in that in step five, the pen container (61) drops off the stop assembly (421) into a receiving trough (31311) and is collected by the receiving trough (31311) sliding down to a receiving box (31312).

9. Continuous production process of bamboo pen containers according to claim 1, characterized in that in step two and step four, the driving assembly (51) drives only the mounting assembly (41) to rotate through the transmission assembly (52) and the ratchet assembly b (523).

10. Continuous production process of bamboo pen containers according to claim 1, characterized in that in the third and fifth steps, the driving assembly (51) drives the rotating disc (31) to rotate independently by cooperating with the ratchet assembly b (521), so as to realize that the mounting assembly (41) rotates along with the rotating disc (31).

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