CN114735289B - Feeding mechanism of bamboo strip binding machine, bamboo strip binding machine and binding method - Google Patents

Abstract

The invention provides a feeding mechanism of a bamboo strip binding machine, the bamboo strip binding machine and a binding method, wherein the feeding mechanism comprises a feeding assembly, a distributing assembly, a turnover assembly and a pushing assembly, the distributing assembly corresponds to the output end of the feeding assembly, the distributing assembly comprises a distributing roller, a roller driver, a first feeding guide and a second feeding guide which are oppositely arranged, the distributing roller is positioned at the front ends of the two feeding guides, and the roller driver is connected with the distributing roller to drive the distributing roller to switch the guiding positions so as to guide the bamboo strips to different feeding guides; the turnover assembly comprises a turnover driver, a turnover frame connected with the turnover driver and at least one accommodating groove arranged on the turnover frame; the overturn driver drives the overturn frame to overturn, so that the accommodating groove on the overturn frame is switched among the corresponding first feeding guide, the second feeding guide and the propelling component. Can realize the feeding, binding and discharging of the mechanized bamboo strips.

Description

Feeding mechanism of bamboo strip binding machine, bamboo strip binding machine and binding method

Technical Field

The invention relates to the field of bamboo strip processing, in particular to a feeding mechanism of a bamboo strip binding machine, the bamboo strip binding machine with the feeding mechanism and a bamboo strip binding method based on the bamboo strip binding machine.

Background

The bamboo strip is a strip-shaped bamboo strip with a certain specification and size and a basically rectangular cross section after the bamboo tube is cut. The bamboo strips are required to be bound and packed before being transported, in the prior art, a common packing mode is to stack a plurality of bamboo strips together in the same direction, and then stack the white bamboo of two stacks of bamboo strips relatively, and in the prior art, a binding machine for automatic binding is provided, but feeding of the bamboo strips is required to be carried out after manual stacking, and then the bamboo strips are sent into the binding machine for binding. The manual stacking efficiency is low, the cost is high, and the manual stacking device is difficult to produce in a large scale.

Disclosure of Invention

Therefore, the invention aims to solve the problems and provides a feeding mechanism of a bamboo strip binding machine, the bamboo strip binding machine with the feeding mechanism and a bamboo strip binding method based on the bamboo strip binding machine.

In order to achieve the above purpose, the technical scheme provided by the invention is as follows:

the feeding mechanism of the bamboo strip binding machine comprises a feeding assembly, a distributing assembly, a turnover assembly and a pushing assembly, wherein the distributing assembly corresponds to the output end of the feeding assembly, the distributing assembly comprises a distributing roller, a roller driver, a first feeding guide and a second feeding guide, the first feeding guide and the second feeding guide are arranged in a back-to-back mode, the distributing roller is positioned at the front ends of the two feeding guides, and the roller driver is connected with the distributing roller to drive the distributing roller to switch the guiding positions, and then the bamboo strips are guided to different feeding guides; the turnover assembly comprises a turnover driver, a turnover frame connected with the turnover driver and at least one accommodating groove arranged on the turnover frame; the overturn driver drives the overturn frame to overturn, so that the accommodating groove on the overturn frame is switched among the corresponding first feeding guide, the second feeding guide and the propelling component.

Further, the feeding assembly comprises a feeding guide block, a driving wheel driver, a driving wheel, a driven wheel, a sliding rail, an elastic piece and a counting sensor, wherein the feeding guide block is provided with a guide channel, and the driving wheel and the driven wheel are respectively arranged at two sides of an outlet of the guide channel; the driving wheel driver is connected with the driving wheel; the driven wheel is slidably assembled on the sliding rail so as to be close to or far away from the driving wheel; the elastic piece applies an elastic force towards the direction of the driving wheel to the driven wheel, the counting sensor is arranged corresponding to the driven wheel, and the feeding of the bamboo strips can push the driven wheel to move away from the driving wheel so as to trigger the counting sensor.

Furthermore, the front ends of the two feeding guides are intersected, so that a V-shaped structure is formed; the side of feeding direction is provided with the baffle.

Further, the number of the containing grooves on the roll-over stand is four, and the four containing grooves are distributed in a cross shape to form two-to-two back arrangement; the first feeding guide and the second feeding guide are defined as a first plane, and the pushing assembly is arranged on a second plane perpendicular to the first plane.

Further, the feeding mechanism is also provided with a pressing component which is arranged corresponding to the accommodating groove; the pressing assembly comprises a tension spring and a pressing plate, the pressing plate is arranged in the accommodating groove, and the tension spring applies a pulling force to the pressing plate towards the bottom direction of the accommodating groove.

Further, a guide rod is fixed on the roll-over stand, a sliding seat is sleeved on the guide rod, a cross beam penetrating through a side plate of the accommodating groove is fixed on the sliding seat, and the cross beam is connected with the pressing plate; the extension spring is sleeved on the guide rod, one end of the extension spring is connected with the roll-over stand, and the other end of the extension spring is connected with the sliding seat.

Further, the propulsion assembly comprises a sliding rail, a sliding seat, a propulsion plate and a driving device, wherein the sliding seat is slidably assembled on the sliding rail, the propulsion plate is fixed on the sliding seat, and the driving device is connected with the sliding seat to drive the sliding seat to slide back and forth on the sliding rail.

Further, still include arrangement subassembly, arrangement subassembly sets up the front end at the upset subassembly, arrangement subassembly includes dull and stereotyped and connects dull and stereotyped advancing device, advancing device connects dull and stereotyped in order to drive dull and stereotyped advancing towards the upset subassembly direction.

The bamboo strip binding machine comprises a feeding mechanism, a binding mechanism and a discharging mechanism, wherein the output end of the feeding mechanism corresponds to the binding mechanism, and the output end of the binding mechanism corresponds to the discharging mechanism; the feeding mechanism is the feeding mechanism of the bamboo strip binding machine, and the pushing assembly pushes the bamboo strips in the accommodating groove to the binding mechanism.

A bamboo strip binding method comprises the following steps:

a1, providing the bamboo strip binding machine, turning over the turning frame, enabling the accommodating groove to correspond to the first feeding guide, placing the bamboo strips on the feeding assembly in a uniform orientation mode, and feeding through the feeding assembly;

a2, guiding a certain number of bamboo strips into a first feeding guide direction by controlling the switching of the material distributing rollers of the material distributing assembly, and guiding the bamboo strips into the accommodating groove through the first feeding guide direction;

a3, turning over the roll-over frame to enable the accommodating groove to correspond to the second feeding guide, guiding a certain number of bamboo strips into the second feeding guide by controlling the switching of the material distributing rollers of the material distributing assembly, and guiding the bamboo strips into the accommodating groove through the second feeding guide; thereby realizing that two groups of bamboo strips with specified quantity are oppositely stacked in the accommodating groove;

a4, turning over the roll-over frame to enable the accommodating groove to correspond to the corresponding pushing assembly, and pushing the bamboo strips to the binding mechanism through the pushing assembly;

a5, binding the input bamboo strips by a binding mechanism;

and A6, the blanking mechanism performs blanking output on the bundled bamboo strips.

The technical scheme provided by the invention has the following beneficial effects:

according to the scheme provided by the application, mechanized feeding operation can be realized, two groups of bamboo strips with the same orientation can be stacked in opposite directions through a turnover mode, and then output binding and packaging are carried out; the labor cost is greatly saved, and the efficiency is improved. Thereby enabling mass production.

Drawings

Fig. 1 is a schematic structural view of a feeding mechanism of a bamboo strip binding machine in an embodiment;

fig. 2 is a schematic structural view of a feeding mechanism of a bamboo strip binding machine in an embodiment when a rack is hidden;

FIG. 3 is a schematic view of a feeding assembly according to an embodiment;

FIG. 4 is a schematic view showing the structure of a material distributing component in the embodiment;

FIG. 5 is a schematic view of a flip assembly according to an embodiment;

FIG. 6 is a schematic view of the propulsion assembly of the embodiment;

fig. 7 is a schematic structural view of a bamboo strip binding machine according to an embodiment.

Detailed Description

For further illustration of the various embodiments, the invention is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present invention. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.

The invention will now be further described with reference to the drawings and detailed description.

Referring to fig. 1 to 6, the embodiment provides a feeding mechanism 100 of a bamboo strip binding machine, which comprises a feeding assembly 10, a distributing assembly 20, a turning assembly 30 and a pushing assembly 40, wherein the feeding assembly 10, the distributing assembly 20, the turning assembly 30 and the pushing assembly 40 are all arranged on a frame 101, so that the whole assembly is realized, and the transportation and the assembly are convenient.

The material distributing assembly 20 corresponds to the output end of the feeding assembly 10, and the feeding assembly 10 is used for feeding the bamboo strips 1 into the material distributing assembly 20. Referring specifically to fig. 4, the distributing assembly 20 includes a distributing roller 22, a roller driver 21, and a first feeding guide 231 and a second feeding guide 232 disposed opposite to each other, and specifically, in this embodiment, the first feeding guide 231 is disposed upward, and the second feeding guide 232 is disposed downward. The material dividing roller 22 is located at the front ends of the two feeding guides 23, and the roller driver 21 is connected with the material dividing roller 22 to drive the material dividing roller 22 to switch the guiding positions, in this embodiment, to drive the material dividing roller 22 to move up and down to switch the guiding positions, so as to guide the bamboo strips 1 to different feeding guides 23.

Referring specifically to fig. 5, the flipping assembly 30 includes a flipping driver 31, a flipping frame 32 connected to the flipping driver 31, and at least one receiving groove 33 provided on the flipping frame 32; the roll-over driver 31 drives the roll-over stand 32 to roll over so that the receiving groove 33 on the roll-over stand 32 is switched between the corresponding first feed guide 231, second feed guide 232, and propulsion assembly 40.

Still more specifically, with continued reference to fig. 7, the embodiment further provides a bamboo strip binding machine, which includes a feeding mechanism, a binding mechanism 200 and a discharging mechanism 300, wherein an output end of the feeding mechanism corresponds to the binding mechanism 200, and an output end of the binding mechanism 200 corresponds to the discharging mechanism 300; the feeding mechanism is the feeding mechanism 100 of the bamboo strip binding machine, and the pushing assembly 40 pushes the bamboo strips 1 in the accommodating groove 33 to the binding mechanism 200.

In particular, the embodiment also provides a bamboo strip binding method based on the bamboo strip binding machine, which comprises the following steps:

a1, providing the bamboo strip binding machine, turning over the turning frame 32, enabling the accommodating groove 33 to correspond to the first feeding guide 231, placing the bamboo strips 1 on the feeding assembly 10 in a uniform orientation mode (in the embodiment, the bamboo white surfaces of the bamboo strips 1 are uniformly upward, namely, the bamboo green surfaces are uniformly downward), and feeding through the feeding assembly 10;

a2, a certain amount of bamboo strips 1 are guided onto the first feeding guide 231 and then guided into the accommodating groove 33 through the first feeding guide 231 by controlling the switching of the distributing rollers 22 of the distributing assembly 20.

Specifically, in this step, the action of the dispensing roller 22 is: the roller driver 21 drives the feed roller 22 to move downwards, and the bamboo strips 1 are abutted against the upper half part of the feed roller 22, so that the bamboo strips 1 are upwards deflected by the continuous input of the bamboo strips 1 through the rolling of the feed roller 22, so that the bamboo strips enter the first feed guide 231 and then enter the accommodating groove 33 through the guide of the first feed guide 231.

Specifically, when the first bamboo strip 1 enters the accommodating groove 33 and the second bamboo strip enters the accommodating groove 33 again, the bottom surface of the first bamboo strip 1 is propped against and inserted into the accommodating groove 33, so that the bamboo strips are stacked in sequence.

A3, turning over the roll-over stand 32 to enable the accommodating groove 33 to correspond to the second feeding guide 232, guiding a certain amount of bamboo strips 1 onto the second feeding guide 232 by controlling the switching of the distributing rollers 22 of the distributing assembly 20, and guiding the bamboo strips into the accommodating groove 33 through the second feeding guide 232; thereby realizing the stacking of two groups of the specified number of bamboo strips 1 in the accommodating groove 33 in opposite directions.

Specifically, in this step, the action of the dispensing roller 22 is: the roller driver 21 drives the feed roller 22 to move upwards, and the bamboo strips 1 are abutted against the lower half part of the feed roller 22, so that the bamboo strips 1 are deflected downwards by the continuous input of the bamboo strips 1 through the rolling of the feed roller 22, so that the bamboo strips enter the second feed guide 232, and then enter the accommodating groove 33 through the guide of the second feed guide 232.

A4, turning over the roll-over stand 32 to enable the accommodating groove 33 to correspond to the pushing assembly 40, and pushing the bamboo strips 1 to the binding mechanism 200 through the pushing assembly 40;

and A5, the binding mechanism 200 binds the input bamboo strips 1.

A6, the blanking mechanism 300 performs blanking output on the bundled bamboo strips 1.

According to the scheme provided by the application, mechanized feeding operation can be realized, two groups of bamboo strips 1 with the same orientation can be stacked in opposite directions through a turnover mode, and then output binding and packaging are performed; the labor cost is greatly saved, and the efficiency is improved. Thereby enabling mass production.

Further, in this embodiment, referring specifically to fig. 3, the feeding assembly 10 includes a feeding guide block 11, a driving wheel driver 12, a driving wheel 13, a driven wheel 14, a sliding rail 15, an elastic member (not shown), and a counting sensor 16, where the feeding guide block 11 has a guide channel 111, and the driving wheel 13 and the driven wheel 14 are respectively disposed at two sides of an outlet of the guide channel 111; the driving wheel driver 12 is connected with the driving wheel 13; bamboo strips 1 pass through the guide channel 111, and the bamboo strips 1 are clamped by the driving wheel 13 and the driven wheel 14 together, and meanwhile, the driving wheel 13 is driven by the driving wheel driver 12 (a driving motor in the embodiment) to rotate, so that the bamboo strips 1 are driven to be input.

The driven wheel 13 is slidably mounted on the sliding rail 15 to be close to or far from the driving wheel 13; the elastic piece applies an elastic force to the driven wheel 14 towards the direction of the driving wheel 13, so that bamboo strips 1 with different widths can be clamped, and the clamping force is more stable. The counting sensor 16 is arranged corresponding to the driven wheel 14, and the feeding of the bamboo strips 1 can push the driven wheel 14 to move away from the driving wheel 13 so as to trigger the counting sensor 16. I.e. when the bamboo strip 1 enters, the driven wheel 14 is pushed away from the driving wheel 13, so that the counting sensor 16 is triggered; when the bamboo strips 1 are completely fed in, the driven wheel 14 is reset under the drive of the elastic piece, and the triggering of the counting sensor 16 is relieved; thus, the counting can be realized, so that the number of the bamboo strips 1 in each containing groove 33 can be accurately controlled; and the realization structure is simple.

The front ends of the two feeding guides 23 are intersected to form a V-shaped structure; in this way, feeding and guiding are facilitated. Meanwhile, the side edge of the feeding guide 23 is provided with a baffle 24, specifically, two sides of the feeding guide 23 are provided with baffles 24, and in fig. 4, one baffle 24 is hidden, and the baffles 24 can effectively limit the entering bamboo strips 1 and prevent the bamboo strips 1 from shifting.

The roll-over stand 32 comprises a front rotating fork claw and a rear rotating fork claw, and a rotating shaft for connecting the two rotating fork claws, and is assembled on the frame 1 and the material distributing assembly 20 through the rotating shaft, so that the roll-over arrangement is realized. The receiving groove 33 is fitted to the two rotating prongs. More specifically, the accommodating groove 33 is a "U" shaped groove formed by a bottom plate and two side plates, and has a simple structural design.

Specifically, in this embodiment, four receiving grooves 33 are disposed on the roll-over stand 32, and the four receiving grooves 33 are distributed in a cross shape to form a two-phase back arrangement, i.e. two sets of receiving grooves 33 disposed in opposite directions are disposed, as shown in fig. 5, one set of receiving grooves 33 is disposed up and down, and the other set of receiving grooves 33 is disposed left and right. The plane in which the first feed guide 231 and the second feed guide 232 are defined is a first plane, that is, in the present embodiment, the first feed guide 231 and the second feed guide 232 face upward and downward, respectively, and thus, the first plane is a vertical plane; the propulsion units 40 are arranged on a second plane perpendicular to the first plane, i.e. the second plane is a horizontal plane, in this embodiment one propulsion unit 40 is arranged on the right side. So configured, each time the roll-over stand 32 is turned 90, there are three of the receiving slots 33 corresponding to the first feed guide 231, the second feed guide 232, and the pushing assembly 40, respectively. Continuous operation can be realized.

Specifically, the specific operation steps are as follows: when the first accommodating groove 33 corresponds to the second feeding guide 232, the bamboo strips 1 enter the first accommodating groove 33 through the second feeding guide 232, after the filling is completed, the roll-over stand 32 is turned over by 90 degrees, and at the moment, the first accommodating groove 33 faces to the left, the second accommodating groove 33 faces downwards, and the second accommodating groove 33 is filled; then, the bamboo strip 1 can enter the third accommodating groove 33 through the second feeding guide 232, after the third accommodating groove 33 is filled, the position of the material distributing roller 22 is switched, so that the bamboo strip 1 enters the first accommodating groove 33 above through the first feeding guide 231, and the first accommodating groove 33 finishes the opposite stacking of the bamboo strip 1. The roll-over stand 32 continues to roll over 90 ° with the fourth receiving slot 33 facing downward corresponding to the second feed guide 232, the second receiving slot 33 facing upward corresponding to the first feed guide 231, and the first receiving slot 33 facing rightward corresponding to the pusher assembly 40; the material distributing assembly 20 fills the second receiving groove 33 and the fourth receiving groove 33, respectively; at the same time, the pushing assembly 40 pushes out the bamboo strips 1 in the first receiving groove 33 to the binding mechanism 200. Thus, continuous operation is realized; the efficiency is higher.

Of course, in other embodiments, the number of the receiving grooves 33 of the roll-over stand 32, the distribution position, and the disposition position of the propulsion assembly 40 are not limited thereto.

Further, the feeding mechanism 100 further has a pressing component disposed corresponding to the accommodating groove 33; thereby compacting the bamboo strips 1 stacked in the receiving groove 32 in real time. Specifically, the pressing assembly includes a tension spring (not shown) and a pressing plate 341, wherein the pressing plate 341 is disposed in the accommodating groove 33, and the tension spring applies a tension force to the pressing plate 341 toward the bottom of the accommodating groove 33; thus, the pressing plate 341 can press the bamboo strips 1 stacked in the accommodating groove 33 in real time, and the structure is simple. More specifically, a guide rod 342 is further fixed on the roll-over stand 32 (specifically, on the rotating fork claw), a sliding seat 343 is sleeved on the guide rod 342, a cross beam penetrating through the side plate of the accommodating groove 33 is fixed on the sliding seat 343, and the cross beam is connected with the pressing plate 341; the tension spring is sleeved on the guide rod 342, one end of the tension spring is connected with the roll-over stand 32, and the other end of the tension spring is connected with the sliding seat 343. So set up, compress tightly the assembly of subassembly more stable.

Specifically, the pushing assembly 40 includes a sliding rail 41, a sliding seat 42, a pushing plate 43, and a driving device 44, where the sliding seat 42 is slidably assembled on the sliding rail 41, the pushing plate 43 is fixed on the sliding seat 42, and the driving device 44 is connected to the sliding seat 42 to drive the sliding seat 42 to slide reciprocally on the sliding rail 41. When the accommodating groove 33 filled with the bamboo strips 1 is turned over to the corresponding pushing assembly 40, the driving device 44 drives the sliding seat 42 to slide on the sliding rail 41 from front to back, and then the pushing plate 43 pushes the bamboo strips 1 into the binding mechanism 200 for binding. Simple structure and easy realization. Of course, in other embodiments, the configuration of propulsion assembly 40 is not so limited.

Further, the feeding mechanism 100 further includes a sorting assembly 50, where the sorting assembly 50 is disposed at the front end of the overturning assembly 30, and the sorting assembly 50 includes a flat plate (not shown) and a pushing device (not shown) connected to the flat plate, and the pushing device is connected to the flat plate to drive the flat plate to push toward (i.e. backwards) the overturning assembly 30. So set up, after filling the bamboo strip 1 in holding tank 33, namely after step A2, get into step A2-3, the advancing device of arrangement subassembly 50 drives the dull and stereotyped back and pushes away and butt in holding tank 33 the tip of bamboo strip 1 to realize the effect of tip alignment, the packing effect is better. And then, the operation is carried out in the step A3.

More specifically, the rear end of the roll-over stand 32 is provided with a rear baffle 35, and the rear baffle 35 is fixed on the frame 101, so that the corresponding upward accommodating groove 33 is arranged, when the flat plate of the finishing assembly 50 is pushed backwards to abut against the end part of the bamboo strip 1 in the accommodating groove 33, the other end of the bamboo strip 1 can abut against the rear baffle 35, and the alignment effect is better.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a feed mechanism of bamboo strip bundling machine which characterized in that: the bamboo strip feeding device comprises a feeding assembly, a material distributing assembly, a turnover assembly and a pushing assembly, wherein the material distributing assembly corresponds to the output end of the feeding assembly, the material distributing assembly comprises a material distributing roller, a roller driver, a first feeding guide and a second feeding guide which are arranged in a back-to-back mode, the material distributing roller is positioned at the front ends of the two feeding guides, and the roller driver is connected with the material distributing roller to drive the material distributing roller to switch the guiding positions, so that bamboo strips are guided to different feeding guides; the turnover assembly comprises a turnover driver, a turnover frame connected with the turnover driver and at least one accommodating groove arranged on the turnover frame; the overturn driver drives the overturn frame to overturn, so that the accommodating groove on the overturn frame is switched among the corresponding first feeding guide, the second feeding guide and the propelling component.

2. The feeding mechanism of a bamboo strip binding machine according to claim 1, wherein: the feeding assembly comprises a feeding guide block, a driving wheel driver, a driving wheel, a driven wheel, a sliding rail, an elastic piece and a counting sensor, wherein the feeding guide block is provided with a guide channel, and the driving wheel and the driven wheel are respectively arranged at two sides of an outlet of the guide channel; the driving wheel driver is connected with the driving wheel; the driven wheel is slidably assembled on the sliding rail so as to be close to or far away from the driving wheel; the elastic piece applies an elastic force towards the direction of the driving wheel to the driven wheel, the counting sensor is arranged corresponding to the driven wheel, and the feeding of the bamboo strips can push the driven wheel to move away from the driving wheel so as to trigger the counting sensor.

3. The feeding mechanism of a bamboo strip binding machine according to claim 1, wherein: the front ends of the two feeding guides are intersected, so that a V-shaped structure is formed; the side of feeding direction is provided with the baffle.

4. The feeding mechanism of a bamboo strip binding machine according to claim 1, wherein: the number of the containing grooves on the roll-over stand is four, and the four containing grooves are distributed in a cross shape to form two-phase back arrangement; the first feeding guide and the second feeding guide are defined as a first plane, and the pushing assembly is arranged on a second plane perpendicular to the first plane.

5. The feeding mechanism of a bamboo strip binding machine according to claim 1 or 4, wherein: the feeding mechanism is also provided with a compaction assembly which is arranged corresponding to the accommodating groove; the pressing assembly comprises a tension spring and a pressing plate, the pressing plate is arranged in the accommodating groove, and the tension spring applies a pulling force to the pressing plate towards the bottom direction of the accommodating groove.

6. The feeding mechanism of a bamboo strip binding machine of claim 5, wherein: a guide rod is also fixed on the roll-over stand, a sliding seat is sleeved on the guide rod, a cross beam penetrating through a side plate of the accommodating groove is fixed on the sliding seat, and the cross beam is connected with the pressing plate; the extension spring is sleeved on the guide rod, one end of the extension spring is connected with the roll-over stand, and the other end of the extension spring is connected with the sliding seat.

7. The feeding mechanism of a bamboo strip binding machine according to claim 1 or 4, wherein: the pushing assembly comprises a sliding rail, a sliding seat, a pushing plate and a driving device, wherein the sliding seat is slidably assembled on the sliding rail, the pushing plate is fixed on the sliding seat, and the driving device is connected with the sliding seat to drive the sliding seat to slide back and forth on the sliding rail.

8. The feeding mechanism of a bamboo strip binding machine according to claim 1, wherein: still include arrangement subassembly, arrangement subassembly sets up the front end at the upset subassembly, arrangement subassembly includes dull and stereotyped and connects dull and stereotyped advancing device, advancing device connects dull and stereotyped in order to drive dull and stereotyped advancing towards the upset subassembly direction.

9. The bamboo strip binding machine comprises a feeding mechanism, a binding mechanism and a discharging mechanism, wherein the output end of the feeding mechanism corresponds to the binding mechanism, and the output end of the binding mechanism corresponds to the discharging mechanism; the method is characterized in that: the feeding mechanism is a feeding mechanism of the bamboo strip binding machine according to any one of claims 1 to 8, and the pushing component pushes the bamboo strips in the accommodating groove to the binding mechanism.

10. A bamboo strip binding method is characterized in that: the method comprises the following steps:

a1, providing the bamboo strip binding machine according to claim 9, turning over the turning frame, enabling the accommodating groove to correspond to the first feeding guide, placing the bamboo strips on the feeding assembly in a uniform orientation mode, and feeding through the feeding assembly;

a2, guiding a certain number of bamboo strips into a first feeding guide direction by controlling the switching of the material distributing rollers of the material distributing assembly, and guiding the bamboo strips into the accommodating groove through the first feeding guide direction;

a3, turning over the roll-over frame to enable the accommodating groove to correspond to the second feeding guide, guiding a certain number of bamboo strips into the second feeding guide by controlling the switching of the material distributing rollers of the material distributing assembly, and guiding the bamboo strips into the accommodating groove through the second feeding guide; thereby realizing that two groups of bamboo strips with specified quantity are oppositely stacked in the accommodating groove;

a4, turning over the roll-over frame to enable the accommodating groove to correspond to the pushing assembly, and pushing the bamboo strips to the binding mechanism through the pushing assembly;

a5, binding the input bamboo strips by a binding mechanism;

and A6, the blanking mechanism performs blanking output on the bundled bamboo strips.

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