CN112277111A

CN112277111A - Crooked bamboo section device with adjustable

Info

Publication number: CN112277111A
Application number: CN202011114326.9A
Authority: CN
Inventors: 苏玉鑫
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-01-29

Abstract

The invention relates to the field of bamboo products, in particular to an adjustable bamboo slicing device for bending bamboos. The technical problem to be solved by the invention is as follows: an adjustable device for bending bamboo slices is provided. The technical scheme of the invention is as follows: an adjustable bamboo slicing device comprises a working machine bed plate, an elevated bottom column, an operation control screen, a curvature measuring and calculating mechanism, a movable cutting mechanism and a collecting mechanism; four corners below the bed board of the working machine are provided with a group of elevated bottom posts. The bamboo bending track measuring and calculating device can measure and calculate the bending track of the bent bamboo, so that the cutting surface is always perpendicular to the section of the bamboo, the bamboo is cut equally, and the bamboo with longer length can be quickly cut by movable cutting, so that the bamboo can be quickly made into products to prevent the bamboo from being damp and mildewed.

Description

Crooked bamboo section device with adjustable

Technical Field

The invention relates to the field of bamboo products, in particular to an adjustable bamboo slicing device for bending bamboos.

Background

At present in bamboo article course of working, often need cut into the bamboo chip with the bamboo, but ordinary section equipment is the linear type cutting mode usually, because the bamboo can be because top one side weight is too big and lead to the bamboo shaping after be crooked form in the growth process, and then the cutting mode that leads to the linear type is difficult to carry out the section processing to crooked bamboo, and bamboo length is longer, need artifically carry out counterpoint many times to the bamboo tangent plane when the section, waste time and energy, can not in time process the bamboo and lead to the bamboo to stack for a long time and wet the mildy.

In view of the above problems, there is a need for an adjustable device for bending bamboo slices to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the bamboo is often required to be cut into bamboo chips in the processing process of bamboo products at present, but the common slicing equipment is usually in a linear type cutting mode, the bamboo is bent due to the fact that the weight of one side of the top of the bamboo is too large in the growing process, the linear type cutting mode is difficult to slice the bent bamboo, the bamboo is long in length, the bamboo cutting surfaces of the bamboo need to be aligned for many times manually during slicing, time and labor are wasted, and the bamboo cannot be processed in time, so that the bamboo is laid for a long time and becomes damp and mildewed, the technical problems to be solved by the bamboo slicing equipment are as follows: an adjustable device for bending bamboo slices is provided.

The technical scheme of the invention is as follows: an adjustable bamboo slicing device comprises a working machine bed plate, an elevated bottom column, an operation control screen, a curvature measuring and calculating mechanism, a movable cutting mechanism and a collecting mechanism; a group of elevated bottom columns are arranged at four corners below the bed plate of the working machine; the side surface of the working machine tool plate is provided with an operation control screen; the working machine bed plate is connected with the curvature measuring and calculating mechanism; the working machine bed plate is connected with the movable cutting mechanism; the working machine bed plate is connected with the collecting mechanism.

As a preferred technical solution of the present invention, the curvature measuring and calculating mechanism includes a blanking plate, a first infrared receiver, a second infrared receiver, a third infrared receiver, a fourth infrared receiver, a fifth infrared receiver, a sixth infrared receiver, a first base, a second base, a third base, a fourth base, a fifth base, a sixth base, a support frame plate, a first electric push rod, a first pressing plate, a second electric push rod, a second pressing plate, a third electric push rod, a third pressing plate, a fourth electric push rod, a fourth pressing plate, a fifth electric push rod, and a fifth pressing plate; a first infrared receiver, a second infrared receiver, a third infrared receiver, a fourth infrared receiver, a fifth infrared receiver and a sixth infrared receiver are sequentially arranged on the side surface of the blanking plate; a first base is arranged on one side, away from the blanking plate, of the first infrared receiver; a second base is arranged on one side, away from the blanking plate, of the second infrared receiver; a third base is arranged on one side, away from the blanking plate, of the third infrared receiver; a fourth base is arranged on one side, away from the blanking plate, of the fourth infrared receiver; a fifth base is arranged on one side, away from the blanking plate, of the fifth infrared receiver; a sixth base is arranged on one side, away from the blanking plate, of the sixth infrared receiver; a support frame plate is arranged above the first base; a first electric push rod, a second electric push rod, a third electric push rod, a fourth electric push rod and a fifth electric push rod are sequentially arranged below the support frame plate; the lower part of the first electric push rod is inserted into the first pressure plate; the lower part of the second electric push rod is inserted into the second pressure plate; the lower part of the third electric push rod is inserted with the third pressure plate; the lower part of the fourth electric push rod is inserted with the fourth pressing plate; the lower part of the fifth electric push rod is inserted into the fifth pressing plate; the blanking plate is connected with the working machine tool plate; the first base is connected with the working machine tool plate; the second base is connected with the working machine tool plate; the third base is connected with the working machine tool plate; the fourth base is connected with the working machine tool plate; the fifth base is connected with the working machine tool plate; the sixth base is connected with the working machine tool plate; the support frame plate is connected with the working machine tool plate.

As a preferred technical solution of the present invention, the movable cutting mechanism includes a stepping motor, a first transmission wheel, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a first spur gear, a fifth transmission wheel, a sixth transmission wheel, a second spur gear, a seventh transmission wheel, a third spur gear, an eighth transmission wheel, a ninth transmission wheel, a tenth transmission wheel, a fourth spur gear, an eleventh transmission wheel, a fifth spur gear, a twelfth transmission wheel, a thirteenth transmission wheel, a fourteenth transmission wheel, a sixth spur gear, a fifteenth transmission wheel, a seventh spur gear, a sixteenth transmission wheel, a seventeenth transmission wheel, an eighteenth transmission wheel, an eighth spur gear, a nineteenth transmission wheel, a ninth spur gear, a twentieth transmission wheel, a twenty-first transmission wheel, a tenth spur gear, a fixed mount, a toothed plate, a first coupling frame, a first slide bar, a first press bar, a second slide bar, a slide base, a, The cutting device comprises a fixed column, a micro motor, an eleventh flat gear, a twelfth flat gear, a connecting shaft rod, a cutting frame, a sixth electric push rod, a second connecting frame, a second press rod, a third slide rod, a thirteenth flat gear and a twenty-second transmission wheel; an output shaft of the stepping motor is fixedly connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the axle center of the second driving wheel is fixedly connected with the third driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the third driving wheel is fixedly connected with the thirteenth flat gear; the axle center of the fourth driving wheel is fixedly connected with the twenty-second driving wheel; the axle center of the fourth driving wheel is fixedly connected with the first flat gear; the axle center of the fifth driving wheel is fixedly connected with the sixth driving wheel; the axle center of the sixth driving wheel is fixedly connected with the second flat gear; the outer ring surface of the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the axle center of the seventh driving wheel is fixedly connected with the third horizontal gear; the axle center of the seventh driving wheel is fixedly connected with the eighth driving wheel; the outer ring surface of the eighth driving wheel is in transmission connection with the ninth driving wheel through a belt; the axle center of the ninth driving wheel is fixedly connected with the tenth driving wheel; the axle center of the tenth driving wheel is fixedly connected with the fourth flat gear; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the axle center of the eleventh transmission wheel is fixedly connected with the fifth flat gear; the axle center of the eleventh transmission wheel is fixedly connected with the twelfth transmission wheel; the outer ring surface of the twelfth driving wheel is in transmission connection with the thirteenth driving wheel through a belt; the axle center of the thirteenth driving wheel is fixedly connected with the fourteenth driving wheel; the shaft center of the fourteenth driving wheel is fixedly connected with the sixth flat gear; the outer ring surface of the fourteenth driving wheel is in transmission connection with the fifteenth driving wheel through a belt; the shaft center of the fifteenth transmission wheel is fixedly connected with the seventh flat gear; the axis of the fifteenth driving wheel is fixedly connected with the sixteenth driving wheel; the outer ring surface of the sixteenth driving wheel is in transmission connection with the seventeenth driving wheel through a belt; the axle center of the seventeenth driving wheel is fixedly connected with the eighteenth driving wheel; the axle center of the eighteenth driving wheel is fixedly connected with the eighth flat gear; the outer ring surface of the eighteenth driving wheel is in transmission connection with the nineteenth driving wheel through a belt; the axle center of the nineteenth driving wheel is fixedly connected with the ninth flat gear; the axle center of the nineteenth driving wheel is fixedly connected with the twentieth driving wheel; the outer ring surface of the twentieth driving wheel is in transmission connection with the twenty-first driving wheel through a belt; the axle center of the twenty-first driving wheel is fixedly connected with the tenth flat gear; the lower part of the stepping motor is fixedly connected with the fixed frame; the lower part of the thirteenth flat gear is meshed with the gear tooth plate; the pinion plate is welded with the first connecting frame; the inside of the first connecting frame is in sliding connection with the first sliding rod; the lower part of the first connecting frame is welded with the first pressure lever; the side surface of the first connecting frame is welded with the second sliding rod; the outer surface of the second sliding rod is in sliding connection with the sliding base; two groups of fixing columns are arranged below the sliding base; the two fixing columns are fixedly connected with the micro motor; the output shaft of the micro motor is fixedly connected with the eleventh flat gear; the eleventh flat gear is meshed with the twelfth flat gear; the shaft center of the twelfth flat gear is fixedly connected with the connecting shaft rod; the upper part of the connecting shaft rod is rotationally connected with the sliding base; the lower part of the connecting shaft lever is fixedly connected with the cutting frame; the side surface of the sliding base is inserted with a sixth electric push rod; one side of the sixth electric push rod, which is far away from the sliding base, is fixedly connected with the second connecting frame; the lower part of the second connecting frame is welded with a second pressure lever; the inside of the second connecting frame is in sliding connection with the third slide bar; the first sliding rod is connected with the working machine tool plate; the third slide bar is connected with the working machine tool plate.

As a preferred technical scheme of the invention, the collecting mechanism comprises a storage cabin, a connecting bottom plate, a servo motor, a seventh electric push rod, a first L-shaped plate, an eighth electric push rod, a second L-shaped plate, a first material shifting plate, a second material shifting plate, a third material shifting plate, a ninth electric push rod, a first material ejecting plate, a tenth electric push rod, a second material ejecting plate and a connecting rod; a connecting bottom plate is arranged on the side surface of the storage cabin; the upper part of the connecting bottom plate is fixedly connected with a servo motor; the upper part of the connecting bottom plate is sequentially spliced with a seventh electric push rod and an eighth electric push rod; the upper part of the seventh electric push rod is fixedly connected with the first L-shaped plate; the upper part of the eighth electric push rod is fixedly connected with the second L-shaped plate; the output shaft of the servo motor is fixedly connected with the connecting rod; the outer surface of the connecting rod is fixedly connected with the first material shifting plate, the second material shifting plate and the third material shifting plate in sequence; a ninth electric push rod and a tenth electric push rod are sequentially arranged on one side, far away from the material storage cabin, of the connecting bottom plate; the upper part of the ninth electric push rod is inserted into the first ejector plate; the upper part of the tenth electric push rod is inserted into the second ejector plate; the storage cabin is connected with the working machine tool plate; the first L-shaped plate is connected with the working machine tool plate; the second L-shaped plate is connected with the working machine tool plate; the ninth electric push rod is connected with the working machine tool plate; the tenth electric push rod is connected with the working machine tool plate.

As a preferred technical scheme of the invention, the first base comprises a fixed base, a telescopic column, a spiral spring, a sliding plate, a supporting plate, an infrared emitter, a first arc plate, a second arc plate, a first tension spring, a second tension spring, a limiting seat, a first inclined block and a second inclined block; the upper part of the fixed base is fixedly connected with the telescopic column; the upper part of the fixed base is welded with the spiral spring; the outer surface of the telescopic column is sleeved with the spiral spring; the upper part of the telescopic column is fixedly connected with the sliding plate; the upper part of the spiral spring is fixedly connected with the sliding plate; the sliding plate is connected with the supporting plate in a sliding manner; an infrared emitter is arranged on the side surface of the supporting plate; the upper part of the supporting plate is fixedly connected with the first arc plate and the second arc plate in sequence; the upper part of the supporting plate is sequentially connected with a first tension spring and a second tension spring; the upper part of the supporting plate is rotationally connected with the limiting seat; the first tension spring and the second tension spring are both connected with the limiting seat; the upper part of the limiting seat is fixedly connected with the first inclined block and the second inclined block in sequence; the fixed base is connected with the working machine tool plate.

As a preferred technical scheme of the invention, the upper surface of the blanking plate is an inclined plane, and one lower end of the blanking plate is close to one side of the first base.

As a preferred technical scheme of the invention, six groups of blades are arranged in the cutting frame, one ends of the six groups of blades are all connected at one position, and the other ends of the six groups of blades are equidistantly distributed on the same circumference.

As a preferred technical scheme of the invention, the limiting seat is C-shaped.

Has the advantages that: 1. the bamboo slicing machine aims to solve the problems that at present, in the processing process of bamboo products, bamboos are often required to be cut into bamboo pieces, but common slicing equipment is usually in a linear type cutting mode, the formed bamboos are bent due to the fact that the top of the bamboos is too heavy in the growing process, the bent bamboos are difficult to slice in the linear type cutting mode, the length of the bamboos is long, the bamboo sections need to be aligned for many times manually during slicing, time and labor are wasted, and the bamboos cannot be processed in time, so that the bamboos are laid for a long time and become damp and mildewed;

2. the bamboo processing method comprises the steps that a curvature measuring and calculating mechanism, a movable cutting mechanism and a collecting mechanism are designed, when the bamboo processing device is used, bamboo to be processed is placed in the curvature measuring and calculating mechanism manually, part of the bamboo is bent, the bending track of the bamboo is measured and calculated through the curvature measuring and calculating mechanism, then the movable cutting mechanism is controlled through an operation control screen to move and cut the bamboo, the movable cutting mechanism is made to be attached to the bending track of the bamboo through the measured and calculated bending track of the bamboo to equally divide the bamboo, and then the cut bamboo is collected through the collecting mechanism;

3. reached and to have carried out the measurement and calculation of crooked orbit to crooked bamboo, and then made the cutting plane perpendicular with the section of bamboo all the time, and then carried out the partition cutting to the bamboo to portable cutting can carry out quick section to the longer bamboo of length, makes the bamboo can carry out the effect that the product preparation prevents to wet moldy fast.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic perspective view of a curvature measuring and calculating mechanism according to the present invention;

FIG. 4 is a schematic view of a first three-dimensional structure of the mobile cutting mechanism of the present invention;

FIG. 5 is a schematic diagram of a second perspective structure of the mobile cutting mechanism of the present invention;

FIG. 6 is a schematic view of a first perspective structure of the collection mechanism of the present invention;

FIG. 7 is a second perspective view of the collection mechanism of the present invention;

fig. 8 is a schematic perspective view of a first base according to the present invention.

Wherein: 1-a working machine bed plate, 2-an elevated bottom column, 3-an operation control screen, 4-a curvature measuring and calculating mechanism, 5-a moving cutting mechanism, 6-a collecting mechanism, 401-a blanking plate, 402-a first infrared receiver, 403-a second infrared receiver, 404-a third infrared receiver, 405-a fourth infrared receiver, 406-a fifth infrared receiver, 407-a sixth infrared receiver, 408-a first base, 409-a second base, 4010-a third base, 4011-a fourth base, 4012-a fifth base, 4013-a sixth base, 4014-a support frame plate, 4015-a first electric push rod, 4016-a first pressing plate, 4017-a second electric push rod, 4018-a second pressing plate, 4019-a third electric push rod, 4020-third press plate, 4021-fourth electric push rod, 4022-fourth press plate, 4023-fifth electric push rod, 4024-fifth press plate, 501-stepping motor, 502-first drive wheel, 503-second drive wheel, 504-third drive wheel, 505-fourth drive wheel, 506-first flat gear, 507-fifth drive wheel, 508-sixth drive wheel, 509-second flat gear, 5010-seventh drive wheel, 5011-third flat gear, 5012-eighth drive wheel, 5013-ninth drive wheel, 5014-tenth drive wheel, 5015-fourth flat gear, 5016-eleventh drive wheel, 5017-fifth flat gear, 5018-twelfth drive wheel, 5019-thirteenth drive wheel, 5020-fourteenth drive wheel, 5021-sixth flat gear, 5022-a fifteenth driving wheel, 5023-a seventh flat gear, 5024-a sixteenth driving wheel, 5025-a seventeenth driving wheel, 5026-an eighteenth driving wheel, 5027-an eighth flat gear, 5028-a nineteenth driving wheel, 5029-a ninth flat gear, 5030-a twentieth driving wheel, 5031-a twenty-first driving wheel, 5032-a tenth flat gear, 5033-a fixed frame, 5034-a pinion plate, 5035-a first connecting frame, 5036-a first slide rod, 5037-a first pressure rod, 5038-a second slide rod, 5039-a sliding base, 5040-a fixed column, 5041-a micro motor, 5042-an eleventh flat gear, 5043-a twelfth flat gear, 5044-a connecting shaft rod, 5045-a cutting frame, 5046-a sixth electric push rod, 5047-a second connecting frame, 5048-second press rod, 5049-third slide rod, 5050-thirteenth flat gear, 5051-twenty-second transmission wheel, 601-material storage cabin, 602-connecting bottom plate, 603-servo motor, 604-seventh electric push rod, 605-first L-shaped plate, 606-eighth electric push rod, 607-second L-shaped plate, 608-first material shifting plate, 609-second material shifting plate, 6010-third material shifting plate, 6011-ninth electric push rod, 6012-first material ejecting plate, 6013-tenth electric push rod, 6014-second material ejecting plate, 6015-connecting rod, 40801-fixed base, 40802-telescopic column, 40803-coil spring, 40804-sliding plate, 40805-supporting plate, 40807-infrared emitter, 40807-first arc plate, 40808-second arc plate, 40809-first tension spring, 408010-second tension spring, 408011-limit seat, 408012-first oblique block, 408013-second oblique block.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Example 1

An adjustable bamboo slicing device comprises a working machine bed plate 1, an elevated bottom column 2, an operation control screen 3, a curvature measuring and calculating mechanism 4, a movable cutting mechanism 5 and a collecting mechanism 6, wherein the working machine bed plate is arranged on the working machine bed plate; a group of elevated bottom posts 2 are arranged at four corners below the bed plate 1 of the working machine; an operation control screen 3 is arranged on the side surface of the working machine bed plate 1; the working machine bed plate 1 is connected with a curvature measuring and calculating mechanism 4; the working machine bed plate 1 is connected with a movable cutting mechanism 5; the working machine bed plate 1 is connected with a collecting mechanism 6.

The working process is as follows: when the device is used, the device is horizontally fixed at a position required to be used through a working machine bed plate 1 and an elevated bottom column 2, a power supply is externally connected, an operator controls the power and integrally allocates the device through an operation control screen 3, firstly, the bamboo required to be processed is manually placed in a curvature measuring and calculating mechanism 4, the bending track of the bamboo is measured and calculated through the curvature measuring and calculating mechanism 4 because part of the bamboo is bent, then, the bamboo is controlled to move and cut through the operation control screen 3 and a moving and cutting mechanism 5, the moving and cutting mechanism 5 is made to be attached to the bending track of the bamboo through the measured bending track of the bamboo so as to equally divide the bamboo, then, the bamboo after being cut is collected through a collecting mechanism 6, the device can measure and calculate the bending track of the bent bamboo, and further, the cutting surface is always vertical to the section of the bamboo, and then cut the bamboo equally to portable cutting can carry out quick section to the longer bamboo of length, makes the bamboo can carry out the product preparation fast and prevent the effect that gets damp and go mouldy.

The curvature measuring and calculating mechanism 4 comprises a blanking plate 401, a first infrared receiver 402, a second infrared receiver 403, a third infrared receiver 404, a fourth infrared receiver 405, a fifth infrared receiver 406, a sixth infrared receiver 407, a first base 408, a second base 409, a third base 4010, a fourth base 4011, a fifth base 4012, a sixth base 4013, a support frame plate 4014, a first electric push rod 4015, a first pressure plate 4016, a second electric push rod 4017, a second pressure plate 4018, a third electric push rod 4019, a third pressure plate 4020, a fourth electric push rod 4021, a fourth pressure plate 4022, a fifth electric push rod 4023 and a fifth pressure plate 4024; a first infrared receiver 402, a second infrared receiver 403, a third infrared receiver 404, a fourth infrared receiver 405, a fifth infrared receiver 406 and a sixth infrared receiver 407 are sequentially arranged on the side surface of the blanking plate 401; a first base 408 is arranged on one side of the first infrared receiver 402 away from the blanking plate 401; a second base 409 is arranged on one side, away from the blanking plate 401, of the second infrared receiver 403; a third base 4010 is arranged on one side, away from the blanking plate 401, of the third infrared receiver 404; a fourth base 4011 is arranged on one side, away from the blanking plate 401, of the fourth infrared receiver 405; a fifth base 4012 is arranged on one side, away from the blanking plate 401, of the fifth infrared receiver 406; a sixth base 4013 is arranged on one side, away from the blanking plate 401, of the sixth infrared receiver 407; a support frame plate 4014 is arranged above the first base 408; a first electric push rod 4015, a second electric push rod 4017, a third electric push rod 4019, a fourth electric push rod 4021 and a fifth electric push rod 4023 are sequentially arranged below the support frame plate 4014; the lower part of the first electric push rod 4015 is inserted into the first pressure plate 4016; the lower part of the second electric push rod 4017 is inserted into a second pressure plate 4018; the lower part of the third electric push rod 4019 is inserted into a third pressing plate 4020; the lower part of the fourth electric push rod 4021 is inserted into the fourth pressure plate 4022; the lower part of the fifth electric push rod 4023 is inserted into the fifth pressure plate 4024; the blanking plate 401 is connected with the working machine bed plate 1; the first base 408 is connected with the working machine bed plate 1; the second base 409 is connected with a working machine bed plate 1; the third base 4010 is connected with a working machine bed plate 1; the fourth base 4011 is connected with a working machine bed plate 1; the fifth base 4012 is connected with a working machine bed plate 1; the sixth base 4013 is connected with the working machine bed plate 1; the support frame plate 4014 is connected with the working machine bed plate 1.

Firstly, the bamboo to be processed is manually placed on the lower board 401, because the upper surface of the lower board 401 is an inclined surface and the lower end of the lower board is close to one side of the first base 408, the bamboo on the lower board 401 automatically slides down to the first base 408, the second base 409, the third base 4010, the fourth base 4011, the fifth base 4012 and the sixth base 4013, the first electric push rod 4015 is started to push the first press plate 4016 downwards, the second electric push rod 4017 is started to push the second press plate 4018 downwards, the third electric push rod 4019 is started to push the third press plate 4020 downwards, the fourth electric push rod 4021 is started to push the fourth press plate 4022 downwards, the fifth electric push rod 4014023 is started to push the fifth press plate 4024 downwards, the bamboo is pressed downwards by the first press plate 6, the second press plate 4018, the third press plate 4020, the fourth press plate 4022 and the fifth press plate 4024, so that the bamboo and the first base 408, the second base 409 and the third base 4010, the fourth base 4011, the fifth base 4012 and the sixth base 4013 are closely attached, the supporting shelf 4014 functions as a support, and further, the bending degree of the contact portion of the bamboo and the first base 408 is measured by the cooperation of the first base 408 and the first infrared ray receiver 402, the bending degree of the contact portion of the bamboo and the second base 409 is measured by the cooperation of the second base 409 and the second infrared ray receiver 403, the bending degree of the contact portion of the bamboo and the third base 4010 is measured by the cooperation of the third base 4010 and the third infrared ray receiver 404, the bending degree of the contact portion of the bamboo and the fourth base 4011 is measured by the cooperation of the fourth base 4011 and the fourth infrared ray receiver 401405, the bending degree of the contact portion of the bamboo and the fifth base 2 is measured by the cooperation of the fifth base 4012 and the fifth infrared ray receiver 406, the bending degree of the bamboo contacting with the sixth base 4013 is measured by the cooperation of the sixth base 4013 and the sixth infrared receiver 407, when the cutting mechanism 5 is moved to cut the bamboo, the first pressing plate 4016 is moved upward to a designated height, when the cutting of the bamboo supporting part of the first pressing plate 4016 is completed, the first pressing plate 4016 is moved downward to continue fixing the bamboo, the same steps are sequentially performed on the second pressing plate 4018, the third pressing plate 4020, the fourth pressing plate 4022 and the fifth pressing plate 4024, and the mechanism realizes the measurement of the bending degree of the bamboo and the fixing of the bamboo.

The movable cutting mechanism 5 comprises a stepping motor 501, a first driving wheel 502, a second driving wheel 503, a third driving wheel 504, a fourth driving wheel 505, a first flat gear 506, a fifth driving wheel 507, a sixth driving wheel 508, a second flat gear 509, a seventh driving wheel 5010, a third flat gear 5011, an eighth driving wheel 5012, a ninth driving wheel 5013, a tenth driving wheel 5014, a fourth flat gear 5015, an eleventh driving wheel 5016, a fifth flat gear 5017, a twelfth driving wheel 5018, a thirteenth driving wheel 5019, a fourteenth driving wheel 5020, a sixth flat gear 5021, a fifteenth driving wheel 5022, a seventh flat gear 5023, a sixteenth driving wheel 5024, a seventeenth driving wheel 5025, an eighteenth driving wheel 5026, an eighth flat gear 5037, a nineteenth driving wheel 5028, a ninth flat gear 5029, a twenty-th driving wheel 5030, a twenty-first driving wheel 5031, a tenth flat gear 5032, a fixed mount 5033, a gear 5034, a first coupling mount 5035, and a first coupling mount 5035, A first slide bar 5036, a first pressure bar 5037, a second slide bar 5038, a sliding base 5039, a fixed column 5040, a micro motor 5041, an eleventh flat gear 5042, a twelfth flat gear 5043, a connecting shaft 5044, a cutting rack 5045, a sixth electric push rod 5046, a second connecting rack 5047, a second pressure bar 5048, a third slide bar 5049, a thirteenth flat gear 5050 and a twenty-second transmission wheel 5051; an output shaft of the stepping motor 501 is fixedly connected with the first driving wheel 502; the outer ring surface of the first driving wheel 502 is in driving connection with a second driving wheel 503 through a belt; the axle center of the second driving wheel 503 is fixedly connected with the third driving wheel 504; the outer annular surface of the third driving wheel 504 is in driving connection with a fourth driving wheel 505 through a belt; the axle center of the third driving wheel 504 is fixedly connected with a thirteenth flat gear 5050; the axle center of the fourth transmission wheel 505 is fixedly connected with the twenty-second transmission wheel 5051; the axle center of the fourth driving wheel 505 is fixedly connected with the first flat gear 506; the axle center of the fifth driving wheel 507 is fixedly connected with the sixth driving wheel 508; the axis of the sixth transmission wheel 508 is fixedly connected with a second flat gear 509; the outer annular surface of the sixth transmission wheel 508 is in transmission connection with a seventh transmission wheel 5010 through a belt; the axle center of the seventh transmission wheel 5010 is fixedly connected with the third flat gear 5011; the axle center of the seventh transmission wheel 5010 is fixedly connected with the eighth transmission wheel 5012; the outer ring surface of the eighth transmission wheel 5012 is in transmission connection with the ninth transmission wheel 5013 through a belt; the axle center of the ninth transmission wheel 5013 is fixedly connected with the tenth transmission wheel 5014; the axle center of the tenth transmission wheel 5014 is fixedly connected with the fourth flat gear 5015; the outer ring surface of the tenth transmission wheel 5014 is in transmission connection with an eleventh transmission wheel 5016 through a belt; the axle center of the eleventh transmission wheel 5016 is fixedly connected with the fifth flat gear 5017; the axle center of the eleventh transmission wheel 5016 is fixedly connected with the twelfth transmission wheel 5018; the outer ring surface of the twelfth driving wheel 5018 is in transmission connection with a thirteenth driving wheel 5019 through a belt; the axle center of the thirteenth transmission wheel 5019 is fixedly connected with the fourteenth transmission wheel 5020; the axis of a fourteenth driving wheel 5020 is fixedly connected with a sixth flat gear 5021; an outer ring surface of the fourteenth driving wheel 5020 is in transmission connection with a fifteenth driving wheel 5022 through a belt; the axis of the fifteenth driving wheel 5022 is fixedly connected with a seventh flat gear 5023; the axis of the fifteenth driving wheel 5022 is fixedly connected with a sixteenth driving wheel 5024; the outer ring surface of the sixteenth driving wheel 5024 is in transmission connection with a seventeenth driving wheel 5025 through a belt; the axle center of the seventeenth driving wheel 5025 is fixedly connected with the eighteenth driving wheel 5026; the axis of an eighteenth driving wheel 5026 is fixedly connected with an eighth flat gear 5027; the outer ring surface of the eighteenth driving wheel 5026 is in transmission connection with a nineteenth driving wheel 5028 through a belt; the axis of a nineteenth transmission wheel 5028 is fixedly connected with a ninth spur gear 5029; the axle center of the nineteenth driving wheel 5028 is fixedly connected with the twentieth driving wheel 5030; the outer ring surface of the twentieth driving wheel 5030 is in transmission connection with the twenty-first driving wheel 5031 through a belt; the axle center of the twenty-first transmission wheel 5031 is fixedly connected with the tenth flat gear 5032; the lower part of the stepping motor 501 is fixedly connected with a fixing frame 5033; the lower part of the thirteenth flat gear 5050 is meshed with a gear tooth plate 5034; the cog plate 5034 is welded to the first coupling bracket 5035; the inside of the first link 5035 is slidably connected to a first slide bar 5036; the lower part of the first connecting frame 5035 is welded with a first pressure rod 5037; the side surface of the first connecting bracket 5035 is welded with the second sliding rod 5038; the outer surface of the second slide bar 5038 is slidably connected to a slide mount 5039; two groups of fixing posts 5040 are arranged below the sliding base 5039; the two fixing columns 5040 are fixedly connected with the micro motor 5041; an output shaft of the micro motor 5041 is fixedly connected with an eleventh flat gear 5042; the eleventh flat gear 5042 is meshed with the twelfth flat gear 5043; the axle center of the twelfth flat gear 5043 is fixedly connected with the connecting shaft 5044; the upper part of the connecting shaft 5044 is rotatably connected with the sliding base 5039; the lower part of the connecting shaft lever 5044 is fixedly connected with a cutting frame 5045; the side surface of the sliding base 5039 is inserted into the sixth electric push rod 5046; one side of the sixth electric push rod 5046, which is far away from the sliding base 5039, is fixedly connected with the second connecting frame 5047; the lower part of the second connecting frame 5047 is welded with a second pressure lever 5048; the inside of the second link frame 5047 is slidably connected with a third slide bar 5049; the first sliding rod 5036 is connected with the working machine bed plate 1; the third slide bar 5049 is connected with the working machine bedplate 1.

When the bending track of the bamboo is measured, the first driving wheel 502 is driven to rotate by the stepping motor 501, the second driving wheel 503 is driven to rotate, the third driving wheel 504 is driven to rotate, the thirteenth flat gear 5050 is driven to rotate, the gear tooth plate 5034 of the thirteenth flat gear 5050 is driven to move towards the side close to the first flat gear 506, the fourth driving wheel 505 is driven to rotate by the rotation of the third driving wheel 504, the first flat gear 506 is driven to rotate, the twenty-second driving wheel 5051 is driven to rotate, the fifth driving wheel 507 is driven to rotate by the rotation of the twelfth driving wheel 5051, the sixth driving wheel 508 is driven to rotate, the seventh driving wheel 5010 is driven to rotate by the rotation of the sixth driving wheel 508, and the third flat gear 5011 is driven to rotate, simultaneously drives the eighth transmission wheel 5012 to rotate, drives the ninth transmission wheel 5013 to rotate by the rotation of the eighth transmission wheel 5012, further drives the tenth transmission wheel 5014 to rotate, simultaneously drives the fourth flat gear 5015 to rotate, drives the eleventh transmission wheel 5016 to rotate by the rotation of the tenth transmission wheel 5014, further drives the fifth flat gear 5017 to rotate, simultaneously drives the twelfth transmission wheel 5018 to rotate, drives the thirteenth transmission wheel 5019 to rotate by the rotation of the twelfth transmission wheel 5018, further drives the fourteenth transmission wheel 5020 to rotate, simultaneously drives the sixth flat gear 5021 to rotate, drives the fifteenth transmission wheel 5022 to rotate by the rotation of the fourteenth transmission wheel 5020, further drives the seventh flat gear 5023 to rotate, simultaneously drives the sixteenth transmission wheel 5024 to rotate, and drives the seventeenth transmission wheel 5025 to rotate by the sixteenth transmission wheel 5024, further driving the eighteenth driving wheel 5026 to rotate and simultaneously driving the eighth flat gear 5027 to rotate, driving the nineteenth driving wheel 5028 to rotate through the rotation of the eighteenth driving wheel 5026, further driving the ninth flat gear 5029 to rotate and simultaneously driving the twentieth driving wheel 5030 to rotate, driving the twenty-first driving wheel 5031 to rotate through the rotation of the twentieth driving wheel 5030, further driving the tenth flat gear 5032 to rotate, wherein the gear teeth 5034 sequentially engages with the first flat gear 506, the second flat gear 509, the third flat gear 5011, the fourth flat gear 5015, the fifth flat gear 5017, the sixth flat gear 5021, the seventh flat gear 5023, the eighth flat gear 5027, the ninth flat gear 5029 and the tenth flat gear 5032, the fixed bracket 5033 plays a supporting role, and synchronously drives the first connecting bracket 5035 to slide on the outer surface of the first sliding rod 5036 through the movement of the gear teeth 5034, so that the first connecting bracket 5 drives the second connecting bracket 5047 to synchronously slide on the outer surface of the third sliding rod 50349 through the second connecting rod 5038, further, the cog plate 5034, the first coupling bracket 5035, the first pressing rod 5037, the sliding base 5039, the fixed column 5040, the micro motor 5041, the eleventh flat gear 5042, the twelfth flat gear 5043, the coupling shaft 5044, the cutting bracket 5045, the sixth electric push rod 5046, the second coupling bracket 5047 and the second pressing rod 5048 are moved simultaneously, the sliding base 5039 is pulled by the sixth electric push rod 5046 to slide on the second sliding rod 5038, the fixed column 5040, the micro motor 5041, the eleventh flat gear 5042, the twelfth flat gear 5043, the coupling shaft 5044 and the cutting bracket 5045 are moved simultaneously, the position of the cutting bracket 5045 is adjusted by the movement of the sliding base 5039, the eleventh flat gear 5042 is rotated by the micro motor 5041, the twelfth flat gear 5043 is engaged with the eleventh flat gear 5043 to rotate by the eleventh flat gear 5044, the coupling 5044 is rotated synchronously, the cutting bracket 5045 is rotated by the coupling 5044, the cutting direction of the inner blade of the cutting frame 5045 is always perpendicular to the section of the cut bamboo by measuring the bending track of the bamboo, the first pressing rod 5037 is driven to move simultaneously when the first connecting frame 5035 moves, the second pressing rod 5048 is driven to move simultaneously when the second connecting frame 5047 moves, the first base 408 is pressed downwards simultaneously by the first pressing rod 5037 and the second pressing rod 5048, the bamboo part at the position of the first base 408 is suspended, the bamboo is cut by the cutting frame 5045, the first pressing rod 5037 and the second pressing rod 5048 move to the designated position and the second base 409 is pressed downwards simultaneously, the first base 408 is restored to the original state, so that the first pressing rod 5037 and the second pressing rod 5048 simultaneously press downwards the third base 4010, the fourth base 4011, the fifth base 4012 and the sixth base 4013 in turn through the first base 50408, the bamboo is cut at the positions of a second base 409, a third base 4010, a fourth base 4011, a fifth base 4012 and a sixth base 4013, and the mechanism realizes the equal division and cutting of the bent bamboo.

The collecting mechanism 6 comprises a material storage cabin 601, a connecting bottom plate 602, a servo motor 603, a seventh electric push rod 604, a first L-shaped plate 605, an eighth electric push rod 606, a second L-shaped plate 607, a first material shifting plate 608, a second material shifting plate 609, a third material shifting plate 6010, a ninth electric push rod 6011, a first material ejecting plate 6012, a tenth electric push rod 6013, a second material ejecting plate 6014 and a connecting rod 6015; a connecting bottom plate 602 is arranged on the side surface of the storage cabin 601; the upper part of the connecting bottom plate 602 is fixedly connected with a servo motor 603; the upper part of the connecting bottom plate 602 is sequentially spliced with a seventh electric push rod 604 and an eighth electric push rod 606; the upper part of the seventh electric push rod 604 is fixedly connected with the first L-shaped plate 605; the upper part of the eighth electric push rod 606 is fixedly connected with the second L-shaped plate 607; an output shaft of the servo motor 603 is fixedly connected with a connecting rod 6015; the outer surface of the connecting rod 6015 is fixedly connected with a first material shifting plate 608, a second material shifting plate 609 and a third material shifting plate 6010 in sequence; a ninth electric push rod 6011 and a tenth electric push rod 6013 are sequentially arranged on one side, away from the material storage cabin 601, of the connecting bottom plate 602; a first ejector plate 6012 is inserted above the ninth electric push rod 6011; a second ejector plate 6014 is inserted above the tenth electric push rod 6013; the storage cabin 601 is connected with the working machine bed plate 1; the first L-shaped plate 605 is connected with the working machine bed plate 1; the second L-shaped plate 607 is connected with the working machine bed plate 1; the ninth electric push rod 6011 is connected with the bed plate 1 of the working machine; the tenth electric push rod 6013 is connected to the bed board 1.

After the bamboo is cut, a ninth electric push rod 6011 is started to push a first ejector plate 6012 upwards, a tenth electric push rod 6013 is started to push a second ejector plate 6014 upwards, the bamboo is lifted to a specified height through the first ejector plate 6012 and the second ejector plate 6014, then a seventh electric push rod 604 and an eighth electric push rod 606 are started to simultaneously pull a connecting bottom plate 602 to move upwards for a specified distance, a first L-shaped plate 605 supports the seventh electric push rod 604, a second L-shaped plate 607 supports the eighth electric push rod 606, then a servo motor 603 is started to drive a connecting rod 6015 to rotate, so as to drive a first material shifting plate 608, a second material shifting plate 609 and a third material shifting plate 6010 to rotate synchronously, the first material shifting plate 608, the second material shifting plate 609 and the third material shifting plate 6010 rotate to lift the bamboo, then the upper surfaces of the first material shifting plate 608, the second material shifting plate 609 and the third material shifting plate 6010 slide down to the storage cabin 601, the bin 601 is then opened manually to remove the cut bamboo, and the mechanism allows for automatic collection of the cut bamboo.

The first base 408 comprises a fixed base 40801, a telescopic column 40802, a spiral spring 40803, a sliding plate 40804, a supporting plate 40805, an infrared emitter 40806, a first arc plate 40807, a second arc plate 40808, a first tension spring 40809, a second tension spring 408010, a limiting seat 408011, a first inclined block 408012 and a second inclined block 408013; the upper part of the fixed base 40801 is fixedly connected with a telescopic column 40802; the upper part of the fixed base 40801 is welded with a spiral spring 40803; the outer surface of the telescopic column 40802 is sleeved with a spiral spring 40803; the upper part of the telescopic column 40802 is fixedly connected with the sliding plate 40804; the upper part of the spiral spring 40803 is fixedly connected with the sliding plate 40804; slide 40804 is slidably connected to support plate 40805; an infrared emitter 40806 is disposed on a side surface of the supporting plate 40805; the upper part of the supporting plate 40805 is fixedly connected with a first arc plate 40807 and a second arc plate 40808 in sequence; the upper part of the supporting plate 40805 is sequentially connected with a first tension spring 40809 and a second tension spring 408010; the upper part of the supporting plate 40805 is rotationally connected with the limiting seat 408011; the first tension spring 40809 and the second tension spring 408010 are both connected with the limiting seat 408011; the upper part of the limiting seat 408011 is fixedly connected with a first inclined block 408012 and a second inclined block 408013 in sequence; the fixed base 40801 is connected with the working machine bedplate 1.

After the bamboo slides down from the lower plate 401, because the bamboo is bent, the outer surface of the bamboo is not completely contacted with the upper surface of the limiting seat 408011, the bamboo stays above one of the first inclined block 408012 and the second inclined block 408013, the bamboo is pressed downwards by the first pressing plate 4016, the second pressing plate 4018, the third pressing plate 4020, the fourth pressing plate 4022 and the fifth pressing plate 4024, so that the bamboo presses the limiting seat 408011, the supporting plate 40805 slides on the sliding plate 40804, the limiting seat 408011 is positioned right below the bamboo, the limiting seat 408011 rotates to be jointed with the bending track of the bamboo, the first tension spring 40809 and the second tension spring 408010 stretch and contract at the same time, the upper surface of the limiting seat 408011 is completely contacted with the lower surface of the bamboo, then the bending degree of the supporting part of the limiting seat 408011 is measured by the cooperation of the infrared emitter 40806 and the first infrared receiver 402, when the first pressing rod 5037 and the second pressing rod 5048 respectively press the first arc 40807 and the second arc plate 808, because five groups of telescopic columns 40802 and spiral springs 40803 are equidistantly arranged between the fixed base 40801 and the sliding plate 40804, five groups of spiral springs 40803 are synchronously compressed, the telescopic columns 40802 support the spiral springs 40803, when the first pressure rod 5037 and the second pressure rod 5048 leave the positions of the first arc plate 40807 and the second arc plate 40808, the limiting seat 408011 is moved upwards to the original position by the elastic restoring force of the spiral springs 40803, when the bamboo is collected after being cut, and the bamboo is separated from the limiting seat 408011, the limiting seat 408011 is restored to the original position by the elastic restoring force of the first tension spring 40809 and the second tension spring 408010 after the bamboo is cut, so as to prepare for processing the next group of bamboos, and the mechanism realizes the measurement and calculation of the bending track of the bent bamboos.

The upper surface of the lower material plate 401 is a slope, and one lower end is close to one side of the first base 408.

The bamboo can be made to automatically slide down to the top of the first base 408, the second base 409, the third base 4010, the fourth base 4011, the fifth base 4012 and the sixth base 4013.

Six groups of blades are arranged inside the cutting frame 5045, one ends of the six groups of blades are connected to one position, and the other ends of the six groups of blades are distributed on the same circumference at equal intervals.

Can equally divide the bamboo and cut, be favorable to the subsequent processing to the bamboo.

The limiting seat 408011 is C-shaped.

The stopper 408011 can be made to conform to the shape of bamboo.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. The utility model provides a crooked bamboo section device with adjustable, is including work machine bed board, elevating sill pillar and operation control screen, characterized by: the device also comprises a curvature measuring and calculating mechanism, a movable cutting mechanism and a collecting mechanism; a group of elevated bottom columns are arranged at four corners below the bed plate of the working machine; the side surface of the working machine tool plate is provided with an operation control screen; the working machine bed plate is connected with the curvature measuring and calculating mechanism; the working machine bed plate is connected with the movable cutting mechanism; the working machine bed plate is connected with the collecting mechanism.

2. The adjustable bamboo slicing device of claim 1, wherein the curvature measuring and calculating mechanism comprises a blanking plate, a first infrared receiver, a second infrared receiver, a third infrared receiver, a fourth infrared receiver, a fifth infrared receiver, a sixth infrared receiver, a first base, a second base, a third base, a fourth base, a fifth base, a sixth base, a support frame plate, a first electric push rod, a first pressing plate, a second electric push rod, a second pressing plate, a third electric push rod, a third pressing plate, a fourth electric push rod, a fourth pressing plate, a fifth electric push rod and a fifth pressing plate; a first infrared receiver, a second infrared receiver, a third infrared receiver, a fourth infrared receiver, a fifth infrared receiver and a sixth infrared receiver are sequentially arranged on the side surface of the blanking plate; a first base is arranged on one side, away from the blanking plate, of the first infrared receiver; a second base is arranged on one side, away from the blanking plate, of the second infrared receiver; a third base is arranged on one side, away from the blanking plate, of the third infrared receiver; a fourth base is arranged on one side, away from the blanking plate, of the fourth infrared receiver; a fifth base is arranged on one side, away from the blanking plate, of the fifth infrared receiver; a sixth base is arranged on one side, away from the blanking plate, of the sixth infrared receiver; a support frame plate is arranged above the first base; a first electric push rod, a second electric push rod, a third electric push rod, a fourth electric push rod and a fifth electric push rod are sequentially arranged below the support frame plate; the lower part of the first electric push rod is inserted into the first pressure plate; the lower part of the second electric push rod is inserted into the second pressure plate; the lower part of the third electric push rod is inserted with the third pressure plate; the lower part of the fourth electric push rod is inserted with the fourth pressing plate; the lower part of the fifth electric push rod is inserted into the fifth pressing plate; the blanking plate is connected with the working machine tool plate; the first base is connected with the working machine tool plate; the second base is connected with the working machine tool plate; the third base is connected with the working machine tool plate; the fourth base is connected with the working machine tool plate; the fifth base is connected with the working machine tool plate; the sixth base is connected with the working machine tool plate; the support frame plate is connected with the working machine tool plate.

3. The adjustable type device for bending bamboo slices as claimed in claim 2, wherein the movable cutting mechanism comprises a stepping motor, a first driving wheel, a second driving wheel, a third driving wheel, a fourth driving wheel, a first flat gear, a fifth driving wheel, a sixth driving wheel, a second flat gear, a seventh driving wheel, a third flat gear, an eighth driving wheel, a ninth driving wheel, a tenth driving wheel, a fourth flat gear, an eleventh driving wheel, a fifth flat gear, a twelfth driving wheel, a thirteenth driving wheel, a fourteenth driving wheel, a sixth flat gear, a fifteenth driving wheel, a seventh flat gear, a sixteenth driving wheel, a seventeenth driving wheel, an eighteenth driving wheel, an eighth flat gear, a nineteenth driving wheel, a ninth flat gear, a twentieth driving wheel, a twenty-first driving wheel, a tenth flat gear, a fixed frame, a toothed plate, a first coupling frame, a second driving wheel, a third driving wheel, the cutting machine comprises a first sliding rod, a first pressure rod, a second sliding rod, a sliding base, a fixed column, a micro motor, an eleventh flat gear, a twelfth flat gear, a connecting shaft rod, a cutting frame, a sixth electric push rod, a second connecting frame, a second pressure rod, a third sliding rod, a thirteenth flat gear and a twenty-second transmission wheel; an output shaft of the stepping motor is fixedly connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the axle center of the second driving wheel is fixedly connected with the third driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the third driving wheel is fixedly connected with the thirteenth flat gear; the axle center of the fourth driving wheel is fixedly connected with the twenty-second driving wheel; the axle center of the fourth driving wheel is fixedly connected with the first flat gear; the axle center of the fifth driving wheel is fixedly connected with the sixth driving wheel; the axle center of the sixth driving wheel is fixedly connected with the second flat gear; the outer ring surface of the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the axle center of the seventh driving wheel is fixedly connected with the third horizontal gear; the axle center of the seventh driving wheel is fixedly connected with the eighth driving wheel; the outer ring surface of the eighth driving wheel is in transmission connection with the ninth driving wheel through a belt; the axle center of the ninth driving wheel is fixedly connected with the tenth driving wheel; the axle center of the tenth driving wheel is fixedly connected with the fourth flat gear; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the axle center of the eleventh transmission wheel is fixedly connected with the fifth flat gear; the axle center of the eleventh transmission wheel is fixedly connected with the twelfth transmission wheel; the outer ring surface of the twelfth driving wheel is in transmission connection with the thirteenth driving wheel through a belt; the axle center of the thirteenth driving wheel is fixedly connected with the fourteenth driving wheel; the shaft center of the fourteenth driving wheel is fixedly connected with the sixth flat gear; the outer ring surface of the fourteenth driving wheel is in transmission connection with the fifteenth driving wheel through a belt; the shaft center of the fifteenth transmission wheel is fixedly connected with the seventh flat gear; the axis of the fifteenth driving wheel is fixedly connected with the sixteenth driving wheel; the outer ring surface of the sixteenth driving wheel is in transmission connection with the seventeenth driving wheel through a belt; the axle center of the seventeenth driving wheel is fixedly connected with the eighteenth driving wheel; the axle center of the eighteenth driving wheel is fixedly connected with the eighth flat gear; the outer ring surface of the eighteenth driving wheel is in transmission connection with the nineteenth driving wheel through a belt; the axle center of the nineteenth driving wheel is fixedly connected with the ninth flat gear; the axle center of the nineteenth driving wheel is fixedly connected with the twentieth driving wheel; the outer ring surface of the twentieth driving wheel is in transmission connection with the twenty-first driving wheel through a belt; the axle center of the twenty-first driving wheel is fixedly connected with the tenth flat gear; the lower part of the stepping motor is fixedly connected with the fixed frame; the lower part of the thirteenth flat gear is meshed with the gear tooth plate; the pinion plate is welded with the first connecting frame; the inside of the first connecting frame is in sliding connection with the first sliding rod; the lower part of the first connecting frame is welded with the first pressure lever; the side surface of the first connecting frame is welded with the second sliding rod; the outer surface of the second sliding rod is in sliding connection with the sliding base; two groups of fixing columns are arranged below the sliding base; the two fixing columns are fixedly connected with the micro motor; the output shaft of the micro motor is fixedly connected with the eleventh flat gear; the eleventh flat gear is meshed with the twelfth flat gear; the shaft center of the twelfth flat gear is fixedly connected with the connecting shaft rod; the upper part of the connecting shaft rod is rotationally connected with the sliding base; the lower part of the connecting shaft lever is fixedly connected with the cutting frame; the side surface of the sliding base is inserted with a sixth electric push rod; one side of the sixth electric push rod, which is far away from the sliding base, is fixedly connected with the second connecting frame; the lower part of the second connecting frame is welded with a second pressure lever; the inside of the second connecting frame is in sliding connection with the third slide bar; the first sliding rod is connected with the working machine tool plate; the third slide bar is connected with the working machine tool plate.

4. The adjustable device for bending bamboo slices as claimed in claim 3, wherein the collecting mechanism comprises a stock bin, a connecting bottom plate, a servo motor, a seventh electric push rod, a first L-shaped plate, an eighth electric push rod, a second L-shaped plate, a first material shifting plate, a second material shifting plate, a third material shifting plate, a ninth electric push rod, a first material ejecting plate, a tenth electric push rod, a second material ejecting plate and a connecting rod; a connecting bottom plate is arranged on the side surface of the storage cabin; the upper part of the connecting bottom plate is fixedly connected with a servo motor; the upper part of the connecting bottom plate is sequentially spliced with a seventh electric push rod and an eighth electric push rod; the upper part of the seventh electric push rod is fixedly connected with the first L-shaped plate; the upper part of the eighth electric push rod is fixedly connected with the second L-shaped plate; the output shaft of the servo motor is fixedly connected with the connecting rod; the outer surface of the connecting rod is fixedly connected with the first material shifting plate, the second material shifting plate and the third material shifting plate in sequence; a ninth electric push rod and a tenth electric push rod are sequentially arranged on one side, far away from the material storage cabin, of the connecting bottom plate; the upper part of the ninth electric push rod is inserted into the first ejector plate; the upper part of the tenth electric push rod is inserted into the second ejector plate; the storage cabin is connected with the working machine tool plate; the first L-shaped plate is connected with the working machine tool plate; the second L-shaped plate is connected with the working machine tool plate; the ninth electric push rod is connected with the working machine tool plate; the tenth electric push rod is connected with the working machine tool plate.

5. The adjustable type bending bamboo slicing device as claimed in claim 4, wherein the first base comprises a fixed base, a telescopic column, a spiral spring, a sliding plate, a supporting plate, an infrared emitter, a first arc plate, a second arc plate, a first tension spring, a second tension spring, a limiting seat, a first inclined block and a second inclined block; the upper part of the fixed base is fixedly connected with the telescopic column; the upper part of the fixed base is welded with the spiral spring; the outer surface of the telescopic column is sleeved with the spiral spring; the upper part of the telescopic column is fixedly connected with the sliding plate; the upper part of the spiral spring is fixedly connected with the sliding plate; the sliding plate is connected with the supporting plate in a sliding manner; an infrared emitter is arranged on the side surface of the supporting plate; the upper part of the supporting plate is fixedly connected with the first arc plate and the second arc plate in sequence; the upper part of the supporting plate is sequentially connected with a first tension spring and a second tension spring; the upper part of the supporting plate is rotationally connected with the limiting seat; the first tension spring and the second tension spring are both connected with the limiting seat; the upper part of the limiting seat is fixedly connected with the first inclined block and the second inclined block in sequence; the fixed base is connected with the working machine tool plate.

6. An adjustable curved bamboo slicing apparatus as claimed in claim 5 wherein the lower plate has an upper surface which is inclined and a lower end which is adjacent to a side of the first base.

7. An adjustable curved bamboo slicing device as claimed in claim 6 wherein six sets of blades are provided inside the cutting frame and connected together at one end and equally spaced around the same circumference at the other end.

8. An adjustable curved bamboo slicing apparatus as claimed in claim 7 wherein the limiting seat is C-shaped.