CN217598934U - Automatic bamboo strip bundling production line - Google Patents

Abstract

An automatic bamboo batten bundling production line comprises a rack and a feeding mechanism which is arranged on the rack and used for receiving a preset number of bamboo battens and stacking the bamboo battens one by one for temporary storage, wherein the preset number of bamboo battens form a group of bamboo battens; the bamboo strip bundling machine further comprises a lifting and splicing mechanism for lifting and splicing the two groups of bamboo strips to form bamboo strips to be bundled, a bundling mechanism for bundling the bamboo strips to be bundled and a stacking mechanism for receiving the bamboo strips bundled on the bundling mechanism. The bamboo strip bundling device is ideal and ingenious in structural design, can achieve automatic feeding, stacking and temporary storage of bamboo strips, automatically lift and splice two groups of bamboo strips to form bamboo strips to be bundled, automatically bundle the bamboo strips to be bundled and automatically stack and discharge the bundled bamboo strips, is fully automatically operated in the whole bundling process, continuously conveys the bamboo strips, and greatly improves bamboo strip bundling efficiency. The bamboo strip bundling machine is particularly suitable for bamboo strips subjected to the rough planing process, so that the bamboo strips discharged by the rough planing process are directly bundled, and the smooth operation of strip conveying in the preliminary planing process can be ensured.

Description

Automatic bamboo strip bundling production line

Technical Field

The utility model relates to a bind the field to the bamboo strip, specifically indicate an automatic production line of tying of bamboo strip.

Background

The moso bamboo is the bamboo species which is long cultivated in China, has the widest area and the most important economic value. The bamboo strip made of the moso bamboo is widely applied to life and can be made into various artworks, furniture, articles for daily use and the like. The method comprises the steps of cutting longer moso bamboos into shorter moso bamboo tubes, then slicing the moso bamboo tubes, and machining to form long-strip bamboo slices (namely bamboo strips) with certain specification and size and basically rectangular cross sections, wherein the bamboo strips are generally subjected to rough planing and then need to be bound together according to a certain rule (generally, one group of 5 bamboo strips is used, and every two groups of yellow surfaces are bound together relatively). This bundle process often adopts artifical manual completion, wastes time and energy, and labour's price increases year by year moreover, and the bamboo processing enterprise has the demand to replace this part of manual work into mechanical equipment that can automize and carry out.

The traditional bamboo strip bundling is that workers manually stack bamboo strips into bundles and bundle the bamboo strips by using nylon ropes, the bamboo strips are not easy to straighten and disperse during bundling, the bundling effect is not good, and the defects of high labor intensity of the workers, extremely low working efficiency and the like are overcome. Some bundling mechanical devices are also available in the market at present, and the bundling mechanical devices generally can realize the bundling function, but the bundling mechanical devices are relatively complex in structure, high in cost and relatively complex in operation of workers; the debugging difficulty of the existing bundling mechanical equipment easily causes that the strip feeding of the rough planing process can not be continuously carried out, and the working efficiency can not be improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic production line of bundling of bamboo strip, its aim at mainly overcome current bundle mechanical equipment structure complicacy, cause the strip of sending of rough planing process to go on in succession easily, shortcoming such as with high costs moreover.

In order to solve the technical problem, the technical scheme of the utility model as follows:

an automatic bamboo batten bundling production line comprises a rack and a feeding mechanism which is arranged on the rack and used for receiving a preset number of bamboo battens and stacking the bamboo battens one by one for temporary storage, wherein the preset number of bamboo battens form a group of bamboo battens; the bamboo binding machine also comprises a lifting and splicing mechanism for lifting and splicing the two groups of bamboo strips on the feeding mechanism to form bamboo strips to be bound, a binding mechanism for binding the bamboo strips to be bound on the lifting and splicing mechanism, and a stacking mechanism for receiving the bamboo strips bound on the binding mechanism; the feeding mechanism comprises a feeding groove body used for receiving a preset number of bamboo strips, a feeding hole is formed in the front end of the feeding groove body, the preset number of bamboo strips enter the feeding groove body from the feeding hole one by one to be stacked and temporarily stored, and the feeding groove body is provided with a top surface opening which horizontally lifts and discharges each group of bamboo strips; the lifting splicing mechanism comprises a lifting frame for sequentially lifting two groups of bamboo splints in the feeding tank body and an overturning splicing frame for splicing the two groups of bamboo splints on the lifting frame to form bamboo splints to be bundled; the binding mechanism comprises a binding machine for binding the bamboo strips to be bound and a pulling-out assembly for transmitting the bamboo strips to be bound on the turnover splicing frame to the binding machine; the stacking mechanism comprises a conveying belt and a pushing assembly, wherein the conveying belt is used for receiving the bundled bamboo strips on the bundling machine after the bundling operation is finished, and the pushing assembly is used for pushing the bundled bamboo strips on the conveying belt out to stack and store the bundled bamboo strips.

Further say, the feeding cell body is inside communicating sectional type cell body, and this sectional type cell body includes left unit cell body, right side unit cell body and is located between left and right unit cell body and at least one middle unit cell body, forms a clamping jaw that is used for the lifting frame between this middle unit cell body and the left unit cell body and grasps a set of bamboo strip and can be with the vertical passageway in a left side that this a set of bamboo strip one end upwards promoted, forms another clamping jaw that is used for the lifting frame between this middle unit cell body and the right unit cell body and grasps a set of bamboo strip and can be with the vertical passageway in a right side that this a set of bamboo strip other end upwards promoted, the feed inlet is located the right side of right unit cell body, the left side of left side unit cell body is equipped with and is used for carrying out the left baffle that spacing blockked to bamboo strip one end.

Furthermore, the number of the middle unit groove bodies is two, and a middle vertical channel which is used for enabling the other clamping jaw of the lifting frame to grab a group of bamboo strips and can lift the middle parts of the group of bamboo strips upwards is formed between the two middle unit groove bodies.

Further say, feed mechanism still includes top push wheel subassembly, this top push wheel subassembly is including the bottom that is located the feed inlet and the extension bottom plate that extends right, rotationally install on the extension bottom plate and be used for bamboo strip one end to set up the top push wheel on it and be located the both sides of extending the bottom plate and all be two stands of T style of calligraphy, the bottom of these two stands all is connected through the axle center of horizontal axis with top push wheel, this horizontal axis is located and extends the bottom plate bottom, the cover is equipped with return spring on every guide post, these two return springs are located and extend the bottom plate top.

Furthermore, the lifting frame comprises a lifting beam and at least two lifting vertical beams which are arranged on the lifting beam and are arranged at intervals left and right, each lifting vertical beam is provided with an upper clamping jaw and a lower clamping jaw, the upper clamping jaw and the lower clamping jaw are arranged at intervals up and down and are used for grabbing a group of bamboo strips on the feeding groove body firstly and grabbing another group of bamboo strips on the feeding groove body secondly, and the upper clamping jaw and the lower clamping jaw can be opened or closed; the lifting frame further comprises a vertical oil cylinder which is arranged on the frame and drives the lifting beam to lift.

Furthermore, the overturning splicing frame comprises an upper splicing clamping jaw and a lower splicing clamping jaw which are matched with the upper clamping jaw and the lower clamping jaw and can drive the two groups of bamboo strips to do 90-degree overturning and closing actions, so that the two groups of bamboo strips are spliced into the required bamboo strips to be bundled; the device also comprises an upper overturning pushing component and a lower overturning pushing component which respectively drive the upper splicing clamping jaw and the lower splicing clamping jaw to do 90-degree overturning actions and are arranged at intervals up and down.

Furthermore, the upper turning pushing group comprises an upper movable shaft, an upper rotating shaft which turns downwards by 90 degrees by taking the upper movable shaft as an axis, a first base plate which is sleeved between the upper movable shaft and the upper rotating shaft and is positioned on the left side, and a second base plate which is positioned on the right side, wherein the first base plate and the second base plate are both provided with upper splicing clamping jaws; lower upset promotes group and includes that the loose axle and following loose axle do 90 lower rotating shaft and the cover of upset upwards for the axis and establish down between loose axle and the lower rotating shaft and be located left third base plate and the fourth base plate that is located the right side, all installed down the concatenation clamping jaw on this third, the four base plates.

Further, the binding machine comprises a binding main body positioned between the lifting splicing mechanism and the stacking mechanism and a door-shaped binding opening arranged on the binding main body; the drawing-off assembly comprises two drawing-off wheels which are positioned at one side of the binding opening and are arranged at intervals, and a drawing-off channel for bamboo strips to be bundled is formed between the two drawing-off wheels.

From the above description of the present invention, compared with the prior art, the advantages of the present invention lie in: the structure and the method of the bamboo strip bundling device are ideal and ingenious in design, can achieve automatic feeding, stacking and temporary storage of the bamboo strips, automatic lifting and splicing of the two groups of bamboo strips to form bamboo strips to be bundled, automatic bundling of the bamboo strips to be bundled and automatic stacking and discharging of the bundled bamboo strips, the whole bundling process is fully automatically operated, bamboo strip feeding is continuously carried out, and bamboo strip bundling efficiency is greatly improved. The bamboo strip bundling device is particularly suitable for automatically bundling bamboo strips subjected to the rough-planing process, so that the bamboo strips discharged through the rough-planing process are directly bundled, and the smooth operation of strip conveying in the preliminary-planing process can be ensured. The bundling equipment has the advantages of simple structure and low cost, each action of the bundling equipment in operation is well connected and reacts quickly, the control logic of bundling operation is strong, and the bundling equipment can be adjusted properly according to the needs of users easily.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure and a partially enlarged view of the present invention.

Fig. 2 is a schematic view of the main viewing direction of the present invention.

Fig. 3 is a schematic view of the feeding tank of the present invention.

Fig. 4 is a schematic view of the feed inlet of the feed tank of the present invention, wherein the bamboo strips do not enter the feed inlet.

Fig. 5 is a schematic view of the feed inlet of the feed tank of the present invention, wherein the previous bamboo strip has entered the feed inlet.

Fig. 6 is a schematic view of the cooperation between the feeding trough body and the lifting frame.

Fig. 7 is a schematic view of the middle lifting frame of the present invention, wherein the power mechanism is not shown.

Fig. 8 is the utility model discloses well lifting frame and upset between the splice frame complex spatial structure sketch map.

Fig. 9 is the utility model discloses the cooperation between well lifting frame and the upset concatenation frame looks sideways at the schematic diagram of direction.

Fig. 10 is a schematic perspective view of the present invention, wherein the stacking mechanism is not shown.

Fig. 11 is a schematic view of the cooperation between the bundling mechanism and the stacking mechanism according to the present invention.

Fig. 12 is a schematic view of the front view of the present invention with a transfer vehicle.

Fig. 13 is a schematic view of the cooperation between the transfer platform and the transfer trolley according to the present invention.

Fig. 14 is a schematic view of a free-standing frame structure formed by two vertical frames and a bottom frame in the automatic bamboo strip bundling production line.

Fig. 15 is a schematic view of another modeling and binding mechanism in the automatic bamboo cane bundling production line.

Detailed Description

The following describes a specific embodiment of the present invention with reference to fig. 1 to 12.

Reference is made to figures 1, 2 and 4 of the drawings. An automatic bamboo batten bundling production line comprises a rack 1 and a feeding mechanism 3 which is arranged on the rack 1 and used for receiving a preset number of bamboo battens 2 and stacking and temporarily storing the bamboo battens one by one, wherein the preset number of bamboo battens 2 form a group of bamboo battens; the bamboo strip bundling machine is characterized by further comprising a lifting and splicing mechanism 4 for lifting two groups of bamboo strips on the feeding mechanism 3 and splicing the two groups of bamboo strips to form bamboo strips to be bundled, a bundling mechanism 5 for bundling the bamboo strips to be bundled on the lifting and splicing mechanism 4, a stacking mechanism 6 for receiving the bamboo strips bundled on the bundling mechanism 5 and a controller, wherein the feeding mechanism 3, the lifting and splicing mechanism 4, the bundling mechanism 5 and the stacking mechanism 6 are all controlled by the controller. This bundle equipment structural design ideal and ingenious can realize that the automatic feed of bamboo strip 2 piles up and keeps in, promotes two sets of bamboo strips automatically and splices it and forms and treat bundle bamboo strip, treats automatically that bundle bamboo strip ties up the operation and bundle bamboo strip automatic stacking discharge, and whole bundling process full automation operation, send the bamboo strip to go on in succession, and bamboo strip ties up efficiency and is promoted widely.

Reference is made to figures 1, 2 and 3. Feed mechanism 3 is including being used for receiving the feed tank body 31 of predetermineeing the bamboo strip of quantity (as 5) and installing in feed tank body 31 one side and be used for responding to the bamboo strip quantity in feed tank body 31 and whether reach the inductor 30 (as photoelectric sensing ware) of predetermineeing quantity, this feed tank body 31 front end is equipped with feed inlet 32, the bamboo strip 2 of predetermineeing quantity enters into from feed inlet 32 one by one and piles up the temporary storage to feed tank body 31 in, and this feed tank body 31 is equipped with and promotes every group bamboo strip level ground exhaust top surface opening 37.

Reference is made to figures 1 and 3. The feeding trough body 31 is in a strip shape, and the width of the inner cavity of the feeding trough body 31 is equal to or slightly larger than the width of the bamboo strips 2. The top surface opening 32 is provided with a cover plate 33, one side of the cover plate 33 is connected with one side of the top surface of the feeding groove body 31 through a hinge 35, and the other side of the cover plate 33 is movably erected on the other side of the top surface. The cover plate 33 plays an auxiliary role in the whole process, prevents the bamboo splints 2 which are too large in bending from easily being influenced by the reaction force of the local area of the bamboo splints 2 in the process of stretching into the feeding groove body 31 from the feeding hole 32, and avoids the bamboo splints 2 from warping out of the feeding groove body 31 and even dropping.

Reference is made to fig. 3, 6 and 7. The feed tank body 31 is a sectional tank body with communicated inner parts, the sectional tank body comprises a left unit tank body 311, a right unit tank body 312 and two middle unit tank bodies 313 positioned between the left unit tank body 311 and the right unit tank body 312, a clamping jaw 411 for lifting the frame 41 is formed between the middle unit tank body 313 and the left unit tank body 311 to grasp a group of bamboo strips and a left vertical channel 314 capable of upwards lifting one end of the group of bamboo strips, another clamping jaw 412 for lifting the frame 41 is formed between the middle unit tank body 313 and the right unit tank body 312 to grasp a group of bamboo strips and a right vertical channel 315 capable of upwards lifting the other end of the group of bamboo strips, the feed port 32 is positioned on the right side of the right unit tank body 312, and the left side of the left unit tank body 311 is provided with a left baffle 316 for limiting and blocking one end of a bamboo strip 2. The two middle unit groove bodies 313 form a middle vertical channel 317 which is used for the other clamping jaw 413 of the lifting frame 41 to grasp a group of bamboo strips and can lift the middle part of the group of bamboo strips upwards.

In addition, the number of the intermediate unit groove bodies 313 is one or three or other suitable numbers.

Reference is made to fig. 3, 4 and 5. The feeding mechanism 3 further comprises a top pushing wheel assembly 36, the top pushing wheel assembly 36 comprises an extending bottom plate 361 which is located at the bottom of the feeding hole 32 and extends rightwards, a top pushing wheel 362 which is rotatably installed on the extending bottom plate 361 and used for enabling one end of the bamboo strip 2 to be erected on the extending bottom plate, and two upright posts 363 which are located on two sides of the extending bottom plate 361 and are in a T shape, the bottoms of the two upright posts 363 are connected with the axis of the top pushing wheel 362 through a horizontal shaft 364, the horizontal shaft 364 is located at the bottom of the extending bottom plate 361, a return spring 365 is sleeved on each guiding upright post 363, and the two return springs 365 are located at the top of the extending bottom plate 361. When the feed inlet 32 of the feeding mechanism 3 is abutted to the discharge outlet of the rough planing machine, the bamboo strips 2 are pushed out from the discharge outlet of the rough planing machine and conveyed to the extension bottom plate 361 after being roughly planed by the rough planing machine, when the bamboo strips 2 are conveyed to the feed inlet 32, the downward pressing force of the pushing wheel 362 due to the self weight and the forward impact force is enough to press down the pushing wheel 362 of the pushing wheel assembly 36, so that the bamboo strips 2 are given a space to enter the feed inlet 32, when the tail ends of the whole bamboo strips 2 are lapped on the pushing wheel 362, the tail ends of the bamboo strips 2 are not enough to press down the pushing wheel 362, at this time, the pushing wheel 362 is lifted upwards under the reaction force of the two return springs 365 to provide a space for the next bamboo strip 2 to enter, and therefore, the next bamboo strip 2 can be inserted into the bottom of the previous bamboo strip 2, and the automatic stacking and temporary storage of the preset number of bamboo strips 2 is completed.

Reference is made to figures 1, 8 and 9. The lifting splicing mechanism 4 comprises a lifting frame 41 for successively lifting two groups of bamboo strips in the feeding groove body 31 and a turnover splicing frame 42 for splicing the two groups of bamboo strips on the lifting frame 41 to form bamboo strips to be bundled. The lifting frame 41 comprises a lifting beam 411 and at least two lifting vertical beams 412 which are arranged on the lifting beam 411 and arranged at intervals left and right, each lifting vertical beam 412 is provided with an upper clamping jaw 413 which is arranged at intervals up and down and used for grabbing a group of bamboo strips on the feeding trough body 31 firstly and a lower clamping jaw 414 which is used for grabbing the other group of bamboo strips on the feeding trough body 31 secondly, and both the upper clamping jaw 413 and the lower clamping jaw 414 can be opened or closed; the lifting frame 41 further comprises a vertical cylinder 415 (or air cylinder) mounted on the frame 1 and driving the lifting beam 411 to perform a lifting action. The overturning splicing frame 42 comprises an upper splicing clamping jaw 421 and a lower splicing clamping jaw 422 which are matched with the upper clamping jaw 413 and the lower clamping jaw 414 and can drive the two groups of bamboo strips to do 90-degree overturning and closing actions, so that the two groups of bamboo strips are spliced into the required bamboo strips to be bundled; the device also comprises an upper overturning pushing component 423 and a lower overturning pushing component 424 which respectively drive the upper splicing clamping jaw 421 and the lower splicing clamping jaw 422 to do 90-degree overturning actions and are arranged at intervals up and down.

Reference is made to figures 1, 2 and 8. The upper flipping pushing group 423 includes an upper movable shaft 425, an upper rotating shaft 426 flipping downward by 90 ° around the upper movable shaft 425, and a first base plate 427 disposed on the left side and a second base plate 428 disposed on the right side and sleeved between the upper movable shaft 425 and the upper rotating shaft 426, wherein the first and second base plates 427, 428 are both provided with upper splicing jaws 421; the lower turnover pushing assembly 424 and the upper turnover pushing assembly 423 are identical in structure and are different in position, the lower turnover pushing assembly 424 includes a lower movable shaft, a lower movable shaft which is turned upwards by 90 ° with the lower movable shaft as an axis, a third base plate which is sleeved between the lower movable shaft and is located on the left side, and a fourth base plate which is located on the right side, and the third base plate and the fourth base plate are both provided with lower splicing clamping jaws 422.

Reference is made to figures 1, 8 and 9 of the drawings. The utility model provides an automatic bundle production line of tying of bamboo strip, still includes and installs respectively at last, on loose axle 425 and the lower loose axle and carry out the upper and lower translation subassembly of translation adjustment to two sets of bamboo strips, this lower translation subassembly is including the lower movable block 43 of cover establishing at lower loose axle, fix the first dull and stereotyped 44 on the loose piece 43 down, fix the second dull and stereotyped 45 on first dull and stereotyped 44 and fix the lower horizontal cylinder on frame 1, the piston rod 46 of this horizontal cylinder is fixed on second dull and stereotyped 45 down to can pull down the fore-and-aft translation action of loose axle, connect down upset cylinder 47 between lower loose axle and the first dull and stereotyped 44 bottom, the rear portion swing joint of this lower upset cylinder 47 is on first dull and stereotyped 44 bottom, the piston rod of this lower upset cylinder 47 is connected down with the rotating shaft through a slider. The upper translation assembly and the lower translation assembly are identical in structure and are different in position, the upper translation assembly comprises an upper movable block sleeved on an upper movable shaft 425, a first upper flat plate fixed on the upper movable block, a second upper flat plate fixed on the first upper flat plate and an upper horizontal cylinder fixed on a rack, a piston rod of the upper horizontal cylinder is fixed on the second upper flat plate and can pull the upper movable shaft to perform forward and backward translation movement, an upper overturning cylinder is connected between the bottom of the upper movable shaft and the bottom of the first upper flat plate, the rear part of the upper overturning cylinder is movably connected to the bottom of the first upper flat plate, and the piston rod of the upper overturning cylinder is connected with the upper movable shaft through a sliding block.

Reference is made to fig. 1, 2, 10 and 11. The binding mechanism 5 comprises a binding machine 51 for binding the bamboo strips to be bound and a pulling-out assembly 52 for transferring the bamboo strips to be bound on the turnover splicing frame 42 to the binding machine 51. The binding machine 51 comprises a binding main body 511 positioned between the lifting and splicing mechanism 4 and the stacking mechanism 6 and a door-shaped binding opening 512 arranged on the binding main body 511; the drawing-off assembly 52 comprises two drawing-off wheels which are arranged at intervals at one side of the binding opening 512, and a drawing-off channel 520 for the bamboo strips to be bound is formed between the two drawing-off wheels.

Reference is made to fig. 1, 2, 10 and 11. The number of the drawing assemblies 52 is two, and the two sets of drawing assemblies 52 are located on the left and right sides of the bundling opening 512, one drawing wheel of each set of drawing assemblies 52 is a drawing fixed wheel 521, the other drawing wheel of each set of drawing assemblies 52 is a drawing movable wheel 522, the drawing fixed wheel 521 is driven to rotate by a power source (such as a motor), and the drawing movable wheel 522 can be adjusted to move left and right relative to the drawing fixed wheel 521.

Reference is made to fig. 1, 2, 10 and 11. The left side and the right side of the bundling main body 511 are respectively provided with a vertical frame 53, each vertical frame 53 is fixed with a horizontally arranged slide block guide rail 531, the slide block guide rail 531 is provided with a translation slide block 532 capable of sliding left and right on the slide block guide rail 531, the translation slide block 532 is provided with a movable vertical shaft 533, the drawing and separating wheel 522 is rotatably arranged on the movable vertical shaft 533, the movable vertical shaft 533 is connected with a piston rod of a pushing oil cylinder 534, and the drawing and separating wheel 522 can be in press fit with one side wall of the bamboo strip to be bundled in a mode that the pushing oil cylinder 532 pushes the movable vertical shaft 533 to slide left and right on the slide block guide rail 531. The drawing fixed wheel 521 starts to rotate after the drawing movable wheel 522 presses one side wall of the bamboo strips to be bundled, so that the bamboo strips to be bundled are drawn out from the turnover splicing frame 42. The drawing fixed wheel 521 can intermittently rotate, and when the bamboo strips to be bundled are drawn out for a certain distance (namely preset reaching positions such as a front end position, a middle position and a rear end position), the binding machine 51 performs binding operation on the bamboo strips to be bundled, and finally the bamboo strips to be bundled are drawn out after being bundled and formed. A bottom frame 54 is further connected between the two vertical frames 53, and the strapping body 511 is positioned between the two vertical frames 53 and placed on the bottom frame 54.

In addition, refer to fig. 14 and 15. The two vertical frames 53 and the bottom frame 54 can form an independent frame structure, the independent frame structure comprises an upper layer structure and a lower layer structure, the lower layer 55 is used for placing a power source for driving the drawing fixed wheel 521, and the power source comprises a motor 561, a speed reducer 562 connected with an output shaft of the motor 561 and a horizontal rotating shaft 563 inserted into the speed reducer 562; the upper layer 57 is used for placing the strapping body 511, the two drawing fixed wheels 521 are respectively connected with a vertical rotating shaft 58, and the two drawing fixed wheels 521 are respectively in transmission connection with the motor 561 through a reversing gear set 564 between the end parts of the corresponding vertical rotating shaft 58 and the horizontal rotating shaft 563. Adopt two vertical frames 53 and underframe 54 to constitute the design of free-standing frame construction for strapper 51 puts more steadily, and equipment transport is convenient simultaneously. The power source can realize a one-driving-two transmission mode, and the spatial arrangement is more reasonable and energy-saving. In addition, the left baffle 316 of the left unit groove 311 may be replaced by a baffle 316 'provided on the vertical frame 53 near the right side, that is, the left side of the left unit groove 311 is an open through opening, the upper half section of the baffle 316' is an arc-shaped section 3160 'slightly inclined outward, and the outward inclination radian of the arc-shaped section 3160' is controlled to be 3-8 ° (e.g., radian is 5 °). The upper half section of the baffle 316 'adopts the design of the arc-shaped section 3160', so that when each group of bamboo strips is lifted upwards, the end part of each group of bamboo strips is leveled, and when each group of bamboo strips is lifted upwards, the end part of each group of bamboo strips is more tidy.

Reference is made to figures 1, 2 and 11. The stacking mechanism 6 includes a conveyor belt for receiving the bundled bamboo strips from the bundling machine 51 and a pushing assembly 61 for pushing the bundled bamboo strips out of the conveyor belt for stacking and storing. The conveying belt comprises a conveying platform and a plurality of rollers 62 which are arranged on the conveying platform and are sequentially arranged horizontally at intervals, and two end parts of each roller 62 are rotatably connected to the conveying platform 61 through bearings 63; the pushing assembly 61 comprises a side bracket 63 located on one side of the conveying platform and a push rod 64 arranged on the side bracket 63, the push rod 64 is driven to eject and collect bamboo strips from one side of the conveying platform 61, and workers can directly carry the bamboo strips in the subsequent process.

Reference is made to fig. 1, 2 and 11. The number of the pushing assemblies 61 is two, the two pushing assemblies 61 are located on the same side of the conveying platform, one pushing assembly 61 is used for pushing the left half section of the bundle of bamboo strips, and the other pushing assembly 61 is used for pushing the right half section of the bundle of bamboo strips. The tail end of the conveying platform is provided with a top baffle 65 for blocking the end part of the bundled bamboo strips. The conveying platform comprises a left supporting seat 66, a right supporting seat 67 and a horizontal track strip 68 which is arranged between the left supporting seat 66 and the right supporting seat 67 in an overlapping mode.

In addition, the stacking mechanism 6 further comprises a transfer trolley 69 which is arranged on one side of the conveying platform and used for receiving the bamboo bundles, the transfer trolley 69 comprises a frame body and a plurality of baffle bars which are arranged on the frame body, the plurality of baffle bars are divided into a plurality of rows, independent inner cavities 692 used for accommodating the bamboo bundles are formed between two adjacent rows of baffle bars 691, the stacking mechanism 6 further comprises a plurality of guide plates 693 which are matched with the independent inner cavities, each guide plate 693 can be lapped between one side of the conveying platform and one row of baffle bars 691 and used for stacking and storing the bamboo bundles along the guide plate 693 into one corresponding independent inner cavity 692, and if one independent inner cavity 692 is full, a worker replaces another guide plate 693 and then stacks and stores in the other corresponding independent inner cavity 692. Reference is made in particular to the description accompanying fig. 12 and 13.

The aforesaid is only the embodiment of the present invention, but the design concept of the present invention is not limited to this, and it is right to utilize this concept the present invention to perform insubstantial modification, and all belong to infringement the protection scope of the present invention.

Claims (8)

1. The utility model provides an automatic bundle production line of bundling of bamboo strip which characterized in that: the bamboo cane stacking device comprises a rack and a feeding mechanism which is arranged on the rack and used for receiving a preset number of bamboo canes and stacking and temporarily storing the bamboo canes one by one, wherein the preset number of bamboo canes form a group of bamboo canes; the bamboo strip bundling machine further comprises a lifting and splicing mechanism for lifting and splicing the two groups of bamboo strips on the feeding mechanism to form bamboo strips to be bundled, a bundling mechanism for bundling the bamboo strips to be bundled on the lifting and splicing mechanism, and a stacking mechanism for receiving the bamboo strips bundled on the bundling mechanism; the feeding mechanism comprises a feeding groove body used for receiving a preset number of bamboo strips, a feeding hole is formed in the front end of the feeding groove body, the preset number of bamboo strips enter the feeding groove body from the feeding hole one by one to be stacked and temporarily stored, and the feeding groove body is provided with a top surface opening which horizontally lifts and discharges each group of bamboo strips; the lifting splicing mechanism comprises a lifting frame for sequentially lifting two groups of bamboo splints in the feeding tank body and an overturning splicing frame for splicing the two groups of bamboo splints on the lifting frame to form bamboo splints to be bundled; the binding mechanism comprises a binding machine for binding the bamboo strips to be bound and a pulling-out assembly for transmitting the bamboo strips to be bound on the turnover splicing frame to the binding machine; the stacking mechanism comprises a conveying belt and a pushing assembly, wherein the conveying belt is used for receiving the bundled bamboo strips on the bundling machine after the bundling operation is finished, and the pushing assembly is used for pushing the bundled bamboo strips on the conveying belt out to stack and store the bundled bamboo strips.

2. The automatic bamboo cane bundling production line as claimed in claim 1, characterized in that: the feeding groove body is inside communicating sectional type cell body, and this sectional type cell body includes left side unit cell body, right side unit cell body and is located a left side, between the right side unit cell body and at least one middle unit cell body, forms a clamping jaw that is used for the lifting frame between this middle unit cell body and the left side unit cell body and grasps a set of bamboo strip and can upwards promote the vertical passageway in a left side with this a set of bamboo strip one end, forms another clamping jaw that is used for the lifting frame between this middle unit cell body and the right side unit cell body and grasps a set of bamboo strip and can upwards promote the vertical passageway in the right side with this a set of bamboo strip other end, the feed inlet is located the right side of right side unit cell body, the left side of left side unit cell body is equipped with and is used for carrying out the left baffle that spacing blockked to bamboo strip one end.

3. The automatic bamboo cane bundling production line of claim 2, characterized in that: the number of the middle unit groove bodies is two, and a middle vertical channel which is used for enabling the other clamping jaw of the lifting frame to grab a group of bamboo strips and can lift the middle parts of the group of bamboo strips upwards is formed between the two middle unit groove bodies.

4. The automatic bamboo cane bundling production line as claimed in claim 1, characterized in that: feed mechanism still includes top push wheel subassembly, this top push wheel subassembly is including the bottom that is located the feed inlet and the extension bottom plate that extends right, rotationally install on the extension bottom plate and be used for bamboo strip one end to set up the top push wheel on it and be located the both sides of extending the bottom plate and all be two stands of T style of calligraphy, the bottom of these two stands all is connected with the axle center of top push wheel through the horizontal axis, this horizontal axis is located and extends the bottom plate bottom, the cover is equipped with return spring on every guide post, these two return spring are located and extend the bottom plate top.

5. The automatic bamboo cane bundling production line of claim 1, characterized in that: the lifting frame comprises a lifting beam and at least two lifting vertical beams which are arranged on the lifting beam and arranged at intervals from left to right, each lifting vertical beam is provided with an upper clamping jaw which is arranged at intervals from top to bottom and is used for firstly grabbing one group of bamboo strips on the feeding groove body and a lower clamping jaw which is used for afterwards grabbing the other group of bamboo strips on the feeding groove body, and the upper clamping jaw and the lower clamping jaw can be opened or closed; the lifting frame further comprises a vertical oil cylinder which is arranged on the frame and drives the lifting beam to lift.

6. The automatic bamboo cane bundling production line of claim 1, characterized in that: the overturning splicing frame comprises an upper splicing clamping jaw and a lower splicing clamping jaw which are matched with the upper clamping jaw and the lower clamping jaw and can drive the two groups of bamboo strips to do 90-degree overturning and drawing-together action, so that the two groups of bamboo strips are spliced into the required bamboo strips to be bundled; the device also comprises an upper overturning pushing assembly and a lower overturning pushing assembly which respectively drive the upper splicing clamping jaw and the lower splicing clamping jaw to do 90-degree overturning actions and are arranged at intervals up and down.

7. The automatic bamboo cane bundling production line of claim 1, characterized in that: the upper turning pushing group comprises an upper movable shaft, an upper rotating shaft, a first base plate and a second base plate, wherein the upper rotating shaft turns downwards by 90 degrees by taking the upper movable shaft as an axis, the first base plate is sleeved between the upper movable shaft and the upper rotating shaft and is positioned on the left side, the second base plate is positioned on the right side, and the first base plate and the second base plate are both provided with upper splicing clamping jaws; lower upset promotes group and includes that the loose axle and following loose axle do 90 lower rotating shaft and the cover of upset upwards for the axis and establish down between loose axle and the lower rotating shaft and be located left third base plate and the fourth base plate that is located the right side, all installed down the concatenation clamping jaw on this third, the four base plates.

8. The automatic bamboo cane bundling production line of claim 1, characterized in that: the binding machine comprises a binding main body positioned between the lifting splicing mechanism and the stacking mechanism and a door-shaped binding opening arranged on the binding main body; the drawing-off assembly comprises two drawing-off wheels which are arranged at one side of the binding opening at intervals, and a drawing-off channel for bamboo strips to be bundled is formed between the two drawing-off wheels.

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