CN210361753U - Bamboo bundle fiber whole-piece veneer weaving machine - Google Patents
Bamboo bundle fiber whole-piece veneer weaving machine Download PDFInfo
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- CN210361753U CN210361753U CN201920945111.8U CN201920945111U CN210361753U CN 210361753 U CN210361753 U CN 210361753U CN 201920945111 U CN201920945111 U CN 201920945111U CN 210361753 U CN210361753 U CN 210361753U
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Abstract
The utility model provides a whole single-plate braider of bamboo bundle fibre, which comprises a frame, feeding mechanism, knitting mechanism, drive mechanism and the mechanical response trigger mechanism who is used for sensing bamboo bundle veneer at every turn after feeding and triggers the drive mechanism action are installed to the higher authority of frame, feeding mechanism, knitting mechanism set up the top in the frame, the afterbody at feeding mechanism is installed to mechanical response trigger mechanism, drive mechanism installs the inboard position in the frame, drive mechanism drive feeding mechanism and knitting mechanism transmission. The utility model provides a bamboo bundle fibre whole piece veneer weave in the processing can not carry out the whole piece of veneer processing to reorganization bamboo with the bamboo bundle unit, the whole piece veneer of bamboo bundle weave elasticity adjustment simultaneously inconvenient, be not suitable for the problem of the processing of weaving of the bamboo bundle unit of different thickness.
Description
Technical Field
The utility model belongs to the technical field of bamboo bundle veneer weaving method, concretely relates to whole piece veneer braider of bamboo bundle fibre.
Background
The recombined bamboo and high-performance bamboo fiber composite material is an innovative product with Chinese resource characteristics and independent intellectual property rights. The recombined bamboo has excellent mechanical property and durability, and is widely used for outdoor floors, such as 3 ten thousand square meters of bamboo floors paved on artificial island landscape platforms of the project of Ganzaoda bridge in Ganzhong province, which is high weather resistance outdoor recombined bamboo.
The recombined bamboo bundle unit usually adopts quilting machine equipment in the whole-sheet processing process, the existing common bamboo bundle quilting machine has the defects of easy needle breakage and thread breakage, low whole-sheet processing efficiency and the like, and meanwhile, the tightness of the whole-sheet bamboo bundle veneer is inconvenient to adjust, so that the recombined bamboo bundle unit is not suitable for the efficient whole-sheet processing of bamboo bundle units with different thicknesses.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that not enough to above-mentioned prior art provides a whole veneer braider of bamboo bundle fibre, and this braider adopts mechanical transmission's mode to compile and dial the material, and the difficult broken needle broken string of establishment in-process, and compile the efficient of whole veneer.
In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a whole single-plate braider of bamboo bundle fibre which includes the frame, its characterized in that: the feeding mechanism, the weaving mechanism, the transmission mechanism and the mechanical induction triggering mechanism are arranged on the rack, the mechanical induction triggering mechanism is used for inducing the action of the transmission mechanism after the bamboo bundle veneer is fed every time, the feeding mechanism and the weaving mechanism are arranged at the top end of the rack, the mechanical induction triggering mechanism is arranged at the tail part of the feeding mechanism, the transmission mechanism is arranged at the inner side of the rack, and the transmission mechanism drives the feeding mechanism and the weaving mechanism to transmit;
the feeding mechanism comprises a feeding frame, a material shifting rod frame, a trough turning cover, a turning cover shaft and troughs, wherein the troughs are arranged on the frame, the number of the troughs is multiple, the feeding frame is fixed on one side of the top end of the frame, the feeding frame is provided with a feeding wheel for feeding the bamboo bundle single boards, the side part of each trough is provided with the turning cover shaft, the turning cover shaft is rotatably connected to the top end of the frame, the turning cover shaft is fixedly provided with the trough turning covers corresponding to the positions of the troughs, and the material shifting rod frame is movably connected inside the frame and connected to an intermediate shaft; a mechanical induction trigger mechanism for inducing the feeding of the bamboo bundle veneer is arranged on the last trough along the feeding direction;
the weaving mechanism comprises a yarn trapper, yarn winding spools, yarn winding forks and a lead frame, wherein the lead frame is movably connected to the side end of the rack and used for weaving the yarn of the bamboo bundle fiber veneer; a pressure spring for adjusting the tightness degree of the wire clamping device is sleeved on the outer side of the wire clamping device;
the transmission mechanism comprises a clutch, a clutch pin stop block, a bevel gear, a pedal plate, a large gear, a pinion, a winding connecting rod, a clutch pull rod transmission shaft and an intermediate shaft, wherein the clutch is fixed on the inner side of the rack, a main shaft of the clutch is connected with a motor through a transition belt pulley, one side of the main shaft of the clutch is connected with the intermediate shaft through an eccentric rod through the bevel gear), the intermediate shaft is horizontally arranged on the inner side of the rack along the feeding direction, a material stirring rod frame is connected on the intermediate shaft, a transition wheel in transmission connection with the clutch through a chain is also rotatably connected on the position, close to the clutch, of the inner side of the rack, the pinion is connected with the pinion in a meshing manner, the large gear is fixed on the rack, the outer side of a wheel disc of the large gear is rotatably connected with the winding connecting rod, and the, the clutch pull rod transmission shaft is connected with the middle shaft,
the clutch is provided with a clutch pin, the clutch pin is matched with a clutch pin stop block to control the clutch to work, the clutch pin stop block is provided with a chuck, the chuck is connected with a second tail groove shifting block through a connecting rod and a connecting rod which are connected with a clutch pull rod transmission shaft in sequence, the other side of the chuck is connected with a pedal in a pressing mode, and the pedal is arranged on one side, close to the motor, of the frame.
Preferably, the winding machine is arranged at the position of the weaving discharge port of the rack.
Preferably, the mechanical induction triggering mechanism comprises a pressing device for pressing the bamboo bundle single plates after the bamboo bundle single plates are fed, an induction device for inducing whether the bamboo bundle single plates are fed or not after feeding and a shifting block linkage device;
the pressing device comprises a tail groove pressing plate and a rotating connecting seat arranged on the back side of the tail groove pressing plate, the tail groove pressing plate is arranged above the tail end of the fed bamboo bundle veneer, and the tail groove pressing plate presses the board downwards after the bamboo bundle veneer is fed in place so as to prevent the board from returning under the action of inertia blocking; the rotary connecting seat is provided with a return spring and is connected with the tail groove pressing plate through a rotating shaft; the problem of weaving bamboo bundle veneers with different thicknesses can be solved through the pressing device.
The induction device comprises a tail groove induction plate, a tail groove baffle, a rotating plate and a rotating shaft; the tail groove induction plate is slidably mounted at the rear end of the last material groove, the induction plate baffle is perpendicular to the bamboo bundle single plate, a rotating plate is arranged above the tail groove induction plate, a tail groove baffle is arranged behind the tail groove induction plate, the rotating plate is fixed on a rotating shaft, and the rotating shaft is perpendicular to the feeding direction of the bamboo bundle single plate and penetrates through the rear side wall of the last material groove;
the shifting block triggering device comprises a first tail groove shifting block, a second tail groove shifting block and a third tail groove shifting block, the first tail groove shifting block is fixedly installed on the rotating shaft, the second tail groove shifting block is rotatably installed on the rear side portion of the last material groove, the third tail groove shifting block is installed on the turnover cover shaft, the first tail groove shifting block is movably connected with one end of the second tail groove shifting block in an overlapped mode, one end of the third tail groove shifting block is downwards pushed against the other end of the second tail groove shifting block, and the second tail groove shifting block is movably connected with a shifting block spring, the other end of the shifting block is connected with the side end of the rack, and the shifting block spring is used for resetting the second tail groove shifting block.
Preferably, the side parts of the first trough and the last trough are provided with cutting knives for cutting two ends of the bamboo bundle single sheet along the feeding direction, and the cutting knives are connected with the middle shaft.
Preferably, the intermediate shaft is horizontally arranged on the inner side of the rack along the feeding direction and is fixed in the rack through a bearing seat.
Preferably, the number of the bevel gears is two, the two bevel gears are meshed, one bevel gear is fixedly connected with the clutch spindle, the other bevel gear is fixedly connected with the eccentric rod, and the eccentric rod is fixedly connected with the intermediate shaft.
Compared with the prior art, the utility model has the following advantage:
1. the utility model can weave the bamboo bundle veneer to carry out veneer whole processing through the mutual cooperation of the feeding mechanism, the weaving mechanism, the mechanical induction triggering mechanism and the transmission mechanism at the inner side of the frame; meanwhile, the bamboo bundle unit fixed by winding is pushed out by the material pulling rod frame to be closely adjacent to the woven bamboo bundle unit, so that the weaving tightness of the whole bamboo bundle veneer can be adjusted, the bamboo bundle units with different thicknesses can be conveniently woven into the bamboo bundle veneer for use, and the bamboo bundle veneers with different patterns can be woven by inserting the bamboo bundle units with different colors.
2. The utility model discloses a whole veneer of bamboo bundle of whole piece specification and dimension of normalized bamboo bundle veneer that automatic controllable method of weaving will be dredged and rolled can not only make things convenient for the carbonization of follow-up bamboo bundle, drying, flooding gluing agent, secondary drying, the process such as mat formation of layering, the process has been simplified greatly, need not to bundle bamboo repeatedly and beat links such as bundle bearing repackage, form the production line of serialization, and the most important density that can reduce reorganization bamboo panel reaches 0.8g/cm3~1.08g/cm3The physical and mechanical properties of the plate are ensured while the material, adhesive and processing energy consumption cost are savedCan meet the requirements of national standards; the method also lays the most important production unit foundation for expanding the application of the heavy bamboo group in the aspect of building structural materials, manufacturing the high-performance bamboo bundle fiber composite material with controllable performance and designable structure.
3. The density and performance uniformity of the recombined bamboo board are obviously improved through the weaving and the whole-piece forming of the bamboo bundle single board, the lamination and the combination of the bamboo bundle single board and the wood single board, the functional treatment of the surface layer of the bamboo bundle single board and the different-color artistic weaving of the bamboo bundle unit, such as the design weaving of the bamboo bundle unit with light carbon, deep carbon and no carbonization, are facilitated, in addition, compared with the whole-piece forming process technologies such as sewing and the like, the efficiency of the automatic weaving and whole-piece forming technology of the bamboo bundle is higher, and meanwhile, the technical problem of sewing thread breaking and needle breaking is avoided; meanwhile, the weaving tightness and the weaving distance are adjustable, the weaving applicability range is wider, and the weaving machine is suitable for weaving bamboo bundle units with the thickness of 0.5-6 mm.
4. The utility model discloses a designed mechanical response trigger mechanism, pass through mechanical transmission completely, transmission is stable, the utility model discloses a braider need not other electronic equipment except that the motor, has simple structure, and the operation is stable, maintains characteristics such as convenient. And the utility model discloses an automatic bamboo bundle veneer braider is the bamboo bundle weaving equipment of a side direction feeding, and space utilization is higher, and is more reasonable to the spatial layout of production factory building.
Drawings
FIG. 1 is a front view of the overall structure of the present invention;
FIG. 2 is a rear view of the overall structure of the present invention;
FIG. 3 is a schematic structural view of the pressing device and the sensing device of the present invention viewed from the front;
fig. 4 is a schematic view of the connection structure of the first tail groove shifting block, the second tail groove shifting block and the third tail groove shifting block of the present invention.
Description of reference numerals:
1-a frame; 11-a feeding frame; 12-a kickoff bar frame; 13-a trough turning cover; 14-a flap shaft; 16-a trough; 21-a wire clamp; 22-a spool; 23-a wire winding fork; 24-a lead frame; 31-a clutch; 32-clutch pin stop; 33-bevel gears; 34-a foot pedal; 35-a transition pulley; 36-pinion gear; 37-a wire winding link; 38-clutch pull rod transmission shaft; 39-intermediate shaft; 310-a bull gear; 311-a clutch pin; 312-a chuck; 313-jaw disc; 314-eccentric rods; 315-main shaft; 316-an electric motor; 5, cutting a cutter; 6-weaving wires; 71-tail groove pressure strip; 72-rotating the connecting seat; 73-a return spring; 74-tail slot induction plate; 75-tail slot baffle; 76-rotating the plate; 77-rotation axis; 78-first tail slot pull block; 79-second tail groove shifting block; 710-third tail slot pull block; 711-toggle block spring; 8-bamboo bundle veneer.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
the feeding mechanism comprises a feeding frame 11, a material poking rod frame 12, a trough turnover cover 13, a turnover cover shaft 14 and a trough 16, the trough 16 is movably arranged on the machine frame 1, the quantity of the troughs 16 is multiple, when the bamboo bundle veneer is used, the feeding frame 11 is fixed on the right side of the top end of the frame 1, the feeding frame 11 is fixedly provided with a feeding rubber wheel and a feeding iron wheel which are arranged up and down and used for feeding, the bamboo bundle single plates are fed into a plurality of material troughs 16 through a feeding rubber wheel and a feeding iron wheel, the side part of each material trough 16 is provided with a turnover cover shaft 14, the flip shaft 14 is rotatably arranged at the top end of the frame 1, and particularly, the flip shaft 14 can be arranged at the middle of the top of the frame 1 through two rotary supports, a plurality of trough turning covers 13 positioned at the front side of the trough 16 are fixedly arranged at the front side of the turning cover shaft 14, the material shifting rod frame 12 is movably connected to the rack 1, and the material shifting rod frame 12 is connected with the turnover cover shaft 14; and a mechanical induction trigger mechanism is arranged on the last trough 16 along the feeding direction and is used for inducing the feeding of the bamboo bundle veneer and triggering the transmission mechanism to move so as to realize actions such as weaving, material poking, re-feeding and the like.
The mechanical induction triggering mechanism comprises a pressing device for pressing the bamboo bundle single plates after the bamboo bundle single plates are fed, an induction device for inducing whether the bamboo bundle single plates are fed or not after the feeding, and a shifting block linkage device;
the pressing device comprises a tail groove pressing plate 71 and a rotating connecting seat 72 arranged on the back side of the tail groove pressing plate 71, the tail groove pressing plate 71 is arranged above the tail end of the fed bamboo bundle veneer, and the tail groove pressing plate 71 presses the plate downwards after the bamboo bundle veneer is fed in place to prevent the plate from returning under the action of inertia blocking; a return spring 73 is arranged on the rotary connecting seat, and the rotary connecting seat 72 is connected with the tail groove pressing plate 71 through a rotating shaft;
the induction device comprises a tail groove induction plate 74, a tail groove baffle plate 75, a rotating plate 76 and a rotating shaft 77; the tail groove induction plate 74 is slidably mounted at the rear end of the last trough 16, the tail groove induction plate 74 is perpendicular to the bamboo bundle single plate, a rotating plate 76 is arranged above the tail groove induction plate 74, a tail groove baffle 75 is arranged behind the tail groove induction plate 74, the rotating plate 76 is fixed on a rotating shaft 77, and the rotating shaft 77 is perpendicular to the feeding direction of the bamboo bundle single plate and penetrates through the rear side wall of the last trough 16;
the shifting block triggering device comprises a first tail groove shifting block 78, a second tail groove shifting block 79 and a third tail groove shifting block 710, the first tail groove shifting block 78 is fixedly installed on the rotating shaft 77, the second tail groove shifting block 79 rotates and is installed on the rear side portion of the last trough 16, the third tail groove shifting block 710 is installed on the turnover cover shaft 14, the first tail groove shifting block 78 is movably overlapped with one end of the second tail groove shifting block 79, one end of the third tail groove shifting block 710 is downwards pushed to the other end of the second tail groove shifting block 79, and the second tail groove shifting block 79 is movably connected with a shifting block spring 711, the other end of which is connected with the side end of the rack 1, and the shifting block spring 711 is used for resetting the second tail groove shifting block 79.
When the bamboo bundle veneer enters the trough, the feeding inertia is generated, the bamboo bundle veneer firstly touches the tail trough pressing plate 71 and then strikes the tail trough induction plate 74, the tail trough induction plate 74 moves towards the striking direction, the rotating plate 76 is stirred to rotate, the tail trough baffle plate 75 can simultaneously block the rotating inertia of the tail trough induction plate 74 and the rotating plate 75, the rotating plate 75 rotates to drive the rotating shaft 76 to rotate, the rotating shaft 76 rotates to drive the first tail trough shifting block 78 to rotate, the second tail trough shifting block 79 is separated from the first tail trough shifting block 78, and the shifting block spring 711 can reset the second tail trough shifting block 79.
The weaving mechanism comprises a yarn trapper 21, a winding spool 22, a winding fork 23 and a lead frame 24, wherein the lead frame 24 is movably connected to the side end of the rack 1 and used for weaving a yarn body of a bamboo bundle fiber veneer, a plurality of groups of winding spools 22 are uniformly distributed on the rack 1 close to the back side of the turnover cover 13, the yarn trappers 21 are respectively and fixedly arranged on the winding spools 22 close to the positions of the turnover covers 13 of the troughs, and the yarn fork 23 used for finishing weaving by crossing the yarn body is arranged on the winding spools 22; a pressure spring for adjusting the tightness degree of the yarn trapper 21 is sleeved on the outer side of the yarn trapper 21, so that the control of the weaving tightness degree is realized;
the transmission mechanism comprises a clutch 31, a clutch pin stop 32, a bevel gear 33, a pedal plate 34, a large gear 310, a small gear 36, a winding connecting rod 37, a clutch pull rod transmission shaft 38 and an intermediate shaft 39, the clutch 31 is fixed on the inner side of the frame 1, a main shaft 315 of the clutch 31 is connected with a motor 316 through a transition belt pulley 35 and a transition gear, the transition gear comprises a main wheel and a driven wheel which are connected through a rack, the transition belt pulley 35 and the main wheel are coaxial, and the driven wheel and the main shaft 315 of the clutch 31 are coaxial; one side of a main shaft 315 of the clutch 31 is connected with an intermediate shaft 39 through a bevel gear 33 and an eccentric rod 314, the rotation of the main shaft 315 is transmitted to the rotation of the intermediate shaft 39, the intermediate shaft 39 is horizontally arranged on the inner side of the rack 1 along the feeding direction, two ends of the intermediate shaft 39 are fixed on the rack 1 through bearing seats, the intermediate shaft 39 is connected with a material stirring rod rack 12, the main shaft of the clutch 31 is connected with a small gear 36, the small gear 36 is meshed with a large gear 310, the large gear 310 is fixed on the rack 1, the outer side of a wheel disc of the large gear 310 is rotatably connected with a winding connecting rod 37, the winding connecting rod 37 is rotatably connected with a winding spool 22 to control the rotation of the winding spool 22, and; a clutch pin 311 is arranged on the clutch, the clutch pin 311 is matched with a clutch pin stop 32 to control the operation of the clutch, the clutch pin stop 32 specifically stops the clutch pin 311 from being inserted into a claw disc 313 of the clutch, a chuck 312 is arranged on the clutch pin stop 32, the chuck 312 is in transmission connection with a second tail groove shifting block 79 sequentially through a connecting clutch pull rod transmission shaft 38 and a connecting rod, the clutch pull rod transmission shaft 38 is horizontally arranged, the connecting rod connected with the second tail groove shifting block 79 pulls the second tail groove shifting block 79 downwards, and the other side of the chuck 312 is in transmission connection with a pedal plate 34; the foot pedal 34 is arranged on the side of the frame 1 close to the motor.
In this embodiment, the number of the bevel gears 33 is two, and the two bevel gears 33 are engaged, wherein one bevel gear 33 is fixedly connected with the clutch main shaft, the other bevel gear is fixedly connected with the eccentric rod 314, and the eccentric rod 314 is fixedly connected with the intermediate shaft 39.
In this embodiment, the pedal plate 34 is connected to the chuck 312 through a link transmission and a return spring connection transmission, so that the pedal plate 34 is stepped to control the separation of the chuck 312 from the clutch pin stopper 32. This is the case in the event of a failure of the mechanically sensitive triggering mechanism.
In this embodiment, the clutch is a dog-and-disk clutch.
After the motor 316 is decelerated by the transition belt pulley and the transition gear, the main shaft 315 of the clutch is driven, a gear and a bevel gear are respectively arranged at two ends of the main shaft, the gear drives the winding fork to weave, the main shaft 315 rotates for one circle, and the winding fork rotates for 180 degrees. The gear drives the material shifting rod to do reciprocating motion, the main shaft is 315 circles, the material shifting rod frame does once pushing sheets to push the bamboo bundle single plates to enter the weaving fork lines, and the whole weaving process is finished in a repeated mode.
The process of knitting the bamboo bundle fiber whole-piece veneer knitting machine in one stroke is as follows: feeding the bamboo bundle unit to a material groove 16 on the rack 1, wherein the bamboo bundle unit pushes a tail groove induction plate 21 under the action of inertia, and a tail groove clamping plate 20 clamps the bamboo bundle unit to prevent the bamboo bundle unit from retreating; the bamboo bundle unit pushes the tail groove induction plate 21 to rotate, so that the first tail groove shifting block is driven by the rotating shaft to rotate and separate from the second tail groove shifting block 79, due to the pulling action of the shifting block spring 18, the second tail groove shifting block 79 is rapidly pulled downwards through the pull rod 43 to enable the clutch pull rod transmission shaft 38 to rotate, under the rotating action of the clutch pull rod transmission shaft 38, the chuck 312 is separated from the clutch pin stop block 32, the clutch pin stop block 32 is pulled up, the clutch pin 311 is inserted into the clutch pin stop disc 50, the clutch rotates, at the moment, the bevel gear 33 and the pinion 36 run, the pinion 36 drives the large gear 310 to rotate, and the large gear 310 rotates and is transmitted to the winding spool 22 through the winding connecting rod 37 so as to control the winding spool 22 to rotate; the bevel gear 33 drives the eccentric rod 314 to enable the intermediate shaft 39, and the intermediate shaft 39 rotates to pull the material shifting rod frame 12 to move so as to realize the discharge of the bamboo bundle veneer; the outlet frame of the winding spool 22 rotates 180 degrees, the winding spool 22 rotates for a circle in the positive direction to complete winding, one bamboo bundle unit is fixed, the material stirring rod frame 12 pushes out the fixed bamboo bundle unit, the bamboo bundle unit which is just wound and fixed is closely adjacent to the woven bamboo bundle unit to generate a compact stirring effect, the bamboo bundle unit is sequentially sent into the feeding hole to complete winding and stirring actions, the fixed bamboo bundle unit is sequentially pushed forward while being compacted compactly to form a whole bamboo bundle single plate, when the bamboo bundle single plate is woven to a preset length, the machine is stopped to operate, and each line is knotted and cut off.
The bamboo bundle unit is pushed forwards by the rotation of the feeding wheel and the feeding rubber wheel, and is pushed to the tail groove pressing plate through a plurality of material grooves arranged above the rack, due to inertia, the bamboo bundle unit pushes the tail groove induction plate, the tail groove pressing plate prevents the bamboo bundle unit from retreating, the bamboo bundle unit pushes the induction baffle plate to rotate, so that a first tail groove shifting block and a second tail groove are separated by shifting, due to the pulling action of a shifting block spring on the second tail groove shifting block, a clutch pull rod transmission shaft is rapidly pulled backwards, a clutch pin stop dog chuck is separated from a clutch pin stop dog, the clutch pin stop dog is pulled up, a clutch pin is inserted into a clutch pawl disc, the clutch rotates, and a clutch main shaft simultaneously drives gears and bevel gears arranged on two sides to rotate. The gear rotates to drive the spool to do circular motion and complete winding. The spool operation mode is that the main shaft runs for a circle, the spool rotates for a circle in the positive direction, the main shaft runs for a circle again, the spool rotates for a circle in the positive direction again, and after the main shaft rotates for the third time and the fourth time, the spool rotates in the reverse direction, namely, the two-way operation mode is carried out. The bevel gear 33 rotates, so that the eccentric rod 314 drives the intermediate shaft 39 to work, and the kickoff bar frame 12 and the cutting knife 5 are pulled. The rear end of the material stirring rod frame is provided with a sliding block which pushes the turnover cover on the turnover cover shaft 14 to open. The bamboo chips are pushed out by the kick-out rod frame 12, the clutch 31 is reset, the trough turnover cover 13 is closed, the bobbin 22 rotates 180 degrees, and therefore one stroke of weaving is finished.
The method for weaving the bamboo bundle veneer by adopting the bamboo bundle fiber whole-piece veneer weaving machine comprises the following steps:
s1, starting up inspection: before starting up, checking whether fasteners are loosened at each position, filling lubricating oil to movable positions of a transmission belt of the clutch 31 and a transmission chain of the transition wheel 35, the clutch 31, the winding spool 22, the bevel gear 33, the large gear 310, the small gear 36, the winding connecting rod 37 and the clutch pull rod transmission shaft 38, and then enabling the idle machine to run for 2-3 min;
s2, preparation: arranging a plurality of wire rollers on the frame 1, adjusting the distance between the wire rollers, respectively introducing the wires into screw holes of a lead frame 24, introducing a winding spool 22, and adjusting a pressure spring of a wire clamping device 21 on the lead frame 24; selecting a bamboo bundle veneer, and preparing to start up and feed;
s3, knitting: starting a braiding machine to enable a feeding mechanism to work, feeding the bamboo bundle units to the upper surface of the rack 1, pushing the bamboo bundle units to push the tail groove induction plates 21 under the action of inertia, and clamping the bamboo bundle units by the tail groove clamping plates 20 to prevent the bamboo bundle units from retreating; the bamboo bundle unit pushes the tail groove induction plate 21 to rotate, so that the first tail groove shifting block is driven by the rotating shaft to rotate and separate from the second tail groove shifting block 79, due to the pulling action of the shifting block spring 18, the second tail groove shifting block 79 is rapidly pulled downwards through the pull rod 43 to enable the clutch pull rod transmission shaft 38 to rotate, under the rotating action of the clutch pull rod transmission shaft 38, the chuck 312 is separated from the clutch pin stop block 32, the clutch pin stop block 32 is pulled up, the clutch pin 311 is inserted into the clutch pin stop disc 50, the clutch rotates, at the moment, the bevel gear 33 and the pinion 36 run, the pinion 36 drives the large gear 310 to rotate, and the large gear 310 rotates and is transmitted to the winding spool 22 through the winding connecting rod 37 so as to control the winding spool 22 to rotate; the bevel gear 33 drives the eccentric rod 314 to enable the intermediate shaft 39, and the intermediate shaft 39 rotates to pull the material shifting rod frame 12 to move so as to realize the discharge of the bamboo bundle veneer; the outlet frame of the winding spool 22 rotates 180 degrees, the winding spool 22 rotates for a circle in the positive direction to complete winding, one bamboo bundle unit is fixed, the material stirring rod frame 12 pushes out the fixed bamboo bundle unit, the bamboo bundle unit which is just wound and fixed is closely adjacent to the woven bamboo bundle unit to generate a compact stirring effect, the bamboo bundle unit is sequentially fed into a feeding hole to complete winding and stirring actions, the fixed bamboo bundle unit is sequentially pushed forward while being tightly pressed to form a whole bamboo bundle single plate, when the bamboo bundle single plate is woven to a preset length, the machine stops running, each line is knotted and cut off;
s4, winding and drying: and rolling the woven and integrated bamboo bundle single plates, stacking the bamboo bundle single plates orderly, and drying the bamboo bundle single plates until the water content is reduced to 8-12%, thus completing the weaving preparation process of the integrated bamboo bundle single plates.
In this embodiment, in S2, the thread roller is wound with a braided thread, and the braided thread is cotton thread, textile yarn, hot melt adhesive thread, or glass fiber.
In this embodiment, the thickness of the bamboo bundle unit is between 0.5mm and 6.0 mm.
In this embodiment, the length range of the bamboo bundle veneer is preset to be 1.5m-2.6 m.
In the case of the example 2, the following examples are given,
the single board weaving method of the bamboo bundle fiber whole-sheet single board weaving machine provided by the embodiment utilizes the single board weaving machine disclosed in the embodiment, and the single board weaving method comprises the following steps:
s1, starting up inspection: before starting up, checking whether fasteners are loosened at each position, filling lubricating oil to movable positions of a transmission belt of the clutch 31 and a transmission chain of the transition wheel 35, the clutch 31, the winding spool 22, the bevel gear 33, the large gear 310, the small gear 36, the winding connecting rod 37 and the clutch pull rod transmission shaft 38, and then enabling the idle machine to run for 2-3 min;
s2, preparation: putting a hot melt adhesive line roller at a corresponding position of a using area of a rack, so that the bamboo bundle veneer presents compact effect and attractive appearance, is used for recombining the bamboo surface layer, and is provided with 7 hot melt adhesive lines, wherein the distance between adjacent wiring lines in the middle is 30cm, and the distance between the wiring lines close to two ends and the edge of the bamboo bundle is 10 cm; respectively leading the wires into screw holes on a lead frame 24, then leading the wires into a wire spool 22, finally pulling out the wires from the wire spool and knotting, and adjusting a pressure spring of a wire clamp 21 to a tighter degree; selecting a one-time broomed bamboo bundle from the root position of bamboo wood, wherein the thickness is 3.5 mm-6.0mm, the length is 2.1m, and the width is 50mm, properly adjusting the tightness degree of a pressure spring at a feed inlet and a tension spring at a tail groove pressure plate, and preparing for starting and feeding.
S3, knitting: starting a braiding machine to enable a feeding mechanism to work, feeding the bamboo bundle units to the upper surface of the rack 1, pushing the bamboo bundle units to push the tail groove induction plates 21 under the action of inertia, and clamping the bamboo bundle units by the tail groove clamping plates 20 to prevent the bamboo bundle units from retreating; the bamboo bundle unit pushes the tail groove induction plate 21 to rotate, so that the first tail groove shifting block is driven by the rotating shaft to rotate and separate from the second tail groove shifting block 79, due to the pulling action of the shifting block spring 18, the second tail groove shifting block 79 is rapidly pulled downwards through the pull rod 43 to enable the clutch pull rod transmission shaft 38 to rotate, under the rotating action of the clutch pull rod transmission shaft 38, the chuck 312 is separated from the clutch pin stop block 32, the clutch pin stop block 32 is pulled up, the clutch pin 311 is inserted into the clutch pin stop disc 50, the clutch rotates, at the moment, the bevel gear 33 and the pinion 36 run, the pinion 36 drives the large gear 310 to rotate, and the large gear 310 rotates and is transmitted to the winding spool 22 through the winding connecting rod 37 so as to control the winding spool 22 to rotate; the bevel gear 33 drives the eccentric rod 314 to enable the intermediate shaft 39, and the intermediate shaft 39 rotates to pull the material shifting rod frame 12 to move so as to realize the discharge of the bamboo bundle veneer; the outlet frame of the winding spool 22 rotates 180 degrees, the winding spool 22 rotates for a circle in the positive direction to complete winding, one bamboo bundle unit is fixed, the material stirring rod frame 12 pushes out the fixed bamboo bundle unit, the bamboo bundle unit which is just wound and fixed is closely adjacent to the woven bamboo bundle unit to generate a compact stirring effect, the bamboo bundle unit is sequentially fed into a feeding hole to complete winding and stirring actions, the fixed bamboo bundle unit is sequentially pushed forward while being tightly pressed to form a whole bamboo bundle single plate, when the bamboo bundle single plate is woven to a preset length of 2.5m, the machine stops running, each line is knotted and cut off;
s4, winding and drying: the winding machine mechanism automatically winds the whole bamboo bundle single plates, and the bamboo bundle single plates are stacked in order and sent into a drying kiln to be dried until the water content is 8% -12%.
The physical properties of the bamboo bundle unit after weaving processing are tested as follows: the light transmittance of the bamboo bundle veneer is 5-10%, the rigidity is 120-155 MPa, and the density of the bamboo bundle veneer with the water content of 8-12% is 0.55g/cm3~0.78g/cm3。
In the case of the example 3, the following examples are given,
the single board weaving method of the bamboo bundle fiber whole-sheet single board weaving machine provided by the embodiment utilizes the single board weaving machine disclosed in the embodiment, and the single board weaving method comprises the following steps:
s1, starting up inspection: before starting up, checking whether fasteners are loosened at each position, filling lubricating oil to movable positions of a transmission belt of the clutch 31 and a transmission chain of the transition wheel 35, the clutch 31, the winding spool 22, the bevel gear 33, the large gear 310, the small gear 36, the winding connecting rod 37 and the clutch pull rod transmission shaft 38, and then enabling the idle machine to run for 2-3 min;
s2, preparation: putting a cotton thread roller at a corresponding position of a using area of a rack, and in order to improve production efficiency and save cost, the cotton thread roller is used for recombining a bamboo core layer, 4 lines are arranged on a bamboo bundle veneer, the distance between adjacent wiring in the middle is 60cm, and the distance between the wiring close to two ends and the edge of the bamboo bundle is 15 cm; respectively leading the wires into screw holes on a lead frame 24, then leading the wires into a wire spool 22, finally pulling out the wires from the wire spool and knotting, drawing back the wires, and properly adjusting the tightness degree of a pressure spring of a wire clamp 21; selecting twice broomed bamboo bundles from the tip of the bamboo, wherein the thickness of the bamboo bundles is 0.5-1.5 mm, the length of the bamboo bundles is 1.5m, the width of the bamboo bundles is 30mm, properly adjusting the tightness of a pressure spring at a feed inlet and a tension spring at a tail groove pressure plate, and preparing for starting up for feeding.
S3, knitting: starting a braiding machine to enable a feeding mechanism to work, feeding the bamboo bundle units to the upper surface of the rack 1, pushing the bamboo bundle units to push the tail groove induction plates 21 under the action of inertia, and clamping the bamboo bundle units by the tail groove clamping plates 20 to prevent the bamboo bundle units from retreating; the bamboo bundle unit pushes the tail groove induction plate 21 to rotate, so that the first tail groove shifting block is driven by the rotating shaft to rotate and separate from the second tail groove shifting block 79, due to the pulling action of the shifting block spring 18, the second tail groove shifting block 79 is rapidly pulled downwards through the pull rod 43 to enable the clutch pull rod transmission shaft 38 to rotate, under the rotating action of the clutch pull rod transmission shaft 38, the chuck 312 is separated from the clutch pin stop block 32, the clutch pin stop block 32 is pulled up, the clutch pin 311 is inserted into the clutch pin stop disc 50, the clutch rotates, at the moment, the bevel gear 33 and the pinion 36 run, the pinion 36 drives the large gear 310 to rotate, and the large gear 310 rotates and is transmitted to the winding spool 22 through the winding connecting rod 37 so as to control the winding spool 22 to rotate; the bevel gear 33 drives the eccentric rod 314 to enable the intermediate shaft 39, and the intermediate shaft 39 rotates to pull the material shifting rod frame 12 to move so as to realize the discharge of the bamboo bundle veneer; the outlet frame of the winding spool 22 rotates 180 degrees, the winding spool 22 rotates for a circle in the positive direction to complete winding, one bamboo bundle unit is fixed, the material stirring rod frame 12 pushes out the fixed bamboo bundle unit, the bamboo bundle unit which is just wound and fixed is closely adjacent to the woven bamboo bundle unit to generate a compact stirring effect, the bamboo bundle unit is sequentially fed into a feeding hole to complete winding and stirring actions, the fixed bamboo bundle unit is sequentially pushed forward while being tightly pressed to form a whole bamboo bundle single plate, when the bamboo bundle single plate is woven to a preset length of 2.5m, the machine stops running, each line is knotted and cut off;
s4, winding and drying: the winding machine mechanism automatically winds the whole bamboo bundle single plates, and the bamboo bundle single plates are stacked in order and sent into a drying kiln to be dried until the water content is 8% -12%.
The physical properties of the bamboo bundle unit after weaving processing are tested as follows: the light transmittance of the bamboo bundle veneer is 22-38%, the rigidity is 40-65 MPa, and the density of the bamboo bundle veneer with the water content of 8-12% is 0.55g/cm3~0.78g/cm3。
In the case of the example 4, the following examples are given,
the single board weaving method of the bamboo bundle fiber whole-sheet single board weaving machine provided by the embodiment utilizes the single board weaving machine disclosed in the embodiment, and the single board weaving method comprises the following steps:
s1, starting up inspection: before starting up, checking whether fasteners are loosened at each position, filling lubricating oil to movable positions of a transmission belt of the clutch 31 and a transmission chain of the transition wheel 35, the clutch 31, the winding spool 22, the bevel gear 33, the large gear 310, the small gear 36, the winding connecting rod 37 and the clutch pull rod transmission shaft 38, and then enabling the idle machine to run for 2-3 min;
s2, preparation: putting a hot melt adhesive line roller at a corresponding position of a using area of a rack, arranging 8 hot melt adhesive lines for recombining the bamboo surface layer in order to enable the bamboo bundle veneer to have compact effect and attractive appearance, wherein the distance between adjacent wiring lines in the middle is 25cm, and the distance between the wiring lines close to two ends and the edge of the bamboo bundle is 13 cm; respectively leading the wires into screw holes on a lead frame 24, then leading the wires into a wire spool 22, finally pulling out the wires from the wire spool and knotting, drawing back the wires, and properly adjusting the tightness degree of a pressure spring of a wire clamp 21; selecting twice-broomed bamboo bundles from the middle position of bamboo wood, wherein the thickness of the twice-broomed bamboo bundles is 5.5 mm-6.0mm, the length of the twice-broomed bamboo bundles is 1.8m, the width of the twice-broomed bamboo bundles is 80mm, and the twice-broomed bamboo bundles are divided into carbonized bamboo bundles and non-carbonized bamboo bundles; and the tightness degree of a feed inlet pressure spring and a tail groove pressure plate tension spring is properly adjusted to prepare for starting and feeding.
S3, knitting: starting a braiding machine to enable a feeding mechanism to work, feeding the bamboo bundle units to the upper surface of the rack 1, pushing the bamboo bundle units to push the tail groove induction plates 21 under the action of inertia, and clamping the bamboo bundle units by the tail groove clamping plates 20 to prevent the bamboo bundle units from retreating; the bamboo bundle unit pushes the tail groove induction plate 21 to rotate, so that the first tail groove shifting block is driven by the rotating shaft to rotate and separate from the second tail groove shifting block 79, due to the pulling action of the shifting block spring 18, the second tail groove shifting block 79 is rapidly pulled downwards through the pull rod 43 to enable the clutch pull rod transmission shaft 38 to rotate, under the rotating action of the clutch pull rod transmission shaft 38, the chuck 312 is separated from the clutch pin stop block 32, the clutch pin stop block 32 is pulled up, the clutch pin 311 is inserted into the clutch pin stop disc 50, the clutch rotates, at the moment, the bevel gear 33 and the pinion 36 run, the pinion 36 drives the large gear 310 to rotate, and the large gear 310 rotates and is transmitted to the winding spool 22 through the winding connecting rod 37 so as to control the winding spool 22 to rotate; the bevel gear 33 drives the eccentric rod 314 to enable the intermediate shaft 39, and the intermediate shaft 39 rotates to pull the material shifting rod frame 12 to move so as to realize the discharge of the bamboo bundle veneer; the outlet frame of the winding spool 22 rotates 180 degrees, the winding spool 22 rotates for a circle in the positive direction to complete winding, one bamboo bundle unit is fixed, the material stirring rod frame 12 pushes out the fixed bamboo bundle unit, the bamboo bundle unit which is just wound and fixed is closely adjacent to the woven bamboo bundle unit to generate a compact stirring effect, the bamboo bundle unit is sequentially fed into a feeding hole to complete winding and stirring actions, the fixed bamboo bundle unit is sequentially pushed forward while being tightly pressed to form a whole bamboo bundle single plate, when the bamboo bundle single plate is woven to a preset length of 2.5m, the machine stops running, each line is knotted and cut off;
s4, winding and drying: the winding machine mechanism automatically winds the whole bamboo bundle single plates, and the bamboo bundle single plates are stacked in order and sent into a drying kiln to be dried until the water content is 8% -12%.
The physical properties of the woven bamboo bundle single board with the black and white spacing stripes are tested as follows: the light transmittance of the bamboo bundle veneer is 2-5%, the rigidity is 100-135 MPa, and the density of the bamboo bundle veneer with the water content of 8-12% is 0.55g/cm3~0.78g/cm3。
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides a whole single-plate knitting machine of bamboo bundle fibre, includes frame (1), its characterized in that: the feeding mechanism, the weaving mechanism, the transmission mechanism and the mechanical induction triggering mechanism are mounted on the rack (1), the mechanical induction triggering mechanism is used for inducing the action of the transmission mechanism after the bamboo bundle veneer is fed every time, the feeding mechanism and the weaving mechanism are arranged at the top end of the rack (1), the mechanical induction triggering mechanism is mounted at the tail of the feeding mechanism, the transmission mechanism is mounted at the inner side of the rack (1), and the transmission mechanism drives the feeding mechanism and the weaving mechanism to transmit.
2. The bamboo bundle fiber sheet forming single-plate knitting machine according to claim 1, the feeding mechanism comprises a feeding frame (11), a material poking rod frame (12), a trough turnover cover (13), a turnover cover shaft (14) and a trough (16), the material tanks (16) are arranged on the frame (1), the number of the material tanks (16) is a plurality, the feeding frame (11) is fixed on one side of the top end of the frame (1), the feeding frame (11) is provided with a feeding wheel for feeding the bamboo bundle veneers, a flip shaft (14) is arranged at the side part of the trough (16), the flip shaft (14) is rotationally connected to the top end of the frame (1), a plurality of trough turnups (13) corresponding to the positions of the troughs (16) are fixedly arranged on the turnup shaft (14), the material shifting rod frame (12) is movably connected inside the rack (1) and connected to the middle shaft (39); a mechanical induction trigger mechanism for inducing the feeding of the bamboo bundle veneer is arranged on the last trough (16) along the feeding direction;
the weaving mechanism comprises a yarn trapper (21), yarn winding spools (22), yarn winding forks (23) and a lead frame (24), wherein the lead frame (24) is movably connected to the side end of the rack (1) and used for weaving yarn bodies of bamboo bundle fiber veneers, a plurality of groups of yarn winding spools (22) are uniformly distributed at positions, close to the back side of the turnover cover (13), on the rack (1), the yarn trapper (21) is fixedly arranged at positions, close to each trough turnover cover (13), on the yarn winding spools (22), the yarn forks (23) used for finishing weaving by crossing the yarn bodies are arranged on the rack (1) and are mounted on the yarn winding spools (22); a pressure spring for adjusting the tightness degree of the wire clamping device (21) is sleeved on the outer side of the wire clamping device (21);
the transmission mechanism comprises a clutch (31), a clutch pin stop block (32), a bevel gear (33), a pedal (34), a large gear (310), a small gear (36), a winding connecting rod (37), a clutch pull rod transmission shaft (38) and an intermediate shaft (39), wherein the clutch (31) is fixed on the inner side of the rack (1), a main shaft of the clutch (31) is connected with a motor through a transition belt pulley, one side of the main shaft of the clutch (31) is connected with the intermediate shaft (39) through an eccentric rod (314) through the bevel gear (33), the intermediate shaft (39) is connected with a material stirring rod frame (12), a transition wheel (35) which is connected with the clutch (31) through chain transmission is further rotatably connected at a position, close to the clutch (31), of the inner side of the rack (1), the small gear (36) is connected with the main shaft of the clutch (31), and the large gear (310) is meshed with the small gear (36), the large gear (310) is fixed on the rack (1), a winding connecting rod (37) is rotatably connected to the outer side of a wheel disc of the large gear (310), the winding connecting rod (37) is rotatably connected with a winding spool (22) to control the winding spool (22) to rotate, the clutch pull rod transmission shaft (38) is connected with the intermediate shaft (39), a clutch pin (311) is arranged on the clutch, the clutch pin (311) is matched with a clutch pin stop block (32) to control the clutch to work, a chuck (312) is arranged on the clutch pin stop block (32), the chuck (312) is connected with the second tail groove shifting block (79) by sequentially connecting the clutch pull rod transmission shaft (38) and the connecting rod (43), and the other side of the chuck (312) is connected with a pedal (34) in a pressing mode; the pedal (34) is arranged on one side of the frame (1) close to the motor.
3. The bamboo bundle fiber single-plate knitting machine according to claim 1, characterized by further comprising a winder disposed at a position of a knitting outlet of the frame (1).
4. The bamboo bundle fiber sheet-forming veneer knitting machine according to claim 1, wherein the mechanical sensing trigger mechanism comprises a pressing device for pressing the bamboo bundle veneer after the feeding of the bamboo bundle veneer, a sensing device for sensing whether the bamboo bundle veneer is fed or not after the feeding, and a shifting block linkage device.
5. The bamboo bundle fiber single-board weaving machine according to claim 4, characterized in that the pressing device comprises a tail groove pressing plate (71) and a rotary connecting seat (72) arranged at the back side of the tail groove pressing plate (71), the tail groove pressing plate (71) is arranged above the tail end of the fed bamboo bundle single board, and the tail groove pressing plate (71) presses the board downwards after the bamboo bundle single board is fed in place, so as to prevent the board from returning under the action of inertial blocking; a return spring (73) is arranged on the rotary connecting seat, and the rotary connecting seat (72) is connected with the tail groove pressing plate (71) through a rotating shaft;
the induction device comprises a tail groove induction plate (74), a tail groove baffle plate (75), a rotating plate (76) and a rotating shaft (77); the tail groove induction plate (74) is slidably mounted at the rear end of the last trough (16), the tail groove induction plate (74) is perpendicular to the bamboo bundle single plate, a rotating plate (76) is arranged above the tail groove induction plate (74), a tail groove baffle plate (75) is arranged behind the tail groove induction plate (74), the rotating plate (76) is fixed on a rotating shaft (77), and the rotating shaft (77) is perpendicular to the feeding direction of the bamboo bundle single plate and penetrates through the rear side wall of the last trough (16);
shifting block trigger device includes first tail groove shifting block (78), second tail groove shifting block (79) and third tail groove shifting block (710), and first tail groove shifting block (78) fixed mounting be in on rotation axis (77), second tail groove shifting block (79) rotate and install the rear portion at last silo (16), and third tail groove shifting block (710) are installed on flip axle (14), first tail groove shifting block (78) and the one end activity overlap joint of second tail groove shifting block (79), the one end of third tail groove shifting block (710) pushes up downwards at the other end of second tail groove shifting block (79), second tail groove shifting block (79) swing joint have the other end and frame (1) side be connected be used for shifting block spring (711) that second tail groove shifting block (79) reset.
6. The bamboo bundle fiber sheet-forming single-plate knitting machine according to claim 1, wherein the side portions of the first trough and the last trough are provided with cutting knives (51) for cutting both ends of the single bamboo bundle sheet in the feeding direction, and the cutting knives (51) are connected with the intermediate shaft (39).
7. The bamboo bundle fiber sheet-forming single-plate knitting machine according to claim 2, characterized in that the intermediate shaft (39) is horizontally arranged inside the machine frame (1) along the feeding direction and is fixed in the machine frame (1) through a bearing seat.
8. The bamboo bundle fiber single-plate knitting machine according to claim 2, wherein the number of the bevel gears (33) is two, two bevel gears (33) are meshed, one of the bevel gears (33) is fixedly connected with the clutch spindle, the other bevel gear is fixedly connected with the eccentric rod (314), and the eccentric rod (314) is fixedly connected with the intermediate shaft (39).
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| Application Number | Priority Date | Filing Date | Title |
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| CN201920945111.8U CN210361753U (en) | 2019-06-22 | 2019-06-22 | Bamboo bundle fiber whole-piece veneer weaving machine |
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| CN201920945111.8U CN210361753U (en) | 2019-06-22 | 2019-06-22 | Bamboo bundle fiber whole-piece veneer weaving machine |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110091395A (en) * | 2019-06-22 | 2019-08-06 | 国际竹藤中心 | A kind of whole change veneer braider of bamboo bundle fiber |
| GB2584960A (en) * | 2019-06-22 | 2020-12-23 | Int Ct Bamboo & Rattan | Machine and method for weaving integrated bamboo bundle strand veneer |
-
2019
- 2019-06-22 CN CN201920945111.8U patent/CN210361753U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110091395A (en) * | 2019-06-22 | 2019-08-06 | 国际竹藤中心 | A kind of whole change veneer braider of bamboo bundle fiber |
| GB2584960A (en) * | 2019-06-22 | 2020-12-23 | Int Ct Bamboo & Rattan | Machine and method for weaving integrated bamboo bundle strand veneer |
| GB2584960B (en) * | 2019-06-22 | 2021-12-29 | Int Ct Bamboo & Rattan | Machine and method for weaving integrated bamboo bundle strand veneer |
| CN110091395B (en) * | 2019-06-22 | 2024-04-02 | 国际竹藤中心 | Bamboo bundle fiber whole single board braiding machine |
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