CN115366206B

CN115366206B - Bamboo carriage bottom plate processing is with bamboo chip splicing apparatus

Info

Publication number: CN115366206B
Application number: CN202211198119.5A
Authority: CN
Inventors: 陶祖起; 唐明宇; 王书研; 吴旭平
Original assignee: Hunan Mingyang Zhuyong Technology Co ltd
Current assignee: Hunan Mingyang Zhuyong Technology Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2023-07-18
Anticipated expiration: 2042-09-29
Also published as: CN115366206A; WO2024066002A1

Abstract

The invention discloses a bamboo chip splicing device for processing a bamboo carriage bottom plate, which comprises a fixed bottom plate, wherein a control device, a feeding frame, a glue pool and a splicing table are sequentially arranged on the upper part of the fixed bottom plate along the transverse direction, a conveyor belt is arranged on the upper part of the feeding frame, a U-shaped support frame is obliquely arranged on the outer surface of the glue pool, the U-shaped support frame is in sliding connection with a first gluing component, a second gluing component is in sliding connection with the outer surface of the splicing table, and a support column is in sliding connection with one longitudinal end of the upper part of the fixed bottom plate along the transverse direction. The beneficial effects of the invention are as follows: the invention can realize automatic operation of the lower bamboo chip splicing, the gluing after the lower bamboo chip splicing, the gluing before the upper bamboo chip splicing, the splicing after the gluing of the upper bamboo chip and the moving during the bamboo chip splicing, so that the stacked bamboo chips form a structure that the upper surface of the upper bamboo chip is not glued and the lower surface of the lower bamboo chip is not glued, thereby greatly reducing the labor intensity of workers, improving the production and processing efficiency and being convenient for guaranteeing the consistency of the quality of finished products.

Description

Bamboo carriage bottom plate processing is with bamboo chip splicing apparatus

Technical Field

The invention relates to the technical field of bamboo carriage bottom plate production and processing, in particular to a bamboo chip splicing device for bamboo carriage bottom plate processing.

Background

The traditional carriage bottom plate is mainly manufactured by using high-quality hardwood timber and plywood, but the advantages of the high-quality hardwood timber are less and less obvious due to the limited resources of the high-quality hardwood timber and natural defects of the high-quality hardwood timber; along with the development of social science and technology and implementation of ecological environment protection concepts, the bamboo plywood and the bamboo skin plywood are high in strength and good in wear resistance, and the bamboo growth period is short, so that the bamboo carriage bottom plate has great advantages compared with the existing high-quality hardwood timber and plywood, and the demand of the bamboo carriage bottom plate is increasing.

The existing bamboo compartment bottom plate is formed by splicing a plurality of short plates, the surfaces of bamboo chips are required to be subjected to gluing treatment before splicing, then the bamboo chips with glue on the surfaces are spliced end to end, left and right, the bamboo chips are stacked up and down after splicing, the upper surface of the uppermost bamboo chip is not provided with glue, the lower surface of the lowermost bamboo chip is not provided with a glue structure, the glue before splicing, the movement of the bamboo chips during splicing and the upper surface of the uppermost bamboo chip stacked up and down after splicing are not provided with glue, most of the lower surface of the lowermost bamboo chip is manually operated, the labor intensity is high, the production and processing efficiency is low, and meanwhile, the produced products are easy to have different quality and are required to be further developed and improved.

Disclosure of Invention

The invention aims to solve the problems that the prior bamboo chips for processing the carriage bottom plate are glued before being spliced, the bamboo chips are moved during being spliced, the upper surface of the uppermost bamboo chip is stacked up and down after being spliced, the upper surface of the lowermost bamboo chip is not glued, most of the bamboo chips are manually operated, the labor intensity is high, the production and processing efficiency is low, and meanwhile, the produced products are easy to have different quality.

The invention realizes the above purpose through the following technical scheme: bamboo is bamboo chip splicing apparatus for carriage bottom plate processing, including PMKD, PMKD upper portion has set gradually controlling means, material loading frame, glue pond and concatenation platform along transversely, material loading frame upper portion is provided with the conveyer belt, glue pond surface tilting mount has U type support frame, U type support frame sliding connection has first rubberizing subassembly, concatenation platform surface sliding connection has the second rubberizing subassembly, the vertical one end in PMKD upper portion has the support column along transverse sliding connection, the support column top is provided with first negative pressure pump, the support column upper end is provided with the rotation axis, the support column is vertically keeping away from material loading frame one side surface be provided with rotating electrical machines with the rotation axis is connected, the rotation axis is kept away from rotating electrical machines one end is installed and is snatched the subassembly, first rubberizing subassembly with between the U type support frame, second rubberizing subassembly with splice between the platform and the support column with all be provided with between the PMKD and remove the subassembly.

Further, the splice table includes the splice table body, splice table body top has the splice groove, splice table body horizontal one side surface is provided with the second negative pressure pump, the horizontal both sides of second negative pressure pump all are provided with the brace table with splice table body is connected, be provided with between the splice table body and retrieve the box, be provided with the loading board in the splice groove, splice table body below is provided with first elevating gear, first elevating gear passes splice table body with the loading board is connected, loading board top equidistance is provided with a plurality of induced drafting openings, the loading board inside has the wind channel, the second negative pressure pump with the induced drafting opening all with the wind channel is linked together, loading board horizontal both sides and vertical both sides all are provided with the limiting plate, the limiting plate with splice table body grafting is connected, splice table body below be provided with the support between the limiting plate, support the connecting plate with be provided with second elevating gear between the fixed baseplate, be convenient for realize that the concatenation of bamboo piece, gluey piece upper surface are stacked after the bamboo piece is glued on the upper surface.

Further, first rubberizing subassembly includes the slip backup pad, the slip backup pad with U type support frame upper surface sliding connection, slip backup pad top is provided with third elevating gear, third elevating gear bottom passes the slip backup pad is installed fixed buffer board, fixed buffer board keep away from slip backup pad one side is provided with the support mounting panel, fixed buffer board both ends all are provided with the supporting screw, supporting screw one end passes the fixed adjusting nut is installed to the support mounting panel, the supporting screw is located fixed buffer board with be provided with the spring between the support mounting panel, the spring with be provided with pressure sensor between the fixed buffer board, the support mounting panel is kept away from fixed buffer board one side is provided with first rubberizing roller, first rubberizing roller both ends all are provided with first support bearing frame, first support bearing frame one side with the support mounting panel is connected for realize rubberizing bamboo chip lower surface.

Further, the second rubberizing subassembly includes the movable cross beam, the inside surface of movable cross beam vertical both sides respectively with the vertical both sides surface sliding connection of concatenation platform, the movable cross beam top is provided with fourth elevating gear, fourth elevating gear bottom passes the movable cross beam installs the lift mounting bracket, the lift mounting bracket below is provided with the second rubberizing roller, second rubberizing roller both ends all are provided with the second and support the bearing frame, the second support the bearing frame top with the lift mounting bracket is connected, horizontal one side of lift mounting bracket is provided with glue bin, glue bin bottom corresponds the second rubberizing roller position is provided with out the glue mouth, out glue mouth department is provided with the closing plate, glue bin one side surface is provided with first telescoping device, first telescoping device one end stretch into glue bin inside with the closing plate is connected, first telescoping device is located the closing plate with be provided with ripple protection casing between the glue bin inside surface for realize that the bamboo chip upper surface rubberizes.

Further, the loading board bottom corresponds support connecting plate position fixed buffer board top with lift mounting bracket top all is provided with a plurality of guide bars respectively corresponding with support connecting plate the slip backup pad with movable cross beam peg graft connection, the loading board of being convenient for, fixed buffer board and lift mounting bracket go up and down smoothly, avoid its lift in-process to produce the displacement.

Further, the support column include with fixed baseplate sliding connection's slide, the slide top is provided with the lift support column, the slide with be provided with fifth elevating gear between the lift support column, the slide top is located fifth elevating gear both sides all are provided with the plug seat, lift support column bottom both ends all are provided with the plugboard, the plugboard with plug seat plug connection, the rotation axis sets up the lift support column upper end for realize driving snatch the subassembly and follow lateral shifting and elevating movement.

Further, the sliding seat is connected with the plug seat and the lifting support column is connected with the plug board in a welding mode, so that the connection firmness between the mutual structures is improved, and the use safety and the service life are improved.

Further, snatch the subassembly and include a supporting beam, supporting beam one end is provided with the swivelling joint board, and the other end peg graft has flexible backup pad, the swivelling joint board with rotatory axle fixed connection, the inside second telescoping device that is provided with of supporting beam, second telescoping device one end with flexible backup pad is connected, flexible backup pad top is kept away from swivelling joint board one end is provided with sixth elevating gear, sixth elevating gear one end passes flexible backup pad installs the snatch board, snatch the board bottom and be located sixth elevating gear both sides all are provided with the silica gel sucking disc, the silica gel sucking disc with first negative pressure pump is linked together, snatch the board be located sixth elevating gear with peg graft between the silica gel sucking disc has the ejector pin, snatch the board top and be provided with seventh elevating gear, seventh elevating gear with the ejector pin is connected, snatchs the bamboo chip that removes on the conveyer belt to the loading board through cooperating with the support column and splices and remove to first rubberizing subassembly department to the lower surface of bamboo chip and glue and drive it to stack to loading board upper portion.

Further, grabbing board top one end is provided with the deflector, deflector one end with flexible backup pad grafting is connected for it is smooth and easy to snatch the board lift, avoids its lift and rotatory in-process to produce the displacement and influences the effect of bamboo chip rubberizing and concatenation.

Compared with the prior art, the invention has the beneficial effects that:

the automatic operation of the lower-most bamboo sheet splicing, the gluing after the lower-most bamboo sheet splicing, the gluing before the upper-layer bamboo sheet splicing, the splicing after the gluing of the upper-layer bamboo sheet and the moving during the bamboo sheet splicing can be realized, so that the stacked bamboo sheets form a structure that the upper surface of the upper-most bamboo sheet is not glued and the lower surface of the lower-most bamboo sheet is not glued, the manual labor intensity is greatly reduced, the production and processing efficiency is improved, and meanwhile, the consistency of the quality of a finished product can be conveniently ensured;

the bamboo chips can be limited through the splicing grooves and the limiting plates, so that the splicing effect of the bamboo chips is prevented from being influenced due to the fact that the spliced bamboo chips are separated from the bearing plates, meanwhile, according to the height of the stacked bamboo chips after being spliced, the height of the limiting plates can be adjusted under the cooperation of the supporting connecting plates and the second lifting devices, the stacked bamboo chips after being spliced are limited according to the change of the splicing heights of the bamboo chips, in addition, the lowest bamboo chips are adsorbed and fixed under the cooperation of the second negative pressure pump, the air suction port and the air duct, the displacement of the lowest bamboo chips when the upper surface of the lowest bamboo chips is glued by the second gluing component is avoided, the splicing effect of the bamboo chips is further improved, and the gluing effect of the lowest bamboo chips is guaranteed;

the lower surface of the bamboo chip can be glued through the first gluing component, the glue pool, the U-shaped supporting frame and the grabbing component, wherein the U-shaped supporting frame is obliquely arranged on the glue pool, so that the first gluing roller can conveniently enter the glue pool to carry out glue, the glue is painted on the lower surface of the bamboo chip, the excessive dripped glue can return to the glue pool again to be continuously used, the waste of the glue is reduced, and in addition, under the cooperation of the fixed buffer plate, the supporting mounting plate, the supporting screw, the fixed adjusting nut, the spring and the pressure sensor, the situation that the glue is applied to the lower surface of the bamboo chip by the first gluing roller is excessively large to crush the bamboo chip and the glue effect is influenced by excessively small pressure is avoided, and the gluing effect of the lower surface of the bamboo chip and the integrity of the glued bamboo chip are ensured;

the second gluing component can glue the upper surface of the lowest bamboo chip, and the first telescoping device is matched with the sealing plate to control the outflow of glue at the glue outlet, so that the influence of too little glue water on the gluing effect and the waste and even overflow of the outer side of the bamboo chip caused by too much glue water outflow are avoided;

the grabbing components can grab and move the bamboo chips on the conveyor belt to the bearing plate for splicing under the cooperation of the supporting columns, grab and move the bamboo chips on the conveyor belt to the first gluing component to glue the lower surfaces of the bamboo chips and drive the bamboo chips to move and stack the bamboo chips to the upper part of the bearing plate; the rotary connecting plate is connected with the rotary shaft, so that the bamboo chips can be driven to rotate, and the lower surfaces of the bamboo chips can be conveniently glued by the first gluing component; the mode of adsorbing the bamboo chip through the silica gel sucking disc that sets up can not damage the bamboo chip when guaranteeing to drive the bamboo chip removal, in addition, the ejector pin that sets up and seventh elevating gear cooperate can be convenient for the bamboo chip break away from the silica gel sucking disc.

Drawings

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

fig. 2 is an enlarged view of a portion a in fig. 1;

FIG. 3 is a schematic perspective view of a splicing table according to the present invention;

FIG. 4 is a schematic perspective view of another view angle of the splicing table according to the present invention;

FIG. 5 is a schematic cross-sectional view of a carrier plate according to the present invention;

FIG. 6 is a schematic structural view of a first glue assembly according to the present invention;

fig. 7 is an enlarged view of the portion B in fig. 6;

FIG. 8 is a schematic structural view of a second glue assembly according to the present invention;

FIG. 9 is a schematic cross-sectional view of a glue reservoir according to the present invention;

FIG. 10 is a schematic view of a support column according to the present invention;

FIG. 11 is a schematic view of a gripper assembly according to the present invention;

FIG. 12 is a schematic cross-sectional view of FIG. 11 taken along line C-C;

fig. 13 is a schematic structural view of the cooperative connection of the support beam and the telescopic support plate.

In the figure: the device comprises a 1-fixed bottom plate, a 2-control device, a 3-feeding frame, a 4-glue pool, a 5-splicing table, a 6-conveyor belt, a 7-U-shaped supporting frame, an 8-first gluing component, a 9-second gluing component, a 10-supporting column, an 11-first negative pressure pump, a 12-rotating shaft, a 13-rotating motor and a 14-grabbing component;

the splicing table comprises a splicing table body, 502-splicing grooves, 503-second negative pressure pumps, 504-supporting tables, 505-recovery boxes, 506-bearing plates, 507-first lifting devices, 508-air suction ports, 509-air channels, 510-limiting plates, 511-supporting connecting plates and 512-second lifting devices;

the device comprises a sliding support plate, an 802-third lifting device, 803-fixed buffer plates, 804-support mounting plates, 805-support screws, 806-fixed adjusting nuts, 807-springs, 808-pressure sensors, 809-first glue rollers and 810-first support bearing seats;

the movable cross beam, 902-fourth lifting device, 903-lifting installation frame, 904-second glue applying roller, 905-second supporting bearing seat, 906-glue storage box, 907-glue outlet, 908-sealing plate and 909-first telescoping device;

the sliding seat, 1002-lifting support columns, 1003-fifth lifting devices, 1004-plug seats and 1005-plug boards;

1401-supporting beam, 1402-rotating connecting plate, 1403-telescopic supporting plate, 1404-second telescopic device, 1405-sixth lifting device, 1406-grabbing plate, 1407-silica gel sucker, 1408-ejector rod, 1409-seventh lifting device, 1410-guiding plate.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The bamboo chip splicing device for processing the bamboo compartment bottom plate comprises a fixed bottom plate 1, a control device 2, a feeding frame 3, a glue pool 4 and a splicing table 5 are sequentially arranged on the upper portion of the fixed bottom plate 1 in the transverse direction, a conveying belt 6 is arranged on the upper portion of the feeding frame 3, a U-shaped supporting frame 7 is obliquely arranged on the outer surface of the glue pool 4, a first gluing component 8 is slidingly connected with the U-shaped supporting frame 7, a second gluing component 9 is slidingly connected with the outer surface of the splicing table 5, a supporting column 10 is slidingly connected with one end of the upper portion of the fixed bottom plate 1 in the transverse direction, a first negative pressure pump 11 is arranged at the top of the supporting column 10, a rotating shaft 12 is arranged at the upper end of the supporting column 10, a rotating motor 13 is arranged on one side surface of the supporting column 10, which is longitudinally far away from the feeding frame 3, a grabbing component 14 is arranged at one end of the rotating shaft 12, and a movable component is arranged between the first gluing component 8 and the U-shaped supporting frame 7, between the second gluing component 9 and the splicing table 5 and between the supporting column 10 and the fixed bottom plate 1.

As shown in fig. 3 to 5, the splicing table 5 comprises a splicing table body 501, a splicing groove 502 is arranged at the top of the splicing table body 501, a second negative pressure pump 503 is arranged on the surface of one lateral side of the splicing table body 501, supporting tables 504 are arranged on two longitudinal sides of the second negative pressure pump 503 and are connected with the splicing table body 501, a recovery box 505 is arranged between the splicing table bodies 501, a bearing plate 506 is arranged in the splicing groove 502, a first lifting device 507 is arranged below the splicing table body 501, the first lifting device 507 penetrates through the splicing table body 501 and is connected with the bearing plate 506, a plurality of air inlets 508 are equidistantly arranged at the top of the bearing plate 506, an air duct 509 is arranged in the bearing plate 506, the second negative pressure pump 503 and the air inlets 508 are all communicated with the air duct 509, limiting plates 510 are arranged on two lateral sides and two longitudinal sides of the bearing plate 506 and are connected with the splicing table body 501 in a splicing manner, a supporting connection plate 511 is arranged between the limiting plates 510 below the splicing table body 501, a second lifting device 512 is arranged between the supporting connection plate 511 and the fixed bottom plate 1, the bamboo chips are limited through the splicing grooves 502 and the limiting plates 510, displacement generated in the splicing process of the spliced bamboo chips is avoided to be separated from the bearing plates 506, meanwhile, the height of the limiting plates 510 can be adjusted according to the height of the spliced bamboo chips, the height of the spliced bamboo chips is changed along with the change of the splicing height of the bamboo chips under the cooperation of the supporting connection plate 511 and the second lifting device 512, the bamboo chips stacked after the splicing and gluing are limited, the adsorption and fixation of the lowest bamboo chips are realized under the cooperation of the second negative pressure pump 503, the air suction opening 508 and the air duct 509, the displacement generated by the lowest bamboo chips when the upper surfaces of the lowest bamboo chips are glued by the second gluing component 9 is avoided, further improving the splicing effect of the bamboo chips and ensuring the gluing effect of the lowest bamboo chip.

As shown in fig. 6 to 7, the first rubberizing assembly 8 comprises a sliding support plate 801, the sliding support plate 801 is slidably connected with the upper surface of the U-shaped support frame 7, a third lifting device 802 is arranged at the top of the sliding support plate 801, a fixed buffer plate 803 is arranged at the bottom of the third lifting device 802 through the sliding support plate 801, a support mounting plate 804 is arranged at one side of the fixed buffer plate 803 far away from the sliding support plate 801, support screws 805 are arranged at both ends of the fixed buffer plate 803, a fixed adjusting nut 806 is arranged at one end of the support screws 805 through the support mounting plate 804, a spring 807 is arranged between the fixed buffer plate 803 and the support mounting plate 804, a pressure sensor 808 is arranged between the spring 807 and the fixed buffer plate 803, a first rubberizing roller 809 is arranged at one side of the support mounting plate 804 far away from the fixed buffer plate 803, a first support bearing seat 810 is arranged at both ends of the first rubberizing roller 809, one side of the first supporting bearing seat 810 is connected with the supporting mounting plate 804, and is matched with the glue pool 4, the U-shaped supporting frame 7 and the grabbing component 14 to glue the lower surface of the bamboo chip, wherein the U-shaped supporting frame 7 is obliquely arranged on the glue pool, so that the first glue applying roller 809 can conveniently enter the glue pool 4 to take out glue and brush the lower surface of the bamboo chip, and the excessive dropped glue can be returned to the glue pool again to be used continuously, thereby reducing the waste of the glue, simultaneously under the matching of the fixed buffer plate 803, the supporting mounting plate 804, the supporting screw 805, the fixed adjusting nut 806, the spring 807 and the pressure sensor 808, the phenomenon that the pressure applied by the first glue applying roller 809 when gluing the lower surface of the bamboo chip is overlarge to crush the bamboo chip and the effect of gluing is influenced by the too small applied pressure can be avoided, the gluing effect of the lower surface of the bamboo chip and the integrity of the quality of the glued bamboo chip are ensured.

Referring to fig. 8 to fig. 9, the second glue applying assembly 9 includes a movable cross beam 901, inner surfaces on two longitudinal sides of the movable cross beam 901 are respectively slidably connected with outer surfaces on two longitudinal sides of a splicing table 5, a fourth lifting device 902 is disposed on the top of the movable cross beam 901, a lifting mounting frame 903 is mounted on the bottom of the fourth lifting device 902 through the movable cross beam 901, a second glue applying roller 904 is disposed below the lifting mounting frame 903, second support bearing seats 905 are disposed on two ends of the second glue applying roller 904, the top of the second support bearing seats 905 is connected with the lifting mounting frame 903, a glue storage tank 906 is disposed on one side of the lifting mounting frame 903, a glue outlet 907 is disposed at the bottom of the glue storage tank 906 and corresponds to the position of the second glue applying roller 904, a sealing plate 908 is disposed at the position of the glue outlet 907, a first telescopic device 909 is disposed on one side of the glue storage tank 906, one end of the first telescopic device 909 extends into the glue storage tank 906 and is connected with the sealing plate 908, a corrugated protective cover is disposed between the sealing plate 908 and the inner surface of the glue storage tank 906, glue is applied to the upper surface of a lowest bamboo piece, the upper surface is covered by the first telescopic device, the upper surface of the bamboo piece is matched with the sealing plate 908 and the sealing plate 908, the sealing plate is controlled by the sealing plate 908, and the glue is prevented from overflowing out of the sealing plate, and the glue is prevented from overflowing out of the bamboo piece normally, and the bamboo piece is normally, and the glue is prevented from overflowing out due to the normal material.

Referring to fig. 10, the support column 10 includes a slider 1001 slidably connected with the fixed base plate 1, a lifting support column 1002 is disposed above the slider 1001, a fifth lifting device 1003 is disposed between the slider 1001 and the lifting support column 1002, sockets 1004 are disposed on two sides of the fifth lifting device 1003 at the top of the slider 1001, plug boards 1005 are disposed on two ends of the bottom of the lifting support column 1002, the plug boards 1005 are plug-connected with the sockets 1004, and a rotating shaft 12 is disposed on the upper end of the lifting support column 1002 to drive the grabbing component 14 to move in a lateral direction and to move in a lifting direction.

As shown in fig. 11 to 13, the grasping assembly 14 includes a support beam 1401, one end of the support beam 1401 is provided with a rotary connecting plate 1402, the other end is inserted with a telescopic supporting plate 1403, the rotary connecting plate 1402 is fixedly connected with a rotary shaft 12, a second telescopic device 1404 is provided inside the support beam 1401, one end of the second telescopic device 1404 is connected with the telescopic supporting plate 1403, one end of the telescopic supporting plate 1403, which is far away from the rotary connecting plate 1402, is provided with a sixth lifting device 1405, one end of the sixth lifting device 1405 passes through the telescopic supporting plate 1403 to be provided with a grasping plate 1406, the bottom of the grasping plate 1406 is provided with a silica gel sucker 1407 on both sides of the sixth lifting device 1405, the silica gel sucker 1407 is communicated with the first negative pressure pump 11, a push rod 1408 is inserted between the sixth lifting device 1405 and the silica gel sucker 1407, the top of the grasping plate 1406 is provided with a seventh lifting device 1409, the seventh elevating gear 1409 is connected with ejector pin 1408, through the cooperation with support column 10, realize snatching the bamboo chip on the conveyer belt 6 and remove to the loading board 506 and splice and snatch the bamboo chip on the conveyer belt 6 and remove to first rubberizing subassembly 8 department and glue the lower surface of bamboo chip and drive it and remove and stack to loading board 506 upper portion, be connected with rotation axis 12 through rotatory connecting plate 1402 that sets up simultaneously, realize driving the bamboo chip rotatory, be convenient for first rubberizing subassembly 8 glue the lower surface of bamboo chip, in addition, the mode through the silica gel sucking disc 1407 that sets up adsorbs the bamboo chip is guaranteeing to drive the bamboo chip and can not damage the bamboo chip when removing, ejector pin 1408 and seventh elevating gear 1409 that the cooperation set up can be convenient for the bamboo chip follow silica gel and inhale, 1407 break away from.

25. The bottom of the bearing plate 506 is provided with a plurality of guide rods corresponding to the position of the supporting connecting plate 511, the top of the fixed buffer plate 803 and the top of the lifting mounting frame 903, and the guide rods are respectively connected with the supporting connecting plate 511, the sliding supporting plate 801 and the movable cross beam 901 in a plugging manner, so that the bearing plate 506, the fixed buffer plate 803 and the lifting mounting frame 903 are ensured to be lifted smoothly, and displacement is avoided in the lifting process; the sliding seat 1001 and the inserting seat 1004 and the lifting support column 1002 and the inserting plate 1005 are connected in a welding mode, so that the connection firmness between the mutual structures is improved, and the use safety and the service life are improved; the guide plate 1410 is arranged at one end of the top of the grabbing plate 1406, and one end of the guide plate 1410 is connected with the telescopic supporting plate 1403 in a plug-in mode, so that the grabbing plate 1406 can be lifted smoothly, and the effects of gluing and splicing bamboo chips are prevented from being influenced due to displacement generated in the lifting and rotating processes.

26. Wherein the first negative pressure pump 11, the rotating electrical machine 13, the second negative pressure pump 503, the first lifting device 507, the second lifting device 512, the third lifting device 802, the pressure sensor 808, the fourth lifting device 902, the first telescopic device 909, the fifth lifting device 1003, the second telescopic device 1404, the sixth lifting device 1405 and the seventh lifting device 1409 are all electrically connected with the control device 2, and are used for controlling the working states of the first negative pressure pump 11, the rotating electrical machine 13, the second negative pressure pump 503, the first lifting device 507, the second lifting device 512, the third lifting device 802, the fourth lifting device 902, the first telescopic device 909, the fifth lifting device 1003, the second telescopic device 1404, the sixth lifting device 1405 and the seventh lifting device 1409, and receiving signals transmitted by the pressure sensor 808, wherein the first lifting device 507, the second lifting device 512, the third lifting device 802, the fourth lifting device 902, the first telescopic device 909, the fifth lifting device 1003, the second lifting device 1405, the sixth lifting device 1409 are any one of hydraulic cylinders or any one of the hydraulic cylinders 1409; further, regarding the moving components arranged between the first rubberizing component 8 and the U-shaped supporting frame 7, between the second rubberizing component 9 and the splicing table 5 and between the supporting column 10 and the fixed bottom plate 1, the moving components are one of a gear-rack matching transmission mode, a belt pulley matching transmission mode or a chain matching sprocket transmission mode, in the application, the gear-rack matching transmission mode is preferable, and the moving component mounting structure between the first rubberizing component 8 and the U-shaped supporting frame 7 is as follows: a motor with a gear is arranged on the sliding support plate 801, a transmission rack is arranged on the U-shaped support frame 7, then the gear is meshed with the rack, and further the first rubberizing component 8 moves on the U-shaped support frame 7, the second rubberizing component 9 and the splicing table 5 and the support column 10 and the fixed bottom plate 1 are arranged in the same way, wherein rotating motors in the moving components between the first rubberizing component 8 and the U-shaped support frame 7, between the second rubberizing component 9 and the splicing table 5 and between the support column 10 and the fixed bottom plate 1 are also electrically connected with the control device 2; the conveyor belt 6 is composed of a conveyor belt, a driving roller and a driving motor and is used for conveying and feeding the bamboo chips.

Working principle: the bamboo chips are equidistantly transmitted on a conveyor belt, the grabbing component can be driven to move to the upper part of the bamboo chips under the cooperation of the supporting columns and the moving component, the sixth lifting device drives the grabbing plate to descend, so that the silica gel wires are in contact with the bamboo chips, the first negative pressure pump is controlled to work and adsorb the bamboo chips, then the bamboo chips are moved to the upper part of the bearing plate under the cooperation of the supporting columns and the moving component, the first negative pressure pump stops working, so that the silica gel sucker does not provide adsorption force for the bamboo chips any more, then the seventh lifting device is controlled to drive the ejector rod to descend, so that the bamboo chips are separated from the silica gel sucker and placed on the upper part of the bearing plate, then the bamboo chips are spliced according to the sequential operation, until the upper surface of the bearing plate is fully lined with the bamboo chips in sequence, then the second negative pressure pump is controlled to start working, the adsorption force is generated for the bamboo chips through the air suction inlet on the bearing plate, then the limiting plate is driven to descend under the driving of the second lifting device and the supporting connecting plate, the upper surface of the bamboo chips can be glued through the second gluing component, the gluing work of the upper surface of the lowest bamboo chip is completed, then under the cooperation of the supporting column and the moving component, the grabbing component is driven to grab the bamboo chips on the conveyor belt, then the bamboo chips are driven to move to the first gluing component, under the cooperation of the rotating motor and the rotating shaft, the inclination angle of the bamboo chips is rotated, the lower surface of the bamboo chips is in a state parallel to the U-shaped supporting frame, then the first gluing component can be controlled to glue the lower surface of the bamboo chips, after the gluing is completed, the bamboo chips with the glued lower surface are stacked on the upper part of the bamboo chips with the glued upper surface through the cooperation of the supporting column, the grabbing component and the moving component, the bamboo chips with the glued lower surface are paved with a layer after the upper part of the bamboo chips with the glued upper surface, according to the actual demand can lay a plurality of layers, and the limiting plate that sets up then under the cooperation of second elevating gear and supporting connection board, according to the number of piles up of actual bamboo chip, follows and rises to different altitudes, and after the bamboo chip concatenation piles up at last, second elevating gear and supporting connection board match and drive the limiting plate and descend, splice the bamboo chip after pile up and rise to splice bench body top under the drive of first elevating gear and loading board can.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. Bamboo carriage bottom plate processing is with bamboo chip splicing apparatus, including fixed baseplate (1), its characterized in that: the utility model discloses a fixed bottom plate (1), fixed bottom plate (1) upper portion has set gradually controlling means (2), material loading frame (3), glue pond (4) and concatenation platform (5) along transversely, material loading frame (3) upper portion is provided with conveyer belt (6), U type support frame (7) are installed to glue pond (4) surface slope, U type support frame (7) sliding connection has first rubberizing subassembly (8), concatenation platform (5) surface sliding connection has second rubberizing subassembly (9), fixed bottom plate (1) upper portion vertical one end has support column (10) along transversely sliding connection, support column (10) top is provided with first negative pressure pump (11), support column (10) upper end is provided with rotation axis (12), support column (10) vertically keep away from material loading frame (3) one side surface is provided with rotating electrical machines (13) with rotation axis (12) are connected, rotating electrical machines support beam (13) one end is installed and is snatched subassembly (14), it includes support column (1403) to snatch subassembly (14), support column (1402) top is provided with rotary connection board 1401 (1402) and rotatory connection board (1402) are fixed connection board (1402), the support beam (1401) is internally provided with a second telescopic device (1404), one end of the second telescopic device (1404) is connected with the telescopic support plate (1403), one end of the top of the telescopic support plate (1403) far away from the rotary connection plate (1402) is provided with a sixth lifting device (1405), one end of the sixth lifting device (1405) penetrates through the telescopic support plate (1403) to be provided with a grabbing plate (1406), the bottoms of the grabbing plates (1406) are positioned at two sides of the sixth lifting device (1405) and are provided with silica gel suckers (1407), the silica gel suckers (1407) are communicated with the first negative pressure pump (11), the grabbing plates (1406) are positioned between the sixth lifting device (1405) and the silica gel suckers (1407) in an inserted manner, the tops of the grabbing plates (1406) are provided with seventh lifting devices (1409), the seventh lifting devices (1409) are connected with the jacking plates (1408), and the first gluing component (8) and the U-shaped supporting frame (5) are provided with a fixed base plate (10);

the first rubberizing subassembly (8) is including slip backup pad (801), slip backup pad (801) with U type support frame (7) upper surface sliding connection, slip backup pad (801) top is provided with third elevating gear (802), third elevating gear (802) bottom is passed slip backup pad (801) are installed fixed buffer board (803), fixed buffer board (803) keep away from slip backup pad (801) one side is provided with support mounting plate (804), fixed buffer board (803) both ends all are provided with supporting screw (805), supporting screw (805) one end is passed supporting mounting plate (804) are installed fixed adjusting nut (806), supporting screw (805) are located fixed buffer board (803) with be provided with spring (807) between supporting mounting plate (804), spring (807) with be provided with pressure sensor (808) between fixed buffer board (803) one side is kept away from fixed buffer board (803) is provided with first rubberizing roller (809), first rubber bearing frame (803) both ends are connected with first support mounting plate (810).

2. The bamboo chip splicing device for processing the carriage bottom plate of the bamboo car according to claim 1, wherein the splicing table (5) comprises a splicing table body (501), a splicing groove (502) is formed in the top of the splicing table body (501), a second negative pressure pump (503) is arranged on the surface of one transverse side of the splicing table body (501), supporting tables (504) are arranged on two longitudinal sides of the second negative pressure pump (503) and are connected with the splicing table body (501), a recovery box (505) is arranged between the splicing table body (501), a bearing plate (506) is arranged in the splicing groove (502), a first lifting device (507) is arranged below the splicing table body (501), the first lifting device (507) penetrates through the splicing table body (501) and is connected with the bearing plate (506), a plurality of air suction ports (508) are formed in the top of the bearing plate (506) at equal intervals, air suction ports (509) are formed in the interior of the bearing plate (506), the second negative pressure pump (503) and the air suction ports (508) and the air suction ports (509) are connected with the bearing plate (506), and the two longitudinal sides of the bearing plate (506) and the two air suction ports (506) are connected with the two transverse sides of the bearing plate (510), a supporting connection plate (511) is arranged between the limiting plates (510) below the splicing table body (501), and a second lifting device (512) is arranged between the supporting connection plate (511) and the fixed bottom plate (1).

3. The bamboo chip splicing device for processing the carriage bottom plate of the bamboo as claimed in claim 2, wherein the second glue applying assembly (9) comprises a movable cross beam (901), inner surfaces at two longitudinal sides of the movable cross beam (901) are respectively and slidably connected with outer surfaces at two longitudinal sides of the splicing table (5), a fourth lifting device (902) is arranged at the top of the movable cross beam (901), a lifting mounting frame (903) is arranged at the bottom of the fourth lifting device (902) in a penetrating way through the movable cross beam (901), a second glue applying roller (904) is arranged below the lifting mounting frame (903), second support bearing seats (905) are arranged at two ends of the second glue applying roller (904), the top of the second support bearing seats (905) is connected with the lifting mounting frame (903), a glue storage box (906) is arranged at one transverse side of the lifting mounting frame (903), a glue outlet (907) is arranged at the bottom of the glue storage box (906) corresponding to the second glue applying roller (904), a sealing plate (908) is arranged at the bottom of the fourth lifting device, a sealing plate (908) is arranged at the position corresponding to the bottom of the glue storage box (906), a first end (906) is connected with a sealing plate (906) and the first end (906) is arranged at the inner side of the sealing plate (906), a corrugated protection cover is arranged between the sealing plate (908) and the inner surface of the glue storage box (906) by the first telescopic device (909).

4. The bamboo splint splicing device for processing the bamboo compartment floor according to claim 3, wherein a plurality of guide rods are respectively arranged at the bottom of the bearing plate (506) corresponding to the position of the supporting connecting plate (511), at the top of the fixed buffer plate (803) and at the top of the lifting mounting frame (903) and are respectively in plug connection with the supporting connecting plate (511), the sliding supporting plate (801) and the movable cross beam (901).

5. The bamboo chip splicing device for processing the carriage bottom plate of the bamboo as claimed in claim 1, wherein the supporting column (10) comprises a sliding seat (1001) which is slidably connected with the fixed bottom plate (1), a lifting supporting column (1002) is arranged above the sliding seat (1001), a fifth lifting device (1003) is arranged between the sliding seat (1001) and the lifting supporting column (1002), inserting seats (1004) are arranged on two sides of the top of the sliding seat (1001) which are positioned on the fifth lifting device (1003), inserting plates (1005) are arranged on two ends of the bottom of the lifting supporting column (1002), the inserting plates (1005) are in inserting connection with the inserting seats (1004), and the rotating shaft (12) is arranged on the upper end of the lifting supporting column (1002).

6. The bamboo splint splicing device for bamboo compartment floor processing as claimed in claim 5, wherein the sliding seat (1001) and the inserting seat (1004) and the lifting support column (1002) and the inserting plate (1005) are connected by welding.

7. The bamboo splint splicing device for bamboo compartment floor processing as claimed in claim 1, wherein a guide plate (1410) is arranged at one end of the top of the grabbing plate (1406), and one end of the guide plate (1410) is in plug-in connection with the telescopic supporting plate (1403).