CN116001056B - Automatic plate cutting and assembling device and method for deck chair production - Google Patents

Abstract

The invention provides a plate automatic cutting and assembling device and method for deck chair production, which relate to the technical field of deck chair processing and comprise the following steps: a pushing frame and an assembling structure; the assembly structure is arranged at the front side of the pushing frame; the top of the pushing frame is fixedly connected with an inclined guide plate; the front end of the pushing frame is fixedly connected with a fixed plate frame, the top of the fixed plate frame is fixedly connected with a longitudinal beam, the front end and the rear end of the top of the longitudinal beam are fixedly connected with supporting plates through supporting columns, the electric push rod C runs to drive the nailing gun to transversely translate, the square rod is driven to rotate through a square groove at the rotating shaft of the double-shaft motor, the telescopic rod can be used for driving the telescopic rod to stretch after transverse translation, the nailing gun can be used for transversely nailing and fixing the belt at the bottom of the wood board, the firmness of the belt can be improved, the back plate of the deck chair can be automatically assembled and connected in series, and the problem that the traditional method is inconvenient to automatically assemble the embedded backrest and a large amount of manpower is consumed in the processing process is solved.

Description

Automatic plate cutting and assembling device and method for deck chair production

Technical Field

The invention relates to the technical field of deck chair processing, in particular to an automatic plate cutting and assembling device and method for deck chair production.

Background

The traditional wooden folding deck chair consists of armrests on two sides, hinged supporting legs and an embedded backrest, the backrest in the wooden deck chair consists of wood strip sections and belts for serial connection, a cutting machine is needed to be used for sectionally reprocessing strip-shaped plates during processing of the wooden deck chair, chamfering treatment is needed to be carried out on two sides of the top of each sectioned wood strip section so as to avoid excessive friction of the plates on the back of a user, the wide strip belts are needed to be assembled on the back of each plate, the automatic mechanical assembly of the embedded backrest is inconvenient to carry out in the existing method, a large amount of manpower is consumed during the processing process, and the alignment processing is needed to be carried out on the wood strip sections during manual planing and milling so as to ensure accuracy and the processing efficiency is not easy to improve.

The automatic cutting and assembling device and method for the plates for producing the existing deck chairs are convenient for automatically cutting and chamfering the wood plate sections in the embedded backrest of the wood deck chair so as to reduce the manpower consumption, and are convenient for automatically assembling the wood plate sections in the embedded backrest and the connecting belt so as to improve the processing efficiency and quality.

Accordingly, the present invention has been made in view of the above-mentioned problems and disadvantages, and it is an object of the present invention to provide an apparatus and a method for automatically cutting and assembling a plate for producing a reclining chair, which are more practical.

Disclosure of Invention

In view of this, the invention provides a plate automatic cutting and assembling device and method for deck chair production, which can drive a nail gun to transversely translate through the operation of an electric push rod C, drive a square rod to rotate through a square groove at a rotating shaft of a double-shaft motor, drive a telescopic rod after transverse translation to stretch, drive the nail gun to transversely nailing and fix a belt at the bottom of a wood plate, improve the firmness of the belt, and automatically assemble and connect a deck chair back plate in series.

The invention provides a plate automatic cutting and assembling device and method for deck chair production, which specifically comprise the following steps: a pushing frame and an assembling structure; the assembly structure is arranged at the front side of the pushing frame; the top of the pushing frame is fixedly connected with an inclined guide plate; the front end of the pushing frame is fixedly connected with a solid plate frame, the top of the solid plate frame is fixedly connected with a longitudinal beam, the front end and the rear end of the top of the longitudinal beam are fixedly connected with supporting plates through supporting columns, the left side and the right side of each supporting plate are provided with conveying tracks, the middle section of each longitudinal beam is fixedly connected with a bottom supporting hydraulic cylinder, the top of a telescopic part of the bottom supporting hydraulic cylinder is fixedly connected with the inner side elevation of the bottom of each conveying track, the elevation of the front end and the rear end of each supporting plate is fixedly connected with a motor, and the rotating shaft of each motor is provided with a limiting clamping plate through coaxial connection; the top of the fixed plate frame is fixedly connected with a reciprocating screw A, the upper side of the reciprocating screw A is fixedly connected with a top hydraulic cylinder, the bottom of a telescopic part of the top hydraulic cylinder is fixedly connected with a penetrating rod, the penetrating rod penetrates through the reciprocating screw A and is arranged on the inner sides of two adjacent limiting rods, the limiting rods are arranged on two sides of the penetrating rod along the length direction of the reciprocating screw A, and the bottom of the penetrating rod is fixedly connected with a lower pressing strip; the left side and the right side of the solid plate frame are fixedly connected with side electric push rods, and the inner side of the telescopic part of each side electric push rod is fixedly connected with a clamping plate; the right side of the reciprocating screw A is fixedly connected with a side reciprocating screw, and the left side of the ball nut seat of the side reciprocating screw is fixedly connected with a jigsaw; the assembly structure comprises a belt roller, and a belt supporting frame is arranged on the left side of the belt roller; the left side of the belt roller is provided with a conveying roller frame, the top of the conveying roller frame is provided with a conveying roller through rotary connection, the outer side of the conveying roller is fixedly connected with a latch, and the outer side of the conveying roller is sleeved with a chain plate; the front end of the reciprocating screw A is fixedly connected with a reciprocating screw B, and the bottom of a ball nut seat of the reciprocating screw B is fixedly connected with a reciprocating circular saw.

Optionally, the bottom of the ball nut seat of the reciprocating screw A is fixedly connected with a base, a spring rod A is arranged on the inner side of the bottom of the base in a penetrating way, and the inner side end of the spring rod A is fixedly connected with a transverse moving seat.

Optionally, both ends fixedly connected with balladeur train around the sideslip seat, balladeur train quantity sets up to two sets of, and the balladeur train is inside to be provided with the slide through sliding connection, fixedly connected with tie-beam between two sets of slides around, and the inside fixedly connected with electric putter A of sideslip seat, electric putter A telescopic part outside end and tie-beam fixed connection are located the slide bottom fixedly connected with chamfer motor of front side, chamfer motor pivot bottom fixedly connected with conical milling cutter, and the slide bottom that is located the rear side is provided with the centre gripping wheel through rotating the connection.

Optionally, the link joint top fixedly connected with side shield, the front and back both ends fixedly connected with wedge limit at link joint top.

Optionally, conveying roller frame top fixedly connected with electric putter B, electric putter B expansion portion bottom fixedly connected with holding down plate, conveying roller frame top is provided with the flattening roller through rotating the connection.

Optionally, the inboard fixedly connected with chassis of conveying roller frame, chassis top fixedly connected with biax motor, square recess has been seted up to biax motor shaft inboard, and square recess inboard is provided with the square pole through sliding connection.

Optionally, chassis top fixedly connected with electric putter C, electric putter C expansion portion outside end fixedly connected with sleeve pipe, the sleeve pipe inboard is provided with the telescopic link through sliding connection, and the telescopic link bottom rotates and is connected with the crank connecting rod, and the crank and the square pole coaxial coupling of crank connecting rod bottom, telescopic link top fixedly connected with nail rifle, chassis top fixedly connected with electric putter D, electric putter D expansion portion top fixedly connected with fork opening board.

Optionally, conveying roller frame top fixedly connected with electric putter E, electric putter E expansion portion front end side is provided with spring lever B through sliding connection, spring lever B top fixedly connected with humidity probe, and humidity probe outside bottom is provided with the gyro wheel through rotating the connection, and electric putter E outside fixedly connected with inclination.

Optionally, conveying roller frame top fixedly connected with wave bracket, wave bracket are located the link joint inboard, conveying roller frame left end top fixedly connected with transmission frame, and transmission frame inboard top is provided with the top roller through rotating the connection, and the curved side fixedly connected with latch of top roller, transmission frame inboard bottom are provided with the bottom roller through rotating the connection, and the left and right sides fixedly connected with draw-in groove tooth of the curved side of bottom roller, bottom roller middle section fixedly connected with pipe box.

The use method of the automatic plate cutting and assembling device for deck chair production comprises 1) firstly, placing a plate finished product on the top of a pushing frame, pushing the plate forwards by a user, limiting the transverse position of the plate in the pushing process by the oblique guide plates at the left side and the right side, pushing the plate to the top of a supporting plate, driving a limiting clamping plate to rotate by the operation of a control motor, clamping and fixing the front end and the rear end of the plate at the top of the supporting plate, synchronously operating by the side electric push rods at the left side and the right side, synchronously clamping the left side and the right side of the plate by the telescopic parts at the left side and the right side, synchronously positioning the front side and the right side of the plate by the telescopic parts at the left side and the right side, driving the lower pressing strip at the bottom of a penetrating rod to downwards pass through a reciprocating screw A by the operation of a control top hydraulic cylinder, contracting the telescopic parts of the side electric push rod telescopic parts, driving a vertical saw to longitudinally move at the side surface by the operation of the control side reciprocating screw, cutting the side ends of the vertical saw, synchronously clamping the plate at the left side and the right side by the control motor, driving the plate seat of the reciprocating screw A by the control motor, and driving the plate longitudinal sliding nuts at the left side and right side of the plate by the ball screw, and horizontally moving the rolling screw seat of the plate by the control motor, and horizontally moving the rolling screw to the plate by the ball screw, and horizontally moving the rolling screw seat of the plate by the rolling seat of the rolling screw, and the rolling nuts at the left side and the plate seat of the plate and the plate, the adjacent penetrating rods are upwards retracted, the telescopic parts of the three groups of top hydraulic cylinders are sequentially telescopic, the lower pressing strips at the bottoms of the two groups of top hydraulic cylinders can always press and position the plates in the longitudinal translation process of the base, and the plates can always keep stable in the chamfering process of the wood plate cutting knife; 2) Then, after the board is subjected to narrow cutting and chamfering treatment, the telescopic part of the top hydraulic cylinder is controlled to shrink to release the downward pressing of the board, the telescopic part of the top hydraulic cylinder is controlled to operate to push the conveying crawler belt upwards, the crawler belt can be used for supporting the board upwards, the board can be intermittently conveyed forwards by controlling the crawler belt to operate, and meanwhile, the reciprocating screw rod B can be used for driving the reciprocating circular saw to cut the board in a segmented manner by controlling the intermittent operation of the top hydraulic cylinder; 3) Then, the conveying roller on the conveying roller frame is driven to rotate step by controlling the stepping motor, the chain plate can be driven to carry out step transmission, the plank sections which are cut in a segmented mode can be sequentially stored, after falling on the top of the chain plate, the plank sections can slide to the central area of the chain plate through the wedge edge and the side baffle, the spring rod B on the side face of the telescopic part of the electric push rod E can translate by controlling the electric push rod E to reciprocate, the electric push rod E can drive the humidity probe to horizontally move, the roller on the side face of the electric push rod E supports the inclined frame top, the humidity probe can vertically move in the horizontal movement process, the humidity probe can upwards contact the bottom of the plank, the humidity of the plank sections can be sequentially checked, then the electric push rod B is controlled to intermittently operate, simultaneously, the electric push rod D is controlled to operate, the fork opening plate is pushed upwards to the wood plate section, the fork opening plate and the lower pressure plate above the fork opening plate are clamped and fixed to the current wood plate section, the telescopic rod of the rotating shaft of the electric push rod C drives the nail gun to translate upwards to nailing the belt at the bottom of the wood plate, the electric push rod C operates, the square rod is driven to rotate through the square groove at the rotating shaft of the double-shaft motor, the telescopic rod after the transverse translation is driven to stretch, the nail gun is enabled to transversely nailing and fix the belt at the bottom of the wood plate, the firmness of the belt is improved, and the deck chair back plate is connected in series; 4) Then, through the inside top roller of control transmission frame and bottom roller carry out synchronous reverse rotation, can make its draw-in groove tooth rotate the in-process and transmit the plank at plank clearance, can be with the back transmission of the deck chair backplate of connection shaping, the deck chair that the processor can be according to different models, pack into the deck chair rear side after cutting segmentation with the deck chair backplate.

Compared with the traditional cutting and assembling device, the cutting and assembling device has the advantages that the electric push rod B is controlled to intermittently operate, the telescopic part of the cutting and assembling device drives the lower pressing plate to downwardly press the top surface of the wood plate section, meanwhile, the electric push rod D is controlled to operate, the forked plate is pushed upwards to the wood plate section, the forked plate and the lower pressing plate above the forked plate are clamped and fixed on the current wood plate section, the double-shaft motor is controlled to operate, the telescopic rod at the top of the crank connecting rod is driven by the rotating shaft of the electric push rod B to drive the nailing gun to upwardly translate to nailing the belt at the bottom of the wood plate, the square rod is driven by the square groove at the rotating shaft of the double-shaft motor to rotate, the telescopic rod after the transverse translation is driven by the electric push rod D to transversely nailing and fix the belt at the bottom of the wood plate, the firmness of the belt wood plate can be improved, and the deck chair back plate can be automatically assembled in series.

In addition, through setting up the inclination, through the reciprocal operation of control electric putter E, can make its flexible portion side spring beam B translate, can make it drive the humidity probe and carry out horizontal migration, support at the inclination top through the gyro wheel of its side, can make the humidity probe horizontal migration in-process carry out vertical migration, can make the humidity probe upwards contact the plank bottom, can inspect plank section humidity in proper order.

In addition, through setting up sideslip seat, make panel narrow back, through control reciprocating screw A operation, can make its ball nut seat drive the base and carry out vertical translation, through control electric putter A synchronous contraction, can make its telescopic part drive the tie-beam of left and right sides and draw close to inboard, can make the centre gripping wheel of left and right sides carry out the centre gripping to plank left and right sides facade, through control chamfer motor operation, can make its back taper milling cutter who drives the left and right sides carry out plank top edge and chamfer, can carry out automatic cutout and chamfer processing to panel raw materials.

In addition, through setting up the pole of wearing, carry out vertical translation in-process at reciprocating screw A ball nut seat, carry out reciprocating operation through controlling three top pneumatic cylinders, when can making the base not touching and wearing the pole, make it upwards pack up the pole of wearing that will be close to, stretch out and draw back in proper order through three top pneumatic cylinder telescopic sections, can make wherein the lower layering of two sets of top pneumatic cylinder bottoms push down the location to panel all the time at the in-process of vertical translation of base, can keep stable in carrying out plank cutting and chamfer in-process.

In addition, through setting up and carrying the track, through controlling the operation of holding in the palm the bottom hydraulic cylinder, make its telescopic part upwards promote and carry the track, can make the track upwards hold up the panel, through controlling the track operation, can carry out the intermittent type with the plank forward and carry, simultaneously through top hydraulic cylinder intermittent type operation, can drive reciprocating screw B and carry out segmentation cutting and transport to the plank with reciprocating circular saw.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of the right-hand perspective structure of the overall cutting assembly device according to an embodiment of the present invention;

FIG. 2 shows a schematic view of the rear side perspective of the overall cutting assembly device according to an embodiment of the present invention;

fig. 3 shows a schematic view of a left-side three-dimensional structure of a reciprocating screw a of a cutting assembly device according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a partial enlargement of A in FIG. 3 according to an embodiment of the invention;

FIG. 5 shows a schematic view of a top perspective view of a transfer roller housing of a cutting assembly device according to an embodiment of the invention;

FIG. 6 shows a partially enlarged schematic illustration of B in FIG. 5 in accordance with an embodiment of the invention;

fig. 7 shows a schematic view of a perspective structure of a chassis of a cutting assembly device according to an embodiment of the present invention;

fig. 8 is a schematic view showing a bottom perspective structure of an electric putter E of a cutting assembly device according to an embodiment of the present invention;

fig. 9 is a schematic view showing a perspective structure of a traverse table of a cutting and assembling device according to an embodiment of the present invention;

FIG. 10 illustrates a schematic view of a bottom perspective of the overall cutting assembly device according to an embodiment of the present invention;

FIG. 11 shows a partially enlarged schematic illustration of C in FIG. 10 in accordance with an embodiment of the invention;

FIG. 12 shows a schematic view of a top perspective view of a lower molding of a cutting assembly device according to an embodiment of the present invention;

FIG. 13a shows a schematic structural view of a wave cradle in an embodiment according to the invention;

FIG. 13b shows a schematic view of a frame body part structure of a wave cradle according to an embodiment of the present invention;

fig. 13c shows a schematic view of a partial structure of a leg of a wave cradle according to an embodiment of the present invention.

List of reference numerals: 1. a pushing frame; 101. an inclined guide plate; 2. a solid plate frame; 201. a supporting plate; 202. a bottom supporting hydraulic cylinder; 203. a conveyor track; 204. limiting clamping plates; 205. a reciprocating screw A; 2051. a base; 2052. a spring rod A; 2053. a traversing seat; 2054. an electric push rod A; 2055. a carriage; 2056. chamfering motor; 2057. a clamping wheel; 206. a hydraulic cylinder is jacked; 207. penetrating the rod; 208. a lower pressing bar; 209. a side electric push rod; 210. a side reciprocating screw; 211. a jig saw; 3. a reciprocating screw B; 301. reciprocating circular saw; 4. a belt roller; 401. a carrier tape rack; 5. a transfer roller frame; 501. a link plate; 502. side baffles; 503. wedge edges; 504. an electric push rod B; 505. a lower pressing plate; 506. a flattening roller; 6. a chassis; 601. a biaxial motor; 6011. square rods; 6012. a crank connecting rod; 602. nailing gun; 603. an electric push rod C; 604. an electric push rod D; 605. a fork plate; 7. an electric push rod E; 701. a spring rod B; 702. an inclined frame; 703. a humidity probe; 8. a wave bracket; 81. a frame body; 811. a first frame portion; 812. a second frame portion; 813. a rotating ring; 8131. a first connecting screw; 8132. a second connecting screw; 8133. a receiving chamber; 82. a support leg; 821. a first foot; 8211. a sliding block; 822. a second foot; 8221. a blocking piece; 9. a transmission rack; 901. a top roller; 902. a bottom roller; 9021. clamping groove teeth; 9022. a pipe sleeve.

Description of the embodiments

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Embodiment one: please refer to fig. 1 to 13c: the invention provides a plate automatic cutting and assembling device and method for deck chair production, comprising the following steps: a pushing frame 1 and an assembling structure; the assembly structure is arranged at the front side of the pushing frame 1; the top of the pushing frame 1 is fixedly connected with an inclined guide plate 101; the front end of the pushing frame 1 is fixedly connected with a solid plate frame 2, the top of the solid plate frame 2 is fixedly connected with a longitudinal beam, the front end and the rear end of the top of the longitudinal beam are fixedly connected with a supporting plate 201 through supporting columns, the left side and the right side of the supporting plate 201 are provided with conveying tracks 203, the middle section of the longitudinal beam is fixedly connected with a bottom supporting hydraulic cylinder 202, the top of the telescopic part of the bottom supporting hydraulic cylinder 202 is fixedly connected with the inner side elevation of the bottom of the conveying tracks 203, the elevation of the front end and the rear end of the supporting plate 201 are fixedly connected with motors, and the rotating shaft of each motor is provided with a limiting clamping plate 204 through coaxial connection; the top of the solid plate frame 2 is fixedly connected with a reciprocating screw A205, the top of the reciprocating screw A205 is fixedly connected with a top hydraulic cylinder 206, the bottom of a telescopic part of the top hydraulic cylinder 206 is fixedly connected with a penetrating rod 207, the penetrating rod 207 is penetrated in the reciprocating screw A205 and is arranged on the inner sides of two adjacent limiting rods, the limiting rods are arranged on two sides of the penetrating rod along the length direction of the reciprocating screw A205, and the bottom of the penetrating rod 207 is fixedly connected with a lower pressing strip 208; the left side and the right side of the solid plate frame 2 are fixedly connected with side electric push rods 209, and the inner side of the telescopic part of each side electric push rod 209 is fixedly connected with a clamping plate; the right side of the reciprocating screw A205 is fixedly connected with a side reciprocating screw 210, and the left side of a ball nut seat of the side reciprocating screw 210 is fixedly connected with a jigsaw 211; the assembly structure comprises a belt roller 4, and a belt supporting frame 401 is arranged on the left side of the belt roller 4; the left side of the belt roller 4 is provided with a conveying roller frame 5, the top of the conveying roller frame 5 is provided with a conveying roller through rotating connection, the outer side of the conveying roller is fixedly connected with a latch, the outer side of the conveying roller is sleeved with a chain plate 501, the front end of a reciprocating screw A205 is fixedly connected with a reciprocating screw B3, the bottom of a ball nut seat of the reciprocating screw B3 is fixedly connected with a reciprocating circular saw 301, the bottom of the ball nut seat of the reciprocating screw A205 is fixedly connected with a base 2051, the inner side of the bottom of the base 2051 is penetrated with a spring rod A2052, the inner side of the spring rod A2052 is fixedly connected with a traversing seat 2053, the front end and the rear end of the traversing seat 2053 are fixedly connected with sliding frames 2055, the number of the sliding frames 2055 is two groups, the sliding frames 2055 are internally provided with sliding seats through sliding connection, a connecting beam is fixedly connected between the front sliding seat and the rear sliding seat 2053, the outer side end of a telescoping part of the electric push rod A2054 is fixedly connected with the connecting beam, the bottom of the slide seat at the front side is fixedly connected with a chamfering motor 2056, the bottom of the rotating shaft of the chamfering motor 2056 is fixedly connected with a conical milling cutter, the bottom of the slide seat at the rear side is provided with a clamping wheel 2057 through rotating connection, after a plate finished product is placed at the top of the pushing frame 1, a user pushes the plate forwards, limits the transverse position of the plate in the pushing process through the inclined guide plates 101 at the left side and the right side, pushes the plate to the top of the supporting plate 201, drives the limiting clamping plate 204 to rotate through controlling the motor to enable the limiting clamping plate 204 to clamp and fix the front end and the rear end of the plate at the top of the supporting plate 201, synchronously clamps the left side and the right side of the plate at the left side and the right side through controlling the side electric push rods 209 at the left side and the right side, synchronously positions the plate front side and the right side of the telescopic part of the plate through being matched with the limiting clamping plate 204, synchronously positions the plate front side and the plate back side and the plate through controlling the operation of the top hydraulic cylinder 206, the lower pressing strip 208 at the bottom of the penetrating rod 207 can be driven to downwards pass through the reciprocating screw A205 by the telescopic part of the lower pressing strip, after the top surface of a board is pressed downwards, the telescopic part of the side electric push rod 209 is contracted, the side electric push rod 210 is controlled to operate, the vertical saw 211 is driven to longitudinally move on the side surface of the board, the side end of the board can be cut, after the board is cut narrowly, the base 2051 is driven to longitudinally translate by controlling the reciprocating screw A205, the ball nut seat of the base 2051 can be driven to synchronously contract by controlling the electric push rod A2054, the telescopic part of the base is driven to inwards close the connecting beams at the left side and the right side, the clamping wheels 2057 at the left side and the right side can clamp the left side vertical surface of the board, the chamfering motor 2056 is controlled to operate, the inverted cone milling cutter at the left side and the right side is driven to chamfer the top edge of the board, in the longitudinal translation process of the reciprocating screw A205, the base 2051 is enabled to be retracted when the base 2051 does not touch the penetrating rod 207, the penetrating rod 207 is enabled to upwards, the base 206 is enabled to always move upwards by controlling the three groups of top hydraulic cylinders 206, and the two groups of hydraulic cylinders can be stably pressed downwards in the longitudinal translation process of the base 206 in sequence, and the bottom of the base can be stably pressed by the hydraulic cylinders under the compression of the base 205.

As shown in fig. 2 to 12, link plate 501 top fixedly connected with side shield 502, the front and back both ends fixedly connected with wedge 503 at link plate 501 top, conveying roller frame 5 top fixedly connected with electric putter B504, electric putter B504 telescopic part bottom fixedly connected with holding down plate 505, conveying roller frame 5 top is provided with flattening roller 506 through rotating the connection, conveying roller frame 5 inboard fixedly connected with chassis 6, chassis 6 top fixedly connected with biax motor 601, square recess has been seted up to biax motor 601 pivot inboard, square recess inboard is provided with square rod 6011 through sliding connection, through the reciprocating operation of control electric putter E7, can make its flexible portion side's spring rod B701 translate, can make it drive humidity probe 703 horizontal migration, support at the inclined frame 702 top through the gyro wheel of its side, can make humidity probe 703 horizontal migration in-process vertically move, can make humidity probe 703 upwards contact the plank section humidity in proper order, then through controlling electric putter B504 intermittent operation, can make its telescopic part drive down plate 505 and down carry out square recess, square rod 6011 is provided with square rod, through controlling electric putter B605, simultaneously, can make its top section can be pushed down by controlling electric putter B605, make its top plate 605 carry out horizontal movement by driving down plate 605, can make its top section down plate 605 through the pedal, can make its top section is driven by driving the top of the pedal 601 and can be moved by the top through the pedal 602, can be pushed down.

As shown in fig. 3 to 11, chassis 6 top fixedly connected with electric putter C603, electric putter C603 expansion portion outside end fixedly connected with sleeve pipe, the sleeve pipe inboard is provided with the telescopic link through sliding connection, telescopic link bottom rotation is connected with crank link 6012, crank and square bar 6011 coaxial coupling of crank link 6012 bottom, telescopic link top fixedly connected with nailer 602, chassis 6 top fixedly connected with electric putter D604, electric putter D604 expansion portion top fixedly connected with fork plate 605, conveying roller frame 5 top fixedly connected with electric putter E7, electric putter E7 expansion portion front end side is provided with spring rod B701 through sliding connection, spring rod B701 top fixedly connected with humidity probe 703, humidity probe 703 outside bottom is provided with the gyro wheel through rotating connection, electric putter E7 outside fixedly connected with inclination frame 702, conveying roller frame 5 top fixedly connected with wave bracket 8 is located the link joint 501 inboard, conveying roller frame 5 left end top fixedly connected with transmission frame 9, transmission frame 9 inboard top is provided with top roller sleeve 901 through rotating connection, top roller side fixedly connected with fork truck 901, transmission roller truck bottom is provided with bottom bevel gear rack 902 through rotating connection, can make the inside of the transmission roller 902 through the left side and right side and back plate 902 through rotating connection, the left side and right side and back plate 902 can be connected with the transmission groove 902 through the left side and 902, the transmission roller 902 is connected with the left side and 902, the 90 is connected with the slope and the slope is fixed.

Embodiment two: referring to fig. 13a-13c, the wave bracket 8 comprises a frame 81 and a frame leg 82; the frame 81 comprises a first frame 811 and a second frame 812, a connecting part is connected between the first frame and the second frame, the connecting part comprises a rotating ring 813, one end of the rotating ring is connected with a first connecting screw 8131, the other end of the rotating ring is connected with a second connecting screw 8132, the first connecting screw is connected to the first frame, and the second connecting screw is connected to the second frame; and a containing cavity 8133 is arranged on the first frame and/or the second frame, and the containing cavity is used for containing a rotating ring.

Still further, the stand 82 includes a first leg 821 and a second leg 822 slidably disposed therebetween; one end of the first foot part is provided with a sliding block 8211, one end of the second foot part is provided with a sliding groove matched with the sliding block, and the top end of the sliding groove is provided with a blocking block 8221.

As set up above, can carry out adaptability adjustment to support body or foot rest to the different shapes of panel, simultaneously, to the different weight of panel, in order to carry more fast more steadily, also can carry out adaptability adjustment to support body or foot rest to satisfy corresponding transportation requirement.

Specific use and action of the embodiment: in the invention, when in use, firstly, after a plate finished product is placed at the top of a pushing frame 1, a user pushes the plate forwards, limits the transverse position of the plate in the pushing process through the inclined guide plates 101 at the left side and the right side, pushes the plate to the top of a supporting plate 201, drives a limit clamping plate 204 to rotate through controlling the operation of a motor, can clamp and fix the front end and the rear end of the plate at the top of the supporting plate 201, synchronously operates through controlling the electric push rods 209 at the left side and the right side, synchronously clamps the left side and the right side of the plate at the left side and the right side of the plate, synchronously positions the front side, the rear side, the left side and the right side of the plate through matching with the limit clamping plate 204, synchronously positions the front side, the rear side and the right side of the plate through controlling the operation of a top hydraulic cylinder 206, drives a lower pressing bar 208 at the bottom of a penetrating rod 207 to downwards penetrate through a reciprocating screw A205 and presses the top surface of the plate, by contracting the telescopic part of the side electric push rod 209, the side reciprocating screw 210 is controlled to operate, the side reciprocating screw can drive the jigsaw 211 to longitudinally move on the side surface of the plate, the side end of the plate can be cut, after the plate is cut to be narrow, the reciprocating screw A205 is controlled to operate, the ball nut seat can drive the base 2051 to longitudinally translate, the electric push rod A2054 is controlled to synchronously contract, the telescopic part can drive the connecting beams on the left side and the right side to approach inwards, the clamping wheels 2057 on the left side and the right side can clamp the left side and the right side elevation of the plate, the chamfering motor 2056 is controlled to operate, the left side and the right side inverted cone milling cutter can be driven to chamfer the top end edge of the plate, in the longitudinal translation process of the reciprocating screw A205 ball nut seat, the three groups of top hydraulic cylinders 206 are controlled to reciprocate, and the base 2051 can not touch the penetrating rod 207, the penetrating rod 207 which is close to the base 2051 is upwards retracted, the telescopic parts of the three groups of top hydraulic cylinders 206 sequentially stretch, the lower pressing strips 208 at the bottoms of the two groups of top hydraulic cylinders 206 can be always pressed down and positioned on the board in the longitudinal translation process of the base 2051, and the board cutting knife chamfering process can be kept stable.

Then, after the board is subjected to the narrow chamfering treatment, the telescopic part of the top hydraulic cylinder 206 is controlled to shrink to release the downward pressing of the board, the bottom supporting hydraulic cylinder 202 is controlled to operate, the telescopic part of the bottom supporting hydraulic cylinder is controlled to push the conveying crawler 203 upwards, the crawler can upwards support the board, the board can be intermittently conveyed forwards through controlling the crawler operation, and meanwhile, the reciprocating screw rod B3 can drive the reciprocating circular saw 301 to cut the board in a segmented mode through the intermittent operation of the top hydraulic cylinder 206.

Then, the step motor is controlled to drive the conveying roller on the conveying roller frame 5 to rotate step by step, the chain plate 501 can be driven to carry out step transmission, the plate segments which are cut into sections can be sequentially stored, after falling on the top of the chain plate 501, the plate segments can slide to the central area of the chain plate 501 through the wedge edge 503 and the side baffle 502, the spring rod B701 on the side surface of the telescopic part can translate by controlling the electric push rod E7 to reciprocate, the humidity probe 703 can be driven to horizontally move, the roller on the side surface of the spring rod B701 is supported on the top of the inclined frame 702, the humidity probe 703 can vertically move in the horizontal movement process, the humidity probe 703 can be contacted upwards to the bottom of the plate, the humidity of the plate segments can be sequentially checked, then the electric push rod B504 is controlled to intermittently operate, simultaneously, through controlling electric putter D604 operation, can make it upwards promote the plank section with opening fork board 605, can make the fork board 605 and the holding down plate 505 of its top carry out the centre gripping fixed to current plank section, through controlling biax motor 601 operation, can make its pivot drive the telescopic link at crank connecting rod 6012 top drive nail rifle 602 upwards translation and carry out the nailing to the belt of plank bottom, through electric putter C603 operation, can make it drive nail rifle 602 and carry out horizontal translation, square groove through biax motor 601 pivot department drives square rod 6011 and rotates, can make it drive telescopic link after horizontal translation and stretch out and draw back, can make nail rifle 602 carry out horizontal nailing to the belt of plank bottom and fix, can improve the fastness of belt, can connect the deck chair backplate in series.

Then, through the synchronous reverse rotation of the top roller 901 and the bottom roller 902 of the inner side of the transmission frame 9, the clamping groove teeth 9021 of the deck chair can be transmitted in a wood board clearance in the rotation process, the deck chair backboard formed by connection can be transmitted backwards, and a processor can cut and segment the deck chair backboard according to deck chairs of different lengths of different models and then put the deck chair backboard into the rear side of the deck chair.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components. The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (10)

1. Automatic cutting and assembling device for plates for deck chair production, which is characterized by comprising: a pushing frame (1) and an assembling structure; the assembly structure is arranged at the front side of the pushing frame (1); the top of the pushing frame (1) is fixedly connected with an inclined guide plate (101); the material pushing frame is characterized in that the front end of the material pushing frame (1) is fixedly connected with a solid plate frame (2), the top of the solid plate frame (2) is fixedly connected with a longitudinal beam, the front end and the rear end of the top of the longitudinal beam are fixedly connected with supporting plates (201) through supporting columns, the left side and the right side of each supporting plate (201) are provided with conveying tracks (203), the middle section of each longitudinal beam is fixedly connected with a bottom supporting hydraulic cylinder (202), the top of a telescopic part of each bottom supporting hydraulic cylinder (202) is fixedly connected with the inner side elevation of the bottom of each conveying track (203), the elevation of the front end and the rear end of each supporting plate (201) is fixedly connected with a motor, and a limiting clamping plate (204) is arranged at a rotating shaft of each motor through coaxial connection; the top of the fixed plate frame (2) is fixedly connected with a reciprocating screw A (205), the upper side of the reciprocating screw A (205) is fixedly connected with a top hydraulic cylinder (206), the bottom of a telescopic part of the top hydraulic cylinder (206) is fixedly connected with a penetrating rod (207), the penetrating rod (207) is penetrated in the reciprocating screw A (205) and is arranged on the inner sides of two adjacent limiting rods, the limiting rods are arranged on two sides of the penetrating rod along the length direction of the reciprocating screw A (205), and the bottom of the penetrating rod (207) is fixedly connected with a lower pressing strip (208); the left side and the right side of the solid plate frame (2) are fixedly connected with side electric push rods (209), and the inner side of a telescopic part of each side electric push rod (209) is fixedly connected with a clamping plate; the right side of the reciprocating screw A (205) is fixedly connected with a side reciprocating screw (210), and the left side of a ball nut seat of the side reciprocating screw (210) is fixedly connected with a jigsaw (211); the assembly structure comprises a belt roller (4), and a belt supporting frame (401) is arranged on the left side of the belt roller (4); the left side of the belt roller (4) is provided with a conveying roller frame (5), the top of the conveying roller frame (5) is provided with a conveying roller through rotating connection, the outer side of the conveying roller is fixedly connected with a latch, and the outer side of the conveying roller is sleeved with a chain plate (501); the front end of the reciprocating screw A (205) is fixedly connected with a reciprocating screw B (3), and the bottom of a ball nut seat of the reciprocating screw B (3) is fixedly connected with a reciprocating circular saw (301).

2. The automatic plate cutting and assembling device for producing the deck chair according to claim 1, wherein a base (2051) is fixedly connected to the bottom of the ball nut seat of the reciprocating screw rod A (205), a spring rod A (2052) is arranged on the inner side of the bottom of the base (2051) in a penetrating mode, and a transverse moving seat (2053) is fixedly connected to the inner side end of the spring rod A (2052).

3. The automatic plate cutting and assembling device for producing reclining chairs according to claim 2, wherein sliding frames (2055) are fixedly connected to the front end and the rear end of the traversing seat (2053), the number of the sliding frames (2055) is two, sliding seats are arranged in the sliding frames (2055) through sliding connection, connecting beams are fixedly connected between the front sliding seat and the rear sliding seat, an electric push rod A (2054) is fixedly connected to the inner part of the traversing seat (2053), the outer side end of a telescopic part of the electric push rod A (2054) is fixedly connected with the connecting beams, a chamfering motor (2056) is fixedly connected to the bottom of the sliding seat on the front side, a conical milling cutter is fixedly connected to the bottom of a rotating shaft of the chamfering motor (2056), and clamping wheels (2057) are arranged on the bottom of the sliding seat on the rear side through rotating connection.

4. The automatic plate cutting and assembling device for deck chair production according to claim 3, wherein the top of the chain plate (501) is fixedly connected with a side baffle plate (502), and the front end and the rear end of the top of the chain plate (501) are fixedly connected with wedge edges (503).

5. The automatic plate cutting and assembling device for deck chair production according to claim 4, wherein an electric push rod B (504) is fixedly connected to the top of the conveying roller frame (5), a lower pressing plate (505) is fixedly connected to the bottom of a telescopic part of the electric push rod B (504), and a flattening roller (506) is arranged on the top of the conveying roller frame (5) through rotary connection.

6. The automatic plate cutting and assembling device for producing reclining chairs according to claim 5, wherein an underframe (6) is fixedly connected to the inner side of the conveying roller frame (5), a double-shaft motor (601) is fixedly connected to the top of the underframe (6), a square groove is formed in the inner side of a rotating shaft of the double-shaft motor (601), and a square rod (6011) is arranged in the inner side of the square groove in a sliding connection mode.

7. The automatic plate cutting and assembling device for producing reclining chairs according to claim 6, wherein an electric push rod C (603) is fixedly connected to the top of the underframe (6), a sleeve is fixedly connected to the outer side end of a telescopic part of the electric push rod C (603), a telescopic rod is arranged on the inner side of the sleeve through sliding connection, a crank connecting rod (6012) is rotatably connected to the bottom of the telescopic rod, a crank at the bottom of the crank connecting rod (6012) is coaxially connected with a square rod (6011), a nailing gun (602) is fixedly connected to the top of the telescopic rod, an electric push rod D (604) is fixedly connected to the top of the underframe (6), and a turnout plate (605) is fixedly connected to the top of the telescopic part of the electric push rod D (604).

8. The automatic plate cutting and assembling device for producing reclining chairs according to claim 7, wherein an electric push rod E (7) is fixedly connected to the top of the conveying roller frame (5), a spring rod B (701) is arranged on the side face of the front end of the telescopic part of the electric push rod E (7) through sliding connection, a humidity probe (703) is fixedly connected to the top of the spring rod B (701), rollers are arranged at the outer bottom of the humidity probe (703) through rotating connection, and an inclined frame (702) is fixedly connected to the outer side of the electric push rod E (7).

9. The automatic plate cutting and assembling device for deck chair production according to claim 8, wherein the top of the conveying roller frame (5) is fixedly connected with a wave bracket (8), the wave bracket (8) is positioned at the inner side of the chain plate (501), the top of the left end of the conveying roller frame (5) is fixedly connected with a conveying frame (9), the top of the inner side of the conveying frame (9) is provided with a top roller (901) through rotating connection, the curved side surface of the top roller (901) is fixedly connected with a latch, the bottom of the inner side of the conveying frame (9) is provided with a bottom roller (902) through rotating connection, the left side and the right side of the curved side surface of the bottom roller (902) are fixedly connected with clamping groove teeth (9021), and the middle section of the bottom roller (902) is fixedly connected with a pipe sleeve (9022); the wave bracket (8) comprises a bracket body (81) and bracket legs (82); the frame body (81) comprises a first frame part (811) and a second frame part (812), a connecting part is connected between the first frame part and the second frame part, the connecting part comprises a rotating ring (813), one end of the rotating ring is connected with a first connecting screw rod (8131), the other end of the rotating ring is connected with a second connecting screw rod (8132), the first connecting screw rod is connected to the first frame part, and the second connecting screw rod is connected to the second frame part; the first frame part and/or the second frame part are provided with accommodating cavities (8133) for accommodating the rotating rings; the stand foot (82) comprises a first foot (821) and a second foot (822), and the first foot and the second foot are arranged in a sliding way; one end of the first foot part is provided with a sliding block (8211), one end of the second foot part is provided with a sliding groove matched with the sliding block, and the top end of the sliding groove is provided with a blocking block (8221).

10. The method of using the automatic plate cutting and assembling device for producing reclining chair according to claim 9, wherein 1) after placing the plate product on the top of the pushing frame (1), the user pushes the plate forward, limits the lateral position of the plate through the oblique guide plates (101) on the left and right sides in the pushing process, pushes the plate to the top of the supporting plate (201), drives the limit clamping plate (204) to rotate through controlling the operation of the motor, can clamp and fix the front and rear ends of the plate on the top of the supporting plate (201), synchronously clamps the left and right sides of the plate through controlling the side electric push rods (209), synchronously clamps the left and right sides of the plate on the left and right sides of the plate through controlling the side electric push rods (209), synchronously positions the left and right sides of the plate on the left and right sides of the plate through matching with the limit clamping plate (204), synchronously positions the front and right sides of the plate through controlling the operation of the top hydraulic cylinder (206), drives the lower pressing bar (208) on the bottom of the penetrating rod (207) to downwards penetrate through the reciprocating plate A (205), and after the top surface of the saw is pressed down, the side electric push rod (209) is controlled to shrink the side electric push rod (205), the side electric push rod (210) is controlled to shrink the plate, and the side electric push rod (211) is controlled to move the plate vertically and can move the plate (205) in a longitudinal direction through controlling the sliding seat, and can move the sliding screw (211) to move synchronously, the telescopic parts of the telescopic parts can drive the connecting beams at the left side and the right side to be close to the inner side, the clamping wheels (2057) at the left side and the right side can clamp the vertical surfaces at the left side and the right side of the wood board, the chamfering motor (2056) is controlled to operate, the inverted cone milling cutter at the left side and the right side is driven to chamfer the top edges of the wood board, in the longitudinal translation process of the ball nut seat of the reciprocating screw A (205), the three groups of top hydraulic cylinders (206) are controlled to reciprocate, when the base (2051) does not touch the penetrating rod (207), the penetrating rod (207) which is close to the base is upwards retracted, the telescopic parts of the three groups of top hydraulic cylinders (206) sequentially extend and retract, the lower pressing strips (208) at the bottoms of the two groups of top hydraulic cylinders (206) can be always pressed down and positioned in the longitudinal translation process of the base (2051), and the wood board can be always kept stable in the cutting and chamfering process of the wood board; 2) After the board is subjected to narrow cutting and chamfering treatment, the telescopic part of the top hydraulic cylinder (206) is controlled to shrink to release the downward pressing of the board, the telescopic part of the top hydraulic cylinder is controlled to operate to push the conveying crawler belt (203) upwards, the crawler belt can be used for supporting the board upwards, the crawler belt is controlled to operate, the board can be intermittently conveyed forwards, and meanwhile, the top hydraulic cylinder (206) is intermittently operated, and the reciprocating screw rod B (3) can be used for driving the reciprocating circular saw (301) to cut the board in a segmented mode; 3) The conveying roller on the conveying roller frame (5) is driven to rotate step by controlling a stepping motor, the chain plate (501) can be driven to carry out step transmission, the plank segments which are cut into sections in sequence can be stored, after falling on the top of the chain plate (501), the plank segments can slide to the central area of the chain plate (501) through the wedge edge (503) and the side baffle (502) to be limited, the spring rod B (701) on the side surface of the telescopic part can be translated by controlling the electric push rod E (7) to drive the humidity probe (703) to carry out horizontal movement, the roller on the side surface of the spring rod B is supported on the top of the inclined frame (702) to carry out vertical movement in the horizontal movement process of the humidity probe (703), the humidity probe (703) can be enabled to contact the bottom of the wood board upwards, the humidity of the wood board section can be checked in sequence, then the electric push rod B (504) is controlled to intermittently operate, the telescopic part of the electric push rod B drives the lower pressure plate (505) to downwards press the top surface of the wood board section, meanwhile, the electric push rod D (604) is controlled to operate, the forking plate (605) can be enabled to upwards push the wood board section, the forking plate (605) and the lower pressure plate (505) above the forking plate (605) can be enabled to clamp and fix the current wood board section, the telescopic rod of the rotating shaft of the electric push rod B (504) driving the crank connecting rod (6012) top can be enabled to upwards translate the nailing gun (602) to nailing the belt at the bottom of the wood board, the electric push rod C (603) is used for running, so that the electric push rod C can drive the nailing gun (602) to transversely translate, the square rod (6011) is driven to rotate through the square groove at the rotating shaft of the double-shaft motor (601), the telescopic rod after transversely translating can be driven to stretch, the nailing gun (602) can transversely nailing and fixing a belt at the bottom of a wood plate, the firmness of the belt can be improved, and the back plate of a deck chair can be connected in series; 4) Through the synchronous reverse rotation of top roller (901) and bottom roller (902) of control transmission frame (9) inboard, can make its draw-in groove tooth (9021) rotate the in-process and transmit the plank at plank clearance, can be with the back transmission of the deck chair backplate of connection shaping, the deck chair rear side is loaded into after the deck chair backplate is cut segmentation according to the deck chair of different models to the processor.