CN211566171U - Full-automatic sweeps clearance compression mechanism of timber machining center - Google Patents

Abstract

The utility model discloses a full-automatic timber machining center's sweeps clearance compression mechanism belongs to plank processing equipment technical field, including the portal frame, still blow bits subassembly, collection bits conveying component and deposit bits compression assembly including the multi-angle, the bits subassembly is blown including vertical pay-off part, delivery sheet, swing plate and angle adjusting part to the multi-angle, is equipped with two support curb plates on the lateral wall of delivery sheet, all is equipped with on every support curb plate can the pivoted connecting cylinder, is equipped with the fixing base between connecting cylinder and the swing plate. The utility model discloses a sweeps clearance compression mechanism can realize blowing off moving the sweeps on the material platform, can realize the compression operation to the sweeps under the effect of depositing bits compression subassembly, has practiced thrift the parking space of sweeps, can blow off the sweeps at a plurality of angles under the effect of multi-angle blowing bits subassembly, avoids the sweeps to pile up and brings the trouble for the processing of timber on moving material platform and slip table.

Description

Full-automatic sweeps clearance compression mechanism of timber machining center

Technical Field

The utility model belongs to the technical field of plank processing equipment technique and specifically relates to a full-automatic timber machining center's sweeps clearance compression mechanism is related to.

Background

The development and manufacture of woodworking machine tools belong to the category of high-end manufacturing equipment which is one of the new national strategic industries. The domestic woodworking machine tool industry rises along with the rise of furniture and decoration industries. In the past, low-end furniture manufacturing enterprises rely on handheld tools and crude wood working machine tools to process wood, and high-end furniture manufacturing enterprises are advanced processing equipment in imported foreign countries to meet requirements, however, with the quality requirements for furniture and wood products, the style requirement is continuously higher, and domestic furniture manufacturing enterprises maintain operation only by means of a few crude equipment or imported foreign machine tools. In foreign countries, the numerical control wood processing center with multiple purposes and high automation degree has replaced small, old and low-end woodworking machine tools, and the advantages of automation, multiple functions and flexibility of the caragana wood processing center are fully realized in the furniture manufacturing industry. At present, part of domestic faucet enterprises of woodworking machines begin to research and develop numerical control wood processing centers with independent intellectual property rights, but most of the domestic numerical control wood processing centers are basic products and do not form serialized products, so that the development potential is huge, the market is wide, and a plurality of enterprises and units carry out reshaping design and self-adaptive design on the new products. Among them, the reshaping design is largely a repetitive work, so a means is needed to improve the design efficiency and reduce the repetitive work.

The patent with publication number CN206326698U discloses a horizontal wood processing center, which comprises a base, a first guide rail, a movable seat, a left and right servo driving mechanism, a vertical guide rail, an up and down movable seat, a vertical servo driving mechanism, a second guide rail, a first slide seat, a front and back driving mechanism, a third guide rail, a second slide seat, a front and back servo driving mechanism and a cutting device. The horizontal wood processing center is simple in structure and reasonable in design, and manual tool changing is not needed, so that the workload is reduced, and the working efficiency is improved. And the first sliding seat is driven to move to the foremost end through the front-back driving mechanism, so that the front-back movement can be overlapped, and the volume of the equipment can be reduced

However, the above device still has the following problems: the device is difficult to blow the clearance to the sweeps that produces, makes the sweeps that is located on the workstation influence the processing of cutter to the plank to traditional machining center all piles up the sweeps in an album bits fill, makes the sweeps occupy more space in an album bits fill, needs to improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic timber machining center's sweeps clearance compression mechanism to solve and be difficult to blow off the sweeps that produce among the prior art and can not carry out the technical problem that compresses to accumulational sweeps.

The utility model provides a full-automatic timber machining center's sweeps clearance compression mechanism, including the portal frame, still blow bits subassembly, collection bits conveying component and deposit bits compression assembly including the multi-angle, the multi-angle is blown bits subassembly and is collected bits conveying component and set up the both sides at the portal frame respectively, it sets up the side at collection bits conveying component to deposit bits compression assembly, the multi-angle is blown the bits subassembly including vertical pay-off part, delivery sheet, swing plate and is used for adjusting swing plate inclination's angle adjustment part, the delivery sheet sets up on vertical pay-off part, be equipped with two support curb plates on the lateral wall of delivery sheet, every all be equipped with on the support curb plate can the pivoted connecting cylinder, the swing plate is fixed between two connecting cylinders, be equipped with the fixing base between connecting cylinder and the swing plate.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses be equipped with the multi-angle and blow the bits subassembly, collection bits conveyor components with deposit bits compression assembly, can realize blowing off moving the material bench sweeps through sweeps clearance compression mechanism, and can concentrate and carry the sweeps to depositing the bits incasement, can realize the compression operation to the sweeps under the effect of depositing bits compression assembly, the parking space of sweeps has been practiced thrift, still be convenient for transport the sweeps, can blow off the sweeps at a plurality of angles under the effect of bits subassembly is blown to the multi-angle, it brings the trouble to avoid the sweeps to pile up the processing that is the timber on moving material platform and slip table, still need not the manual bits of removing of worker and brought great convenience for the worker, with solve among the prior art and be difficult to blow off the sweeps that produce and can not carry out the technical problem that compresses to accumulational sweeps.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic top view of the present invention;

fig. 3 is a schematic front view of the present invention;

fig. 4 is a schematic view of a partial three-dimensional structure of the present invention;

FIG. 5 is a schematic perspective view of the base and the wooden door limiting mechanism;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is a schematic cross-sectional view of a wooden door stop mechanism;

fig. 8 is a schematic view of the present invention in a partial cross-sectional structure;

FIG. 9 is an enlarged view of FIG. 8 at B;

FIG. 10 is a schematic perspective view of an automatic loading mechanism for wooden doors;

FIG. 11 is a schematic front view of an automatic loading mechanism for wooden doors;

FIG. 12 is a schematic perspective view of the rotary feed assembly and the wooden door clamping assembly;

FIG. 13 is a perspective view of the material storage assembly;

FIG. 14 is a schematic view of a first angled perspective of the debris removal compression mechanism;

FIG. 15 is a second perspective view of the mechanism for scrap removal compression;

FIG. 16 is an enlarged view at C of FIG. 15;

FIG. 17 is a first schematic cross-sectional view of the chip storage compression assembly;

FIG. 18 is a second cross-sectional view of the chip retention compression assembly.

Reference numerals:

a base 10, a three-axis moving mechanism 20, a portal frame 21, an X-axis moving mechanism 22, a material moving platform 221, a rotating motor 222, a second screw rod 223, a bearing seat 224, a bearing track 225, a Y-axis moving mechanism 23, a first screw rod 231, a servo motor 232, a bearing seat 233, a support track 234, an extension platform 235, a Z-axis moving mechanism 24, a lifting platform 241, a mounting groove 242, a connecting track 243, a drilling machine 244, a drill rod 245, a lifting assembly 25, a lifting motor 251, a chain wheel 252, a bearing seat 253, a rotating shaft 254, a chain 255, a winding motor 256, a winding wheel 257, a rotating shaft 258, a wooden door limiting mechanism 30, a support plate 31, a material moving strip 32, a pressing assembly 33, a rotating strip 34, a pressing disk, a transmission screw rod 342, a mounting seat 343, a connecting rod 344, a sliding groove 345, a limiting groove 346, a limiting rod 347, a rotating head 348, a supporting seat 35, a sliding rod, a limiting block 39, a position adjusting assembly 40, a material moving plate 41, a sliding rail 42, an extension rod 43, a material moving groove 44, a stepping motor 45, a driving gear 46, a material moving rack 47, a wood door automatic feeding mechanism 50, a rotary feeding assembly 51, a supporting frame 511, a rotary table 512, a lifting component 52, a lifting plate 521, a rotary component 53, a rotary motor 531, a motor base 532, a rotary column 533, a driven gear 534, a driving gear 535, a lifting electric cylinder 536, a fixed column 537, a sliding column 538, a material storage assembly 54, a material storage platform 541, a material lifting plate 542, a positioning bar 543, a guide bar 544, a lifting base 545, a material lifting component 546, a fixing plate 547, a screw rod lifter 548, a lifting screw 549, a wood door clamping assembly 60, a material moving assembly 61, a transmission component 62, a first rack 63, a second rack 64, a transmission shaft 65, a transmission gear 66, a guide rail 67, a clamping side plate 68, a material pushing electric cylinder 69, the scrap cleaning and compressing mechanism 70, the multi-angle scrap blowing component 71, the feeding plate 711, the swinging plate 712, the supporting side plate 713, the angle adjusting component 72, the connecting cylinder 721, the fixing seat 722, the gas conveying pipeline 723, the gas nozzle 724, the adjusting motor 725, the toothed ring 726, the rotating rod 727, the rotating gear 728, the vertical feeding component 73, the lifting cylinder 731, the cylinder seat 732, the supporting rod 733, the scrap collecting and conveying component 80, the scrap collecting hopper 81, the scrap discharging plate 82, the feeding screw rod 83, the scrap cleaning brush 84, the dust suction fan 85, the dust collecting cover 86, the scrap discharging motor 87, the scrap storing and compressing component 90, the compressing box 91, the compressing plate 92, the vertical rod 93, the crushing blade 94, the compacting motor 95, the bearing frame 96, the compacting rack 97, the material pushing rod 971, the guide rail 972, the top plate 973, the incomplete gear 974 and the return.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 18, an embodiment of the present invention provides a full-automatic wooden door processing center, which includes a base 10, a three-axis moving mechanism 20, a wooden door limiting mechanism 30, a wooden door automatic feeding mechanism 50 and a scrap cleaning and compressing mechanism 70, wherein the wooden door automatic feeding mechanism 50 and the scrap cleaning and compressing mechanism 70 are all disposed at the side of the base 10, a sliding table is disposed above the base 10, the three-axis moving mechanism 20 includes a portal frame 21, an X-axis moving mechanism 22, a Y-axis moving mechanism 23 and a Z-axis moving mechanism 24, the Y-axis moving mechanism 23 is disposed on the base 10, the X-axis moving mechanism 22 is disposed at the top of the portal frame 21, the Y-axis moving mechanism 23 is disposed on the X-axis moving mechanism 22, the wooden door limiting mechanism 30 is disposed at the top of the sliding table, the wooden door limiting mechanism 30 includes a supporting plate 31, The material moving device comprises two material moving strips 32 and a position adjusting assembly 40 for driving the two material moving strips 32 to move relatively, two pressing assemblies 33 are arranged at the top of each material moving plate 41, the material moving strips 32 are horizontally arranged above a supporting plate 31, and the supporting plate 31 is fixed at the top of a sliding table; can realize the spacing operation to the timber of different width through timber stop gear 30, avoid the timber to take place the skew in the in-process of processing to can compress tightly the timber under the effect that compresses tightly subassembly 33 and make the timber more firm, can realize that elevating platform 241 removes in X axle, Y axle and Z axle through triaxial moving mechanism 20, make rig 244 can come to the fixed timber operation of driling in a plurality of positions.

Specifically, each compressing assembly 33 includes a rotating bar 34, a compressing disc 341, a transmission screw 342, and a mounting seat 343 disposed at the top of the material moving bar 32, each mounting seat 343 is provided with a sliding groove 345 and a limiting groove 346, the mounting seat 343 is provided with a connecting rod 344 movably disposed in the sliding groove 345, the end of the rotating bar 34 is sleeved on the connecting rod 344, the rotating bar 34 is provided with a limiting rod 347, the transmission screw 342 is disposed on the rotating bar 34, the rotating bar 34 is provided with a threaded hole in threaded connection with the transmission screw 342, the top end of the transmission screw 342 is provided with a rotating head 348, and the compressing disc 341 is fixed at the bottom end of the transmission screw 342; the worker can make gag lever post 347 break away from spacing groove 346, makes rotation strip 34 rotate, makes rotation strip 34 be the horizontality, and the worker can make rotating head 348 take place to rotate and make transmission lead screw 342 take place to rotate, makes transmission lead screw 342 can drive and compresses tightly dish 341 and remove, makes and compresses tightly dish 341 and can move to the side of suitable position to the timber and compress tightly the operation, and the rig 244 of being convenient for comes to carry out the processing operation to the timber.

Specifically, two supporting seats 35 arranged at intervals are arranged at two ends of the top of the supporting plate 31, a sliding rod 351 arranged horizontally is arranged between the two supporting seats 35, the two material moving strips 32 can be sleeved on each sliding rod 351 in a sliding manner, a mounting strip 36 is arranged beside each material moving strip 32, a plurality of telescopic rods 37 are arranged between the material moving strips 32 and the mounting strips 36, buffer springs 38 are sleeved on the telescopic rods 37, two limiting blocks 39 arranged at intervals are arranged on the side walls of the mounting strips 36, and anti-skid layers are arranged on the side walls of the limiting blocks 39; the limiting block 39 can limit the wooden door, and the buffer spring 38 is used for preventing the wooden door from being damaged due to the fact that the limiting block 39 is too abutted against the side edge of the wooden door.

Specifically, the position adjusting assembly 40 includes a material moving plate 41 and two slide rails 42 arranged at the top of the sliding table at intervals, the two slide rails 42 are horizontally arranged, the bottom of the material moving plate 41 is in sliding fit with the two slide rails 42, each of the bottom of the material moving bar 32 is provided with an extension rod 43, the top of the material moving plate 41 is provided with two material moving grooves 44 respectively used for the two extension rods 43 to be in sliding fit, the two material moving grooves 44 are symmetrically arranged, the supporting plate 31 is provided with a through groove used for the extension rod 43 to pass through, the bottom of the sliding table is provided with a stepping motor 45, the output end of the stepping motor 45 is sleeved with a driving gear 46, the bottom of the material moving plate 41 is provided with a material moving rack 47 arranged horizontally, and the material moving rack 47 is meshed with the driving gear 46; step motor 45 work can drive driving gear 46 and take place to rotate, make driving gear 46 can drive rather than the joggled material rack 47 that moves and remove, make and move material rack 47 and can drive material moving plate 41 level and remove, make and move material plate 41 and can drive two extension rods 43 and remove simultaneously, make two extension rods 43 remove in opposite directions, make two extension rods 43 can drive two material moving strips 32 and remove in opposite directions respectively, make two material moving strips 32 can drive telescopic link 37 and mounting bar 36 and remove, make stopper 39 can realize the spacing operation to the timber.

Specifically, the Y-axis moving mechanism 23 includes a first screw 231, a servo motor 232, two bearing seats 233 and two supporting rails 234 arranged at the top of the base 10 at intervals, the bottom of the sliding table is in sliding fit with the two supporting rails 234, the two bearing seats 233 are respectively arranged at two sides of the base 10, the first screw 231 can be rotatably arranged between the two bearing seats 233, the servo motor 232 is fixedly connected with the end of the first screw 231, and an extension table 235 in threaded connection with the first screw 231 is arranged at the bottom of the sliding table; the servo motor 232 can make the first screw rod 231 rotate when working, so that the first screw rod 231 can drive the extension table 235 connected with the screw thread to move, and the extension table 235 can drive the sliding table to move in the Y-axis direction.

Specifically, the X-axis moving mechanism 22 includes a material moving table 221, a driving motor 531, a second screw rod 223 arranged horizontally, two bearing seats 224 and two bearing rails 225 arranged horizontally at the top of the gantry 21, an axis of the second screw rod 223 is perpendicular to an axis of the first screw rod 231, the material moving table 221 is in sliding fit with the two bearing rails 225, two ends of the second screw rod 223 are respectively rotatably connected with the two bearing seats 224, the material moving table 221 is provided with a threaded hole in threaded connection with the second screw rod 223, and an output end of the driving motor 531 is fixedly connected with an end of the second screw rod 223; the driving motor 531 is operated to drive the second screw rod 223 to rotate, so that the second screw rod 223 can drive the material moving platform 221 to move, and the material moving platform 221 can move the lifting platform 241 on the X axis.

Specifically, the Z-axis moving mechanism 24 includes a lifting platform 241, a lifting assembly 25, an installation groove 242 arranged on the material moving platform 221, and two vertically arranged connection rails 243, the lifting platform 241 is in sliding fit with the two connection rails 243, a drilling machine 244 with an output end arranged downward is arranged at the top of the lifting platform 241, and a drilling rod 245 is fixed at the output end of the drilling machine 244; the connecting rail 243 guides the elevating platform 241 to vertically elevate the elevating platform 241, and the drilling machine 244 drills wooden doors.

Specifically, the lifting assembly 25 includes a lifting motor 251, two chain wheels 252 and two supporting seats 253 arranged at the top of the material moving table 221 at intervals, a rotating shaft 254 rotatably connected with the two supporting seats 253 is arranged between the two supporting seats 253, the two chain wheels 252 are both sleeved on the two rotating shafts 254, the output end of the lifting motor 251 is fixedly connected with the end of the rotating shaft 254, each chain wheel 252 is provided with a chain 255 engaged with the chain wheel 252, and the end of the chain 255 is fixedly connected with the side wall of the lifting table 241; the lifting platform 241 can move in the vertical direction under the action of the lifting assembly 25, the drilling machine 244 can move in the vertical direction, the lifting motor 251 can rotate the rotating shaft 254 when working, the rotating shaft 254 can drive the two chain wheels 252 to rotate, the chain wheels 252 can drive the chain 255 meshed with the chain wheels to move, the chain 255 can drive the lifting platform 241 to move, the lifting platform 241 can drive the drilling machine 244 to move in the vertical direction, the lifting platform 241 can move in the Z-axis direction under the action of the lifting assembly 25, and the drilling machine 244 can move in the Z-axis direction.

Specifically, the lifting assembly 25 further comprises a chain 256 and two winding wheels 257, the winding wheels 257 are used for winding the chain 255, grooves are formed in the side walls of the material moving platform 221, the chain 256 is arranged in the grooves, a rotating shaft 258 horizontally arranged is arranged on the material moving platform 221, the two winding wheels 257 are all sleeved on the rotating shaft 258, and the output end of the chain 256 is fixedly connected with the end portion of the rotating shaft 258; the chain 256 can drive the two winding wheels 257 to rotate when working, so that the two winding wheels 257 can rotate simultaneously to wind the chain 255.

Specifically, the wooden door automatic feeding mechanism 50 comprises a rotary feeding assembly 51, a wooden door clamping assembly 60 and a material storage assembly 54, wherein a lifting plate 521 is arranged at the top of the rotary feeding assembly 51, the wooden door clamping assembly 60 is arranged at the top of the lifting plate 521, the material storage assembly 54 is arranged at the side of the rotary feeding assembly 51, the wooden door clamping assembly 60 comprises a material moving assembly 61 and two horizontally arranged clamping side plates 68, the material moving assembly 61 is used for driving the two clamping side plates 68 to move oppositely, the rotary feeding assembly 51 comprises a support frame 511, a rotary table 512, a rotary component 53 and a lifting component 52, the rotary table 512 is fixed at the top of the rotary component 53, and the lifting component 52 is arranged at the top of the rotary table 512; can realize the tight operation of clamp to different width timber automatically through timber clamping component 60, improve the practicality of this device, be convenient for carry the tight timber of clamp to the top that moves material platform 221, can make lifter plate 521 and timber clamping component 60 rotate through rotatory pay-off subassembly 51, make the timber that is pressed from both sides tightly can rotate to the top that moves material platform 221 to can make the timber go up and down to the top that moves material platform 211 under the effect of elevating part 52, accomplish the material loading operation to the timber.

Specifically, the rotating component 53 includes a driving motor 222, a motor base 532 and a rotating column 533 arranged at the top of the supporting frame 511, the rotating column 533 is rotatably connected with the top of the supporting frame 511, a driven gear 534 is sleeved on the rotating column 533, the driving motor 222 is fixed on the motor base 532, and a driving gear 535 meshed with the driven gear 534 is sleeved on the output end of the driving motor 222; the driving gear 535 can be rotated under the action of the driving motor 222, so that the driving gear 535 can drive the driven gear 534 to rotate, the driven gear 534 can drive the rotary column 533 to rotate, the rotary column 533 can drive the rotary table 512 to move, the lifting plate 521 and the wooden door clamping assembly 60 can rotate, the clamped wooden door can rotate to the top of the material moving table 221, and the loading operation of the wooden door is completed.

Specifically, the lifting component 52 includes a lifting electric cylinder 536 and four fixed columns 537 distributed on the top of the rotating platform 512 in a matrix manner, each fixed column 537 is provided with a sliding column 538 in sliding fit with the fixed column 537, the lifting plate is fixed on the top of the four sliding columns 538, and the output end of the lifting electric cylinder 536 is fixedly connected with the bottom of the lifting plate 521; the lifting electric cylinder 536 is capable of vertically moving the lifting plate 521, so that the lifting plate 521 can drive the wooden door clamping assembly 60 to lift, and the clamped wooden door can be separated from the four positioning strips 543.

Specifically, the material storage assembly 54 includes a material storage platform 541, a material lifting plate 542, a material lifting part 546, and four positioning strips 543 distributed in a matrix at the top of the material storage platform 541, each positioning strip 543 is in an L-shaped structure, the material lifting plate 542 is disposed between the four positioning strips 543, two vertically disposed guide rods 544 are disposed at the top of the material storage platform 541, and the material lifting plate 542 is in sliding fit with the two guide rods 544; the manual top that stacks at stock platform 541 with a plurality of timber of worker in proper order, four location strips 543 can realize spacing the timber that stacks, and guide bar 544 is used for leading the removal that rises flitch 542, and restraint liter flitch 542 removes in vertical direction.

Specifically, the material lifting component 546 includes a fixing plate 547 and a screw rod lifter 548 arranged at the top of the fixing plate 547, the fixing plate 547 is arranged below the material storage platform 541, a lifting screw rod 549 is arranged on the screw rod lifter 548, a lifting seat 545 is arranged at the bottom of the material lifting plate 542, and the top end of the lifting screw rod 549 is rotatably connected with the lifting seat 545; the rotation of lift lead screw 549 can be realized under the effect of lead screw lift 548, make lift lead screw 549 can drive lift seat 545 and remove, make lift seat 545 can drive liter flitch 542 and go up and down, make liter flitch 542 can drive the timber rebound that stacks, realize going up and down to suitable height with the timber that is located the top layer, the timber clamping component 60 of being convenient for presss from both sides tightly, can remove the timber that is pressed from both sides tightly to the top that moves the material platform 221 under rotatory feeding component 51's effect simultaneously.

Specifically, the material moving assembly 61 comprises two transmission components 62 symmetrically arranged at the top of the lifting plate 521, each transmission component 62 comprises a first rack 63, a second rack 64 and two guide rails 67, the first rack 63 and the second rack 64 are respectively in sliding fit with the two guide rails 67, a rotatable transmission shaft 65 is arranged between the first rack 63 and the second rack 64, a transmission gear 66 is sleeved on the transmission shaft 65, and the first rack 63 and the second rack 64 are both meshed with the transmission gear 66; the pushing electric cylinder 69 can horizontally move the connecting bar 691, so that the connecting bar 691 can drive the two first racks 63 to move, the first racks 63 can simultaneously move the two second racks 64 under the action of the transmission gear 66, and the first racks 63 and the second racks 64 move oppositely, so that the two clamping side plates 68 move oppositely to clamp the wooden door on the top layer, at the moment, the lifting electric cylinder 536 can vertically move the lifting plate 521, the lifting plate 521 can drive the wooden door clamping assembly 60 to lift, and the clamped wooden door can be separated from the four positioning bars 543.

Specifically, the material moving assembly 61 further includes a material pushing electric cylinder 69 and a connecting bar 691 horizontally arranged, the connecting bar 691 is fixed at the end portions of the two first racks 63, one of the clamping side plates 68 is fixedly connected with the end portions of the two first racks 63, and the other clamping side plate 68 is fixedly connected with the end portions of the two second racks 64; the pushing electric cylinder 69 works to enable the connecting bar 691 to move horizontally, so that the connecting bar 691 can drive the two first racks 63 to move, and the two second racks 64 can be moved simultaneously by the first racks 63 under the action of the transmission gears 66.

Specifically, the scrap cleaning and compressing mechanism 70 comprises a portal frame 21, and is characterized by further comprising a multi-angle scrap blowing assembly 71, a scrap collecting and conveying assembly 80 and a scrap storing and compressing assembly 90, the multi-angle scrap blowing component 71 and the scrap collecting and conveying component 80 are respectively arranged at two sides of the portal frame 21, the scrap storage compression assembly 90 is arranged beside the scrap collecting and conveying assembly 80, the multi-angle scrap blowing assembly 71 comprises a vertical feeding component 73, a feeding plate 711, a swinging plate 712 and an angle adjusting component 72 for adjusting the inclination angle of the swinging plate 712, the feeding plate 711 is arranged on the vertical feeding component 73, two supporting side plates 713 are arranged on the side wall of the feeding plate 711, a connecting cylinder 721 capable of rotating is arranged on each supporting side plate 713, the swinging plate 712 is fixed between the two connecting cylinders 721, and a fixed seat 722 is arranged between the connecting cylinder 721 and the swinging plate 712; can realize blowing off the sweeps that moves on material platform 221 through sweeps clearance compression mechanism 70, and can concentrate and carry the sweeps to depositing the bits incasement, can realize the compression operation to the sweeps under the effect of depositing bits compression assembly 90, the parking space of sweeps has been practiced thrift, still be convenient for transport the sweeps, can blow off the sweeps at a plurality of angles under the effect of bits subassembly 71 is blown to the multi-angle, it is troublesome to avoid the sweeps to pile up and bring for the processing of timber on moving material platform 221 and slip table, still need not manual the removing bits of worker and brought great convenience for the worker, connecting cylinder 721 is used for fixing swing plate 712, fixing base 722 can fix swing plate 712 and connecting cylinder 721 through the bolt.

Specifically, a plurality of gas transmission pipelines 723 are arranged on the swinging plate 712, each gas transmission pipeline 723 is fixedly connected with the swinging plate 712 through a pipe hoop, and each gas transmission pipeline 723 is provided with an air nozzle 724; the air nozzle 724 can perform air-jet chip removal operation on the material moving table 221 or the sliding table.

Specifically, the angle adjusting element 72 includes an adjusting motor 725 and two toothed rings 726 respectively disposed on two sides of the swinging plate 712, a rotating rod 727 rotatably connected to the two supporting side plates 713 is disposed between the two supporting side plates 713, the rotating rod 727 is provided with a rotating gear 728 corresponding to each toothed ring 726, the rotating gear 728 is engaged with the corresponding toothed ring 726, the adjusting motor 725 is fixed on a side wall of one of the supporting side plates 713, and an output end of the adjusting motor 725 is connected to an end of the rotating rod 727 through a coupling; can blow off the sweeps at a plurality of angles under the effect of multi-angle blowing bits subassembly 71, it brings the trouble for the processing of timber to avoid the sweeps to pile up on moving material platform 221 and slip table, still need not the manual bits that remove of worker and brought great convenience for the worker, adjusting motor 725 work can drive rotary rod 727 and take place to rotate, make rotary rod 727 can drive rotary gear 728 and take place to rotate, make rotary gear 728 can drive tooth ring 726 rather than the meshing and rotate, make tooth ring 726 can drive swing plate 712 and rotate, make swing plate 712 can rotate around the axis of connecting barrel 721, make the gas transmission pipeline 723 that is located on swing plate 712 can take place to rotate, make air nozzle 724 can carry out jet-propelled bits removal operation to moving material platform 221 or slip table in the position of difference.

Specifically, the vertical feeding part 73 comprises a lifting cylinder 731, a cylinder block 732 and two vertically arranged support rods 733, the feeding plate 711 is slidably sleeved on the two support rods 733, the cylinder block 732 is fixed on the side wall of the gantry 21, the tail of the lifting cylinder 731 is hinged to the cylinder block 732, and the output end of the lifting cylinder 731 is fixedly connected with the top of the feeding plate 711; the lifting cylinder 731 can enable the feeding plate 711 to vertically move when working, the feeding plate 711 can slide on the supporting rod 733, the feeding plate 711 can drive the angle adjusting part 72 to move, the air nozzle 724 can move in the vertical direction, the material moving table 221 and the sliding table are sequentially subjected to air injection operation from top to bottom, and waste scraps can be blown into the scrap collecting hopper 81.

Specifically, the scrap collecting and conveying assembly 80 comprises a scrap discharging motor 87, an upward scrap collecting hopper 81 with an opening, a horizontally arranged feeding screw rod 83 and a scrap discharging plate 82 arranged inside the scrap collecting hopper 81, the feeding screw rod 83 is rotatably connected with two ends of the scrap collecting hopper 81, a thread sleeve in threaded connection with the feeding screw rod 83 is arranged on the scrap discharging plate 82, a scrap cleaning brush 84 is arranged on the side wall of the scrap discharging plate 82, and the output end of the scrap discharging motor 87 is fixedly connected with the end part of the feeding screw rod 83; the chip removal motor 87 can drive the feeding screw rod 83 to rotate when working, so that the feeding screw rod 83 can drive the chip removal plate 82 in threaded connection with the feeding screw rod to horizontally move, the chip removal plate 82 can drive the chip removal brush 84 to clean the inner wall of the chip collection hopper 81, and the chip removal plate 82 can convey the chips to the inside of the chip storage box.

Specifically, the scrap collecting and conveying assembly 80 further comprises a dust suction fan 85 and a dust collection cover 86, an output end of the dust suction fan 85 is communicated with the dust collection cover 86, and an output end of the dust suction fan 85 is communicated with the scrap collecting hopper 81; the dust suction fan 85 is operated to convey dust into the dust collection hopper 81 through the dust collection cover 86.

Specifically, deposit bits compression assembly 90 including compression case 91, the compression board 92 and two vertical pole settings 93 that set up in compression case 91 of level setting, compression case 91 is linked together with collection bits fill 81, compression board 92 and two pole settings 93 sliding fit, the bottom of compression board 92 is equipped with a plurality of crushing blade 94, and compression board 92 can drive crushing blade 94 at the in-process that removes and remove, makes crushing blade 94 can carry out broken operation to the piece.

Specifically, the scrap storage compression assembly 90 further comprises a compaction motor 95, a bearing frame 96 arranged at the top of the compression box 91 and a vertically arranged compaction rack 97, a material pushing rod 971 is arranged between the compaction rack 97 and the top of the compression plate 92, a guide rail 972 in sliding fit with the compaction rack 97 is arranged on the side wall of the bearing frame 96, a top plate 973 is arranged at the top of the bearing frame 96, the compaction motor 95 is arranged at the top of the compression box 91, an incomplete gear 974 meshed with the compaction rack 97 is sleeved on the output end of the compaction motor 95, and a return spring 975 is arranged between the top plate 973 and the compaction rack 97; compaction motor 95 work can make incomplete gear 974 take place to rotate, make incomplete gear 974 can mesh with compaction rack 97, make compaction rack 97 can drive ejector ram 971 and remove, can make compression board 92 reset to initial position under reset spring 975's effect, make compression board 92 remove and carry out the compression operation to accumulational piece, guide rail 972 is used for leading and supporting compaction rack 97, pole setting 93 is used for leading to compression board 92.

The utility model discloses a theory of operation: an operator manually stacks a plurality of wooden doors at the top of the material storage platform 541 in sequence, the four positioning strips 543 can limit the stacked wooden doors, the lifting screw 549 can rotate under the action of the screw rod lifter 548, the lifting screw rod 549 can drive the lifting seat 545 to move, the lifting seat 545 can drive the lifting plate 542 to lift, the lifting plate 542 can drive the stacked wooden doors to move upwards, the wooden doors at the top layer can be lifted to a proper height, the wooden door clamping assembly 60 can clamp the wooden doors conveniently, the clamped wooden doors can be moved to the top of the material moving platform 221 under the action of the rotary feeding assembly 51, the wooden doors with different widths can be automatically clamped through the wooden door clamping assembly 60, the practicability of the device is improved, the clamped wooden doors can be conveyed to the top of the material moving platform 221, the material pushing electric cylinder 69 can work to horizontally move the connecting strips 691, the connecting bar 691 can drive the two first racks 63 to move, the first racks 63 can drive the two second racks 64 to move simultaneously under the action of the transmission gears 66, the first racks 63 and the second racks 64 move oppositely, so that the two clamping side plates 68 move oppositely to clamp the wooden door on the top layer, at this time, the lifting electric cylinder 536 works to enable the lifting plate 521 to move vertically, the lifting plate 521 can drive the wooden door clamping assembly 60 to lift, the clamped wooden door can be separated from the four positioning bars 543, the driving gear 535 can rotate under the action of the driving motor 222, the driving gear 535 can drive the driven gear 534 to rotate, the driven gear 534 can drive the rotary column 533 to rotate, the rotary column 533 can drive the rotary table 512 to move, and the lifting plate 521 and the wooden door clamping assembly 60 can rotate, enabling the clamped wooden door to rotate to the top of the material moving table 221, and finishing the loading operation of the wooden door; the three-axis moving mechanism 20 can realize the movement of the lifting platform 241 in the X-axis, the Y-axis and the Z-axis, so that the drilling machine 244 can drill a fixed wooden door in a plurality of positions, the servo motor 232 can rotate the first lead screw 231, the first lead screw 231 can drive the extension platform 235 in threaded connection with the first lead screw to move, the extension platform 235 can drive the sliding platform to move in the Y-axis direction, the driving motor 531 can drive the second lead screw 223 to rotate, the second lead screw 223 can drive the material moving platform 221 to move, the material moving platform 221 can drive the lifting platform 241 to move in the X-axis direction, the lifting platform 241 can move in the vertical direction under the action of the lifting assembly 25, the drilling machine 244 can move in the vertical direction, the lifting motor 251 can drive the rotating shaft 254 to rotate, and the rotating shaft 254 can drive the two chain wheels 252 to rotate, the chain wheel 252 can drive the chain 255 engaged with the chain wheel to move, the chain 255 can drive the lifting platform 241 to move, the lifting platform 241 can drive the drilling machine 244 to move in the vertical direction, the chain 256 can drive the two winding wheels 257 to rotate when working, the two winding wheels 257 can simultaneously rotate to wind the chain 255, the wooden door limiting mechanism 30 can limit wooden doors with different widths, the wooden doors are prevented from deviating in the processing process, the wooden doors can be pressed under the action of the pressing assembly 33 to be more stable, the stepping motor 45 can drive the driving gear 46 to rotate when working, the driving gear 46 can drive the material moving rack 47 engaged with the driving gear 46 to move, the material moving rack 47 can drive the material moving plate 41 to horizontally move, and the material moving plate 41 can drive the two extending rods 43 to simultaneously move, the two extending rods 43 move towards each other, so that the two extending rods 43 can respectively drive the two material moving strips 32 to move towards each other, the two material moving strips 32 can drive the telescopic rods 37 and the mounting strips 36 to move, the limiting block 39 can realize the limiting operation on the wooden door, an operator can make the limiting rod 347 separate from the limiting groove 346 to make the rotating strip 34 rotate, so that the rotating strip 34 is in a horizontal state, the operator can make the rotating head 348 rotate to make the transmission screw rod 342 rotate, so that the transmission screw rod 342 can drive the pressing disc 341 to move, so that the pressing disc 341 can move to a proper position to press the side edge of the wooden door, a drilling machine 244 can conveniently process the wooden door, the scrap on the material moving platform 221 can be blown off through the scrap cleaning and compressing mechanism 70, the scrap can be intensively conveyed into the scrap storage box, and the compression operation on the scrap can be realized under the action of the scrap compressing assembly 90, the storage space of the scraps is saved, the scraps can be conveniently transported, the scraps can be blown off at multiple angles under the action of the multi-angle scrap blowing assembly 71, the phenomenon that the scraps are accumulated on the material moving table 221 and the sliding table to bring troubles for processing wooden doors is avoided, the manual scrap removal by workers is not needed, great convenience is brought to the workers, the adjusting motor 725 can drive the rotating rod 727 to rotate when working, the rotating rod 727 can drive the rotating gear 728 to rotate, the rotating gear 728 can drive the toothed ring 726 meshed with the rotating gear 728 to rotate, the toothed ring 726 can drive the swinging plate 712 to rotate, the swinging plate 712 can rotate around the axis of the connecting cylinder 721, the gas pipeline 723 on the swinging plate 712 can rotate, the gas nozzle 724 can perform gas injection scrap removal operation on the material moving table 221 or the sliding table at different positions, the lifting cylinder 731 can work to vertically move the feeding plate 711, the feeding plate 711 can slide on the supporting rod 733, the feeding plate 711 can drive the angle adjusting part 72 to move, the air nozzle 724 can move in the vertical direction to sequentially spray air to the material moving table 221 and the sliding table up and down, waste scraps can be blown into the scrap collecting hopper 81, the scrap discharging motor 87 can drive the feeding screw rod 83 to rotate, the feeding screw rod 83 can drive the scrap discharging plate 82 in threaded connection with the feeding screw rod to horizontally move, the scrap discharging plate 82 can drive the scrap cleaning brush 84 to clean the inner wall of the scrap collecting hopper 81, the scrap discharging plate 82 can convey the waste scraps to the inside of the scrap storing box, the dust collecting fan 85 can convey dust into the scrap collecting hopper 81 through the dust collecting cover 86 when working, the incomplete gear 974 can rotate when working by the compacting motor 95, the incomplete gear 974 can be meshed with the compacting rack 97, the compacting rack 97 can drive the material pushing rod 971 to move, the compression plate 92 can be returned to the initial position by the return spring 975, and the compression plate 92 is moved to compress the accumulated debris.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (8)

1. The utility model provides a full-automatic sweeps clearance compression mechanism of timber machining center, includes portal frame (21), its characterized in that still includes multi-angle and blows bits subassembly (71), collection bits conveying component (80) and deposit bits compression component (90), multi-angle blows bits subassembly (71) and collects bits conveying component (80) and sets up respectively in the both sides of portal frame (21), it sets up the side at collection bits conveying component (80) to deposit bits compression component (90), multi-angle blows bits subassembly (71) and includes vertical pay-off part (73), feed plate (711), swinging plate (712) and is used for adjusting swinging plate (712) inclination's angle adjustment part (72), feed plate (711) sets up on vertical pay-off part (73), be equipped with two support curb plate (713) on the lateral wall of feed plate (711), every support curb plate (713) on all be equipped with connecting tube (721) that can rotate, the swing plate (712) is fixed between the two connecting cylinders (721), and a fixed seat (722) is arranged between the connecting cylinder (721) and the swing plate (712).

2. The waste scrap cleaning and compressing mechanism of the full-automatic wooden door processing center according to claim 1, wherein a plurality of gas transmission pipelines (723) are arranged on the swinging plate (712), each gas transmission pipeline (723) is fixedly connected with the swinging plate (712) through a pipe hoop, and each gas transmission pipeline (723) is provided with an air nozzle (724).

3. The scrap cleaning and compressing mechanism of the fully automatic wooden door machining center according to claim 1, wherein the angle adjusting member (72) comprises an adjusting motor (725) and two toothed rings (726) respectively disposed at two sides of the swing plate (712), a rotating rod (727) rotatably connected to the two support side plates (713) is disposed between the two support side plates (713), the rotating rod (727) is provided with a rotating gear (728) corresponding to each toothed ring (726), the rotating gear (728) is engaged with the corresponding toothed ring (726), the adjusting motor (725) is fixed to a side wall of one of the support side plates (713), and an output end of the adjusting motor (725) is connected to an end of the rotating rod (727) through a coupling.

4. The scrap cleaning and compressing mechanism of the full-automatic wooden door machining center according to claim 1, wherein the vertical feeding part (73) comprises a lifting cylinder (731), a cylinder seat (732) and two vertically arranged support rods (733), the feeding plate (711) is slidably sleeved on the two support rods (733), the cylinder seat (732) is fixed on the side wall of the portal frame (21), the tail part of the lifting cylinder (731) is hinged to the cylinder seat (732), and the output end of the lifting cylinder (731) is fixedly connected with the top part of the feeding plate (711).

5. The full-automatic wooden door machining center's sweeps clearance compression mechanism of claim 1, characterized in that, collection bits conveying assembly (80) is including chip removal motor (87), uncovered ascending collection bits fill (81), the pay-off lead screw (83) of level setting and set up chip removal board (82) at collection bits fill (81) inside, pay-off lead screw (83) are connected with the both ends rotation that collection bits were fought (81), be equipped with the thread bush with pay-off lead screw (83) threaded connection on chip removal board (82), be equipped with on the lateral wall of chip removal board (82) clear bits brush (84), the output of chip removal motor (87) and the tip fixed connection of pay-off lead screw (83).

6. The scrap cleaning and compressing mechanism of the full-automatic wooden door machining center according to claim 5, wherein the scrap conveying assembly (80) further comprises a dust collection fan (85) and a dust collection hood (86), an output end of the dust collection fan (85) is communicated with the dust collection hood (86), and an output end of the dust collection fan (85) is communicated with the scrap collection hopper (81).

7. The scrap cleaning and compressing mechanism of the fully automatic wooden door machining center according to claim 6, wherein the scrap storage compressing assembly (90) comprises a compressing box (91), a horizontally arranged compressing plate (92) and two vertical rods (93) vertically arranged in the compressing box (91), the compressing box (91) is communicated with the scrap collecting hopper (81), the compressing plate (92) is in sliding fit with the two vertical rods (93), and a plurality of crushing blades (94) are arranged at the bottom of the compressing plate (92).

8. The full automatic wood door machining center scrap cleaning and compressing mechanism according to claim 7, characterized in that the scrap storage compression assembly (90) also comprises a compaction motor (95), a bearing frame (96) arranged at the top of the compression box (91) and a compaction rack (97) vertically arranged, a material pushing rod (971) is arranged between the compaction rack (97) and the top of the compression plate (92), the side wall of the bearing frame (96) is provided with a guide rail (972) which is in sliding fit with the compaction rack (97), the top of the bearing frame (96) is provided with a top plate (973), the compaction motor (95) is arranged at the top of the compression box (91), an incomplete gear (974) meshed with the compaction rack (97) is sleeved on the output end of the compaction motor (95), and a return spring (975) is arranged between the top plate (973) and the compaction rack (97).

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