CN110116448B - Multi-functional shredded wood processing door plant device - Google Patents

Abstract

The invention relates to a door plate processing device, in particular to a multifunctional door plate device for processing crushed wood, which comprises a dust removal mechanism, a wood residue feeding mechanism, a rotary feeding mechanism, a glue adding mechanism, a stirring mechanism and a door plate forming mechanism.

Description

Multi-functional shredded wood processing door plant device

Technical Field

The invention relates to a door plate processing device, in particular to a multifunctional door plate processing device by wood chips.

Background

In the door plant processing, the environmental protection is a very important ring, and the requirement to the environmental protection is very high now, and traditional door plant processing equipment does not all have self dust collecting equipment, so designed this kind of multi-functional shredded wood processing door plant device.

Disclosure of Invention

The invention mainly solves the technical problem of providing a multifunctional door plate device for processing crushed wood, which can remove dust, automatically remove ash, automatically add wood slag, automatically add glue, fully mix the wood slag and the glue, automatically discharge the mixture into a door plate groove for forming, and assist in door plate forming.

In order to solve the technical problem, the invention relates to a door plate processing device, in particular to a multifunctional door plate device for processing crushed wood, which comprises a dust removal mechanism, a wood residue feeding mechanism, a rotary feeding mechanism, a glue adding mechanism, a stirring mechanism and a door plate forming mechanism.

The dust removal mechanism comprises a box body, a filter screen slot, a filter screen, an ash removal mechanism, an ash removal driving mechanism, an air duct slot, an air duct support, a fan blade motor, a bearing seat and a support leg, wherein the filter screen slot is formed in the box body;

the ash removal mechanism comprises a movable cavity, a return spring, a sliding block, a hinged rod and an ash removal hammer mechanism, wherein the return spring is arranged inside the movable cavity;

the ash removal hammer mechanism comprises a hinge hole, an ash removal hammer body, an ash removal hammer groove, an ash removal spring, an ash removal hammer seat, a matching seat and a matching groove, wherein the hinge hole is formed in the ash removal hammer seat;

the ash removal driving mechanism comprises an ash removal shaft, an ash removal shaft belt pulley, a cam, a belt, an ash removal motor wheel and an ash removal motor, wherein the ash removal shaft is connected with the ash removal shaft belt pulley;

the wood residue feeding mechanism comprises a long vertical supporting leg, a feeding box, a feeding connecting rod, a cam A, a cam motor, a spring support mechanism, a cross support and a short vertical support, wherein the long vertical supporting leg is connected with the cross support, the cross support is connected with the short vertical support, the feeding box is hinged with the feeding connecting rod, the feeding connecting rod is hinged with the cam A, the cam A is connected with the cam motor, the cam motor is connected with the cross support, the spring support mechanism is hinged with the feeding box, and the spring support mechanism is hinged with the cross support;

the spring support mechanism comprises a spring lower support, a movable support seat, an upper rod groove, a spring I, a limit block groove, a limit block and a spring upper support, the spring lower support is positioned below the movable support seat, the upper rod groove is formed in the movable support seat, the spring I is welded between the movable support seat and the spring upper support, the limit block groove is formed in two sides of the movable support seat, the limit block is matched with the limit block groove, and the limit block is connected with the spring upper support;

the rotary feeding mechanism comprises rotary feeding supporting legs, a rotary cavity, a feeding hole, a rotary plate wheel, a shaft, a rotary feeding motor and a discharging pipe, wherein the rotary feeding supporting legs are positioned below the rotary cavity;

the glue adding mechanism comprises a glue adding pushing mechanism, a glue adding driving mechanism, a glue adding cavity mechanism and a one-way valve mechanism, the glue adding pushing mechanism is meshed with the glue adding driving mechanism, the glue adding pushing mechanism is matched with the glue adding cavity mechanism, the glue adding driving mechanism is positioned above the glue adding cavity mechanism, and the one-way valve mechanism is arranged inside the glue adding cavity mechanism;

the gluing pushing mechanism comprises a rack, a rack cross brace, a linkage rod, a pressing seat and a lug, wherein the rack is arranged on two sides of the rack cross brace, the linkage rod is hinged with the pressing seat, and the lug is connected with the rack cross brace;

the gluing driving mechanism comprises a gear support, a gear motor wheel, a belt A, a gear belt pulley, a gear shaft and a gear, wherein the gear motor is connected with the gear support;

the glue adding cavity mechanism comprises a glue adding cavity body, a glue adding cavity supporting leg, a convex block groove, a slide way and a glue supplementing hole screw, the glue adding cavity supporting leg is positioned below the glue adding cavity body, the convex block groove is formed in the slide way, the slide way is connected with the glue adding cavity body, and the glue supplementing hole screw is connected with the glue adding cavity body;

the one-way valve mechanism comprises a glue permeating hole, a connecting block and a one-way valve body, wherein the glue permeating hole is formed in the connecting block, and the one-way valve body is connected with the connecting block;

the stirring mechanism comprises a scraping wheel, a scraping wheel support, a door opening and closing mechanism, a mixed discharge hole, a stirring cavity, a stirring wheel, a wood chip inlet, a bearing seat I, a stirring motor, a stirring shaft and a stirring support leg, wherein the scraping wheel is hinged with the scraping wheel support;

the door opening and closing mechanism comprises a cavity, a door opening and closing motor wheel, a door opening and closing motor, a steel wire rope, an opening and closing spring, an opening and closing door and a door opening and closing groove, wherein the door opening and closing motor is arranged inside the cavity;

the door plate forming mechanism comprises a slide bar support, a slide bar, a moving forming mechanism, a rack I, a swinging tooth mechanism and a swinging driving mechanism, wherein the slide bar support is connected with the slide bar, the slide bar is matched with the moving forming mechanism, the rack I is positioned below the moving forming mechanism, the swinging tooth mechanism is meshed with the rack I, and the swinging tooth mechanism is matched with the swinging driving mechanism;

the moving forming mechanism comprises a sliding rod seat, a sliding rod groove, a door plate forming seat and a door plate groove, the sliding rod seat is positioned below the door plate forming seat, the sliding rod groove is arranged on the sliding rod seat, the door plate groove is arranged on the door plate forming seat,

the swing tooth mechanism comprises a swing tooth body, a sliding strip groove and a hinge hole A, wherein the sliding strip groove is formed in the swing tooth body, and the hinge hole A is formed in the swing tooth body;

the swing driving mechanism comprises a swing driving seat, a swing driving lug, a driving disc, a swing driving motor and a hinged connecting rod, the swing driving seat is connected with the swing driving motor, the swing driving motor is connected with the driving disc, and the driving disc is connected with the swing driving lug;

the wood residue feeding mechanism is located above the dust removing mechanism, the rotary feeding mechanism is connected with the wood residue feeding mechanism, the rotary feeding mechanism is connected with the dust removing mechanism, the rotary feeding mechanism is connected with the stirring mechanism, the glue adding mechanism is located above the stirring mechanism, and the door plate forming mechanism is located below the stirring mechanism.

As a further optimization of the technical scheme, the ash removal hammer mechanism of the multifunctional wood chip processing door plate device is made of high manganese steel.

As a further optimization of the technical scheme, the stirring wheel of the multifunctional wood chip processing door plate device is made of stainless steel.

The multifunctional door plate device for processing the wood chips has the beneficial effects that:

according to the multifunctional door plate smashing processing device, dust can be removed, dust can be automatically removed, wood residues can be automatically added into the device, glue can be automatically added into the device, the wood residues and the glue can be fully mixed, the mixture can be automatically discharged into a door plate groove to be formed, and the device can assist in door plate forming.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a multifunctional door panel device for wood chip processing according to the present invention.

Fig. 2 is a schematic structural diagram of a dust removing mechanism 1 of the multifunctional door panel device for wood chip processing according to the present invention.

FIG. 3 is a schematic structural diagram of ash removal mechanisms 1-4 of the multifunctional door panel device for wood chipping processing according to the present invention.

FIG. 4 is a schematic structural diagram of the ash removal hammer mechanism 1-4-5 of the multifunctional door panel device for wood chipping processing according to the present invention.

Fig. 5 is a schematic structural diagram of ash removal driving mechanisms 1-5 of the multifunctional wood-chip processing door panel device.

Fig. 6 is a schematic structural diagram of a wood slag feeding mechanism 2 of the multifunctional door panel device for wood chip processing according to the invention.

Fig. 7 is a schematic structural diagram of spring support mechanisms 2-6 of the multifunctional door panel device for wood chipping processing according to the present invention.

Fig. 8 is a schematic structural diagram of the rotary feeding mechanism 3 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 9 is a schematic structural diagram of a glue adding mechanism 4 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 10 is a schematic structural view of a glue adding pushing mechanism 4-1 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 11 is a schematic structural view of a gluing driving mechanism 4-2 of the multifunctional door panel device for wood chipping processing according to the present invention.

Fig. 12 is a schematic structural view of a glue adding cavity mechanism 4-3 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 13 is a schematic structural view of a check valve mechanism 4-4 of the multifunctional door panel device for wood chipping processing according to the present invention.

Fig. 14 is a schematic structural diagram of the stirring mechanism 5 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 15 is a schematic structural view of a door opening and closing mechanism 5-3 of the multifunctional door panel device for wood chip processing according to the present invention.

Fig. 16 is a schematic structural diagram of a door plate forming mechanism 6 of a multifunctional door plate smashing and processing device according to the invention.

Fig. 17 is a schematic structural view of the moving forming mechanism 6-3 of the multifunctional door panel device for wood chipping processing according to the present invention.

Fig. 18 is a schematic structural view of a swing tooth mechanism 6-5 of the multifunctional wood-breaking door panel processing device according to the present invention.

Fig. 19 is a schematic structural view of a swing driving mechanism 6-6 of the multifunctional door panel device for wood chipping processing according to the present invention.

In the figure: a dust removal mechanism 1; a box body 1-1; 1-2 grooves are formed in the filter screen; 1-3 of a filter screen; 1-4 parts of a dust cleaning mechanism; 1-4-1 of a movable cavity; 1-4-2 of a return spring; 1-4-3 of a sliding block; hinge rods 1-4-4; 1-4-5 parts of a deashing hammer mechanism; hinge holes 1-4-5-1; 1-4-5-2 parts of ash removal hammer body; 1-4-5-3 of a deashing hammer groove; ash removal springs 1-4-5-4; 1-4-5-5 parts of ash removal hammer seat; 1-4-5-6 of a matching seat; 1-4-5-7 of a matching groove; 1-5 of ash removal driving mechanism; 1-5-1 of ash removing shaft; 1-5-2 parts of a deashing shaft belt pulley; 1-5-3 of a cam; 1-5-4 parts of a belt; 1-5-5 parts of a dust cleaning motor wheel; 1-5-6 parts of a deashing motor; 1-6 of an air duct groove; 1-7 of an air duct; 1-8 of air pipe support; 1-9 of fan blades; 1-10 of a fan blade motor; 1-11 of a bearing seat; 1-12 of supporting legs; a wood slag feeding mechanism 2; 2-1 of long vertical supporting legs; a feeding box 2-2; 2-3 of a feeding connecting rod; cam A2-4; 2-5 parts of a cam motor; 2-6 parts of a spring support mechanism; 2-6-1 of a spring lower support; 2-6-2 of a movable support seat; 2-6-3 of an upper rod groove; spring I2-6-4; 2-6-5 of a limiting block groove; 2-6-6 parts of a limiting block; 2-6-7 of upper support of the spring; 2-7 of a cross brace; 2-8 parts of short vertical braces; rotating the feeding mechanism 3; rotating the feeding support legs 3-1; a rotating cavity 3-2; a feed inlet 3-3; 3-4 of a rotating plate; 3-5 of a rotating plate wheel; 3-6 of the shaft; rotating a feeding motor by 3-7; 3-8 parts of a discharge pipe; a glue adding mechanism 4; a glue adding pushing mechanism 4-1; a rack 4-1-1; 4-1-2 of a rack cross brace; 4-1-3 of a linkage rod; 4-1-4 of a press seat; 4-1-5 of a bump; a glue adding driving mechanism 4-2; the gear support 4-2-1; 4-2-2 of a gear motor; gear motor wheel 4-2-3; belt A4-2-4; 4-2-5 of a gear belt pulley; gear shafts 4-2-6; gear 4-2-7; 4-3 of a glue adding cavity mechanism; 4-3-1 of a glue adding cavity body; 4-3-2 of a rubber cavity supporting leg; 4-3-3 of a bump groove; 4-3-4 of a slideway; 4-3-5 of a glue supplementing opening screw; 4-4 of a one-way valve mechanism; 4-4-1 of glue permeating holes; 4-4-2 parts of a connecting block; 4-4-3 of the one-way valve body; a stirring mechanism 5; 5-1 of a scraping wheel; 5-2 of scraping wheel support; 5-3 of a door opening and closing mechanism; 5-3-1 of a cavity; a door opening and closing motor wheel 5-3-2; 5-3-3 of a door opening and closing motor; 5-3-4 parts of a steel wire rope; 5-3-5 parts of an opening and closing spring; 5-3-6 of an opening and closing door; 5-3-7 of a door opening and closing groove; 5-4 of a mixed discharge port; 5-5 parts of a stirring cavity; 5-6 parts of a stirring wheel; 5-7 parts of a wood inlet opening; bearing seats I5-8; 5-9 parts of a stirring motor; 5-10 parts of a stirring shaft; 5-11 parts of stirring support legs; a door panel forming mechanism 6; the slide bar support 6-1; 6-2 of a slide bar; moving the forming mechanism 6-3; 6-3-1 of a slide bar seat; 6-3-2 of a sliding rod groove; 6-3-3 of a door panel forming seat; 6-3-4 of a door panel groove; rack I6-4; 6-5 of a swing tooth mechanism; 6-5-1 of a swinging tooth body; 6-5-2 of a slide groove; hinge hole A6-5-3; a swing drive mechanism 6-6; swing the driving seat 6-6-1; swing the drive lug 6-6-2; a driving disc 6-6-3; 6-6-4 of a swing driving motor; and the hinged connecting rod 6-6-5.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the invention relates to a door panel processing device, and more specifically to a multifunctional door panel device for wood chip processing, which comprises a dust removing mechanism 1, a wood chip feeding mechanism 2, a rotary feeding mechanism 3, a gluing mechanism 4, a stirring mechanism 5, and a door panel forming mechanism 6, and is capable of removing dust, cleaning ash, adding wood chips, gluing, mixing, discharging the mixture into a door panel groove, and assisting in door panel forming.

The dust removing mechanism 1 comprises a box body 1-1, a filter screen slot 1-2, a filter screen 1-3, a dust cleaning mechanism 1-4, a dust cleaning driving mechanism 1-5, an air pipe slot 1-6, an air pipe 1-7, an air pipe support 1-8, a fan blade 1-9, a fan blade motor 1-10, a bearing seat 1-11 and a support leg 1-12, wherein the filter screen slot 1-2 is arranged on the box body 1-1, the filter screen 1-3 is matched with the filter screen slot 1-2, the dust cleaning mechanism 1-4 is connected with the box body 1-1, the dust cleaning driving mechanism 1-5 is matched with the dust cleaning mechanism 1-4, the dust cleaning driving mechanism 1-5 is connected with the bearing seat 1-11 by a bearing, the bearing seat 1-11 is connected with the box body 1-1, the air pipe slot 1-6 is arranged on the box, the air pipe 1-7 is connected with the air pipe groove 1-6, the air pipe support 1-8 is welded between the box body 1-1 and the air pipe 1-7, the fan blade 1-9 is connected with the fan blade motor 1-10, the fan blade motor 1-10 is arranged inside the box body 1-1, the support leg 1-12 is positioned below the box body 1-1, the fan blade 1-9 is driven to rotate by the operation of the fan blade motor 1-10, the fan blade 1-9 rotates to form negative pressure wind power, under the driving of the wind power, external dust and the like are sucked into the box body 1-1 from the air pipe 1-7 and filtered when passing through the filter screen 1-3, and then the dust removal treatment can be carried out;

the ash cleaning mechanism 1-4 comprises a movable cavity 1-4-1, a return spring 1-4-2, a sliding block 1-4-3, a hinged rod 1-4-4 and an ash cleaning hammer mechanism 1-4-5, wherein the return spring 1-4-2 is arranged inside the movable cavity 1-4-1, the sliding block 1-4-3 is matched with the movable cavity 1-4-1, the hinged rod 1-4-4 is hinged with the sliding block 1-4-3, the hinged rod 1-4-4 is hinged with the ash cleaning hammer mechanism 1-4-5, when excessive dust is accumulated on the filter screen 1-3, the ash cleaning motor 1-5-6 can be operated to drive the ash cleaning motor wheel 1-5-5 to rotate, and the ash cleaning motor wheel 1-5-5 rotates to drive the ash cleaning motor wheel 1-5-4 to rotate The ash removal shaft pulley 1-5-2 rotates, the ash removal shaft pulley 1-5-2 rotates to drive the ash removal shaft 1-5-1 to rotate, the ash removal shaft 1-5-1 rotates to drive the cam 1-5-3 to rotate, the cam 1-5-3 rotates to drive the ash removal hammer mechanism 1-4-5 to move through matching with the matching groove 1-4-5-7, the ash removal hammer mechanism 1-4-5 moves to drive the slide block 1-4-3 to move through the hinge rod 1-4-4, the slide block 1-4-3 moves to compress the return spring 1-4-2, and then the return spring 1-4-2 rebounds, the ash removal hammer mechanism 1-4-5 is reset, under the rotating matching of the reset spring 1-4-2 and the cam 1-5-3, the ash removal hammer mechanism 1-4-5 can reciprocate, and the ash removal hammer mechanism 1-4-5 can repeatedly knock the filter screen 1-3 when reciprocating, so that dust on the filter screen 1-3 can be knocked down;

the ash removing hammer mechanism 1-4-5 comprises a hinged hole 1-4-5-1, an ash removing hammer body 1-4-5-2, an ash removing hammer groove 1-4-5-3, an ash removing spring 1-4-5-4, an ash removing hammer seat 1-4-5-5, a matching seat 1-4-5-6 and a matching groove 1-4-5-7, wherein the hinged hole 1-4-5-1 is arranged on the ash removing hammer seat 1-4-5-5, the ash removing hammer body 1-4-5-2 is matched with the ash removing hammer groove 1-4-5-3, the ash removing hammer body 1-4-5-2 is connected with the ash removing spring 1-4-5-4, and the ash removing spring 1-4-5-4 is connected with the ash removing hammer groove 1-4-5-3 The ash removal hammer seat 1-4-5-5 is connected with the ash removal hammer seat 1-4-5-5, and the matching groove 1-4-5-7 is arranged on the matching seat 1-4-5-6;

the ash cleaning driving mechanism 1-5 comprises an ash cleaning shaft 1-5-1, an ash cleaning shaft belt pulley 1-5-2, a cam 1-5-3, a belt 1-5-4, an ash cleaning motor wheel 1-5-5 and an ash cleaning motor 1-5-6, the ash removing shaft 1-5-1 is connected with the ash removing shaft belt pulley 1-5-2, the cam 1-5-3 is connected with the ash removing shaft 1-5-1, the ash removing shaft belt pulley 1-5-2 is flexibly connected with the belt 1-5-4, the belt 1-5-4 is flexibly connected with the ash removing motor wheel 1-5-5, and the ash removing motor wheel 1-5-5 is connected with the ash removing motor 1-5-6 in an expansion sleeve manner;

the wood slag feeding mechanism 2 comprises long vertical supporting legs 2-1, a feeding box 2-2, a feeding connecting rod 2-3, a cam A2-4, a cam motor 2-5, a spring support mechanism 2-6, a cross brace 2-7 and a short vertical support 2-8, wherein the long vertical supporting legs 2-1 are connected with the cross brace 2-7, the cross brace 2-7 is connected with the short vertical support 2-8, the feeding box 2-2 is hinged with the feeding connecting rod 2-3, the feeding connecting rod 2-3 is hinged with the cam A2-4, the cam A2-4 is connected with the cam motor 2-5, the cam motor 2-5 is connected with the cross brace 2-7, the spring support mechanism 2-6 is hinged with the feeding box 2-2, and the spring support mechanism 2-6 is hinged with the cross brace 2-7;

the spring support mechanism 2-6 comprises a spring lower support 2-6-1, a movable support seat 2-6-2, an upper rod groove 2-6-3, a spring I2-6-4, a limit block groove 2-6-5, a limit block 2-6-6 and a spring upper support 2-6-7, the spring lower support 2-6-1 is positioned below the movable support seat 2-6-2, the upper rod groove 2-6-3 is arranged on the movable support seat 2-6-2, the spring I2-6-4 is welded between the movable support seat 2-6-2 and the spring upper support 2-6-7, the limit block groove 2-6-5 is arranged on two sides of the movable support seat 2-6-2, the limit block 2-6-6 is matched with the limit block groove 2-6-5, the limiting block 2-6-6 is connected with the upper support 2-6-7 of the spring;

the rotary feeding mechanism 3 comprises rotary feeding support legs 3-1, a rotary cavity 3-2, a feeding port 3-3, a rotary plate 3-4, a rotary plate wheel 3-5, a shaft 3-6, a rotary feeding motor 3-7 and a discharging pipe 3-8, wherein the rotary feeding support legs 3-1 are positioned below the rotary cavity 3-2, the feeding port 3-3 is connected with the rotary cavity 3-2, the rotary plate 3-4 is connected with the rotary plate wheel 3-5, the rotary plate wheel 3-5 is connected with the shaft 3-6, the shaft 3-6 is connected with the rotary cavity 3-2 in a bearing way, the rotary feeding motor 3-7 is connected with the rotary cavity 3-2, the discharging pipe 3-8 is connected with the rotary cavity 3-2, and a cam A2-4 is driven to rotate by the operation of the cam motor 2-5, the cam A2-4 rotates to drive the left end of the feeding box 2-2 to be repeatedly lifted through the feeding connecting rod 2-3, so that wood slag in the feeding box 2-2 can be forwards fed into the feeding hole 3-3, then the feeding motor 3-7 is rotated, the rotating plate wheel 3-5 is driven to rotate by rotating the feeding motor 3-7, the rotating plate wheel 3-5 rotates to drive the rotating plate 3-4 to rotate, the rotating plate 3-4 rotates to drive materials to fall out of the discharging pipe 3-8 from the wood chip feeding hole 5-7 to fall into the stirring cavity 5-5, and automatic feeding is completed;

the glue adding mechanism 4 comprises a glue adding pushing mechanism 4-1, a glue adding driving mechanism 4-2, a glue adding cavity mechanism 4-3 and a one-way valve mechanism 4-4, the glue adding pushing mechanism 4-1 is meshed with the glue adding driving mechanism 4-2, the glue adding pushing mechanism 4-1 is matched with the glue adding cavity mechanism 4-3, the glue adding driving mechanism 4-2 is positioned above the glue adding cavity mechanism 4-3, and the one-way valve mechanism 4-4 is arranged inside the glue adding cavity mechanism 4-3;

the glue adding pushing mechanism 4-1 comprises a rack 4-1-1, a rack cross brace 4-1-2, a linkage rod 4-1-3, a pressing seat 4-1-4 and a lug 4-1-5, wherein the rack 4-1-1 is arranged on two sides of the rack cross brace 4-1-2, the linkage rod 4-1-3 is hinged with the pressing seat 4-1-4, and the lug 4-1-5 is connected with the rack cross brace 4-1-2;

the glue adding driving mechanism 4-2 comprises a gear support 4-2-1, a gear motor 4-2-2, a gear motor wheel 4-2-3, a belt A4-2-4, a gear pulley 4-2-5, a gear shaft 4-2-6 and a gear 4-2-7, wherein the gear motor 4-2-2 is connected with the gear support 4-2-1, the gear motor wheel 4-2-3 is connected with the gear motor 4-2-2, the gear motor wheel 4-2-3 is flexibly connected with the belt A4-2-4, the belt A4-2-4 is flexibly connected with the gear pulley 4-2-5, the gear pulley 4-2-5 is connected with the gear shaft 4-2-6, the gear shaft 4-2-6 is connected with the gear support 4-2-1 through a bearing, the gear shaft 4-2-6 is connected with the gear 4-2-7, the gear motor 4-2-2 is operated to drive the gear motor wheel 4-2-3 to rotate, the gear motor wheel 4-2-3 rotates to drive the gear belt pulley 4-2-5 to rotate through the belt A4-2-4, the gear belt pulley 4-2-5 rotates to drive the gear shaft 4-2-6 to rotate, the gear shaft 4-2-6 rotates to drive the gear 4-2-7 to rotate, the gear 4-2-7 rotates to drive the glue adding pushing mechanism 4-1 to move downwards, the downward movement of the glue adding pushing mechanism 4-1 can increase the pressure in the glue adding cavity body 4-3-1, the increased pressure can open the one-way valve mechanism 4-4, then the air pressure is transmitted from the glue penetrating hole 4-4-1 to continuously press the glue in the glue adding cavity body 4-3-1, and the glue can flow out from the glue adding cavity body 4-3-1 to the stirring cavity 5-5;

the glue adding cavity mechanism 4-3 comprises a glue adding cavity body 4-3-1, a glue adding cavity support leg 4-3-2, a convex block groove 4-3-3, a slide way 4-3-4 and a glue supplementing opening screw 4-3-5, the glue adding cavity support leg 4-3-2 is positioned below the glue adding cavity body 4-3-1, the convex block groove 4-3-3 is arranged on the slide way 4-3-4, the slide way 4-3-4 is connected with the glue adding cavity body 4-3-1, and the glue supplementing opening screw 4-3-5 is connected with the glue adding cavity body 4-3-1;

the one-way valve mechanism 4-4 comprises a glue permeation hole 4-4-1, a connecting block 4-4-2 and a one-way valve body 4-4-3, the glue permeation hole 4-4-1 is formed in the connecting block 4-4-2, and the one-way valve body 4-4-3 is connected with the connecting block 4-4-2;

the stirring mechanism 5 comprises a scraping wheel 5-1, a scraping wheel support 5-2, a door opening and closing mechanism 5-3, a mixed material outlet 5-4, a stirring cavity 5-5, a stirring wheel 5-6, a wood inlet opening 5-7, a bearing seat I5-8, a stirring motor 5-9, a stirring shaft 5-10 and a stirring support leg 5-11, wherein the scraping wheel 5-1 is hinged with the scraping wheel support 5-2, the scraping wheel support 5-2 is connected with the stirring cavity 5-5, the door opening and closing mechanism 5-3 is arranged in the stirring cavity 5-5, the mixed material outlet 5-4 is arranged on a bottom plate of the stirring cavity 5-5, the stirring wheel 5-6 is connected with the stirring shaft 5-10, the stirring shaft 5-10 is connected with the bearing seat I5-8 in a bearing manner, the bearing seat I5-8 is connected with the stirring cavity 5-5, a wood inlet opening 5-7 is formed in a top plate of the stirring cavity 5-5, a stirring motor 5-9 is connected with a stirring shaft 5-10, the stirring motor 5-9 is connected with the stirring cavity 5-5, stirring support legs 5-11 are positioned below the stirring cavity 5-5, the stirring shaft 5-10 is driven to rotate by the operation of the stirring motor 5-9, the stirring shaft 5-10 drives a stirring wheel 5-6 to rotate, and the stirring wheel 5-6 drives wood residues and glue to be fully mixed by the rotation of the stirring wheel 5-6;

the door opening and closing mechanism 5-3 comprises a cavity 5-3-1, a door opening and closing motor wheel 5-3-2, a door opening and closing motor 5-3-3, a steel wire rope 5-3-4, an opening and closing spring 5-3-5, an opening and closing door 5-3-6 and a door opening and closing groove 5-3-7, wherein the door opening and closing motor 5-3-3 is arranged in the cavity 5-3-1, the door opening and closing motor 5-3-3 is connected with the door opening and closing motor wheel 5-3-2, the steel wire rope 5-3-4 is connected with the door opening and closing 5-3-6, the door opening and closing 5-3-6 is matched with the door opening and closing groove 5-3-7, the opening and closing spring 5-3-5 is arranged in the opening and closing door groove 5-3-7, the opening and closing motor wheel 5-3-2 is driven to rotate by the operation of the opening and closing motor 5-3-3, the steel wire rope 5-3-4 is driven to move by the rotation of the opening and closing motor wheel 5-3-2, the opening and closing door 5-3-6 is driven to move by the movement of the steel wire rope 5-3-4, the opening and closing door 5-3-6 is far away from each other, and thus mixed materials flow out of the mixed material outlet 5-4 into the door groove 6-3-4;

the door plate forming mechanism 6 comprises a sliding rod support 6-1, a sliding rod 6-2, a moving forming mechanism 6-3, a rack I6-4, a swing tooth mechanism 6-5 and a swing driving mechanism 6-6, wherein the sliding rod support 6-1 is connected with the sliding rod 6-2, the sliding rod 6-2 is matched with the moving forming mechanism 6-3, the rack I6-4 is positioned below the moving forming mechanism 6-3, the swing tooth mechanism 6-5 is meshed with the rack I6-4, and the swing tooth mechanism 6-5 is matched with the swing driving mechanism 6-6;

the moving forming mechanism 6-3 comprises a sliding rod seat 6-3-1, a sliding rod groove 6-3-2, a door panel forming seat 6-3-3 and a door panel groove 6-3-4, the sliding rod seat 6-3-1 is positioned below the door panel forming seat 6-3-3, the sliding rod groove 6-3-2 is arranged on the sliding rod seat 6-3-1, the door panel groove 6-3-4 is arranged on the door panel forming seat 6-3-3,

the swing tooth mechanism 6-5 comprises a swing tooth body 6-5-1, a sliding strip groove 6-5-2 and a hinge hole A6-5-3, wherein the sliding strip groove 6-5-2 is formed in the swing tooth body 6-5-1, and the hinge hole A6-5-3 is formed in the swing tooth body 6-5-1;

the swing driving mechanism 6-6 comprises a swing driving seat 6-6-1, a swing driving lug 6-6-2, a driving disk 6-6-3, a swing driving motor 6-6-4 and a hinged connecting rod 6-6-5, the swing driving seat 6-6-1 is connected with the swing driving motor 6-6-4, the swing driving motor 6-6-4 is connected with the driving disk 6-6-3, the driving disk 6-6-3 is connected with the swing driving lug 6-6-2, the driving disk 6-6-3 is driven to rotate by the operation of the swing driving motor 6-6-4, the driving disk 6-6-3 drives the swing driving lug 6-6-2 to rotate by the rotation of the driving disk 6-6-3, the swinging driving lug 6-6-2 rotates to drive the swinging tooth mechanism 6-5 to swing through the cooperation with the sliding strip groove 6-5-2, the swinging tooth mechanism 6-5 swings to drive the rack I6-4 to reciprocate, the rack I6-4 reciprocates to drive the mobile forming mechanism 6-3 to reciprocate, and the mobile forming mechanism 6-3 reciprocates to scrape the mixture through the cooperation with the scraping wheel 5-1;

the wood residue feeding mechanism 2 is located above the dust removing mechanism 1, the rotary feeding mechanism 3 is connected with the wood residue feeding mechanism 2, the rotary feeding mechanism 3 is connected with the dust removing mechanism 1, the rotary feeding mechanism 3 is connected with the stirring mechanism 5, the glue adding mechanism 4 is located above the stirring mechanism 5, and the door plate forming mechanism 6 is located below the stirring mechanism 5.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the first embodiment will be further described with reference to the present embodiment, in which the material of the hammer mechanism 1-4-5 is high manganese steel.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the first embodiment will be further described with reference to the present embodiment, in which the material of the agitating wheels 5 to 6 is stainless steel.

The device can remove dust, the fan blades 1-9 are driven to rotate by the operation of the fan blade motors 1-10, negative pressure wind power can be formed by the rotation of the fan blades 1-9, external dust and the like are sucked into the box body 1-1 from the air pipes 1-7 under the drive of the wind power and are filtered when passing through the filter screens 1-3, and therefore dust removal treatment can be carried out; the device can automatically clean ash, when the dust on the filter screen 1-3 is accumulated excessively, the ash cleaning motor 1-5-6 can be operated to drive the ash cleaning motor wheel 1-5-5 to rotate, the ash cleaning motor wheel 1-5-5 rotates to drive the ash cleaning shaft belt pulley 1-5-2 to rotate through the belt 1-5-4, the ash cleaning shaft belt pulley 1-5-2 rotates to drive the ash cleaning shaft 1-5-1 to rotate, the ash cleaning shaft 1-5-1 rotates to drive the cam 1-5-3 to rotate, the cam 1-5-3 rotates to drive the ash cleaning hammer mechanism 1-4-5 to move through the matching with the matching groove 1-4-5-7, and the ash cleaning hammer mechanism 1-4-5 moves to drive the sliding block through the hinge rod 1-4-4 1-4-3, the slide block 1-4-3 compresses the return spring 1-4-2 when moving, then the return spring 1-4-2 rebounds, the ash removing hammer mechanism 1-4-5 resets, the ash removing hammer mechanism 1-4-5 reciprocates under the rotating fit of the return spring 1-4-2 and the cam 1-5-3, the ash removing hammer mechanism 1-4-5 repeatedly strikes the filter screen 1-3 when reciprocating, and therefore dust on the filter screen 1-3 can be knocked down; the device can automatically add wood slag, the cam A2-4 is driven to rotate by the operation of the cam motor 2-5, the cam A2-4 rotates to drive the left end of the feeding box 2-2 to be repeatedly lifted by the feeding connecting rod 2-3, so that the wood slag in the feeding box 2-2 can be forwards fed into the feeding hole 3-3, then the feeding motor 3-7 is driven to rotate by the operation of the feeding motor 3-7, the rotating plate wheel 3-5 drives the rotating plate 3-4 to rotate by the rotation of the rotating plate wheel 3-5, the rotating plate 3-4 rotates to drive the material to fall from the discharging pipe 3-8 to the wood chip inlet 5-7 to the stirring cavity 5-5, and the automatic feeding is completed; the device can automatically add glue, the gear motor 4-2-3 is driven to rotate by the operation of the gear motor 4-2-2, the gear motor 4-2-3 rotates to drive the gear belt pulley 4-2-5 to rotate by the belt A4-2-4, the gear belt pulley 4-2-5 rotates to drive the gear shaft 4-2-6 to rotate, the gear shaft 4-2-6 rotates to drive the gear 4-2-7 to rotate, the gear 4-2-7 rotates to drive the glue adding pushing mechanism 4-1 to move downwards, the glue adding pushing mechanism 4-1 moves downwards to increase the pressure in the glue adding cavity body 4-3-1, and the one-way valve mechanism 4-4 is flushed by the increased pressure, then, the air pressure is transmitted from the glue penetrating hole 4-4-1 to continuously press the glue in the glue adding cavity body 4-3-1, so that the glue flows out from the inside of the glue adding cavity body 4-3-1 to the stirring cavity 5-5; the device can fully mix wood residues and glue, the stirring shaft 5-10 is driven to rotate by the operation of the stirring motor 5-9, the stirring shaft 5-10 drives the stirring wheel 5-6 to rotate, and the stirring wheel 5-6 drives the wood residues and the glue to be fully mixed by the rotation; the device can automatically discharge mixed materials into the door plate groove for forming, the opening and closing motor wheel 5-3-2 is driven to rotate by the operation of the opening and closing motor 5-3-3, the steel wire rope 5-3-4 is driven to move by the rotation of the opening and closing motor wheel 5-3-2, the opening and closing door 5-3-6 is driven to move by the movement of the steel wire rope 5-3-4, the opening and closing door 5-3-6 is far away from each other, and thus the mixed materials can flow out of the mixed material outlet 5-4 into the door plate groove 6-3-4; the device can assist in door plate forming, the operation of the swing driving motor 6-6-4 can drive the driving disc 6-6-3 to rotate, the rotation of the driving disc 6-6-3 can drive the swing driving lug 6-6-2 to rotate, the rotation of the swing driving lug 6-6-2 can drive the swing tooth mechanism 6-5 to swing through the matching with the sliding strip groove 6-5-2, the swing tooth mechanism 6-5 swings to drive the rack I6-4 to reciprocate, the reciprocating motion of the rack I6-4 can drive the moving forming mechanism 6-3 to reciprocate, and the reciprocating motion of the moving forming mechanism 6-3 can scrape a mixed material through the matching with the scraping wheel 5-1.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides a multi-functional shredded wood processing door plant device, includes dust removal mechanism (1), wood sediment feeding mechanism (2), rotates feeding mechanism (3), adds gluey mechanism (4), rabbling mechanism (5), door plant forming mechanism (6), its characterized in that: the dust removing mechanism (1) comprises a box body (1-1), a filter screen slot (1-2), a filter screen (1-3), a dust removing mechanism (1-4), a dust removing driving mechanism (1-5), an air duct slot (1-6), an air duct (1-7), an air duct support (1-8), a fan blade (1-9), a fan blade motor (1-10), a bearing seat (1-11) and a support leg (1-12), wherein the filter screen slot (1-2) is formed in the box body (1-1), the filter screen (1-3) is matched with the filter screen slot (1-2), the dust removing mechanism (1-4) is connected with the box body (1-1), the dust removing driving mechanism (1-5) is matched with the dust removing mechanism (1-4), and the dust removing driving mechanism (1-5) is connected with the bearing seat (1-11) in a bearing way, the bearing block (1-11) is connected with the box body (1-1), the air duct groove (1-6) is formed in the box body (1-1), the air duct (1-7) is connected with the air duct groove (1-6), the air duct support (1-8) is welded between the box body (1-1) and the air duct (1-7), the fan blade (1-9) is connected with the fan blade motor (1-10), the fan blade motor (1-10) is arranged inside the box body (1-1), and the support legs (1-12) are located below the box body (1-1);

the ash removal mechanism (1-4) comprises a movable cavity (1-4-1), a return spring (1-4-2), a sliding block (1-4-3), a hinged rod (1-4-4) and an ash removal hammer mechanism (1-4-5), wherein the return spring (1-4-2) is arranged inside the movable cavity (1-4-1), the sliding block (1-4-3) is matched with the movable cavity (1-4-1), the hinged rod (1-4-4) is hinged with the sliding block (1-4-3), and the hinged rod (1-4-4) is hinged with the ash removal hammer mechanism (1-4-5);

the ash removal hammer mechanism (1-4-5) comprises a hinged hole (1-4-5-1), an ash removal hammer body (1-4-5-2), an ash removal hammer groove (1-4-5-3), an ash removal spring (1-4-5-4), an ash removal hammer seat (1-4-5-5), a matching seat (1-4-5-6) and a matching groove (1-4-5-7), wherein the hinged hole (1-4-5-1) is formed in the ash removal hammer seat (1-4-5-5), the ash removal hammer body (1-4-5-2) is matched with the ash removal hammer groove (1-4-5-3), the ash removal hammer body (1-4-5-2) is connected with the ash removal spring (1-4-5-4), the ash removal spring (1-4-5-4) is connected with the ash removal hammer groove (1-4-5-3), the ash removal hammer seat (1-4-5-5) is connected with the ash removal hammer seat (1-4-5-5), and the matching groove (1-4-5-7) is formed in the matching seat (1-4-5-6);

the ash removal driving mechanism (1-5) comprises an ash removal shaft (1-5-1), an ash removal shaft belt pulley (1-5-2), a cam (1-5-3), a belt (1-5-4), an ash removal motor wheel (1-5-5) and an ash removal motor (1-5-6), wherein the ash removal shaft (1-5-1) is connected with the ash removal shaft belt pulley (1-5-2), the cam (1-5-3) is connected with the ash removal shaft (1-5-1), the ash removal shaft belt pulley (1-5-2) is in flexible connection with the belt (1-5-4), the belt (1-5-4) is in flexible connection with the ash removal motor wheel (1-5-5), the connection mode of the ash removal motor wheel (1-5-5) and the ash removal motor (1-5-6) is expansion sleeve connection;

the wood slag feeding mechanism (2) comprises a long vertical supporting leg (2-1), a feeding box (2-2), a feeding connecting rod (2-3), a cam A (2-4), a cam motor (2-5), a spring support mechanism (2-6), a cross support (2-7) and a short vertical support (2-8), wherein the long vertical supporting leg (2-1) is connected with the cross support (2-7), the cross support (2-7) is connected with the short vertical support (2-8), the feeding box (2-2) is hinged with the feeding connecting rod (2-3), the feeding connecting rod (2-3) is hinged with the cam A (2-4), the cam A (2-4) is connected with the cam motor (2-5), the cam motor (2-5) is connected with the cross support (2-7), the spring support mechanism (2-6) is hinged with the feeding box (2-2), the spring support mechanism (2-6) is hinged with the cross support (2-7);

the spring support mechanism (2-6) comprises a spring lower support (2-6-1), a movable support seat (2-6-2), an upper rod groove (2-6-3), a spring I (2-6-4), a limit block groove (2-6-5), a limit block (2-6-6) and a spring upper support (2-6-7), the spring lower support (2-6-1) is positioned below the movable support seat (2-6-2), the upper rod groove (2-6-3) is arranged on the movable support seat (2-6-2), the spring I (2-6-4) is welded between the movable support seat (2-6-2) and the spring upper support (2-6-7), the limit block grooves (2-6-5) are arranged on two sides of the movable support seat (2-6-2), the limiting blocks (2-6-6) are matched with the limiting block grooves (2-6-5), and the limiting blocks (2-6-6) are connected with the upper spring supports (2-6-7);

the rotary feeding mechanism (3) comprises rotary feeding support legs (3-1), a rotary cavity (3-2), a feeding port (3-3), a rotary plate (3-4), a rotary plate wheel (3-5), a shaft (3-6), a rotary feeding motor (3-7) and a discharging pipe (3-8), the rotary feeding support legs (3-1) are positioned below the rotary cavity (3-2), the feeding port (3-3) is connected with the rotary cavity (3-2), the rotary plate (3-4) is connected with the rotary plate wheel (3-5), the rotary plate wheel (3-5) is connected with the shaft (3-6), the shaft (3-6) is connected with the rotary cavity (3-2) in a bearing manner, and the rotary feeding motor (3-7) is connected with the rotary cavity (3-2), the discharge pipe (3-8) is connected with the rotating cavity (3-2);

the glue adding mechanism (4) comprises a glue adding pushing mechanism (4-1), a glue adding driving mechanism (4-2), a glue adding cavity mechanism (4-3) and a one-way valve mechanism (4-4), the glue adding pushing mechanism (4-1) is meshed with the glue adding driving mechanism (4-2), the glue adding pushing mechanism (4-1) is matched with the glue adding cavity mechanism (4-3), the glue adding driving mechanism (4-2) is positioned above the glue adding cavity mechanism (4-3), and the one-way valve mechanism (4-4) is arranged inside the glue adding cavity mechanism (4-3);

the glue adding pushing mechanism (4-1) comprises a rack (4-1-1), a rack cross brace (4-1-2), a linkage rod (4-1-3), a pressing seat (4-1-4) and a lug (4-1-5), the rack (4-1-1) is arranged on two sides of the rack cross brace (4-1-2), the linkage rod (4-1-3) is hinged with the pressing seat (4-1-4), and the lug (4-1-5) is connected with the rack cross brace (4-1-2);

the glue adding driving mechanism (4-2) comprises a gear support (4-2-1), a gear motor (4-2-2), a gear motor wheel (4-2-3), a belt A (4-2-4), a gear belt pulley (4-2-5), a gear shaft (4-2-6) and a gear (4-2-7), wherein the gear motor (4-2-2) is connected with the gear support (4-2-1), the gear motor wheel (4-2-3) is connected with the gear motor (4-2-2), the gear motor wheel (4-2-3) is in flexible connection with the belt A (4-2-4), the belt A (4-2-4) is in flexible connection with the gear belt pulley (4-2-5), the gear belt pulley (4-2-5) is connected with a gear shaft (4-2-6), the gear shaft (4-2-6) is connected with the gear support (4-2-1) in a bearing mode, and the gear shaft (4-2-6) is connected with the gear (4-2-7);

the glue adding cavity mechanism (4-3) comprises a glue adding cavity body (4-3-1), a glue adding cavity supporting leg (4-3-2), a convex block groove (4-3-3), a slide way (4-3-4) and a glue supplementing opening screw (4-3-5), the glue adding cavity supporting leg (4-3-2) is positioned below the glue adding cavity body (4-3-1), the convex block groove (4-3-3) is arranged on the slide way (4-3-4), the slide way (4-3-4) is connected with the glue adding cavity body (4-3-1), and the glue supplementing opening screw (4-3-5) is connected with the glue adding cavity body (4-3-1);

the one-way valve mechanism (4-4) comprises a glue permeating hole (4-4-1), a connecting block (4-4-2) and a one-way valve body (4-4-3), the glue permeating hole (4-4-1) is formed in the connecting block (4-4-2), and the one-way valve body (4-4-3) is connected with the connecting block (4-4-2);

the stirring mechanism (5) comprises a scraping wheel (5-1), a scraping wheel support (5-2), a door opening and closing mechanism (5-3), a mixed discharge hole (5-4), a stirring cavity (5-5), a stirring wheel (5-6), a wood feeding opening (5-7), a bearing seat I (5-8), a stirring motor (5-9), a stirring shaft (5-10) and stirring support legs (5-11), the scraping wheel (5-1) is hinged with the scraping wheel support (5-2), the scraping wheel support (5-2) is connected with the stirring cavity (5-5), the door opening and closing mechanism (5-3) is arranged in the stirring cavity (5-5), the mixed discharge hole (5-4) is arranged on a bottom plate of the stirring cavity (5-5), the stirring wheel (5-6) is connected with the stirring shaft (5-10), the connection mode of the stirring shaft (5-10) and the bearing seat I (5-8) is bearing connection, the bearing seat I (5-8) is connected with the stirring cavity (5-5), a wood inlet opening (5-7) is formed in a top plate of the stirring cavity (5-5), the stirring motor (5-9) is connected with the stirring shaft (5-10), the stirring motor (5-9) is connected with the stirring cavity (5-5), and the stirring support legs (5-11) are positioned below the stirring cavity (5-5);

the door opening and closing mechanism (5-3) comprises a cavity (5-3-1), a door opening and closing motor wheel (5-3-2), a door opening and closing motor (5-3-3), a steel wire rope (5-3-4), an opening and closing spring (5-3-5), an opening and closing door (5-3-6) and a door opening and closing groove (5-3-7), wherein the door opening and closing motor (5-3-3) is arranged in the cavity (5-3-1), the door opening and closing motor (5-3-3) is connected with the door opening and closing motor wheel (5-3-2), the steel wire rope (5-3-4) is connected with the door opening and closing (5-3-6), the opening and closing door (5-3-6) is matched with the opening and closing door groove (5-3-7), and the opening and closing spring (5-3-5) is arranged in the opening and closing door groove (5-3-7);

the door plate forming mechanism (6) comprises a slide bar support (6-1), a slide bar (6-2), a moving forming mechanism (6-3), a rack I (6-4), a swing tooth mechanism (6-5) and a swing driving mechanism (6-6), the slide bar support (6-1) is connected with the slide bar (6-2), the slide bar (6-2) is matched with the moving forming mechanism (6-3), the rack I (6-4) is positioned below the moving forming mechanism (6-3), the swing tooth mechanism (6-5) is meshed with the rack I (6-4), and the swing tooth mechanism (6-5) is matched with the swing driving mechanism (6-6);

the movable forming mechanism (6-3) comprises a sliding rod seat (6-3-1), a sliding rod groove (6-3-2), a door plate forming seat (6-3-3) and a door plate groove (6-3-4), the sliding rod seat (6-3-1) is positioned below the door plate forming seat (6-3-3), the sliding rod groove (6-3-2) is arranged on the sliding rod seat (6-3-1), the door plate groove (6-3-4) is arranged on the door plate forming seat (6-3-3),

the swing tooth mechanism (6-5) comprises a swing tooth body (6-5-1), a sliding strip groove (6-5-2) and a hinge hole A (6-5-3), wherein the sliding strip groove (6-5-2) is formed in the swing tooth body (6-5-1), and the hinge hole A (6-5-3) is formed in the swing tooth body (6-5-1);

the swing driving mechanism (6-6) comprises a swing driving seat (6-6-1), a swing driving lug (6-6-2), a driving disc (6-6-3), a swing driving motor (6-6-4) and a hinged connecting rod (6-6-5), the swing driving seat (6-6-1) is connected with the swing driving motor (6-6-4), the swing driving motor (6-6-4) is connected with the driving disc (6-6-3), and the driving disc (6-6-3) is connected with the swing driving lug (6-6-2);

the wood residue feeding mechanism (2) is located above the dust removing mechanism (1), the rotary feeding mechanism (3) is connected with the wood residue feeding mechanism (2), the rotary feeding mechanism (3) is connected with the dust removing mechanism (1), the rotary feeding mechanism (3) is connected with the stirring mechanism (5), the glue adding mechanism (4) is located above the stirring mechanism (5), and the door plate forming mechanism (6) is located below the stirring mechanism (5).

2. The multifunctional door plate device for wood chipping processing according to claim 1, wherein: the ash removal hammer mechanism (1-4-5) is made of high manganese steel.

3. The multifunctional door plate device for wood chipping processing according to claim 1, wherein: the stirring wheels (5-6) are made of stainless steel.

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