CN210282613U - Gluing system applied to woodworking comb tooth machine - Google Patents

Abstract

Be applied to rubberizing system of carpenter's broach machine, including the rubberizing device, this rubberizing device is including the rubberizing container that is used for holding the temporary storage container of latex, open-top and the rubberizing gyro wheel can vertically arrange its in, be used for responding to whether need add the weight inductor of latex in the rubberizing container and with the gluey controller of adding that the weight inductor is electric is connected, the temporary storage container is linked together through a feeder pipe and rubberizing container, installs the coating pump on this feeder pipe, should scribble the pump and be controlled by with gluey controller. The structural design ideal of this rubberizing system for carpenter's broach machine still has the rubber coating operation function, adopts the mode of automatic brush gum, and production efficiency is high, and each regional thickness of serrated surface is comparatively even moreover, and the rubber coating is effectual. The gluing device adopts automatic feeding, effectively avoids the problem caused by adding latex into the gluing container because a worker does not add latex manually in time, avoids the complex operation of manual gluing of the worker, and reduces the labor intensity of the worker.

Description

Gluing system applied to woodworking comb tooth machine

Technical Field

The utility model relates to a full-automatic production line of processing solid wood lath, specifically speaking indicate to be applied to the rubberizing system of carpenter's broach machine.

Background

The solid wood strip is formed by splicing a plurality of short woods with indefinite lengths, the upper part and the lower part are not adhered with clamping plates, and the vertical short woods are connected by zigzag interfaces similar to the cross butt joint of fingers of two hands, so the solid wood strip is also called as a finger joint strip. The material is used for superior materials such as furniture, cabinets, wardrobes and the like.

The existing joint plate strip processing technology generally comprises the following steps of forming a group of short timbers with different lengths: 1) firstly, combing teeth, namely aligning one end of a plurality of short timbers with indefinite lengths and placing the short timbers on a woodworking comb-tooth machine to perform one-end combing operation; 2) secondly, combing teeth, namely, a worker replaces one end of a plurality of short timbers with different lengths, and aligns the other end of the short timbers and places the other end of the short timbers on a woodworking comb-combing machine to perform comb-combing operation on the other end of the short timbers; 3) gluing, namely horizontally aligning and forcibly pressing one end of a plurality of short timbers with different lengths by a worker, and brushing the sawtooth surface of the head by a brush stuck with glue; 4) and (3) jointing and forming the wood strip, and placing a plurality of short timbers with different lengths on a woodworking jointing and lengthening machine by workers to joint and form the solid wood strip.

The structural design of current carpenter's broach machine is ideal inadequately, does not generally have the rubber coating operation function, generally adopts manual operation, and production efficiency is low, and the rubber coating effect is ideal inadequately moreover, and it is inhomogeneous to appear each regional thickness of glue film easily, and it is not in place to paint with a brush even to appear, produces local sawtooth surface starving phenomenon, seriously influences the quality of connecing solid wood lath, to the high-class material of the quality requirement of some butt joint laths height extremely, obviously is difficult to reach the requirement.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be applied to rubberizing system of carpenter's broach machine to overcome current carpenter's broach machine structural design ideal inadequately, generally adopt manual rubber coating operation, production efficiency is low, and the rubber coating effect ideal inadequately moreover appears each regional thickness of glue film inhomogeneous easily, appears applying paint shortcoming such as not in place even with a brush.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

be applied to rubberizing system of carpenter's broach machine, including the rubberizing device, this rubberizing device is including the rubberizing container that is used for holding the temporary storage container of latex, open-top and the rubberizing gyro wheel can vertically arrange its in, be used for responding to whether need add the weight inductor of latex in the rubberizing container and with the gluey controller of adding that the weight inductor is electric is connected, the temporary storage container is linked together through a feeder pipe and rubberizing container, installs the coating pump on this feeder pipe, should scribble the pump and be controlled by with gluey controller.

The rubberizing device is still including fixing on the organism and being located the slider of rubberizing container rear and drive its gliding slide about doing on the slider through a rubberizing cylinder, and this slide is the L shape, and the top of this slide and the piston rod of rubberizing cylinder are connected, the bottom of slide is covered on the open-top of rubberizing container to the bayonet socket has been seted up to the bottom of this slide, the top of rubber coating gyro wheel is equipped with the wheel pole, and this wheel pole top is passed the bayonet socket and is upwards extended, and the cover is equipped with on this wheel pole to be used for taking the shelves piece of establishing on the bayonet socket and be used for driving the gear of rubber coating gyro wheel rotation, and this gear is located the top of wheel pole, the shelves piece is located the below of gear, the rubberizing container is arranged in to the rubber coating gyro wheel to the.

The top of the door bracket on the clamping table of the woodworking comb machine is provided with angle iron which is transversely arranged and is provided with a toothed belt which can be meshed and matched with the gear.

Be applied to rubberizing system of carpenter's broach machine, still including the clear bits device that is located rubberizing device one side, this clear bits device is linked together and has the dust absorption pipeline of dust catcher including the cover body and with cover body rear portion, the left and right lateral wall of the cover body has installed vertical first strip brush and the second strip brush of arranging respectively, the brush hair of this first, second strip brush with the cooperation is cleaned to the indefinite length timber head of polylith on the grip slipper.

The scrap cleaning device also comprises a third brush which is positioned on one side of the comb tooth device and is vertically arranged.

By adopting the technical scheme, the utility model has the beneficial effects that the structural design ideal of this rubberizing system for carpenter's broach machine still has the rubber coating operation function, adopts the mode of automatic brush glue, and production efficiency is high, and each regional thickness of sawtooth surface is comparatively even moreover, is difficult to appear local sawtooth surface starving phenomenon, and the toothing effect ideal between the short timber of two adjacent indefinite length is difficult for appearing the local starving phenomenon of sawtooth surface, and the rubber coating is effectual. The gluing device adopts automatic feeding, effectively avoids the problem caused by adding latex into the gluing container because a worker does not add latex manually in time, avoids the complex operation of manual gluing of the worker, and reduces the labor intensity of the worker.

Drawings

FIG. 1 is a schematic flow chart of the first embodiment.

Fig. 2 is a schematic diagram of the first embodiment.

Fig. 3 is a schematic view illustrating the cooperation among the feeding conveying platform, the first woodworking comb device and the receiving conveying platform in the first embodiment.

Fig. 4 is a schematic view of a second woodworking comb device in the first embodiment.

Fig. 5 is a schematic view of a second woodworking comb device in the first embodiment, wherein the clamping table is not shown.

Fig. 6 is a schematic view of a clamping table in the first embodiment.

Fig. 7 is a schematic view of the clamping table in the first embodiment, wherein the left baffle and the lower pressing plate are in a clamping state.

Fig. 8 is a schematic view of the left baffle in the first embodiment.

Fig. 9 is a schematic view of a lower platen according to a first embodiment of the present invention.

Fig. 10 is a schematic view of a gluing device in the first embodiment.

Fig. 11 is a schematic view of the glue applying device according to the first embodiment, in which the glue applying roller is in an upward moving state.

Fig. 12 is a schematic view of an angle iron in the first embodiment.

Fig. 13 is a schematic view of a second conveyor belt in the first embodiment.

Fig. 14 is a schematic view of a receiving and conveying platform in the first embodiment.

Fig. 15 is a partial enlarged view of a portion a in fig. 2.

Fig. 16 is a partial enlarged view of fig. 2 at B.

Fig. 17 is a schematic diagram of the second embodiment.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Example one

Refer to fig. 1 and 2. A continuous type tooth joint production process for processing solid wood laths comprises the following steps of continuously processing a plurality of short timbers 1 with indefinite lengths: a) and (3) placing the feeding materials, wherein a plurality of short timbers 1 with different lengths are sequentially placed on the feeding conveying platform 2 by workers in a close manner.

b) One end is processed, a plurality of short timbers 1 with indefinite length are conveyed to a clamping table 30 of a first woodworking comb tooth machine 3 through a feeding conveying platform 2, and the clamping table 30 drives the short timbers 1 with indefinite length to move so as to carry out one end to be sequentially subjected to trimming, comb tooth cleaning, chip cleaning and gluing operation, thereby ensuring the cleanness of the tooth surface of the head saw. The scrap cleaning operation mode is as follows: the short wood 1 of the indefinite length of polylith on the centre gripping platform 30 one end is cleared up the saw-dust through the brush hair to the one end sawtooth surface of the indefinite length wood 1 of polylith, avoids the saw-dust to remain on the sawtooth surface, ensures that the sawtooth surface does not have the saw-dust.

c) Waiting for output for the first time, conveying a plurality of short timbers 1 with different lengths to the receiving conveying platform 4 through the clamping table 30 for waiting for output.

d) And (3) processing the other end, conveying the short timbers 1 with different lengths to a clamping table 50 of a second woodworking comb tooth machine 5 through a bearing conveying platform 4, and driving the short timbers 1 with different lengths to move through the clamping table 50 so as to carry out trimming, comb tooth, chip cleaning and gluing operation on the other end in sequence.

e) Waiting for the output for the second time, the short wood materials 1 with multiple indefinite lengths are conveyed to the roller type conveyor 6 through the clamping table 50 of the second woodworking comb tooth machine 5 to wait for the output, and the short wood materials 1 with multiple indefinite lengths are output one by one to the woodworking lengthening machine 7 through the output end of the roller type conveyor 6.

f) And (3) lengthening the short wood, namely lengthening the short wood 1 with different lengths by using a woodworking lengthening machine 7 to form a solid wood batten.

Refer to fig. 1 and 2. The continuous type tooth joint production process is ideal in design, automatic and continuous type tooth joint production operation is achieved, the consistency of connection of all links is strong, the production efficiency is high, the labor intensity of workers is greatly reduced, and the quality of produced solid wood laths is good. The mode that the short timber 1 of polylith indefinite length adopted the automatic brush to glue of double-end has improved brush and has glued efficiency and each regional thickness of sawtooth surface is comparatively even, be difficult to appear local sawtooth surface starved glue phenomenon, the butt joint effect between the short timber 1 of two adjacent indefinite lengths is ideal, the local starved glue phenomenon of sawtooth surface is difficult to appear, and before gluing the operation, all clear up the saw-dust to its sawtooth surface, it remains on the sawtooth surface to have avoided the saw-dust, ensure that the sawtooth surface does not have the saw-dust, rethread carpenter connects long machine 7 to connect it to be long to handle the firmness that forms the solid wood lath good, the quality because of the local starved of sawtooth surface, remain factors such as saw-dust and influence the product has been reduced widely. Can produce excellent materials with high requirements on product quality, and meet the requirements of customers with high requirements on product quality, such as customers in European and American countries.

Reference is made to figures 1, 2 and 3. The utility model provides a full-automatic production line of processing solid wood lath, it includes that the short timber 1 continuous type of polylith indefinite length passes through feed conveying platform 2, first carpenter's broach machine 3, accepts conveying platform 4, second carpenter's broach machine 5, roller formula conveyer 6 and carpenter connect the length machine 7 in proper order. The full-automatic production line has ideal structural design, automatic continuous tooth joint production operation, strong continuity of connection of all links, high production efficiency, greatly reduced labor intensity of workers and good quality of produced solid wood laths.

Reference is made to fig. 2, 3, 4 and 5. First carpenter's broach machine 3 and second carpenter's broach machine 5 all include organism 31, be connected and be located the bar track 32 of organism 31 front side with organism 31, assemble on bar track 32 and the centre gripping platform 30 that moves on it and be one row in proper order and install on organism 31 and carry out the trimming saw device 33, broach device 34 and the rubberizing system that handles to the length timber head that polylith is indefinite on centre gripping platform 30. The gluing system comprises a gluing device 36 and a gluing device 36 positioned on one side of the gluing device 36.

Reference is made to fig. 2, 3, 4 and 5. The machine body 31 is further provided with a rear baffle 37 positioned behind the clamping table 30, the rear baffle 37 can abut against the heads of the plurality of wood materials 1 with different lengths on the clamping table 30, and the rear end part of the rear baffle 37 is connected with a horizontal pushing cylinder 38. By adopting the design of the chip cleaning device, before gluing operation, the saw dust is cleaned from the saw-toothed surfaces of the short timbers 1 with different lengths, so that the saw dust is prevented from remaining on the saw-toothed surfaces, the saw-toothed surfaces are ensured to have no saw dust, and the influence on the product quality caused by the factors such as the local residual saw dust of the saw-toothed surfaces is greatly reduced.

Reference is made to fig. 3, 6, 7 and 8. The clamping stage 30 includes a stage 301 movably mounted on the bar-shaped rail 32 and a stage driving motor 300 driving the stage 301 to move on the bar-shaped rail 32, the rack 301 is provided with a clamping component, a driving roller 302, a driven roller 303, a conveyer belt 304 wound on the driving roller 302 and the driven roller 303 and a conveyer belt driving motor 305 for driving the driving roller 302, the front side of the rack 301 is also provided with a U-shaped door bracket 306, the door frame 306 is located at the rear side of the conveyor belt 304, the clamping assembly comprises a left baffle 307 and a right baffle 308 which are located at the left and the right sides of the carrying surface of the conveyor belt 304 and are oppositely arranged, the right baffle 308 is fixed on the inner side wall on the right side of the door bracket 306, the left baffle 307 is driven by a transverse cylinder 309 to transversely clamp a plurality of wood materials 1 with different lengths, a lower pressing plate 3061 is arranged right below the door bracket 306, the lower pressing plate 3061 is driven by a longitudinal cylinder 3062 to press and move a plurality of wood materials 1 with different lengths in a longitudinal direction.

Reference is made to fig. 7, 8 and 9. The left baffle 307 and the right baffle 308 are both provided with guide strip-shaped openings 3071 which are longitudinally arranged, the lower pressing plates 3061 are H-shaped, and the left end and the right end of the lower pressing plates 3061 are respectively inserted into the corresponding guide strip-shaped openings 3071 and can move up and down in the corresponding guide strip-shaped openings 3071. A vertical guide cylinder 3063 is provided at a central position of the top of the door bracket 306, a guide rod 3064 is provided in the vertical guide cylinder 3063, the bottom of the guide rod 3064 is fixed to the lower pressure plate 3061, the number of the longitudinal cylinders 3062 is two, and the vertical guide cylinder 3063 is used as a center line and is arranged on the top of the door bracket 306 in a left-right symmetrical manner. The structure design of the clamping table 30 is ingenious and compact, the stability is good, the multiple short wood materials 1 with different lengths are compressed and clamped through the longitudinal direction and the transverse direction, so that the clamping table 30 drives the short wood materials 1 with different lengths to move, the short wood materials are sequentially subjected to trimming, comb teeth, chip cleaning and gluing operation more stably, the phenomenon of deviation is not easy to occur under the impact of external force generated during processing operation, and the processing effect is greatly improved.

Reference is made to fig. 3, 10, 11 and 16. The glue applicator 36 includes a temporary storage container 360 for holding latex, a glue container 362 with an open top and a glue roller 361 vertically placed therein, a weight sensor 363 for sensing whether or not adding latex is needed in the glue container 362, and a glue controller 364 electrically connected to the weight sensor 363, wherein the temporary storage container 360 is communicated with the glue container 362 through a supply pipe 365, a coating pump 366 is installed on the supply pipe 365, and the coating pump 366 is controlled by the glue controller 364. The gluing device adopts automatic feeding, effectively avoids the problem caused by adding latex into the gluing container 362 manually in time because of the untimely operation of workers, avoids the complex operation of manual gluing of the workers and reduces the labor intensity of the workers.

Reference is made to fig. 3, 5, 10, 11 and 12. The gluing device 36 further includes a sliding block 367 fixed on the machine body 31 and located behind the gluing container 362, and a sliding plate 369 driven by a gluing cylinder 368 to slide up and down on the sliding block 367, the sliding plate 369 is L-shaped, the top of the sliding plate 369 is connected with a piston rod of the gluing cylinder 368, the bottom of the sliding plate 369 covers an opening at the top of the gluing container 362, a bayonet 3611 is formed at the bottom of the sliding plate 369, a wheel rod 3612 is arranged at the top of the gluing roller 361, the top of the wheel rod 3612 extends upwards through the bayonet 3611, a stopper 3610 used for being overlapped on the bayonet 3611 and a gear 3613 used for driving the gluing roller 361 to rotate are sleeved on the wheel rod 3612, the gear 3613 is located at the top of the wheel rod 3612, the stopper 3610 is located below the gear 3613, the gluing roller 361 is located in the gluing container 362, and the stopper 3610 is overlapped on the bayonet 3611. The top of the door bracket 306 is provided with a laterally disposed angle iron 3614, and the angle iron 3614 is provided with a toothed belt 3615 which can be engaged with a gear 3613. By adopting the matching design between the toothed belt 3615 and the gear 3613, when the clamping table 30 drives the plurality of short timbers 1 with different lengths to move on the strip-shaped track 32, when the lifted gear 3613 contacts the toothed belt 3615 and is engaged with the toothed belt, the gear 3613 drives the gluing roller 361 to rotate along with the movement of the clamping table 30, so that the gluing operation is carried out on the sawtooth surfaces of the heads of the plurality of short timbers 1 with different lengths.

Reference is made to fig. 3, 4, 5 and 16. The scrap cleaning device 35 comprises a cover body 350 and a dust suction pipeline 351 which is communicated with the rear part of the cover body 350 and is provided with a dust collector, a first brush 352 and a second brush 353 which are vertically arranged are respectively arranged on the left side wall and the right side wall of the cover body 350, and the bristles of the first brush 352 and the second brush 353 are matched with the head parts of a plurality of wood materials 1 with different lengths on the clamping table 31 in a cleaning way. By adopting the design of the scrap cleaning device 35, the scraps on the saw-toothed surfaces of the heads of the plurality of pieces of wood 1 with indefinite length can be effectively removed, so that the saw-toothed surfaces are ensured to be free of sawdust and dust, and the influence on the product quality caused by the factors such as partial residual sawdust on the saw-toothed surfaces is greatly reduced. The multiple pieces of wood 1 with indefinite length processed by the comb tooth device 34 sequentially pass through the first brush 352, the cover 350 and the second brush 353, the first brush 352 performs rough cleaning processing on the serrated surface of the head of the multiple pieces of wood 1 with indefinite length, then the cover 350 absorbs sundries such as sawdust and dust subjected to first cleaning processing, and the serrated surface of the head of the multiple pieces of wood 1 with indefinite length is subjected to fine cleaning processing by the second brush 353. This greatly enhances the effect of removing debris such as dust from wood chips. The shavings removal device 35 further comprises a third brush 354 located on one side of the comb means 34 and arranged vertically. By adopting the design of the third brush 354, the sawdust particles with larger particles which are possibly remained and attached to the heads of a plurality of timbers 1 with different lengths due to the trimming operation of the trimming saw device 33 are removed, and the influence on the subsequent comb tooth operation is avoided.

Reference is made to fig. 3, 4, 5 and 16. The trimming saw device 33 includes a trimming saw 331 for trimming the head portions of the plural indefinite long and short timbers 1 on the holding table 30, and a trimming motor 332 for driving the trimming saw 331 to rotate. The comb device 34 includes a carpenter's comb blade 341 for performing comb treatment on the heads of the plural wood materials 1 with different lengths on the holding table 31, a comb motor 342 for driving the carpenter's comb blade 341 to rotate, and a protective cover 343 covering the carpenter's comb blade 341.

Reference is made to fig. 2, 3 and 13. The feeding and conveying platform 2 comprises a first conveying belt 21 and a second conveying belt 22 which are close to each other in the front and back direction, one side of the first conveying belt 21 is provided with a horizontal placing table 20 which is used for a worker to combine multiple pieces of the wood materials with different lengths to form a group, the rear side of the second conveying belt 22 is provided with a U-shaped baffle frame 23, a baffle plate 24 which moves vertically and vertically is arranged under the baffle frame 23, and the baffle plate 24 drives the baffle plate to stop the wood materials with different lengths 1 on the second conveying belt 22 from moving forwards through a blocking cylinder 25. The top of the gear rack 23 is provided with a left vertical guide cylinder 26 and a right vertical guide cylinder 27 which are arranged in bilateral symmetry with the blocking cylinder 25 as the center, guide shafts 28 are arranged in the left and right vertical guide cylinders 26 and 27, and the bottoms of the two guide shafts 28 are fixed on the gear plate 24.

Reference is made to fig. 3 and 14. Accept conveying platform 4 including accepting frame 40 and installing drive roll 41, driven voller 42 in accepting frame 40, around establishing conveyer belt 43 and the conveying motor 44 of drive roll 41 on main, driven voller 41, 42, accept frame 40 front side still be equipped with accept that is the U font and block frame 45, should accept that block frame 45 is located the rear side of conveyer belt 43, should accept and be equipped with a barrier plate 46 under block frame 45, should block plate 46 and drive it through a vertical cylinder 47 and do and block the conveyer belt 43 on the indefinite length timber 1 antedisplacement of polylith. The end of the receiving frame 40 is further provided with a transverse bar 47 for scraping off the residue (e.g. the residue of the glue) on the carrying surface of the conveyor belt 43, and the transverse bar 48 is horizontally arranged in the transverse direction and has two ends respectively fixed to the two side ends of the receiving blocking frame 45.

Reference is made to fig. 4, 5 and 15. Roller conveyor 6 includes that the roller carries platform 60 and installs first fender material subassembly and the second fender material subassembly on the roller carries platform 60, and this first fender material subassembly is including the first frame 61 that is the door font, establish first dog 62 and the first dog cylinder 63 of the vertical up-and-down motion of first dog 62 of drive under first frame 61, and this first dog cylinder 63 is vertically fixed on first frame 61, and its piston rod with the top of first dog 62 is connected.

Reference is made to fig. 4, 5 and 15. The second material retaining assembly comprises a second frame 64 which is positioned at the tail end part of the roller type conveying platform 60 and is in a door shape, a tail end stop 65 which is positioned on the roller type conveying platform 60, and the tail end stop 65 is fixedly connected with the second frame 64 through a vertical rod, the left side wall of the roller type conveying platform 60 is provided with a vertically placed belt transmission wheel set, the belt transmission wheel set comprises a main transmission wheel 661, a secondary transmission wheel 662, a traction belt 663 which is wound on the main transmission wheel 661 and the secondary transmission wheel 662 and a transmission motor 664 which drives the main transmission wheel 661 to rotate, the object carrying surface of the traction belt 663 and the table surface of the roller type conveying platform 60 are vertically arranged, a discharge port 665 through which a single wood material with indefinite length 1 passes is formed between the object carrying surface of the traction belt 663 and the left end part of the tail end stop 65, the right side wall of the roller type conveying platform 60 is provided with a horizontal push cylinder 666, the piston rod of the transverse pushing cylinder 666 is connected with a transverse pushing plate 667 which pushes a plurality of timbers 1 with different lengths to one side of the loading surface of the traction belt 663.

Reference is made to figures 1 and 2. The wood lengthening machine 7 (also called as a wood butting machine) comprises a rack, wherein a wood lengthening platform and a feeding conveying frame for conveying a single piece of wood 1 with different lengths to the wood lengthening platform are arranged on the rack, the feeding conveying frame is positioned on one side of the wood lengthening platform, and a power supply control device, a prepressing device, a cutting device, an extrusion gluing device and the like are mainly arranged on the wood lengthening platform. The woodworking lengthening machine 7 is a common device for lengthening a plurality of timbers 1 with different lengths to form solid wood battens, and the woodworking lengthening machine 7 is a common prior art in the market, so that the internal structure and the working principle are not detailed.

Example two

Refer to fig. 17. The present embodiment is substantially the same as the first embodiment, except that: in the step b, a plurality of short timbers with indefinite length are conveyed to the clamping table 30 of the first woodworking comb tooth machine 3 through the feeding conveying platform 2, and the clamping table 30 drives the short timbers with indefinite length to move so as to carry out trimming, comb tooth and chip cleaning operation at one end in sequence without gluing operation. The gluing device is not additionally arranged on the first woodworking comb tooth machine 3, so that the short wood with multiple indefinite lengths adopts a single-head automatic gluing mode, the processing of solid wood laths can be realized, and the requirements of different customers on different-grade products can be met.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (5)

1. Be applied to rubberizing system of carpenter's broach machine, including the rubberizing device, its characterized in that: the gluing device comprises a temporary storage container for containing latex, a gluing container with an opening at the top and a gluing roller which can be vertically arranged in the temporary storage container, a weight sensor for sensing whether to add the latex in the gluing container and a gluing controller electrically connected with the weight sensor, wherein the temporary storage container is communicated with the gluing container through a feeding pipe, a coating pump is arranged on the feeding pipe, and the coating pump is controlled by the gluing controller.

2. A gluing system applied to a woodworking comb device as claimed in claim 1, wherein: the rubberizing device is still including fixing on the organism and being located the slider of rubberizing container rear and drive its gliding slide about doing on the slider through a rubberizing cylinder, and this slide is the L shape, and the top of this slide and the piston rod of rubberizing cylinder are connected, the bottom of slide is covered on the open-top of rubberizing container to the bayonet socket has been seted up to the bottom of this slide, the top of rubber coating gyro wheel is equipped with the wheel pole, and this wheel pole top is passed the bayonet socket and is upwards extended, and the cover is equipped with on this wheel pole to be used for taking the shelves piece of establishing on the bayonet socket and be used for driving the gear of rubber coating gyro wheel rotation, and this gear is located the top of wheel pole, the shelves piece is located the below of gear, the rubberizing container is arranged in to the rubber coating gyro wheel to the.

3. A gluing system applied to a woodworking comb device as claimed in claim 2, wherein: the top of the door bracket on the clamping table is provided with a transversely arranged angle iron which is provided with a toothed belt capable of being in meshing fit with the gear.

4. A gluing system applied to a woodworking comb device as claimed in claim 3, wherein: the cleaning device comprises a cover body and a dust suction pipeline communicated with the rear part of the cover body and provided with a dust collector, a first brush and a second brush which are vertically arranged are respectively arranged on the left side wall and the right side wall of the cover body, and the brush hair of the first brush and the brush hair of the second brush are matched with the cleaning of the heads of the multiple wood materials with different lengths on the clamping table.

5. The gluing system applied to the woodworking comb device as claimed in claim 4, wherein: the scrap cleaning device also comprises a third brush which is positioned on one side of the comb tooth device and is vertically arranged.

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