CN216573870U - Full-automatic glue spraying machine - Google Patents

Abstract

The utility model discloses a full-automatic glue sprayer, which comprises: the glue spraying device comprises a first conveying mechanism, a glue spraying assembly and a glue collecting mechanism; the first conveying mechanism is used for conveying the processed product; the glue spraying assembly comprises a glue outlet mechanism, the glue outlet mechanism is arranged above the first conveying mechanism, the glue outlet mechanism comprises a glue spraying head, and the glue spraying head is used for spraying glue from a glue source onto a processed product conveyed by the first conveying mechanism; the glue collecting mechanism is arranged between the glue spraying head and the first conveying mechanism; the glue collecting mechanism comprises a driving device and a collecting box arranged at the power output end of the driving device; when the glue supply source stops supplying glue, the driving device drives the collecting box to move to the position below the glue pouring head, and the residual glue flowing out of the glue pouring head is received. The full-automatic glue sprayer aims at arranging the glue collecting mechanism, timely receives the residual glue of the glue spraying device, avoids the pollution of the conveying mechanism and the processed product by the residual glue, and improves the processing quality.

Description

Full-automatic glue spraying machine

Technical Field

The application relates to the technical field of through type curtain coating equipment, in particular to a full-automatic glue sprayer.

Background

The curtain coating is one of coating construction methods, is suitable for coating flat and strip materials such as steel plates, plywood, plastic plates and the like which are produced in large scale, and is sprayed on a coated object driven by a conveying device in a curtain shape through curtain coating equipment to form a uniform coating.

Like a clean high-efficient automatic glue sprayer of door and window that patent application number is 202023103139.9 patent application document publishes, will remain to glue and collect the box setting in the transfer roller below, go out to glue the head setting in the transfer roller top. When the processed product is not required to be sprayed by the glue outlet of the glue outlet head, the glue supply source is closed, and because the coating has certain viscosity, residual glue still drops in the glue outlet of the glue outlet head and flows out continuously, and the residual glue drops on the conveying roller and then drops into the collecting box from the conveying roller; when the processed product which is coated with glue water and is not conveyed away is arranged between the conveying roller and the glue outlet head, the residual glue can fall on the processed product.

The equipment can cause the problem of quality of processed products due to repeated glue spreading at the same position of the processed products. The conveying roller for conveying the processed product is polluted, so that the roundness of the conveying roller is deteriorated, and the conveying processing is influenced; meanwhile, the conveying roller which is stuck with the residual glue can contact with the lower end face of the processed product, so that the residual glue is indirectly stuck to the lower end face of the processed product, and pollution is caused.

Disclosure of Invention

The utility model mainly aims at the problems and provides a full-automatic glue coating machine, aiming at providing a glue collecting mechanism to timely receive the residual glue of a coating device, so that the pollution of a conveying mechanism and a processed product by the residual glue is avoided, and the processing quality is improved.

In order to achieve the above object, the present invention provides a full-automatic glue-spraying machine, comprising:

the first conveying mechanism is used for conveying the processed product;

the glue pouring assembly comprises a glue outlet mechanism, the glue outlet mechanism is arranged above the first conveying mechanism, the glue outlet mechanism comprises a glue pouring head, and the glue pouring head is used for pouring glue from a glue source onto a processed product conveyed by the first conveying mechanism;

the glue collecting mechanism is arranged between the glue spraying head and the first conveying mechanism; the glue collecting mechanism comprises a driving device and a collecting box arranged at the power output end of the driving device; when the glue supply source stops supplying glue, the driving device drives the collecting box to move to the position below the glue pouring head, and the surplus glue flowing out of the glue pouring head is received.

Furthermore, the glue outlet mechanism also comprises a glue outlet support plate and a glue inlet joint; the glue outlet support plate is provided with a connecting through hole, the glue spraying head is arranged on the lower end face of the glue outlet support plate and is connected with one end of the connecting through hole, and the glue inlet joint is connected with the other end of the connecting through hole; the glue pouring assembly further comprises a lifting device, the glue outlet supporting plate is installed at the power output end of the lifting device, and the glue inlet joint is used for being connected with a glue supply source.

The glue pouring assembly further comprises a glue distributor, the glue distributor comprises a first glue distribution plate and a second glue distribution plate which are attached and connected with each other, and a dendritic shunt channel arranged on the first glue distribution plate and/or the second glue distribution plate is arranged between the first glue distribution plate and the second glue distribution plate; the first rubber distributing plate or the second rubber distributing plate is provided with a rubber inlet communicated with the head end of the dendritic runner, and the outer end face of the first rubber distributing plate and/or the second rubber distributing plate is provided with a rubber outlet joint communicated with the tail end of the dendritic runner; the glue outlet joint is communicated with the glue inlet joint through a pipeline, and the glue inlet is used for being connected with a glue supply source.

Furthermore, the glue spraying assembly also comprises an adjusting device, wherein the adjusting device comprises a mounting seat, a linear guide rail arranged on the mounting seat, a sliding seat in sliding connection with the linear guide rail and a power device; the mounting seat is mounted at the power output end of the lifting device, the glue discharging support plate is mounted on the sliding seat, and the power device is used for driving the glue discharging support plate mounted on the sliding seat to move along the linear guide rail; the length direction of the linear guide rail is approximately parallel to the width direction of the processed product.

Further, receive gluey mechanism still including receiving gluey bucket, the collection box is equipped with out gluey hole, receive gluey bucket pass through the pipe with go out gluey jogged joint.

Furthermore, the glue collecting mechanism further comprises an installation support arranged on the first conveying mechanism, the driving device is installed on the installation support, and the installation support is arranged close to the glue discharging mechanism.

Further, the automatic transplanting machine comprises a feeding device, wherein the feeding device comprises a first rotating bracket group, a first transplanting mechanism and a second conveying mechanism; the first transplanting mechanism is used for conveying the processed products erected on the first rotary support group frame to the second conveying mechanism, and the second conveying mechanism is used for conveying the processed products to the first conveying mechanism; the moving direction of the first transplanting mechanism is approximately vertical to the conveying direction of the second conveying mechanism for conveying the processed products.

The receiving mechanism comprises a second turnover support group, a second transplanting mechanism and a third conveying mechanism; the third conveying mechanism is used for receiving and conveying the processed products conveyed by the first conveying mechanism, and the second transplanting mechanism is used for conveying the processed products conveyed by the third conveying mechanism to the second turnover support group; the moving direction of the second transplanting mechanism is approximately perpendicular to the conveying direction of the third conveying mechanism for conveying the processed products.

Further, including rubberizing device, rubberizing device includes: the adhesive tape roll supporting frame is arranged on the bottom plate; the adhesive tape roll supporting frame is arranged on the upper end face of the supporting bottom plate, and the rubber pressing roller is arranged on the lower end face side of the supporting bottom plate; the pulley assembly is arranged on the lower end face of the supporting bottom plate; the supporting bottom plate is provided with a through groove; and pushing and pulling the handle to abut against the processed product to slide through the pulley assembly, and moving the rubberizing device along the length direction of the processed product, so that the rubberizing roller enables the adhesive tape which is discharged from the adhesive tape roll supporting frame and passes through the through groove to be in compression joint with the end face of the processed product.

Further, the device comprises a frame and a hood; the rack comprises a supporting platform and a containing cabinet for erecting the supporting platform; the glue spraying assembly further comprises a glue dispenser and a mounting rack, the mounting rack is erected on the supporting platform, and the glue distributor and the lifting device are mounted on the mounting rack; the glue collecting barrel is arranged in the containing cabinet; the hood is arranged on the supporting platform to enclose the mounting frame; the glue preparation machine is connected with the glue inlet through a guide pipe.

Compared with the prior art, the full-automatic glue spraying machine provided by the utility model can automatically drive the collection box to move to the position below the glue spraying head by arranging the glue collecting mechanism when the glue spraying head stops supplying glue after the automatic glue spraying of a processed product is finished, and the collection box receives residual glue flowing out of the glue spraying head, so that the pollution of the conveying mechanism and the processed product by the residual glue can be avoided, and the processing quality is improved. When glue is sprayed to subsequent products to be processed, the driving device automatically drives the collecting box to leave the position below the glue spraying head 211 to avoid blocking when the collecting box is positioned between the processed products and the glue spraying head.

Drawings

Fig. 1 is a schematic diagram of a structure of a full-automatic glue sprayer in the application.

Fig. 2 is a schematic diagram of a structure of a full-automatic glue sprayer in the application.

Fig. 3 is a schematic structural view of a full-automatic glue sprayer according to the application.

Fig. 4 is an enlarged view of fig. 3 at a.

Fig. 5 is a schematic view of a part of the assembly structure of the full-automatic glue sprayer.

Fig. 6 is an enlarged view of fig. 5 at B.

Fig. 7 is a schematic diagram of a glue discharging supporting plate structure of the full-automatic glue sprayer.

Fig. 8 is a schematic structural view of a glue distributor of the full-automatic glue sprayer.

Fig. 9 is a schematic structural view of a first rotating bracket set, a first transplanting mechanism and a second conveying mechanism of the full-automatic glue sprayer.

Fig. 10 is an enlarged view of fig. 9 at C.

Fig. 11 is a schematic structural view of a first transplanting mechanism of the full-automatic glue sprayer.

Reference numerals shown in the drawings: 1. a first conveying mechanism; 210. a glue discharging mechanism; 211. glue spraying heads; 212. discharging the rubber support plate; 2121. a connecting through hole; 213. a glue inlet joint; 220. a lifting device; 230. a glue distributor; 231. a first rubber separating plate; 232. a second rubber separating plate; 233. a dendritic runner; 2331. a glue inlet; 234. discharging the glue joint; 240. an adjustment device; 241. a mounting seat; 242. a linear guide rail; 243. a slide base; 244. a power plant; 250. preparing a glue machine; 260. a mounting frame; 3. a glue collecting mechanism; 310. a drive device; 320. a collection box; 330. a glue collecting barrel; 321. a glue outlet hole; 340. mounting a bracket; 4. a feeding device; 410. a first set of turnaround supports; 420. a first transplanting mechanism; 421. a guide rail bracket; 422. a sliding table; 423. a belt drive unit; 424. a jacking device; 430. a second conveying mechanism; 5. a material receiving mechanism; 510. a second turnaround stent group; 520. a second transplanting mechanism; 530. a third conveying mechanism; 6. a rubberizing device; 610. a support base plate; 611. a through groove; 612. a second oblong hole; 620. a handle; 630. a tape roll support frame; 640. a glue pressing roller; 650. a sheave assembly; 651. a roller; 652. a support leg; 660. a limiting block; 661. a first oblong-shaped hole; 7. a frame; 710. a support platform; 711. a via hole; 720. a storage cabinet; 8. a hood.

Detailed Description

Referring to fig. 1 to 11, the present embodiment provides a full-automatic glue sprayer, including: the glue spraying device comprises a first conveying mechanism 1, a glue spraying assembly and a glue collecting mechanism 3;

the first conveying mechanism 1 is used for conveying the processed product;

the glue pouring assembly comprises a glue outlet mechanism 210, the glue outlet mechanism 210 is arranged above the first conveying mechanism 1, the glue outlet mechanism 210 comprises a glue pouring head 211, and the glue pouring head 211 is used for pouring glue from a glue source onto a processed product conveyed by the first conveying mechanism 1;

the glue collecting mechanism 3 is arranged between the glue pouring head 211 and the first conveying mechanism 1; the glue collecting mechanism 3 comprises a driving device 310 and a collecting box 320 arranged at the power output end of the driving device 310; when the glue supply source stops supplying glue, the driving device 310 drives the collecting box 320 to move to the lower part of the glue pouring head 211, and the residual glue flowing out from the glue pouring head 211 is received.

The processed product needing glue spraying is transmitted below the glue discharging mechanism 210 of the glue spraying assembly through the first conveying mechanism 1, and in the process of passing, the glue is sprayed from the upper side through the glue spraying head 211 of the glue discharging mechanism 210 and is sprayed on the processed product between the glue spraying head 211 and the first conveying mechanism 1 in a curtain shape to form uniform coating. Because by certain processing cycle, distance interval between processing product and the product being processed, for example when one is finished by processing product drenches the rubber coating water, supply the glue source to stop supplying to glue, but because glue has certain consistency, drench and glue head 211 and still have surplus glue in the play jiao kou and continue to drip and flow out, if drench the rubber coating water finished by the processing product not yet from drenching gluey head 211 below transmission away, surplus glue will lead to being processed product up end same position and repeatedly drench the rubber coating water, lead to by processing product quality problems. When the processed product that the coating glue water finishes is transmitted away from the lower part of the coating glue head 211, the residual glue can drip to the first conveying mechanism 1, so that the first conveying mechanism 1 is polluted, the unevenness of the conveying table top of the first conveying mechanism 1 is further caused, the upper end face of the first conveying mechanism 1 can be contacted with the lower end face of the processed product, and the residual glue is indirectly adhered to the lower end face of the processed product to cause pollution.

Receive gluey mechanism 3 through setting up, when finishing to the automatic glue water that drenches of processed product, drench and glue head 211 and stop to supply when gluing, drive arrangement 310 automatic drive collects box 320 and removes to drenching gluey head 211 below, collects box 320 and receives and drenches the surplus glue that glues head 211 outflow, just can avoid the production of above-mentioned bad phenomenon. When glue is required to be sprayed on subsequent products to be processed, the driving device 310 automatically drives the collecting box 320 to leave the position below the glue spraying head 211 to avoid blocking when the collecting box 320 is positioned between the processed products and the glue spraying head 211.

Preferably, the first conveying mechanism 1 is a belt conveyor for conveying the processed product; the driving device 310 is an air cylinder, and the collection box 320 is driven to move to the position below the glue pouring head 211 through the extension and contraction of a piston rod of the air cylinder, and the collection box 320 is driven to move away from the position below the glue pouring head 211. The driving device 310 and the collecting box 320 arranged at the power output end of the driving device 310 are installed at a height higher than the processed product conveyed by the first conveying mechanism 1, so that the driving device 31 and the collecting box 320 are spaced from the processed product conveyed by the first conveying mechanism 1.

Referring to fig. 3-7, the glue discharging mechanism 210 further includes a glue discharging support plate 212 and a glue inlet joint 213; the glue outlet support plate 212 is provided with a connecting through hole 2121, the glue pouring head 211 is arranged on the lower end surface of the glue outlet support plate 212 and is connected with one end of the connecting through hole 2121, and the glue inlet joint 213 is connected with the other end of the connecting through hole 2121; the glue pouring assembly further comprises a lifting device 220, the glue outlet support plate 212 is mounted at the power output end of the lifting device 220, and the glue inlet joint 213 is used for being connected with a glue supply source.

When the glue spraying head 211 sprays glue on a processed product, the distance between the glue spraying head 211 and the processed product influences the glue spraying quality to a certain extent, before the glue spraying head 211 discharges glue and sprays, the driving device 310 drives the collecting box 320 to leave the lower part of the glue spraying head 211 to avoid, the lifting device 220 drives the glue discharging supporting plate 212 to descend, so that the glue spraying head 211 is close to the upper end surface of the processed product and reaches a preset horizontal height, then a glue source is supplied to start glue supply, the glue enters the connecting through hole 2121 from the glue inlet joint 213, and then the glue is discharged from the glue spraying head 211 and sprayed. When the glue spraying of the processed product is finished, the glue supply stops supplying glue, the lifting device 220 drives the glue outlet support plate 212 to ascend, so that the glue spraying head 211 is far away from the horizontal height of the upper end face of the processed product, the driving device 310 drives the collecting box 320 to move to the position below the glue spraying head 211, and the collecting box 320 receives residual glue flowing out of the glue spraying head 211.

Preferably, the lifting device 220 is an air cylinder, and the piston rod of the air cylinder extends and retracts to drive the glue outlet support plate 212 to lift.

Referring to fig. 3, fig. 5 and fig. 8, the glue pouring assembly further includes a glue distributor 230, the glue distributor 230 includes a first glue dividing plate 231 and a second glue dividing plate 232 which are attached to each other, and a dendritic runner 233 disposed on the first glue dividing plate 231 and/or the second glue dividing plate 232 is disposed between the first glue dividing plate 231 and the second glue dividing plate 232; a glue inlet 2331 communicated with the head end of the dendritic shunt 233 is formed in the first glue dividing plate 231 or the second glue dividing plate 232, and a glue outlet joint 234 communicated with the tail end of the dendritic shunt 233 is formed in the outer end face of the first glue dividing plate 231 or/and the second glue dividing plate 232; the glue outlet fitting 234 communicates with the glue inlet fitting 213 via a conduit (not shown), and the glue inlet 2331 is adapted to be connected to a glue supply.

The number of the glue pouring heads 211 is multiple, if each glue pouring head 211 is connected with a corresponding number of glue supply sources through the glue inlet joint 213, the cost of the multiple glue supply sources is too high, and the pipeline is long and complex; the glue distributor 230 can enable a plurality of glue pouring heads 211 to share one glue supply source, thereby reducing the cost and optimizing the structure of the full-automatic glue pouring machine.

Referring to fig. 3-6, the glue pouring assembly further includes an adjusting device 240, where the adjusting device 240 includes a mounting base 241, a linear guide rail 242 disposed on the mounting base 241, a sliding base 243 slidably connected to the linear guide rail 242, and a power device 244; the mounting base 241 is mounted at the power output end of the lifting device 220, the glue outlet support plate 212 is mounted on the sliding base 243, and the power device 244 is used for driving the glue outlet support plate 212 mounted on the sliding base 243 to move along the linear guide rail 242; the longitudinal direction of the linear guide 242 is substantially parallel to the width direction of the workpiece.

The power device 244 is used for driving the glue outlet support plate 212 arranged on the sliding base 243 to move along the linear guide rail 242, so that the relative positions of the glue pouring heads 211 and the processed product are adjusted, the glue pouring heads 211 can better correspond to the upper end surface of the processed product, glue is poured, and the processing quality is improved.

The power device 244 can be an air cylinder, a hydraulic cylinder or an electric push rod to drive the glue outlet support plate 212 arranged on the sliding base 243 to move along the linear guide rail 242; preferably, the power device 244 is a screw motor, the glue outlet support plate 212 is provided with a screw nut which is correspondingly matched with the screw, the adjustment of the position of the glue spraying head 211 is more precise through the screw and the screw nut, and the screw nut have certain self-locking performance, so that the reliability after adjustment is ensured.

Referring to fig. 3 and 4, the glue collecting mechanism 3 further includes a glue collecting barrel 330, the collecting box 320 is provided with a glue outlet 321, and the glue collecting barrel 330 is connected to the glue outlet 321 through a conduit (not shown).

Through setting up and receiving gluey bucket 330, the glue of avoiding collecting box 320 collection has been full of and has overflowed, can realize continuous processing, avoids frequently clearing up the glue of collecting box 320 collection, or changes collection box 320. The residual glue can be recovered and treated in a centralized way or recycled, and the energy is saved and the environment is protected.

Referring to fig. 3-5, the glue collecting mechanism 3 further includes a mounting bracket 340 disposed on the first conveying mechanism 1, the driving device 310 is mounted on the mounting bracket 340, and the mounting bracket 340 is disposed adjacent to the glue discharging mechanism 210.

The driving device 310 is erected on the first conveying mechanism 1 through a mounting bracket 340 and is arranged adjacent to the glue discharging mechanism 210.

Referring to fig. 1, fig. 2, fig. 9, and fig. 11, the present invention includes a feeding device 4, where the feeding device 4 includes a first revolving support group 410, a first transplanting mechanism 420, and a second conveying mechanism 430; the first transplanting mechanism 420 is used for conveying the processed product erected on the first revolving rack assembly 410 to the second conveying mechanism 430, and the second conveying mechanism 430 is used for conveying the processed product to the first conveying mechanism 1; the moving direction of the first transplanting mechanism 420 is substantially perpendicular to the conveying direction of the second conveying mechanism 430 for conveying the processed product.

Referring to fig. 1 and fig. 2-7, fig. 9 and fig. 11, the material receiving mechanism 5 includes a material receiving mechanism 5, and the material receiving mechanism 5 includes a second turning support set 510, a second transplanting mechanism 520 and a third conveying mechanism 530; the third conveying mechanism 530 is used for receiving and conveying the processed products conveyed by the first conveying mechanism 1, and the second transplanting mechanism 520 is used for conveying the processed products conveyed by the third conveying mechanism 530 to the second turnaround bracket group 510; the moving direction of the second transplanting mechanism 520 is substantially perpendicular to the conveying direction of the third conveying mechanism 530 for conveying the processed product.

The first circulating bracket group 410 provides support for the processed product, the processed product is placed on the first circulating bracket group 410 by a manual or automatic mechanical device, the first transplanting mechanism 420 is used for conveying the processed product erected on the first circulating bracket group 410 to the second conveying mechanism 430, the second conveying mechanism 430 is used for conveying the processed product to the first conveying mechanism 1, and the first conveying mechanism 1 conveys the processed product to be sprayed with glue below the glue spraying head 211; the third conveying mechanism 530 is used for receiving and conveying the processed product which is conveyed by the first conveying mechanism 1 and is coated with glue, the second transplanting mechanism 520 is used for conveying the processed product conveyed by the third conveying mechanism 530 to the second turnaround bracket set 510, and the processed product can be taken away from the second turnaround bracket set 510 by manual or automatic mechanical devices.

The moving direction of the first transfer mechanism 420 is approximately vertical to the conveying direction of the second conveying mechanism 430 for conveying the processed products, and the moving direction of the second transfer mechanism 520 is approximately vertical to the conveying direction of the third conveying mechanism 530 for conveying the processed products, so that the first rotating support group 410, the first transfer mechanism 420, the second conveying mechanism 430, the first conveying mechanism 1, the third conveying mechanism 530, the second transfer mechanism 520 and the second rotating support group 510 are not required to be arranged in the same straight direction, the processing line is overlong, and the floor space layout space of the processing line is well optimized.

Preferably, the second conveying mechanism 430 and the third conveying mechanism 530 are both belt conveyors for conveying the processed product.

Preferably, the first transplanting mechanism 420 and the second transplanting mechanism 520 both include a guide rail frame 421, a sliding table 422 slidably connected to the guide rail frame 421, and a belt driving unit 423, the sliding table 422 is provided with a jacking device 424, and a belt of the belt driving unit 423 is connected to the sliding table 422. The first transplanting mechanism 420 and the second transplanting mechanism 520 are integrally lower than the first revolving support group 410 and the second revolving support group 510 in the height direction; the jacking device 424 comprises an air cylinder and a top plate arranged at the power output end of the air cylinder, the air cylinder drives the top plate to abut against and erect on the lower end face of the processed product of the first transplanting mechanism 420 or the second transplanting mechanism 520, the processed product is enabled to be separated from the contact with the first revolving support group 410 and the second revolving support group 510, and the belt driving unit 423 drives the sliding table 422 to move along the guide rail frame 421, so that the processed product can move.

Referring to fig. 1 and 2, fig. 9 and fig. 10, the apparatus includes a tape applicator 6, the tape applicator 6 includes: a supporting bottom plate 610, a handle 620, a tape roll supporting frame 630, a glue pressing roller 640 and a pulley assembly 650; the adhesive tape roll support frame 630 is arranged on the upper end face of the support base plate 610, and the rubber press roll 640 is arranged on the lower end face side of the support base plate 610; the pulley assembly 650 is arranged on the lower end surface of the support base plate 610; the supporting base plate 610 is provided with a through groove 611; the push-pull handle 620 supports the processed product to slide through the pulley assembly 650, and moves the adhesive tape sticking device 6 along the length direction of the processed product, so that the adhesive tape pressing roller 640 presses and connects the adhesive tape which is discharged from the adhesive tape roll supporting frame 630 and passes through the through groove 611 with the end face of the processed product.

When the product processed by the full-automatic glue sprayer is a type of section, the section comprises a section main body and a plate, two accommodating grooves formed by extending out of the vertical walls are formed in the section main body, the pulley assembly 650 abuts against the vertical walls on the section main body, the handle 620 is pushed and pulled by a manual or automatic mechanical device, the pulley assembly 650 abuts against the processed product to slide, the whole gluing device 6 moves the gluing device 6 along the length direction of the section main body, the glue tape which is discharged from the tape roll support frame 630 and passes through the through groove 611 is pressed and connected with the end surface of the section main body by the glue pressing roller 640, double-sided glue is pasted in the accommodating grooves, then the release paper of the double-sided glue is torn by the manual or automatic mechanical device, the lower end surface of the plate is attached to the section main body by the double-sided glue, then the product is used as a raw material and is loaded onto the first circulating support group 410 by the manual or automatic mechanical device, glue is sprayed on the upper end face of the plate through the related component mechanism of the full-automatic glue sprayer in the follow-up process.

Preferably, rubberizing device 6 still includes stopper 660, is equipped with first oblong hole 661 on stopper 660, and stopper 660 wears to establish first oblong hole 661 and the adjustable connection of supporting baseplate 610 through screw (not shown in the figure), and stopper 660 specifically establishes at logical groove 611 port department for support the spacing guide of propping up to the sticky tape both sides of different width specifications, make the sticky tape can paste on corresponding specification product more accurately. The universality is increased.

Preferably, the pulley assembly 650 specifically includes a roller 651 and a supporting leg 652, the roller 651 is mounted on the supporting leg 652 through a supporting shaft, the supporting base 610 is provided with a second oblong hole 612, and the supporting leg 652 is inserted through the second oblong hole 612 by a screw (not shown) and is adjustably connected with the supporting base 610; the spacing of the rollers 651 is adjusted so that the rubberizing device 6 can be used for adaptive rubberizing of processed products with different width specifications, and the universality is high.

Referring to fig. 1 to 11, the device includes a frame 7 and a hood 8; the frame 7 comprises a supporting platform 710 and a containing cabinet 720 for erecting the supporting platform 710; the glue pouring assembly further comprises a glue dispenser 250 and a mounting frame 260, the mounting frame 260 is erected on the supporting platform 710, and the glue distributor 230 and the lifting device 220 are both mounted on the mounting frame 260; the glue collecting barrel 330 is arranged in the containing cabinet 720; the hood 8 is arranged on the supporting platform 710 to enclose the mounting frame 260; the dispenser 250 is connected to the glue inlet 2331 via a conduit (not shown).

The glue dispenser 250 is connected with the glue inlet 2331 through a conduit to supply glue to the glue dispenser 230, the glue dispenser 230 divides the glue and finally transmits the glue to the glue pouring heads 211, and the glue dispenser 250 can be used as a glue supply source and can dispense the glue automatically through operation, so that the cost is saved.

Enclose including going out gluey mechanism 210, collecting box 320, receipts glue bucket 330 respectively through aircraft bonnet 8, storage cabinet 720, prevented that this kind of chemical solvent of glue gas of volatilizing from the outdiffusion, protected operating personnel's healthy to a certain extent, this kind of design consideration is complete.

Preferably, the supporting platform 710 has a through hole 711, and the through hole 711 can receive a conduit (not shown) to connect the glue collecting barrel 330 in the storage cabinet 720 with the glue outlet 321 of the collecting box 320.

Preferably, the first conveying mechanism 1, the second conveying mechanism 430, the third conveying mechanism 530, the first transplanting mechanism 420 and the second transplanting mechanism 520 are provided with sensors, when the sensors detect that the processed product is conveyed to a corresponding position, the sensors send detection information to the master controller, and the master controller automatically controls corresponding components to work through a control program. The sensor may be any one of a proximity sensor, a photoelectric sensor, and an infrared sensor.

Claims (10)

1. The utility model provides a full-automatic glue sprayer which characterized in that includes:

the first conveying mechanism is used for conveying the processed product;

the glue pouring assembly comprises a glue outlet mechanism, the glue outlet mechanism is arranged above the first conveying mechanism, the glue outlet mechanism comprises a glue pouring head, and the glue pouring head is used for pouring glue from a glue source onto a processed product conveyed by the first conveying mechanism;

the glue collecting mechanism is arranged between the glue spraying head and the first conveying mechanism; the glue collecting mechanism comprises a driving device and a collecting box arranged at the power output end of the driving device; when the glue supply source stops supplying glue, the driving device drives the collecting box to move to the position below the glue pouring head, and the surplus glue flowing out of the glue pouring head is received.

2. The full-automatic glue coating machine according to claim 1, wherein the glue outlet mechanism further comprises a glue outlet support plate and a glue inlet joint; the glue outlet support plate is provided with a connecting through hole, the glue spraying head is arranged on the lower end face of the glue outlet support plate and is connected with one end of the connecting through hole, and the glue inlet joint is connected with the other end of the connecting through hole; the glue pouring assembly further comprises a lifting device, the glue outlet supporting plate is installed at the power output end of the lifting device, and the glue inlet joint is used for being connected with a glue supply source.

3. The full-automatic glue dripping machine according to claim 2, wherein the glue dripping assembly further comprises a glue distributor, the glue distributor comprises a first glue distributing plate and a second glue distributing plate which are jointed and connected with each other, and a dendritic runner is arranged on the first glue distributing plate and/or the second glue distributing plate and between the first glue distributing plate and the second glue distributing plate; the first rubber distributing plate or the second rubber distributing plate is provided with a rubber inlet communicated with the head end of the dendritic runner, and the outer end face of the first rubber distributing plate and/or the second rubber distributing plate is provided with a rubber outlet joint communicated with the tail end of the dendritic runner; the glue outlet joint is communicated with the glue inlet joint through a pipeline, and the glue inlet is used for being connected with a glue supply source.

4. The full-automatic glue coating machine according to claim 2, wherein the glue coating assembly further comprises an adjusting device, and the adjusting device comprises a mounting base, a linear guide rail arranged on the mounting base, a sliding base connected with the linear guide rail in a sliding manner, and a power device; the mounting seat is mounted at the power output end of the lifting device, the glue discharging support plate is mounted on the sliding seat, and the power device is used for driving the glue discharging support plate mounted on the sliding seat to move along the linear guide rail; the length direction of the linear guide rail is approximately parallel to the width direction of the processed product.

5. The full-automatic glue spraying machine according to claim 3, wherein the glue collecting mechanism further comprises a glue collecting barrel, the collecting box is provided with a glue outlet, and the glue collecting barrel is connected with the glue outlet through a conduit.

6. The full-automatic glue coating machine according to claim 1, wherein the glue collecting mechanism further comprises a mounting bracket arranged on the first conveying mechanism, the driving device is mounted on the mounting bracket, and the mounting bracket is arranged adjacent to the glue discharging mechanism.

7. The full-automatic glue coating machine according to claim 1, comprising a feeding device, wherein the feeding device comprises a first rotating bracket set, a first transplanting mechanism and a second conveying mechanism; the first transplanting mechanism is used for conveying the processed products erected on the first rotary support group frame to the second conveying mechanism, and the second conveying mechanism is used for conveying the processed products to the first conveying mechanism; the moving direction of the first transplanting mechanism is approximately vertical to the conveying direction of the second conveying mechanism for conveying the processed products.

8. The full-automatic glue coating machine according to claim 1, comprising a receiving mechanism, wherein the receiving mechanism comprises a second rotating bracket set, a second transplanting mechanism and a third conveying mechanism; the third conveying mechanism is used for receiving and conveying the processed products conveyed by the first conveying mechanism, and the second transplanting mechanism is used for conveying the processed products conveyed by the third conveying mechanism to the second turnover support group; the moving direction of the second transplanting mechanism is approximately perpendicular to the conveying direction of the third conveying mechanism for conveying the processed products.

9. The full-automatic glue coating machine according to claim 1, comprising a glue pasting device, wherein the glue pasting device comprises: the adhesive tape roll supporting frame is arranged on the bottom plate; the adhesive tape roll supporting frame is arranged on the upper end face of the supporting bottom plate, and the rubber pressing roller is arranged on the lower end face side of the supporting bottom plate; the pulley assembly is arranged on the lower end face of the supporting bottom plate; the supporting bottom plate is provided with a through groove; and pushing and pulling the handle to abut against the processed product to slide through the pulley assembly, and moving the rubberizing device along the length direction of the processed product, so that the rubberizing roller enables the adhesive tape which is discharged from the adhesive tape roll supporting frame and passes through the through groove to be in compression joint with the end face of the processed product.

10. The full-automatic glue coating machine according to claim 5, characterized by comprising a frame and a hood; the rack comprises a supporting platform and a containing cabinet for erecting the supporting platform; the glue spraying assembly further comprises a glue dispenser and a mounting rack, the mounting rack is erected on the supporting platform, and the glue distributor and the lifting device are mounted on the mounting rack; the glue collecting barrel is arranged in the containing cabinet; the hood is arranged on the supporting platform to enclose the mounting frame; the glue preparation machine is connected with the glue inlet through a guide pipe.

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