CN115338094B - Full-automatic gum dipping graphene drying line - Google Patents

Abstract

The invention belongs to the field of iron tooth processing equipment, in particular to a full-automatic dipping graphene drying line, which comprises a drying line main body; the top of the drying line main body is provided with a pinwheel motor; the inside of the drying line main body is rotationally connected with a plurality of driven gears and a driving gear; a chain is connected between the driving gear and the output shaft of the needle wheel motor in a meshed manner; through hanging iron tooth on iron tooth frame, and then wash iron tooth through the washing tank, and carry out primary and secondary gum dipping processing to iron tooth through two gum dipping tanks, after the completion of every first gum dipping, the gum of iron tooth surface is dried through the graphite alkene hot plate, carry out the secondary again and soak and dry, and then through the structural design that the iron tooth that the robot arm will process the completion was taken off, realized can carrying out automated processing's function to iron tooth, effectually solved iron tooth stoving line among the prior art and expended the manpower, also solved the problem that can cause the influence to operating personnel's health simultaneously.

Description

Full-automatic gum dipping graphene drying line

Technical Field

The invention belongs to the field of iron tooth processing equipment, and particularly relates to a full-automatic gum dipping graphene drying line.

Background

The rubber track is made of rubber and framework materials, has the advantages of ground protection, low noise and low vibration, and the commonly used fixedly-connected material is iron teeth which are adhered to the inside of the rubber track and serve as a made framework, and the impregnation of the iron teeth is one of the important steps in the production of the rubber track in the production process.

One chinese patent with publication number CN216592629U discloses a drying device for polyester gum dipping line processing, including the heat preservation framework, the feed chute has been seted up at the top of heat preservation framework left side, the blown down tank has been seted up to the bottom on heat preservation framework right side, adsorption component is installed in the left side penetration at heat preservation framework inner chamber top, adsorption component includes moisture absorption sponge board, adjusting part and auxiliary assembly, adjusting part includes backing block and double-end screw rod.

The iron tooth drying line in the prior art is generally composed of a heating pipe, a drying tunnel and other parts, the energy consumption, the installation and the replacement losses are relatively large, the heating is uneven, the installation equipment is relatively complicated, the iron tooth is laborious to carry, and the work efficiency is seriously affected.

Therefore, the invention provides a full-automatic dipping graphene drying line.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a full-automatic dipping graphene drying line, which comprises a drying line main body; the top of the drying line main body is provided with a pinwheel motor; the inside of the drying line main body is rotationally connected with a plurality of driven gears and a driving gear; a chain is connected between the driving gear and the output shaft of the needle wheel motor in a meshed manner; the driven gear and the driving gear are connected with a circulation chain in a meshed manner; the two circulating chains are symmetrically arranged in the drying line main body; a connecting rod is fixedly connected between the two circulating chains, and a plurality of iron racks are hung on the connecting rod; a plurality of graphene heating plates are arranged in the drying line main body; the outside of the drying line main body is provided with a robot arm; the robot arm is arranged at a position corresponding to the feeding hole of the main body of the drying line; the bottom of the drying line main body is provided with a cleaning tank and two gum dipping tanks; the cleaning tank is arranged at a position close to the feeding hole of the main body of the drying line; lifting assemblies are arranged at the bottoms of the cleaning tank and the gum dipping tank and can drive the cleaning tank and the gum dipping tank to move up and down; the iron tooth drying line in the prior art is generally composed of parts such as a heating tube and a drying tunnel, the energy consumption loading and changing loss is relatively large, heating is uneven, mounting equipment is relatively complex, carrying iron teeth is laborious, work efficiency is seriously affected, the immersed sizing material contains toxic substances for human bodies, and basically manual operation is extremely harmful to human bodies, when the iron teeth are required to be immersed and processed in a working mode, a graphene heating plate can be preheated for half an hour first, a robot arm can be started, iron teeth are hung on an iron tooth frame through the robot arm, a needle wheel motor can be started to drive a circulating chain to rotate, a lifting component at the bottom of a cleaning tank can be started to drive the cleaning tank to move upwards, cleaning liquid inside the cleaning tank can control the falling of the cleaning tank after the cleaning is finished, the needle wheel motor can drive the circulating chain to rotate, and after the iron tooth frame moves to the position of a first dipping tank and a second dipping tank, the iron teeth can be dried, the iron teeth can be immersed and processed in the inner part of the iron tooth frame, and the iron teeth can be dried after the iron teeth are immersed and processed in the drying machine, and the inner part of the iron tooth is dried.

Preferably, an automatic dehumidifier is installed at the top of the drying line main body; the action end of the automatic dehumidifier faces to the position of the iron rack; when the automatic dehumidifier is operated, the circulation chain drives the iron teeth to move to the position of the automatic dehumidifier, the automatic dehumidifier can accelerate the volatilization speed of moisture in the glue on the surface of the iron teeth, so that the glue is quickly condensed, and the processing efficiency of the iron teeth is improved.

Preferably, a circulating fan is arranged at the top of the drying line main body; an air knife is fixedly connected inside the drying line main body; the output end of the air knife faces to the position of the iron rack; the air outlet end of the circulating fan is connected with the position of the air knife; when the iron tooth is in the inside of the drying line main body for gum dipping processing in the working process, the circulating fan can blow air to the bottom position of the iron tooth hung on the iron tooth frame through the air knife, so that the air flow rate of the surface of the iron tooth can be accelerated, and the gum on the surface of the iron tooth can be quickly coagulated.

Preferably, a glue dropping notch is formed at the bottom of the drying line main body at a position corresponding to the glue dipping groove; a collecting groove is arranged at the bottom of the glue falling notch; when the during operation, after the iron tooth is taken out from the inside of gum dipping tank, the undried glue on the iron tooth can fall out through the gum falling notch, and then collect the gum falling through the collecting tank, can make the inside of stoving line main part cleaner, can be more convenient retrieve the recycle to gluing to reducible waste of gluing.

Preferably, the lifting assembly comprises a support plate; an electric push rod is arranged at the bottom of the drying line main body; the output end of the electric push rod is fixedly connected with a supporting plate; the bottom of the cleaning tank and the bottom of the gum dipping tank are fixedly connected with an anti-falling block; an anti-drop groove is formed in the supporting plate; the anti-falling block and the anti-falling groove are correspondingly arranged; when the operation is needed to lift the cleaning tank and the dipping tank, the electric push rod can be controlled to drive the cleaning tank and the dipping tank to lift, so that the iron teeth are more convenient to clean and dip when the iron teeth are dipped in the drying line main body, and meanwhile, the cleaning tank and the dipping tank are pulled out by clamping the anti-drop block at the bottom of the cleaning tank and the anti-drop block in the anti-drop tank, so that the cleaning tank and the dipping tank are more convenient to install and detach, and the cleaning tank and the liquid in the dipping tank are more convenient to replace.

Preferably, the inside of the drying line main body is connected with a first heat insulation plate in a sliding way; the first heat insulation plate is arranged at the position of the notch entering the corresponding cleaning tank and the gum dipping tank; the bottom of the drying line main body is fixedly connected with an air cylinder; the air cylinder is arranged around the cleaning tank and the gum dipping tank; a plurality of support rods are fixedly connected to the side walls of the support plates; the inside of the cylinder is connected with an air pushing plate in a sliding manner; the end part of the supporting rod is fixedly connected to the top of the air pushing plate; a pull rope is fixedly connected to the bottom of the air cylinder; the other end of the pull rope is fixedly connected to the side wall of the first heat insulation plate; a spring is fixedly connected between the side wall of the first heat insulation plate and the side wall of the drying line main body; when the electric push rod moves upwards, the pull rope is pulled by the air pushing plate, the first heat insulating plate is pulled by the pull rope, the first heat insulating plate is opened, the cleaning tank and the dipping tank extend into the main body of the drying line, iron teeth are cleaned and dipped, when the supporting plate drives the dipping tank to move downwards, the spring can push the first heat insulating plate, the first heat insulating plate can block the cleaning tank from the notch of the dipping tank, heat dissipation inside the main body of the drying line can be effectively avoided to the outside, and the effect of drying the iron teeth is better.

Preferably, an air passage is formed in the drying line main body; the air passage is arranged at a position corresponding to the glue falling notch; an air duct is connected between the rodless cavity of the air cylinder and the air duct; a plurality of air blowing channels are arranged between the air channels and the inside of the drying line main body; when the operation, when the backup pad drove the gum dipping groove and moves downwards, can push the inside air of cylinder into the inside of air vent through the air duct through pushing away the air board, and then the accessible air duct blows out for the air velocity of flow around the iron tooth on the iron tooth frame increases, thereby can make the gum drying rate on the iron tooth faster, the effectual condition that reduces the gum drip and appear on the main part surface of drying line.

Preferably, a blocking ball is arranged at the position of the air blowing channel; an elastic rope is fixedly connected between the blocking ball and the side wall of the air blowing channel; the inside of the glue dropping notch is rotationally connected with a second heat insulating plate through a torsion spring, and the second heat insulating plate is symmetrically arranged in the glue dropping notch; a one-way valve is arranged between one side of the rodless cavity of the air cylinder and the outside, and the one-way valve can enable air to enter the air cylinder but not flow out of the air cylinder through the one-way valve; a contact groove is formed in the bottom position of the second heat insulation plate; when the air is in operation, after entering the air duct through the air duct, the second heat insulating plate can be blown, so that the second heat insulating plate deflects, and then glue can flow out through the glue falling notch, when no air enters the air duct, the second heat insulating plate can be closed, and then the heat in the drying line main body can be less emitted to the outside, and then when the air moves to the position of the air duct, the air can push out the blocking ball, and then the blocking ball can block the air blowing range, the drying effect on iron teeth is better, and meanwhile, when no air is blown out, the blocking ball can block the air blowing channel, so that glue can be effectively prevented from entering the air blowing channel, the blocking condition can be caused to the air blowing channel, when the air blows the second heat insulating plate, the contact area between the air and the second heat insulating plate can be increased, and the air blowing force of the second heat insulating plate can be larger.

Preferably, the bottom of the second heat insulation plate is fixedly connected with a first magnetic block; a second magnetic block is fixedly connected to the side wall of the drying line main body; the first magnetic block and the second magnetic block are correspondingly arranged; when the second heat insulating plate is opened, the second magnetic block can adsorb the first magnetic block, so that the second heat insulating plate is more stable when being opened, and after the second heat insulating plate is stopped to be pushed by air, the first magnetic block and the second magnetic block of the second heat insulating plate can be pulled open by the torsion spring of the second heat insulating plate, so that the second heat insulating plate can be closed.

Preferably, a sealing gasket is fixedly connected between the bottom of the second heat insulation plate and the side wall of the drying line main body; when the second heat insulating plate is opened in the working process, the air in the air passage can be effectively prevented from flowing out through the gap between the second heat insulating plate and the drying line main body through the blocking of the sealing gasket, so that the effect of blowing the air to the air passage is better.

The beneficial effects of the invention are as follows:

1. according to the full-automatic gum dipping graphene drying line, the iron teeth are hung on the iron tooth frame, the iron teeth are cleaned through the cleaning tank, the primary gum dipping and the secondary gum dipping processing are carried out on the iron teeth through the two gum dipping tanks, after the gum dipping of each time is finished, the gum on the surface of the iron teeth is dried through the graphene heating plate, then the secondary gum dipping and the drying are carried out, and further the structural design that the processed iron teeth are removed through the robot arm is adopted, so that the function of automatically processing the iron teeth is realized, the problem that the iron tooth drying line in the prior art consumes manpower and meanwhile the problem that the health of operators is affected is solved.

2. According to the full-automatic gum dipping graphene drying line, the gum falling notch is formed in the bottom of the drying line main body, and the collecting groove is placed at the bottom of the gum falling notch, so that the function of reducing pollution of gum to the inside of the drying line main body is realized, and meanwhile, the collection of residual gum is more convenient.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a side cross-sectional view of the present invention;

FIG. 4 is a partial enlarged view at B in FIG. 3;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is a partial enlarged view at D in FIG. 4;

FIG. 7 is an enlarged view of a portion of FIG. 4 at E;

FIG. 8 is an enlarged view of a portion of F in FIG. 6;

fig. 9 is a schematic partial structure of a second heat shield in the second embodiment.

In the figure: 1. a drying line main body; 2. a pinwheel motor; 3. a circulation chain; 4. an iron rack; 5. a graphene heating plate; 6. a robotic arm; 7. a cleaning tank; 8. a gum dipping tank; 9. an automatic dehumidifier; 10. a circulating fan; 11. an air knife; 12. a support plate; 13. an anti-falling block; 14. a first heat shield; 15. a cylinder; 16. a support rod; 17. a pull rope; 18. an air duct; 19. an air passage; 20. an air blowing channel; 21. a second heat shield; 22. a blocking ball; 23. a contact groove; 24. a first magnetic block; 25. a second magnetic block; 26. and a sealing gasket.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1 to 3, a full-automatic dipping graphene drying line according to an embodiment of the present invention includes a drying line main body 1; the top of the drying line main body 1 is provided with a pinwheel motor 2; the inside of the drying line main body 1 is rotationally connected with a plurality of driven gears and a driving gear; a chain is connected between the driving gear and the output shaft of the needle wheel motor 2 in a meshed manner; the driven gear and the driving gear are connected with a circulation chain 3 in a meshed manner; two circulating chains 3 are symmetrically arranged in the drying line main body 1; a connecting rod is fixedly connected between the two circulating chains 3, and a plurality of iron racks 4 are hung on the connecting rod; a plurality of graphene heating plates 5 are arranged in the drying line main body 1; the outside of the drying line main body 1 is provided with a robot arm 6; the robot arm 6 is arranged at a position corresponding to the feed inlet of the drying line main body 1; the bottom of the drying line main body 1 is provided with a cleaning tank 7 and two dipping tanks 8; the cleaning tank 7 is arranged at a position close to the feed inlet of the drying line main body 1; lifting components are arranged at the bottoms of the cleaning tank 7 and the gum dipping tank 8, and can drive the cleaning tank 7 and the gum dipping tank 8 to move up and down; the iron tooth drying line among the prior art generally comprises parts such as heating tube and drying tunnel, the energy consumption dress trades the loss ratio great, it is inhomogeneous to generate heat, the erection equipment is more loaded down with trivial details, it is hard to carry iron tooth again, seriously influence the work efficiency, because the inside of the sizing material that soaks contains the poisonous substance to the human body, and basically be manual operation, the injury to the human body is very big, when the during operation, when needs carry out the gum dipping to the iron tooth, can carry out half hour preheating to graphite alkene hot plate 5 earlier, and then can start robot arm 6, hang the iron tooth through robot arm 6 and establish on iron tooth frame 4, and then can start needle wheel motor 2 and drive circulation chain 3 rotation, the position department that moves to rinse tank 7 when iron tooth frame 4, and then can start the lifting assembly of rinse tank 7 bottom drive rinse tank 7 upwards, controllable rinse tank 7 whereabouts on iron tooth frame 4, and then can drive needle wheel motor 2 and drive chain 3 rotation, and then when iron tooth frame 4 moves to first and second gum dipping tank 8 position, can drive the inside of the first and can finish the second gum dipping tank 8, can finish the processing to the iron tooth through drying machine arm, can finish the inside the drying machine body after the iron tooth is soaked in order to finish the iron tooth, can finish the drying machine the iron tooth, and can finish the inner side of the main part is finished, and is finished, can finish the drying machine the inner side is finished, and is finished.

As shown in fig. 1 and 3, an automatic dehumidifier 9 is installed at the top of the drying line body 1; the acting end of the automatic dehumidifier 9 faces to the position of the iron rack 4; when the circulation chain 3 drives the iron teeth to move to the position of the automatic dehumidifier 9 in operation, the automatic dehumidifier 9 can accelerate the volatilization speed of moisture in the glue on the surface of the iron teeth, so that the glue is quickly condensed, and the processing efficiency of the iron teeth is improved.

As shown in fig. 1 and 3, a circulating fan 10 is installed at the top of the drying line body 1; an air knife 11 is fixedly connected inside the drying line main body 1; the output end of the air knife 11 faces to the position of the iron rack 4; the air outlet end of the circulating fan 10 is connected with the position of the air knife 11; when the iron teeth are impregnated in the drying line main body 1 during operation, the circulating fan 10 can blow air to the bottom position of the iron teeth hung on the iron tooth frame 4 through the air knife 11, so that the air flow rate of the surface of the iron teeth can be accelerated, and the glue on the surface of the iron teeth can be quickly coagulated.

As shown in fig. 3 to 4, a glue dropping notch is formed at the bottom of the drying line main body 1 at a position corresponding to the glue dipping groove 8; a collecting groove is arranged at the bottom of the glue falling notch; when the during operation, after the iron tooth is taken out from the inside of gum dipping tank 8, the undried gum on the iron tooth can fall out through the gum falling notch, and then collect the gum falling through the collecting vat, can make the inside of stoving line main part 1 cleaner, can be more convenient retrieve the recycle to the gum to reducible waste of gluing.

As shown in fig. 4 to 5, the lifting assembly includes a support plate 12; an electric push rod is arranged at the bottom of the drying line main body 1; the output end of the electric push rod is fixedly connected with a supporting plate 12; the bottom of the cleaning tank 7 and the bottom of the gum dipping tank 8 are fixedly connected with an anti-falling block 13; an anti-falling groove is formed in the supporting plate 12; the anti-falling block 13 is arranged corresponding to the anti-falling groove; when the operation is needed to lift the cleaning tank 7 and the dipping tank 8, the electric push rod can be controlled to drive the cleaning tank 7 and the dipping tank 8 to lift, so that the iron teeth can be cleaned and dipped more conveniently when the iron teeth are dipped in the drying line main body 1, meanwhile, the cleaning tank 7 and the dipping tank 8 can be pulled out by clamping the anti-drop block 13 at the bottom of the cleaning tank 7 and the dipping tank 8 into the anti-drop tank, and the cleaning tank 7 and the dipping tank 8 can be installed and disassembled more conveniently, so that the cleaning tank 7 and the liquid in the dipping tank 8 can be replaced more conveniently.

As shown in fig. 4, the inside of the drying wire main body 1 is slidably connected with a first heat insulation plate 14; the first heat insulation plate 14 is arranged at the position of the notch entering the corresponding cleaning tank 7 and the gum dipping tank 8; the bottom of the drying line main body 1 is fixedly connected with an air cylinder 15; the air cylinder 15 is arranged around the cleaning tank 7 and the gum dipping tank 8; a plurality of support rods 16 are fixedly connected to the side walls of the support plates 12; the inside of the cylinder 15 is connected with an air pushing plate in a sliding way; the end part of the supporting rod 16 is fixedly connected with the top position of the air pushing plate; a pull rope 17 is fixedly connected to the bottom of the air cylinder 15; the other end of the pull rope 17 is fixedly connected to the side wall of the first heat insulation plate 14; a spring is fixedly connected between the side wall of the first heat insulation plate 14 and the side wall of the drying line main body 1; when the during operation, when the electric push rod upwards moves, the accessible pushes away gas board pulling stay cord 17, and then can make stay cord 17 pulling first heat insulating board 14 for first heat insulating board 14 opens, thereby can make washing tank 7 and the inside that the dipping tank 8 stretched into stoving line main part 1, wash and the dipping processing to the iron tooth, when backup pad 12 drove the dipping tank 8 and move down, the spring can promote first heat insulating board 14, make first heat insulating board 14 block the entering notch of washing tank 7 and dipping tank 8, thereby can effectually avoid the inside heat of stoving line main part 1 to give off to the external world, thereby can make the effect of drying processing to the iron tooth better.

As shown in fig. 4 and 7, an air passage 19 is provided in the drying line main body 1; the air passage 19 is arranged at a position corresponding to the glue dropping notch; an air duct 18 is connected between the rodless cavity of the air cylinder 15 and the air duct 19; a plurality of air blowing channels 20 are arranged between the air channels 19 and the inside of the drying line main body 1; when the air-blowing device works, when the supporting plate 12 drives the dipping tank 8 to move downwards, air in the air cylinder 15 can be pushed into the air passage 19 through the air guide pipe 18 by the air-pushing plate, and then the air can be blown out through the air-blowing passage 20, so that the air flow speed around the iron teeth on the iron tooth frame 4 is increased, the drying speed of the glue on the iron teeth is higher, and the situation that the glue drops on the surface of the drying line main body 1 is effectively reduced.

As shown in fig. 6 to 7, a blocking ball 22 is provided at the position of the air blowing path 20; elastic ropes are fixedly connected between the blocking balls 22 and the side walls of the air blowing channels 20; the inside of the glue dropping notch is rotationally connected with a second heat insulation plate 21 through a torsion spring, and the second heat insulation plate 21 is symmetrically arranged in the glue dropping notch; a one-way valve is arranged between one side of the rodless cavity of the air cylinder 15 and the outside, and the one-way valve can enable air to enter the air cylinder 15 but cannot flow out of the air cylinder 15 through the one-way valve; a contact groove 23 is formed at the bottom of the second heat insulation plate 21; when the air is in operation, after entering the air duct 19 through the air duct 18, the second heat insulation plate 21 can be blown, so that the second heat insulation plate 21 deflects, glue can flow out through the glue falling notch, when no air enters the air duct 19, the second heat insulation plate 21 can be closed, so that less heat in the drying line main body 1 is emitted to the outside, when the air moves to the position of the air blowing channel 20, the air can eject the blocking ball 22, the blocking ball 22 can block the air blowing range, the iron tooth drying effect is better, meanwhile, when no air is blown out, the blocking ball 22 can block the air blowing channel 20, so that the glue can be effectively prevented from entering the air blowing channel 20, the blocking condition is caused to the air blowing channel 20, when the air blows the second heat insulation plate 21, the contact groove 23 can increase the contact area of the air and the second heat insulation plate 21, and the air blowing force of the second heat insulation plate 21 can be further increased.

As shown in fig. 8, the bottom of the second heat insulation plate 21 is fixedly connected with a first magnetic block 24; a second magnetic block 25 is fixedly connected to the side wall of the drying line main body 1; the first magnetic block 24 and the second magnetic block 25 are correspondingly arranged; when the second heat insulation plate 21 is opened, the second magnetic block 25 can absorb the first magnetic block 24, so that the second heat insulation plate 21 is more stable when opened, and when the air stops pushing the second heat insulation plate 21, the torsion spring of the second heat insulation plate 21 can pull the first magnetic block 24 and the second magnetic block 25 of the second heat insulation plate 21 open, so that the second heat insulation plate 21 can be closed.

Example two

As shown in fig. 9, in comparative example one, another embodiment of the present invention is: a sealing gasket 26 is fixedly connected between the bottom of the second heat insulation plate 21 and the side wall of the drying line main body 1; in operation, when the second heat insulation plate 21 is opened, the air in the air passage 19 can be effectively prevented from flowing out through the gap between the second heat insulation plate 21 and the drying line main body 1 by blocking of the sealing gasket 26, so that the effect of blowing the air to the air blowing passage 20 is better.

During operation, when needs carry out the gum dipping to the iron tooth and add, can carry out half hour preheating to graphite alkene hot plate 5 earlier, and then can start robot arm 6, hang the iron tooth through robot arm 6 and establish on iron tooth frame 4, and then can start needle wheel motor 2 and drive circulation chain 3 and rotate, the position department to washing tank 7 is moved to iron tooth frame 4, and then can start the lifting unit of washing tank 7 bottom and drive washing tank 7 and upwards move, wash the iron tooth of hanging on iron tooth frame 4 through the inside washing liquid of washing tank 7, controllable washing tank 7 whereabouts after wasing, and then can drive needle wheel motor 2 and drive circulation chain 3 and rotate, and then after iron tooth frame 4 moves to the position department of first and second gum dipping tank 8, can start the first and second gum dipping tank 8 and upwards move, carry out primary gum dipping processing and gum dipping processing to the iron tooth, after the gum dipping is accomplished, the inside graphite alkene 5 of stoving line main part 1 can wash the iron tooth surface, thereby can finish the drying machine arm after finishing the processing of iron tooth, can accomplish the inside after finishing the hot plate 6, the processing of iron tooth is finished.

When the circulation chain 3 drives the iron teeth to move to the position of the automatic dehumidifier 9, the automatic dehumidifier 9 can accelerate the volatilization speed of moisture in the glue on the surface of the iron teeth, so that the glue is quickly condensed, and the processing efficiency of the iron teeth is improved.

When the iron teeth are impregnated in the drying line main body 1, the circulating fan 10 can blow air to the bottom position of the iron teeth hung on the iron tooth frame 4 through the air knife 11, so that the air flow rate of the surface of the iron teeth can be accelerated, and the glue on the surface of the iron teeth can be quickly coagulated.

After the iron tooth is taken out from the inside of the gum dipping tank 8, the adhesive which is not dried on the iron tooth can fall out through the adhesive falling notch, and then the adhesive falling is collected through the collecting tank, so that the inside of the drying line main body 1 is cleaner, and the adhesive can be more conveniently recycled, so that the adhesive waste can be reduced.

When needs go on lifting operation to washing tank 7 and gum dipping tank 8, steerable electric push rod drives washing tank 7 and gum dipping tank 8 and goes up and down to can make the inside gum dipping processing of stoving line main part 1 when to iron tooth, wash and gum dipping more convenient to iron tooth, simultaneously through the inside of the anticreep piece 13 card income anticreep groove of washing tank 7 and gum dipping tank 8 bottom, and can take washing tank 7 and gum dipping tank 8 out, can make washing tank 7 and gum dipping tank 8's installation and dismantlement more convenient, thereby can make more convenient when changing washing tank 7 and the inside liquid of gum dipping tank 8.

When the electric push rod moves upwards, the pull rope 17 is pulled by the air pushing plate, and then the pull rope 17 can be used for pulling the first heat insulation plate 14, so that the first heat insulation plate 14 is opened, the cleaning tank 7 and the dipping tank 8 can be made to extend into the drying line main body 1, iron teeth are cleaned and dipped, when the supporting plate 12 drives the dipping tank 8 to move downwards, the spring can push the first heat insulation plate 14, the first heat insulation plate 14 can block the cleaning tank 7 from the notch of the dipping tank 8, and heat dissipation inside the drying line main body 1 can be effectively avoided to the outside, so that the effect of drying the iron teeth is better.

When the supporting plate 12 drives the gum dipping tank 8 to move downwards, air in the air cylinder 15 can be pushed into the air passage 19 through the air guide pipe 18 by the air pushing plate, and then the air can be blown out through the air blowing passage 20, so that the air flow velocity around the iron teeth on the iron tooth frame 4 is increased, the gum drying speed on the iron teeth is higher, and the occurrence of the situation that the gum drops on the surface of the drying line main body 1 is effectively reduced.

When air enters the air duct 19 through the air duct 18, the second heat insulation plate 21 can be blown, so that the second heat insulation plate 21 deflects, glue can flow out through the glue falling notch, when no air enters the air duct 19, the second heat insulation plate 21 can be closed, heat inside the drying line main body 1 can be further dispersed to the outside less, when the air moves to the position of the air blowing channel 20, the air can push out the blocking ball 22, the blocking ball 22 can be used for blocking the air blowing range, the iron tooth drying effect is better, meanwhile, when no air is blown out, the blocking ball 22 can be used for blocking the air blowing channel 20, glue can be effectively prevented from entering the air blowing channel 20, blocking is caused to the air blowing channel 20, when the air blows the second heat insulation plate 21, the contact area of the air and the second heat insulation plate 21 can be increased by the contact groove 23, and the air can be enabled to blow the second heat insulation plate 21 to be stronger.

When the second heat insulation plate 21 is opened, the second magnetic block 25 can absorb the first magnetic block 24, so that the second heat insulation plate 21 is more stable when opened, and when the air stops pushing the second heat insulation plate 21, the torsion spring of the second heat insulation plate 21 can pull the first magnetic block 24 and the second magnetic block 25 of the second heat insulation plate 21 apart, so that the second heat insulation plate 21 can be closed.

The front, rear, left, right, up and down are all based on fig. 1 in the drawings of the specification, the face of the device facing the observer is defined as front, the left side of the observer is defined as left, and so on, according to the viewing angle of the person.

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A full-automatic gum dipping graphene drying line is characterized in that: comprises a drying line main body (1); the top of the drying line main body (1) is provided with a pinwheel motor (2); the inside of the drying line main body (1) is rotationally connected with a plurality of driven gears and a driving gear; a chain is connected between the driving gear and the output shaft of the needle wheel motor (2) in a meshed manner; the driven gear and the driving gear are connected with a circulation chain (3) in a meshed manner; the two circulating chains (3) are symmetrically arranged in the drying line main body (1); a connecting rod is fixedly connected between the two circulating chains (3), and a plurality of iron racks (4) are hung on the connecting rod; a plurality of graphene heating plates (5) are arranged in the drying line main body (1); the outside of the drying line main body (1) is provided with a robot arm (6); the robot arm (6) is arranged at a position corresponding to the feed inlet of the drying line main body (1); the bottom of the drying line main body (1) is provided with a cleaning tank (7) and two dipping tanks (8); the cleaning tank (7) is arranged at a position close to the feed inlet of the drying line main body (1); lifting assemblies are arranged at the bottoms of the cleaning tank (7) and the gum dipping tank (8), and can drive the cleaning tank (7) and the gum dipping tank (8) to move up and down;

an automatic dehumidifier (9) is arranged at the top of the drying line main body (1); the acting end of the automatic dehumidifier (9) faces to the position of the iron rack (4);

a circulating fan (10) is arranged at the top of the drying line main body (1); an air knife (11) is fixedly connected in the drying line main body (1); the output end of the air knife (11) faces to the position of the iron rack (4); the air outlet end of the circulating fan (10) is connected with the position of the air knife (11);

a glue dropping notch is formed in the bottom of the drying line main body (1) at a position corresponding to the glue dipping groove (8); a collecting groove is arranged at the bottom of the glue falling notch;

the lifting assembly comprises a support plate (12); an electric push rod is arranged at the bottom of the drying line main body (1); the output end of the electric push rod is fixedly connected with a supporting plate (12); the bottom of the cleaning tank (7) and the bottom of the gum dipping tank (8) are fixedly connected with an anti-falling block (13); an anti-drop groove is formed in the supporting plate (12); the anti-falling block (13) is arranged corresponding to the anti-falling groove;

the inside of the drying line main body (1) is connected with a first heat insulation plate (14) in a sliding way; the first heat insulation plate (14) is arranged at the position of a notch entering the corresponding cleaning tank (7) and the dipping tank (8); the bottom of the drying line main body (1) is fixedly connected with an air cylinder (15); the air cylinder (15) is arranged around the cleaning tank (7) and the gum dipping tank (8); a plurality of support rods (16) are fixedly connected to the side wall of the support plate (12); an air pushing plate is connected inside the air cylinder (15) in a sliding manner; the end part of the supporting rod (16) is fixedly connected to the top position of the air pushing plate; a pull rope (17) is fixedly connected to the bottom of the air cylinder (15); the other end of the pull rope (17) is fixedly connected to the side wall of the first heat insulation plate (14); a spring is fixedly connected between the side wall of the first heat insulation plate (14) and the side wall of the drying line main body (1).

2. The fully automatic impregnated graphene drying line according to claim 1, wherein: an air passage (19) is formed in the drying line main body (1); the air passage (19) is arranged at a position corresponding to the glue falling notch; an air duct (18) is connected between the rodless cavity of the air cylinder (15) and the air duct (19); a plurality of air blowing channels (20) are arranged between the air passage (19) and the inside of the drying line main body (1).

3. The full-automatic gumming graphene baking line according to claim 2, wherein: a blocking ball (22) is arranged at the position of the air blowing channel (20); elastic ropes are fixedly connected between the blocking balls (22) and the side walls of the air blowing channels (20); the inside of the glue dropping notch is rotationally connected with a second heat insulating plate (21) through a torsion spring, and the second heat insulating plate (21) is symmetrically arranged in the glue dropping notch; a one-way valve is arranged between one side of the rodless cavity of the air cylinder (15) and the outside, and the one-way valve can enable air to enter the air cylinder (15) but cannot flow out of the air cylinder (15) through the one-way valve; a contact groove (23) is formed in the bottom position of the second heat insulation plate (21).

4. A fully automatic impregnated graphene baking line according to claim 3, wherein: the bottom of the second heat insulation plate (21) is fixedly connected with a first magnetic block (24); a second magnetic block (25) is fixedly connected to the side wall of the drying line main body (1); the first magnetic block (24) and the second magnetic block (25) are correspondingly arranged.

5. The full-automatic gumming graphene baking line according to claim 4, wherein: a sealing gasket (26) is fixedly connected between the bottom of the second heat insulation plate (21) and the side wall of the drying line main body (1).