CN114536963A

CN114536963A - Automatic drying device for manufacturing braille printing ink and using method thereof

Info

Publication number: CN114536963A
Application number: CN202210178611.XA
Authority: CN
Inventors: 冉乾礼
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-24
Filing date: 2022-02-24
Publication date: 2022-05-27

Abstract

The invention provides an automatic drying device for manufacturing braille printing ink and a using method thereof, and relates to the technical field of ink. The invention provides an automatic drying device for manufacturing Braille printing ink and a using method thereof, and the automatic drying device comprises a case, an air inlet device, an air inlet box, an air outlet box, an air exhaust device, a dustproof mechanism, a bubble removing mechanism and a drying box, wherein the top end of the case is fixedly connected with the air inlet device close to the right side, the right side of the air inlet device is fixedly connected with the air inlet box, the left side of the air inlet device is fixedly connected with the air outlet box, the right side of the case is fixedly connected with the air exhaust device close to the bottom end, the dustproof mechanism is uniformly and fixedly connected in the air inlet box, the bottom end in the case is fixedly connected with the bubble removing mechanism, and the drying box is arranged in the middle of the bubble removing mechanism.

Description

Automatic drying device for manufacturing braille printing ink and using method thereof

Technical Field

The invention relates to the technical field of printing ink, in particular to an automatic drying device for manufacturing braille printing ink and a using method thereof.

Background

The ink is used for printing, and is used for printing patterns and characters on printed material by means of printing or spray-painting, and is made up by using main component and auxiliary component which are uniformly mixed and repeatedly rolled to form a viscous colloidal fluid, and is formed from binder, pigment, filler, adjuvant and solvent.

The ink for printing the braille can expand the low-boiling-point foaming particles if the ink for printing the braille is dried by a traditional drying method for heating air when the low-boiling-point foaming particles are added in the ink for drying the ink, so that the braille printed by the ink cannot be foamed to influence the printing effect of the braille and the ink drying process, and external dust can enter the device along with air flow and fall on the surface of the ink, thereby influencing the printing effect of subsequent ink.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an automatic drying device for manufacturing braille printing ink, which solves the problem that the printing effect of the ink on braille is influenced by dust falling on the surface of the ink through a traditional drying method when the ink is dried.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an automatic drying device is made to braille printing ink, the load simulator comprises a case, air inlet unit, the inlet box, the case of giving vent to anger, air exhaust device, dustproof mechanism, defoaming mechanism, the stoving case, machine case top is close to right side fixed connection has air inlet unit, air inlet unit right side fixedly connected with inlet box, air inlet unit left side fixedly connected with goes out the air box, machine case right side is close to bottom fixedly connected with air exhaust device, even fixedly connected with dustproof mechanism in the inlet box, bottom end fixedly connected with defoaming mechanism in the machine case, defoaming mechanism middle part is equipped with the stoving case.

Preferably, the right side of the air inlet box is uniformly provided with a bar-shaped air inlet, the left side and the right side of the bar-shaped air inlet are provided with a second bar-shaped air inlet, the second bar-shaped air inlet penetrates through the air inlet device and is fixedly connected with the air outlet box, one end, far away from the air inlet box, of the bar-shaped opening penetrates through the bottom end of the air inlet device and is arranged in the case, and the other end of the bar-shaped opening is obliquely arranged in the case.

Preferably, bubble removing mechanism is including setting up the arc lug that air inlet unit's one side top and bottom were kept away from to the bar opening, and set up the spiral filter tube at bar opening first section and second section, spiral filter tube both ends fixedly connected with turning block, the turning block passes inner wall between bar opening and the second bar opening and is connected with the inner wall rotation between bar opening and the second bar opening, it is connected with the elastic spring pipe to rotate between the turning block, the spiral filter tube top that is located the top and the spiral filter tube bottom fixedly connected with elastic spring pipe that is located the below, the elastic spring pipe other end and air inlet box fixed connection, the turning block is close to second bar open-ended one side fixedly connected with and rotates the flabellum.

Preferably, remove bubble mechanism still including setting up the built-in elasticity wave pole in the spiral filter tube, built-in elasticity wave pole passes the spacing spring pipe of turning block fixedly connected with near bar open-ended one end, spacing spring pipe other end fixedly connected with connects the ball, connect the even fixedly connected with wave spoiler in the ball outside, even fixedly connected with spoiler on the spiral filter tube inner wall, built-in elasticity wave pole arranges the one end in the spiral filter tube in middle part fixedly connected with fixed block in built-in elasticity wave pole, fixed block and built-in elasticity wave pole inner wall fixed connection.

Preferably, the surface and the inner wall of the spiral filter pipe are both provided with thin and soft brushes, air inlet round mouths are formed in parts among the thin and soft brushes, the parts, placed in the spiral filter pipe, of the built-in elastic wave rod are wavy, the surfaces of the built-in elastic wave rods are both provided with the thin and soft brushes, the connecting ball is a hollow cavity, round mouths are uniformly formed in the surface of the connecting ball, the spiral filter pipes located in the upper half section and the lower half section of the strip-shaped opening are staggered with each other, a strip-shaped sliding opening is formed in the inner wall, close to one side of the strip-shaped opening, of the second strip-shaped opening, a rotating block can slide up and down in the inner wall between the strip-shaped opening and the second strip-shaped opening, dust suction ports are uniformly formed in the surface of the spiral filter pipe, an oval opening is formed in the joint of the spiral filter pipe and the rotating block, the built-in elastic wave rod penetrates through the oval opening, the built-in elastic wave rod penetrates through a limiting spring pipe and is fixedly connected with the connecting ball, and the built-in elastic wave rod is slidably connected with the limiting spring pipe.

Preferably, bubble removing mechanism includes that fixed connection arranges the left stoving pipe of the one end of quick-witted incasement in the inlet box to and the electro-magnet board of fixed connection's quick-witted bottom of the case end, the electro-magnet board top is equipped with the electro-magnet board equally, the electro-magnet board top that is located the top is equipped with the stoving case, even fixedly connected with supporting spring between the electro-magnet board, even fixedly connected with connecting spring on the supporting spring outside, connecting spring other end fixedly connected with electromagnetism connecting rod, electromagnetism connecting rod other end fixedly connected with bumps the ball, bump ball both sides fixedly connected with air baffle, electromagnetism connecting rod both sides fixedly connected with second connecting spring, second connecting spring outside fixedly connected with slip magnetism air baffle, slip magnetism air baffle passes through second connecting spring and electromagnetism connecting rod sliding connection.

Preferably, no connecting spring is arranged on the supporting spring adjacent to the supporting spring between the electromagnetic iron plates, the left end of the drying tube is aligned with the left end of the electromagnetic iron plates, an air duct hose is arranged at the right end between the electromagnetic iron plates, the air duct hose penetrates through the case and is fixedly connected with the air inlet end of the air exhaust device, an air outlet is formed in the part, above the drying box, of the drying tube, and the magnetic poles of the electromagnetic iron plates are the same.

A method for using an automatic drying device for manufacturing Braille printing ink comprises the following steps,

s1: placing printing ink in a drying box, placing the drying box below a drying pipe at the top end of an electromagnet plate positioned above, starting an air inlet device and an air exhaust device, introducing current into the electromagnet plate, allowing air to enter a strip-shaped opening and a second strip-shaped opening under the action of the air exhaust device, blowing airflow to rotate fan blades to rotate so as to drive a spiral filter pipe to rotate through a rotating block, and enabling a fine soft brush between the spiral filter pipes to continuously rub to generate static electricity;

s2: when the printing ink is dried, current is intermittently introduced into the elastic spring tube between the rotating blocks, the elastic spring tube forms an electrified spiral coil, the elastic spring tube contracts under the action of mutual attraction force between the currents to enable partial spiral filter tubes to be crossed, the spiral filter tube rotates to reduce gaps between the thin and soft brushes on the spiral filter tube and increase friction force between the thin and soft brushes to clean dust on the thin and soft brushes, the air flow speed changing block entering the second strip-shaped opening is enabled to be under the action of the arc-shaped convex block, so that flow speed difference is formed between the strip-shaped opening and the second strip-shaped opening, negative pressure is formed at the oval-shaped opening, the dust cleaned from the thin and soft brushes is sucked into the spiral filter tube through the dust suction port, the connecting ball is blown when the air flow passes through the second strip-shaped opening, and the connecting ball is enabled to continuously stretch and swing under the action of the wave spoiler and the limiting spring tube, the built-in elastic wave rod is driven to stretch and contract continuously, so that static electricity is generated by friction between the thin soft brush on the built-in elastic wave rod and the thin soft brush in the inner wall of the spiral filter pipe to adsorb dust entering the spiral filter pipe, the dust adsorbed outside the spiral filter pipe is prevented from entering the machine box or being discharged outside through the air outlet box and being adsorbed in the air inlet box again, airflow enters the spiral filter pipe through the dust suction port to impact the turbulence block continuously, the spiral filter pipe shakes continuously, the dust filtering effect in the air is enhanced, and meanwhile, the dust on the outer side of the spiral filter pipe can be cleaned conveniently;

s3: the air flow enters the drying pipe through the air inlet box in the part arranged in the case, the air flow on the surface of the ink is accelerated through the air outlet on the drying pipe to dry the ink in the drying box at low temperature, when the air flow in the drying pipe enters between the electromagnet plates, the air flow between the electromagnet plates is accelerated under the action of the air extractor, so that the air flow impacts the support springs, the air baffle deflects to one side when the air flow impacts the collision ball and the air baffle and collides with the adjacent support springs, the direction of the current introduced into the electromagnetic connecting rod is changed when the collision ball deflects, so that the magnetic poles of the electromagnetic connecting rod and the side of the sliding magnetic air baffle far away from the collision ball deflect are the same, the length of the side of the sliding magnetic air baffle far away from the collision ball deflects, the impact area of the air flow on the sliding magnetic air baffle is increased, and the collision ball deflects to the other side under the action of the air flow and the connecting spring to impact the support springs, the supporting spring is continuously shaken to drive the electromagnet plate to shake, the supporting spring is blown by matching with air flow, and the shaking effect of the supporting spring is enhanced to promote the discharge of bubbles in the ink.

(III) advantageous effects

(1) According to the invention, the spiral filter pipes, the rotating blocks, the elastic spring pipes, the rotating fan blades and the rotating fan blades are arranged in the defoaming mechanism, so that when air flow passes through the second strip-shaped opening, the thin and soft brushes between the spiral filter pipes continuously rub under the action of the air flow to generate static electricity to adsorb dust in the air passing through the spiral filter pipes, and the dust is prevented from falling on the surface of undried ink along with the air entering a case to influence the drying effect of the ink.

(2) According to the invention, through the arc-shaped convex block arranged in the defoaming mechanism, the built-in elastic wave rod, the limiting spring tube, the connecting ball, the wave spoiler and the spoiler, the fixed block enables a flow speed difference to be formed between the strip-shaped opening and the second strip-shaped opening under the action of air flow, and enables the fine and soft brushes on the spiral filter tube to be continuously rubbed to clean dust on the fine and soft brushes through the attraction force between currents under the action of the elastic spring tube, and the cleaned dust is sucked into the spiral filter tube under the action of the flow speed difference, so that the dust on the surface of the spiral filter tube is prevented from being excessively accumulated on the spiral filter tube to influence the ventilation effect of the strip-shaped opening, and the drying efficiency of printing ink is influenced.

(3) According to the invention, the drying pipe arranged in the defoaming mechanism is used for drying the printing ink at a low temperature under the matching of the air exhaust device and the dustproof device, so that the expansion of low-boiling-point foaming particles in the printing ink when the printing ink is dried in a traditional heating and drying mode is prevented, and the printed braille can not expand and bulge when the printing ink is used for braille printing after being dried, thereby influencing the printing effect of the braille.

(4) According to the invention, through the drying tube, the electromagnet plates, the supporting springs, the connecting springs, the electromagnetic connecting rods, the collision balls, the air baffle plates, the second connecting springs and the sliding magnetic air baffle plates which are arranged in the defoaming mechanism, when air flow passes between the electromagnet plates, the collision balls and the supporting springs are continuously collided so as to drive the printing ink arranged on the electromagnet plates to continuously shake, so that bubbles in the printing ink are promoted to be discharged, and a large number of bubbles in the printing ink after graphite is dried are prevented from influencing the drying quality of the printing ink and influencing the printing effect of the printing ink during printing.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side cross-sectional view of the present invention;

FIG. 3 is a front cross-sectional view of the intake box of the present invention;

FIG. 4 is a side cross-sectional view of the intake housing of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 3A according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 3 at B in accordance with the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 2 at C.

The device comprises a case 1, an air inlet device 2, an air inlet box 3, an air outlet box 4, an air extractor 5, a dustproof mechanism 6, an arc-shaped bump 601, a spiral filter pipe 602, a rotating block 603, an elastic spring pipe 604, a rotating fan blade 605, an internal elastic wave rod 606, a limiting spring pipe 607, a connecting ball 608, a wave spoiler 609, a spoiler 610, a fixed block 611, a bubble removing mechanism 7, a drying pipe 701, an electromagnet plate 702, a supporting spring 703, a connecting spring 704, an electromagnetic connecting rod 705, a collision ball 706, an air baffle 707, a second connecting spring 708, a sliding magnetic air baffle 709 and a drying box 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in FIGS. 1-7, the embodiment of the invention provides an automatic drying device for manufacturing Braille printing ink, which comprises a case 1, an air inlet device 2, an air inlet box 3, an air outlet box 4, an air exhaust device 5, a dustproof mechanism 6, a bubble removing mechanism 7 and a drying box 8, wherein the air inlet device 2 is fixedly connected to the top end of the case 1 close to the right side, the air inlet box 3 is fixedly connected to the right side of the air inlet device 2, the air outlet box 4 is fixedly connected to the left side of the air inlet device 2, the air exhaust device 5 is fixedly connected to the right side of the case 1 close to the bottom end, the dustproof mechanism 6 is uniformly and fixedly connected in the air inlet box 3, the bubble removing mechanism 7 is fixedly connected to the inner bottom end of the case 1, the drying box 8 is arranged in the middle of the bubble removing mechanism 7, the bar-shaped air inlets are uniformly arranged on the right side of the air inlet box 3, the second bar-shaped air inlets are arranged on the left and right sides, and pass through the air inlet device 2 to be fixedly connected with the air outlet box 4, one end of the strip-shaped opening, which is far away from the air inlet box 3, penetrates through the bottom end of the air inlet device 2 and is arranged in the case 1, and the other end of the strip-shaped opening is obliquely arranged in the case 1.

The bubble removing mechanism 7 comprises an arc-shaped convex block 601 arranged at the top end and the bottom end of one side of a strip-shaped opening far away from the air inlet device 2, and a spiral filter pipe 602 arranged at the upper half section and the lower half section of the strip-shaped opening, wherein both ends of the spiral filter pipe 602 are fixedly connected with rotating blocks 603, the rotating blocks 603 penetrate through the inner wall between the strip-shaped opening and the second strip-shaped opening and are rotatably connected with the inner wall between the strip-shaped opening and the second strip-shaped opening, an elastic spring pipe 604 is rotatably connected between the rotating blocks 603, the elastic spring pipe 604 is fixedly connected at the top end of the spiral filter pipe 602 positioned above and the bottom end of the spiral filter pipe 602 positioned below, the other end of the elastic spring pipe 604 is fixedly connected with the air inlet box 3, one side of the rotating block 603 close to the second strip-shaped opening is fixedly connected with a rotating fan blade 605, the bubble removing mechanism 7 also comprises a built-in elastic wave rod 606 arranged in the spiral filter pipe 602, one end of the built-in elastic wave rod 606 close to the strip-shaped opening penetrates through the rotating block 603 and is fixedly connected with a limiting spring pipe 607, the other end of the limiting spring tube 607 is fixedly connected with a connecting ball 608, the outer side of the connecting ball 608 is uniformly and fixedly connected with a wave spoiler 609, the inner wall of the spiral filter tube 602 is uniformly and fixedly connected with a spoiler 610, one end of the built-in elastic wave rod 606 arranged in the spiral filter tube 602 is fixedly connected with a fixed block 611 in the middle of the built-in elastic wave rod 606, the fixed block 611 is fixedly connected with the inner wall of the built-in elastic wave rod 606, the surface and the inner wall of the spiral filter tube 602 are both provided with a thin soft brush, the part between the thin soft brushes is provided with an air inlet round mouth, the part of the built-in elastic wave rod 606 arranged in the spiral filter tube 602 is wave-shaped, the surface of the built-in elastic wave rod 606 is provided with a thin soft brush, the connecting ball 608 is hollow, the surface of the connecting ball 608 is uniformly provided with round mouths, the spiral filter tubes 602 positioned on the upper half section and the lower half section of the strip-shaped opening are staggered with each other, the inner wall of the second strip-shaped opening close to one side is provided with a strip-shaped sliding mouth, the rotating block 603 can slide up and down in the inner wall between the strip-shaped opening and the second strip-shaped opening, dust suction ports are uniformly formed in the surface of the spiral filter pipe 602, an oval opening is formed in the joint of the spiral filter pipe 602 and the rotating block 603, the built-in elastic wave rod 606 penetrates through the oval opening, the built-in elastic wave rod 606 penetrates through the limiting spring pipe 607 to be fixedly connected with the connecting ball 608, and the built-in elastic wave rod 606 is in sliding connection with the limiting spring pipe 607.

The bubble removing mechanism 7 comprises a drying pipe 701 fixedly connected with the left side of one end of the air inlet box 3 arranged in the machine case 1 and an electromagnet plate 702 fixedly connected with the bottom end of the machine case 1, the electromagnet plate 702 is also arranged above the electromagnet plate 702, the top end of the electromagnet plate 702 positioned above is provided with a drying box 8, supporting springs 703 are uniformly and fixedly connected between the electromagnet plates 702, connecting springs 704 are uniformly and fixedly connected on the outer sides of the supporting springs 703, the other ends of the connecting springs 704 are fixedly connected with an electromagnetic connecting rod 705, the other ends of the electromagnetic connecting rod 705 are fixedly connected with a collision ball 706, gas blocking plates 707 are fixedly connected on both sides of the collision ball 706, second connecting springs 708 are fixedly connected on both sides of the electromagnetic connecting rod 705, sliding magnetic gas blocking plates 709 are fixedly connected on the outer sides of the second connecting springs 708, and the sliding magnetic gas blocking plates 709 are connected with the electromagnetic connecting rod 705 through the second connecting springs 708 in a sliding manner, the supporting springs 703 adjacent to the supporting springs 703 between the electromagnet plates 702 are not provided with connecting springs 704, the bottom ends of the drying pipes 701 are aligned with the left ends of the electromagnet plates 702, air guide tube hoses are arranged at the right ends between the electromagnet plates 702 and penetrate through the case 1 to be fixedly connected with the air inlet ends of the air suction devices 5, air outlets are arranged on the parts, above the drying box 8, of the drying pipes 701, and the magnetic poles of the electromagnet plates 702 are the same.

s1: placing printing ink in a drying box 8, placing the drying box 8 below a drying pipe 701 at the top end of an electromagnet plate 702 positioned above, starting an air inlet device 2 and an air exhaust device 5, introducing current into the electromagnet plate 702, allowing air to enter a strip-shaped opening and a second strip-shaped opening under the action of the air exhaust device 5, blowing a rotating fan blade 605 to rotate by air flow so as to drive a spiral filter pipe 602 to rotate through a rotating block 603, and enabling a thin and soft brush between the spiral filter pipes 602 to continuously rub to generate static electricity, and when air dust enters the strip-shaped opening, adsorbing and filtering dust in the air by the thin and soft brush arranged on the spiral filter pipe 602 and the static electricity on the thin and soft brush;

s2: when the ink is dried, current is intermittently introduced to the elastic spring tube 604 between the rotating blocks 603, the elastic spring tube 604 forms an electrified spiral coil, the elastic spring tube 604 contracts under the action of mutual attraction force between the currents to enable part of the spiral filter tubes 602 to be crossed, the spiral filter tubes 602 rotate to reduce gaps between the thin and soft brushes on the spiral filter tubes 602, friction force between the thin and soft brushes is increased to clean dust on the thin and soft brushes, the air flow speed changing block entering the second strip-shaped opening is enabled to be changed under the action of the arc-shaped convex block 601, flow speed difference is formed between the strip-shaped opening and the second strip-shaped opening, negative pressure is formed at the oval-shaped opening, the dust cleaned from the thin and soft brushes is sucked into the spiral filter tubes 602 through the dust suction port, the connecting ball 608 is blown when the air flow passes through the second strip-shaped opening, the connecting ball 608 is enabled to continuously stretch and swing under the action of the wave spoiler 609 and the limiting spring tube 607, the built-in elastic wave rod 606 is driven to stretch and contract continuously, so that static electricity is generated by friction between the thin soft brush on the built-in elastic wave rod 606 and the thin soft brush in the inner wall of the spiral filter pipe 602 to adsorb dust entering the spiral filter pipe 602, the dust adsorbed outside the spiral filter pipe 602 is prevented from entering the case 1 or being discharged outside through the air outlet box 4 to be adsorbed in the air inlet box 3 again, airflow enters the spiral filter pipe 602 through the dust suction port to continuously impact the turbulence block 610, the spiral filter pipe 602 is continuously shaken, the dust filtering effect in the air is enhanced, and meanwhile, the dust on the outer side of the spiral filter pipe 602 can be cleaned conveniently;

s3: the air flow enters the drying pipe 701 through the air inlet box 3 in the part arranged in the machine case 1, the air flow on the surface of the ink is accelerated through the air outlet on the drying pipe 701 to dry the ink in the drying box 8 at low temperature, when the air flow in the drying pipe 701 enters between the electromagnetic plates 702, the air flow between the electromagnetic plates 702 is accelerated under the action of the air extractor 5, the air flow impacts the supporting springs 703, the air baffle 707 deflects to one side to collide with the adjacent supporting springs 703 when the air flow impacts the collision ball 706 and the air baffle 707, the direction of the current introduced into the electromagnetic connecting rod 705 is changed when the collision ball 706 deflects, the magnetic poles of the electromagnetic connecting rod 705 and the side of the sliding magnetic air baffle 709 far away from the collision ball 706 are the same, and the length of the side of the sliding magnetic air baffle 709 far away from the collision ball 706 is lengthened, the impact area of the airflow on the sliding magnetic air baffle 709 is increased, the collision ball 706 deflects to the other side under the action of the airflow and the connecting spring 704 to collide with the supporting spring 703, the supporting spring 703 continuously shakes to drive the electromagnet plate 702 to shake, the supporting spring 703 is blown by the airflow, and the shaking effect of the supporting spring 703 is enhanced to promote the discharge of bubbles in the ink.

When in use, the produced ink is placed in the drying box 8, the drying box 8 is placed below the drying pipe 701 at the top end of the upper electromagnet plate 702, the air inlet device 2 and the air exhaust device 5 are simultaneously started, current is introduced into the electromagnet plate 702, external air enters the case 1 through the air inlet device 2 and the air inlet box 3, when the air enters the strip-shaped opening and the second strip-shaped opening under the action of the air exhaust device 5, the air flow blows the rotating fan blades 605 to rotate, so that the rotating block 603 drives the spiral filter pipe 602 to rotate, the continuous friction between the fine soft brushes among the spiral filter pipes 602 is caused, static electricity is generated among the fine soft brushes, when air flow dust enters the strip-shaped opening, the dust in the air is adsorbed and filtered by the fine soft brush arranged on the spiral filter pipe 602 and the static electricity on the fine soft brushes, and the dust is prevented from entering the case 1 and falling on the surface of the ink, when the ink is dried, current is intermittently introduced to the elastic spring tube 604 between the rotating blocks 603, so that the elastic spring tube 604 forms an electrified spiral coil, the elastic spring tube 604 is contracted under the action of the mutual attraction force between the currents, part of the spiral filter tube 602 is crossed, the gap between the thin and soft brushes on the spiral filter tube 602 is reduced along with the rotation of the spiral filter tube 602, the friction force between the thin and soft brushes is increased to clean the dust on the thin and soft brushes, the dust is prevented from being excessively accumulated on the thin and soft brushes to influence the ventilation effect of the strip-shaped openings, the drying efficiency of the ink is influenced, one side of the second strip-shaped opening, which is far away from the air suction device 5, is inwards gradually reduced under the action of the arc-shaped convex block 601, the air flow velocity entering the second strip-shaped opening is changed, and the flow velocity difference is formed between the strip-shaped opening and the second strip-shaped opening to form negative pressure at the oval-shaped opening, so that the dust cleaned on the thin and soft brushes passes through the spiral filter tube 602 The dust suction port sucks dust into the spiral filter pipe 602, the connecting ball 608 is blown when the air flow passes through the second strip-shaped opening, the connecting ball 608 is continuously stretched and swung under the action of the wave spoiler 609 and the limiting spring tube 607, so that the built-in elastic wave rod 606 is driven to be continuously stretched and contracted to enable the thin soft brush on the built-in elastic wave rod 606 to be rubbed with the thin soft brush on the inner wall of the spiral filter pipe 602, the thin soft brush on the inner wall of the spiral filter pipe 602 and the thin soft brush on the built-in elastic wave rod 606 generate static electricity to adsorb the dust entering the spiral filter pipe 602, the dust adsorbed outside the spiral filter pipe 602 is prevented from entering the case 1 or is discharged outside through the air outlet box 4 to be adsorbed into the air inlet box 3 again, the probability of the dust entering the case 1 is increased, and the dust falls on the surface of the ink when the ink is dried, and when the airflow enters the spiral filter pipe 602 through the dust suction port, the airflow continuously impacts the spoiler 610, so that the spiral filter pipe 602 continuously shakes, thereby enhancing the dust filtering effect on the air and simultaneously facilitating the cleaning of the dust on the outer side of the spiral filter pipe 602.

When air flow enters the drying pipe 701 through the part of the air inlet box 3 arranged in the case 1, the air outlet of the drying pipe 701 positioned on the drying box 88 is used for accelerating the flow velocity of air on the surface of the ink to dry the ink in the drying box 8 at low temperature, the expansion of low-boiling-point foaming particles in the ink is prevented from influencing the printing effect of braille, when the air flow in the drying pipe 701 enters the space between the electromagnet plates 702, the flow velocity of the air between the electromagnet plates 702 is accelerated under the action of the air suction device 5, the air flow impacts the supporting spring 703, when the air flow impacts the collision ball 706 and the air baffle 707, the air baffle 707 deflects to one side and collides with the adjacent supporting spring, when the collision ball 706 deflects, the direction of the current introduced into the electromagnetic connecting rod 705 is changed, so that the magnetic poles between the electromagnetic connecting rod 705 and the side of the sliding magnetic air baffle 709 far away from the collision ball 706 are the same, therefore, the length of one side, far away from the deflection of the collision ball 706, of the sliding magnetic air baffle 709 is lengthened, the impact area of the airflow on the sliding magnetic air baffle 709 is increased, the collision ball 706 deflects to the other side under the action of the airflow and the connecting spring 704 to impact the supporting spring 703, the supporting spring 703 continuously shakes to drive the electromagnetic steel plate 702 to shake, the supporting spring 703 is matched with the airflow to blow the supporting spring 703, the shaking effect of the supporting spring 703 is enhanced, the ink in the drying box 8 shakes, the bubbles in the ink are promoted to be discharged, a large number of bubbles in the ink in the drying box 8 are prevented, the requirement after the ink is dried is not met, and the bubbles on a printed matter are caused to influence the printing effect when the ink is printed subsequently.

Claims

1. The utility model provides an automatic drying device is made to braille printing ink, includes quick-witted case (1), air inlet unit (2), air inlet box (3), air outlet box (4), air exhaust device (5), dustproof mechanism (6), bubble removing mechanism (7), stoving case (8), its characterized in that: the air inlet device is characterized in that the top end of the case (1) is close to the right side fixedly connected with air inlet device (2), the right side fixedly connected with air inlet box (3) of the air inlet device (2), the left side fixedly connected with air outlet box (4) of the air inlet device (2), the right side of the case (1) is close to the bottom fixedly connected with air exhaust device (5), the air inlet box (3) is internally and uniformly and fixedly connected with a dustproof mechanism (6), the bottom end fixedly connected with bubble removing mechanism (7) in the case (1), and the middle part of the bubble removing mechanism (7) is provided with a drying box (8).

2. The automatic drying device for manufacturing braille printing ink according to claim 1, characterized in that: the air inlet box (3) right side has evenly seted up the bar air inlet, and the second bar air inlet has been seted up to the bar air inlet left and right sides, and the second bar air inlet passes air inlet unit (2) and goes out gas tank (4) fixed connection, and the one end that air inlet box (3) was kept away from to the bar opening passes air inlet unit (2) bottom and arranges in quick-witted case (1), and the slope of the other end of bar open-ended sets up in quick-witted case (1).

3. The automatic drying device for manufacturing braille printing ink according to claim 1, characterized in that: the bubble removing mechanism (7) comprises an arc-shaped convex block (601) which is provided with a strip-shaped opening and is far away from the top end and the bottom end of one side of the air inlet device (2), and spiral filter tube (602) of setting at strip opening upper half section and lower half section, spiral filter tube (602) both ends fixedly connected with turning block (603), inner wall and the inner wall rotation between strip opening and the second strip opening that turning block (603) pass between strip opening and the second strip opening are connected, it is connected to rotate between turning block (603) elasticity spring pipe (604), spiral filter tube (602) top that is located the top and spiral filter tube (602) bottom fixedly connected with elasticity spring pipe (604) that is located the below, elasticity spring pipe (604) other end and air inlet box (3) fixed connection, turning block (603) are close to second strip open-ended one side fixedly connected with and rotate flabellum (605).

4. The automatic drying device for manufacturing braille printing ink according to claim 1, characterized in that: bubble removing mechanism (7) are still including setting up built-in elasticity wave pole (606) in spiral filter tube (602), built-in elasticity wave pole (606) are close to bar open-ended one end and pass turning block (603) fixedly connected with spacing spring pipe (607), spacing spring pipe (607) other end fixedly connected with connecting ball (608), connect even fixedly connected with wave spoiler (609) in ball (608) outside, even fixedly connected with spoiler (610) on spiral filter tube (602) inner wall, the one end that spiral filter tube (602) was arranged in to built-in elasticity wave pole (606) middle part fixedly connected with fixed block (611) in built-in elasticity wave pole (606), fixed block (611) and built-in elasticity wave pole (606) inner wall fixed connection.

5. The automatic drying device for manufacturing braille printing ink according to claim 3, characterized in that: the surface and the inner wall of the spiral filter pipe (602) are both provided with thin soft brushes, the part between the thin soft brushes is provided with an air inlet round mouth, the part of the built-in elastic wave rod (606) arranged in the spiral filter pipe (602) is wavy, the surface of the built-in elastic wave rod (606) is provided with the thin soft brushes, the connecting ball (608) is hollow, the surface of the connecting ball is uniformly provided with the round mouths, the spiral filter pipes (602) positioned on the upper half section and the lower half section of the strip-shaped opening are staggered with each other, the inner wall of one side of the second strip-shaped opening close to the strip-shaped opening is provided with a strip-shaped sliding mouth, the rotating block (603) can slide up and down in the inner wall between the strip-shaped opening and the second strip-shaped opening, the surface of the spiral filter pipe (602) is uniformly provided with a dust suction mouth, the joint of the spiral filter pipe (602) and the rotating block (603) is provided with an oval opening, the built-in elastic wave rod (606) passes through the oval opening, and the built-in elastic wave rod (606) passes through a limit spring pipe (607) to be fixedly connected with the connecting ball (607), the built-in elastic wave rod (606) is connected with the limit spring pipe (607) in a sliding way.

6. The automatic drying device for manufacturing braille printing ink according to claim 1, characterized in that: the bubble removing mechanism (7) comprises a drying pipe (701) fixedly connected with the left side of one end of an air inlet box (3) arranged in a case (1), and an electromagnet plate (702) fixedly connected with the bottom end of the case (1), wherein the electromagnet plate (702) is also arranged above the electromagnet plate (702), the top end of the electromagnet plate (702) positioned above the drying pipe is provided with a drying box (8), supporting springs (703) are uniformly and fixedly connected among the electromagnet plates (702), connecting springs (704) are uniformly and fixedly connected on the outer sides of the supporting springs (703), an electromagnetic connecting rod (705) is fixedly connected with the other end of each connecting spring (704), a collision ball (706) is fixedly connected with the other end of each electromagnetic connecting rod (705), gas baffle plates (707) are fixedly connected with the two sides of the collision ball (706), second connecting springs (708) are fixedly connected with the two sides of the electromagnetic connecting rods (705), and a sliding magnetic gas baffle plate (709) is fixedly connected with the outer side of each second connecting spring (708), the sliding magnetic air baffle plate (709) is connected with the electromagnetic connecting rod (705) in a sliding mode through a second connecting spring (708).

7. The automatic drying device for manufacturing braille printing ink according to claim 6, characterized in that: the air drying device is characterized in that a connecting spring (704) is not arranged on a supporting spring (703) adjacent to the supporting spring (703) between the electromagnet plates (702), the left end between the bottom end of the drying tube (701) and the electromagnet plates (702) is aligned, an air guide tube hose is arranged at the right end between the electromagnet plates (702), the air guide hose penetrates through the case (1) and is fixedly connected with the air inlet end of the air suction device (5), an air outlet is formed in the part, located above the drying box (8), of the drying tube (701), and the magnetic poles of the electromagnet plates (702) are the same.

8. The use method of the automatic drying device for manufacturing the Braille printing ink is characterized in that: comprises the following steps of (a) carrying out,

s1: placing printing ink in a drying box (8), placing the drying box (8) below a drying pipe (701) at the top end of an electromagnet plate (702) positioned above, starting an air inlet device (2) and an air exhaust device (5), introducing current into the electromagnet plate (702), allowing air to enter a strip-shaped opening and a second strip-shaped opening under the action of the air exhaust device (5) and blowing air flow to rotate a rotating fan blade (605) so as to drive a spiral filter pipe (602) to rotate through a rotating block (603), and enabling a fine soft brush between the spiral filter pipes (602) to continuously rub to generate static electricity, and when air flow dust enters the strip-shaped opening, adsorbing and filtering dust in the air by the fine soft brush arranged on the spiral filter pipe (602) and the static electricity on the fine soft brush;

s2: when the ink is dried, current is intermittently introduced into an elastic spring tube (604) between rotating blocks (603), the elastic spring tube (604) forms an electrified spiral coil, under the action of mutual attraction force between the currents, the elastic spring tube (604) shrinks to enable parts of the spiral filter tube (602) to be crossed together, the spiral filter tube (602) rotates to reduce a gap between thin and soft brushes on the spiral filter tube (602), friction force between the thin and soft brushes is increased to clean dust on the thin and soft brushes, under the action of an arc-shaped bump (601), an air flow entering a second strip-shaped opening is changed into a block at a speed, so that a flow speed difference is formed between the strip-shaped opening and the second strip-shaped opening, negative pressure is formed at the oval-shaped opening to enable the dust cleaned from the thin and soft brushes to be sucked into the spiral filter tube (602) through a dust suction port, and when the air flow passes through the second strip-shaped opening, a connecting ball (608) is blown, under the action of the wave spoiler (609) and the limiting spring tube (607), the connecting ball (608) is continuously stretched and thrown to drive the built-in elastic wave rod (606) to be continuously stretched and contracted so that static electricity is generated by friction between the thin soft brush on the built-in elastic wave rod (606) and the thin soft brush on the inner wall of the spiral filter tube (602) to adsorb dust entering the spiral filter tube (602), the dust adsorbed outside the spiral filter tube (602) is prevented from entering the machine case (1) or being discharged outside through the air outlet box (4) and being adsorbed in the air inlet box (3) again, airflow enters the spiral filter pipe (602) through the dust suction port and continuously impacts the turbulence block (610), so that the spiral filter pipe (602) is continuously shaken, the dust filtering effect in air is enhanced, and meanwhile, dust on the outer side of the spiral filter pipe (602) can be conveniently cleaned;

s3: airflow enters the drying pipe (701) through the part of the air inlet box (3) arranged in the case (1), the flow velocity of the air on the surface of the ink is accelerated through the air outlet on the drying pipe (701) to dry the ink in the drying box (8) at low temperature, when the airflow in the drying pipe (701) enters between the electromagnet plates (702), the flow velocity of the air between the electromagnet plates (702) is accelerated under the action of the air exhaust device (5), the airflow impacts the support springs (703), the air baffle plate (707) deflects to one side to collide with the adjacent support springs (703) when the airflow impacts the collision ball (706) and the air baffle plate (707), the direction of the current introduced into the electromagnetic connecting rod (705) is changed when the collision ball (706) deflects, and the magnetic poles of the electromagnetic connecting rod (705) and the side of the sliding magnetic air baffle plate (709) far away from the collision ball (706) are the same, the length of one side, far away from the deflection side of the collision ball (706), of the sliding magnetic air baffle plate (709) is lengthened, the impact area of airflow on the sliding magnetic air baffle plate (709) is increased, the collision ball (706) deflects to the other side under the action of the airflow and the connecting spring (704) to impact the supporting spring (703), the supporting spring (703) is continuously shaken to drive the electromagnet plate (702) to shake, the supporting spring (703) is blown by matching with the airflow, the shaking effect of the supporting spring (703) is enhanced, and air bubbles in ink are discharged.