Printed product drying device
Technical Field
The invention relates to the technical field of printing, in particular to a printed product drying device.
Background
The printing products are often used in daily life and some industrial products, many of the printing products are printed by using printing ink, the printing ink contains moisture, and if the printing ink is waiting for the printing ink to be naturally dried, a long time is needed, so that the printing period is prolonged, the efficiency is reduced, and a corresponding device for accelerating the drying of the printing product ink is needed.
According to chinese patent CN206644450U, through set up heat pump, cooling tube and pressure material pole in preceding box and the back box respectively, the printed matter that will treat the stoving compresses tightly through pressing the material pole and dries all around, can ensure that the fold can not appear and impaired at the in-process of drying in the printed matter to the back box can be covered tightly in the front on the box, makes the box sealed, and sets up thermal insulation material in preceding box and the back box, can make the temperature in the box can not run off, the increasing of thermal efficiency. In the using process, the printed dye continuously permeates and drips under the influence of the self weight to influence the periphery of a printed product, so that the printed product per se permeates and diffuses, the product quality is influenced, and the surrounding environment is polluted.
The existing drying device for the printed products has the defects that in the using process, the printed dye continuously permeates and drips under the influence of self weight to influence the periphery of the printed products, so that the self permeation and diffusion of the printed products are caused, the product quality is influenced, and the surrounding environment is polluted.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a printed product drying device, which solves the problems that in the use process of the conventional printed product drying device, printed dyes are continuously permeated and dripped due to the influence of the self weight of the printed dyes, the periphery of the printed product is influenced, the printed product is permeated and diffused, the product quality is influenced, and the surrounding environment is polluted.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a printed matter drying device, includes the seat boxboard, seat boxboard top fixedly connected with division board, the air current hole has been seted up to division board top intermediate position, the division board top is located air current hole outside swing joint and has heating mechanism, lower position swing joint has the reposition of redundant personnel frame plate in the heating mechanism internal surface, reposition of redundant personnel frame plate top swing joint has the air current fan, the division board top is located heating mechanism outside swing joint and has the transportation roller, the division board top is located the heating mechanism outside and is located and offers wind hole groove between the transportation roller, one side swing joint that heating mechanism was kept away from to the division board top is located wind hole groove has the seal box, the discrepancy chamber door has been seted up to seal box surface left side. Through placing printed matter perpendicularly, utilize the air current constantly to blow upwards, the windage that the wind blown produced produces the self weight whereabouts of printing dyestuff and produces the suppression, avoids the dyestuff of printing to peripheral infiltration or drippage, reduces its destruction to self product quality, ensures the safety of surrounding environment.
Preferably, the heating mechanism comprises an inner partition cylinder, the bottom of the outer surface of the inner partition cylinder is fixedly connected with a repulsion electromagnet, the middle upper position of the outer surface of the inner partition cylinder is movably connected with a power generation mechanism, the top of the inner partition cylinder is movably connected with a pneumatic mechanism, and the outer surface of the pneumatic mechanism is movably connected with a heating ring column.
Preferably, the inner partition cylinder and the bottom of the heating ring column are fixedly connected with the partition plate, the outer surface of the power generation mechanism is movably connected with the inner partition cylinder, the outer surface of the power generation mechanism is movably connected with the heating ring column, and the top of the power generation mechanism is movably connected with the pneumatic mechanism. Through permeating the intensification with the heat from the printing back, outwards heaies up the stoving with bottom dyestuff successive layer, gives off moisture from inside to outside, avoids inside dyestuff to restrain because of the air current can't carry out the windage and produces the infiltration phenomenon, ensures the restriction to the dyestuff scope, guarantees the accuracy nature of printing the pattern.
Preferably, power generation mechanism includes arc magnet, arc magnet both sides swing joint has spacing arc board, arc magnet top intermediate position swing joint has the diving board of buckling, one side swing joint that arc magnet was kept away from to the diving board of buckling has the protection ball, one side swing joint that the diving board of buckling was kept away from to the protection ball has spacing end plate, one side swing joint that protection ball was kept away from to spacing end plate has the electricity generation to fold the piece.
Preferably, the outer surface of the limiting arc plate is movably connected with the inner partition cylinder and the heating ring column, the top of the power generation stacking block is movably connected with the pneumatic mechanism, and two sides of the limiting end plate are movably connected with the limiting arc plate. The power generation and energy supply are carried out through continuous friction on the surface of the power generation stacking block, the magnetic force is utilized to carry out mutual support of internal components, the power generation stacking block and the air mechanism are ensured to be in full contact with each other, the sufficiency of energy supply is ensured, the elasticity of the bent elastic plate is used for avoiding mutual suppression of the internal components caused by overlarge extrusion force between the power generation stacking block and the air mechanism, and the smooth operation of the internal components is ensured.
Preferably, the pneumatic mechanism comprises a pneumatic rotating plate, an air hole is formed in the middle of the top of the pneumatic rotating plate, a pneumatic groove is movably connected to the top of the pneumatic rotating plate, which is located on the outer side of the air hole, an auxiliary rotating plate is movably connected to the bottom of the outer surface of the pneumatic rotating plate, and a friction ball is movably connected to the bottom of the auxiliary rotating plate.
Preferably, the outer surface of the friction ball is movably connected with the power generation mechanism, and the bottom of the auxiliary plate is movably connected with the inner partition cylinder. The air flow is utilized to provide internal initial kinetic energy, the ball design of the friction ball is used for reducing the contact area between the components, the friction force is restrained to the air flow power while the friction effect is ensured, the air resistance of the air flow is ensured, the air flow is filtered, and the influence of air dust on the surface of a printed matter is reduced.
Preferably, the heating ring column comprises a ring column main body, a through groove is formed in the middle of the ring column main body, a heat conducting plate is movably connected to one side, close to the transportation roller, of the ring column main body, the inner surface of the through groove, an I-shaped frame plate is movably connected to one side, far away from the transportation roller, of the heat conducting plate, and a heating coil is movably connected to the outer surface of the I-shaped frame plate.
Preferably, one side of the I-shaped frame plate, which is far away from the heat conducting plate, is movably connected with the power generation mechanism, and one side of the heat conducting plate, which is far away from the heating coil, is movably connected with the transportation roller. Carry out high-frequency heating through the coil of spiral, to the regulation of heat conduction plate temperature high efficiency more, the component self can carry out the regulation of temperature variation speed according to the size of electric current, reduces the stoving time of printed matter self, and the infiltration time of bottom printing dyestuff, the off-the-shelf quality of printing of promotion have been reduced to the quick rising of temperature.
Preferably, the bottom of the air flow hole is communicated with the seat box plate, the bottom of the air hole groove is communicated with the seat box plate, the outer surface of the air flow fan is movably connected with the heating mechanism, and the outer surface of the transportation roller is movably connected with the heating mechanism.
(III) advantageous effects
The invention provides a printed product drying device. The method has the following beneficial effects:
the printed product drying device vertically places the printed product, utilizes air flow to continuously blow upwards, and wind resistance generated by wind blowing inhibits the self weight of the printed dye from falling, so that the printed dye is prevented from permeating or dripping to the periphery, the damage to the quality of the printed dye is reduced, and the safety of the peripheral environment is ensured.
(two), this printed matter drying device, through permeating the intensification with the heat from the printing back, outwards heaies up the stoving with bottom dyestuff successive layer, gives off moisture from inside to outside, avoids inside dyestuff to produce the infiltration phenomenon because of the unable windage suppression that carries on of air current, ensures the accuracy nature to the dyestuff scope, guarantees the printing pattern.
The printed product drying device generates electricity and supplies energy through continuous friction on the surface of the electricity generation stacking block, mutual supporting of internal components is carried out by utilizing magnetic force, the electricity generation stacking block and the air mechanism are ensured to be in full contact with each other, the sufficiency of energy supply is ensured, the elasticity of the bent elastic plate avoids mutual suppression of the internal components caused by overlarge extrusion force between the electricity generation stacking block and the air mechanism, and smooth operation of the internal components is ensured.
The printed matter drying device provides internal initial kinetic energy by utilizing the air flow, the ball design of the friction ball is designed to reduce the contact area between the components, the friction force is restrained to the air flow power while the friction effect is ensured, the air resistance of the air flow is ensured, and meanwhile, the air flow is filtered, so that the influence of air dust on the surface of the printed matter is reduced.
(five), this printed matter drying device carries out high-frequency heating through the coil of spiral, and to the regulation high efficiency fast more of heat conduction plate temperature, the component self can carry out the regulation of temperature variation speed according to the size of electric current, reduces the stoving time of printed matter self, and the rapid rise of temperature has reduced the infiltration time of bottom printing dyestuff, the off-the-shelf quality of printing of promotion.
Drawings
FIG. 1 is a schematic structural view of the present invention as a whole;
FIG. 2 is a schematic structural diagram of a warming mechanism according to the present invention;
FIG. 3 is a schematic structural diagram of the power generation mechanism of the present invention;
FIG. 4 is a schematic view of the pneumatic mechanism of the present invention;
FIG. 5 is a schematic view of the structure of a heating ring column according to the present invention;
in the figure: 1 box plate, 2 partition plates, 3 airflow holes, 4 heating mechanisms, 41 inner partition cylinders, 42 repulsion electromagnets, 43 power generation mechanisms, 431 arc magnets, 432 limit arc plates, 433 bending elastic plates, 434 protection balls, 435 limit end plates, 436 power generation stacking blocks, 44 pneumatic mechanisms, 441 pneumatic rotating plates, 442 air holes, 443 pneumatic grooves, 444 auxiliary plates, 445 friction balls, 45 heating ring columns, 451 ring column main bodies, 452 through grooves, 453 heat conduction plates, 454I-shaped frame plates, 455 heating coils, 5 shunt frame plates, 6 airflow fans, 7 transport rollers, 8 air hole grooves, 9 closed boxes, 10 in-out box doors.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a printed matter drying device, including seat boxboard 1, 1 top fixedly connected with division board 2 of seat boxboard, airflow hole 3 has been seted up to 2 top intermediate positions of division board, 2 tops of division board are located 3 outside swing joint in airflow hole and have heating mechanism 4, lower position swing joint has reposition of redundant personnel frame plate 5 in the 4 internal surfaces of heating mechanism, reposition of redundant personnel frame plate 5 top swing joint has air current fan 6, 2 tops of division board are located heating mechanism 4 outside swing joint has transportation roller 7, 2 tops of division board are located the heating mechanism 4 outside and are located and offer wind hole groove 8 between the transportation roller 7, 2 tops of division board are located wind hole groove 8 and keep away from one side swing joint of heating mechanism 4 and have seal box 9, the door 10 that comingles and exits has been seted.
The heating mechanism 4 comprises an inner partition cylinder 41, the bottom of the outer surface of the inner partition cylinder 41 is fixedly connected with a repulsion electromagnet 42, the middle upper position of the outer surface of the inner partition cylinder 41 is movably connected with a power generation mechanism 43, the top of the inner partition cylinder 41 is movably connected with a pneumatic mechanism 44, and the outer surface of the pneumatic mechanism 44 is movably connected with a heating ring column 45.
The bottoms of the inner partition cylinder 41 and the heating ring column 45 are fixedly connected with the partition plate 2, the outer surface of the power generation mechanism 43 is movably connected with the inner partition cylinder 41, the outer surface of the power generation mechanism 43 is movably connected with the heating ring column 45, and the top of the power generation mechanism 43 is movably connected with the pneumatic mechanism 44.
The power generation mechanism 43 comprises an arc magnet 431, wherein two sides of the arc magnet 431 are movably connected with a limiting arc plate 432, the middle position of the top of the arc magnet 431 is movably connected with a bending elastic plate 433, one side of the bending elastic plate 433, which is far away from the arc magnet 431, is movably connected with a protection ball 434, one side of the protection ball 434, which is far away from the bending elastic plate 433, is movably connected with a limiting end plate 435, and one side of the limiting end plate 435, which is far away from the protection ball 434, is movably connected with a power.
The outer surface of the limiting arc plate 432 is movably connected with the inner partition cylinder 41 and the heating ring column 45, the top of the power generation stacking block 436 is movably connected with the pneumatic mechanism 44, and two sides of the limiting end plate 435 are movably connected with the limiting arc plate 432.
The pneumatic mechanism 44 comprises a pneumatic rotating plate 441, an air hole 442 is formed in the middle of the top of the pneumatic rotating plate 441, a pneumatic groove 443 is movably connected to the top of the pneumatic rotating plate 441 and positioned outside the air hole 442, an auxiliary moving plate 444 is movably connected to the bottom of the outer surface of the pneumatic rotating plate 441, and a friction ball 445 is movably connected to the bottom of the auxiliary moving plate 444.
The outer surface of the friction ball 445 is movably connected with the power generation mechanism 43, and the bottom of the auxiliary plate 444 is movably connected with the inner partition cylinder 41.
The heating ring column 45 comprises a ring column main body 451, a through groove 452 is formed in the middle of the ring column main body 451, a heat conducting plate 453 is movably connected to one side, close to the transportation roller 7, of the inner surface of the through groove 452 of the ring column main body 451, an I-shaped frame plate 454 is movably connected to one side, far away from the transportation roller 7, of the heat conducting plate 453, and a heating coil 455 is movably connected to the outer surface of the I-shaped frame plate 454.
The side of the I-shaped frame plate 454 far away from the heat conducting plate 453 is movably connected with the power generation mechanism 43, and the side of the heat conducting plate 453 far away from the heating coil 455 is movably connected with the transportation roller 7.
The bottom of the airflow hole 3 is communicated with the seat box plate 1, the bottom of the air hole groove 8 is communicated with the seat box plate 1, the outer surface of the airflow fan 6 is movably connected with the warming mechanism 4, and the outer surface of the transportation roller 7 is movably connected with the warming mechanism 4.
When the box is used, printed matters are placed through the in-out box door 10 and are vertically placed, the printing position faces the closed box 9, the air flow fan 6 and the transport roller 7 are started, air is pumped into the box through the pneumatic mechanism 44 and then is conveyed to the box base plate 1, then the air is guided by the air hole groove 8 and then is blown to the printed matters from bottom to top, the generated wind resistance inhibits the falling of the self weight of the printing dye, the printed dye is prevented from permeating or dropping to the periphery, and the rotation of the transport roller 7 changes and conveys the position of the printed matters;
air is sucked in through the air holes 442 and the pneumatic grooves 443 to filter air flow, so that the influence of air dust on the surface of a printed matter is reduced, the air generates impact force on the pneumatic grooves 443 to enable the pneumatic rotating plate 441 to rotate, the auxiliary rotating plate 444 and the friction balls 445 are driven to perform circulation movement, internal initial kinetic energy is provided, the balls of the friction balls are designed to reduce the contact area between the components, the friction effect is ensured, and meanwhile, the inhibition of friction force on the air flow power is reduced;
the friction ball 445 performs a revolving motion to generate friction on the power generation stacking block 436, so that the power generation stacking block 436 generates current, the current is continuously transmitted to the interior of the heating ring column 45 and is transmitted to the repulsion electromagnet 42, the magnetic force is used for mutual support of internal components, the power generation stacking block and the air mechanism are ensured to be in full contact with each other, and the sufficiency of energy supply is ensured;
the heating ring column 45 heats the I-shaped frame plate 454 at high frequency through the heating coil 455 due to the inflow of current, transfers the temperature through the heat conducting plate 453, heats and dries the back of the printed surface of the printed matter, heats and dries the bottom layer dye layer by layer outwards, and disperses the moisture from inside to outside, thereby avoiding the phenomenon that the internal dye generates permeation due to the failure of wind resistance inhibition by air flow, and can adjust the temperature change speed according to the magnitude of the current, and reduce the drying time of the printed matter;
until the printed matter is dried, the printed matter is taken out from the in-out box door 10.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.