CN108662861B

CN108662861B - Adsorption swing type hot air guiding circulation dryer for rectangular printing paper

Info

Publication number: CN108662861B
Application number: CN201810709111.8A
Authority: CN
Inventors: 李合孝
Original assignee: Zhejiang Ute Bearing Co ltd
Current assignee: Zhejiang Ute Bearing Co ltd
Priority date: 2018-07-02
Filing date: 2018-07-02
Publication date: 2023-10-27
Anticipated expiration: 2038-07-02
Also published as: CN108662861A

Abstract

The invention provides a hot air guiding circulation dryer for adsorbing swing type rectangular printing paper, which comprises an arc-shaped machine case and a printing paper body, wherein the inner top wall of the arc-shaped machine case is arc-shaped, an inner bottomless shell is welded on the inner wall of the arc-shaped machine case, a roller adsorbing and paper arranging mechanism is arranged on the inner bottomless shell in a penetrating manner, an induced air paper shaking supporting mechanism is arranged in the inner bottomless shell in the box, a bearing is welded on the inner wall of the arc-shaped machine case, and a bottom rotating shaft is welded on the inner ring of the bearing, so that the dryer relates to the field of papermaking. This adsorb hot-blast guide circulation drying-machine for swing rectangle printing paper is through setting up the arc and warp the paper, and the arc is warp the paper and can make the varifocal perk of paper, makes things convenient for hot-blast slope perk paper hole of following the slope to blow to each layer of paper for the paper can be at the inside swing of arc perk paper, makes things convenient for each layer of paper evenly to be heated, thereby effectually solved general drying-machine inconvenient along with the adjustment drying mode of paper stoving degree, not only the power consumption is big and long-time problem of consuming.

Description

Adsorption swing type hot air guiding circulation dryer for rectangular printing paper

Technical Field

The invention relates to the technical field of papermaking, in particular to a hot air guiding circulation dryer for adsorption swing type rectangular printing paper.

Background

Printing paper is a common name of paper for various printed matters, the paper pulp is molded into paper shape in the processing process of the paper, then the paper is dried, the most original method is natural drying, and along with the development of mechanization, the paper is dried mechanically.

The drying device that adopts at present mainly puts the paper on a cardboard that supports, then dry the paper through the wind of heating, this though can reach the effect of drying, but the time of drying is necessarily very long, mainly because the paper is inconvenient to adjust in the stoving state, can only process to certain time under the effect of hot-blast, then take out, tiling paper in the processing machinery, the number of layers of paper is less, need bigger area and bigger power to dry, not only area reaches, and the energy consumption is high, but if otherwise, the number of layers of paper shop is thicker, the uneven stoving appears easily, lead to the stoving time longer, general drying-machine inconvenient along with the adjustment of paper stoving degree is not only consume energy big and long, so a hot-blast direction circulation drying machine for adsorption swing formula rectangle printing paper is required.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the hot air guide circulation dryer for the adsorption swing type rectangular printing paper, which solves the problems that the common dryer is inconvenient to adjust the drying mode along with the drying degree of the paper, and has high energy consumption and long time consumption.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an adsorb hot air direction circulation drying-machine for swing rectangle printing paper, including arc machine case and printing paper body, the interior roof of arc machine case is the arc form, the inner wall welding of arc machine case has the no end casing in the case, it adsorbs the pendulum paper mechanism to run through being provided with the cylinder on the no end casing in the case, the inside of no end casing in the case is provided with induced air and trembles paper supporting mechanism, the inner wall welding of arc machine case has the bearing, the inner circle welding of bearing has the bottom pivot, the surface welding of bottom pivot has the supporting disk, the surface welding of supporting disk has the pneumatic cylinder, the inner wall sliding connection of pneumatic cylinder has the hydraulic plug, the surface welding of hydraulic plug has the hydraulic stem, the surface welding of hydraulic stem has L shape balancing pole, the welding of the interior roof of arc machine case has electric heating pipe, electric heating pipe's inner wall is provided with the electric heater strip, the fixed surface mounting of arc machine case has electric switch, electric switch's input external power supply, electric switch's output and electric connection, the constant head tank has been seted up to the inner wall of arc machine case, the surface sliding connection of supporting disk has the locating lever, the surface and the inner wall grafting of constant head tank, the surface welding of locating lever has the spring, the welding one end of the inner wall of spring and arc supporting disk.

Preferably, the cylinder adsorbs pendulum paper mechanism includes a plurality of hollow pivot, the box body of inhaling, first base and bellows, the surface of no end casing is provided with the bearing in the case, the inner circle of bearing and the surface welding of hollow pivot, the surface welding of no end casing in the surface box of first base, the surface welding of first base has the casing motor, the output shaft of casing motor passes through the one end fixed connection of shaft coupling and hollow pivot, the inside of hollow pivot has seted up the epaxial chamber that induced drafts, four induced drafting grooves have been seted up on the surface of hollow pivot, the contained angle of the internal wall extension line of induced drafting groove of adjacent two hollow pivot surfaces is forty-five degrees, same driving belt has been cup jointed on the surface of all hollow pivots.

Preferably, the inner wall welding of the suction box body has the air pressing plate, and the surface of air pressing plate is concave shape, is provided with the plenum chamber between the surface of air pressing plate and the inner wall of the suction box body, and the suction inlet has been seted up on the surface of the suction box body, and the one end and the plenum chamber intercommunication of suction inlet, the surface of air pressing plate has cup jointed first air collecting pipe, and the surface welding of the suction box body has the paper lug that keeps off, and the surface of paper lug is the arc shape.

Preferably, the inner wall of hollow pivot is provided with the bearing, sealed pad has been cup jointed on the surface of bearing, the inner circle welding of bearing has branch straw, the surface of branch straw has cup jointed horizontal air-collecting pipe, the second air-collecting pipe has been cup jointed on the surface of horizontal air-collecting pipe, the one end and the surface of second air-collecting pipe cup joint of first air-collecting pipe, the surface of bellows and the surface welding of the no end casing in the case, the inner wall welding of bellows has the second base, the surface of second base is provided with the air pump, the air inlet end of air pump cup joints with the one end of second air-collecting pipe, the air-out end cover of air pump has connected the blowing pipe, the one end of blowing pipe runs through and extends to the surface of bellows, the blowing pipe is located electric heating pipe's below.

Preferably, the induced air trembles paper supporting mechanism includes oval backup pad, shell inner panel stack, third base and slope aviation baffle, and the lower surface welding concave balance piece of oval backup pad, the inner wall of concave balance piece peg graft with the surface of L shape balancing pole, and the surface welding of oval backup pad has the arc to stick up the paper body, and the slope is offered on the surface of the arc to stick up the paper hole, and the surface sliding connection of the surface of the arc to stick up the paper body and printing paper has been offered on the surface of oval backup pad face wind groove.

Preferably, the surface of the shell inner plate lap body is welded with the inner wall of the bottomless shell in the box, the surface of the shell inner plate lap body is sleeved with an inclined air guide pipe, one end of the inclined air guide pipe penetrates through and extends to the surface of the bottomless shell in the box, the surface of the shell inner plate lap body is concave, the surface of the shell inner plate lap body is hinged with a movable compression bar, and the movable compression bar is located above the arc-shaped paper raising body.

Preferably, the surface of the third base is welded with the inner wall of the bottomless shell in the box, the surface of the third base is welded with a synchronous motor, an output shaft of the synchronous motor is fixedly connected with a lifting rotating shaft through a coupler, the surface of the lifting rotating shaft is welded with an arc lifting block, the surface of the arc lifting block is arc-shaped, the surface of the arc lifting block is slidably connected with the lower surface of the elliptical support plate, the number of the synchronous motors is two, the two synchronous motors are symmetrically distributed by taking the central line of the surface of the bottomless shell in the box as a symmetrical line, the surface of the inclined air deflector is welded with the inner wall of the arc-shaped machine box, the surface of the inclined air deflector is inclined, and the inclined air deflector is positioned below the inclined air deflector.

Preferably, the surface welding of no bottom casing has the piece of taking paper in the case, and the surface welding of no bottom casing has the hollow cardboard that goes out of slope in the case, and the inner wall sliding connection who goes out the cardboard in the slope is hollow has the control panel, and the one end that goes out the cardboard in the slope runs through and extends to the surface of arc machine case, and the surface welding of arc machine case has the arc to adorn the cardboard, and the arc dress cardboard is located the below that goes out the cardboard in the hollow.

Preferably, the surface of the arc-shaped case is hinged with a case door, the surface of the case door is sleeved with a sealing gasket, a lock catch is fixedly arranged on the surface of the case door, and the surface of the case door is fixedly connected with the surface of the arc-shaped case through the lock catch.

(III) beneficial effects

When the novel paper drying machine is used, firstly, paper is placed on an elliptical support plate, the paper is controlled below a bottomless shell in a box through a hydraulic device, hot air is disordered in an arc-shaped machine box under the action of a roller adsorption paper arranging mechanism, heated hot air dries the paper in advance, after the paper is dried to a certain extent, a support disc is rotated, the support disc drives a hydraulic cylinder to rotate, a hydraulic rod is controlled to rotate together with the hydraulic cylinder, the hydraulic rod drives the elliptical support plate to rotate through an L-shaped balance rod and a concave balance block, then the elliptical support plate is lifted to the inside of a shell inner plate lap through the hydraulic device, then the elliptical support plate is rotated, so that the elliptical support plate is lapped on the shell inner plate lap, and the paper is dried singly and transferred out of the arc-shaped machine box under the action of an induced draft paper shaking supporting mechanism and a roller adsorption paper arranging mechanism, so that the paper is gradually reduced, the drying mode is creatively changed, and the drying effect is improved.

The surface of the arc-shaped machine case and the surface of the arc-shaped ring air block are arranged to be arc-shaped, so that air can circularly flow in the arc-shaped machine case according to a certain flow direction under the guiding action of an arc shape.

According to the invention, the paper adsorption and swing mechanism is arranged, so that the uppermost paper is adsorbed on the paper adsorption and swing mechanism by the suction force generated by the paper adsorption and swing mechanism, and the paper can be comprehensively, fully and quickly dried on one hand and can be transferred out of the arc-shaped machine case on the other hand.

And fourthly, the included angle of the extension lines of the suction grooves on the surfaces of the hollow rotating shafts of the two adjacent hollow rotating shafts is forty five degrees, and the surfaces of all the hollow rotating shafts of the hollow rotating shafts are sleeved with the same transmission belt, so that at least one suction groove on the surface of the hollow rotating shaft is not contacted with paper between the two adjacent hollow rotating shafts, and the wind power is uneven, so that the paper can swing continuously.

According to the invention, by arranging the paper suction box body, on one hand, the structure at the bottom of the paper suction box body can generate denser wind force, so that the paper is conveniently and rapidly sucked in the middle, and on the other hand, the paper blocking convex blocks at the bottom of the paper suction box body can reduce the contact area of the paper, so that the situation that the paper is completely adsorbed on the roller to adsorb the paper arranging mechanism to cause the paper to block the seal is avoided.

And (six) the invention is provided with the inclined hollow paper outlet board, when in use, the control board is pulled out, the paper gradually approaches to the paper stacking block under the action of rotating friction force and wind swing, and the dried paper is transmitted out through the inclined hollow paper outlet board, so that the collection and the transmission of the paper are facilitated.

The surface of the elliptical support plate is in an elliptical shape, so that on one hand, the elliptical support plate can be conveniently lifted from the interior of the bottomless shell in the box easily after rotating, a lifting rotating shaft and a shell inner plate lap body cannot be touched in the lifting process, and on the other hand, the plate surface air groove on the surface of the elliptical support plate can be convenient for wind power to be transmitted from the bottom of the elliptical support plate.

According to the invention, the arc-shaped paper tilting body is arranged, so that the zooming tilting of the paper can be realized, hot air can be conveniently blown to each layer of paper from the inclined paper tilting holes, the paper can swing in the arc-shaped paper tilting body, and each layer of paper can be conveniently and uniformly heated.

According to the invention, the shell inner plate lapping body is arranged, so that on one hand, the shell inner plate lapping body can play a role in supporting the elliptical support plate, on the other hand, the inner wall of the shell inner plate lapping body can block the elliptical support plate to limit the elliptical support plate, and meanwhile, the movable compression bar on the surface of the shell inner plate lapping body can lap on the printing paper body to play a role in pressing paper, so that the paper is prevented from being disordered due to large wind force when approaching the roller to adsorb the paper arranging mechanism.

According to the invention, the arc-shaped lifting block is arranged, the synchronous motor drives the lifting rotating shaft to rotate, the lifting rotating shaft drives the arc-shaped lifting block to rotate, the arc-shaped lifting block drives the elliptical support plate to continuously lift up and down, the concave balance block and the L-shaped balance rod limit the position of the elliptical support plate, and the elliptical support plate can be conveniently and rapidly adsorbed on the roller adsorption paper arranging mechanism in the lifting process, so that the problems that a common dryer is inconvenient to adjust a drying mode along with the drying degree of paper, and the energy consumption is high and long are effectively solved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of a roller suction swing mechanism of the present invention;

FIG. 3 is a side view of the bottomless housing structure in the case of the present invention;

FIG. 4 is a cross-sectional view of the induced draft paper shake supporting mechanism of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4A in accordance with the present invention;

FIG. 6 is a top view of the plate wind trough structure of the present invention;

FIG. 7 is a side cross-sectional view of the arcuate lifting block of the present invention;

fig. 8 is a front view of the door structure of the present invention.

Wherein, the liquid crystal display device comprises a liquid crystal display device, the device comprises a 1 arc-shaped chassis, a 2 printing paper body, a 3-box bottomless shell, a 4-roller adsorption paper swinging mechanism, a 401 hollow rotating shaft, a 402 paper suction box body, a 403 first base, a 404 bellows, a 405 shell motor, a 406-shaft inner air suction cavity, a 407 air suction groove, a 408 driving belt, a 409 air pressing plate, a 4010 air pressing cavity, a 4011 paper suction opening, a 4012 first air collecting pipe, a 4013 paper blocking lug, a 4014 suction pipe, a 4015 transverse air collecting pipe, a 4016 second air collecting pipe, a 4017 second base, a 4018 air pump, a 4019 air blowing pipe, a 5-induced air paper shaking supporting mechanism, a 501 elliptic supporting plate, a 502 shell inner plate, a 503 third base, a 504 inclined air guide plate, a 505 concave balance block, a 506 arc-shaped paper lifting body, a 507 inclined paper lifting hole, a 508 plate surface air groove, a 509 inclined air guide pipe, 5010 movable compression rods, 5011 synchronous motors, 5012 lifting rotating shafts, 5013 arc lifting blocks, 6 bottom rotating shafts, 7 supporting plates, 8 hydraulic cylinders, 9 hydraulic plugs, 10 hydraulic rods, 11L-shaped balance rods, 12 electric power, 13 electric power switches, 14 electric switches, 15, 16 electric switches, 16 positioning blocks, 17 inclined paper guide plates, 17, arc-shaped buckle plates, 16, positioning blocks, 17, positioning plates, and control boards, 17, and control boards, and bent boxes, 20.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-8, the embodiment of the invention provides a hot air guiding circulation dryer for adsorbing swing type rectangular printing paper, which comprises an arc-shaped machine case 1 and a printing paper body 2, wherein the inner top wall of the arc-shaped machine case 1 is arc-shaped, an in-case bottomless shell 3 is welded on the inner wall of the arc-shaped machine case 1, a roller adsorbing and swinging paper mechanism 4 is arranged on the in-case bottomless shell 3 in a penetrating manner, the roller adsorbing and swinging paper mechanism 4 comprises a plurality of hollow rotating shafts 401, a paper absorbing box 402, a first base 403 and a wind box 404, bearings are arranged on the surface of the in-case bottomless shell 3, an inner ring of each bearing is welded with the surface of the hollow rotating shaft 401, the surface of the in-case bottomless shell 3 of the first base 403 is welded with a shell motor 405, an output shaft of the shell motor 405 is fixedly connected with one end of the hollow rotating shaft 401 through a coupling, an in-shaft air suction cavity 406 is arranged inside the hollow rotating shaft 401, four air suction grooves 407 are formed in the surface of the hollow rotating shaft 401, the included angle of the extension lines of the inner walls of the air suction grooves 407 on the surfaces of two adjacent hollow rotating shafts 401 is forty five degrees, the surfaces of all the hollow rotating shafts 401 are sleeved with the same transmission belt 408, the inner walls of the air suction box bodies 402 are welded with air pressing plates 409, the surfaces of the air pressing plates 409 are concave, an air pressing cavity 4010 is arranged between the surfaces of the air pressing plates 409 and the inner walls of the air suction box bodies 402, an air suction opening 4011 is formed in the surface of the air suction box bodies 402, one end of the air suction opening 4011 is communicated with the air pressing cavity 4010, the surface of the air pressing plates 409 is sleeved with a first air collecting pipe 4012, the surface of the air suction box bodies 402 is welded with a paper blocking convex block 4013, the surfaces of the paper blocking convex blocks 4013 are arc-shaped, the inner walls of the hollow rotating shafts 401 are provided with bearings, the surfaces of the bearings are sleeved with sealing gaskets, the inner rings of the bearings are welded with branch suction pipes 4014, the surfaces of the branch suction pipes 4014 are sleeved with transverse air collecting pipes 4015, the surface of the transverse air collecting pipe 4015 is sleeved with a second air collecting pipe 4016, one end of a first air collecting pipe 4012 is sleeved with the surface of the second air collecting pipe 4016, the surface of the air box 404 is welded with the surface of the bottom-free shell 3 in the box, the inner wall of the air box 404 is welded with a second base 4017, the surface of the second base 4017 is provided with an air pump 4018, the air inlet end of the air pump 4018 is sleeved with one end of the second air collecting pipe 4016, the air outlet end of the air pump 4018 is sleeved with a blowing pipe 4019, one end of the blowing pipe 4019 penetrates through and extends to the surface of the air box 404, the blowing pipe 4019 is positioned below the electric heating pipe 12, an induced air shaking paper supporting mechanism 5 is arranged in the bottom-free shell 3 in the box, the induced air shaking paper supporting mechanism 5 comprises an elliptic supporting plate 501, a shell inner plate lap 502, a third base 503 and an inclined air deflector 504, the lower surface of the elliptic supporting plate 501 is welded with a concave weight 505, the inner wall of the concave weight 505 is spliced with the surface of the L-shaped balance rod 11, the surface of the elliptic support plate 501 is welded with an arc-shaped paper raising body 506, the surface of the arc-shaped paper raising body 506 is provided with an inclined paper raising hole 507, the surface of the arc-shaped paper raising body 506 is in sliding connection with the surface of printing paper, the surface of the elliptic support plate 501 is provided with a plate surface air groove 508, the surface of the shell inner plate lap 502 is welded with the inner wall of the bottom-free shell 3 in the box, the surface of the shell inner plate lap 502 is sleeved with an inclined air guide pipe 509, one end of the inclined air guide pipe 509 penetrates and extends to the surface of the bottom-free shell 3 in the box, the surface of the shell inner plate lap 502 is concave, the surface of the shell inner plate lap 502 is hinged with a movable compression rod 5010, the movable compression rod 5010 is positioned above the arc-shaped paper raising body 506, the surface of the third base 503 is welded with the inner wall of the bottom-free shell 3 in the box, the surface of the third base 503 is welded with a synchronous motor 5011, the output shaft of the synchronous motor 5011 is fixedly connected with a lifting rotating shaft 5012 through a coupling, the surface of the lifting rotating shaft 5012 is welded with arc lifting blocks 5013, the surface of the arc lifting blocks 5013 is arc-shaped, the surface of the arc lifting blocks 5013 is in sliding connection with the lower surface of the elliptical support plate 501, the number of the synchronous motors 5011 is two, the two synchronous motors 5011 are symmetrically distributed by taking the central line of the surface of the bottomless shell 3 in the box as a symmetrical line, the surface of the inclined air deflector 504 is welded with the inner wall of the arc-shaped machine box 1, the surface of the inclined air deflector 504 is inclined, the inclined air deflector 504 is positioned below the inclined air deflector 509, the inner wall of the arc-shaped machine box 1 is welded with a bearing, the inner ring of the bearing is welded with a bottom rotating shaft 6, the surface of the bottom rotating shaft 6 is welded with a support disc 7, the surface of the support disc 7 is welded with a hydraulic cylinder 8, the inner wall of the hydraulic cylinder 8 is in sliding connection with a hydraulic plug 9, the surface of the hydraulic plug 9 is welded with a hydraulic rod 10, the surface of the hydraulic rod 10 is welded with an L-shaped balance rod 11, an electric heating pipe 12 is welded on the inner top wall of the arc-shaped machine case 1, an electric heating wire 13 is arranged on the inner wall of the electric heating pipe 12, an electric switch 14 is fixedly arranged on the surface of the arc-shaped machine case 1, the input end of the electric switch 14 is externally connected with a power supply, the output end of the electric switch 14 is electrically connected with the electric heating wire 13, a positioning groove 15 is arranged on the inner wall of the arc-shaped machine case 1, a positioning rod 16 is slidingly connected on the surface of a supporting disc 7, the surface of the positioning rod 16 is spliced with the inner wall of the positioning groove 15, a spring is welded on the surface of the positioning rod 16, one end of the spring, far from the positioning rod 16, is welded with the surface of the supporting disc 7, a paper lapping block 17 is welded on the surface of a bottomless shell 3 in the machine case, an inclined hollow paper outlet plate 18 is welded on the surface of the bottomless shell 3 in the machine case, a control plate 19 is slidingly connected on the inner wall of the inclined hollow paper outlet plate 18, one end of the inclined hollow paper outlet plate 18 penetrates and extends to the surface of the arc-shaped machine case 1, the surface welding of arc machine case 1 has arc dress cardboard 20, and arc dress cardboard 20 is located the below of slope hollow out cardboard 18, and the surface of arc machine case 1 articulates there is chamber door 21, and sealed the pad has been cup jointed on the surface of chamber door 21, and the surface fixed mounting of chamber door 21 has padlock 22, and the surface of chamber door 21 passes through the surface fixed connection of padlock 22 and arc machine case 1, and the inner wall welding of arc machine case 1 has arc ring air lock 23.

When in use, a power supply is connected, paper is placed on an elliptical support plate 501, the paper is controlled below a bottomless shell 3 in a box through a hydraulic device, an air pump 4018 is started, an electric switch 14 is turned on, the air pump 4018 enters an in-shaft air suction cavity 406 and the inside of a first air collecting pipe 4012 through an air suction slot 407 and an air suction port 4011 at the bottom, then enters the air pump 4018 through a second air collecting pipe 4016, then wind power is blown to an electric heating pipe 12 through a blowing pipe 4019, after the wind is heated, the wind is guided to blow downwards through the inner wall of an arc-shaped machine box 1 and the surface of the bottomless shell 3 in the box, then hot air is blown to the elliptical support plate 501 and the arc-shaped paper raising body 506 through the action of an arc-shaped annular air block 23, the hot air is blown to each layer of paper from inclined paper raising holes 507, so that the paper can swing inside the arc-shaped paper raising body 506, the hot air dries the paper to a certain degree first, then the support plate 7 is rotated, the supporting disk 7 drives the hydraulic cylinder 8 to rotate, controls the hydraulic rod 10 to rotate together with the hydraulic cylinder 8, the hydraulic rod 10 drives the elliptical supporting plate 501 to rotate through the L-shaped balance rod 11 and the concave balance block 505, then the elliptical supporting plate 501 is lifted to the inside of the shell inner plate lapping body 502 through the hydraulic device, the elliptical supporting plate 501 is rotated to make the elliptical supporting plate 501 lap on the shell inner plate lapping body 502, the shell motor 405 and the synchronous motor 5011 are started, the shell motor 405 drives the hollow rotating shaft 401 to rotate, the synchronous motor 5011 drives the lifting rotating shaft 5012 to rotate, the lifting rotating shaft 5012 drives the arc lifting block 5013 to rotate, the arc lifting block 5013 drives the elliptical supporting plate 501 to lift, the concave balance block 505 and the L-shaped balance rod 11 limit the position of the elliptical supporting plate 501, the elliptical supporting plate 501 is continuously lifted, and uppermost paper is rapidly adsorbed on the roller adsorption paper swinging mechanism 4 in the lifting process, uneven wind causes the paper to swing and dry quickly, then the paper swings to the paper-lapping block 17 under the action of friction force of wind force, and then the paper slides out of the arc-shaped machine case 1 through the inclined hollow paper-out plate 18, thereby completing the drying process of the whole hot air guiding circulation dryer for adsorbing swing type rectangular printing paper.

Claims

1. The utility model provides an adsorb hot air direction circulation drying-machine for swing rectangle printing paper, includes arc machine case (1) and printing paper body (2), its characterized in that: the inner top wall of the arc-shaped machine case (1) is arc-shaped, the inner wall of the arc-shaped machine case (1) is welded with a bottom-free shell (3) in the machine case, a roller adsorption paper arranging mechanism (4) is arranged on the bottom-free shell (3) in the machine case in a penetrating manner, an induced air paper shaking supporting mechanism (5) is arranged in the bottom-free shell (3) in the machine case, a bearing is welded on the inner wall of the arc-shaped machine case (1), a bottom rotating shaft (6) is welded on the inner ring of the bearing, a supporting disc (7) is welded on the surface of the bottom rotating shaft (6), a hydraulic cylinder (8) is welded on the surface of the supporting disc (7), a hydraulic rod (10) is welded on the surface of the hydraulic rod (8) in a sliding manner, an L-shaped balance rod (11) is welded on the surface of the hydraulic rod (10), an electric heating pipe (12) is welded on the inner wall of the arc-shaped machine case (1), an electric switch (14) is fixedly arranged on the surface of the arc-shaped machine case (1), an input end of the electric switch (14) is externally connected with a power supply, an output end of the electric switch (14) is connected with an electric wire (13), a positioning groove (16) is arranged on the inner wall of the positioning rod (16) of the electric machine case (1), a positioning groove (16) is connected with the positioning groove (15), the surface of the positioning rod (16) is welded with a spring, one end of the spring, which is far away from the positioning rod (16), is welded with the surface of the supporting disc (7), and the inner wall of the arc-shaped chassis (1) is welded with an arc-shaped annular wind block (23);

the roller adsorption paper placing mechanism (4) comprises a plurality of hollow rotating shafts (401), a paper sucking box body (402), a first base (403) and an air box (404), wherein bearings are arranged on the surfaces of bottomless shells (3) in the box, inner rings of the bearings are welded with the surfaces of the hollow rotating shafts (401), the surfaces of bottomless shells (3) in the surface box of the first base (403) are welded with a shell motor (405), an output shaft of the shell motor (405) is fixedly connected with one end of the hollow rotating shaft (401) through a coupler, an in-shaft air sucking cavity (406) is formed in the hollow rotating shaft (401), four air sucking grooves (407) are formed in the surfaces of the hollow rotating shafts (401), included angles of extension lines of inner wall of the air sucking grooves (407) on the surfaces of two adjacent hollow rotating shafts (401) are forty five degrees, and the surfaces of all the hollow rotating shafts (401) are sleeved with the same transmission belt (408);

an air pressing plate (409) is welded on the inner wall of the air suction box body (402), the surface of the air pressing plate (409) is concave, an air pressing cavity (4010) is formed between the surface of the air pressing plate (409) and the inner wall of the air suction box body (402), an air suction opening (4011) is formed in the surface of the air suction box body (402), one end of the air suction opening (4011) is communicated with the air pressing cavity (4010), a first air collecting pipe (4012) is sleeved on the surface of the air pressing plate (409), a paper blocking protruding block (4013) is welded on the surface of the air suction box body (402), and the surface of the paper blocking protruding block (4013) is arc-shaped;

the inner wall of the hollow rotating shaft (401) is provided with a bearing, the surface of the bearing is sleeved with a sealing gasket, the inner ring of the bearing is welded with a sub-suction pipe (4014), the surface of the sub-suction pipe (4014) is sleeved with a transverse air collecting pipe (4015), the surface of the transverse air collecting pipe (4015) is sleeved with a second air collecting pipe (4016), one end of a first air collecting pipe (4012) is sleeved with the surface of the second air collecting pipe (4016), the surface of an air box (404) is welded with the surface of a bottomless shell (3) in the box, the inner wall of the air box (404) is welded with a second base (4017), the surface of the second base (4017) is provided with an air pump (4018), the air inlet end of the air pump (4018) is sleeved with one end of the second air collecting pipe (4016), the air outlet end of the air pump (4018) is sleeved with a blowing pipe (4019), one end of the blowing pipe (4019) penetrates and extends to the surface of the second air collecting pipe (4016), and the blowing pipe (4019) is positioned below the electric heating pipe (12);

the induced air paper shaking supporting mechanism (5) comprises an elliptical supporting plate (501), a shell inner plate lap (502), a third base (503) and an inclined air deflector (504), wherein a concave balancing block (505) is welded on the lower surface of the elliptical supporting plate (501), the inner wall of the concave balancing block (505) is spliced with the surface of an L-shaped balancing rod (11), an arc-shaped paper lifting body (506) is welded on the surface of the elliptical supporting plate (501), inclined paper lifting holes (507) are formed in the surface of the arc-shaped paper lifting body (506), the surface of the arc-shaped paper lifting body (506) is in sliding connection with the surface of printing paper, and a plate surface air groove (508) is formed in the surface of the elliptical supporting plate (501);

the surface of the shell inner plate lap body (502) is welded with the inner wall of the bottom-free shell body (3) in the box, the surface of the shell inner plate lap body (502) is sleeved with an inclined air guide pipe (509), one end of the inclined air guide pipe (509) penetrates through and extends to the surface of the bottom-free shell body (3) in the box, the surface of the shell inner plate lap body (502) is concave, the surface of the shell inner plate lap body (502) is hinged with a movable compression rod (5010), and the movable compression rod (5010) is positioned above the arc-shaped paper raising body (506);

the surface of the third base (503) is welded with the inner wall of the bottom-free shell (3) in the box, a synchronous motor (5011) is welded on the surface of the third base (503), an output shaft of the synchronous motor (5011) is fixedly connected with a lifting rotating shaft (5012) through a coupler, an arc lifting block (5013) is welded on the surface of the lifting rotating shaft (5012), the surface of the arc lifting block (5013) is arc-shaped, the surface of the arc lifting block (5013) is in sliding connection with the lower surface of the elliptical support plate (501), the number of the synchronous motors (5011) is two, the two synchronous motors (5011) are symmetrically distributed by taking the central line of the surface of the bottom-free shell (3) in the box as a symmetrical line, the surface of the inclined air deflector (504) is welded with the inner wall of the arc-shaped box (1), the surface of the inclined air deflector (504) is inclined, and the inclined air deflector (504) is positioned below the inclined air deflector (509);

the surface of the bottom-free shell (3) in the box is welded with a paper-carrying block (17), the surface of the bottom-free shell (3) in the box is welded with an inclined hollow paper-out plate (18), the inner wall of the inclined hollow paper-out plate (18) is connected with a control plate (19) in a sliding manner, one end of the inclined hollow paper-out plate (18) penetrates through and extends to the surface of the arc-shaped machine box (1), the surface of the arc-shaped machine box (1) is welded with an arc-shaped paper-carrying plate (20), and the arc-shaped paper-carrying plate (20) is positioned below the inclined hollow paper-out plate (18);

the surface of the arc-shaped machine case (1) is hinged with a machine case (21), a sealing gasket is sleeved on the surface of the machine case (21), a lock catch (22) is fixedly arranged on the surface of the machine case (21), and the surface of the machine case (21) is fixedly connected with the surface of the arc-shaped machine case (1) through the lock catch (22).