CN202528580U - Drying device for printed products - Google Patents
Drying device for printed products Download PDFInfo
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- CN202528580U CN202528580U CN201220195455XU CN201220195455U CN202528580U CN 202528580 U CN202528580 U CN 202528580U CN 201220195455X U CN201220195455X U CN 201220195455XU CN 201220195455 U CN201220195455 U CN 201220195455U CN 202528580 U CN202528580 U CN 202528580U
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Abstract
The utility model discloses a drying device for printed products. The drying device comprises a frame, a printed product conveying mechanism, a drying box, a hot gas generation mechanism and a hot gas conveying mechanism, wherein the drying box comprises an upper box body and a lower box body, the upper peripheral edge of the lower box body is hermetically arranged on the frame, the side wall of the lower box body is in the shape of a funnel, and the lower box body is positioned below the printed product conveying mechanism; the lower peripheral edge of the upper box body is hermetically arranged on the frame and corresponds to the upper peripheral edge of the lower box body, the upper box body is positioned above the printed product conveying mechanism, a feed port of the upper box body is positioned on a feed area, and a discharge port of the upper box body is positioned on a discharge area; the hot gas generation mechanism is arranged in the lower box body, and a gas outlet of the hot gas generation mechanism extends into the upper box body; the hot gas conveying mechanism comprises a fan and a hot gas motor, the fan is arranged in the lower box body and positioned on the bottom surface of the lower box body, the gas outlet of the fan is connected with a gas inlet of the hot gas generation mechanism, and a rotating shaft of the fan extends out of the outer surface of the lower box body; and an air supply motor is arranged on the frame and positioned outside the lower box body, and the air supply motor is in transmission connection with the rotating shaft of the fan through a transmission part.
Description
Technical field
The utility model relates to a kind of printed matter drying plant, and more particularly, the utility model relates to a kind of printed matter drying unit.
Background technology
At present; In the printing process of printed matter; The ink lay that is printed on the printed matter generally contains volatile solvent; For volatile solvent is volatilized fast, must adopt the printed matter drying unit that the ink lay on the printed matter is dried processing, the volatile solvent of printed matter ink lay is volatilized apace.
Existing printed matter drying unit generally is on frame, to be provided with the printed matter conveying mechanism; One side of above-mentioned printed matter conveying mechanism is a feed zone; The opposite side of printed matter conveying mechanism is a discharge zone, between feed zone and discharge zone, is provided with the rectangle drying baker, and above-mentioned rectangle drying baker is provided with charging aperture and discharging opening; The charging aperture of above-mentioned rectangle drying baker is positioned on the feed zone, and the discharging opening of rectangle drying baker is positioned on the discharge zone; Be provided with hot gas in the above-mentioned rectangle drying baker and produce mechanism and hot gas conveying mechanism; Above-mentioned hot gas conveying mechanism generally comprises blower fan and air supply motor; Above-mentioned blower fan and air supply motor are installed in the rectangle drying baker; Above-mentioned air supply motor is in transmission connection through the rotating shaft of driving member such as belt and blower fan, and above-mentioned hot gas produces mechanism and is positioned on the air outlet of blower fan.
When carrying out the printed matter oven dry; Enter into the feed zone of printed matter conveying mechanism when printed matter after; Printed matter on the feed zone is fed forward by the printed matter conveying mechanism continuously, and like this, printed matter just is input in the rectangle drying baker from the charging aperture of rectangle drying baker; Discharging opening from the rectangle drying baker outputs on the discharge zone of printed matter conveying mechanism again, and the printed matter on the discharge zone flows to miscellaneous equipment by the printed matter conveying mechanism again; When printed matter is fed forward by the printed matter conveying mechanism in the rectangle drying baker continuously; Hot gas produces the hot gas that mechanism produces in the rectangle drying baker; Blow by the blower fan of hot gas conveying mechanism and form hot blast; Hot blast brushes on the printed matter conveying mechanism and printed matter in the rectangle drying baker, and the printed matter on the printed matter conveying mechanism is dried processing, and the volatile solvent of printed matter ink lay is volatilized apace.
Because existing printed matter drying unit generally adopts the rectangle drying baker; And the area occupied of rectangle drying baker is bigger; So; Most of space on the frame has been taken by the rectangle drying baker, and therefore, parts such as air supply motor in the hot gas conveying mechanism and driving member thereof generally all are located in the rectangle drying baker; Again owing to parts such as air supply motor in the hot gas conveying mechanism and driving member thereof all are located in the rectangle drying baker; So; The inner space of rectangle drying baker must be designed greatlyyer; Therefore, the firing rate of hot blast is slow in the rectangle drying baker, thereby the drying rate of existing printed matter drying unit is slow, drying efficiency is low, electric power is big, power consumption is high;
Because parts such as air supply motor in the hot gas conveying mechanism and driving member thereof all are located in the rectangle drying baker, so the installation and maintenance of existing printed matter drying unit is inconvenient; Because parts such as air supply motor in the hot gas conveying mechanism and driving member thereof are in the hot environment when work, so parts such as air supply motor in the hot gas conveying mechanism and driving member thereof damage easily, therefore, the service life of existing printed matter drying unit is short.
The utility model content
The utility model technical problem to be solved provides a kind of installation and maintenance convenience, long service life, drying rate is fast, drying efficiency is high, the printed matter drying unit of power and energy saving.
In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is following:
A kind of printed matter drying unit comprises that frame, printed matter conveying mechanism, drying baker, hot gas produce mechanism and hot gas conveying mechanism; Above-mentioned printed matter conveying mechanism is located on the frame, and a side of printed matter conveying mechanism is a feed zone, and the opposite side of printed matter conveying mechanism is a discharge zone; Above-mentioned drying baker is located between feed zone and the discharge zone; It is characterized in that: above-mentioned drying baker comprises upper box and lower box, and the upper periphery of lower box is installed on the frame hermetically, and the sidewall of lower box is funnel-form, lower box be positioned at the printed matter conveying mechanism below; The following peripheral of upper box is installed in hermetically on the frame and is corresponding with the upper periphery of lower box; Upper box be positioned at the printed matter conveying mechanism above; Upper box is provided with charging aperture and discharging opening, and the charging aperture of upper box is positioned on the feed zone, and the discharging opening of upper box is positioned on the discharge zone; Above-mentioned hot gas produces mechanism and is located in the lower box, and hot gas produces the gas outlet of mechanism and stretches in upper box; Above-mentioned hot gas conveying mechanism comprises blower fan and air supply motor, and above-mentioned blower fan is located in the lower box and is positioned on the bottom surface of lower box, and the air inlet that the air outlet of blower fan and hot gas produce mechanism joins, and the outside at lower box is stretched out in the rotating shaft of blower fan; Above-mentioned air supply motor is located on the frame and is positioned at the outside of lower box, and air supply motor is in transmission connection through the rotating shaft of driving member and blower fan.
When carrying out the printed matter oven dry; Enter into the feed zone of printed matter conveying mechanism when printed matter after; Printed matter on the feed zone is fed forward by the printed matter conveying mechanism continuously, and like this, printed matter just is input in the drying baker from the charging aperture of upper box; Discharging opening from upper box outputs on the discharge zone of printed matter conveying mechanism again, and the printed matter on the discharge zone flows to miscellaneous equipment by the printed matter conveying mechanism again;
When printed matter is fed forward by the printed matter conveying mechanism in drying baker continuously; Hot gas produces the hot gas that mechanism produces in the drying baker; Be blown in the upper box and form hot blast by the blower fan of hot gas conveying mechanism; Hot blast brushes downwards on the printed matter conveying mechanism and printed matter in drying baker, and the printed matter on the printed matter conveying mechanism is dried processing, and the volatile solvent of printed matter ink lay is volatilized apace; Then; Blower fan will pass through the hot blast of printed matter conveying mechanism again and pump downwards to hot gas generation mechanism; Produce mechanism by hot gas and add heat utilization once more, the hot air circulation that has so just constituted between upper box and the lower box is utilized again, has improved the utilization rate of hot blast effectively; Make printed matter flash baking, reach the purpose of energy-saving and environmental protection, low-carbon (LC);
Simultaneously; Because hot blast brushes downwards on the printed matter conveying mechanism and printed matter in drying baker; And the blower fan on the lower box bottom surface will pass through the hot blast of printed matter conveying mechanism and pump downwards to hot gas generation mechanism, so; Hot-air flow in the drying baker can make printed matter be adjacent to effectively on the printed matter conveying mechanism; Thereby prevent that the printed matter on the printed matter conveying mechanism is shifted at course of conveying, make the printed matter conveying mechanism be fed forward printed matter continuously, make the oven dry of printed matter handle and to carry out smoothly.
As the preferred version of driving member in the utility model, said driving member adopts chain or belt.
Produce the preferred version of mechanism as hot gas in the utility model; Said hot gas produces mechanism and comprises electrocaloric effect and electrothermal tube; Above-mentioned electrocaloric effect is located in the lower box, and the air inlet of electrocaloric effect and the air outlet of blower fan join, and the gas outlet of electrocaloric effect is stretched in upper box.
When the electrothermal tube heating power in the electrocaloric effect, electrothermal tube just can heat the air in the electrocaloric effect, and blower fan blows out the gas outlet of the hot gas in the electrocaloric effect from electrocaloric effect again, thereby in upper box, forms hot blast; Hot blast in the upper box brushes downwards on the printed matter conveying mechanism and printed matter in drying baker, and the printed matter on the printed matter conveying mechanism is dried processing, thereby the volatile solvent of printed matter ink lay is volatilized apace.
Further improvement as the utility model is provided with dividing plate in the said upper box, and aforementioned barriers is provided with a plurality of blowing valves, and above-mentioned blowing valve is evenly distributed on the dividing plate.
Through the blowing valve on the dividing plate; Hot blast can brush downwards on the printed matter conveying mechanism and printed matter in drying baker equably; Printed matter on the printed matter conveying mechanism is dried processing; The volatile solvent of printed matter ink lay is volatilized more apace, make the oven dry of printed matter become more even, improved drying effect.
In order further to improve drying rate, drying effect and the production efficiency of this printed matter drying unit, said dividing plate is provided with many group infrared lamps, and above-mentioned many group infrared lamps are evenly distributed on the dividing plate.
The hot light wave of above-mentioned many group infrared lamps can penetrate the ink lay of printed matter; Volatile solvent in the ink lay can be volatilized more apace, like this, brush and the hot light-wave irradiations of organizing infrared lamps morely through hot blast; Thereby printed matter is formed dual oven dry to be handled; The volatile solvent of printed matter ink lay is volatilized apace, make drying rate become faster, make drying effect improve; The hot light wave of above-mentioned many group infrared lamps can also stack the ink lay on printed matter and each layer printed matter by penetrated bed, and therefore, this printed matter drying unit is adapted to the oven dry of printed matter stacked together and handles, thereby has further improved production efficiency.
In order further to improve the drying effect of this printed matter drying unit, be respectively equipped with the insulation layer on the outer surface of the upper and lower casing of outer surface of said upper box.
Through insulation layer on the upper box outer surface and the insulation layer on the lower box outer surface, can prevent that hot blast and the outer air of drying baker in the drying baker from heat transmission being taken place, thereby reach the purpose of insulation.
As the preferred version of printed matter conveying mechanism in the utility model, said printed matter conveying mechanism comprises drive roll, driven voller, netted conveyer belt, conveyer belt motor and some backing rolls; Above-mentioned drive roll and driven voller are located at respectively on the two ends of frame, and drive roll and driven voller laterally arrange; Above-mentioned netted conveyer belt is coated on drive roll and the driven voller, and a side of above-mentioned netted conveyer belt is a feed zone, and the opposite side of netted conveyer belt is a feed zone; The said conveyer belt motor is installed on the frame, and said conveyer belt motor and drive roll are in transmission connection; Above-mentioned backing roll and drive roll are located on the frame between upper box and the lower box abreast, and above-mentioned backing roll is positioned at netted conveyer belt and is bearing on the netted conveyer belt.
When the conveyer belt motor rotated, conveyer belt motor-driven drive roll rotated, and drive roll just can drive netted conveyer belt and rotate in drive roll, driven voller and backing roll cocycle; Enter into the feed zone of netted conveyer belt when printed matter after; Printed matter on the feed zone is input in the drying baker by the charging aperture of netted conveyer belt from upper box; Printed matter in the drying baker is fed forward by netted conveyer belt under the rolling bearing of backing roll continuously; The printed matter that is fed forward continuously in the drying baker is after oven dry, and the discharging opening from upper box outputs on the discharge zone of netted conveyer belt again, and the printed matter on the discharge zone flows to miscellaneous equipment by netted conveyer belt again.
The utility model beneficial effect against existing technologies is:
Because the sidewall of its lower box of this printed matter drying unit is funnel-form, and that sidewall is funnelform lower box area occupied is smaller, so; Have certain space on the frame and can be used to install other parts, like this, the air supply motor of hot gas conveying mechanism just can be installed on the frame easily and be positioned at the outside of lower box; The rotating shaft of its blower fan of hot gas conveying mechanism also can be stretched out in the outside of lower box and with air supply motor and is in transmission connection, and therefore, the installation and maintenance of this printed matter drying unit is convenient; And; Be in the normal temperature environment when air supply motor and driving member work thereof, so air supply motor and driving member thereof are not fragile; Therefore, the long service life of this printed matter drying unit;
Simultaneously, because air supply motor and driving member thereof are not located in the lower box, so the inner space of lower box can be designed smallerly, therefore, the firing rate of hot blast is fast in the drying baker, thereby the drying rate of this printed matter drying unit is fast, drying efficiency is high.
Because the drying baker of this printed matter drying unit comprises that upper box and sidewall are funnelform lower box, so the drying baker of this printed matter drying unit has only about 1/3 volume of traditional rectangular drying baker; Therefore; The inner space of its drying baker of this printed matter drying unit can be designed smallerly, thereby reduces heating space significantly, practices thrift the heat temperature raising time; So this printed matter drying unit is efficient, energy-conservation, power saving.
Below in conjunction with the accompanying drawing and the specific embodiment the utility model is done further detailed description.
Description of drawings
Fig. 1 is the structural representation of the utility model preferred embodiment;
Fig. 2 is that A-A among Fig. 1 is to cutaway view.
The specific embodiment
As depicted in figs. 1 and 2; Printed matter drying unit in this preferred embodiment; Comprise that frame 1, printed matter conveying mechanism 2, drying baker 3, hot gas produce mechanism 4 and hot gas conveying mechanism 5; Above-mentioned printed matter conveying mechanism 2 comprises drive roll 21, driven voller 22, netted conveyer belt 23, conveyer belt motor 24 and some backing rolls 25; Above-mentioned drying baker 3 comprises upper box 31 and lower box 32, and above-mentioned hot gas produces mechanism 4 and comprises electrocaloric effect 41 and electrothermal tube 42, and above-mentioned hot gas conveying mechanism 5 comprises blower fan 51 and air supply motor 52;
Above-mentioned drive roll 21 is located at respectively on the two ends of frame 1 with driven voller 22, and drive roll 21 laterally arranges with driven voller 22; Above-mentioned netted conveyer belt 23 is coated on drive roll 21 and the driven voller 22, and a side of above-mentioned netted conveyer belt 23 is a feed zone 231, and the opposite side of netted conveyer belt 23 is a feed zone 232; Said conveyer belt motor 24 is installed on the frame 1, and said conveyer belt motor 24 is in transmission connection with drive roll 21;
Above-mentioned drying baker 3 is located between feed zone 231 and the discharge zone 232, and the upper periphery of lower box 32 is installed on the frame 1 hermetically, and the sidewall of lower box 32 is funnel-form, lower box 32 be arranged in printed matter conveying mechanism 2 netted conveyer belts 23 below; The following peripheral of upper box 31 is installed in hermetically on the frame 1 and is corresponding with the upper periphery of lower box 32; Upper box 31 be arranged in printed matter conveying mechanism 2 netted conveyer belts 23 above; Upper box 31 is provided with charging aperture 311 and discharging opening 312; The charging aperture 311 of upper box 31 is positioned on the feed zone 231, and the discharging opening 312 of upper box 31 is positioned on the discharge zone 232;
The outer surface of upper box 31 is provided with insulation layer 310, and the outer surface of lower box 32 is provided with insulation layer 320;
Above-mentioned backing roll 25 and drive roll 21 are located on the frame 1 between upper box 31 and the lower box 32 abreast, and above-mentioned backing roll 25 is positioned at netted conveyer belt 23 and is bearing on the netted conveyer belt 23;
Above-mentioned electrocaloric effect 41 is located in the lower box 32, and the gas outlet 412 of above-mentioned electrocaloric effect 41 is stretched in upper box 31;
Above-mentioned blower fan 51 is located in the lower box 32 and is positioned on the bottom surface 321 of lower box 32; The air inlet 511 of blower fan 51 is communicated with lower box 32; The air outlet 512 of blower fan 51 joins with the air inlet 411 of electrocaloric effect 41, and the outside at lower box 32 is stretched out in the rotating shaft 510 of blower fan 51; Above-mentioned air supply motor 52 is located on the frame 1 and is positioned at the outside of lower box 32, and air supply motor 52 is in transmission connection through the rotating shaft 510 of driving member 520 with blower fan 51, and above-mentioned driving member 520 adopts belt;
Be provided with dividing plate 6 in the upper box 31, aforementioned barriers 6 is provided with a plurality of blowing valves 60 and many group infrared lamps 61, and above-mentioned blowing valve 60 is evenly distributed on the dividing plate 6, and above-mentioned many group infrared lamps 61 are evenly distributed on the dividing plate 6.
During oven dry, let electrothermal tube 42 heating powers in the electrocaloric effect 41 earlier, simultaneously; Start air supply motor 52; Air supply motor 52 drives rotating shaft 510 rotations of blower fan 51 through driving member 520, thereby makes blower fan 51 work, and the electrothermal tube 42 of heating power just can heat the air in the electrocaloric effect 41; Blower fan 51 blows out the gas outlet 412 of the hot gas in the electrocaloric effect 41 from electrocaloric effect 41 again, thereby in upper box 31, forms hot blast;
Hot blast in the upper box 31 brushes downwards on the netted conveyer belt 23 in drying baker 3 through the blowing valve 60 on the dividing plate 6 equably; Then; The hot blast that blower fan 51 will pass through netted conveyer belt 23 again pumps to downwards in the electrocaloric effect 41; Add heat utilization once more by electrothermal tube 42, so just constituted the hot-air seasoning system that the hot air circulation between upper box 31 and the lower box 32 is utilized again;
When conveyer belt motor 24 rotated, conveyer belt motor 24 drove drive roll 21 and rotates, and drive roll 21 just can drive netted conveyer belt 23 and rotate in drive roll 21, driven voller 22 and backing roll 25 cocycles;
Enter into the feed zone 231 of netted conveyer belt 23 when printed matter 10 after; Printed matter on the feed zone 231 is input in the drying baker 3 by the charging aperture 311 of netted conveyer belt 23 from upper box 31, and the printed matter 10 in the drying baker 3 is fed forward by netted conveyer belt 23 under the rolling bearing of backing roll 25 continuously;
In the continuous conveying process of printed matter 10 in drying baker 3; Hot blast in the upper box 31 brushes downwards on the netted conveyer belt 23 and printed matter 10 in drying baker 3 through the blowing valve 60 on the dividing plate 6 equably, and the printed matter 10 on the netted conveyer belt 23 is dried processing, and the volatile solvent of printed matter 10 ink laies is volatilized apace; Simultaneously; The hot light wave of many group infrared lamps 61 can penetrate the ink lay of printed matter 10 on the dividing plate 6, the volatile solvent in the ink lay can be volatilized more apace, like this; Brush and the hot light-wave irradiations of organizing infrared lamps 61 through hot blast more; Handle thereby printed matter 10 is formed dual oven dry, make drying rate become faster, make drying effect improve;
When the printed matter that is fed forward continuously in the drying baker 3 10 through the oven dry after; Output on the discharge zone 232 of netted conveyer belt 23 by the discharging opening 312 of netted conveyer belt 23 again from upper box 31; Printed matter on the discharge zone 232 flows to miscellaneous equipment by netted conveyer belt 23 again; Like this, this printed matter drying unit is just accomplished the oven dry of printed matter 10 is handled.
In the drying course of printed matter 10, owing to hot blast brushes downwards on the netted conveyer belt 23 and printed matter 10 in drying baker 3, and; The hot blast that blower fan 51 on lower box 32 bottom surfaces 321 will pass through netted conveyer belt 23 pumps to downwards in the electrocaloric effect 41; So the hot-air flow in the drying baker 3 can make printed matter 10 be adjacent to effectively on netted conveyer belt 23, and; Printed matter 10 on 25 pairs of netted conveyer belts 23 of backing roll has the rolling bearing effect; Thereby prevent that the printed matter 10 on the netted conveyer belt 23 is shifted at course of conveying, make netted conveyer belt 23 can be fed forward printed matter 10 continuously, make the oven dry of printed matter 10 handle and to carry out smoothly;
Simultaneously; The hot light wave of above-mentioned many group infrared lamps 61 can also stack the ink lay on printed matter and each layer printed matter by penetrated bed; Therefore, this printed matter drying unit is adapted to the oven dry of printed matter stacked together and handles, thereby has further improved production efficiency;
In addition, through the insulation layer 320 on insulation layer on upper box 31 outer surfaces 310 and lower box 32 outer surfaces, can prevent that hot blast and the drying baker 3 outer air in the drying baker 3 from the heat transmission taking place, thereby reach the purpose of insulation.
Dotted arrow among Fig. 1 is represented the flow direction of hot blast, and the solid arrow among Fig. 2 is represented the throughput direction of printed matter.
The content of the above specific embodiment is merely the preferred embodiment of the utility model, and above-mentioned preferred embodiment is not the practical range that is used for limiting the utility model; Every various equivalents of making according to the protection domain of its claim of the utility model are all covered by the protection domain of its claim of the utility model.
Claims (7)
1. a printed matter drying unit comprises that frame, printed matter conveying mechanism, drying baker, hot gas produce mechanism and hot gas conveying mechanism; Above-mentioned printed matter conveying mechanism is located on the frame, and a side of printed matter conveying mechanism is a feed zone, and the opposite side of printed matter conveying mechanism is a discharge zone; Above-mentioned drying baker is located between feed zone and the discharge zone; It is characterized in that:
Above-mentioned drying baker comprises upper box and lower box, and the upper periphery of lower box is installed on the frame hermetically, and the sidewall of lower box is funnel-form, lower box be positioned at the printed matter conveying mechanism below; The following peripheral of upper box is installed in hermetically on the frame and is corresponding with the upper periphery of lower box; Upper box be positioned at the printed matter conveying mechanism above; Upper box is provided with charging aperture and discharging opening, and the charging aperture of upper box is positioned on the feed zone, and the discharging opening of upper box is positioned on the discharge zone;
Above-mentioned hot gas produces mechanism and is located in the lower box, and hot gas produces the gas outlet of mechanism and stretches in upper box;
Above-mentioned hot gas conveying mechanism comprises blower fan and air supply motor, and above-mentioned blower fan is located in the lower box and is positioned on the bottom surface of lower box, and the air inlet that the air outlet of blower fan and hot gas produce mechanism joins, and the outside at lower box is stretched out in the rotating shaft of blower fan; Above-mentioned air supply motor is located on the frame and is positioned at the outside of lower box, and air supply motor is in transmission connection through the rotating shaft of driving member and blower fan.
2. according to the described printed matter drying unit of claim 1, it is characterized in that: said driving member adopts chain or belt.
3. according to the described printed matter drying unit of claim 1; It is characterized in that: said hot gas produces mechanism and comprises electrocaloric effect and electrothermal tube; Above-mentioned electrocaloric effect is located in the lower box, and the air inlet of electrocaloric effect and the air outlet of blower fan join, and the gas outlet of electrocaloric effect is stretched in upper box.
4. according to the described printed matter drying unit of claim 1, it is characterized in that: be provided with dividing plate in the said upper box, aforementioned barriers is provided with a plurality of blowing valves, and above-mentioned blowing valve is evenly distributed on the dividing plate.
5. according to the described printed matter drying unit of claim 4, it is characterized in that: said dividing plate is provided with many group infrared lamps, and above-mentioned many group infrared lamps are evenly distributed on the dividing plate.
6. according to the described printed matter drying unit of claim 1, it is characterized in that: be respectively equipped with the insulation layer on the outer surface of the upper and lower casing of outer surface of said upper box.
7. according to the described printed matter drying unit of claim 1, it is characterized in that: said printed matter conveying mechanism comprises drive roll, driven voller, netted conveyer belt, conveyer belt motor and some backing rolls; Above-mentioned drive roll and driven voller are located at respectively on the two ends of frame, and drive roll and driven voller laterally arrange; Above-mentioned netted conveyer belt is coated on drive roll and the driven voller, and a side of above-mentioned netted conveyer belt is a feed zone, and the opposite side of netted conveyer belt is a feed zone; The said conveyer belt motor is installed on the frame, and said conveyer belt motor and drive roll are in transmission connection; Above-mentioned backing roll and drive roll are located on the frame between upper box and the lower box abreast, and above-mentioned backing roll is positioned at netted conveyer belt and is bearing on the netted conveyer belt.
Priority Applications (1)
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CN201220195455XU CN202528580U (en) | 2012-04-25 | 2012-04-25 | Drying device for printed products |
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CN201220195455XU CN202528580U (en) | 2012-04-25 | 2012-04-25 | Drying device for printed products |
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CN201220195455XU Expired - Fee Related CN202528580U (en) | 2012-04-25 | 2012-04-25 | Drying device for printed products |
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