CN112389092A - Automatic high-efficient drying device is used in intaglio printing - Google Patents

Abstract

The invention discloses an automatic high-efficiency drying device for gravure printing, wherein a transmission device is arranged at the upper part of a base and comprises a belt, two rolling shafts, a suction fan and a guide pipe I, the two rolling shafts are symmetrically arranged at the upper part of the base and are connected through the belt, a plurality of through holes are formed in the surface of the belt, rotating shafts I are arranged at two ends of each rolling shaft, and the rotating shafts I are movably connected to the base through bearings; one side of the rotating shaft I is provided with a chain wheel, and the two chain wheels are connected through a chain; one side of the chain wheel is provided with a bevel gear I, the bevel gear I is connected to the rotating shaft I, one side of the bevel gear I is provided with a bevel gear II, and one side of the bevel gear II is provided with a motor I; a suction fan is arranged on one side of the belt, a plurality of guide pipes I are arranged on one side of the suction fan, and a plurality of suction heads are arranged on the upper parts of the guide pipes; the upper portion of the transmission device is provided with a supporting shell, the supporting shell is connected to the base, and a drying device is arranged inside the supporting shell. The invention can make the surface of the product smooth when drying.

Description

Automatic high-efficient drying device is used in intaglio printing

Technical Field

The invention belongs to the technical field of printing, and particularly relates to an automatic efficient drying device for gravure printing.

Background

At present, decorative paper is printed by a printing machine, part of unabsorbed ink exists on the surface of a product printed by a printing device, and the surface ink contains certain moisture, so that the printed product needs to be dried; at present, most of the printing ink of the printed matter is dried by using drying equipment, and at present, decorative paper is easily wrinkled when the drying equipment is used for drying, so that the surface of the decorative paper is uneven, and the quality of the product is influenced.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an automatic high-efficiency drying device for gravure printing, so that the surface of a product is smooth during drying.

In order to achieve the purpose, the invention adopts the technical scheme that:

an automatic high-efficiency drying device for gravure printing comprises a transmission device, a base, a supporting shell and a drying device, wherein the transmission device is arranged at the upper part of the base and comprises a belt, rolling shafts, a suction fan and a guide pipe I; one side of the rotating shaft I is provided with a chain wheel, and the two chain wheels are connected through a chain; one side of the chain wheel is provided with a bevel gear I, the bevel gear I is connected to the rotating shaft I, one side of the bevel gear I is provided with a bevel gear II, the bevel gear I is meshed with the bevel gear II, and one side of the bevel gear II is provided with a motor I; the motor I rotates to drive the rotating shaft I to rotate through the bevel gear I and the bevel gear II, and the rotating shaft I drives the belt to rotate through the rolling shaft to transport products; a suction fan is arranged on one side of the belt, a plurality of guide pipes I are arranged on one side of the suction fan, a plurality of suction heads are arranged on the upper portions of the guide pipes, and the suction heads are tightly attached to the through holes; when a product is positioned on the surface of the belt, the suction fan works to enable air flow to enter the suction head through the through hole, and when the product passes through the belt, the product is tightly attached to the belt through the through hole, so that the phenomenon that the quality of the product is affected by folds generated in the drying process of the product is avoided;

a supporting shell is arranged at the upper part of the transmission device and connected to the base, a drying device is arranged in the supporting shell, and the drying device dries a product when the product passes through the transmission device; the drying device blows hot air to the product through the air heater to realize heating and drying of the product.

Preferably, the drying device comprises an air heater, air blowing nozzles and a guide pipe, the air heater is arranged in the supporting shell and connected to the supporting shell, the air blowing nozzles are arranged at the lower part of the air heater, and the air heater is connected with the air blowing nozzles through the guide pipe; the hot air generated by the hot air blower heats and dries the product through the air blowing nozzle.

Preferably, the two sides of the belt are symmetrically provided with flow guiding devices, each flow guiding device comprises a flow guiding shell, an air inlet hole and an air outlet hole, the two sides of the belt are symmetrically provided with the flow guiding shells, one side of each flow guiding shell is provided with a plurality of air inlet holes, the other side of each flow guiding shell is provided with a plurality of air outlet holes, and the upper parts of the flow guiding shells are provided with top covers; hot air generated by the air heater enters the diversion shell through the air inlet and flows out through the air outlet, the hot air flows to the lower part of the product through the diversion device, and the hot air flows through the through hole to heat and dry the lower part of the product, so that the drying efficiency is improved.

Preferably, the upper part of the top cover is provided with a fixing plate, one side of the fixing plate is provided with an adjusting plate, the adjusting plate moves close to the diversion shell, the other side of the fixing plate is provided with a screw, and the adjusting plate is fixed by rotating the screw; the air input in the guide shell is controlled by moving the position of the adjusting plate, and a user adjusts the air input according to different products.

Preferably, two ends of the air blowing nozzle are movably connected to the supporting shell through a rotating shaft II, a gear is arranged on one side of the rotating shaft II, a plurality of gears are meshed with one another, a double-sided rack is arranged on one side of a tail end gear, guide plates are symmetrically arranged at two ends of the double-sided rack, a spring is arranged on one side of each guide plate, a fixed shell is arranged on one side of each spring, the fixed shell is connected to the supporting shell through a fixed block, and the guide plates move in the fixed shell; one side of the double-sided rack is provided with sector teeth, the sector teeth are movably connected to the supporting shell through a rotating shaft III, one side of the rotating shaft III is provided with a bevel gear III, one side of the bevel gear III is provided with a bevel gear IV, the bevel gear III is meshed with the bevel gear IV, one side of the bevel gear IV is provided with a motor II, and the motor II is connected to the supporting shell; the motor II rotates to drive the sector gear to rotate, when the sector gear is in contact with the double-sided rack, the double-sided rack is driven to move in the fixed shell through the guide plate, the double-sided rack drives the gear to rotate, the gear drives the air blowing nozzle to rotate, so that the air heater heats a product more uniformly, after the sector gear is separated from the double-sided rack, the spring pushes the double-sided rack to recover the original position, and the double-sided rack drives the air blowing nozzle to recover the original position through the gear;

preferably, a plurality of guide rods are symmetrically arranged on two sides of the supporting shell, one ends of the guide rods are connected to the base, the other ends of the guide rods are movably connected to the supporting shell through a supporting plate, and the supporting shell slides along the guide rods through the supporting plate; one side of the guide rod is provided with an electric telescopic rod which is connected to the base and the supporting plate; the electric telescopic rod works to drive the supporting shell to move along the guide rod, so that the distance between the drying device and the transmission device is adjusted, and a user can adjust the position of the supporting shell according to requirements.

Preferably, the top of the guide rod is provided with a positioning block, and the positioning block prevents the support shell from being separated from the guide rod when moving through the electric telescopic rod.

Preferably, a groove is formed in the inner side of the belt, and the suction head is located in the groove; when the suction fan works, the suction head is positioned in the groove, the air flow entering the suction head through the through hole is increased, and the adsorption force of the through hole on a product is increased.

Compared with the prior art, the invention has the beneficial effects that:

1) a suction fan is arranged on one side of the belt, a plurality of guide pipes I are arranged on one side of the suction fan, a plurality of suction heads are arranged on the upper portions of the guide pipes, the suction heads are tightly attached to the through holes, air pressure of the through holes is reduced when the suction fan works, products are adsorbed on the belt when passing through a transmission device, and the situation that the products are subjected to box change due to air flow generated by a hot air fan when the products are dried and the product quality is affected is avoided;

2) the motor II rotates to drive the double-sided rack to do reciprocating linear motion along the guide plate through the fan-shaped gear, and the double-sided rack drives the blowing nozzle to rotate repeatedly through the gear so that hot air generated by the air heater heats a product more uniformly;

3) the guiding device enables hot air to flow out of the air outlet after passing through the air inlet hole, so that the hot air enters the lower part of the product to heat the lower part of the product, and the product is heated more rapidly and uniformly.

Drawings

FIG. 1 is a schematic structural diagram of an automatic efficient drying device for gravure printing, which is disclosed by the invention;

FIG. 2 is a schematic structural diagram of a transmission device in the automatic high-efficiency drying device for gravure printing;

FIG. 3 is a schematic structural view of a belt in the automatic efficient drying device for gravure printing of the invention;

FIG. 4 is a schematic structural diagram of a flow guide device in the automatic efficient drying device for gravure printing;

FIG. 5 is a schematic structural diagram of a drying device in the automatic high-efficiency drying device for gravure printing according to the invention;

FIG. 6 is a schematic diagram of a double-sided rack structure in the automatic efficient drying device for gravure printing of the invention;

in the figure: 1-transmission device, 2-supporting shell, 3-drying device, 4-guiding rod, 5-positioning block, 6-supporting plate, 7-electric telescopic rod, 8-base, 11-belt, 12-guiding device, 13-chain wheel, 14-rotating shaft I, 15-bevel gear I, 16-bevel gear II, 17-motor I, 18-suction fan, 19-chain, 110-roller, 111-conduit I, 112-through hole, 113-suction head, 114-groove, 121-screw, 122-top cover, 123-guiding shell, 124-fixing plate, 125-adjusting plate, 126-air inlet hole, 127-air outlet hole, 31-hot air blower, 32-conduit II, 33-air blowing nozzle, 34-rotating shaft II, 35-gear, 36-double-sided rack, 37-guide plate, 38-spring, 39-fixed shell, 310-sector gear, 311-bevel gear III, 312-rotating shaft III, 313-bevel gear IV, 314-motor II.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 6.

An automatic efficient drying device for gravure printing comprises a transmission device 1, a base 8, a supporting shell 2 and a drying device 3, wherein the transmission device 1 is arranged on the upper portion of the base 8, the transmission device 1 comprises a belt 11, rolling shafts 110, a suction fan 18 and a guide pipe I111, the two rolling shafts 110 are symmetrically arranged on the upper portion of the base 8, the rolling shafts 110 are connected through the belt 11, a plurality of through holes 112 are formed in the surface of the belt 11, rotating shafts I14 are arranged at two ends of each rolling shaft 110, and the rotating shafts I14 are movably connected to the base 8 through bearings; one side of the rotating shaft I14 is provided with a chain wheel 13, and the two chain wheels 13 are connected through a chain 19; one side of the chain wheel 13 is provided with a bevel gear I15, the bevel gear I15 is connected to the rotating shaft I14, one side of the bevel gear I15 is provided with a bevel gear II 16, the bevel gear I15 is meshed with the bevel gear II 16, and one side of the bevel gear II 16 is provided with a motor I17; the motor I17 rotates to drive the rotating shaft I14 to rotate through the bevel gear I15 and the bevel gear II 16, and the rotating shaft I14 drives the belt 11 to rotate through the rolling shaft 110 to transport products; a suction fan 18 is arranged on one side of the belt 11, a plurality of guide pipes I111 are arranged on one side of the suction fan 18, a plurality of suction heads 113 are arranged on the upper parts of the guide pipes, and the suction heads 113 are tightly attached to the through holes 112; when a product is positioned on the surface of the belt 11, the suction fan 18 works to enable air flow to enter the suction head 113 through the through hole 112, and when the product passes through the belt 11, the product is tightly attached to the belt 11 through the through hole 112, so that the phenomenon that the quality of the product is affected by wrinkles generated in the drying process of the product is avoided;

a supporting shell 2 is arranged at the upper part of the transmission device 1, the supporting shell 2 is connected to a base 8, a drying device 3 is arranged in the supporting shell 2, and when a product passes through the transmission device 1, the drying device 3 dries the product; the drying device 3 blows hot air to the product through the hot air blower 31 to realize heating and drying of the product.

The drying device 3 comprises an air heater 31, air blowing nozzles 33 and a guide pipe II 32, the air heater 31 is arranged in the supporting shell 2, the air heater 31 is connected to the supporting shell 2, the air blowing nozzles 33 are arranged at the lower part of the air heater 31, and the air heater 31 is connected with the air blowing nozzles 33 through the guide pipe II 32; the hot air blower 31 generates hot air to heat and dry the product through the blowing nozzle 33.

The two sides of the belt 11 are symmetrically provided with the flow guiding devices 12, each flow guiding device 12 comprises a flow guiding shell 123, an air inlet 126 and an air outlet 127, the two sides of the belt 11 are symmetrically provided with the flow guiding shells 123, one side of each flow guiding shell 123 is provided with a plurality of air inlets 126, the other side of each flow guiding shell 123 is provided with a plurality of air outlets 127, and the upper parts of the flow guiding shells 123 are provided with top covers 122; hot air generated by the air heater 31 enters the diversion shell 123 through the air inlet hole 126 and flows out through the air outlet hole 127, the hot air flows to the lower part of the product through the diversion device 12, and the hot air flows through the through hole 112 to heat and dry the lower part of the product, so that the drying efficiency is improved.

A fixing plate 124 is arranged at the upper part of the top cover 122, an adjusting plate 125 is arranged at one side of the fixing plate 124, the adjusting plate 125 moves along the guide shell 123 in a clinging manner, a screw 121 is arranged at the other side of the fixing plate 124, and the adjusting plate 125 is fixed by rotating the screw 121; the air inflow amount in the guide shell 123 is controlled by moving the position of the adjusting plate 125, and the user can adjust the air inflow amount according to different products.

Two ends of the air blowing nozzle 33 are movably connected to the supporting shell 2 through a rotating shaft II 34, a gear 35 is arranged on one side of the rotating shaft II 34, a plurality of gears 35 are meshed with one another, a double-sided rack 36 is arranged on one side of the tail end gear 35, guide plates 37 are symmetrically arranged at two ends of the double-sided rack 36, a spring 38 is arranged on one side of each guide plate 37, a fixed shell 39 is arranged on one side of each spring 38, the fixed shell 39 is connected to the supporting shell 2 through a fixed block, and each guide plate 37 moves in the fixed shell; one side of the double-sided rack 36 is provided with sector teeth 310, the sector teeth 310 are movably connected to the support shell 2 through a rotating shaft III 312, one side of the rotating shaft III 312 is provided with a bevel gear III 311, one side of the bevel gear III 311 is provided with a bevel gear IV 313, the bevel gear III 311 is meshed with the bevel gear IV 313, one side of the bevel gear IV 313 is provided with a motor II 314, and the motor II 314 is connected to the support shell 2; the motor II 314 rotates to drive the sector gear 310 to rotate, when the sector gear 310 is in contact with the double-sided rack 36, the double-sided rack 36 is driven to move in the fixed shell 39 through the guide plate 37, the double-sided rack 36 drives the gear 35 to rotate, the gear 35 drives the air blowing nozzle 33 to rotate, so that the air heater 31 heats a product more uniformly, after the sector gear 310 is separated from the double-sided rack 36, the spring 38 pushes the double-sided rack 36 to restore to the original position, and the double-sided rack 36 drives the air blowing nozzle 33 to restore to the original position through the gear;

a plurality of guide rods 4 are symmetrically arranged on two sides of the supporting shell 2, one ends of the guide rods 4 are connected to the base 8, the other ends of the guide rods 4 are movably connected to the supporting shell 2 through the supporting plate 6, and the supporting shell 2 slides along the guide rods 4 through the supporting plate 6; an electric telescopic rod 7 is arranged on one side of the guide rod 4, and the electric telescopic rod 7 is connected to the base 8 and the supporting plate 6; the electric telescopic rod 7 works to drive the supporting shell 2 to move along the guide rod 4, so that the distance between the drying device 3 and the transmission device 1 is adjusted, and a user can adjust the position of the supporting shell 2 as required.

The top of the guide rod 4 is provided with a positioning block 5, and the positioning block 5 prevents the support shell 2 from being separated from the guide rod 4 when moving through the electric telescopic rod 7.

A groove 114 is arranged on the inner side of the belt 11, and the suction head 113 is positioned in the groove 114; when the suction fan 18 works, the suction head 113 is positioned in the groove 114 to increase the air flow entering the suction head 113 through the through hole 112 and increase the adsorption force of the through hole 112 on the product.

The utility model provides an automatic high-efficient drying device is used in intaglio printing, the working process as follows: after printing of the product is finished, the product enters the transmission device 1, the product is placed on the belt 11 and is rotated through the click I to drive the belt 11 to rotate so as to achieve transportation of the product, when the product enters the lower portion of the drying device 3, the hot air fan 31 in the drying device 3 generates hot air, the hot air is blown out through the air blowing nozzle 33 to achieve heating and drying of the product, the suction fan 18 works to reduce the air pressure in the through hole 112 through the suction head 113 and is adsorbed onto the belt 11, and the phenomenon that the product is deformed when being dried due to the hot air blowing to affect the product quality is avoided.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims (7)

1. An automatic efficient drying device for gravure printing comprises a transmission device, a base, a supporting shell and a drying device, and is characterized in that the transmission device is arranged at the upper part of the base and comprises a belt, rolling shafts, a suction fan and a guide pipe I, the two rolling shafts are symmetrically arranged at the upper part of the base and are connected through the belt, a plurality of through holes are formed in the surface of the belt, rotating shafts I are arranged at two ends of the rolling shafts, and the rotating shafts I are movably connected to the base through bearings; one side of the rotating shaft I is provided with a chain wheel, and the two chain wheels are connected through a chain; one side of the chain wheel is provided with a bevel gear I, the bevel gear I is connected to the rotating shaft I, one side of the bevel gear I is provided with a bevel gear II, the bevel gear I is meshed with the bevel gear II, and one side of the bevel gear II is provided with a motor I; a suction fan is arranged on one side of the belt, a plurality of guide pipes I are arranged on one side of the suction fan, a plurality of suction heads are arranged on the upper portions of the guide pipes, and the suction heads are tightly attached to the through holes;

the upper portion of the transmission device is provided with a supporting shell, the supporting shell is connected to the base, and a drying device is arranged inside the supporting shell.

2. The automatic high-efficiency drying device for intaglio printing as claimed in claim 1, wherein said drying device comprises a hot air blower, air blowing nozzles, and a conduit, said support housing is provided with a hot air blower therein, said hot air blower is connected to said support housing, said hot air blower is provided with a plurality of air blowing nozzles at a lower portion thereof, and said hot air blower is connected to said air blowing nozzles through said conduit.

3. The automatic efficient drying device for intaglio printing as claimed in claim 1, wherein said belt is symmetrically provided with deflector means at both sides, said deflector means comprises deflector shell, air inlet holes, air outlet holes, said belt is symmetrically provided with deflector shell at both sides, said deflector shell is provided with a plurality of air inlet holes at one side, a plurality of air outlet holes at the other side, and a top cover is provided at the upper part of the deflector shell.

4. The automatic efficient drying apparatus for intaglio printing as claimed in claim 3, wherein said top cover has a fixing plate on the top, an adjusting plate on one side of the fixing plate, the adjusting plate moving close to the diversion casing, and a screw on the other side of the fixing plate, the fixing of the adjusting plate being achieved by rotating the screw.

5. The automatic efficient drying device for intaglio printing according to claim 2 wherein both ends of the air blowing nozzle are movably connected to the support housing through a rotating shaft II, a gear is arranged on one side of the rotating shaft II, a plurality of gears are engaged with each other, a double-sided rack is arranged on one side of the end gear, guide plates are symmetrically arranged on both ends of the double-sided rack, a spring is arranged on one side of each guide plate, a fixed housing is arranged on one side of each spring, the fixed housing is connected to the support housing through a fixed block, and the guide plates move in the fixed housing; two-sided rack one side is equipped with fan-shaped tooth, and fan-shaped tooth is through III swing joint of pivot on supporting the shell, and III one sides of pivot are equipped with bevel gear III, and III one side of bevel gear is equipped with bevel gear IV, and bevel gear III meshes with bevel gear IV mutually, and bevel gear IV one side is equipped with motor II, and motor II connects on supporting the shell.

6. The automatic efficient drying device for intaglio printing as recited in claim 5, wherein a positioning block is provided on the top of said guide bar.

7. The automatic efficient drying apparatus for intaglio printing as recited in claim 1, wherein said belt is provided with a groove on an inner side thereof, and said suction head is located in said groove.

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