CN112408010B - Film printing and drying device and using method thereof - Google Patents

Abstract

The invention discloses a film printing and drying device and a using method thereof, and belongs to the technical field of printing. The invention improves the printing efficiency.

Description

Film printing and drying device and using method thereof

Technical Field

The invention relates to the field of film printing, in particular to a film printing and drying device and a using method thereof.

Background

With the development of industrial technology, many printed products are in a film shape, and a printing mechanism is often required to be used for printing patterns or characters on the film, however, the thickness of the film is small, the feeding is not convenient, and the printing operation efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a film printing and drying device and a using method thereof, when the device is used, the lifting motor drives the two parallel rods to rotate, so that the material taking platform at the end of the parallel rods falls down, the air machine takes out the air in the sucker, the film and the sucker form a whole, when the material taking platform rises to a certain height, the servo motor drives the top plate and the bottom plate to advance through the screw rod, then the edge of the film is clamped by the finger clamping cylinder, when the two racks stretch to the two sides, the finger clamping cylinder slightly stretches to the two sides for a certain distance to smooth the film, then press from both sides and indicate the cylinder to promote the film in the compression roller in the feeding subassembly, after printing the module and having printed, the film can enter into the centre gripping subassembly in the opposite side of feeding subassembly, has realized the function of unloading in the automation, has improved efficiency.

In order to solve the above problems, the present invention provides the following technical solutions: a film printing and drying device comprises top tracks, wherein the number of the top tracks is two, the top tracks are independently and fixedly installed, each top track is provided with a sliding installation block, the sliding installation blocks are in sliding connection with the top tracks, the bottom ends of the two sliding installation blocks are jointly and fixedly provided with a top plate, a bottom plate is arranged below the sliding installation blocks, two connecting bridges are arranged between the bottom plate and the top plate, one end head of each connecting bridge is fixedly connected with the top surface of the top plate, the other end head of each connecting bridge is fixedly connected with the bottom surface of the bottom plate, a servo motor is installed on one side of one of the top tracks, a lead screw is installed at the output end of the servo motor, a nut block is sleeved on the lead screw, the nut block is fixedly connected with a sliding installation block on the corresponding top track, a film supporting table is fixedly arranged below the top plate, and a film stack is arranged on the inner side of the film supporting table.

In one embodiment, two opposite ends of the bottom surface of the top plate are respectively provided with a curve groove frame, the bottom end of the curve groove frame is provided with a linear groove body, an inner cavity of the curve groove frame is communicated with an inner cavity of the linear groove body, a first push rod and a second push rod are inserted into the inner sides of the curve groove frame and the linear groove body in a penetrating manner, the first push rod and the second push rod are both connected with the inner wall of the curve groove frame/linear groove body in a sliding manner, two limiting flanges are arranged on the first push rod and the second push rod respectively and are respectively attached to two opposite side faces of the curve groove frame/linear groove body, one ends of the first push rod and the second push rod are jointly provided with a connecting plate, two opposite ends of the connecting plate are respectively connected to the end portion of the first push rod and the end portion of the second push rod, one side of the middle of the connecting plate is provided with a vertical plate, and one side of the vertical plate is fixedly provided with a clamping finger cylinder.

In one embodiment, the top surface of the bottom plate is provided with two square rod guide rails, the two square rod guide rails are arranged in parallel at intervals and are respectively adjacent to two opposite ends of the bottom plate, each square rod guide rail is sleeved with a sliding table, the sliding tables are connected with the square rod guide rails in a sliding manner, a rack is fixed above each sliding table, the racks are connected with the sliding tables through connecting rods, a gear disc is arranged on the bottom plate and is positioned between the two square rod guide rails, the gear disc is rotatably connected with the top surface of the bottom plate, a bidirectional gear is arranged in the center of the top surface of the gear disc and is respectively connected with the two racks, a notch frame is fixedly arranged at one end, far away from each other, of the two racks, two second push rods are respectively inserted into the inner sides of the sliding grooves of the two notch frames and are connected with the notch frames in a sliding manner, a reduction gear is arranged at one side of the gear disc, and the reduction gear is meshed with the gear disc, the reduction gear is installed on the output end of gear motor, and gear motor and the bottom surface fixed connection of bottom plate.

In one embodiment, a feeding assembly is arranged above the top plate and comprises two plane bearings, the plane bearings are respectively and independently fixedly installed and are adjacent to two finger clamping cylinders, one side of each plane bearing is provided with a parallel rod, the bottom end of each parallel rod is rotatably connected with the corresponding plane bearing, one parallel rod is installed at the output end of a lifting motor and is fixedly connected with the side surface of each plane bearing, one end, far away from the plane bearing, of each parallel rod is jointly provided with a material taking platform, the side surface of each material taking platform is rotatably connected with the end heads of the two parallel rods, an air machine is installed on the top surface of each material taking platform, the bottom surface of each material taking platform is provided with a plurality of suckers, and the air machines are connected with the suckers through pipelines.

In one of them embodiment, one side of roof is provided with the feeding subassembly, and the top of feeding subassembly is provided with print module, the feeding subassembly includes four fixed axle beds, two sets of about four fixed axle beds divide into, every group includes two fixed axle beds, movable axle bed is installed on the equal top of four fixed axle beds, the both sides of fixed axle bed are provided with the buffer beam, the both sides of activity axle bed are provided with and buffer beam assorted trompil, loose axle bed and buffer beam sliding connection, the cover is equipped with reset spring on the buffer beam, reset spring's bottom and the top surface of fixed axle bed are connected, reset spring's top and the bottom surface of activity axle bed are connected, the compression roller is all installed to one side of fixed axle bed and activity axle bed, compression roller and the fixed axle bed or the activity axle bed swivelling joint that correspond.

In one embodiment, the compression roller on the fixed shaft seat on the left side is connected with the compression roller on the fixed shaft seat on the corresponding right side through a second connecting rod, wherein one end of the compression roller on the two fixed shaft seats on the left side is fixedly provided with a driving wheel, the driving wheel is connected with the corresponding compression roller through a round rod, the round rod between the driving wheel and the corresponding compression roller penetrates through the fixed shaft seats, the two driving wheels are connected through a belt sleeve, one compression roller on the fixed shaft seat on the right side is arranged at the output end of a feeding motor, and the feeding motor is fixedly connected with the side face of the fixed shaft seat.

In one embodiment, one side that the roof was kept away from to the feeding subassembly is provided with the centre gripping subassembly, and the centre gripping subassembly includes the riser, and the disc is installed to one side of riser, and disc and riser swivelling joint, the riser keep away from one side of disc and install the transposition motor, and the output of transposition motor passes riser and disc connection.

In one embodiment, a fixed plate is fixedly mounted on one side of a disc, a sliding plate is arranged above the fixed plate, two insertion rods are arranged on the fixed plate, a round sleeve matched with the insertion rods is arranged on the sliding plate, the insertion rods penetrate through the round sleeve and are in sliding connection with the round sleeve, a first air cylinder is fixedly mounted on the side face of the disc, and the output end of the first air cylinder is connected with the side face of the sliding plate.

In one of them embodiment, the top of centre gripping subassembly is provided with the stoving subassembly, the stoving subassembly includes the fin, fin fixed mounting, the inboard interlude of fin has the heat pipe, and be provided with on the fin with heat pipe assorted trompil, the fan is installed on the top of fin, two ends of heat pipe all are provided with the pipeline end, the one end of one of them pipeline end is connected to the output of water pump, the water tank is installed to the end of another pipeline end, the input of water pump passes through the connecting pipe and the water tank is connected, the electric heat bar is installed to the inboard of water tank, the end of electric heat bar is provided with power connection.

The invention has the beneficial effects that:

one of them, the device is when using, elevator motor drives two parallel bars rotatory, the platform of getting of parallel bar end so can fall, the air in the sucking disc is taken out to the air machine so, the film will form an organic whole with the sucking disc, get when the platform rises to a take the altitude, servo motor drives roof and bottom plate through the lead screw and impels forward, then the edge of film is cliied to the press finger cylinder, when two racks stretch to both sides, the press finger cylinder just stretches a section distance to both sides slightly and smoothes out the film, then the press finger cylinder impels the film in the compression roller in the feeding subassembly, after printing module printed, the film can be followed the opposite side of feeding subassembly and entered into in the centre gripping subassembly, the function of unloading has been realized voluntarily, and efficiency is improved.

Secondly, in the hot water pressure heat-conducting pipe in the water pump extraction water tank, the fan drove the air and blows to the film, and after one side of film was weathered, transposition motor drove fixed plate and sliding plate rotation one hundred eighty degrees and exchanged an angle, and the another side of film also can be weathered, and hot water heating can guarantee that the air can not be overheated, and this is just can be to the upper limit of accuse drying air temperature.

Drawings

Fig. 1 is a front view of a film printing and drying apparatus.

Fig. 2 is a schematic diagram of a side view of the film printing and drying apparatus.

Fig. 3 is a schematic cross-sectional view of the film printing and drying apparatus.

Fig. 4 is a schematic sectional view of the film printing and drying apparatus from a second viewing angle.

Fig. 5 is a schematic sectional view of the film printing and drying apparatus from a third viewing angle.

Fig. 6 is a schematic view of a feeding assembly of the film printing and drying device.

Fig. 7 is a schematic view of a feeding assembly of the film printing and drying apparatus.

Fig. 8 is a schematic view of a clamping assembly of the film printing and drying device.

Fig. 9 is a schematic diagram of a drying assembly of the film printing and drying apparatus.

Description of reference numerals:

1-top track, 2-sliding installation block, 3-top plate, 301-curved slot frame, 302-linear slot body, 303-first push rod, 304-second push rod, 305-limiting flanging, 306-connecting plate, 307-vertical plate, 308-clamping finger cylinder, 4-bottom plate, 401-square rod guide rail, 402-sliding table, 403-connecting rod, 404-gear disc, 405-bidirectional gear, 406-speed reducing motor, 407-speed reducing gear, 408-rack, 409-slot frame, 5-connecting bridge, 6-film support table, 7-film stack, 8-feeding assembly, 801-plane bearing, 802-lifting motor, 803-parallel rod, 804-material taking table, 805-air machine, 806-suction cup, 9-printing module, 10-feeding component, 1001-fixed shaft seat, 1002-movable shaft seat, 1003-buffer rod, 1004-reset spring, 1005-feeding motor, 1006-press roller, 1007-connecting rod II, 1008-driving wheel, 1009-belt, 11-clamping component, 1101-vertical plate, 1102-disc, 1103-transposition motor, 1104-fixed plate, 1105-sliding plate, 1106-inserting rod, 1107-round sleeve, 1108-first cylinder, 12-drying component, 1201-fin, 1202-fan, 1203-heat pipe, 1204-pipe end, 1205-water pump, 1206-water tank, 1207-connecting pipe, 1208-electric heating rod, 1209-power supply joint, 13-servo motor, 14-lead screw, 15-nut block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 9, the film printing and drying device includes a top rail 1, two top rails 1 are provided, and the top rails 1 are independently and fixedly installed, each top rail 1 is provided with a sliding installation block 2, the sliding installation block 2 is slidably connected with the top rail 1, the bottom ends of the two sliding installation blocks 2 are jointly and fixedly installed with a top plate 3, a bottom plate 4 is provided below the sliding installation block 2, two connection bridges 5 are provided between the bottom plate 4 and the top plate 3, one end of the connection bridge 5 is fixedly connected with the top surface of the top plate 3, the other end of the connection bridge 5 is fixedly connected with the bottom surface of the bottom plate 4, one side of one top rail 1 is provided with a servo motor 13, the output end of the servo motor 13 is provided with a lead screw 14, the lead screw 14 is sleeved with a nut block 15, the nut block 15 is fixedly connected with the corresponding sliding installation block 2 on the top rail 1, the fixed film supporting platform 6 that is provided with in below of roof 3, the inboard of film supporting platform 6 is provided with film pile 7, and roof 3 and bottom plate 4 are connected into a whole through connecting bridge 5, and servo motor 13 passes through lead screw 14 and nut piece 15 and drives roof 3 and bottom plate 4 operation, and roof 3 and bottom plate 4 slide along top track 1 through slidable mounting piece 2.

The opposite ends of the bottom surface of the top plate 3 are respectively provided with a curve groove rack 301, the bottom end of the curve groove rack 301 is provided with a straight line groove body 302, the inner cavity of the curve groove rack 301 is communicated with the inner cavity of the straight line groove body 302, the inner sides of each curve groove rack 301 and the straight line groove body 302 are inserted with a first push rod 303 and a second push rod 304, the first push rod 303 and the second push rod 304 are both connected with the inner walls of the curve groove rack 301 and the straight line groove body 302 in a sliding way, the first push rod 303 and the second push rod 304 are both provided with two limit flanges 305, the two limit flanges 305 are respectively attached to the opposite side surfaces of the curve groove rack 301/the straight line groove body 302, one end of the first push rod 303 and one end of the second push rod 304 are both provided with a connecting plate 306, the opposite ends of the connecting plate 306 are respectively connected to the end part of the first push rod 303 and the end part of the second push rod 304, one side of the middle part of the connecting plate 306 is provided with a vertical plate 307, a finger clamping cylinder 308 is fixedly mounted on one side of the vertical plate 307, the first push rod 303 and the second push rod 304 can slide on the inner sides of the curved groove frame 301 and the linear groove body 302, so that the finger clamping cylinder 308 also operates along with the connecting plate 306, and when the finger clamping cylinder 308 extends outwards, the straight line is firstly taken and then the curve is taken, namely when the two finger clamping cylinders 308 are far away from each other, the straight line is firstly taken and then the curve is taken.

The top surface of the bottom plate 4 is provided with two square rod guide rails 401, the two square rod guide rails 401 are arranged in parallel at intervals and are respectively adjacent to two opposite ends of the bottom plate 4, each square rod guide rail 401 is sleeved with a sliding table 402, the sliding table 402 is connected with the square rod guide rail 401 in a sliding manner, a rack 408 is fixed above each sliding table 402, the rack 408 is connected with the sliding table 402 through a connecting rod 403, the bottom plate 4 is provided with a gear disc 404, the gear disc 404 is positioned between the two square rod guide rails 401, the gear disc 404 is connected with the top surface of the bottom plate 4 in a rotating manner, the center of the top surface of the gear disc 404 is provided with a bidirectional gear 405, the bidirectional gear 405 is respectively connected with the two racks 408, the ends of the two racks 408, which are far away from each other, are fixedly provided with slot frames 409, the two second push rods 304 are respectively inserted into the inner sides of the sliding grooves of the two slot frames 409, the second push rods 304 are connected with the slot frames 409 in a sliding manner, one side of the gear disc 404 is provided with a reduction gear 407, the reduction gear 407 is meshed with the gear disc 404, the reduction gear 407 is mounted at the output end of the reduction motor 406, the reduction motor 406 is fixedly connected with the bottom surface of the bottom plate 4, the reduction motor 406 drives the gear disc 404 to rotate through the reduction gear 407, the bidirectional gear 405 and the gear disc 404 run synchronously, the bidirectional gear 405 drives the two racks 408 to run, and the notch frame 409 drives the first push rod 303 and the second push rod 304 to move.

A feeding assembly 8 is arranged above the top plate 3, the feeding assembly 8 comprises two plane bearings 801, the plane bearings 801 are respectively and independently fixedly installed and are adjacent to the two finger clamping air cylinders 308, one side of each plane bearing 801 is provided with a parallel rod 803, the bottom ends of the parallel rods 803 are rotatably connected with the plane bearings 801, one parallel rod 803 is installed on the output end of a lifting motor 802, the lifting motor 802 is fixedly connected with the side surface of the plane bearing 801, one ends of the two parallel rods 803, which are far away from the plane bearing 801, are together provided with a material taking platform 804, the side surface of the material taking platform 804 is rotatably connected with the end heads of the two parallel rods 803, the top surface of the material taking platform 804 is provided with an air machine 805, the bottom surface of the material taking platform 804 is provided with a plurality of suckers 806, the air machine 805 is connected with the suckers 806 through pipelines, the lifting motor 802 drives the material taking platform 804 to fall down through the parallel rods 803, and the air machine 805 pumps air in the suckers 806 when the suckers 806 are attached to films, the lift motor 802 is turned over to lift the film to a predetermined position, at which time the gripper finger cylinder 308 advances to grip the film.

A feeding component 10 is arranged on one side of the top plate 3, a printing module 9 is arranged above the feeding component 10, the feeding component 10 comprises four fixed shaft seats 1001, movable shaft seats 1002 are respectively arranged at the top ends of the four fixed shaft seats 1001, buffer rods 1003 are arranged on two sides of the fixed shaft seats 1001, holes matched with the buffer rods 1003 are arranged on two sides of the movable shaft seats 1002, the movable shaft seats 1002 are in sliding connection with the buffer rods 1003, reset springs 1004 are sleeved on the buffer rods 1003, the bottom ends of the reset springs 1004 are connected with the top surfaces of the fixed shaft seats 1001, the top ends of the reset springs 1004 are connected with the bottom surfaces of the movable shaft seats 1002, compression rollers 1006 are respectively arranged on one sides of the fixed shaft seats 1001 and one side of the movable shaft seats 1002, the compression rollers 1006 are respectively in rotating connection with the fixed shaft seats 1001/movable shaft seats 1002, when the ends of the films contact with the compression rollers 1006, the compression rollers 1006 on the movable shaft seats 1002 are used for clamping the films with the compression rollers 1006 on the corresponding fixed shaft seats 1001, the roller 1006 rotates to bring the film into the roller 1006, and after the print module 9 has printed the film, the film is fed out from the other end of the roller 1006. The four fixed shaft seats 1001 are divided into two groups, one group including two fixed shaft seats 1001.

The compression roller 1006 on the left fixed shaft seat 1001 is connected with the compression roller 1006 on the corresponding right fixed shaft seat 1001 through a connecting rod two 1007, wherein a driving wheel 1008 is fixedly mounted at one end of the compression roller 1006 on the left fixed shaft seat 1001, the driving wheel 1008 is connected with the corresponding compression roller 1006 through a round rod, the driving wheel 1008 and the round rod between the corresponding compression roller 1006 pass through the fixed shaft seat 1001, the two driving wheels 1008 are sleeved and connected through a belt 1009, the compression roller 1006 on the right fixed shaft seat 1001 is mounted at the output end of the feeding motor 1005, the feeding motor 1005 is fixedly connected with the side surface of the fixed shaft seat 1001, and the feeding motor 1005 drives the compression roller 1006 to synchronously run through the connecting rod two 1007 and the belt 1009.

One side of the feeding assembly 10, which is far away from the top plate 3, is provided with a clamping assembly 11, the clamping assembly 11 includes a vertical plate 1101, a disc 1102 is installed on one side of the vertical plate 1101, the disc 1102 is rotatably connected with the vertical plate 1101, a transposition motor 1103 is installed on one side of the vertical plate 1101, which is far away from the disc 1102, and an output end of the transposition motor 1103 passes through the vertical plate 1101 and is connected with the disc 1102.

One side of the disc 1102 is fixedly provided with a fixed plate 1104, a sliding plate 1105 is arranged above the fixed plate 1104, two insertion rods 1106 are arranged on the fixed plate 1104, a round sleeve 1107 matched with the insertion rods 1106 is arranged on the sliding plate 1105, the insertion rods 1106 penetrate through the round sleeve 1107, the insertion rods 1106 are in sliding connection with the round sleeve 1107, a first cylinder 1108 is fixedly arranged on the side surface of the disc 1102, the output end of the first cylinder 1108 is connected with the side surface of the sliding plate 1105, a film can be fed between the fixed plate 1104 and the sliding plate 1105, then the first cylinder 1108 drives the sliding plate 1105 to compress the film, and the transposition motor 1103 can drive the disc 1102 to transfer position.

A drying component 12 is arranged above the clamping component 11, the drying component 12 comprises a fin 1201, the fin 1201 is fixedly arranged, a heat conducting pipe 1203 is inserted into the inner side of the fin 1201, the fins 1201 are provided with holes matched with the heat conducting pipes 1203, the top ends of the fins 1201 are provided with fans 1202, two ends of the heat conducting pipes 1203 are provided with pipe ends 1204, one end of one of them pipeline end 1204 is connected to the output of water pump 1205, water tank 1206 is installed to the end of another pipeline end 1204, the input of water pump 1205 passes through connecting pipe 1207 and the water tank 1206 is connected, electric bar 1208 is installed to the inboard of water tank 1206, the end of electric bar 1208 is provided with power connection 1209, hot water in the water pump 1205 extraction water tank is pressed into heat pipe 1203, fan 1202 drives the air and is passed through fin 1201, the temperature that fin 1201 heats is being controlled by hot water, so air temperature can not exceed one hundred degrees, prevent that the stoving is excessive.

When the device is used, the top plate 3 and the bottom plate 4 are connected into a whole through the connecting bridge 5, the servo motor 13 drives the top plate 3 and the bottom plate 4 to move forwards through the screw rod 14 and the nut block 15, the top plate 3 and the bottom plate 4 slide along the top track 1 through the sliding installation block 2, the first push rod 303 and the second push rod 304 can slide on the inner sides of the curved groove frame 301 and the linear groove frame 302, the finger clamping cylinder 308 moves along the connecting plate 306, the finger clamping cylinder 308 moves linearly and then moves along a curve when stretching outwards, the gear motor 406 drives the gear disc 404 to rotate through the reduction gear 407, the bidirectional gear 405 and the gear disc 404 synchronously operate, the bidirectional gear 405 drives the two racks 408 to operate, the groove frame 409 drives the first push rod 304 and the second push rod 304 to move, the lifting motor 802 drives the material taking platform 804 to fall through the parallel rods 803, and the air machine 805 extracts air in the suction cups to adsorb films when the suction cups 806 are attached to the films, the lifting motor 802 overturns to lift the film to a preset position, the clamping finger cylinders 308 move from the lower parts of the two parallel rods 803 under the drive of the top plate 3 and pass through the lower part of the plane bearing 801 until the two clamping finger cylinders 308 clamp the film below the suction disc 806, the suction disc 806 releases the film at the moment, then the two clamping finger cylinders 308 clamp the film to advance forwards until the edge of the film contacts the compression roller 1006, the four compression rollers 1006 rotate to bring the film into the compression roller 1006, after the printing module 9 finishes printing, the film is sent out from the other end of the compression roller 1006, the feeding motor 1005 drives the compression rollers 1006 to synchronously operate through two connecting rods 1007 and a belt 1009, the film is sent between the fixed plate 1104 and the sliding plate 1105, then the first cylinder 1108 drives the sliding plate 1105 to move downwards to compress the film, the transposition motor 1103 can drive the disc 1102 to transfer the position, the water pump 1205 pumps hot water in the water tank and presses the heat conduction pipe 1203, the fan 1202 drives air to pass through the fins 1201, the temperature of the heated air of the fins 1201 is controlled by hot water, and therefore the air temperature cannot exceed one hundred degrees, and excessive drying is prevented.

For example, an elastic support platform is disposed between the four fixed shaft bases 1001 for supporting the film to provide support force for the film in coordination with the printing operation of the film. It is understood that a single fixed mounting/fixed mounting or the like is to be understood as a fixed mounting relative to the ground.

For example, the invention also provides a using method of the film printing and drying device, which comprises the following steps:

providing the film printing and drying device;

the lifting motor 802 drives the material taking table 804 to fall down through the two parallel rods 803, the air machine 805 pumps air in the suction cup to adsorb the film by the suction cup when the suction cup 806 is attached to the film, and the lifting motor 802 drives the two parallel rods 803 to rotate again to lift the film to a preset position;

the servo motor 13 drives the top plate 3 and the bottom plate 4 to move forwards through the screw rod 14 and the nut block 15, the top plate 3 and the bottom plate 4 slide along the top track 1, the two clamping finger cylinders 308 move from the lower parts of the two parallel rods 803 under the drive of the top plate 3 and pass through the lower parts of the plane bearings 801 until the two clamping finger cylinders 308 contact the edge of the film;

the gear motor 406 drives the gear disc 404 to rotate through the reduction gear 407, the bidirectional gear 405 and the gear disc 404 run synchronously, the bidirectional gear 405 drives the two racks 408 to move oppositely, the notch frame 409 drives the first push rod 303 and the second push rod 304 to move, so that the two finger clamping cylinders 308 are driven to move oppositely, the two kneading parts of each finger clamping cylinder 308 are used for containing the edge of the film, and the suction disc 806 releases the film and moves upwards away from the film;

the reduction gear 407 is driven by the reduction motor 406 to rotate reversely, so that the first push rod 303 and the second push rod 304 slide on the inner sides of the curved slot frame 301 and the linear slot body 302, the two finger clamping cylinders 308 are driven by the corresponding connecting plates 306 to be away from each other, when the finger clamping cylinders 308 stretch outwards, the straight lines are firstly moved, then the curves are moved, the thin film is lifted, and then the edges of the thin film are clamped and fixed by the two finger clamping cylinders 308;

the top plate 3 drives the two clamping finger cylinders 308 to move forwards continuously until the edge of the film contacts the press roller 1006, the two clamping finger cylinders 308 release the film, the four press rollers 1006 rotate to bring the film into the press rollers 1006 and enable the film to be aligned and positioned with the printing module, and the printing module 9 prints the film;

the feeding motor 1005 drives the four pressing rollers 1006 to synchronously rotate through the second connecting rod 1007 and the belt 1009, and then the four pressing rollers 1006 are used for conveying the film between the fixed plate 1104 and the sliding plate 1105;

the first cylinder 1108 drives the sliding plate 1105 to move downward to press the film, and the indexing motor 1103 drives the disc 1102 to rotate to align with the fan 1202 to perform the drying operation.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (8)

1. The utility model provides a film printing and drying device which characterized in that: comprises two top tracks (1), the top tracks (1) are provided with two tracks, the top tracks (1) are independently and fixedly installed, each top track (1) is provided with a sliding installation block (2), the sliding installation blocks (2) are in sliding connection with the top tracks (1), the bottom ends of the two sliding installation blocks (2) are fixedly provided with a top plate (3) together, a bottom plate (4) is arranged below the sliding installation blocks (2), two connecting bridges (5) are arranged between the bottom plate (4) and the top plate (3), one end of each connecting bridge (5) is fixedly connected with the top surface of the top plate (3), the other end of each connecting bridge (5) is fixedly connected with the bottom surface of the bottom plate (4), one side of one top track (1) is provided with a servo motor (13), the output end of each servo motor (13) is provided with a lead screw (14), the lead screw (14) is sleeved with a nut block (15), the screw block (15) is fixedly connected with the sliding installation block (2) on the corresponding top track, a film support table (6) is fixedly arranged below the top plate (3), a film stack (7) is arranged on the inner side of the film support table (6), curve groove frames (301) are respectively arranged at two opposite ends of the bottom surface of the top plate (3), a linear groove body (302) is arranged at the bottom end of each curve groove frame (301), the inner cavity of each curve groove frame (301) is communicated with the inner cavity of the linear groove body (302), a first push rod (303) and a second push rod (304) are inserted into the inner sides of the curve groove frames (301) and the linear groove bodies (302), the first push rod (303) and the second push rod (304) are both in sliding connection with the inner walls of the curve groove frames (301)/the linear groove bodies (302), two limit flanges (305) are arranged on the first push rod (303) and the second push rod (304), two spacing turn-ups (305) are laminated curve chase (301)/two relative sides of straight line cell body (302) respectively, the one end of first catch bar (303) and second catch bar (304) is provided with connecting plate (306) jointly, the relative both ends of connecting plate (306) are connected respectively on the tip of first catch bar (303) and the tip of second catch bar (304), middle part one side of connecting plate (306) is provided with vertical board (307), one side fixed mounting of vertical board (307) has and presss from both sides and indicates cylinder (308).

2. The film printing and drying apparatus of claim 1, wherein: the top surface of the bottom plate (4) is provided with two square rod guide rails (401), the two square rod guide rails (401) are arranged in parallel at intervals and are respectively adjacent to two opposite ends of the bottom plate (4), each square rod guide rail (401) is sleeved with a sliding table (402), each sliding table (402) is in sliding connection with the corresponding square rod guide rail (401), a rack (408) is fixed above each sliding table (402), the racks (408) are connected with the sliding tables (402) through connecting rods (403), a gear disc (404) is installed on the bottom plate (4), the gear disc (404) is located between the two square rod guide rails (401), the gear disc (404) is in rotating connection with the top surface of the bottom plate (4), a bidirectional gear (405) is installed in the center of the top surface of the gear disc (404), the bidirectional gears (405) are respectively connected with the two racks (408), and slotted opening frames (409) are fixedly installed at the ends, far away from each other, of the two racks (408), two second catch bars (304) alternate respectively in the spout inboard of two notch frame (409), second catch bar (304) and notch frame (409) sliding connection, reduction gear (407) are installed to one side of toothed disc (404), reduction gear (407) and toothed disc (404) intermeshing, reduction gear (407) are installed on the output of gear motor (406), the bottom surface fixed connection of gear motor (406) and bottom plate (4).

3. The film printing and drying apparatus according to claim 2, wherein: a feeding assembly (8) is arranged above the top plate (3), the feeding assembly (8) comprises two plane bearings (801), the plane bearings (801) are respectively and independently fixedly installed and are adjacent to the two finger clamping cylinders (308), one side of each plane bearing (801) is provided with a parallel rod (803), the bottom ends of the parallel rods (803) are rotatably connected with the plane bearings (801), one parallel rod (803) is installed at the output end of a lifting motor (802), the lifting motor (802) is fixedly connected with the side surfaces of the plane bearings (801), one ends, far away from the plane bearings (801), of the two parallel rods (803) are jointly provided with a material taking platform (804), the side surfaces of the material taking platform (804) are rotatably connected with the end heads of the two parallel rods (803), the top surface of the material taking platform (804) is provided with an air machine (805), the bottom surface of the material taking platform (804) is provided with a plurality of suckers (806), the air motor (805) is connected to the suction cup (806) by a conduit.

4. The film printing and drying apparatus of claim 3, wherein: a feeding assembly (10) is arranged on one side of the top plate (3), a printing module (9) is arranged above the feeding assembly (10), the feeding assembly (10) comprises four fixed shaft seats (1001), the four fixed shaft seats (1001) are divided into a left group and a right group, each group comprises two fixed shaft seats (1001), movable shaft seats (1002) are arranged at the top ends of the four fixed shaft seats (1001), buffer rods (1003) are arranged on the two sides of the fixed shaft seats (1001), holes matched with the buffer rods (1003) are arranged on the two sides of the movable shaft seats (1002), the movable shaft seats (1002) are in sliding connection with the buffer rods (1003), return springs (1004) are sleeved on the buffer rods (1003), the bottom ends of the return springs (1004) are connected with the top surfaces of the fixed shaft seats (1001), the top ends of the return springs (1004) are connected with the bottom surfaces of the movable shaft seats (1002), compression rollers (1006) are arranged on one sides of the fixed shaft seats (1001) and the movable shaft seats (1002), the compression roller (1006) is rotatably connected with the corresponding fixed shaft seat (1001) or movable shaft seat (1002).

5. The film printing and drying apparatus according to claim 4, wherein: the compression roller (1006) on the fixed shaft seat (1001) on the left side is connected with the compression roller (1006) on the fixed shaft seat (1001) on the right side corresponding to the compression roller (1006) on the left side through a second connecting rod (1007), wherein the transmission wheel (1008) is fixedly installed at one end of the compression roller (1006) on the two fixed shaft seats (1001) on the left side, the transmission wheel (1008) is connected with the corresponding compression roller (1006) through a round rod, the round rod between the transmission wheel (1008) and the corresponding compression roller (1006) penetrates through the fixed shaft seats (1001), the two transmission wheels (1008) are sleeved and connected through a belt (1009), wherein the compression roller (1006) on the fixed shaft seat (1001) on the right side is installed at the output end of a feeding motor (1005), and the side face of the feeding motor (1005) and the fixed shaft seats (1001) are fixedly connected.

6. The film printing and drying apparatus of claim 5, wherein: one side of the feeding assembly (10) far away from the top plate (3) is provided with a clamping assembly (11), the clamping assembly (11) comprises a vertical plate (1101), a disc (1102) is installed on one side of the vertical plate (1101), the disc (1102) is rotatably connected with the vertical plate (1101), a transposition motor (1103) is installed on one side of the vertical plate (1101) far away from the disc (1102), and the output end of the transposition motor (1103) penetrates through the vertical plate (1101) to be connected with the disc (1102).

7. The film printing and drying apparatus of claim 6, wherein: one side fixed mounting of disc (1102) has fixed plate (1104), and the top of fixed plate (1104) is provided with sliding plate (1105), be provided with two interlude pole (1106) on fixed plate (1104), be provided with on sliding plate (1105) with interlude pole (1106) assorted circle cover (1107), interlude pole (1106) pass from circle cover (1107), interlude pole (1106) and circle cover (1107) sliding connection, the side fixed mounting of disc (1102) has first cylinder (1108), the output of first cylinder (1108) and the side of sliding plate (1105) are connected.

8. The film printing and drying apparatus of claim 7, wherein: the top of centre gripping subassembly (11) is provided with stoving subassembly (12), stoving subassembly (12) are including fin (1201), fin (1201) fixed mounting, heat pipe (1203) have been alternate to the inboard of fin (1201), and be provided with on fin (1201) with heat pipe (1203) assorted trompil, fan (1202) are installed to the top of fin (1201), two ends of heat pipe (1203) all are provided with pipeline end (1204), the one end of one of them pipeline end (1204) is connected to the output of water pump (1205), water tank (1206) are installed to the end of another pipeline end (1204), the input of water pump (1205) is passed through connecting pipe (1207) and water tank (1206) and is connected, electric heat bar (1208) are installed to the inboard of water tank (1206), the end of electric heat bar (1208) is provided with power connection (1209).

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