CN112123924B - Float surface heat transfer printing system - Google Patents

Abstract

The invention provides a float surface heat transfer printing system, which comprises a rotating disc arranged on a transfer printing machine, wherein a plurality of hanging rods are uniformly distributed on one side of the rotating disc, a fixed support arm is arranged on a frame on one side below the hanging rods, a disc belt rotating wheel is arranged at the bottom of the fixed support arm through a corresponding bearing ring, a disc stripping assembly is arranged on the disc belt rotating wheel, a material supporting plate is arranged at the top of the fixed support arm, a pushing assembly is arranged above the material supporting plate, a material conveying assembly is arranged on one side of the material supporting plate, and a feeding and sucking assembly is arranged on the frame in the input direction of the material conveying assembly at intervals. The structure is reasonable after the scheme is adopted, the using effect is good, and the degree of automation is high.

Description

Float surface heat transfer printing system

Technical Field

The invention relates to the technical field of fishing nets, in particular to a float surface heat transfer printing system.

Background

In order to identify the floats on the water surface, the luminous marks are often printed on the surfaces of the floats through thermal transfer printing, the traditional float thermal transfer printing needs to be matched with a plurality of groups of manipulators, one group of floats on the input rod are grabbed and placed at the position to be fed, the floats are sent to the hanging rod through other manipulators, the floats after transfer printing need to be grabbed and placed on the conveying rod through another group of manipulators, the conveying rod is used for driving the floats to enter the next working procedure, but due to the fact that the manipulator is complex in structure, the maintenance cost is high, and the production cost of enterprises can be greatly increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the float surface heat transfer printing system which has the advantages of reasonable structure, good use effect and high automation degree.

In order to achieve the above purpose, the technical scheme provided by the invention is as follows: a float surface heat transfer printing system comprises a rotary disk arranged on a transfer printing machine, wherein a plurality of hanging rods are uniformly distributed on one side of the rotary disk, a fixed support arm is arranged on a frame on one side below the hanging rods, a disk belt rotating wheel is arranged at the bottom of the fixed support arm through a corresponding bearing ring, a disk stripping assembly is arranged on the disk belt rotating wheel, a material supporting plate is arranged at the top of the fixed support arm, a pushing assembly is arranged above the material supporting plate, a spacing group feeding assembly is arranged on one side of the material supporting plate, and a feeding absorbing assembly is arranged on the frame in the input direction of the spacing group feeding assembly.

The feeding suction assembly comprises a shedding rod shaft which is horizontally arranged on a frame, the shedding rod shaft is driven to operate by a corresponding shedding rod motor, a shedding rod barrel is arranged on the shedding rod shaft, a shedding rod baffle is fixed at the end part of the shedding rod barrel far away from the shedding rod motor, bearing guide plates with the quantity being more than 5 are uniformly distributed on the outer peripheral surface of the shedding rod barrel, a floater bearing area is formed between the adjacent bearing guide plates, an air suction hole is formed in the shedding rod baffle of the floater bearing area, an air suction pipe is arranged outside the air suction hole, the air suction pipe is connected with an exhaust fan on the frame, an anti-falling cover plate is arranged above the shedding rod barrel, the anti-falling cover plate is in an arc shape, the inner arc surface of the anti-falling cover plate is downward, and the axis of the anti-falling cover plate and the shedding rod shaft axis are positioned on the same straight line.

The interval send group subassembly including material loading rotation axis, material loading section of thick bamboo, wherein, the material loading rotation axis is the level to be installed in the frame of holding in the palm the flitch top, the material loading rotation axis is driven by corresponding rotating electrical machines and moves, install material loading section of thick bamboo on the material loading rotation axis, evenly distributed has a quantity to be greater than 3 material loading guide slot on the material loading section of thick bamboo outer peripheral face, material loading section of thick bamboo one side slope installs the transition baffle, the material loading section of thick bamboo opposite side lower part is located to hold in the palm the flitch, the transition baffle is located in the frame between a pole section of thick bamboo and the material loading section of thick bamboo, the transition baffle is the arc, its inner arc face upwards, the higher one end of transition baffle is located a pole section of thick bamboo output side below, lower one end is located a pole section of thick bamboo one side top.

The pushing assembly comprises a guide shaft and a guide sliding plate, wherein the guide shaft is horizontally arranged on a frame above a material supporting plate, an arc-shaped supporting groove is formed in the surface of the material supporting plate, the guide sliding plate is movably arranged on the guide shaft, a pushing cylinder is horizontally arranged on the frame below the guide shaft, a piston rod of the pushing cylinder is connected with one side of the lower part of the guide sliding plate, a vertically downward pushing supporting rod is connected at the bottom of the guide sliding plate, a feeding pushing rod is connected at the bottom of the pushing supporting rod, and a pushing rod is connected at the middle part of the pushing supporting rod; the bottom of the pushing support rod is bent towards the direction of the material supporting plate to form a feeding connecting rod, a feeding perforation is formed at the end part of the feeding connecting rod, a feeding thread section is arranged at one end of the feeding push rod, and the feeding thread section is locked through a feeding rod adjusting nut after passing through the feeding perforation; the other side of the middle part of the pushing support rod is fixedly provided with a pushing connecting rod, a pushing perforation is arranged on the pushing connecting rod, one end of the pushing push rod is provided with a pushing thread section, and the pushing thread section is locked through a pushing rod adjusting nut after passing through the pushing perforation.

The disc-removing assembly comprises a telescopic shaft, a disc-removing rotary disc and a disc-removing air cylinder, wherein the center of the disc belt rotary wheel is provided with a telescopic shaft hole, the telescopic shaft hole is movably sleeved with the telescopic shaft, a disc-removing motor is arranged on a frame on one side of the disc belt rotary wheel, a transmission shaft of the disc-removing motor is connected with one end of the disc-removing air cylinder, the other end of the disc-removing air cylinder is connected with one end of the telescopic shaft, the other end of the telescopic shaft penetrates through the telescopic shaft hole to be connected with the disc-removing rotary disc, and one side of the disc-removing rotary disc, which is opposite to the hanging rod, is provided with a suction nozzle; the suction nozzles are four, the edge of the disc-shaped disc is divided into equal parts, a suction fan connected with the suction nozzle is arranged on the other side of the disc-shaped disc, an adjusting sliding sleeve is sleeved on the outer side wall of the suction fan, one side of the adjusting sliding sleeve extends to form a pushing support arm, and a pushing support rod is arranged on the pushing support arm.

After the scheme is adopted, when the external input rod drives the floats to move to the feeding and sucking assembly, the feeding and sucking assembly sucks the floats and sends the floats to the interval sending assembly, the interval sending assembly sequentially sends the floats to the material supporting plate, the floats on the material supporting plate are pushed to the hanging rod through the feeding push rod, the rotating disc drives the floats on the hanging rod to enter the thermal transfer printer for thermal transfer, the thermally transferred floats are sucked to the conveying rod through the disc removing assembly, and the floats enter the following procedure.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Detailed Description

The invention is further described below with reference to all drawings, in which preferred embodiments of the invention are: referring to fig. 1, a float surface thermal transfer printing system according to this embodiment includes a rotary disk 1 mounted on a transfer printing machine, a plurality of hanging rods 2 are uniformly distributed on one side of the rotary disk 1, a fixed support arm 3 is mounted on a frame on one side below the hanging rods 2, a belt rotating wheel 4 is mounted on the bottom of the fixed support arm 3 through a corresponding bearing ring, a tray stripping assembly is mounted on the belt rotating wheel 4, a material supporting plate 27 is mounted on the top of the fixed support arm 3, a pushing assembly is mounted above the material supporting plate 27, a spacing group feeding assembly is mounted on one side of the material supporting plate 27, and a feeding and absorbing assembly is mounted on the frame in the input direction of the spacing group feeding assembly.

The feeding suction assembly comprises a shedding shaft 41 which is horizontally arranged on a frame, the shedding shaft 41 is driven to operate by a corresponding shedding motor, a shedding cylinder 42 is arranged on the shedding shaft 41, a shedding baffle 43 is fixed at the end part of the shedding cylinder 42 far away from the shedding motor, bearing guide plates 44 with the quantity being more than 5 are uniformly distributed on the outer peripheral surface of the shedding cylinder 42, a floater bearing area is formed between the adjacent bearing guide plates 44, an air suction hole 45 is formed in the shedding baffle 43 of the floater bearing area, an air suction air pipe 47 is arranged outside the air suction hole 45, the air suction air pipe 47 is connected with an air suction fan 46 on the frame, an anti-falling cover plate 48 is arranged above the shedding cylinder 42, the anti-falling cover plate 48 is arc-shaped, the intrados of the anti-falling cover plate 48 is downward, and the axis of the anti-falling cover plate 48 and the axis of the shedding shaft 41 are positioned on the same straight line.

The interval group feeding component comprises a feeding rotating shaft 39 and a feeding barrel 310, wherein the feeding rotating shaft 39 is horizontally arranged on a frame above a supporting plate 27, the feeding rotating shaft 39 is driven to operate by a corresponding rotating motor, the feeding rotating shaft 39 is provided with the feeding barrel 310, feeding guide grooves 311 with the number being more than 3 are uniformly distributed on the peripheral surface of the feeding barrel 310, one side of the feeding barrel 310 is obliquely provided with a transition guide plate 312, the supporting plate 27 is positioned at the lower part of the other side of the feeding barrel 310, the transition guide plate 312 is positioned on a frame between a stripping barrel 42 and the feeding barrel 310, the transition guide plate 312 is arc-shaped, the inner arc surface of the transition guide plate faces upwards, the higher end of the transition guide plate 312 is positioned below the output side of the stripping barrel 42, and the lower end of the transition guide plate 312 is positioned above one side of the feeding barrel 310.

The pushing assembly comprises a guide shaft 21 and a guide sliding plate 23, wherein the guide shaft 21 is horizontally arranged on a frame above a material supporting plate 27, an arc-shaped supporting groove is formed in the surface of the material supporting plate 27, the guide sliding plate 23 is movably arranged on the guide shaft 21, a pushing cylinder 22 is horizontally arranged on the frame below the guide shaft 21, a piston rod of the pushing cylinder 22 is connected with one side of the lower part of the guide sliding plate 23, a vertically downward pushing supporting rod 24 is connected at the bottom of the guide sliding plate 23, a feeding pushing rod 25 is connected at the bottom of the pushing supporting rod 24, and a pushing rod 26 is connected at the middle part of the pushing supporting rod 24; the bottom of the pushing support rod 24 is bent towards the direction of the material supporting plate 27 to form a feeding connecting rod, a feeding perforation is arranged at the end part of the feeding connecting rod, a feeding thread section is arranged at one end of the feeding push rod 25, and the feeding thread section is locked through a feeding rod adjusting nut after passing through the feeding perforation; the other side of the middle part of the pushing support rod 24 is fixedly provided with a pushing connecting rod, a pushing perforation is arranged on the pushing connecting rod, one end of the pushing push rod 26 is provided with a pushing thread section, and the pushing thread section passes through the pushing perforation and is locked by a pushing rod adjusting nut.

The disc-removing assembly comprises a telescopic shaft 5, a disc-removing rotary disc 8 and a disc-removing air cylinder 7, wherein a telescopic shaft hole is formed in the center of the disc-strip rotary wheel 4, the telescopic shaft 5 is movably sleeved in the telescopic shaft hole, a disc-removing motor 6 is mounted on a frame on one side of the disc-strip rotary wheel 4, a transmission shaft of the disc-removing motor 6 is connected with one end of the disc-removing air cylinder 7, the other end of the disc-removing air cylinder 7 is connected with one end of the telescopic shaft 5, the other end of the telescopic shaft 5 penetrates through the telescopic shaft hole to be connected with the disc-removing rotary disc 8, and a suction nozzle 12 is arranged on one side of the disc-removing rotary disc 8 opposite to the hanging rod 2; the number of the suction nozzles 12 is four, the edge of the disc-removing rotary disc 8 is equal, a suction fan 13 connected with the suction nozzles 12 is arranged on the other side of the disc-removing rotary disc 8, an adjusting sliding sleeve 9 is sleeved on the outer side wall of the suction fan 13, a pushing support arm 10 is formed by extending one side of the adjusting sliding sleeve 9, and a pushing support rod 11 is arranged on the pushing support arm 10.

When the center of the suction hole and the center of the suction hole of the suction air pipe are positioned on the same straight line, the suction air pipe sucks the floats on the conveying support rod to generate suction force, so that the floats are sucked and fall into a float bearing area from the conveying support rod, the floats are supported by the bearing guide plate, the shedding shaft drives the shedding shaft to rotate to drive the floats to synchronously move in the feeding cylinder direction, the floats finally fall onto the transition guide plate from the bottom of the anti-falling cover plate at the output end, the floats at the output end of the transition guide plate enter the feeding guide groove through the guiding of the transition guide plate, the guide shaft rotates to drive the floats to fall onto the support plate through the feeding guide groove, and the floats are continuously driven to fall onto the support plate through the feeding guide groove and the positioning groove of the floats;

one suction nozzle in an original state faces one hanging rod in the output direction, each hanging rod is a station, each suction nozzle is also a station, a feeding push rod is positioned at one side of a supporting groove, the other end of the supporting groove is just the hanging rod to be fed, when feeding is needed, a piston rod of a pushing cylinder contracts to drive the feeding push rod to advance towards the direction of the hanging rod, so that a floater is pushed onto the hanging rod to finish feeding, and after the feeding is finished, the hanging rod is driven by a rotating disc to walk by one station (corresponding to the position of the pushing push rod), so that when the feeding push rod pushes the material, the pushing push rod synchronously walks to correct the placed floater, and therefore, the floaters on all the hanging rods are positioned at the same processing position, and thermal transfer printing is convenient to perform;

the floats after the thermal transfer printing are continuously rotated along with the rotary disk, when the floats move to the position of the disc-removing rotary disk, the disc-removing rotary disk is driven to walk in the direction of the rotary disk by a telescopic shaft through shrinkage of a piston rod of a disc-removing cylinder, when a suction nozzle opposite to a hanging rod is contacted with the floats, the end part of the floats is sucked by a suction nozzle, the disc-removing rotary disk is driven to be far away from the rotary disk by extension of the piston rod of the disc-removing cylinder, the floats are separated from the hanging rod, a station (suction nozzle station) is rotated by a disc-removing motor after separation, meanwhile, the rotary disk is rotated by a station, the floats on the suction nozzle station are rotated by a station and then opposite to the conveying rod, the next suction nozzle without floats is opposite to the rotating hanging rod, the disc-removing rotary disk is driven to walk in the direction of the rotary disk by the telescopic shaft, the suction nozzle without floats is sucked by the suction nozzle opposite to the conveying rod, the floats are conveyed to the suction nozzle by the conveying rod, and meanwhile, the suction floats are closed, and the floats are supported by the conveying rod to be conveyed to the next step; the automatic float device has the advantages of compact structure, high automation degree and capability of effectively realizing the automatic float generation.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, so that all changes made in the shape and principles of the present invention are covered by the scope of the present invention.

Claims (1)

1. The utility model provides a float surface heat transfer printing system, it includes rotary disk (1) of installing on the transfer printing machine, and rotary disk (1) wherein one side evenly distributed has a plurality of peg (2), its characterized in that: a fixed support arm (3) is arranged on a frame at one side below the hanging rod (2), a disc belt rotating wheel (4) is arranged at the bottom of the fixed support arm (3) through a corresponding bearing ring, a disc-removing assembly is arranged on the disc belt rotating wheel (4), a material supporting plate (27) is arranged at the top of the fixed support arm (3), a material pushing assembly is arranged above the material supporting plate (27), a spacing group feeding assembly is arranged at one side of the material supporting plate (27), and a feeding absorbing assembly is arranged on the frame in the input direction of the spacing group feeding assembly;

the feeding suction assembly comprises a shedding shaft (41) horizontally arranged on a frame, the shedding shaft (41) is driven to operate by a corresponding shedding motor, a shedding cylinder (42) is arranged on the shedding shaft (41), a shedding baffle plate (43) is fixed at the end part of the shedding cylinder (42) far away from the shedding motor, bearing guide plates (44) with the number larger than 5 are uniformly distributed on the outer peripheral surface of the shedding cylinder (42), a floater bearing area is formed between every two adjacent bearing guide plates (44), an air suction hole (45) is formed in the shedding baffle plate (43) of the floater bearing area, an air suction pipe (47) is arranged on the outer side of the air suction hole (45), the air suction pipe (47) is connected with an air exhauster (46) on the frame, an anti-falling cover plate (48) is arranged above the shedding cylinder (42), the anti-falling cover plate (48) is arc-shaped, the inner arc surface of the anti-falling cover plate (48) is downward, and the axis of the anti-falling cover plate (48) and the axis of the shedding plate (41) are positioned on the same straight line;

the interval group feeding assembly comprises a feeding rotating shaft (39) and a feeding barrel (310), wherein the feeding rotating shaft (39) is horizontally arranged on a frame above a supporting plate (27), the feeding rotating shaft (39) is driven to operate by a corresponding rotating motor, the feeding rotating shaft (39) is provided with the feeding barrel (310), the feeding guide grooves (311) with the number being more than 3 are uniformly distributed on the peripheral surface of the feeding barrel (310), one side of the feeding barrel (310) is obliquely provided with a transition guide plate (312), the supporting plate (27) is positioned at the lower part of the other side of the feeding barrel (310), the transition guide plate (312) is positioned on the frame between a stripping barrel (42) and the feeding barrel (310), the transition guide plate (312) is arc-shaped, the inner arc surface of the transition guide plate faces upwards, the higher end of the transition guide plate (312) is positioned below the output side of the stripping barrel (42), and the lower end of the transition guide plate (312) is positioned above one side of the feeding barrel (310).

The pushing assembly comprises a guide shaft (21) and a guide sliding plate (23), wherein the guide shaft (21) is horizontally arranged on a frame above a material supporting plate (27), an arc-shaped supporting groove is formed in the surface of the material supporting plate (27), the guide sliding plate (23) is movably arranged on the guide shaft (21), a pushing cylinder (22) is horizontally arranged on the frame below the guide shaft (21), a piston rod of the pushing cylinder (22) is connected with one side of the lower part of the guide sliding plate (23), a vertically downward pushing supporting rod (24) is connected at the bottom of the guide sliding plate (23), a feeding pushing rod (25) is connected at the bottom of the pushing supporting rod (24), and a pushing rod (26) is connected at the middle part of the pushing supporting rod (24); the bottom of the pushing support rod (24) is bent towards the direction of the material supporting plate (27) to form a feeding connecting rod, the end part of the feeding connecting rod is provided with a feeding perforation, one end of the feeding push rod (25) is provided with a feeding thread section, and the feeding thread section is locked through a feeding rod adjusting nut after passing through the feeding perforation; a pushing connecting rod is fixed on the other side of the middle part of the pushing supporting rod (24), a pushing perforation is arranged on the pushing connecting rod, one end of the pushing rod (26) is provided with a pushing thread section, and the pushing thread section is locked through a pushing rod adjusting nut after passing through the pushing perforation;

the disc-removing assembly comprises a telescopic shaft (5), a disc-removing rotary disc (8) and a disc-removing air cylinder (7), wherein a telescopic shaft hole is formed in the center of a disc belt rotary wheel (4), the telescopic shaft (5) is movably sleeved in the telescopic shaft hole, a disc-removing motor (6) is mounted on a frame on one side of the disc belt rotary wheel (4), a transmission shaft of the disc-removing motor (6) is connected with one end of the disc-removing air cylinder (7), the other end of the disc-removing air cylinder (7) is connected with one end of the telescopic shaft (5), the other end of the telescopic shaft (5) penetrates through the telescopic shaft hole to be connected with the disc-removing rotary disc (8), and a suction nozzle (12) is arranged on one side of the disc-removing rotary disc (8) opposite to the hanging rod (2); the number of the suction nozzles (12) is four, the suction fans (13) connected with the suction nozzles (12) are arranged at the edge of the equal-part tray-removing rotary table (8) at the other side of the tray-removing rotary table (8), the outer side wall of each suction fan (13) is sleeved with an adjusting sliding sleeve (9), one side of each adjusting sliding sleeve (9) extends to form a pushing support arm (10), and pushing support rods (11) are arranged on the pushing support arms (10).