CN112123924A - 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 machine frame on one side below the hanging rods, a coiling rotating wheel is arranged at the bottom of the fixed support arm through a corresponding bearing ring, a tray releasing assembly is arranged on the coiling rotating wheel, a material supporting plate is arranged at the top of the fixed support arm, a material pushing assembly is arranged above the material supporting plate, an interval feeding assembly is arranged on one side of the material supporting plate, and a feeding suction assembly is arranged on the machine frame in the input direction of the interval feeding assembly. Rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation are 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 floater on the water surface, often at luminous sign on float surface heat-transfer seal or printing, current float heat-transfer seal need adopt the cooperation of multiunit manipulator, wherein a set of float on will inputting the pole is grabbed and is put to treating material loading department, the rethread is sent to the peg on other manipulator, the float that the rendition is good needs another group manipulator again to grab from the peg and grab and play to the conveying rod on, drive through the conveying rod and get into lower process, but because the manipulator structure is complicated, its maintenance cost is high, can greatly increased the manufacturing cost of enterprise.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the float surface heat transfer printing system which is reasonable in structure, good in using effect and high in automation degree.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the utility model provides a float surface heat-transfer seal system, it is including installing the rotary disk on the transfer machine, one of them side evenly distributed of rotary disk has a plurality of peg, install fixed support arm in the frame of peg below one side, fixed support arm bottom is installed the dribbling runner through corresponding bearing ring, install the disking subassembly on the dribbling runner, fixed support arm top is installed and is held in the palm the flitch, hold in the palm the flitch top and install the material pushing component, hold in the palm flitch one side and install the interval and send a subassembly, the interval is sent and is installed the feeding in the frame of subassembly input direction and absorb the.

The feeding suction assembly comprises a release rod shaft horizontally arranged on a rack, the release rod shaft is driven by a corresponding release rod motor to operate, a release rod cylinder is arranged on the release rod shaft, a release rod baffle is fixed at the end part of the release rod cylinder far away from the release rod motor, bearing guide plates with the number larger than 5 are uniformly distributed on the peripheral surface of the release rod cylinder, a floater bearing area is formed between every two adjacent bearing guide plates, an air suction hole is formed in the release 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 air exhauster on the rack, an anti-falling cover plate is arranged above the release rod cylinder and is arc-shaped, the inner arc surface of the anti-falling cover plate faces downwards, and the axis of the anti-falling cover.

The interval send the group subassembly including the material loading rotation axis, go up the feed cylinder, wherein, the material loading rotation axis is horizontal installation in the frame of holding in the palm flitch top, the material loading rotation axis is driven the operation by corresponding rotating electrical machines, install the feed cylinder on the material loading rotation axis, evenly distributed has the material loading guide slot that quantity is greater than 3 on the material loading feed cylinder outer peripheral face, the slope of material loading feed cylinder one side is installed and is passed through the baffle, the material holding in the palm flitch is located feed cylinder opposite side lower part, the transition baffle is located the frame between a pole section of thick bamboo and the material loading feed cylinder, the transition baffle is the arc, its inner arc face is upwards, the higher one end of transition baffle is located and takes off pole section of.

The pushing assembly comprises a guide shaft and a guide sliding plate, wherein the guide shaft is horizontally arranged on a rack above a material supporting plate, an arc-shaped bearing 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 rack below the guide shaft, a piston rod of the pushing cylinder is connected with one side of the lower portion of the guide sliding plate, the bottom of the guide sliding plate is connected with a vertically downward pushing support rod, the bottom of the pushing support rod is connected with a feeding push rod, and the middle of the pushing support rod is connected with a pushing push rod; the bottom of the material pushing support rod is bent towards the direction of the material supporting plate to form a material loading connecting rod, a material loading through hole is formed in the end part of the material loading connecting rod, a material loading threaded section is arranged at one end of the material loading push rod, and the material loading threaded section penetrates through the material loading through hole and then is locked through a material loading rod adjusting nut; a pushing connecting rod is fixed on the other side of the middle of the pushing supporting rod, a pushing perforation is arranged on the pushing connecting rod, a pushing thread section is arranged at one end of the pushing push rod, and the pushing thread section penetrates through the pushing perforation and then is locked by a pushing rod adjusting nut.

The tray removing assembly comprises a telescopic shaft, a tray removing rotary table and a tray removing cylinder, wherein a telescopic shaft hole is formed in the center of the tray belt rotary table, the telescopic shaft is movably sleeved in the telescopic shaft hole, a tray removing motor is installed on a rack on one side of the tray belt rotary table, a transmission shaft of the tray removing motor is connected with one end of the tray removing cylinder, the other end of the tray removing 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 tray removing rotary table, and a suction nozzle is arranged on one side of the tray removing rotary table, which is; the suction nozzle is four, according to equal parts diskettes carousel edge, diskettes carousel opposite side is equipped with the suction fan of being connected with the suction nozzle, and the cover is equipped with the adjusting sliding sleeve on the suction fan lateral wall, and adjusting sliding sleeve one side extends to be formed with the propelling movement support arm, installs propelling movement branch on the propelling movement support arm.

After the scheme is adopted, when the external input rod drives the floater to move to the feeding suction assembly, the feeding suction assembly sucks the floater and sends the floater into the interval feeding assembly, the interval feeding assembly sequentially sends the floater to the material supporting plate, the floater on the material supporting plate is pushed to the hanging rod through the feeding push rod, the rotary disk drives the floater on the hanging rod to enter the thermal transfer machine for thermal transfer printing, the floater after thermal transfer printing is sucked and sent to the conveying rod through the tray-off assembly and enters the subsequent working procedure.

Drawings

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

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: referring to the attached drawing 1, the float surface thermal transfer printing system described in this embodiment includes a rotating disk 1 installed on a transfer printing machine, a plurality of hanging rods 2 are uniformly distributed on one side of the rotating disk 1, a fixed support arm 3 is installed on a rack on one side below the hanging rods 2, a belt pulley 4 is installed at the bottom of the fixed support arm 3 through a corresponding bearing ring, a tray releasing assembly is installed on the belt pulley 4, a material supporting plate 27 is installed at the top of the fixed support arm 3, a material pushing assembly is installed above the material supporting plate 27, a group assembly is installed at an interval on one side of the material supporting plate 27, and a feeding suction assembly is installed on the rack in the input direction of the group.

The feeding suction assembly comprises a release rod shaft 41 horizontally arranged on a rack, the release rod shaft 41 is driven by a corresponding release rod motor to operate, a release rod cylinder 42 is arranged on the release rod shaft 41, a release rod baffle 43 is fixed at the end part of the release rod cylinder 42 far away from the release rod motor, bearing guide plates 44 with the number larger than 5 are uniformly distributed on the peripheral surface of the release rod cylinder 42, a floater bearing area is formed between the adjacent bearing guide plates 44, an air suction hole 45 is formed in the release rod baffle 43 of the floater bearing area, an air suction pipe 47 is arranged outside the air suction hole 45 and connected with an exhaust fan 46 on the rack, an anti-falling cover plate 48 is arranged above the release rod cylinder 42, the anti-falling cover plate 48 is arc-shaped, the inner arc surface of the anti-falling cover plate is downward, and the axis of the anti-falling cover plate 48 and.

The interval feeding assembly comprises a feeding rotating shaft 39 and a feeding barrel 310, wherein the feeding rotating shaft 39 is horizontally arranged on a rack above a material supporting plate 27, the feeding rotating shaft 39 is driven by a corresponding rotating motor to operate, the feeding barrel 310 is arranged on the feeding rotating shaft 39, the feeding guide grooves 311 with the number larger than 3 are uniformly distributed on the outer peripheral surface of the feeding barrel 310, a transition guide plate 312 is obliquely arranged on one side of the feeding barrel 310, the material supporting plate 27 is positioned on the lower part of the other side of the feeding barrel 310, the transition guide plate 312 is positioned on the rack between a rod releasing barrel 42 and the feeding barrel 310, the transition guide plate 312 is arc-shaped, the inner arc surface of the transition guide plate is upward, the higher end of the transition guide plate 312 is positioned below the output side of the rod releasing barrel 42, and.

The pushing assembly comprises a guide shaft 21 and a guide sliding plate 23, wherein the guide shaft 21 is horizontally arranged on a rack above a material supporting plate 27, an arc-shaped support groove is arranged on 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 rack 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, the bottom of the guide sliding plate 23 is connected with a vertically downward pushing support rod 24, the bottom of the pushing support rod 24 is connected with a feeding push rod 25, and the middle part of the pushing support rod 24 is connected with a pushing; the bottom of the material pushing support rod 24 is bent towards the direction of the material supporting plate 27 to form a material loading connecting rod, a material loading through hole is formed in the end part of the material loading connecting rod, a material loading threaded section is arranged at one end of the material loading push rod 25, and the material loading threaded section penetrates through the material loading through hole and then is locked through a material loading rod adjusting nut; a pushing connecting rod is fixed on the other side of the middle of the pushing supporting rod 24, a pushing perforation is arranged on the pushing connecting rod, a pushing thread section is arranged at one end of the pushing push rod 26, and the pushing thread section penetrates through the pushing perforation and then is locked by a pushing rod adjusting nut.

The tray removing assembly comprises a telescopic shaft 5, a tray removing rotary table 8 and a tray removing cylinder 7, wherein a telescopic shaft hole is formed in the center of the tray belt rotary wheel 4, the telescopic shaft 5 is movably sleeved in the telescopic shaft hole, a tray removing motor 6 is installed on a rack on one side of the tray belt rotary wheel 4, a transmission shaft of the tray removing motor 6 is connected with one end of the tray removing cylinder 7, the other end of the tray removing 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 tray removing rotary table 8, and a suction nozzle 12 is arranged on one side, opposite to the tray removing rotary table 8; the suction nozzle 12 is four, according to 8 edges of equal parts diskettes carousel, 8 opposite sides of diskettes carousel are equipped with the suction fan 13 of being connected with suction nozzle 12, and the cover is equipped with on the suction fan 13 lateral wall and adjusts sliding sleeve 9, and the extension of adjusting sliding sleeve 9 one side is formed with propelling movement support arm 10, installs propelling movement branch 11 on the propelling movement support arm 10.

When an external input rod drives the floater to move to the feeding suction assembly, the air draft pipe is one, an air suction opening of the air draft pipe is opposite to the conveying support rod, air is continuously sucked through the air suction hole, the rod release motor drives the release rod shaft to rotate, the release rod shaft synchronously drives the bearing guide plate and the release rod baffle plate to move, when the circle center of the air suction hole and the central point of the air suction opening of the air draft pipe are positioned on the same straight line, the air suction opening, the air suction hole and the central line of the floater on the conveying support rod are positioned on the same straight line, the air suction of the air draft pipe generates suction force on the floater on the conveying support rod, so that the floater is sucked and falls from the conveying support rod into the floater bearing area, the release rod shaft drives the release rod barrel to rotate through the bearing of the bearing guide plate to drive the floater to synchronously move towards the charging barrel, and finally the floater falls onto the transition guide plate from, when the feeding guide groove is rotated to the output end of the transition guide plate, a floater at the output end of the transition guide plate enters the feeding guide groove, the guide shaft continues to rotate, the floater is driven by the feeding guide groove to fall onto the material supporting plate, a concave supporting groove is arranged on the material supporting plate, and the floater is positioned by the supporting groove;

one of the suction nozzles in an original state is over against one of the hanging rods in the output direction, each hanging rod is a station, each suction nozzle is also a station, the feeding push rod is positioned on one side of the bearing groove, the other end of the bearing groove is over against the hanging rod to be fed, when the feeding is needed, the pushing cylinder piston rod contracts to drive the feeding push rod to move forward towards the hanging rod direction, so that the floats are pushed onto the hanging rods, the feeding is completed, and the hanging rods move downwards to one station (corresponding to the pushing push rod position) under the driving of the rotating disc after the feeding is completed;

the float after the heat transfer printing is finished continuously rotates along with the rotating disk, when the float moves to the position of the tray-removing rotating disk, the piston rod of the tray-removing air cylinder contracts to drive the tray-removing rotating disk to move towards the rotating disk through the telescopic shaft, when a suction nozzle opposite to the hanging rod is contacted with the float, the suction fan acts to suck the end part of the float through the suction nozzle, the piston rod of the tray-removing air cylinder extends out to drive the tray-removing rotating disk to be far away from the rotating disk, the float is separated from the hanging rod, the tray-removing motor rotates a station (suction nozzle station) after the float is separated, the rotating disk also rotates a station, the float on the suction nozzle station rotates a station and then is opposite to the conveying rod, the piston rod of the tray-removing air cylinder contracts to drive the tray-removing rotating disk to move towards the rotating disk through the telescopic shaft, the suction nozzle without the float sucks the end part of the float on, simultaneously, the suction nozzle is used for sucking and closing air, and the floater is supported by the conveying rod and sent to the next procedure; the automatic floater generating device is compact in structure and high in automation degree after the automatic floater generating device is adopted, and the requirement for automatic floater generating can be effectively met.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a float surface heat transfer system, it is including installing rotary disk (1) on the transfer machine, and rotary disk (1) wherein one side evenly distributed has a plurality of peg (2), its characterized in that: the automatic feeding device is characterized in that a fixed support arm (3) is installed on the rack on one side below the hanging rod (2), a belt coiling rotating wheel (4) is installed at the bottom of the fixed support arm (3) through a corresponding bearing ring, a disc releasing assembly is installed on the belt coiling rotating wheel (4), a material supporting plate (27) is installed at the top of the fixed support arm (3), a material pushing assembly is installed above the material supporting plate (27), an interval feeding assembly is installed on one side of the material supporting plate (27), and a feeding suction assembly is installed on the rack in the input direction of the interval feeding assembly.

2. The float surface thermal transfer system of claim 1, wherein: the feeding suction assembly comprises a release rod shaft (41) which is horizontally arranged on a rack, the release rod shaft (41) is driven by a corresponding release rod motor to operate, a release rod cylinder (42) is arranged on the release rod shaft (41), a release rod baffle (43) is fixed at the end part of the release rod cylinder (42) far away from the release rod motor, bearing guide plates (44) with the quantity larger than 5 are uniformly distributed on the peripheral surface of the release rod cylinder (42), a floater bearing area is formed between the adjacent bearing guide plates (44), an air suction hole (45) is formed in the release rod baffle (43) in the floater bearing area, an air suction pipe (47) is arranged outside the air suction hole (45), the air suction pipe (47) is connected with an exhaust fan (46) on the rack, an anti-dropping cover plate (48) is arranged above the release rod cylinder (42), and the anti-dropping cover, the inner cambered surface of the cover plate is downward, and the axis of the anti-falling cover plate (48) and the axis of the release rod shaft (41) are positioned on the same straight line.

3. The float surface thermal transfer system of claim 1, wherein: the interval is sent and is organized subassembly including material loading rotation axis (39), go up feed cylinder (310), wherein, material loading rotation axis (39) are horizontal installation in the frame of holding in the palm flitch (27) top, material loading rotation axis (39) are driven the operation by corresponding rotating electrical machines, install feed cylinder (310) on material loading rotation axis (39), evenly distributed has feeding guide slot (311) that quantity is greater than 3 on the feed cylinder (310) outer peripheral face, transition baffle (312) are installed to feed cylinder (310) one side slope, hold in the palm flitch (27) and lie in feed cylinder (310) opposite side lower part, transition baffle (312) are located the frame between knockout pin section of thick bamboo (42) and feed cylinder (310), transition baffle (312) are the arc, its interior cambered surface is upwards, the higher one end of transition baffle (312) is located knockout pin section of thick bamboo (42) output one side below, lower one end is located feed cylinder (310) one side top.

4. The float surface thermal transfer system of claim 1, wherein: the pushing assembly comprises a guide shaft (21) and a guide sliding plate (23), wherein the guide shaft (21) is horizontally arranged on a rack above a material supporting plate (27), an arc-shaped support groove is arranged on 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 rack 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), the bottom of the guide sliding plate (23) is connected with a vertically downward pushing support rod (24), the bottom of the pushing support rod (24) is connected with a feeding push rod (25), and the middle part of the pushing support rod (24) is connected with a pushing push rod (26; the bottom of the material pushing support rod (24) is bent towards the direction of the material supporting plate (27) to form a material loading connecting rod, a material loading through hole is formed in the end part of the material loading connecting rod, a material loading threaded section is arranged at one end of the material loading push rod (25), and the material loading threaded section penetrates through the material loading through hole and then is locked through a material loading rod adjusting nut; 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, a pushing thread section is arranged at one end of the pushing push rod (26), and the pushing thread section passes through the pushing perforation and then is locked by a pushing rod adjusting nut.

5. The float surface thermal transfer system of claim 1, wherein: the tray-removing component comprises a telescopic shaft (5), a tray-removing rotary table (8) and a tray-removing cylinder (7), wherein a telescopic shaft hole is formed in the center of the tray belt rotary table (4), the telescopic shaft (5) is movably sleeved in the telescopic shaft hole, a tray-removing motor (6) is installed on a rack on one side of the tray belt rotary table (4), a transmission shaft of the tray-removing motor (6) is connected with one end of the tray-removing cylinder (7), the other end of the tray-removing 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 tray-removing rotary table (8), and a suction nozzle (12) is arranged on one side of the tray-removing rotary; suction nozzle (12) are four, according to equal parts diskettes carousel (8) edge, diskettes carousel (8) opposite side is equipped with suction fan (13) of being connected with suction nozzle (12), and the cover is equipped with adjusting sliding sleeve (9) on suction fan (13) lateral wall, and adjusting sliding sleeve (9) one side extends and is formed with propelling movement support arm (10), installs propelling movement branch (11) on propelling movement support arm (10).

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