CN110697468A - Coil material labeling device and method - Google Patents

Abstract

The invention provides a coil material labeling device and method, which comprises a rack, a positioning winding mechanism arranged on the rack, a coil material feeding mechanism and a tape adhering mechanism which are arranged above the positioning winding mechanism, a coil material feeding mechanism arranged on one side of the positioning winding mechanism, a cutter mechanism arranged at the inlet of the positioning winding mechanism, a material receiving mechanism arranged below the winding mechanism and a labeling mechanism arranged on the other side of the positioning winding mechanism. The automatic feeding tray of belting, the belting, cut off, the rubberizing tape, label and unloading and an organic whole, realized intelligent production, the production is high-efficient, use manpower sparingly.

Description

Coil material labeling device and method

Technical Field

The invention relates to the technical field of coil materials, in particular to coil material labeling equipment and a coil material labeling method.

Background

In the electron trade, often relate to the processing of area material, processing is accomplished the back, need take the material to wind to take the charging tray on to the afterbody of area material is pasted the sticky tape and is fixed, attaches a plurality of labels on taking the charging tray again, through manual operation's mode, needs carry out repetitious operation, and the process is complicated, and inefficiency, extravagant manpower, manufacturing cost is higher, and product quality is unstable.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a coil material labeling device and method capable of automatically feeding a belt material, a feeding disc, a chamfer, a tape and a label.

In order to solve the technical problems, the invention provides coil labeling equipment which comprises a rack, a positioning winding mechanism arranged on the rack, a material tray feeding mechanism and a tape adhering mechanism arranged above the positioning winding mechanism, a strip feeding mechanism arranged on one side of the positioning winding mechanism, a cutter mechanism arranged at an inlet of the positioning winding mechanism, a material receiving mechanism arranged below the positioning winding mechanism and a labeling mechanism arranged on the other side of the positioning winding mechanism.

Furthermore, the positioning and winding mechanism comprises a first fixing plate, a plurality of first guide posts connected with the first fixing plate, a first driving and retracting plate in sliding fit with the first guide posts, a positioning part driving and retracting cylinder for driving the first driving and retracting plate to advance and retract, a plurality of second guide posts penetrating through the first fixing plate and the first driving and retracting plate, an inner positioning disc arranged at the outer ends of the second guide posts, a positioning winding shaft arranged on the inner positioning disc, a winding motor for driving the positioning winding shaft to rotate, an outer baffle plate arranged at the outer end of the inner positioning disc, and a positioning driven shaft arranged on the outer baffle plate and corresponding to the positioning winding shaft; and one ends of the positioning winding shaft and the positioning driven shaft, which are close to each other, are respectively conical.

Furthermore, a material tray secondary positioning mechanism is arranged below the positioning winding shaft and comprises a second fixed plate, a second push plate connected with the second fixed plate through a third guide column, a second advancing and retreating cylinder driving the second push plate to advance and retreat, and two positioning columns arranged on the second push plate, wherein the outer baffle plate is provided with two positioning holes corresponding to the two positioning columns.

Furthermore, the charging tray feeding mechanism comprises a carrying tray arranged at the top of the rack, a plurality of limiting columns arranged on the periphery of the carrying tray, a discharge chute arranged at one side of the carrying tray close to the positioning and winding mechanism, two discharge cylinders arranged at two ends of the discharge chute, a discharge swing arm arranged at the output end of the discharge cylinder and hinged with the rack, a limiting plate arranged above the discharge chute and a guide plate connected with the discharge chute, wherein the bottom of the guide plate is connected with the positioning and winding mechanism; and an inclined plane is arranged at one end of the discharging swing arm, which is far away from the material guide plate.

Furthermore, the tape pasting mechanism comprises a tape coiling tray, an adjusting knob connected with the tape coiling tray, a tape guide groove arranged below the tape coiling tray, a guide wheel set arranged below the tape guide groove, a tape pasting cylinder driving the guide wheel set to advance and retreat, a tape guide block arranged below the guide wheel set, and a balancing weight hinged with the bottom of the tape guide block.

Furthermore, the belt material feeding mechanism comprises a plurality of belt material guide wheels arranged on one side of the rack, a feeding shaft arranged at the output ends of the plurality of belt material guide wheels, a regulating wheel arranged at one end of the feeding shaft, a pin wheel arranged on the feeding shaft, a feeding motor driving the feeding shaft to rotate and an elastic pinch roller unit arranged above the pin wheel.

Furthermore, the cutter mechanism comprises a material groove connected with the belt material feeding mechanism and the positioning winding mechanism, a chamfering unit, a belt material cutting unit and a rubber belt cutting unit which are sequentially arranged from top to bottom, and a first optical fiber sensor used for counting and a second optical fiber sensor used for determining a stub bar are arranged at an inlet of the chamfering unit.

Furthermore, the chamfering unit comprises a chamfering pressing plate arranged above the trough, two chamfering cutters arranged below the trough, a chamfering cylinder driving the two chamfering cutters to advance and retreat, and two chamfering grooves arranged on the chamfering pressing plate and corresponding to the two chamfering cutters; the strip cutting unit comprises a strip cutter and a strip cutting cylinder for driving the strip cutter to move in and out; the adhesive tape cutting unit comprises an adhesive tape cutter and an adhesive tape cutting cylinder for driving the adhesive tape cutter to move forward and backward.

Furthermore, the labeling mechanism comprises a label feeding roller, a base paper collecting roller, a plurality of guide shafts, a label stripping plate, a first air cylinder for driving the label stripping plate to advance and retreat, a second air cylinder for driving the first air cylinder to advance and retreat, a label taking plate arranged on the outer side of the label stripping plate, a rotating air cylinder for driving the label taking plate to rotate and a rotating motor for driving the rotating air cylinder to rotate; the label taking plate is provided with a plurality of suction holes.

The invention also provides a coil labeling method, which comprises the coil labeling equipment as described in any one of the above items, and the method comprises the following steps:

a) the charging tray feeding mechanism feeds the charging tray to the positioning winding mechanism;

b) the strip feeding mechanism feeds strips, and the cutter mechanism chamfers the strip inlet;

c) the belt material feeding mechanism transmits the belt material to the positioning and winding mechanism;

d) the positioning and winding mechanism winds the belt material;

e) after the adhesive tape is fed and attached to the tail end of the tape material by the adhesive tape attaching mechanism, the adhesive tape is cut off by the cutter mechanism;

f) the labeling mechanism loads the labels and attaches the labels to the material tray;

g) the positioning winding mechanism loosens the material tray, and the material tray falls to the material receiving mechanism.

According to the coil labeling equipment, the material tray feeding mechanism feeds a material tray to the positioning winding mechanism, the positioning winding mechanism fixes the material tray, the strip feeding mechanism feeds strips, the positioning winding mechanism winds the strips onto the material tray, after the strips are wound for a preset length, the cutter mechanism cuts the strips, the tape attaching mechanism attaches two labels to the material tray after attaching a tape to the tail of the strips, the positioning winding mechanism releases the material tray, and the material tray falls into the material receiving mechanism to be stacked and received; coil stock pastes mark equipment collection area material automatic material loading dish, material loading area material, cut off, paste the sticky tape, label and unloading and an organic whole, integrate and intelligent degree height, realized intelligent production, the production is high-efficient, uses manpower sparingly.

Drawings

Fig. 1 is a schematic view of a web labeling apparatus of the present invention;

FIG. 2 is a schematic view of a part of the structure of the apparatus for labeling a web according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

fig. 5 is a schematic view of a positioning and winding mechanism of the coil labeling apparatus of the present invention;

FIG. 6 is a schematic structural view of a positioning and winding mechanism of the coil labeling apparatus according to the present invention;

fig. 7 is a schematic view of a positioning tray feeding mechanism of the coil labeling apparatus of the present invention;

FIG. 8 is a schematic view of a portion of the tape feeder mechanism and the cutter mechanism of the roll labeling apparatus of the present invention;

FIG. 9 is a schematic view of a portion of the structure of FIG. 8;

fig. 10 is a partial structural view of a tape attaching mechanism of the coil labeling apparatus of the present invention;

fig. 11 is a schematic view of a part of the labeling mechanism of the coil labeling apparatus according to the present invention;

fig. 12 is a schematic view of a secondary positioning mechanism of a tray of a labeling mechanism of the coil labeling device of the present invention;

labeled as: the device comprises a frame 1, a positioning winding mechanism 2, a first fixing plate 20, a first guide post 21, a first driving and reversing plate 22, a positioning part driving and reversing cylinder 23, a second guide post 24, an inner positioning plate 25, a positioning winding shaft 26, a winding motor 27, an outer baffle 28, a positioning hole 281, a positioning driven shaft 29, a tray feeding mechanism 3, a carrying disc 30, a limiting post 31, a discharge chute 32, a discharge cylinder 33, a discharge swing arm 34, a limiting plate 35, a guide plate 36, an inclined plane 37, a tape pasting mechanism 4, a tape winding disc 40, an adjusting knob 41, a tape guide groove 42, a guide wheel group 43, a tape pasting cylinder 44, a tape guide block 45, a balancing weight 46, a guide block driving cylinder 47, a tape feeding mechanism 5, a tape guide wheel 50, a feeding shaft 51, an adjusting wheel 52, a needle wheel 53, a feeding motor 54, an elastic pressure wheel unit 55, a cutter mechanism 6, a trough 61, a chamfering unit 62, a chamfering pressure plate 621, the label cutting device comprises a chamfering cutter 622, a chamfering air cylinder 623, a chamfering groove 624, a strip cutting unit 63, a strip cutter 631, a strip cutting air cylinder 632, a strip cutting unit 64, a tape cutter 641, a tape cutting air cylinder 642, a first optical fiber sensor 65, a second optical fiber sensor 66, a material receiving mechanism 7, a labeling mechanism 8, a label feeding roller 80, a backing paper receiving roller 81, a backing paper receiving motor 811, a guide shaft 82, a label peeling plate 83, a first air cylinder 84, a second air cylinder 85, a label taking plate 86, a rotating air cylinder 87, a rotating motor 88, a suction hole 89, a tray secondary positioning mechanism 9, a second fixing plate 90, a third guide column 91, a second push plate 92, a second feeding and withdrawing air cylinder 93 and a positioning column 94.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The following detailed explanation and description of the embodiments of the present invention are provided with reference to fig. 1 to 12:

the invention provides a coil labeling device which comprises a rack 1, a positioning winding mechanism 2 arranged on the rack 1, a material tray feeding mechanism 3 and a tape adhering mechanism 4 which are arranged above the positioning winding mechanism 2, a strip feeding mechanism 5 arranged on one side of the positioning winding mechanism 2, a cutter mechanism 6 arranged at an inlet of the positioning winding mechanism 5, a material receiving mechanism 7 arranged below the positioning winding mechanism 2 and a labeling mechanism 8 arranged on the other side of the positioning winding mechanism 2. The material tray feeding mechanism 3 feeds the material tray to the positioning winding mechanism 2, the positioning winding mechanism 2 fixes the material tray, the belt material feeding mechanism 5 feeds the belt material, the positioning winding mechanism 2 winds the belt material onto the material tray, the cutter mechanism 6 cuts the belt material after the belt material is wound by a preset length, the labeling mechanism 8 attaches two labels to the material tray after the tape material tail part is labeled by the adhesive tape attaching mechanism 4, then the positioning winding mechanism 2 loosens the material tray, and the material tray falls into the material receiving mechanism 7 for stacking and receiving materials; coil stock pastes mark equipment collection area material automatic material loading dish, material loading area material, cut off, paste the sticky tape, label and unloading and an organic whole, integrate and intelligent degree height, realized intelligent production, the production is high-efficient, uses manpower sparingly.

The positioning winding mechanism 2 comprises a first fixing plate 20, a plurality of first guide posts 21 connected with the first fixing plate 20, a first advancing and retreating plate 22 in sliding fit with the first guide posts 21, a positioning advancing and retreating cylinder 23 for driving the first advancing and retreating plate 22 to advance and retreat, a plurality of second guide posts 24 penetrating through the first fixing plate 20 and the first advancing and retreating plate 22, an inner positioning plate 25 arranged at the outer end of the second guide posts 24, a positioning winding shaft 26 arranged on the inner positioning plate 25, a winding motor 27 for driving the positioning winding shaft 26 to rotate, an outer baffle plate 28 arranged at the outer end of the inner positioning plate 25, and a positioning driven shaft 29 arranged on the outer baffle plate 28 and corresponding to the positioning winding shaft 26; the ends of the positioning winding shaft 26 and the positioning driven shaft 29, which are close to each other, are respectively conical. When the material tray feeding mechanism 3 feeds materials, the positioning part advancing and retreating cylinder 23 is in a retracting state, a certain gap feeding tray passes through between the inner positioning tray 25 and the outer baffle 28, after the material tray falls between the inner positioning tray 25 and the outer baffle 28, the positioning part advancing and retreating cylinder 23 drives the first advancing and retreating plate 22, the inner positioning tray 25 and the positioning winding shaft 26 to advance, after the positioning winding shaft 26 is contacted with the positioning driven shaft 29, the inner positioning tray 25 is matched with the outer baffle 28 to position the material tray, and the winding motor 27 drives the positioning winding shaft 26 to rotate so as to wind the material; the end, close to each other, of the positioning winding shaft 26 and the positioning driven shaft 29 are respectively in a conical shape, and the structure facilitates the material disc to fall into and be clamped in the central hole of the material disc to position the material disc. The top of location winding mechanism 2 is provided with photoelectric sensor for whether detect the strip material front end penetrate the silo in the charging tray, if penetrate, then carry out the action of rolling up the strip material, if do not penetrate, then winding motor 27 drive charging tray slowly rotates, is convenient for the strip material to penetrate.

A tray secondary positioning mechanism 9 is arranged below the positioning winding shaft 26, the tray secondary positioning mechanism 9 includes a second fixing plate 90, a second push plate 92 connected to the second fixing plate 90 through a third guide post 91, a second advance and retreat cylinder 93 driving the second push plate 92 to advance and retreat, and two positioning posts 94 arranged on the second push plate 92, and two positioning holes 281 corresponding to the two positioning posts 94 are arranged on the outer baffle 28. The secondary positioning mechanism 9 of the material tray can bear the bottom of the material tray, and can axially adjust the material tray to further position the material tray, specifically, the second advancing and retreating cylinder 93 drives the second push plate 92 to advance, the second push plate 92 pushes the material tray to move along the central line direction of the positioning winding shaft 26 to adjust, the adjustment is convenient, and after the material tray is adjusted to an accurate position, the two positioning columns 94 are inserted into the two positioning holes 281 to be positioned.

The charging tray feeding mechanism 3 comprises a carrying tray 30 arranged at the top of the rack, a plurality of limiting columns 31 arranged at the periphery of the carrying tray 30, a discharge chute 32 arranged at one side of the carrying tray 30 close to the positioning winding mechanism 2, two discharge cylinders 33 arranged at two ends of the discharge chute 32, a discharge swing arm 34 arranged at the output end of the discharge cylinder 33 and hinged with the rack 1, a limiting plate 35 arranged above the discharge chute 32 and a material guide plate 36 connected with the discharge chute 32, wherein the bottom of the material guide plate 36 is connected with the positioning winding mechanism 2; an inclined surface 37 is arranged at one end of the discharging swing arm 34 far away from the material guide plate 36. The discharging cylinder 33 drives the discharging swing arm 34 to swing inwards, so that a material tray can be pushed out, falls into the material guide plate 36 from the discharging groove 32, and slides into the positioning winding mechanism 2, the discharging cylinder 33 drives the discharging swing arm 34 to reset, and the inclined surface 37 ensures that the discharging swing arm 34 can pass through between two material trays and return to the original position; the distance between the limiting plate 35 and the carrying tray 30 is larger than the thickness of one material tray and smaller than the thickness of two material trays, so that only one material tray can be pushed out at a time.

The tape pasting mechanism 4 comprises a tape winding tray 40, an adjusting knob 41 connected with the tape winding tray 40, a tape guide groove 42 arranged below the tape winding tray 40, a guide wheel set 43 arranged below the tape guide groove 42, a tape pasting air cylinder 44 driving the guide wheel set 43 to advance and retreat, a tape guide block 45 arranged below the guide wheel set 43, a guide block driving air cylinder 47 driving the tape guide block to advance and retreat, and a balancing weight 46 hinged to the bottom of the tape guide block 45. When the positioning and winding mechanism 2 winds the belt material with a set length, the adhesive tape pasting cylinder 44 drives the guide wheel set 43 to move forward, one end of the adhesive tape is pasted on the belt material, then the tail of the belt material is continuously wound, the adhesive tape is driven to be conveyed forward, and the adhesive tape can be pasted on the belt material under the action of gravity of the balancing weight 46.

The belt material feeding mechanism 5 comprises a plurality of belt material guide wheels 50 arranged on one side of the rack 1, a feeding shaft 51 arranged at the output ends of the plurality of belt material guide wheels 50, an adjusting wheel 52 arranged at one end of the feeding shaft 51, a pin wheel 53 arranged on the feeding shaft 51, a feeding motor 54 driving the feeding shaft 51 to rotate, and an elastic pinch roller unit 55 arranged above the pin wheel 53. The belt material is wound on the pin wheel 53, after the elastic pressure wheel unit 55 presses and holds the belt material, the feeding motor 54 drives the feeding shaft 51 to rotate to convey the belt material forwards, and after the front end of the belt material extends into a trough in a material tray, the feeding motor 54 stops rotating and is driven by the positioning winding mechanism 2 to wind the belt material; the pinwheel 53 plays a role in counting, ensures that the strip material is wound for a preset length when being wound, and simultaneously ensures that the feeding end and the discharging end of the strip material are preset lengths, and the pinwheel 53 is stable and reliable in length counting mode.

The cutter mechanism 6 comprises a material groove 61 connected with the belt material feeding mechanism 5 and the positioning winding mechanism 2, a chamfering unit 62, a belt material cutting unit 63 and a rubber belt cutting unit 64 which are sequentially arranged from top to bottom, wherein a first optical fiber sensor 65 for counting and a second optical fiber sensor 66 for determining a stub bar are arranged at the inlet of the chamfering unit 62. The first optical fiber sensor 65 is used for detecting the arrival of the strip, the second optical fiber sensor 66 is used for detecting the arrival of the strip from the side surface of the strip, and when the strip is detected, the pin wheel 53 starts to count; the chamfering unit 62 is configured to chamfer the front end of the tape, and after the winding is completed, the tape cutting unit 63 cuts the tape, and after the tape is fed by a preset length, the tape cutting unit 64 cuts the tape.

The chamfering unit 62 comprises a chamfering pressing plate 621 arranged above the trough 61, two chamfering cutters 622 arranged below the trough 61, a chamfering cylinder 623 for driving the two chamfering cutters 622 to advance and retreat, and two chamfering grooves 624 arranged on the chamfering pressing plate 621 and corresponding to the two chamfering cutters 622; the tape cutting unit 63 includes a tape cutter 631 and a tape cutting cylinder 632 for driving the tape cutter 631 to move forward and backward; the tape cutting unit 64 includes a tape cutter 641 and a tape cutting cylinder 642 for driving the tape cutter 641 to advance and retreat.

The labeling mechanism 8 comprises a label feeding roller 80, a base paper receiving roller 81, a base paper receiving motor 811 for driving the base paper receiving roller 81 to rotate, a plurality of guide shafts 82, a label peeling plate 83, a first air cylinder 84 for driving the label peeling plate 83 to advance and retreat, a second air cylinder 85 for driving the first air cylinder 84 to advance and retreat, a label taking plate 86 arranged outside the label peeling plate 83, a rotating air cylinder 87 for driving the label taking plate 86 to rotate and a rotating motor 88 for driving the rotating air cylinder 87 to rotate; the label taking plate 86 is provided with a plurality of suction holes 89. The base paper receiving motor 811 drives the base paper receiving roller 81 to rotate, a limiting groove for passing label paper is formed in the label peeling plate 83, when the label passes through the limiting groove, the label is blocked and peeled off, meanwhile, the first air cylinder 84 drives the label peeling plate 83 to rapidly advance, the label paper moves forward and is adsorbed and labeled by the label taking plate 86, the rotating air cylinder 87 drives the label taking plate 86 to rotate for 90 degrees to enable the label paper to face outwards, then, the rotating motor 88 drives the rotating air cylinder 87 to rotate for a certain angle to be arranged at a labeling position on a material tray, and the label taking plate blows air to blow the label to the material tray; the label includes two different labels, and a charging tray need carry out twice attachedly, and the attached back of accomplishing, location winding mechanism 2 loosens, and the material book falls into among the receiving agencies 7, receiving agencies 7 entrance is provided with the inclined plane for play the effect of direction to the charging tray, receiving agencies 7 can be including receiving material lifter plate, drive receive the material motor and a plurality of reference columns of material lifter plate lift, a plurality of reference columns are fixed a position the charging tray, when accomplishing a charging tray rolling, receive the material motor drive receive the height that material lifter plate descends a charging tray, be convenient for carry out the receipts material of next charging tray, like this, can be with the orderly pile up neatly of charging tray when automatic receiving the material.

The invention also provides a coil labeling method, which comprises coil labeling equipment, and the method comprises the following steps:

a) the charging tray feeding mechanism feeds the charging tray to the positioning winding mechanism; the positioning winding mechanism clamps and positions the material tray;

b) the strip feeding mechanism feeds strips, and the cutter mechanism chamfers the strip inlet; after chamfering, the size of the front end of the strip material is small, so that the front end of the strip material can conveniently stretch into a material groove of a material tray;

c) the belt material feeding mechanism transmits the belt material to the positioning and winding mechanism; in particular, the front end of the belt material needs to extend into a trough of a material tray,

d) the positioning and winding mechanism winds the belt material;

e) after the adhesive tape is fed and attached to the tail end of the tape material by the adhesive tape attaching mechanism, the adhesive tape is cut off by the cutter mechanism;

f) the labeling mechanism loads the labels and attaches the labels to the material tray;

g) the positioning winding mechanism loosens the material tray, and the material tray falls to the material receiving mechanism.

According to the coil labeling equipment, the coil feeding mechanism 3 feeds a coil to the positioning and winding mechanism 2, the positioning and winding mechanism 2 fixes the coil, the strip feeding mechanism 5 feeds a strip, the positioning and winding mechanism 2 winds the strip to the coil, the cutter mechanism 6 cuts the strip after the strip is wound by a preset length, the tape attaching mechanism 4 attaches two labels to the tail of the strip, the labeling mechanism 8 attaches two labels to the coil, the positioning and winding mechanism 2 releases the coil, and the coil falls into the material receiving mechanism 7 to be stacked and received; coil stock pastes mark equipment collection area material automatic material loading dish, material loading area material, cut off, paste the sticky tape, label and unloading and an organic whole, integrate and intelligent degree height, realized intelligent production, the production is high-efficient, uses manpower sparingly.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and those skilled in the art can make many variations and modifications of the technical solution of the present invention without departing from the scope of the technical solution of the present invention by using the above disclosure, and the technical solution of the present invention is covered by the claims.

Claims (10)

1. The utility model provides a coil stock pastes mark equipment which characterized in that: including the frame, set up in location winding mechanism in the frame, set up in the charging tray feed mechanism and the rubberizing tape mechanism of location winding mechanism top, set up in the area material feed mechanism of location winding mechanism one side, set up in the cutter mechanism of location winding mechanism entrance, set up in the receiving agencies of location winding mechanism below and set up in the labeller of location winding mechanism opposite side constructs.

2. The web labeling apparatus of claim 1, wherein: the positioning and winding mechanism comprises a first fixing plate, a plurality of first guide posts connected with the first fixing plate, a first driving and retracting plate in sliding fit with the first guide posts, a positioning part driving and retracting cylinder for driving the first driving and retracting plate to move forward and backward, a plurality of second guide posts penetrating through the first fixing plate and the first driving and retracting plate, an inner positioning disc arranged at the outer ends of the second guide posts, a positioning winding shaft arranged on the inner positioning disc, a winding motor for driving the positioning winding shaft to rotate, an outer baffle plate arranged at the outer end of the inner positioning disc, and a positioning driven shaft arranged on the outer baffle plate and corresponding to the positioning winding shaft; and one ends of the positioning winding shaft and the positioning driven shaft, which are close to each other, are respectively conical.

3. The web labeling apparatus of claim 2, wherein: a material tray secondary positioning mechanism is arranged below the positioning winding shaft and comprises a second fixed plate, a second push plate connected with the second fixed plate through a third guide column, a second advancing and retreating cylinder driving the second push plate to advance and retreat and two positioning columns arranged on the second push plate, and two positioning holes corresponding to the two positioning columns are formed in the outer baffle plate.

4. The web labeling apparatus of claim 1, wherein: the charging tray feeding mechanism comprises a carrying tray arranged at the top of the rack, a plurality of limiting columns arranged on the periphery of the carrying tray, a discharge chute arranged on one side of the carrying tray close to the positioning and winding mechanism, two discharge cylinders arranged at two ends of the discharge chute, a discharge swing arm arranged at the output end of the discharge cylinders and hinged with the rack, a limiting plate arranged above the discharge chute and a guide plate connected with the discharge chute, wherein the bottom of the guide plate is connected with the positioning and winding mechanism; and an inclined plane is arranged at one end of the discharging swing arm, which is far away from the material guide plate.

5. The web labeling apparatus of claim 1, wherein: the tape pasting mechanism comprises a tape coiling tray, an adjusting knob connected with the tape coiling tray, a tape guide groove arranged below the tape coiling tray, a guide wheel group arranged below the tape guide groove, a tape pasting cylinder driving the guide wheel group to advance and retreat, a tape guide block arranged below the guide wheel group and a balancing weight hinged with the bottom of the tape guide block.

6. The web labeling apparatus of claim 1, wherein: the belt material feeding mechanism comprises a plurality of belt material guide wheels arranged on one side of the rack, a feeding shaft arranged at the output ends of the plurality of belt material guide wheels, a regulating wheel arranged at one end of the feeding shaft, a pin wheel arranged on the feeding shaft, a feeding motor driving the feeding shaft to rotate and an elastic pinch roller unit arranged above the pin wheel.

7. The web labeling apparatus of claim 1, wherein: the cutter mechanism comprises a material groove connected with the belt material feeding mechanism and the positioning winding mechanism, and a chamfering unit, a belt material cutting unit and a rubber belt cutting unit which are sequentially arranged from top to bottom, wherein a first optical fiber sensor used for counting and a second optical fiber sensor used for determining a stub bar are arranged at an inlet of the chamfering unit.

8. The web labeling apparatus of claim 7, wherein: the chamfering unit comprises a chamfering pressing plate arranged above the trough, two chamfering cutters arranged below the trough, a chamfering cylinder driving the two chamfering cutters to advance and retreat and two chamfering grooves arranged on the chamfering pressing plate and corresponding to the two chamfering cutters; the strip cutting unit comprises a strip cutter and a strip cutting cylinder for driving the strip cutter to move in and out; the adhesive tape cutting unit comprises an adhesive tape cutter and an adhesive tape cutting cylinder for driving the adhesive tape cutter to move forward and backward.

9. The web labeling apparatus of claim 1, wherein: the labeling mechanism comprises a label feeding roller, a base paper collecting roller, a plurality of guide shafts, a label stripping plate, a first air cylinder for driving the label stripping plate to advance and retreat, a second air cylinder for driving the first air cylinder to advance and retreat, a label taking plate arranged on the outer side of the label stripping plate, a rotating air cylinder for driving the label taking plate to rotate and a rotating motor for driving the rotating air cylinder to rotate; the label taking plate is provided with a plurality of suction holes.

10. A labeling method for coil stock is characterized in that: web labelling apparatus comprising any of claims 1 to 9, said method comprising the steps of:

a) the charging tray feeding mechanism feeds the charging tray to the positioning winding mechanism;

b) the strip feeding mechanism feeds strips, and the cutter mechanism chamfers the strip inlet;

c) the belt material feeding mechanism transmits the belt material to the positioning and winding mechanism;

d) the positioning and winding mechanism winds the belt material;

e) after the adhesive tape is fed and attached to the tail end of the tape material by the adhesive tape attaching mechanism, the adhesive tape is cut off by the cutter mechanism;

f) the labeling mechanism loads the labels and attaches the labels to the material tray;

g) the positioning winding mechanism loosens the material tray, and the material tray falls to the material receiving mechanism.

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