CN115743817A - Aluminum foil coil labeling equipment - Google Patents

Abstract

The application discloses subsides mark equipment is rolled up to aluminium foil includes frame, conveyer, detection device and pastes the mark device. Conveyer is used for sending the aluminium foil book, and detection device is used for discerning the fracture that detects the aluminium foil book, pastes the mark device and is used for covering the fracture in the aluminium foil book with the label pressure. Along the circumferential direction of the aluminum foil roll, one part of the label is positioned on one side of the fracture, the other part of the label is positioned on the other side of the fracture, and the length of the part of the label positioned on any side of the fracture is more than or equal to 20mm and less than or equal to 30mm; along the axial of aluminium foil book, the part of label surpasses the one end of aluminium foil book, and the label surpasses the length more than or equal to 2mm of one end of aluminium foil book, and less than or equal to 3mm, not only is favorable to the stable subsides of label to cover in the fracture, reduces the risk that the aluminium foil book appeared fold or turn over, still is favorable to the consumer to surpass the part of aluminium foil book through the label and tears the label, reduces the risk of tearing the aluminium foil.

Description

Aluminum foil coil labeling equipment

Technical Field

The application relates to the technical field of aluminum foil coil labeling, in particular to aluminum foil coil labeling equipment.

Background

At present, the fracture of aluminium foil book is sealed through the label, and the size of label is less usually, not only leads to the surface of aluminium foil book to appear the fold easily, and the phenomenon of both ends fracture aluminium foil turn-ups appears very easily in the transportation process after going into the box moreover, influences the aluminium foil and rolls up the outward appearance. In addition, the consumer can easily tear the aluminum foil when tearing the sealing label.

Disclosure of Invention

In view of the above, it is necessary to provide an aluminum foil roll labeling apparatus, which reduces the risk of the fracture of the aluminum foil roll being wrinkled or folded.

The embodiment of this application provides a subsides mark equipment of aluminium foil book, includes frame, conveyer, detection device and pastes the mark device. A conveyor is coupled to the frame and is configured to transport the roll of aluminum foil in a first direction and to a first position for labeling and a second position for receiving the roll of aluminum foil. Detection device connect in the frame for the discernment detects and is located the fracture of the aluminium foil book in first position the place ahead. The labeling device is connected to the rack and comprises a supply assembly and a labeling assembly, the supply assembly is used for providing labels, the labeling assembly comprises a label stroking wheel, and the label stroking wheel can move close to or away from the first position and press the labels on the fractures of the aluminum foil roll; along the circumferential direction of the aluminum foil roll, one part of the label is positioned on one side of the fracture, the other part of the label is positioned on the other side of the fracture, and the length of the part of the label positioned on any side of the fracture is more than or equal to 20mm and less than or equal to 30mm; along the axial direction of aluminium foil book, the partial excess of label is in the one end of aluminium foil book, the length that the label exceeds one end of aluminium foil book is more than or equal to 2mm, and is less than or equal to 3mm.

Among the foretell aluminium foil book labeller equipment, through the fracture of detection device discernment detection aluminium foil book, make to paste the mark device and cover in the fracture region accurately, and, along the circumferencial direction of aluminium foil book, the length more than or equal to 20mm and less than or equal to 30mm of the part that the label is located the arbitrary one side of fracture, along the axial of aluminium foil book, the part of label surpasss the one end of aluminium foil book, the label surpasss the length more than or equal to 2mm and less than or equal to 3mm of one end of aluminium foil book, not only be favorable to the stable subsides of label to cover in the fracture, reduce the risk that the aluminium foil book appeared fold or inflection, still be favorable to the consumer to surpass the part of aluminium foil book through the label and tear the label, reduce the risk that will tear the aluminium foil.

In some embodiments of the present application, along the axial direction of the aluminum foil roll, the portion of the label exceeds both ends of the aluminum foil roll, and the length of the label exceeding either end of the aluminum foil roll is greater than or equal to 2mm and less than or equal to 3mm.

The part of the label is beyond the two ends of the aluminum foil roll, so that a consumer can tear the label through the part of the label beyond the aluminum foil roll, and the risk of tearing the aluminum foil is reduced.

In some embodiments of the present application, the labeling assembly further comprises a first adjustment assembly and a second adjustment assembly. The first adjusting assembly is connected with the rack and the label stroking wheel, and the distance between the label stroking wheel and the first position can be adjusted along the first direction. The second adjusting assembly is movably connected to the first adjusting assembly along a second direction perpendicular to the first direction, the label stroking wheel and the detecting device are connected to the second adjusting assembly, and the second adjusting assembly can adjust the distance between the label stroking wheel and the detecting device relative to the first position along a third direction perpendicular to the first direction and the second direction.

Foretell aluminium foil book pastes mark equipment smooths mark wheel and detection device's position through first adjusting part and second adjusting part complex regulation, is favorable to improving the precision of pasting the label to fracture region.

In some embodiments of this application, detection device movably connect in the second adjusting part, through adjusting detection device position and angle relative second adjusting part, be favorable to further improving the precision of pasting the label to fracture region.

In some embodiments of this application, the surface of stroking the mark wheel is equipped with the elastic layer, covers the label in the fracture through the elastic layer elastically with the pressure, is favorable to improving the label and pastes the effect that covers the fracture.

In some embodiments of this application, mark device still includes first driving motor, first driving motor connect in the frame, first driving motor's output shaft connect in smooth mark wheel is used for the drive smooth mark wheel rotates. The label wheel is comforted through a driving motor drive and rotates, the label wheel can drive an aluminum foil roll to be labeled to rotate, the fracture of the aluminum foil roll is located at a preset angle, and the improvement of the precision of label pasting of the fracture area is facilitated.

In some embodiments of the present application, the supply assembly includes a label parent roll, a first base plate, and a recovery roll. The label female roller is rotatably connected with the rack, a label bottom plate is wound on the label female roller, and the label is attached to the label bottom plate. The first base plate is movably connected to the frame in a third direction perpendicular to the first direction. The recycling roller is rotatably connected to the first base plate and used for winding the label base plate after the peeled label is recycled.

In some embodiments of this application, supply assembly still includes stripper plate, stripper plate connect in first bottom plate to the contact connect in one side that deviates from the label of label bottom plate, the label bottom plate with the regional bending of stripper plate contact is favorable to label and label bottom plate separation, and the label that is convenient for smooth mark wheel will separate with the label bottom plate is pressed in fracture region.

In some embodiments of the present application, the supply assembly further comprises a plurality of driven rollers rotatably connected to the first base plate, the label base plate in turn passing around the plurality of driven rollers.

In some embodiments of the present application, the aluminum foil roll labeling apparatus further includes a recycling device disposed below the second position for receiving the labeled aluminum foil roll.

Drawings

Fig. 1 is a first view of an aluminium foil roll labelling apparatus in an embodiment of the present application.

Fig. 2 is a second view of the aluminium foil roll labeling apparatus in an embodiment of the present application.

Fig. 3 is a third view of an aluminium foil roll labelling apparatus in an embodiment of the present application.

Fig. 4 is a cross-sectional view of an aluminum foil roll labeling apparatus in an embodiment of the present application.

Fig. 5 is an enlarged view of the region V in fig. 3.

Fig. 6 is a schematic view of an unlabeled configuration of a roll of aluminum foil in one embodiment of the present application.

Fig. 7 is a view of an embodiment of the present application taken along the axial direction after the roll of aluminum foil has been labeled.

Fig. 8 is a view of a roll of aluminum foil labeled in a radial direction in accordance with an embodiment of the present application.

Description of the main elements

Aluminum foil roll labeling apparatus 100

Rack 10

Transfer device 20

Second drive motor 21

First sprocket 22

Second chain wheel 23

Chain 24

Transfer roller 25

First baffle 26

Second baffle 27

Detection device 30

Labeling device 40

Supply unit 41

Label parent roll 4111

First base plate 412

Second arc-shaped hole 4121

Recovery roller 4112

Follower roller 4113

Stripper plate 413

Tip 4131

Label detection sensor 414

Fifth driving motor 415

Driving roller 4114

Driving wheel 4161

Driven wheel 4162

Transmission belt 4163

Eighth connecting member 4171

Third guide post 4181

Third guide sleeve 4182

Third screw 4183

Third nut 4184

Ninth connecting member 4172

Third hand wheel 419

Labelling assembly 42

Label stroking wheel 421

First adjustment assembly 422

First lead screw 4221

First nut 4222

First guide column 4223

First guide sleeve 4224

First connector 4225

First hand wheel 4226

Second adjustment assembly 423

Second connector 4231

Third connecting piece 4232

Second lead screw 4233

Second nut 4234

Second guide column 4235

Second guide sleeve 4236

Fourth link 4237

Second hand wheel 4238

Fifth connecting piece 4239

Fourth guide post 424

Fourth guide sleeve 425

First driving motor 43

Sixth connecting member 44

First kidney-shaped hole 441

Seventh connecting member 45

Second waist-shaped aperture 451

First arc-shaped hole 452

Recovery device 50

Platform 51

Label 61

Label base 62

First position 71

Second position 72

Aluminum foil roll 200

Fracture 2001

A first direction X

Second direction Y

Third direction Z

The following detailed description will further illustrate the present application in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The terms "including" and "provided" and any variations thereof in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions.

In the description of the embodiments of the present application, the technical terms "first", "second", and the like are used only for distinguishing different objects, and are not to be construed as indicating or implying relative importance or implicitly indicating the number, specific order, or primary-secondary relationship of the technical features indicated. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein may be combined with other embodiments.

The embodiment of the application provides a subsides mark equipment of aluminium foil book, includes frame, conveyer, detection device and pastes the mark device. A conveyor is connected to the frame, the conveyor being configured to transport a roll of aluminum foil in a first direction and to a first position for labeling and a second position for receiving a roll of aluminum foil. Detection device connect in the frame for the discernment detects and is located the fracture of the aluminium foil book in first position the place ahead. The labeling device is connected to the rack and comprises a supply assembly and a labeling assembly, the supply assembly is used for providing labels, the labeling assembly comprises a label stroking wheel, and the label stroking wheel can move close to or away from the first position and press the labels on the fractures of the aluminum foil roll; along the circumferential direction of the aluminum foil roll, one part of the label is positioned on one side of the fracture, the other part of the label is positioned on the other side of the fracture, and the length of the part of the label positioned on any side of the fracture is more than or equal to 20mm and less than or equal to 30mm; along the axial direction of aluminium foil book, the partial excess of label is in the one end of aluminium foil book, the length that the label exceeds one end of aluminium foil book is more than or equal to 2mm, and is less than or equal to 3mm.

Among the foretell aluminium foil book labeller equipment, through the fracture of detection device discernment detection aluminium foil book, make to paste the mark device and cover in the fracture region accurately, and, along the circumferencial direction of aluminium foil book, the length more than or equal to 20mm and less than or equal to 30mm of the part that the label is located the arbitrary one side of fracture, along the axial of aluminium foil book, the part of label surpasss the one end of aluminium foil book, the label surpasss the length more than or equal to 2mm and less than or equal to 3mm of one end of aluminium foil book, not only be favorable to the stable subsides of label to cover in the fracture, reduce the risk that the aluminium foil book appeared fold or inflection, still be favorable to the consumer to surpass the part of aluminium foil book through the label and tear the label, reduce the risk that will tear the aluminium foil.

Embodiments of the present application will be further described with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, an embodiment of the present application provides an aluminum foil roll labeling apparatus 100 including a frame 10, a conveying device 20, a detecting device 30 and a labeling device 40. A transfer device 20 is connected to the frame 10, the transfer device 20 being configured to be able to transport the roll of aluminium foil 200 in a first direction X and to transport the roll of aluminium foil 200 to a first position 71 for labelling 61 and a second position 72 for receiving the roll of aluminium foil 200. The inspection device 30 is connected to the frame 10 for identifying and inspecting a break 2001 of the aluminum foil roll 200 located in front of the first location 71. Labeling device 40 is connected to frame 10, and including supply assembly 41 and labeling assembly 42, supply assembly 41 is used for providing label 61, and labeling assembly 42 includes label stroking wheel 421, and label stroking wheel 421 can move near or apart from first position 71, and press label 61 in fracture 2001 of aluminium foil roll 200.

In one embodiment, the conveying device 20 includes a second driving motor 21, a first chain wheel 22 (shown in fig. 4), a second chain wheel 23 (shown in fig. 1), a chain 24, and a plurality of conveying rollers 25, the second driving motor 21 is fixedly connected to the frame 10, the first chain wheel 22 and the second chain wheel 23 are spaced along the first direction X and are both rotatably connected to the frame 10, the chain 24 is connected to the first chain wheel 22 and the second chain wheel 23, and the plurality of conveying rollers are connected to the chain 24 in a sequential arrangement. The output shaft of the second driving motor 21 is connected to the first chain wheel 22 and used for driving the first chain wheel 22 to rotate, the first chain wheel 22 drives the second chain wheel 23 to rotate through the chain 24, so that the chain 24 drives the conveying roller 25 to rotate around the first chain wheel 22 and the second chain wheel 23, and the conveying effect is achieved.

In the first direction X, the distance between two adjacent conveying rollers 25 is smaller than the diameter of the aluminum foil roll 200, so that the aluminum foil roll 200 can be stably accommodated between two adjacent conveying rollers 25, thereby achieving the effect of conveying the aluminum foil roll 200.

In an embodiment, the number of the first chain wheels 22, the second chain wheels 23 and the chains 24 is two, two first chain wheels 22 are arranged at intervals along a second direction Y perpendicular to the first direction X, two second chain wheels 23 are arranged at intervals along the second direction Y, two chains 24 are arranged at intervals along the second direction Y, and two chains 24 are connected to two ends of any one of the conveying rollers 25 respectively, so that the stability of the conveying rollers 25 for conveying the aluminum foil roll 200 is improved. In one embodiment, the first direction X and the second direction Y are both horizontal directions.

In one embodiment, the number of the second driving motors 21 is one, and the output shaft of the second driving motor 21 is connected to a first chain wheel 22. The transmission device further comprises a first transmission shaft, the first transmission shaft is connected with the two first chain wheels 22, so that the first chain wheels 22 connected to the second driving motor 21 can synchronously drive the other first chain wheels 22 to rotate, the transmission synchronism of the two chains 24 is improved, and the stability of the aluminum foil roll 200 conveyed by the conveying roller 25 is improved.

In one embodiment, the conveying device 20 further includes two first baffles 26, and the two first baffles 26 are connected to the frame 10 at intervals along the second direction Y and are located above the plurality of conveying rollers 25. The distance between the two first baffles 26 is matched with the length of the aluminum foil roll 200 and slightly larger than the length of the aluminum foil roll 200, and along the second direction Y, the projection of the aluminum foil roll 200 is overlapped with the projection of the first baffles 26, so that the two first baffles 26 can play a limiting role, the aluminum foil roll 200 is limited in a preset area, the accuracy of the label 61 is favorably improved, and the sticking quality is improved. Viewed in the second direction Y, a portion of the aluminum foil roll 200 is exposed to the upper surface of the first blocking plate 26, so that the placard wheel 421 can act on the aluminum foil roll 200.

In an embodiment, the labelling assembly 42 further comprises a first adjusting assembly 422 and a second adjusting assembly 423, the first adjusting assembly 422 connects the second adjusting assembly 423 and the frame 10, the first adjusting assembly 422 is capable of adjusting the distance of the second adjusting assembly 423 with respect to the first position 71 along the first direction X. The label stroking wheel 421 and the detecting device 30 are connected to the second adjusting assembly 423 and can move along with the second adjusting assembly 423 along the first direction X relative to the first position 71, so that the label 61 is accurately labeled on the aluminum foil roll 200 to be labeled on the label 61, and the labeling quality is improved.

In one embodiment, the first adjusting assembly 422 includes a first lead screw 4221 and a first nut 4222, the first lead screw 4221 extends along the first direction X and is rotatably connected to the frame 10, the first nut 4222 is threadedly connected to the first lead screw 4221, and the first nut 4222 is connected to the second connecting assembly. By rotating the first lead screw 4221, the first nut 4222 can drive the second adjusting component 423 to move along the first direction X, which is beneficial to improving the stability of the first adjusting component 422 driving the second adjusting component 423 to move.

In an embodiment, the number of the first lead screws 4221 is two, the number of the first nuts 4222 is at least two, one first lead screw 4221 is connected with at least one first nut 4222, and the two first lead screws 4221 are respectively located at two sides of the second adjusting assembly 423, which is beneficial to further improving the stability of the first adjusting assembly 422 driving the second adjusting assembly 423 to move.

In an embodiment, the first adjustment assembly 422 further includes a first guide post 4223 and a first guide sleeve 4224. The first guide column 4223 is connected to the frame 10 in an extending manner along the first direction X, and the first guide sleeve 4224 is sleeved on the first guide column 4223 and connected to the second adjusting assembly 423. By providing the first guide column 4223 and the first guide sleeve 4224, the stability of the movement of the second adjustment assembly 423 along the first direction X is improved.

In an embodiment, the number of the first guiding columns 4223 and the number of the first guiding sleeves 4224 are multiple, and one first guiding sleeve 4224 is sleeved on at least one first guiding column 4223, so that the stability of the movement of the second adjusting assembly 423 along the first direction X is further improved.

In an embodiment, the first adjusting assembly 422 further includes two first connecting members 4225, the two first connecting members 4225 are respectively located at two sides of the second adjusting assembly 423 and are respectively connected to the second adjusting assembly 423, and one first connecting member 4225 is connected to at least one first nut 4222 and at least one first guiding sleeve 4224, which is beneficial to further improve the stability of the movement of the second adjusting assembly 423 along the first direction X.

In an embodiment, the first adjustment assembly 422 further includes a first hand wheel 4226, the first hand wheel 4226 is connected to a first lead screw 4221, and rotating the first hand wheel 4226 can drive the first lead screw 4221 to rotate, so that the first adjustment assembly 422 is convenient to operate and cost-saving. Optionally, the number of the first hand wheels 4226 is opposite to the number of the first lead screws 4221, one first hand wheel 4226 is connected with one first lead screw 4221, and a worker can operate at any one first hand wheel 4226, so that convenience is improved.

In an embodiment, the first adjusting assembly 422 further includes a third driving motor (not shown), the third driving motor is connected to the frame 10, and an output shaft of the third driving motor is connected to the first lead screw 4221 for driving the first lead screw 4221 to rotate, which is beneficial to improving the automation degree of the aluminum foil roll labeling apparatus 100.

In an embodiment, labeling assembly 42 further includes a fourth guiding column 424 and a fourth guiding sleeve 425, fourth guiding column 424 is disposed to extend along second direction Y and connected to first nuts 4222 at two sides, fourth guiding column 424 can move along first direction X synchronously with first nuts 4222, fourth guiding sleeve 425 is sleeved on fourth guiding column 424, and fourth guiding sleeve 425 is connected to second adjusting assembly 423. Through making fourth uide bushing 425 move along second direction Y relative to fourth guide post 424, can make second adjust subassembly 423 move along second direction Y, be favorable to adjusting the position of pacifying mark wheel 421 and detection device 30 for fracture 2001, improve the subsides mark precision.

In an embodiment, the number of the fourth guiding posts 424 and the number of the fourth guiding sleeves 425 are opposite and are multiple, the plurality of fourth guiding posts 424 are arranged at intervals, and one fourth guiding sleeve 425 is sleeved on one fourth guiding post 424, which is beneficial to improving the stability of the second adjusting component 423 in moving along the second direction Y.

In one embodiment, the second adjusting assembly 423 includes a second coupling member 4231, a third coupling member 4232, a second lead screw 4233 and a second nut 4234, the second coupling member 4231 couples all the fourth guide sleeves 425, the third coupling member 4232 couples the placard wheel 421 and the detecting device 30, the second nut 4234 is disposed on the second coupling member 4231, the second lead screw 4233 is extended along a third direction Z perpendicular to the first direction X and the second direction Y and is rotatably coupled to the third coupling member 4232, and the second lead screw 4233 is threadedly coupled to the second nut 4234. By rotating the second lead screw 4233, the third link 4232 can drive the label stroking wheel 421 and the detection device 30 to move along the third direction Z, so that the distance between the label stroking wheel 421 and the detection device 30 along the third direction Z relative to the first position 71 is adjusted.

In an embodiment, the second adjustment assembly 423 further includes a second guide post 4235 and a second guide sleeve 4236. The second guiding column 4235 is connected to the third link 4232 in an extending manner along the third direction Z, and the second guiding sleeve 4236 is sleeved on the second guiding column 4235 and connected to the second link 4231. The stability of the movement of the third link 4232 in the third direction Z is improved by the provision of the second guide column 4235 and the second guide sleeve 4236.

In an embodiment, the number of the second guiding column 4235 and the second guiding sleeve 4236 is multiple, and one second guiding column 4235 is sleeved on one second guiding sleeve 4236, which is beneficial to further improve the stability of the third connecting member 4232 moving along the third direction Z.

In an embodiment, the second adjusting assembly 423 further includes a fourth connecting member 4237, the fourth connecting member 4237 connects the second guiding column 4235 and an end of the second lead screw 4233 away from the third connecting member 4232, the second lead screw 4233 is rotatable relative to the fourth connecting member 4237, and the fourth connecting member 4237 is beneficial to further improve the stability of the third connecting member 4232 moving along the third direction Z.

In an embodiment, the second adjustment assembly 423 further includes a second wheel 4238, the second wheel 4238 is connected to the second lead screw 4233, and the second lead screw 4233 can be driven to rotate by rotating the second wheel 4238, so that the operation of the second adjustment assembly 423 is facilitated, and the cost is saved.

In an embodiment, the second adjusting assembly 423 further includes a fourth driving motor (not shown), the fourth driving motor is connected to the fourth connecting member 4237, and an output shaft of the fourth driving motor is connected to the second lead screw 4233 for driving the second lead screw 4233 to rotate, which is beneficial to improving the automation degree of the aluminum foil roll labeling apparatus 100.

In an embodiment, the second adjusting assembly 423 further includes a fifth connecting member 4239, the fifth connecting member 4239 connects the third connecting member 4232 and the placard wheel 421, and the third connecting member 4232 drives the fifth connecting member 4239 to move, so that the placard wheel 421 moves synchronously.

In an embodiment, the labeling device 40 further includes a first driving motor 43, the first driving motor 43 is connected to the fifth connecting member 4239, and an output shaft of the first driving motor 43 is connected to the label stroking wheel 421 for driving the label stroking wheel 421 to rotate. When the aluminum foil roll 200 to be labeled with the label 61 is located at the first position 71, the label stroking wheel 421 is close to the aluminum foil roll 200 and rotates to drive the aluminum foil roll 200 to rotate, so that the effect of adjusting the angle of the aluminum foil roll 200 is achieved, and the labeling precision is improved. Optionally, the first driving motor 43 is a servo motor.

In an embodiment, the surface of the label pressing wheel 421 is provided with an elastic layer, when the label pressing wheel 421 attaches the label 61 to the fracture 2001 of the aluminum foil roll 200, the effect of attaching the label 61 is improved by the elastic action of the elastic layer, and the risk that the label pressing wheel 421 presses and deforms the aluminum foil roll 200 is reduced.

In an embodiment, labeling device 40 further includes a sixth connecting member 44, sixth connecting member 44 is movably connected to third connecting member 4232 along third direction Z, and detection device 30 is connected to sixth connecting member 44, and detection device 30 can move along third direction Z along with sixth connecting member 44 relative to third connecting member 4232, so as to facilitate independent adjustment of the distance between detection device 30 along third direction Z relative to first position 71, and improve the accuracy of detection device 30 in identifying and detecting fracture 2001. Optionally, the sixth connecting member 44 is provided with a first kidney-shaped hole 441, and the first kidney-shaped hole 441 extends along the third direction Z and is connected to the third connecting member 4232 by a screw, so that the operation is simple and convenient.

In an embodiment, labeling device 40 further includes a seventh connecting member 45, seventh connecting member 45 is movably connected to sixth connecting member 44 along first direction X, detecting device 30 is connected to seventh connecting member 45, and detecting device 30 can move along first direction X along with seventh connecting member 45 relative to sixth connecting member 44, which facilitates to individually adjust the distance of detecting device 30 along first direction X relative to first position 71, and improves the accuracy of detecting device 30 in identifying and detecting fracture 2001. Optionally, the seventh connecting member 45 is provided with a second waist-shaped hole 451, the second waist-shaped hole 451 extends along the first direction X and is connected to the fifth connecting member 4239 through a screw, so that the operation is simple.

In an embodiment, the seventh connecting member 45 is further provided with a first arc-shaped hole 452 (as shown in fig. 2) penetrating therethrough, the detecting device 30 is connected to the first arc-shaped hole 452 by a bolt, and the detecting device 30 can adjust an angle of the seventh connecting member 45 along the first arc-shaped hole 452, so as to adjust an angle of the detecting device 30 facing the first position 71, so that the first position 71 falls into an identification area of the detecting device 30, which is beneficial to improving the accuracy of the detecting device 30 in identifying and detecting the fracture 2001.

In one embodiment, the detection device 30 includes a visual detection sensor.

Referring to fig. 4 and 5, in one embodiment, the feeding assembly 41 includes a label parent roller 4111, a first base plate 412, and a recovery roller 4112. The label base roller 4111 is rotatably connected to the frame 10, a label base plate 62 is wound around the label base roller 4111, and the label 61 is attached to the label base plate 62. The first base plate 412 is movably connected to the frame 10 in the third direction Z, and the recovery roller 4112 is rotatably connected to the first base plate 412 for winding up the label base plate 62 after recovering the peeled label 61. By rotating the recovery roller 4112, the label base plate 62 can be wound on the recovery roller 4112, so that the label base plate 62 drives the labels 61 thereon to rotate together from the label base roller 4111, and move to the first position 71 area along the preset path, so as to seal the fracture 2001 of the aluminum foil roll 200.

In an embodiment, the number of the first base plates 412 is two, the two first base plates 412 are spaced apart in the second direction Y, and the label female roller 4111 and the recovery roller 4112 are disposed between the two first base plates 412 and rotatably connected to the two first base plates 412.

In one embodiment, the feeding assembly 41 further includes a plurality of driven rollers 4113, the plurality of driven rollers 4113 are disposed between the two first base plates 412 and rotatably connected to the two first base plates 412, and the label base plate 62 sequentially passes from the label base roller 4111 to the plurality of driven rollers 4113 and finally winds around the recovery roller 4112. The plurality of driven rollers 4113 can adjust the moving path of the label base 62 to move the label base 62 to the first position 71 area and the recovery roller 4112 in a proper path.

The supply assembly 41 further includes a peel plate 413, the peel plate 413 being attached to the first base 412, the peel plate 413 having a tip 4131, the tip 4131 being disposed toward the first position 71, the label base 62 passing around the tip 4131, and a side of the label base 62 facing away from the label 61 being in contact with the tip 4131. The sharp 4131 bends the label base plate 62 in an area near the first position 71, which facilitates the separation of the label 61 from the label base plate 62 in the bent area, and facilitates the label applying wheel 421 to press the label 61 separated from the label base plate 62 onto the fracture 2001 area of the aluminum foil roll 200.

In an embodiment, the first bottom plate 412 is provided with a second arc-shaped hole 4121 penetrating through the first bottom plate, the peeling plate 413 is connected to the second arc-shaped hole 4121 through a bolt, and the angle of the peeling plate 413 relative to the first bottom plate 412 can be adjusted along the second arc-shaped hole 4121, so that the angle of the tip 4131 facing the first position 71 is adjusted, and the accuracy of attaching the label 61 to the fracture 2001 area is improved.

In one embodiment, the feeding assembly 41 further comprises a label detecting sensor 414, the label detecting sensor 414 is disposed on the first base plate 412 along the moving path of the label base plate 62, the label detecting sensor 414 is located in front of the area of the tip 4131 for identifying and detecting the label 61 on the label base plate 62, and the time for the label 61 to move to the tip 4131 can be obtained according to the distance between the label 61 and the tip 4131 and the moving speed of the label base plate 62, which is beneficial to improving the labeling precision.

Referring to fig. 2, 3 and 4, in one embodiment, the feeding assembly 41 further includes a fifth driving motor 415, the fifth driving motor 415 is connected to a first base plate 412, and the fifth driving motor 415 is further connected to the recovery roller 4112, and is capable of driving the recovery roller 4112 to rotate, so that the recovery roller 4112 has a driving force for winding the label substrate 62, thereby driving the label substrate 62 to move from the label substrate roller 4111 along a predetermined path. Optionally, the fifth driving motor 415 is a servo motor.

In one embodiment, the feeding assembly 41 further comprises a driving roller 4114, the driving roller 4114 is disposed between the two first base plates 412 and is rotatably connected to the two first base plates 412, the driving roller 4114 contacts a side of the label base plate 62 facing away from the label 61, and the driving roller 4114 rotates to drive the label base plate 62 to move.

The supply unit 41 further comprises a driving wheel 4161, a plurality of driven wheels 4162 and a plurality of transmission belts 4163, wherein the driving wheel 4161 and the plurality of driven wheels 4162 are rotatably connected to the same first base plate 412, a portion of the transmission belts 4163 connects the driving wheel 4161 and the driven wheels 4162, a portion of the transmission belts 4163 connects adjacent driven wheels 4162, and the driving wheel 4161 and the plurality of driven wheels 4162 can rotate synchronously via the transmission belts 4163. An output shaft of the fifth driving motor 415 is connected with a driving wheel 4161, the fifth driving motor 415 can drive the driving wheel 4161 to rotate, and the driving wheel 4161 drives a plurality of driven wheels 4162 to rotate synchronously through a transmission belt 4163. One of the driven wheels 4162 is coaxially connected to the recovery roller 4112, one of the driven wheels 4162 is coaxially connected to the driving roller 4114, and the recovery roller 4112 and the driving roller 4114 rotate synchronously to drive the label substrate 62 to move, which is beneficial to improving the accuracy of the movement of the label substrate 62.

In an embodiment, the driven rollers 4113, the peeling plate 413, the fifth driving motor 415, the driving wheel 4161, the driven wheel 4162 and the driving roller 4114 can move along with the two first base plates 412 along the third direction Z relative to the frame 10, that is, relative to the label parent roller 4111, so as to facilitate tensioning of the label base plate 62, provide tension on the label base plate 62, reduce the risk of wrinkles occurring on the label base plate 62, and improve labeling accuracy.

In one embodiment, the supply assembly 41 further includes an eighth connector 4171, a third guide sleeve 4181 and a third guide sleeve 4182, the eighth connector 4171 is connected to the first base plate 412, the third guide sleeve 4182 is disposed on the eighth connector 4171, the third guide column 4181 is extended along the third direction Z, and the third guide column 4181 is connected with the third guide sleeve 4182 in a matching manner and is fixedly connected to the frame 10, so that the first base plate 412 and the third guide sleeve 4182 can move along the third guide column 4181 along the third direction Z.

In an embodiment, the supply assembly 41 further includes a third screw 4183 and a third nut 4184, the third nut 4184 is disposed on the eighth connecting member 4171, the third screw 4183 extends along the third direction Z and is threadedly connected to the third nut 4184, and by rotating the third screw 4183, the third nut 4184 can be driven to move along the third direction Z, so as to drive the eighth connecting member 4171 and the first base plate 412 to move along the third direction Z.

In an embodiment, the number of the third guiding columns 4181 and the number of the third guiding sleeves 4182 are opposite and are multiple, one third guiding column 4181 is connected to one third guiding sleeve 4182, and at least two guiding sleeves are arranged on the eighth connecting member 4171 at intervals, which is beneficial to improving the stability of the eighth connecting member 4171 moving along the third direction Z.

In one embodiment, the feeding assembly 41 further comprises a ninth connecting member 4172, the ninth connecting member 4172 connects the at least two third guiding columns 4181 and the third screw 4183 at the same time, and the third screw 4183 is rotatable relative to the ninth connecting member 4172, which is favorable for further improving the stability of the eighth connecting member 4171 moving along the third direction Z.

In an embodiment, the feeding assembly 41 further includes a third hand wheel 419, the third hand wheel 419 is connected to the third screw rod 4183, and rotating the third hand wheel 419 can drive the third screw rod 4183 to rotate, which is convenient for operation and saves cost.

In an embodiment, the feeding assembly 41 further comprises a sixth driving motor (not shown), the sixth driving motor is connected to the ninth connecting member 4172, and an output shaft of the sixth driving motor is connected to the third screw 4183 for driving the third screw 4183 to rotate, which is beneficial to improving the automation degree of the aluminum foil roll labeling apparatus 100.

In an embodiment, the aluminum foil roll labeling apparatus 100 further comprises a recycling device 50, wherein the recycling device 50 is disposed below the second position 72 for receiving the labeled 61 aluminum foil roll 200. The second position 72 is located at the end of the transport path of the transport device 20 along the first direction X, and when the aluminum foil roll 200 is transported to the second position 72, the aluminum foil roll 200 drops from the transport device 20 by gravity, can fall onto the recovery device 50, and is received by the recovery device 50.

In one embodiment, the conveyor 20 further comprises a second flap 27, the second flap 27 being attached to the frame 10 and located at the end of the transport path of the conveyor 20. The second shutter 27 is disposed opposite to the second position 72 in the first direction X. Along the third direction Z, the lower end of the second baffle 27 is connected to the frame 10, and the upper end of the second baffle 27 is disposed upward and inclined toward a direction away from the conveying device 20. When the aluminum foil roll 200 is conveyed to the second position 72 and falls off from the conveying roller 25, due to inertia, the aluminum foil roll 200 continues to move along the first direction X, and the second baffle plate 27 can function as a stop for stopping the aluminum foil roll 200 which falls freely, so that the aluminum foil roll 200 slides to the recovery device 50 below, and the risk that the aluminum foil roll 200 falls off the recovery device 50 is reduced.

In one embodiment, the recycling device 50 includes a platform 51, and the platform 51 is located below the second baffle 27 and is configured to receive the roll of aluminum foil 200 that slides down the second baffle 27. In one embodiment, the recycling device 50 includes a receiving cavity (not shown) located below the second baffle 27 for receiving the aluminum foil roll 200 sliding down the second baffle 27.

As shown in fig. 4 and 5, the detecting device 30 is located in front of the first position 71 along the conveying path of the conveying roller 25, the detecting device 30 can identify and detect the fracture 2001 of the aluminum foil roll 200 in front of the first position 71, and the time for moving the aluminum foil roll 200 to the first position 71 can be obtained according to the distance from the detecting device 30 to the first position 71 and the conveying speed of the conveying roller 25, which is beneficial to improving the labeling precision. In addition, the detection device 30 can also identify and detect the angle of the fracture 2001 of the aluminum foil roll 200 relative to the first direction X, when the aluminum foil roll 200 moves to the first position 71, the conveying roller 25 stops moving, the label stroking wheel 421 is connected with the aluminum foil roll 200 through contact and rotates, the angle of the fracture 2001 relative to the first direction X can be adjusted, the fracture 2001 is located at a preset position, and labeling precision is improved.

As shown in fig. 6, 7 and 8, in one embodiment, after the aluminum foil roll 200 passes through the aluminum foil roll labeling device 100 to apply the label 61 in the fracture 2001 area, along the circumferential direction of the aluminum foil roll 200, one part of the label 61 is located on one side of the fracture 2001, the other part of the label 61 is located on the other side of the fracture 2001, and the lengths of the parts of the label 61 on both sides of the fracture 2001 are L1 and L2, respectively, which satisfies the conditions of 20mm ≦ L1 ≦ 30mm, and 20mm ≦ L2 ≦ 30mm. The length range of the part of the label 61, which is located on two sides of the fracture 2001 in the circumferential direction, is beneficial to stably attaching the label 61 to the fracture 2001, reducing the risk of wrinkles or reverse folding of the aluminum foil roll 200, and reducing the risk of tearing the aluminum foil when the label 61 is detached by a consumer.

In an embodiment, L1 has a value of any one of 20mm, 21mm, 22mm, 23mm, 24mm, 25mm, 26mm, 27mm, 28mm, 29mm and 30mm. Preferably, L1=25mm.

In an embodiment, L2 has a value of any one of 20mm, 21mm, 22mm, 23mm, 24mm, 25mm, 26mm, 27mm, 28mm, 29mm and 30mm. Preferably, L2=25mm.

In an embodiment, after the aluminum foil roll 200 passes through the aluminum foil roll labeling apparatus 100 and the label 61 is attached to the fracture 2001 area, the length of the label 61 is 50mm along the circumferential direction of the aluminum foil roll 200, and the fracture 2001 is located in the middle of the label 61.

In an embodiment, after the aluminum foil roll 200 passes through the aluminum foil roll labeling device 100 and the label 61 is attached to the fracture 2001 area, along the axial direction of the aluminum foil roll 200, a part of the label 61 exceeds one end of the aluminum foil roll 200, the length of the label 61 exceeding one end of the aluminum foil roll 200 is L3, and L3 is greater than or equal to 2mm and less than or equal to 3mm. The label 61 axially exceeds the length range of one end of the aluminum foil roll 200, which not only facilitates the label 61 to be stably attached to the fracture 2001 and reduces the risk of the aluminum foil roll 200 being wrinkled or folded, but also facilitates the consumer to tear the label 61 through the part of the label 61 exceeding the aluminum foil roll 200.

In an embodiment, the value of L3 is any one of 2mm, 2.1mm, 2.2mm, 2.3mm, 2.4mm, 2.5mm, 2.6mm, 2.7mm, 2.8mm, 2.9mm and 3mm. Preferably, L3=2.5mm.

In an embodiment, after the aluminum foil roll 200 passes through the aluminum foil roll labeling device 100 and the label 61 is attached to the fracture 2001 area, along the axial direction of the aluminum foil roll 200, a part of the label 61 still exceeds the other end of the aluminum foil roll 200, the length of the label 61 exceeding the other end of the aluminum foil roll 200 is L4, and L4 is greater than or equal to 2mm and less than or equal to 3mm. The part of label 61 exceeds the both ends of aluminium foil book 200 along the axial, is favorable to the consumer to tear label 61 through the arbitrary one end of aluminium foil book 200 axial, improves the convenience.

In an embodiment, the value of L4 is any one of 2mm, 2.1mm, 2.2mm, 2.3mm, 2.4mm, 2.5mm, 2.6mm, 2.7mm, 2.8mm, 2.9mm and 3mm. Preferably, L4=2.5mm.

In an embodiment, after the aluminum foil roll 200 passes through the aluminum foil roll labeling apparatus 100 and the label 61 is attached to the fracture 2001 area, the length of the aluminum foil roll 200 is 300mm, the length of the label 61 is 305mm, and the length of the label 61 beyond both ends of the aluminum foil roll 200 is 2.5mm along the axial direction of the aluminum foil roll 200.

To sum up, in the aluminum foil roll labeling apparatus 100 of the present application, the fracture 2001 of the aluminum foil roll 200 is identified and detected by the detection device 30, so that the labeling device 40 is precisely attached to the fracture 2001 area, and in the circumferential direction of the aluminum foil roll 200, the length of the part of the label 61 located on any side of the fracture 2001 is greater than or equal to 20mm and less than or equal to 30mm, and in the axial direction of the aluminum foil roll 200, the part of the label 61 exceeds one end of the aluminum foil roll 200, and the length of the label 61 exceeding one end of the aluminum foil roll 200 is greater than or equal to 2mm and less than or equal to 3mm, which not only facilitates the stable attachment of the label 61 to the fracture 2001, reduces the risk of wrinkling or reverse folding of the aluminum foil roll 200, but also facilitates the tearing of the label 61 beyond the part of the aluminum foil roll 200 by the label 61, and reduces the risk of tearing the aluminum foil.

In addition, other changes may be made by those skilled in the art within the spirit of the present application, and it is understood that such changes are encompassed within the scope of the present disclosure.

Claims (10)

1. An aluminium foil rolls up subsides mark equipment which characterized in that includes:

a frame;

a conveyor coupled to the frame, the conveyor configured to transport a roll of aluminum foil in a first direction and to a first position for labeling and a second position for receiving a roll of aluminum foil;

the detection device is connected with the rack and used for identifying and detecting a fracture of the aluminum foil roll positioned in front of the first position;

the labeling device is connected to the rack and comprises a supply assembly and a labeling assembly, the supply assembly is used for providing labels, the labeling assembly comprises a label stroking wheel, and the label stroking wheel can move close to or away from the first position and press the labels on the fractures of the aluminum foil roll;

along the circumferential direction of the aluminum foil roll, one part of the label is positioned on one side of the fracture, the other part of the label is positioned on the other side of the fracture, and the length of the part of the label positioned on any side of the fracture is more than or equal to 20mm and less than or equal to 30mm;

along the axial direction of aluminium foil book, the partial excess of label is in the one end of aluminium foil book, the length that the label exceeds one end of aluminium foil book is more than or equal to 2mm, and is less than or equal to 3mm.

2. The aluminum foil roll labeling apparatus according to claim 1, wherein the label is partially protruded from both ends of the aluminum foil roll in an axial direction of the aluminum foil roll, and the length of the label protruded from either end of the aluminum foil roll is 2mm or more and 3mm or less.

3. The aluminum foil roll labeling apparatus of claim 1, wherein the labeling assembly further comprises:

the first adjusting assembly is connected with the rack and the label stroking wheel and can adjust the distance of the label stroking wheel relative to the first position along the first direction;

the second adjusting assembly is movably connected to the first adjusting assembly along a second direction perpendicular to the first direction, the label stroking wheel and the detecting device are connected to the second adjusting assembly, and the second adjusting assembly can adjust the distance between the label stroking wheel and the detecting device relative to the first position along a third direction perpendicular to the first direction and the second direction.

4. Aluminium foil roll labeling apparatus as claimed in claim 3, wherein said detection means are movably connected to said second adjustment assembly.

5. The aluminum foil roll labeling apparatus of claim 1, wherein the label stroking wheel has an elastic layer on a surface thereof.

6. The aluminum foil roll labeling apparatus as claimed in claim 1, wherein said labeling device further comprises a first driving motor, an output shaft of said first driving motor being connected to said label stroking wheel for driving said label stroking wheel to rotate.

7. Aluminium foil roll labelling apparatus as claimed in claim 1, wherein said supply assembly comprises:

the label female roller is rotatably connected to the rack, a label bottom plate is wound on the label female roller, and the label is attached to the label bottom plate;

a first base plate movably coupled to the frame in a third direction perpendicular to the first direction;

and the recovery roller is rotatably connected to the first bottom plate and is used for winding the label bottom plate after the label is recovered and stripped.

8. Aluminium foil roll labeling apparatus as claimed in claim 7, wherein said supply assembly further comprises a peel plate attached to said first base plate and in contact with a side of said label base plate facing away from the label, said label base plate being bent over in the region of contact with said peel plate.

9. The aluminum foil roll labeling apparatus of claim 7, wherein said supply assembly further comprises a plurality of driven rollers rotatably connected to said first base plate, said label base plate passing around a plurality of said driven rollers in sequence.

10. The apparatus for labeling a roll of aluminum foil as claimed in claim 1, further comprising a recycling device disposed below the second location for receiving the labeled roll of aluminum foil.

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