CN112407495A - Product inner tube pastes mark vanning integral type equipment - Google Patents

Abstract

The product inner tube labeling and boxing integrated equipment can realize the purpose of boxing the product on the conveying line, and labeling and label pressing are finished in the boxing process. The device has simple and reasonable structure, and can be well suitable for labeling and boxing the inner tubes of large-batch products. Meanwhile, the clamping device can also be suitable for clamping products with inner cavities of different diameters, and can be well suitable for both cylindrical inner cavities and conical inner cavities. The device product transfer chain, the vanning device, a change the material device for with the product transfer chain product of coming transmit to the workbin on the vanning device in, be provided with on the removal route of the product that transmits and paste the mark device, change and have on the material device and press mark unit with pressing from both sides the material, it stretches into the portion of getting that the product inner chamber was taken to the product to have on it, change the material device still including changeing material adjustment mechanism, be used for adjusting to press the mark unit with pressing from both sides the material to change between 3 kinds of states in order to realize the vanning with the product on the transfer chain, the in-process completion of vanning pastes the mark and compresses tightly.

Description

Product inner tube pastes mark vanning integral type equipment

Technical Field

The invention relates to the field of tubular product transferring and labeling equipment, in particular to labeling and boxing integrated equipment for tubular products.

Background

Tubular products, such as yarn barrels, have the outer surface covered with yarn, so that only the inner cavity of the yarn barrel can be labeled when labeling is carried out, and the traditional mechanism for labeling the outer surface has difficulty in labeling the inner cavity of the product.

The labeling mechanism needs to put the labeling part into the inner cavity for labeling, so that certain requirements are needed for the position precision of the yarn barrel, and due to various reasons, the labeling is carried out by putting the labeling part into the inner cavity, so that the situation that labels are not firmly adhered can be caused.

In addition, the yarn bucket is when automated production, for convenient conveying, transports the product with the state of lying generally, and the product of this kind of state is when carrying out the centre gripping vanning, can set up the station of a conversion direction usually and convert the product into vertical state earlier, and the rethread manipulator transports the product of vertical state to in the box.

Disclosure of Invention

In order to solve the problems, the invention provides an integrated device for labeling and boxing inner tubes of products.

The technical scheme adopted by the invention is as follows.

The product conveying line is used for conveying products, the boxing device is used for boxing the labeled products, the material transferring device is arranged between the product conveying line and the boxing device, the product conveyed by the product conveying line is transferred into a material box on the boxing device by the material transferring device, the labeling device is arranged on the moving path of the product transferred by the material transferring device, the product is provided with a tubular inner cavity, the material transferring device is provided with a material clamping and label pressing unit, the material clamping and label pressing unit is provided with a material taking part which extends into the inner cavity of the product to take the product, the material transferring device further comprises a material transferring adjusting mechanism, and the material transferring adjusting mechanism adjusts the material clamping and label pressing unit to switch among states A1, A2 and A3; state a 1: the material clamping and label pressing unit corresponds to the product on the conveying line, so that a material taking part on the material clamping and label pressing unit is inserted into the inner cavity of the product from one end of the product to take the product on the conveying line; state a 2: the material clamping and pressing unit corresponds to a label outlet on the labeling mechanism, so that a label moved out of the label outlet is fed into an inner cavity of the product from the other end of the product for labeling; state a 3: the material clamping and marking unit corresponds to the box body on the boxing mechanism, so that the material taking part is moved out of the inner cavity of the product, and the labeled product is loaded in the box body.

Preferably, the material clamping and marking unit is also provided with a pressing part which extends into the product cavity to press and paste the label preliminarily adhered to the wall of the product cavity, and the pressing part presses and pastes the label in the process of converting the A2 state into the A3 state.

Preferably, change the material device including changeing the material frame, change the material frame and rotate and install on the frame body, note that the pivot of changeing the material frame of rotation assembly is the X axle, the circumference interval of changeing the material frame is provided with changes the material support frame, changes the radial sliding installation of material support frame along the X axle, changes material adjustment mechanism and carries out pivoted A adjusting part and adjusts the B adjusting part that changes the radial sliding of material support frame along the X axle including adjusting change material mechanism, the clamp material compress mark unit set up on changeing the material support frame.

Preferably, the material clamping and pressing units are arranged on the material transferring support frame at intervals along the length direction of the X axis.

Preferably, change material adjustment mechanism still includes the C adjusting part of adjusting the interval between each material clamping die mark unit on the material support frame that changes.

Preferably, the material clamping and marking unit is provided with an abutting-pushing column movably mounted along the radial direction of the X axis, one end of the abutting-pushing column is connected with the material taking part and used for adjusting the material taking part to be inserted into and removed from the inner cavity of the product, and the material transferring adjusting mechanism further comprises a D adjusting assembly used for adjusting the abutting-pushing column to move.

Preferably, the material transferring support frame is provided with an installation beam and a pushing beam which are parallel to the X axis, each material clamping and marking unit is installed on each installation seat, the installation seats are assembled on the installation beam in an equidistant sliding mode, the pushing beam is installed on the material transferring support frame along the radial direction of the X axis in a movable mode, the other end of the pushing column is assembled with the pushing beam in a sliding mode along the body length direction, and the D adjusting assembly is connected with the pushing beam and used for adjusting the distance between the pushing beam and the installation beam.

Preferably, be provided with interval regulation and control spring between each mount pad, C adjusting part sets up the portion of leaning on including the outermost mount pad, and when A3 state, B adjustment mechanism adjusted to change the material support frame along X axle radial movement, be provided with on the route that the portion of leaning on removed and lean on the piece, the piece of leaning on with lean on the portion and constitute the inclined plane and lean on adjustment mechanism, the inclined plane lean on adjustment mechanism and be used for adjusting the interval between each mount pad.

Preferably, the abutting pieces and/or the abutting parts are movably arranged along the direction parallel to the X axis, and the distance between the installation seats is adjusted by adjusting the positions of the abutting pieces and/or the abutting parts.

Preferably, the rotating support frame is arranged at 4 intervals along the circumferential direction of the rotating material rack, the X axis is horizontally arranged, a blanking station is arranged under the rotating material support frame, the left outer side and the right outer side of the rotating material support frame are respectively arranged as a loading station and a labeling station, the rotating direction of the rotating material support frame is the loading station to turn to the labeling station, and the length direction of a product tube cavity at the discharge end of the product conveying line is the horizontal direction and points to the X axis.

Preferably, the labeling mechanism is provided with a label discharging part, a supporting assembly for temporarily supporting the label moved out of the label discharging part is arranged on the outer side of the label discharging part, and a blowing assembly is arranged above the supporting assembly and used for blowing the label on the supporting assembly to the inner diameter of the tubular object to complete pre-labeling.

Preferably, the supporting component includes A, B support piece of mutual disposition, and A, B support piece is for shaft-like, and A, B support piece one end is the overhang form and arranges, and the other end is installed on the bar pole, and the both ends of bar pole are installed on the wedge that sets up on the mark portion of appearing, form between bar and the wedge and dodge the portion, dodge the portion and be used for dodging the transfer of the antiseized paper of separation on the mark portion of appearing.

Preferably, the blowing mechanism includes a blowing nozzle having a blowing direction directed downward and toward the middle of the label on the A, B support.

Preferably, the following components: the subsides mark device is including setting up along X axle length direction interval, and the transfer chain includes the conveying unit that sets up along X axle length direction interval, and conveying unit, the quantity of pasting the mark device all with change material support frame on the number phase-match of pressing mark unit of material clip.

Preferably, mark portion and supporting component are along vertical direction height-adjustable formula installation, and product transfer chain discharge end height-adjustable formula installation.

The invention has the beneficial effects that: the clamping and marking unit adopted by the device clamps the product through the inner cavity of the expanded product, has higher positioning precision, and can clamp the product well all the time no matter how the outer diameter of the product changes. And after clamping, the position and the state of the product are changed through the material transferring device, and boxing is carried out. Obviously, the clamping mode can well gather a plurality of products together for boxing. The labeling device of the device firstly blows the label into an arc shape through the blowing device and the supporting component for temporarily placing the label, and the two ends of the label can be well prevented from contacting the inner cavity in the inner cavity of the product in an arc-shaped mode, so that a gap is reserved between the label and the inner cavity. The material clamping and label pressing unit further comprises a label pressing part, the label pressing part is used for pressing the label in an expanding mode, and after the labeling of the labeling device is completed, the label pressing can further enable the label to be firmly attached to the inner cavity of a product and not to fall off easily. The material is got when adopting a plurality of clamping to press mark units and multistation, pastes mark, presses mark and vanning and can improve production efficiency. The device can also be suitable for clamping products with inner cavities of different diameters, and the device can be well suitable for both cylindrical inner cavities and conical inner cavities. The device has simple and reasonable structure, and can be well suitable for labeling and boxing of large-batch products.

Drawings

FIG. 1 is a schematic view of a product of the present invention;

FIG. 2 is an isometric view of an apparatus according to an embodiment of the present invention;

FIG. 3 is a front view of the transfer device of FIG. 2;

4-7 show 4 states of the clamping and marking unit in FIG. 2;

FIG. 8 is a schematic view of a clamping and marking unit clamping a conical product;

FIG. 9 is a right side view of FIG. 2;

fig. 10 is a front view of the labeling spindle of fig. 2;

FIG. 11 is an enlarged view of the noted portion of FIG. 10;

FIG. 12 is a schematic illustration of the decal of FIG. 10;

FIG. 13 is a comparison of the labeling process of FIG. 10 with other labeling processes;

fig. 14 is a schematic view of the labeling device of fig. 10 adapted to products with different inner cavity sizes.

The reference numbers in the figures are: 100-label, 200-material transferring device, 210-material transferring rack, 220-material transferring support frame, 221-mounting beam, 222-pushing beam, 223-mounting seat, 224-spacing regulating spring, 225-abutting part, 226-abutting part, 230-A regulating component, 240-B regulating component, 250-C regulating component, 260-D regulating component, 270-X shaft, 300-boxing device, 310-blanking station, 320-material box, 400-product conveying line, 410-loading station, 500-material clamping and pressing unit, 510-material taking part, 511-material taking clamping component, 512-material taking clamping component, 513-clamping and mounting part, 550-pressing part, 551-air bag, 552-inner pressing plate, 553-outer pressing plate, 554-outer plate connecting rod, 555-inner plate connecting pipe, 556-vacant area, 557-limiting part, 558-limiting protrusion, 570-adjusting mechanism, 571-material taking adjusting part, 572-press mark adjusting part, 573-pushing column, 574-conical pushing head, 575-driving spring, 576-assembling block, 590-material taking mounting part, 600-labeling device, 610-labeling station, 620-label discharging part, 630-supporting component, 631-B supporting component, 640-air blowing component, 700-product, 710-product a end and 720-product B end.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As used herein, the terms "parallel," "perpendicular," and the like are not limited to their strict geometric definition, but include tolerances for machining or human error, reasonable and inconsistent.

As shown in fig. 1, such a product having a tubular inner cavity, for example, a yarn barrel, can only stick a label to the inner cavity of the product during labeling, and a conventional labeling device is often used for labeling the outer contour of the product, so that it is difficult to apply the label to the inner cavity. In addition, the yarn bucket is when automated production, for convenient conveying, transports the product with the state of lying generally, and the product of this kind of state is when carrying out the centre gripping vanning, can set up the station of a conversion direction usually and convert the product into vertical state earlier, and the rethread manipulator transports the product of vertical state to in the box. The product inner tube labeling and boxing integrated equipment can directly box products on a conveying line, and labels are attached to inner cavities of the products while boxing, so that an original direction conversion station and a boxing station are integrated into one station.

First, a material transferring and stamping integrated material transferring device for clamping a product is described.

As shown in fig. 3 and 4, including changeing material support frame 220, change and be provided with clamp material and press mark unit 500 on the material support frame 220, clamp material presses mark unit 500 to last to have and to stretch into product 700 inner chamber and carry out the material portion 510 of getting that fixes and press the portion 550 of pasting that presses the label 100 of preliminary adhesion on the product inner chamber wall, still be provided with adjustment mechanism 570 on the movable frame, adjustment mechanism 570 is used for adjusting respectively to get material portion 510, the outline size of pressing portion 550 changes in order to adapt to get material portion 510, press portion 550 to get into the product inner chamber and carry out the product and fix, press the demand of pasting the label.

As shown in fig. 4, after the adjusting mechanism 570 adjusts the taking part 510 and the pressing part 550 to move to the proper positions, the outer contour sizes of the taking part 510 and the pressing part 550 are adjusted to change, the taking part 510 tightly stretches the inner cavity of the product for transferring the product, the pressing part 550 also tightly stretches the inner cavity of the product, and the label 100 primarily adhered to the wall of the inner cavity is pressed while the inner cavity is tightly stretched. The mechanism not only has the function of transferring materials and pressing marks, but also is suitable for clamping the pipe fittings with longer shapes, and the mechanism can be used for tensioning the two ends of the pipe fittings, so that the balance of the pipe fittings can be kept, and the pipe fittings can be conveniently and reliably transferred.

As shown in fig. 4, the reclaiming section 510 includes each reclaiming clamp assembly 511 spaced along the circumference of the product cavity, and the adjusting mechanism 570 includes a reclaiming adjusting section 571 for adjusting each reclaiming clamp assembly 511 to retract or expand toward the center thereof.

Each material taking clamping component 511 is respectively installed on the material taking installation piece 590 in a floating mode along the radial direction of the inner cavity of the product, the material taking adjusting part 571 and the material taking installation piece 590 are relatively movably installed along the depth direction of the inner cavity of the product, a wedge surface is formed between the material taking adjusting part 571 and the material taking installation piece 590 and abuts against the driving mechanism, and the material taking adjusting part 571 abuts against each material taking clamping component 511 to expand outwards.

The material taking adjusting part 571 is formed by a cone-shaped pushing head 574 movably installed in the material taking installation pipe 590, and the cone surface on the cone-shaped pushing head 574 pushes against the material taking clamping piece to move outwards in an expanding manner.

As shown in fig. 4 and 5, the material taking regulating part 571 includes a cone-shaped pushing head 574 and a driving spring 575 for driving the cone-shaped pushing head to move, the material taking clamping components 511 are respectively installed on the material taking mounting pieces 590 in a floating manner along the radial direction of the inner cavity of the product, when the material taking regulating part 571 moves in the direction of the arrow in the figure, the cone-shaped pushing head 574 pushes against each material taking clamping component 511 to expand outwards, and when the material taking regulating part 571 moves in the direction opposite to the direction of the arrow in the figure, each material taking clamping component 511 contracts inwards to restore the original position.

As shown in fig. 4 and 7, the pressing portion 550 includes an air bag 551 which can be at least partially expanded and contracted, and the adjusting mechanism 570 includes a pressure mark adjusting portion 572 which adjusts the expansion and contraction of the air bag 551.

An inner pressing plate 552 and an outer pressing plate 553 are arranged on two outer sides of the air bag 551, the inner pressing plate 552 and the outer pressing plate 553 are sequentially arranged at intervals along the direction that the pressing part 550 extends into the product cavity, and the pressure mark adjusting part 572 is used for adjusting the distance between the inner pressing plate 552 and the outer pressing plate 553 so that the size of the outer contour of the air bag 551 between the inner pressing plate 552 and the outer pressing plate 553 is changed.

As shown in FIGS. 4 and 7, when the inner pressure plate 552 compresses the balloon while the outer pressure plate 553 is stationary, the balloon may be inflated, and when the inner pressure plate 552 returns to its original position, the balloon returns to its original shape.

Get material installed part 590 and constitute for getting material mounting tube 590, get the outside that material mounting tube 590 is located the product, get material centre gripping subassembly 511 and set up along getting the circumference interval of material mounting tube 590, get material centre gripping subassembly 511 and include getting material clamping part 512 and centre gripping installed part 513, centre gripping installed part 513 is through the radial floating installation of floating spring along getting material mounting tube 590, floating spring orders about centre gripping installed part 513 to getting material mounting tube 590 central removal, get material clamping part 512 and arrange along product inner chamber depth direction, get the one end and the centre gripping installed part 513 fixed connection of material clamping part 512, the other end that gets material clamping part 512 extends to the fixed product of product inner chamber centre gripping.

As shown in fig. 7, the material taking clamping assembly 511 is specifically configured such that the spring can be replaced by an elastic device such as a polyurethane spring, and the surface of the material taking clamping member 512 is preferably provided with a circular arc surface matching the inner cavity and has a certain elasticity to increase the clamping friction force. As shown in fig. 8, the material taking clamping member 512 is hinged in this embodiment to adapt to the product with a conical inner cavity, and the air bag 551 can well tighten the conical inner cavity. Of course the lumen may be cylindrical in shape and may not be provided in an articulated fashion.

As shown in fig. 6, the pressure mark adjusting part 572 includes an outer plate connecting rod 554 connected to the outer pressure plate 553, and an inner plate connecting pipe 555 connected to the inner pressure plate 552, the outer plate connecting rod 554 is movably inserted into the inner plate connecting pipe 555 through the air bag 551, and an end of the outer plate connecting rod 554 remote from the air bag 551 extends to an outside of an end of the inner plate connecting pipe 555 and is provided with an adjusting member for adjusting a relative movement of the inner and outer pressure plates.

The adjusting mechanism 570 comprises a pushing column 573 movably mounted along the depth direction of the inner cavity of the product, the outer end of the pushing column 573 is fixedly connected with the end of the inner plate connecting pipe 555, a tapered pushing head 574 is slidably mounted on the inner plate connecting pipe 555, and a driving spring 575 is arranged between the tapered pushing head 574 and the pushing column 573.

The pushing column 573 is provided with a vacant area 556 for assembling the adjusting piece, the vacant area 556 provides a containing space for the movement of the adjusting piece when the inner and outer pressing plates approach or depart from each other, the material taking mounting pipe 590 is provided with a limiting part 557 for limiting the movement of the adjusting piece, and the limiting part 557 limits the body part of the adjusting piece extending to the outer side of the pushing column 573, so that the pushing column 573 can move to adjust the inner and outer pressing plates to approach the extrusion air bag 551.

As shown in fig. 6, the adjusting member includes an outer plate connecting rod 554 and an outer pressing plate 553, one end of the outer plate connecting rod 554 is provided with a limiting protrusion 558 for limiting, as shown in fig. 7, when the limiting protrusion 558 is blocked by the limiting portion 557, the outer plate connecting rod 554 and the outer pressing plate 553 stop moving, if the inner pressing plate 552 continues to move, the air bag 551 is compressed, the air bag is expanded, and finally the tag 100 is pressed.

As shown in fig. 2 and 3, the transferring support frame 220 has mounting beams 221, mounting seats 223 are disposed on the mounting beams 221 at equal intervals, each mounting seat 223 is movably mounted along the length direction of the mounting beam 221, each material clamping and marking unit 500 is mounted on each mounting seat 223, as shown in fig. 9, a C adjusting assembly 250 for adjusting the distance between the installation seats is further disposed on the transferring support frame 220, as shown in fig. 3, the end of the pushing column 573 is provided with a fitting block 576, the transferring support frame 220 is further provided with a pushing beam 222, the pushing beam 222 is arranged parallel to the mounting beam 221, two ends of the pushing beam 222 are slidably fitted on the transferring support frame 220 along the length direction of the pushing column 573, each fitting block 576 is slidably fitted along the length direction of the pushing beam 222, the pushing beam 222 is connected 260 with the D adjusting assembly, and the D adjusting assembly 260 adjusts the distance between the pushing beam 222 and the mounting beam 221.

The D-adjustment assembly 260 pushes the pushing beam 222 to move, and drives the pushing column 573 to move. The pushing columns 573 are slidably mounted through the assembling blocks 576 to mount a plurality of material clamping and label pressing units 500, so as to clamp a plurality of products at a time and improve the production efficiency, the material clamping and label pressing units 500 are provided with one D adjusting assembly 260 through the pushing beam 222, one driving source drives the material clamping and label pressing units 500 to move, the action consistency of the material clamping and label pressing units 500 can be ensured, and the number of driving devices such as air cylinders can be saved.

Fig. 4-7 show the specific working process of the material transferring and stamping integrated material transferring device.

Fig. 4 shows the initial state of the apparatus, in which the product is moved relative to the transferring and stamping apparatus and inserted into the inner cavity of the product, and the material taking and holding assembly 511 is in the original position under the action of the spring, and the air bag 551 is also in the original state.

As shown in fig. 5, the pushing and pushing rod 573 moves (as shown in fig. 3, the D-adjustment assembly 260 pushes the pushing beam 222 to move the pushing rod 573), which can move the tapered pushing head 574 and the inner pressing plate 552 at the same time. Wherein, the pushing column 573 moves to push the driving spring 575 to move, and further push the tapered pushing head 574 to move. The pushing column 573 moves to drive the inner pressing plate 552 to move, and the inner pressing plate 552 pushes the air bag and the outer pressing plate 553 to move simultaneously. At this point, the device is moved only a distance in its entirety to contact the take-up gripper assembly 511.

As shown in fig. 6, the pushing rod 573 is further pushed to move, so as to drive the tapered pushing head 574 to move, and push the material taking clamping assembly 511 to expand outward until the inner wall of the product is tensioned. This state now allows the product to be transported.

As shown in fig. 6, if the label pressing operation is performed, the pushing rod 573 is pushed to move continuously, because the product is tensioned, the tapered pushing head 574 stops moving, and at this time, the spring plays a role of buffering, so that the pushing rod 573 can move continuously to drive the inner pressing plate 552, the outer pressing plate 553 and the air bag to reach the designated position.

As shown in fig. 7, the restriction protrusion 558 restricts the outer press plate 553 and the air bladder to a designated position, which is also a position where the label is pre-attached, by the outer plate connection rod 554. The pushing cylinder 573 continues to move, and because the outer pressure plate 553 is not moving, the inner pressure plate 552 moves to cause the bladder to expand, filling the inner cavity, and compressing the tag.

After the label pressing action is completed, the pushing rod 573 is driven to move outward, and from fig. 7 to fig. 6, the pushing rod 573 drives the limiting protrusion 558 to move so as to move the inner pressing plate 552, the outer pressing plate 553 and the airbag to the original positions. As shown in fig. 5, the drive abutment 573 continues to move outward, pulling the conical abutment 574 by the spring so that it returns to the starting position.

The following describes an inner tube labeling and boxing integrated apparatus for holding a product by the above-mentioned clamping and stamping unit 500.

An integrated equipment for labeling and boxing inner tubes of products has the following specific structure.

As shown in fig. 1 to 10, the labeling device comprises a product conveying line 400 for conveying products, and a boxing device 300 for boxing the labeled products, wherein a material transferring device 200 is arranged between the product conveying line 400 and the boxing device 300, the material transferring device 200 transfers the products conveyed by the product conveying line 400 to a material box 320 on the boxing device 300, a labeling device 600 is arranged on a moving path of the products transferred by the material transferring device 200, the products 700 have tubular inner cavities, the material transferring device 200 is provided with a material clamping and labeling unit 500, the material clamping and labeling unit 500 is provided with a material taking part 510 extending into the inner cavity of the products for taking the products, and the material transferring device 200 further comprises a material transferring adjusting mechanism for adjusting the material clamping and labeling unit 500 to switch between states of a1, a2 and A3;

state a 1: the clamping and marking unit 500 corresponds to the products on the conveying line, so that the material taking part 510 on the clamping and marking unit 500 is inserted into the inner cavity of the products from one end of the products to take the products on the conveying line 400;

state a 2: the material clamping and labeling unit 500 corresponds to the label discharging part 620 of the labeling device 600, so that the label 100 removed by the label discharging part 620 is fed into the inner cavity of the product from the other end of the product for labeling;

state a 3: the material clamping and labeling unit 500 corresponds to the material box 320 of the boxing apparatus 300, so that the material taking part 510 is removed from the inner cavity of the product, and the labeled product is loaded in the box.

As shown in fig. 4, the material taking part 510 is used for tensioning the inner cavity of the product 700 in an internal tensioning manner, as shown in fig. 2 and 3, the product is transported to the labeling station through the material transferring device 200, as shown in fig. 2 and 10, the label discharging part 620 on the labeling device 600 is used for extending into the inner cavity of the product for labeling, as shown in fig. 2, the product is transported to the blanking station through the material transferring device 200, and the product is loaded into a box. And finishing labeling in the process of boxing.

As shown in fig. 4, the clamping and pressing unit 500 further has a pressing portion 550 extending into the product cavity to press the label preliminarily adhered to the wall of the product cavity, and the pressing portion 550 is pressed during the process of switching from the a2 state to the A3 state.

As shown in fig. 10, the label 620 of the labeling device 600 extends into the inner cavity of the product for labeling, and the label may not be tightly attached to the inner cavity, but is tightly pressed to the inner cavity by the pressing portion 550.

As shown in fig. 2 and 3, the material transferring device 200 includes a material transferring rack 210, the material transferring rack 210 is rotatably mounted on a rack 900 body, a rotating shaft for rotatably assembling the material transferring rack 210 is an X-axis 270, material transferring support frames 220 are circumferentially arranged at intervals on the material transferring rack 210, the material transferring support frames 220 are mounted in a radial sliding manner along the X-axis, the material transferring adjusting mechanism includes an a adjusting component 230 for adjusting the rotation of the material transferring device 200 and a B adjusting component 240 for adjusting the radial sliding of the material transferring support frames 220 along the X-axis, and the material clamping and marking unit 500 is disposed on the material transferring support frames 220.

As shown in fig. 3 and 4, the clamping and labeling unit 500 includes a material taking part 510, and the clamping and labeling unit 500 is disposed on the material transferring support frame 220, so that the material taking part 510 can rotate after clamping the product, and the state of the product is switched, for example, the product is rotated by 180 degrees, and the labeling device 600 can label the other end of the product. And rotating the product by 270 degrees, converting the product from a lying state to a vertical state, and boxing.

The material clamping and marking units 500 are arranged on the material transferring support frame 220 at intervals along the length direction of the X axis.

As shown in fig. 2, the material clamping and marking unit 500 may be provided in a plurality along the length direction of the X-axis, so as to clamp a plurality of products at a time, thereby improving the production efficiency.

The material transferring adjusting mechanism further comprises a C adjusting component 250 for adjusting the distance between each material clamping and marking unit 500 on the material transferring support frame 220.

As shown in fig. 2, in order to adapt to products with different diameters, there is a certain distance between the products, and when boxing is performed, the products are close together, as shown in fig. 9, the C adjusting assembly 250 can adjust the distance between the clamping and stamping units 500 on the material transferring supporting frame 220, so that the products are close together for boxing.

As shown in fig. 4, the clamping and stamping unit 500 has an abutting and pushing column 573 movably mounted along the radial direction of the X-axis, the abutting and pushing column 573 is connected with the material taking part 510 at one end and is used for adjusting the material taking part 510 to be inserted into and removed from the product cavity, as shown in fig. 3, the material transferring and adjusting mechanism further comprises a D adjusting assembly 260 for adjusting the abutting and pushing column 573 to move.

As shown in fig. 2 and 3, the transfer support frame 220 is provided with a mounting beam 221 and a pushing beam 222 which are arranged parallel to the X axis, each material clamping and marking unit 500 is respectively mounted on each mounting seat 223, each mounting seat 223 is assembled on the mounting beam 221 in a sliding manner at equal intervals, the pushing beam 222 is movably mounted on the transfer support frame 220 along the radial direction of the X axis, the other ends of the pushing columns 573 are respectively assembled with the pushing beam 222 in a sliding manner along the body length direction, and the D-adjusting assembly 260 is connected with the pushing beam 222 for adjusting the interval between the pushing beam 222 and the mounting beam 221.

The D-adjustment assembly 260 pushes the pushing beam 222 to move, and drives the pushing column 573 to move. As shown in fig. 3 and 5, the mounting beam 221 limits movement of the take-off mounting member 590 of the clip marking unit 500 so that the take-off section 510 and the laminating section 550 of the clip marking unit 500 can operate by the adjustment mechanism 570.

As shown in fig. 9, a spacing adjusting spring 224 is arranged between the mounting seats 223, the C adjusting assembly 250 includes an abutting portion 225 arranged on the outermost mounting seat 223, when the a3 state is reached, as shown in fig. 3, when the B adjusting assembly 240 adjusts the material transferring support frame 220 to move along the X axis in the radial direction, an abutting piece 226 is arranged on the moving path of the abutting portion 225, the abutting piece 226 and the abutting portion 225 form an inclined abutting adjusting mechanism, and the inclined abutting adjusting mechanism is used for adjusting the spacing between the mounting seats 223.

The abutting pieces 226 and/or the abutting parts 225 are movably arranged along the direction parallel to the X axis, and the distance between the mounting seats 223 is adjusted by adjusting the positions of the abutting pieces 226 and/or the abutting parts 225.

When the outer diameter of the product is changed, the width of the box body is also changed, and the relative position between the inclined surface abutting against the adjusting mechanism abutting piece 226 and the abutting part 225 is adjusted, so that the product packing requirements of different diameters can be met. For example, as shown in fig. 9, the abutting portion 225 is lengthened, and when the abutting piece 226 is passed, the distance between the abutting portions 225 is shortened, so that the case with smaller size is just suitable, and the case packing requirement that the product diameter is reduced can be applied.

As shown in fig. 2, 4 rotating support frames 220 are arranged along the circumferential direction of the rotating rack 210 at equal intervals, the X axis is horizontally arranged, a blanking station is arranged under the rotating support frames 220, the left and right outer sides of the rotating support frames 220 are respectively provided with a feeding station and a labeling station, the rotating direction of the rotating support frames 220 is the feeding station and the labeling station, and the length direction of the product tube cavity at the discharge end of the product conveying line 400 is the horizontal direction and the direction of the X axis.

4 stations are arranged, so that the stations can work simultaneously, and the production efficiency is improved.

As shown in fig. 10, a label discharging portion 620 is disposed on the labeling device 600, a supporting assembly 630 for temporarily supporting the label removed from the label discharging portion 620 is disposed outside the label discharging portion 620, an air blowing assembly 640 is disposed above the supporting assembly 630, and the air blowing assembly 640 is used for blowing the label 100 on the supporting assembly 630 to the inner cavity of the tubular object, so as to complete pre-labeling.

The supporting component comprises A, B supporting pieces 631 arranged oppositely, A, B supporting pieces 631 are rod-shaped, one end of each A, B supporting piece 631 is arranged in a hanging mode, the other end of each supporting piece is installed on a bar-shaped rod 632, two ends of each bar-shaped rod 632 are installed on a wedge-shaped block 633 arranged on the label outlet portion 620, an avoiding portion is formed between each bar-shaped piece 632 and each wedge-shaped block 633 and used for avoiding the transfer of the anti-sticking paper separated from the label outlet portion.

The bar support 631 may also be provided in a rotatable form to facilitate the sliding of the label.

The blowing assembly 640 includes a blowing nozzle 641, and the blowing direction of the blowing nozzle 641 is downward and directed towards A, B at the middle of the label on the support 631.

As shown in fig. 10-12, the supporting component 630 suspends the label in the air, and the blowing device blows the label into an arc state, as shown in fig. 12, the middle of the label in the arc state is firstly in line contact with the inner cavity, and then the label is sequentially in contact with the inner cavity from the middle to two sides, so that the labeling is completed. Such subsides mark mode can prevent that the label from dropping perpendicularly, because the length of circular arc will be greater than the length of label, when the both sides of label contacted the inner chamber earlier, lead to the middle part of label to leave the space. As shown in fig. 13, comparing the circular arc labeling with the vertical labeling, it is obvious that the circular arc labeling can uniformly stick the labels to the inner cavity.

As shown in fig. 2, the labeling device 600 includes conveying units disposed at intervals along the length direction of the X axis, the conveying lines include conveying units disposed at intervals along the length direction of the X axis, and the number of the conveying units and the number of the labeling devices 600 are matched with the number of the clamping and pressing units 500 on the material transferring support frame 220.

The label discharge part 620 and the support assembly 630 are mounted in a height-adjustable manner along the vertical direction, and the discharge end of the product conveying line 400 is mounted in a height-adjustable manner.

As shown in fig. 2, the support legs on the conveying line 400 are set to be adjustable, when the outer diameters of the products are different, the center line of the inner cavity of the product can be higher than or lower than the center line of the clamping and marking unit 500, so that the material taking part 510 on the clamping and marking unit 500 is not matched with the inner cavity of the product, and the inner cavity of the product with different diameters is matched with the clamping and marking unit 500 by adjusting the height of the discharge end.

When the inner cavity of the product changes, the material taking part 510 of the clamping and marking pressing unit 500 is of an internal expansion type and can adapt to the change of the inner cavity within a certain range to clamp the product. As shown in fig. 14, the label outlet 620 and the supporting member 630 are installed with adjustable height along the vertical direction, and when the diameter of the inner cavity of the product changes, the distance between the label outlet 620 and the supporting member 630 and the inner cavity can be adjusted, so that labeling can be well performed.

The following will describe a method for labeling and boxing the inner tube of the product.

As shown in fig. 1, 2 and 4, the product at the discharging position of the product conveying line 400 is taken by the taking part 510 on the transferring device 200, the taking part 510 is inserted into the product cavity from the a end 710 of the product to support and clamp the product, the product is conveyed to the inner cavity wall of the product from the b end 720 of the product by adjusting the taking part 510 to move and transfer the product and using the labeling device 600 to convey the label to the inner cavity wall of the product during the movement of the taking part 510, the product with the label is conveyed to the arrangement corresponding to the box body on the boxing device 300 by the movement of the taking part 510, and then the taking part 510 is removed from the inner cavity of the product so that the product is conveyed to the box body to be boxed.

For example, the product such as a yarn tube or a product with a special-shaped surface and a tubular inner cavity is necessary to clamp the inner cavity of the product, and the inner cavity of the product is not changed no matter how the surface of the product is changed.

As shown in fig. 4-7, by disposing the pressing-attaching portion 550 beside the label-outputting portion 620, a material-clamping and label-pressing unit 500 is formed by a pressing-attaching portion 550 and a material-taking portion 510, and the label fed into the product cavity from the end b is firmly pressed and attached to the wall of the product cavity by the pressing-attaching portion 550.

The material taking part 510 realizes supporting and clamping of products and unloading of the products in a mode of adjusting the size of the outline of the material taking part to expand and contract.

The pressing part 550 is inflated or deflated by changing the outer contour of the air bag to press the label against the inner cavity wall of the product.

When products at the discharging position of the product conveying line 400 are taken, the pressing and pasting part 550 enters the inner cavity of the products before the taking part 510 enters the inner cavity of the products, the products are clamped after the taking part 510 enters the inner cavity of the products, the products are moved away from the product conveying line 400 after clamping is completed, after the labeling device 600 feeds labels into the inner cavity of the products from the end b of the products, the pressing and pasting part is adjusted to continue moving towards the end b, and after the labels are moved to the designated position, the bag cavity forming the pressing and pasting part 550 is adjusted to expand to press and label the labels.

The material taking part 510 is composed of a conical pushing head 574 and material taking clamping components 511 arranged at intervals along the circumferential direction of the pushing head, the material taking clamping components 511 are movably mounted along the radial direction of the pushing head, the conical pushing head 574 and the material taking clamping components 511 are synchronously moved into an inner cavity of a product, and the material taking clamping components 511 stop moving forward after reaching a preset position, so that the conical pushing head 574 can extrude each material taking clamping component 511 to expand outwards, and the material taking clamping components can support and clamp the product.

An inner pressing plate 552 and an outer pressing plate 553 are respectively arranged at two sides of the air bag 551, after the labeling device 600 sends a label from the b end of the product, the inner pressing plate 552 and the outer pressing plate 553 are adjusted to synchronously move towards the b end, after the preset position is reached, the outer pressing plate 553 is adjusted to stop advancing, the inner pressing plate 552 continues advancing, the air bag 551 between the inner pressing plate and the outer pressing plate is compressed, and the outline of the air bag is expanded to extrude the label to be attached to the inner cavity wall of the product.

As shown in fig. 2 and 9, a plurality of material clamping and marking units 500 arranged at intervals are arranged to simultaneously perform the same process operation on a plurality of products, and before discharging and boxing, the products are adjusted to be close to each other and then are discharged.

As shown in fig. 3, a plurality of clamping and labeling units 500 are arranged on a rotating material support frame 220, the rotating material support frame 220 is movably mounted on a rotating material rack 210 along the radial direction of an X-axis 270, the rotating material rack 210 is rotatably mounted through the X-axis 270, the rotating material support frame is arranged along the circumferential direction of the rotating material rack 210 at intervals, a product conveying line 400, a labeling device 600 and a boxing device 300 are respectively arranged on the outer side of the rotating material rack 210, and the product conveying line 400, the labeling device 600 and the boxing device 300 are adjusted by rotating the rotating material rack 210 to simultaneously carry out operations of unloading, labeling and boxing on products on the clamping and labeling units 500 at different positions.

As shown in fig. 1-12, when each clamping and labeling unit 500 on the transferring support frame 220 corresponds to a product discharged from the product conveying line 400, the transferring support frame 220 is adjusted to move along the X axis so as to synchronously move the outer pressing plate 553, the air bag 551, the inner pressing plate 552, the material taking clamping member 512 and the tapered pushing head 574, and the outer pressing plate 553, the air bag 551, the inner pressing plate 552 and the pushing head 574 are sequentially inserted into the inner cavity of the product from the a end of the product, after the material taking clamping member 512 moves to the proper position, the transferring support frame 220 stops moving, the pushing column 573 is pushed to move at this time, so that the outer pressing plate 553, the air bag 551, the inner pressing plate 552 and the pushing head 574 assembled on the pushing column 573 continue to move to the b end, the pushing column 574 pushes the material taking clamping member to expand to stabilize the product supporting clamp, the pushing column 573 stops moving, at this time, the transferring support frame 210 is rotated so that the product is rotated to be arranged corresponding to the labeling device 600, the, the label is fed into the product cavity from the b end of the product by the supporting component 630, the label on the supporting component 630 is moved down from the supporting component 630 to be attached to the wall of the product cavity by blowing air through the air blowing nozzle 641, then the supporting component 630 is moved out of the cavity, at this time, the adjusting pushing column 573 continues to advance, the adjusting outer pressing plate 553, the air bag 551 and the inner pressing plate 552 continue to move towards the b end, the advancing is stopped after the outer pressing plate 553 and the air bag 551 move to the right position, at this time, the pushing head 574 only pushes the inner pressing plate 552 to continue to advance and press the air bag 551, so that the air bag expands radially to completely press the label 100 to the wall of the cavity, the labeled product is transferred to be arranged corresponding to the boxing device 300, the products are adjusted to approach each other, then the outer pressing plate 553, the air bag 551, the inner pressing plate 552, the material taking clamping component 512 and the pushing head 574 are adjusted to exit from the, the process is repeated in such a way to realize continuous automatic labeling and boxing of the product.

The invention provides a product inner tube labeling and boxing method, product inner tube labeling and boxing integrated equipment and a material transferring and pressing integrated material transferring device, wherein the material transferring and pressing integrated material transferring device clamps a product through an inner cavity of an expanded product, positioning accuracy is high, and the product can be clamped well all the time in a clamping mode regardless of changes of the outer diameter of the product. After clamping, the position and state of the product are converted by the material conversion device 200, and boxing is carried out. Obviously, the clamping mode of internal expansion can be good for gathering a plurality of products together and boxing. Labeling device 600 of subsides mark vanning integral type equipment blows the label into the arc earlier through the subassembly 640 of blowing that sets up and the supporting component 630 of putting the label temporarily to blow to the inner chamber of product can be fine avoid the both ends of label to contact the inner chamber earlier, lead to leaving the space with the inner chamber in the middle of the label. It changes material to expect to press mark integral type to change material device still includes presses subsides portion 550, presses subsides portion 550 also to compress tightly the label through the mode of inflation, accomplishes to paste mark back at subsides mark device 600, presses the mark and can further make firm subsides of label difficult for droing on the product inner chamber. The material is got when adopting a plurality of material clamping and marking units 500 and multistation, pastes mark, presses mark and vanning and can improve production efficiency. The clamping device can also be suitable for clamping products with inner cavities of different diameters, and can be well applicable to both cylindrical inner cavities and conical inner cavities. The device has simple and reasonable structure, and can be well suitable for labeling and boxing of large-batch products.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a product inner tube pastes mark vanning integral type equipment which characterized in that: the product conveying line is used for conveying products, the boxing device is used for boxing the labeled products, the material transferring device is arranged between the product conveying line and the boxing device, the product conveyed by the product conveying line is transferred into a material box on the boxing device by the material transferring device, the labeling device is arranged on the moving path of the product transferred by the material transferring device, the product is provided with a tubular inner cavity, the material transferring device is provided with a material clamping and label pressing unit, the material clamping and label pressing unit is provided with a material taking part which extends into the inner cavity of the product to take the product, the material transferring device further comprises a material transferring adjusting mechanism, and the material transferring adjusting mechanism adjusts the material clamping and label pressing unit to switch among states A1, A2 and A3;

state a 1: the material clamping and label pressing unit corresponds to the product on the conveying line, so that a material taking part on the material clamping and label pressing unit is inserted into the inner cavity of the product from one end of the product to take the product on the conveying line;

state a 2: the material clamping and pressing unit corresponds to a label outlet on the labeling mechanism, so that a label moved out of the label outlet is fed into an inner cavity of the product from the other end of the product for labeling;

state a 3: the material clamping and marking unit corresponds to the box body on the boxing mechanism, so that the material taking part is moved out of the inner cavity of the product, and the labeled product is loaded in the box body.

2. The product inner tube labeling and boxing integrated device as claimed in claim 1, wherein: the material clamping and label pressing unit is also provided with a pressing part which extends into the inner cavity of the product and presses the label preliminarily adhered to the wall of the inner cavity of the product, and the pressing part presses the label in the process of converting the A2 state into the A3 state.

3. The product inner tube labeling and boxing integrated device as claimed in claim 1, wherein: the material transferring device comprises a material transferring frame, the material transferring frame is rotatably installed on a frame body, a rotating shaft of the material transferring frame is arranged on an X shaft in a rotating assembly mode, a material transferring support frame is arranged at the circumferential interval of the material transferring frame, the material transferring support frame is installed along the radial sliding of the X shaft, a material transferring adjusting mechanism comprises an adjusting material transferring mechanism, an adjusting component A and an adjusting component B, the adjusting component A is used for adjusting the material transferring support frame to rotate, the adjusting component B is used for adjusting the material transferring support frame to radially slide along the X shaft, and a material clamping and marking unit is arranged on the material transferring support.

4. The product inner tube labeling and boxing integrated device as claimed in claim 1, wherein: the material clamping and marking pressing units are arranged on the material transferring support frame at intervals along the length direction of the X axis.

5. The apparatus as claimed in claim 1, 2, 3 or 4, wherein the apparatus comprises: the material transferring adjusting mechanism further comprises a C adjusting assembly for adjusting the distance between each material clamping and marking unit on the material transferring support frame.

6. The product inner tube labeling and boxing integrated device as claimed in claim 5, wherein: the material clamping and pressing unit is provided with an abutting-pushing column movably arranged along the radial direction of the X axis, one end of the abutting-pushing column is connected with the material taking part and used for adjusting the material taking part to be inserted into the inner cavity of the product and to be removed from the inner cavity of the product, and the material transferring adjusting mechanism further comprises a D adjusting assembly used for adjusting the abutting-pushing column to move.

7. The product inner tube labeling and boxing integrated device as claimed in claim 6, wherein: the material transferring support frame is provided with an installation beam and a pushing beam which are all parallel to the X axis, each material clamping and marking unit is respectively installed on each installation seat, each installation seat is assembled on the installation beam in an equidistant sliding mode, the pushing beam is installed on the material transferring support frame along the radial direction of the X axis, the other end of the pushing column is assembled with the pushing beam in a sliding mode along the body length direction, and the D adjusting assembly is connected with the pushing beam and used for adjusting the distance between the pushing beam and the installation beam.

8. The product inner tube labeling and boxing integrated device as claimed in claim 7, wherein: be provided with interval regulation and control spring between each mount pad, C adjusting part sets up on the mount pad of the outside including and leans on the portion, and during the A3 state, B adjustment mechanism adjusts when changeing the material support frame along X axle radial movement, leans on to be provided with on the route that the portion removed to lean on and leans on the piece, the piece that leans on with lean on the portion to constitute the inclined plane and lean on adjustment mechanism, the inclined plane lean on and lean on adjustment mechanism and be used for adjusting the interval between each mount pad.

9. The product inner tube labeling and boxing integrated device as claimed in claim 8, wherein: the abutting pieces and/or the abutting parts are movably arranged along the direction parallel to the X axis, and the distance adjusting amount between the installation seats is adjusted by adjusting the positions of the abutting pieces and/or the abutting parts.

10. The product internal tube labeling and boxing integrated apparatus as claimed in any one of claims 1 to 9, wherein at least one of A, B, C, D, E and F:

A. the rotating support frames are arranged at intervals along the circumferential direction of the material rotating rack, the X axis is horizontally arranged, a blanking station is arranged under the material rotating support frames, a feeding station and a labeling station are respectively arranged on the left outer side and the right outer side of the material rotating support frames, the rotating direction of the material rotating support frames is that the feeding station turns to the labeling station, and the length direction of a product tube cavity at the discharge end of the product conveying line is the horizontal direction and points to the X axis;

B. the labeling mechanism is provided with a label outlet part, the outer side of the label outlet part is provided with a supporting component for temporarily supporting the label moved out of the label outlet part, a blowing component is arranged above the supporting component and used for blowing the label on the supporting component to the inner diameter of the tubular object to finish pre-labeling;

C. the supporting assembly comprises A, B supporting pieces which are oppositely arranged, the A, B supporting pieces are rod-shaped, one ends of the A, B supporting pieces are arranged in a cantilever mode, the other ends of the supporting pieces are arranged on the strip-shaped rods, two ends of each strip-shaped rod are arranged on the wedge-shaped blocks arranged on the label discharging portion, an avoiding portion is formed between each strip-shaped piece and each wedge-shaped block, and the avoiding portion is used for avoiding the transfer of the release paper separated on the label discharging portion;

D. the blowing mechanism comprises a blowing nozzle, and the blowing direction of the blowing nozzle is downward and points to the middle part of the label on the A, B supporting piece;

E. the labeling device comprises conveying units which are arranged at intervals along the length direction of the X axis, and the number of the conveying units and the number of the labeling devices are matched with the number of the clamping and pressing units on the material transferring support frame;

F. go out mark portion and supporting component along vertical direction height-adjustable festival formula installation, installation with height-adjustable of product transfer chain discharge end.

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