KR20130136870A

KR20130136870A - Label attaching apparatus and label attaching method for multiple container

Info

Publication number: KR20130136870A
Application number: KR1020120060613A
Authority: KR
Inventors: 서은성
Original assignee: (주) 신성이엔지
Priority date: 2012-06-05
Filing date: 2012-06-05
Publication date: 2013-12-13

Abstract

The present invention relates to a label attachment device (100) for a polygonal container. The present invention can improve productivity and reducing manufacturing costs by enabling a label to be able to be attached to the polygonal container without a chuck structure in in-line type composition. The present invention controls the shape of the inner surface of a drum guide by corresponding to the shape of the polygonal container, and the inner surface of the drum guide is attached to the surface of the container. Therefore, the label is not separated from the surface of the polygonal container and is attached to the surface so that the present invention can improve production quality and enables advertisement or design printed on the label to be recognized well by selectively controlling and attaching the label to the corner or the surface.

Description

LABEL ATTACHING APPARATUS AND LABEL ATTACHING METHOD FOR MULTIPLE CONTAINER}

The present invention relates to a multi-vessel label labeling device, and more specifically, by changing the shape of the inner surface of the drum guide corresponding to the shape of the multi-colored container so that the inner surface of the drum guide is in close contact with the outer circumferential surface of the polygonal container when the label is attached. It is possible to attach the label (OPP film) to various shapes of various containers even in the in-line type configuration by configuring the label to be adhered without lifting on the surface of the container and to replace the drum guide suitable for the shape of the container. When supplying multiple containers, the label can be attached to the corner or side of the container by appropriately adjusting the location of the container, so that the label or labeling device for the container can be easily seen. will be.

In general, beverages, water, cosmetics, drugs, etc. are stored in a container, the label (OPP film, sticker) printed with information such as producer, product name is printed on the surface.

The label emphasizes the visual impact of the product and serves to inform the consumer of the product, which label is attached to the container surface by a label applicator.

Typically, the labeling device includes a container transporting device for transporting a container, a labeling device for attaching a label to a container transported by the container transporting device, and a label supply device for supplying a label to the labeling device.

The label applicator is classified into an in-line type and a rotary type according to the method of transporting the container.

The inline type label applicator is an attachment method requiring natural rotation by a guide by contacting the outer surface of the container, and the rotary type label applicator further includes a chuck structure for attaching a label to a polygonal container that cannot be naturally rotated. It is a method of forcibly rotating a polygonal container.

Inline type labeling machines are slower but cheaper as labeling proceeds sequentially, while rotary type labeling machines have the advantage of being able to attach labels to multiple containers by the operation of the chuck structure. Subsequently, there is a disadvantage of low productivity for the price.

Most of the conventional labeling machine is a technique for automatically adhering a label to the outer peripheral surface of the barrel or bottle having a circular cross-sectional area, it is disclosed in Korean Patent Publication No. 1987-0005874, Korean Patent Publication No. 1992-0004525. These techniques are limited to a container having a circular shape, and have a disadvantage in that the label cannot be adhered to a container having a rectangular shape as an apparatus for automatically adhering a label.

In order to solve this disadvantage, registration No. 10-0700291 discloses a "label adhesive device for square containers".

Figure 1 is a plan view of a conventional labeling device for multiple containers, Figure 2 is a plan view showing a gap between the drum guide and the container in a conventional labeling device for a polygonal container.

1 and 2, the label adhesive apparatus 10 for a conventional rectangular container includes a base frame; First and second transfer conveyors respectively installed on the base frame; A supply guide 13 disposed at an end of the first transport conveyor; Stars are spaced apart from the supply guide 13 at the end of the first conveying conveyor, and a plurality of stars are formed on the outer circumferential surface of the concave portion having respective shapes to constrain the bent surface of the rectangular container 1 so as to rotate and convey the same. A wheel member 14; Adhesive supply means having a melter provided on the base frame and an adhesive roll on which an adhesive melted from the melter is provided on an outer circumferential edge thereof; Label film supply means installed on the base frame and having a rotary cutter for cutting the label film to a predetermined length; It is provided at the end of the supply guide, the constriction and a plurality of concave addition portion to constrain the rotation of the rectangular container rotated by the star wheel member to rotate and at the same time linked with the adhesive roll to adhere the label to the outer surface of the rectangular container Two formed adhesive drums 11; A controller provided in the base frame to control the transfer conveyor, the member and means.

However, in the label adhesive device 10 for the rectangular container, the inner surface of the drum guide 12 has an arc shape when the container 1 is rotated by the adhesive drum 11 and guided by the drum guide 12. Since the surface of the container 1 is not in close contact with the inner surface of the drum guide 12, a gap G occurs. Due to the gap G, the inner surface of the drum guide 12 does not adhere the label to the surface of the container 1, so that the label does not adhere to the container 1, thereby causing the label to be lifted.

In order to solve the above problems, the present invention can be configured to easily attach a label (OPP film) to the polygonal container even in the inline configuration even without the chuck structure in the rotary type to reduce the manufacturing cost and increase the productivity Its purpose is to provide a multi-vessel labeling device.

In addition, the present invention by changing the shape of the inner surface of the drum guide corresponding to the shape of the polygonal container so that the inner surface of the drum guide is in close contact with the surface of the polygonal container so that the label is not lifted from the surface of the polygonal container, as well as the label ( OPP film) is selectively attached to the corner portion or the surface portion of the polygonal container to provide a label application device for the polygonal container that can be seen in the advertising text or pattern printed on the label.

In addition, the present invention is to provide a label attachment device for a multi-vessel container that can be attached to the label (OPP film) to all of the multi-sided container of the various shapes to be able to replace the drum guide according to the shape of the polygonal container.

In order to achieve the above object, the multi-vessel container labeling apparatus of the present invention comprises a base frame; A container transfer unit installed on the base frame to transfer a polygonal container supplied from a polygonal container supply unit; A star wheel rotatably installed on the base frame and having a container accommodation groove formed at a predetermined interval on an outer circumferential surface thereof to rotate and accommodate the polygonal container supplied from the container transfer unit in the accommodation groove and sequentially transfer the container; A supply guide installed at a position corresponding to the star wheel and guiding the polygonal container transported by the star wheel; A labeling drum rotatably installed on the base frame to attach the label to the outer circumferential surface of the polygonal container while rotating the polygonal container transferred from the supply guide; A label supply unit for supplying a label to the labeling drum; A label cutting unit cutting the label to a predetermined length; A label adhesive unit for applying an adhesive to a label; And a drum guide installed at a position corresponding to the labeling drum and transferred to the polygonal container, and a contact pad provided on an inner circumferential surface thereof to contact an outer circumferential surface of the polygonal container. Correspondingly, an inner circumferential surface shape of the contact pad is formed, and the inner circumferential surface of the contact pad is formed of a valley part and a peak part.

The interval between the valleys and the peaks is determined according to the polygonal shape of the container. The interval between the valleys and the peaks when the polygonal container is a quadrangle is the valleys and the peaks when the polygonal container is a hexagon. It is formed relatively larger than the interval of, wherein the interval between the valleys and the peaks when the polygonal container is a hexagon is formed relatively larger than the interval between the valleys and the peak when the polygonal container is octagonal.

The container transfer unit includes a first conveyor unit for supplying a polygonal container before labeling, and a second conveyor unit for discharging a polygonal container with a label. Side belts are installed on the side surfaces of the second conveyor unit.

As described above, the present invention can be configured to attach the label to the polygonal container even in the inline configuration even without the chuck structure can reduce the manufacturing cost and increase the productivity.

In addition, the present invention adjusts (changes) the shape of the inner surface of the drum guide corresponding to the shape of the polygonal container so that the inner surface of the drum guide closely adheres to the surface of the polygonal container so that the label is adhered without lifting from the surface of the polygonal container. The label can be selectively attached to the corners or sides of the polygonal container so that the advertising text printed on the label can be easily seen.

In addition, the present invention has the effect of being able to replace the drum guide according to the shape of the polygonal container can be attached to the label on all of the polygonal container of various shapes, the polygonal shape of the polygonal shape diverging from the existing cylindrical shape of the polygonal container Can be implemented.

1 is a plan view of a conventional labeling device for multiple containers
Figure 2 is a plan view showing a gap between the drum guide and the container in the conventional labeling device for multiple containers
Figure 3 is a plan view showing a labeling device for multiple containers according to a first embodiment of the present invention
Figure 4 is a front view showing a labeling device for multiple containers according to a first embodiment of the present invention
5 is a view showing a drum guide product of the present invention
Figure 6 is a plan view showing a drum guide of the present invention
7 is a side view of Fig. 6
8 is a view showing a container guide by a drum guide
9 is an excerpt of the figure of FIG. 8
10 is a view showing the container guide by the drum guide in time series
11 is a plan view showing a multi-vessel container labeling apparatus according to a second embodiment of the present invention
12 is a view showing a multiple container guide by a drum guide

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the multi-vessel container label applying apparatus according to a preferred embodiment of the present invention.

Figure 3 is a plan view showing a labeling device for multiple containers according to a first embodiment of the present invention, Figure 4 is a front view showing a labeling device for a polygonal container according to a first embodiment of the present invention, Figure 5 is a present invention Figure 6 shows a drum guide product, Figure 6 is a plan view showing a drum guide of the present invention, Figure 7 is a side view of Figure 6, Figure 8 shows a container guide by a drum guide, Figure 9 is an excerpt of the Figure And FIG. 10 is a view showing the container guide by the drum guide in time series.

Referring to the drawings, the multi-vessel container labeling apparatus 100 according to a preferred embodiment of the present invention is a base frame 110; A container transfer unit (120) installed on the base frame (10) to transfer the polygonal container (1) supplied from the polygonal container supply unit (A); Rotatingly installed in the base frame 10, the container receiving groove 131 is formed at a predetermined interval on the outer circumferential surface, while rotating the polygonal container (1) supplied from the container transfer unit 120 A star wheel 130 accommodated in the receiving groove 131 and sequentially transported; A supply guide 140 installed at a position corresponding to the star wheel 130 and guiding the polygonal container 1 transported by the star wheel 130; Label attached to the base frame 110 is rotatably installed to attach the label (2) to the outer peripheral surface of the polygon container 1 while rotating the polygon container (1) transferred from the supply guide 140 Drum 150; A label supply unit 160 for supplying a label 2 to the labeling drum 150; A label cutting unit 170 for cutting the label 2 to a predetermined length; A label adhesive unit 180 for applying an adhesive to the label 2; And a contact pad 191 which is installed at a position corresponding to the labeling drum 150 to guide the polygonal container 1 and is brought into contact with an outer peripheral surface of the polygonal container 1 on an inner circumferential surface thereof. And a drum guide 190.

The inner circumferential surface of the contact pad 191 is formed corresponding to the shape of the polygonal container 1, and the inner circumferential surface of the contact pad 191 is formed of a valley portion 191a and a hill 191b. The distance D between the bone portion 191a and the peak portion 191b is determined according to the polygonal shape of the polygonal container 1.

For example, the distance D between the bone portion 191a and the peak portion 191b when the polygonal container 1 is a quadrangle is not shown in the drawing, but the polygonal container 1 is hexagonal. It is formed relatively larger than the gap between the valley and the hill.

In addition, although not shown in the drawings, the spacing between the valleys and the hills in the case where the polygonal container is a hexagon is formed relatively larger than the spacing of the valleys and hills in the case where the polygonal container is an octagon.

8 and 9, in the center 151 of the labeling drum 150, when the distance of the center 1a of the polygonal container 1 is defined as R, the polygonal container Upon attaching the level of (1), the polygonal container 1 is rotated (rotated) along the valley part 191a and the mountain part 191b, where R is always configured to remain constant.

When the length from the peak portion 191b to the valley portion 191a is defined as L1 and the length from the valley portion 191a to the peak portion 191b is defined as L2, L1> L2.

The reason for forming L1> L2 is that the polygonal container 1 is rotated at the time of labeling and guided to the contact pad 191 of the drum guide 190, so as to compensate the distance according to the conveyance. When the distance according to the transfer is compensated for, the outer circumferential surface of the polygonal container 1 is in close contact with the contact pad 191 without lifting, and thus the label can be effectively attached to the polygonal container 1.

The container transfer unit 120 includes a first conveyor unit 121 for supplying the polygonal container 1 before labeling, and a second conveyor unit 132 for discharging the polygonal container 1 with labeling. . Side belts 195 are installed on the side surfaces of the second conveyor unit 132.

The operation of the multiple container label applying apparatus according to the first embodiment of the present invention configured as described above will be described.

First, the polygonal container 1 is supplied by the first conveyor unit 121 of the container transfer unit 120.

The star wheel 130 accommodates the polygonal container 1 supplied from the container transfer unit 120 in the receiving groove 131 and rotates it in a counterclockwise direction about the center and sequentially transfers it. In this case, the supply guide 140 is installed at a position corresponding to the star wheel 130 and serves to guide the polygon container 1 transported by the star wheel 130.

The label supply unit 160 supplies a label to the labeling drum 150, the label adhesion unit 180 applies an adhesive to the label 2, and the label cutting unit 170 extends the label 2 to a predetermined length. Cut with

The labeling drum 150 rotates about the center 151 and rotates the polygonal container 1 conveyed from the supply guide 140 while labeling (OPP film) on the outer circumferential surface of the polygonal container 1 ( Attach 2).

The drum guide 190 serves to guide the polygonal container 1 installed and transported at a position corresponding to the labeling drum 150.

A contact pad 191 is installed on the inner circumferential surface of the drum guide 190 to contact (closely contact with) the outer circumferential surface of the polygonal container 1. The contact pad 191 corresponds to the shape of the polygonal container 1. The inner circumferential surface of the structure is formed into a structure that is adjusted (modified).

The inner circumferential surface of the contact pad 191 is formed of a valley portion 191a and a hill portion 191b, and the outer circumferential surface of the container 1 is in continuous contact with the valley portion 191a and the hill portion 191b.

In the multi-vessel container labeling device 100 according to a preferred embodiment of the present invention, a gap is not attached to the surface of the multi-vessel container 1 and the inner circumferential surface of the contact pad 191, so that the label is adhered to the multi-vessel surface. Bonds firmly without lifting. The labeled container 1 is guided by the side belt 195 and discharged by the second conveyor unit 132.

On the other hand, Figure 11 is a plan view showing a multi-vessel container labeling apparatus according to a second embodiment of the present invention, and Figure 12 is a view showing a multi-vessel container guide by a drum guide.

11 and 12, the multi-vessel container labeling device 100 'according to the second embodiment of the present invention is installed in the base frame 10, the container transfer unit 120 for transferring the multi-container 1 ); Rotatingly installed in the base frame 10, the container receiving groove 131 is formed at a predetermined interval on the outer circumferential surface, while rotating the polygonal container (1) supplied from the container transfer unit 120 A star wheel 130 accommodated in the receiving groove 131 and sequentially transported; It is installed at a position corresponding to the star wheel 130, and changes the position of the polygonal container (1) so as to selectively attach the label (2) to the corner portion or the surface portion of the polygonal container (1) Transfer screw 140 '; Rotating to the base frame 110 to attach the label (OPP film) (2) to the outer peripheral surface of the polygon container 1 while rotating the polygon container (1) guided in the supply guide 140 Installed labeling drum 150; A label supply unit 160 for supplying a label to the labeling drum 150; A label cutting unit 170 for cutting the label 2 to a predetermined length; A label adhesive unit 180 for applying an adhesive to the label 2; And a contact pad 191 which is installed at a position corresponding to the labeling drum 150 to guide the polygonal container 1 and is brought into contact with an outer peripheral surface of the polygonal container 1 on an inner circumferential surface thereof. Drum guide 190; including, but the structure of the inner circumferential surface of the contact pad 191 is formed corresponding to the shape of the polygonal container (1), the inner circumferential surface of the contact pad 191 is bone portion (191a) And an acid portion 191b.

The configuration of the multi-vessel container labeling apparatus 100 ′ according to the second embodiment of the present invention is a multi-vessel container labeling apparatus 100 according to the first embodiment of the present invention described above except for the transfer screw 140 ′. Since it is the same, the description about the same structure is abbreviate | omitted below.

The multi-vessel container label applying apparatus 100 ′ according to the second embodiment of the present invention may change the position of the multi-vessel container 1 by the transfer screw 140 ′, and the label 2 may be replaced by the multi-vessel container 1. It is supplied by changing the position of the polygonal container 1 so that it can be selectively adjusted to be attached to the corner portion (B) or the surface portion (A) of the.

That is, as shown in FIGS. 8 and 9, when the polygonal container 1 is supplied in a flat state, the end of the label 2 is positioned at the surface portion A of the polygonal container 1 (the seam of the label 12), when the edge of the polygonal container 1 is protruded by the feed screw 140 ', the end of the label 2 is inserted into the corner portion B of the polygonal container 1). Located. As such, when the end of the label 2 is positioned at the edge of the polygonal container 1, there is an advantage that the letters or patterns printed on the label 2 are not obscured even after the label is attached.

On the other hand, the multi-vessel container labeling method according to the present invention, the multi-variable container supply unit (A) is a multi-variable container (1) so that the label (2) can be selectively attached to the corner portion or the surface portion of the polygonal container (1) Change the position of the supply and supply, the container transfer unit 120 transfers the polygonal container (1), the star wheel 130 accommodates the polygonal container (1) in the receiving groove 131 and sequentially transported, The supply guide 140 guides the polygonal container 1 transported by the star wheel 130, and the label supply unit 160 supplies the label 2 (OPP film) to the labeling drum 150. The label cutting unit 170 cuts the label 2 to a predetermined length, the label adhesive unit 180 applies the adhesive to the label 2, and the label applying drum 150 is formed at the supply guide 140. The label 2 is attached to the outer circumferential surface of the polygonal container 1 while rotating the transported polygonal container 1, and the drum guide 190 is The outer periphery of the polygonal container 1 is brought into close contact with the inner peripheral surface of the contact pad 191 of the drum guide 190, and the label 2 (OPP film) is rotated around the polygonal container 1 while the polygonal container 1 is rotated. Attach to the face.

By changing the position of the polygonal container 1 so that the label 2 can be selectively attached to the corner portion B or the surface portion A of the polygonal container 1, the label 2 is supplied even after labeling. The letters or patterns printed on 2) have the advantage of not being obscured and well visible.

As described above, the present invention can be configured to attach the label to the polygonal container even in the inline type configuration, even if not provided with a chuck structure for adjusting the position of the polygonal container to reduce the manufacturing cost and increase productivity.

In addition, the present invention adjusts (changes) the shape of the inner surface of the drum guide corresponding to the shape of the polygonal container so that the inner surface of the drum guide is in close contact with the surface of the polygonal container so that the label is adhered closely without lifting from the surface of the polygonal container. It is possible to improve the label, and the label can be selectively adjusted to the corner portion or the surface portion of the polygonal container, so that even after the label is attached to the advertisement text or pattern is clearly visible.

100: labeling device
110: base frame
120: container transfer unit
130: star wheel
131: container accommodation groove
140: supply guide
150: labeling drum
160: label supply unit
170: label cutting unit
180: label adhesive unit
190: drum guide
191: contact pad
191a: Goal
191b: mountain

Claims

A base frame 110;
A container transfer unit (120) installed on the base frame (10) to transfer the polygonal container (1);
Rotatingly installed in the base frame 10, the container receiving groove 131 is formed at a predetermined interval on the outer circumferential surface, while rotating the polygonal container (1) supplied from the container transfer unit 120 A star wheel 130 accommodated in the receiving groove 131 and sequentially transported;
A supply guide 140 installed at a position corresponding to the star wheel 130 and guiding the polygonal container 1 transported by the star wheel 130;
Rotating to the base frame 110 to attach the label (OPP film) (2) to the outer peripheral surface of the polygon container 1 while rotating the polygon container (1) guided in the supply guide 140 Installed labeling drum 150;
A label supply unit 160 for supplying a label to the labeling drum 150;
A label cutting unit 170 for cutting the label 2 to a predetermined length;
A label adhesive unit 180 for applying an adhesive to the label 2; And
A drum on which a contact pad 191 is installed to guide the polygonal container 1 installed and transported at a position corresponding to the labeling drum 150, and the outer peripheral surface of the polygonal container 1 is installed on an inner circumferential surface thereof. Guide 190; including;
The inner circumferential surface of the contact pad 191 is formed in correspondence with the shape of the polygonal container 1, and the inner circumferential surface of the contact pad 191 is formed of the valley part 191a and the hill 191b. Multi-vessel container labeling device characterized in that.

The method of claim 1,
When the length from the peak portion 191b to the valley portion 191a is defined as L1 and the length from the valley portion 191a to the peak portion 191b is defined as L2, L1> L2. Poly Container Labeling Device.

The method of claim 1,
When the distance of the center 1a of the polygonal container 1 from the center 151 of the labeling drum 150 is defined as R, the polygonal container 1 is attached when the level of the polygonal container 1 is attached. Polygonal container labeling device, characterized in that rotated along the bone portion (191a) and the acid portion (191b) and the R is always kept constant.

The method of claim 1,
A polygonal container, characterized in that for supplying the label 2 by changing the position of the polygonal container 1 so that the label 2 can be selectively attached to the corner portion B or the surface portion A of the polygonal container 10. Labeling device.

The method of claim 1,
The interval between the bone portion 191a and the peak portion 191b is determined according to the polygonal shape of the polygonal container 1, and when the polygonal container is a quadrangle, the interval between the valley and the acidic portion is When the polygonal container is a hexagon is formed relatively larger than the gap between the valley and the hill,
The polygonal container labeling device, characterized in that the interval between the valleys and the peaks when the polygonal container is a hexagon is formed relatively larger than the gap between the valleys and the peaks when the polygonal container is octagonal.

The method of claim 1,
The container transfer unit 120 is composed of a first conveyor unit 121 for supplying the polygonal container 1 before labeling, and a second conveyor unit 122 for discharging the polygonal container 1 with labeling. Multi-vessel container labeling device, characterized in that.

A container transfer unit 120 installed on the base frame 10 to transfer the polygonal container 1;
Rotatingly installed in the base frame 10, the container receiving groove 131 is formed at a predetermined interval on the outer circumferential surface, while rotating the polygonal container (1) supplied from the container transfer unit 120 A star wheel 130 accommodated in the receiving groove 131 and sequentially transported;
It is installed at a position corresponding to the star wheel 130, and changes the position of the polygonal container (1) so as to selectively attach the label (2) to the corner portion or the surface portion of the polygonal container (1) Transfer screw 140 ';
Rotating to the base frame 110 to attach the label (OPP film) (2) to the outer peripheral surface of the polygon container 1 while rotating the polygon container (1) guided in the supply guide 140 Installed labeling drum 150;
A label supply unit 160 for supplying a label to the labeling drum 150;
A label cutting unit 170 for cutting the label 2 to a predetermined length;
A label adhesive unit 180 for applying an adhesive to the label 2; And
A drum on which a contact pad 191 is installed to guide the polygonal container 1 installed and transported at a position corresponding to the labeling drum 150, and the outer peripheral surface of the polygonal container 1 is installed on an inner circumferential surface thereof. Guide 190; including;
The inner circumferential surface of the contact pad 191 is formed in correspondence with the shape of the polygonal container 1, and the inner circumferential surface of the contact pad 191 is formed of the valley part 191a and the hill 191b. Multi-vessel container labeling device characterized in that.

The polygonal container supply part (A) is supplied by changing the position of the polygonal container (1) so that the label can be selectively adjusted to the corner portion or the surface portion of the polygonal container (1), the container transfer unit (120) The polygonal container 1 is transported, and the star wheel 130 receives the polygonal container 1 in the receiving groove 131 and sequentially transports the supply guide 140, which is transported by the star wheel 130. Guide the polygon container (1), the label supply unit 160 supplies a label (2) (OPP film) to the labeling drum 150, the label cutting unit 170 is a certain length of the label (2) The label adhesive unit 180 applies the adhesive to the label 2, and the labeling drum 150 rotates the polygonal container 1 transferred from the supply guide 140 to the polygonal container ( The label 2 is attached to the outer circumferential surface of 1), and the drum guide 190 is attached to the inner circumferential surface of the contact pad 191 of the drum guide 190. Each container 1 while in close contact with the outer circumferential surface and rotating the polygonal container 1 label (2) multiple vessel labeling method for the (OPP film), characterized in that attached to the outer peripheral surface of the polygonal container (1).

9. The method of claim 8,
A method of attaching a label of a multi-vessel container, characterized in that for supplying the label (2) by changing the position of the polygonal container (1) so that the label (2) can be selectively attached to an edge or a surface of the polygonal container (1).