JPH10245018A - Apparatus for activating thermosensitive paste of thermosensitive labeler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable early activation of paste of a label by including an adhesion drum for rotating and transferring a thermosensitive label while attracting it on a surface and a far infrared ray radiation heater to be counterposed on a part of an outer periphery of the drum without contact and by activating an adhesive face of the thermosensitive label by radiation heat of far infrared rays. SOLUTION: A read mark is printed with a predetermined size on a thermosensitive label 1 rolled in a roll with an adhesive face inward, and when the mark is sensed by a reading sensor 2, a tape is cut by a cutter 3 into a predetermined size. A cut label 11 is attracted to an attraction drum 6 to be attracted and held. Then the label 11 is transferred to an adhesion drum 10 and similarly attracted by attraction, wherein the label 11 is turned over at this time to place the adhesive face upward. When the label 11 passes through an apparatus 12 for activating thermosensitive paste, the paste is early activated by far infrared rays radiated from a ceramic heater 13, and the activated label 11 is adhered to a surface of the container 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for heating and activating a heat-sensitive adhesive of a label of a labeler for attaching a heat-sensitive label to a container.

[0002]

2. Description of the Related Art A labeler for applying heat to a label sucked by a sticking drum to activate the heat-sensitive adhesive of the label and sticking the label to a container supplied in the direction of rotation of the drum has been known before the present application. . In a conventional labeler, the heat-sensitive adhesive of a label is heated by blowing air into a nichrome wire heater with a blower and supplying hot air generated by the blower to activate the heat-sensitive adhesive. Heating by a halogen lamp was also performed. However, heating with hot air has many problems, such as noise, exhausting a large amount of generated hot air, and low heating efficiency. On the other hand, heating a halogen lamp has a problem in that the heat class of paper in the near-infrared wavelength region generated by the halogen lamp is high. Since the ratio is extremely low as 1 to 40%, there is a problem that it is unsuitable for a high-speed labeler. Since the base material of the label is paper, if the thermal grade yield is low, it takes a long time to activate the heat-sensitive adhesive.

[0003]

SUMMARY OF THE INVENTION The present invention provides an apparatus for activating a glue for a heat-sensitive label, which solves the problems of low efficiency of hot air heating and exhaustion of hot air, which requires a long heating time for halogen lamp heating. .

[0004]

According to the present invention, there are provided a sticking drum for rotating and transferring a thermal label while sucking the label on a surface thereof, and a sticking drum arranged at a position facing a part of an outer periphery of the sticking drum in a non-contact manner with the drum. 1. A heat-sensitive glue activating device for a heat-sensitive labeler, comprising a heating device, wherein the heating device is a far-infrared radiation heating device, and activates the glue surface of the heat-sensitive label by radiant heat of far-infrared rays in a non-contact manner. The heat-sensitive label sucked onto the surface of the sticking drum, which is composed of a sticking drum that rotates and transports the heat-sensitive label while sucking it on the surface, a ceramic far-infrared ray generating layer arranged on the surface of the sticking drum, and an induction heating coil placed inside the sticking drum 2. An apparatus for activating the heat-sensitive adhesive of a heat-sensitive labeler, which is activated by radiating heat of far-infrared rays to activate the adhesive surface of the heat-sensitive label. A sticking drum to be transferred, a far-infrared radiation heating device arranged in a position facing the outer periphery of the sticking drum in a non-contact manner with the drum, and a ceramic far-infrared ray generating layer arranged on the sticking drum surface and arranged in the sticking drum 3. An apparatus for activating a heat-sensitive adhesive of a heat-sensitive labeler, wherein the heat-sensitive adhesive is activated by irradiating the heat-sensitive label from the front and back surfaces with radiant heat of far-infrared rays. A far-infrared radiation heating device disposed in a position facing a part of the outer periphery of the attaching drum in a non-contact manner with the drum surrounds the outer periphery of the attaching drum, and has a length covering at least 1/3 of the outer periphery of the attaching drum. Item 4. The heat-sensitive glue activating device for a heat-sensitive labeler according to item 1 or 3. 5. A reflector provided on the opposite side of the surface of the ceramic heater facing the label. Is heat-sensitive labeler thermal paste activation device according to any one of four terms with. 6. The reflecting plate is provided on the label suction surface of the patch drum, 1
Item 7. An apparatus for activating a heat-sensitive glue of a heat-sensitive labeler according to any one of Items 6 to 6. About.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to hold a heat-sensitive label on a sticking drum by suction, it is preferable to depressurize the inside of the drum and suction the label to the outside of the drum surface through an adhesive opening. It is preferable from the viewpoint of the activation of the glue and the speed of label application that the heating device provided to face the outer periphery of the application drum is provided so as to surround at least １ ／ of the entire circumference of the outer periphery of the drum. The heating device is a far-infrared radiation heating device. The thermal grade yield of paper by far-infrared light having a wavelength of 2.5 μm to 25 μm is about 80%, and it is used for heating paper-based objects such as labels. Is very suitable and can activate the heat-sensitive adhesive in a short time. Thermal grade yield of paper by near infrared is about 1
This is much better than 40%.

As the far-infrared radiation heating device, a commercially available ceramic far-infrared heating device that emits heat rays from a heating element by converting the wavelength into far-infrared rays using a ceramic layer is used. Specifically, a thin metal strip is used as a heating element, a ceramic layer is provided on the surface of the heating element, and far-infrared rays are emitted by energizing. A far-infrared radiation heating device can also be arranged on the sticking drum. In this case, a ceramic layer is provided on the outer peripheral surface of the attaching drum, and an induction heating coil is arranged inside the drum,
By heating the drum by energizing, far infrared rays are emitted from the ceramic layer, activating the glue of the thermal label. Of course, both heating devices may be provided in parallel. As the ceramic that emits far infrared rays, for example, a far infrared heating system manufactured by NGK Insulators, Ltd. or the like is used.

[0007]

EXAMPLES The present invention will be described specifically with reference to examples.
FIG. 1 is a specific example of a labeler thermal glue activation device of the present invention, and 1 is a thermal label wound in a roll shape with the glue surface inside. A read mark to be cut according to a certain size is printed on the label. The mark is detected by the read detector 2, the tape is fed by a certain size, and cut by the cutter 3. The cut label is sucked by the suction port 7 of the suction drum 6 and held by suction. When the labeler operates, the suction drum 6 also rotates, and the label is sucked and sucked by the label suction port 8 of the sticking drum 10. In this way, the label is turned over, and the glue surface becomes the front side. The label passes through the thermal glue activation device 12 by the rotation of the sticking drum. The heat-sensitive glue activating device comprises a sticking drum 10 which rotates while adsorbing with the glue surface of the label facing up, and a far-infrared radiating ceramic heater 13 which surrounds the sticking drum for about one third of its outer circumference. The label, which has passed through the formed heat-sensitive glue activating device and the glue has been activated, is pressed by a sticking drum onto the surface of the container 5 conveyed by the conveyor 4. As shown in FIG. 2, in order to improve the thermal efficiency of the ceramic heater, the reflection plate 14 may be arranged on the side opposite to the surface of the ceramic heater facing the label. It is also effective to install a reflection plate 14 on the label suction surface of the sticking drum and heat the label from both sides. If the reflecting plate provided on the ceramic heater side is formed into a curved surface and the reflected far infrared rays are concentrated on the label, the heating effect is increased. FIG. 3 is an enlarged view of the heat-sensitive adhesive activating device of FIG. 1. The far-infrared radiating ceramic heater 13 disposed on the reflection surface side of the reflection plate 14 faces the outer periphery of the attaching drum 10. It is arranged so as to surround about 1/3 of the length. FIG. 4 is an enlarged view of the far-infrared radiation ceramic heater 13 provided on the reflection surface side of the reflection plate 14. The label is made of paper as a base sheet, a heat-sensitive adhesive layer such as a relay tack adhesive manufactured by Dainippon Ink Co., Ltd. is provided on the back side, and printing is performed on the front side as necessary. Far-infrared grade yield of paper with wavelength of 2.5 μm to 25 μm
In the case of far-infrared rays, it is about 80%, and the glue is activated at a high speed, so that the label attaching speed can be increased.

[0008]

By arranging the far-infrared ray radiating device as the heating device, the heat-sensitive adhesive of the label can be efficiently activated and the labeler can be downsized.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a labeler using a heat-sensitive adhesive activation device of the present invention.

FIG. 2 is a cross-sectional view of the heat-sensitive adhesive activation device of the present invention.

FIG. 3 is an explanatory view of a heat-sensitive adhesive activating device of the present invention.

FIG. 4 is an explanatory view of a far-infrared ray radiating device of the thermosensitive adhesive activating device of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 heat-sensitive label wound in a roll 2 reading detector 3 cutter 4 conveyor 5 container 6 suction drum 7 suction hole of suction drum 8 suction hole of sticking drum 9 ventilation pipe 10 sticking drum 11 label adsorbed 12 heating device 13 far Infrared ceramic heater 14 Reflector

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[Procedure amendment]

[Submission date] March 26, 1998

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Thermal glue activation device for thermal labeler

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for heating and activating a heat-sensitive adhesive of a label of a labeler for attaching a heat-sensitive label to a container.

[0002]

2. Description of the Related Art A labeler for applying heat to a label sucked by a sticking drum to activate the heat-sensitive adhesive of the label and sticking the label to a container supplied in the direction of rotation of the drum has been known before the present application. . In a conventional labeler, the heat-sensitive adhesive of a label is heated by blowing air into a nichrome wire heater with a blower and supplying hot air generated by the blower to activate the heat-sensitive adhesive. Heating by a halogen lamp was also performed. However, by heating with hot air is noise, exhaust a large amount of hot air generated, may be low and many other problems of heating efficiency, whereas the paper of the heat absorption in the near infrared wavelength region generated by the halogen lamp in the heat of the halogen lamp Since the ratio is extremely low as 1 to 40%, there is a problem that it is unsuitable for a high-speed labeler. Substrate labels are to require a long time and heat absorption yield is low in the activation of the heat-sensitive glue because paper.

[0003]

[0008] The present invention provides a low-efficiency and glue activation device thermal label which solves the problem of requiring a long heating times of exhaust such problems and the halogen lamp heating hot air hot air heating .

[0004]

According to the present invention, there are provided a sticking drum for rotating and transferring a thermal label while sucking the label on a surface thereof, and a sticking drum arranged at a position facing a part of an outer periphery of the sticking drum in a non-contact manner with the drum. 1. A heat-sensitive glue activating device for a heat-sensitive labeler, comprising a heating device, wherein the heating device is a far-infrared radiation heating device, and activates the glue surface of the heat-sensitive label by radiant heat of far-infrared rays in a non-contact manner. The heat-sensitive label sucked onto the surface of the sticking drum, which is composed of a sticking drum that rotates and transports the heat-sensitive label while sucking it on the surface, a ceramic far-infrared ray generating layer arranged on the surface of the sticking drum, and an induction heating coil placed inside the sticking drum 2. An apparatus for activating the heat-sensitive adhesive of a heat-sensitive labeler, which is activated by radiating heat of far-infrared rays to activate the adhesive surface of the heat-sensitive label. A sticking drum to be transferred, a far-infrared radiation heating device arranged in a position facing the outer periphery of the sticking drum in a non-contact manner with the drum, and a ceramic far-infrared ray generating layer arranged on the sticking drum surface and arranged in the sticking drum 3. An apparatus for activating a heat-sensitive adhesive of a heat-sensitive labeler, wherein the heat-sensitive adhesive is activated by irradiating the heat-sensitive label from the front and back surfaces with radiant heat of far-infrared rays. A far-infrared radiation heating device disposed in a position facing a part of the outer periphery of the attaching drum in a non-contact manner with the drum surrounds the outer periphery of the attaching drum, and has a length covering at least 1/3 of the outer periphery of the attaching drum. Item 4. The heat-sensitive glue activating device for a heat-sensitive labeler according to item 1 or 3. 5. A reflector provided on the opposite side of the surface of the ceramic heater facing the label. Is heat-sensitive labeler thermal paste activation device according to any one of four terms with. 6. The reflecting plate is provided on the label suction surface of the patch drum, 1
Item 7. An apparatus for activating a heat-sensitive glue of a heat-sensitive labeler according to any one of Items 6 to 6. About.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to hold a heat-sensitive label on a sticking drum by suction, it is preferable to depressurize the inside of the drum and suction the label to the outside of the drum surface through an adhesive opening. It is preferable from the viewpoint of the activation of the glue and the speed of label application that the heating device provided to face the outer periphery of the application drum is provided so as to surround at least １ ／ of the entire circumference of the outer periphery of the drum. Heating of objects paper as a base as a heat absorption yield of about 80% of the paper with infrared wavelengths of wavelength of a heating device was far-infrared radiation heating device 2.5μm~25μm label This is because the heat-sensitive adhesive can be activated in a short time. Are very good compared to the heat absorption yield of the paper it is about 1-40% by near infrared.

As the far-infrared radiation heating device, a commercially available ceramic far-infrared heating device that emits heat rays from a heating element by converting the wavelength into far-infrared rays using a ceramic layer is used. Specifically, a thin metal strip is used as a heating element, a ceramic layer is provided on the surface of the heating element, and far-infrared rays are emitted by energizing. A far-infrared radiation heating device can also be arranged on the sticking drum. In this case, a ceramic layer is provided on the outer peripheral surface of the attaching drum, and an induction heating coil is arranged inside the drum,
By heating the drum by energizing, far infrared rays are emitted from the ceramic layer, activating the glue of the thermal label. Of course, both heating devices may be provided in parallel. As the ceramic that emits far infrared rays, for example, a far infrared heating system manufactured by NGK Insulators, Ltd. or the like is used.

[0007]

EXAMPLES The present invention will be described specifically with reference to examples.
FIG. 1 is a specific example of a labeler thermal glue activation device of the present invention, and 1 is a thermal label wound in a roll shape with the glue surface inside. A read mark to be cut according to a certain size is printed on the label. The mark is detected by the read detector 2, the tape is fed by a certain size, and cut by the cutter 3. The cut label is sucked by the suction port 7 of the suction drum 6 and held by suction. When the labeler operates, the suction drum 6 also rotates, and the label is sucked and sucked by the label suction port 8 of the sticking drum 10. In this way, the label is turned over, and the glue surface becomes the front side. The label passes through the thermal glue activation device 12 by the rotation of the sticking drum. The heat-sensitive glue activating device comprises a sticking drum 10 which rotates while adsorbing with the glue surface of the label facing up, and a far-infrared radiating ceramic heater 13 which surrounds the sticking drum for about one third of its outer circumference. The label, which has passed through the formed heat-sensitive glue activating device and the glue has been activated, is pressed by a sticking drum onto the surface of the container 5 conveyed by the conveyor 4. As shown in FIG. 2, in order to improve the thermal efficiency of the ceramic heater, the reflection plate 14 may be arranged on the side opposite to the surface of the ceramic heater facing the label. It is also effective to install a reflection plate 14 on the label suction surface of the sticking drum and heat the label from both sides. If the reflecting plate provided on the ceramic heater side is formed into a curved surface and the reflected far infrared rays are concentrated on the label, the heating effect is increased. FIG. 3 is an enlarged view of the heat-sensitive adhesive activating device of FIG. 1. The far-infrared radiating ceramic heater 13 disposed on the reflection surface side of the reflection plate 14 faces the outer periphery of the attaching drum 10. It is arranged so as to surround about 1/3 of the length. FIG. 4 is an enlarged view of the far-infrared radiation ceramic heater 13 provided on the reflection surface side of the reflection plate 14. The label paper as a base material sheet, the backside, for example, providing a heat-sensitive adhesive layer of di Redotakku adhesive manufactured by Dainippon Ink Co., subjected to a printing as needed on the front side. Far infrared absorption yield of paper wavelength 2.5μm~25μ
In the case of far-infrared rays of m, the ratio is about 80%, and the glue is activated at a high speed, so that the label attaching speed can be increased.

[0008]

By arranging the far-infrared ray radiating device as the heating device, the heat-sensitive adhesive of the label can be efficiently activated and the labeler can be downsized.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a labeler using a heat-sensitive adhesive activation device of the present invention.

FIG. 2 is a cross-sectional view of the heat-sensitive adhesive activation device of the present invention.

FIG. 3 is an explanatory view of a heat-sensitive adhesive activating device of the present invention.

FIG. 4 is an explanatory view of a far-infrared ray radiating device of the thermosensitive adhesive activating device of the present invention.

[Explanation of Signs] 1 Thermal label wound in a roll 2 Reading detector 3 Cutter 4 Conveyor 5 Container 6 Suction drum 7 Suction drum suction hole 8 Adhesion drum suction hole 9 Vent pipe 10 Adhesion drum 11 Adsorbed label 12 Heating device 13 Far-infrared ceramic heater 14 Reflector

Claims (6)

[Claims] 1. A sticking drum for rotating and transporting a heat-sensitive label while sucking the label on a surface thereof, and a heating device arranged in a position facing a part of an outer periphery of the sticking drum in a non-contact manner with the drum, wherein the heating device is a far-infrared ray. A heat-sensitive glue activating device for a heat-sensitive labeler, which is a radiant heating device and activates a glue surface of a heat-sensitive label by radiant heat of far-infrared rays in a non-contact manner. 2. A sticking drum comprising a sticking drum for rotating and transferring a thermal label while sucking the label on the surface, a ceramic far-infrared ray generating layer provided on the sticking drum surface, and an induction heating coil arranged in the sticking drum. A heat-sensitive glue activating device for a heat-sensitive labeler, wherein the suctioned heat-sensitive label is heated by radiant heat of far infrared rays to activate the glue surface of the heat-sensitive label. 3. A sticking drum for rotating and transferring a heat-sensitive label while sucking the label on the surface, a far-infrared radiation heating device arranged in a position facing a part of the outer periphery of the sticking drum in non-contact with the drum, and Activating the heat-sensitive adhesive by heating the heat-sensitive label, which consists of the ceramic far-infrared ray generation layer provided and the induction heating coil arranged in the sticking drum, from both the front and back surfaces by the radiant heat of far-infrared rays. Characteristic thermal glue activation device of thermal labeler. 4. A far-infrared radiation heating device arranged in a position facing a part of the outer periphery of the sticking drum and in non-contact with the drum has a shape surrounding the outer periphery of the sticking drum, and is at least one-third of the outer circumference of the sticking drum. 4. The heat-sensitive glue activating device for a heat-sensitive labeler according to claim 1, wherein the heat-sensitive glue has a length of three. 5. The heat-sensitive glue activating device for a heat-sensitive labeler according to claim 1, wherein a reflection plate is provided on a side of the ceramic heater opposite to a surface facing the label. 6. The heat-sensitive glue activating device for a heat-sensitive labeler according to claim 1, wherein a reflection plate is provided on a label suction surface of the sticking drum.