JP5733901B2 - Label issuing device - Google Patents

Description

  The present invention relates to a label issuing device that heats and issues a thermally active adhesive layer of a label.

  Conventionally, a thermally activated label that does not require a release paper has been proposed as a label for displaying price, quality, and the like (for example, see Patent Document 1).

  On one side of the thermally activated label, a thermally activated adhesive layer is provided. This thermally activated adhesive layer exhibits non-adhesiveness at room temperature, but develops adhesiveness when heated. Therefore, it can be in the state which can affix a thermoactive label with respect to a to-be-adhered object by heating a thermoactive adhesive layer with the label issuing apparatus which issues a label.

JP 2006-84607 A

  By the way, the temperature of the above-mentioned heat-activatable pressure-sensitive adhesive layer decreases as time passes after heating. And as the temperature of the thermally active adhesive layer decreases, the adhesive force of the thermally active adhesive layer decreases. Therefore, even if the worker is not in the vicinity of the label issuing device, if the label is issued, the adhesive force of the thermally active pressure-sensitive adhesive layer is reduced until the worker tries to stick, There is a risk that it cannot be applied. Therefore, since the operator applies the label as soon as the label is issued by the label issuing device, the worker cannot leave the label issuing device, and there is a problem that convenience is low.

  Then, this invention is made | formed in view of the above-mentioned subject, and it aims at improving the convenience about the label issuing apparatus which issues the label provided with the heat active adhesive layer.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

The invention of claim 1 is a label issuing device (100) for issuing labels (1a, 1b, 1c, 1d, 1e), and one surface of the label exhibits adhesiveness when heated. And a human sensing means (330) for sensing the presence or absence of a person, and when the presence of a person is detected by the person sensing means, the thermal activation adhesive layer is heated. A thermal activation means (150) for performing the above, a discharge port (200) provided so that the label heated by the thermal activation means can be protruded, and whether the label protrudes from the discharge opening. A protrusion detecting means (320) for detecting whether or not, and a cutting means for cutting the label , wherein the thermal activation means is sensed by the person sensing means that there is a person, and the protrusion detecting means From the outlet When Le is detected that does not project, and heating the heat-active adhesive layer, after heating with respect to the label is completed, a label issuing device, characterized in that the label is peeled off by the cutting means.

A second aspect of the present invention is the label issuing device according to the second aspect, wherein the label is formed in a specific region among the transport means (120, 140) for transporting the label formed in a strip shape and the other surface of the label. A printing means (130) for printing on a portion to be printed, and a cutting means (for cutting the label)
160), and the conveying means conveys the label whose thermal active adhesive layer is heated by the thermal activating means to cause the label to protrude from the discharge port, and is thermally activated by the thermal activating means. After the label heated by the pressure-sensitive adhesive layer is projected from the outlet, it is sensed that the person is detected by the person detecting means, and the label is not projected from the outlet by the protrusion detecting means. When detected, the label issuing device is characterized in that the label is transported in reverse and the leading end of the label is positioned in the specific area.

The invention of claim 3 is the label issuing device according to claim 2 , wherein the cutting means is provided in the vicinity of the discharge port.

  According to the present invention, the following effects can be achieved.

(1) The label issuing apparatus according to the present invention includes a person detecting means for detecting the presence or absence of a person. In addition, the label issuing device includes a thermal activation unit that heats a thermal activation adhesive layer provided on one side of the label when the human sensing unit senses that a person is present. Therefore, since the label issuing device of the present invention heats the thermally active adhesive layer when a person enters the vicinity, the person who is not in the vicinity will heat the thermally active adhesive layer. Can be prevented. Therefore, since the operator only needs to be in the vicinity of the label issuing device only when applying the label to the object to be attached, the label issuing device of the present invention can improve convenience.

(2) The label issuing device according to the present invention has a discharge port provided so that a label heated by the heat activation means can be protruded, and a protrusion for detecting whether or not the label protrudes from the discharge port. Detecting means. Furthermore, the thermal activation means of the label issuing device detects the presence of a person by the human detection means, and detects that the label does not protrude from the discharge port by the protrusion detection means. Heat. Therefore, if the label issuance device is in the vicinity but the label already issued by heating the heat-activatable adhesive layer is not attached, the heat-activatable adhesive layer is heated and a new label is issued. The process of doing is not carried out. Therefore, since the operator can perform the work of attaching the label at his / her own pace, the label issuing device of the present invention can further improve convenience.

(3) The label issuing apparatus of the present invention includes a transport unit that transports the label formed in a belt shape, and a cutting unit that cuts the label. In addition, the label issuing device includes a printing unit that prints on a portion of the other surface of the label that is located in the specific area. Furthermore, the transport means of the label issuing device transports the label whose thermal active adhesive layer is heated by the thermal activation means, and causes the label to protrude from the discharge port. In addition, the conveying means of the label issuing device is configured to detect the presence of a person by the human sensing means after the label whose thermal activation adhesive layer is heated by the thermal activation means is projected from the discharge port, and the projection detection means When it is detected that the label does not protrude from the discharge port, the label is transported and the leading end of the label is positioned in the specific area. Therefore, when the label issuing device issues a label, the label issuing device reversely conveys the label so that the printing unit can print on a portion adjacent to the issued label. Therefore, the label issuing device of the present invention can print on the belt-like label without any gap, and can prevent the occurrence of a portion that cannot be printed out of the belt-like label.

(4) The cutting means of the label issuing device of the present invention is provided in the vicinity of the discharge port. Therefore, the label issuing apparatus of this invention can peel the part which protrudes from the discharge port from the label formed in the strip | belt shape.

It is a figure which shows the outline of embodiment of the label issuing apparatus by this invention. 2 is a cross-sectional view of a label 1. FIG. 3 is a block diagram illustrating a configuration of a control unit 400. FIG. It is a figure for demonstrating operation | movement of the label issuing apparatus. 3 is a flowchart showing a flow of operations of the label issuing device 100.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

(Embodiment)
FIG. 1 is a diagram showing an outline of an embodiment of a label issuing apparatus according to the present invention.
In addition, each figure shown below including FIG. 1 is the figure shown typically, and the size and shape of each part are exaggerated suitably, or one part structure is suitably shown in order to make an understanding easy. It is omitted or shown.
In the following description, specific numerical values, shapes, materials, operations, and the like will be described, but these can be changed as appropriate.

  The label issuing apparatus 100 according to the present embodiment includes a label supply unit 110, a platen roller 120, a thermal head 130, a thermal activation platen roller 140, a thermal activation head 150, a cutter 160, and a label position detection sensor 310. , A label presence / absence detection sensor 320, a human detection sensor 330, and a control unit 400.

  A label 1 formed in a strip shape is rotatably loaded in the label supply unit 110 in a state of being wound in a roll shape.

FIG. 2 is a cross-sectional view of the label 1.
The label 1 includes a label substrate 11, a thermochromic agent layer 12 formed by applying a thermochromic agent to the surface of the label substrate 11, and a thermoactive adhesive layer 13 formed on the back surface of the label substrate 11. With. The thermally active pressure-sensitive adhesive layer 13 exhibits non-adhesiveness at room temperature, but develops adhesiveness when heated. As the thermally active pressure-sensitive adhesive layer 13, for example, a heat-sensitive pressure-sensitive adhesive mainly composed of a thermoplastic resin, a solid plastic resin or the like can be used.

Returning to FIG. 1, the platen roller 120 is disposed so as to be in contact with the thermally active adhesive layer 13 of the label 1. The platen roller 120 is driven to convey the belt-like label 1 supplied from the label supply unit 110.
The thermal head 130 includes a heating element, and is disposed at a position facing the platen roller 120 across the label 1 so as to be in contact with the thermochromic agent layer 12 of the label 1. The thermal head 130 selectively heats the heating element to cause the thermochromic agent layer 12 of the label 1 to thermally develop and print.

The thermal activation platen roller 140 is disposed so as to be in contact with the thermochromic agent layer 12 of the label 1. The thermal activation platen roller 140 is rotated to convey the label 1 conveyed between the platen roller 120 and the thermal head 130.
The thermal activation head 150 includes a heating element, and is disposed at a position facing the thermal activation platen roller 140 across the label 1 so as to be in contact with the thermal activation adhesive layer 13 of the label 1. The thermal activation head 150 heats the thermal activation adhesive layer 13 of the label 1 by causing the heating element to generate heat.
The label 1 conveyed between the thermal activation platen roller 140 and the thermal activation head 150 is projected from the discharge port 200.

  The cutter 160 is disposed in the vicinity of the discharge port 200. The operator can peel the portion protruding from the discharge port 200 from the strip-shaped label 1 by pressing the label 1 protruding from the discharge port 200 against the cutter 160.

The label position detection sensor 310 is disposed in the vicinity of the platen roller 120, and outputs a label position detection signal when the eye mark 2 is located at an opposing position. The eye mark 2 is formed at predetermined intervals on the side of the thermally active adhesive layer 13 of the label 1.
The label presence / absence detection sensor 320 is disposed in the vicinity of the discharge port 200 and in a position facing the protruding portion when the label 1 protrudes from the discharge port 200. The label presence / absence detection sensor 320 outputs a label detection signal when there is a label 1 at an opposing position, that is, when the label 1 protrudes from the discharge port 200.
The human detection sensor 330 is disposed in the vicinity of the discharge port 200, and outputs a human detection signal when an operator is in the vicinity of the discharge port 200.

  The control unit 400 controls the platen roller 120 and the thermal head 130 according to the label position detection signal, and controls the thermal activation platen roller 140 and the thermal activation head 150 according to the label detection signal and the human detection signal. .

FIG. 3 is a block diagram illustrating a configuration of the control unit 400.
The control unit 400 includes a CPU (Central Processing Unit) 401, a ROM (Read Only Memory) 402, a RAM (Random Access Memory) 403, a transport control unit 404, a print control unit 405, and a thermal activation control unit 406. , A label detection unit 407 and a person detection unit 408 are provided.

  A host such as a personal computer is connected to the control unit 400 via an external interface (external I / F) 501, and the control unit 400 communicates data and commands with the host via the external I / F 501. Can be sent and received. The data received from the host includes print data to be printed on the label 1.

The ROM 402 stores a predetermined control program, font data, and the like.
The CPU 401 operates according to a control program stored in the ROM 402 and controls each unit.
The RAM 403 stores data necessary for the CPU 401 to operate.

  The conveyance control unit 404 is controlled by the CPU 401 and supplies drive signals to the first conveyance motor 502 and the second conveyance motor 503. The first transport motor 502 is connected to the platen roller 120 and rotationally drives the platen roller 120 in accordance with a drive signal supplied from the transport control unit 404. The second conveyance motor 503 is connected to the thermal activation platen roller 140 and rotates the thermal activation platen roller 140 in response to a drive signal supplied from the conveyance control unit 404.

The print control unit 405 is controlled by the CPU 401 and drives the thermal head 130.
The thermal activation control unit 406 is controlled by the CPU 401 and drives the thermal activation head 150.

The label detection unit 407 supplies a label position detection signal output from the label position detection sensor 310 to the CPU 401 and also supplies a label detection signal output from the label presence / absence detection sensor 320 to the CPU 401.
The human detection unit 408 supplies the human detection signal output from the human detection sensor 330 to the CPU 401.

Next, the operation of the label issuing apparatus of this embodiment will be described below with reference to FIGS.
4A to 4F are cross-sectional views of the label 1 in a series of steps of peeling the label 1a from the strip-shaped label 1. FIG.

  In addition, the label 1a is located at the tip of the strip-shaped label 1 and indicates a portion that is first peeled off from the label 1. The label 1b is a portion adjacent to the label 1a in the strip-like label 1 and is a portion to be peeled from the label 1 next to the label 1a. For the labels 1c, 1d, and 1e, the same parts as the label 1b are shown. Further, the lengths of the labels 1a to 1e are equal.

The label position detection position is a position at which the label position detection sensor 310 detects the presence or absence of the eye mark 2, and as shown in FIGS. 4 (a), (b), and (f), If there is an eye mark 2, the label position detection sensor 310 outputs a label position detection signal.
The printing position is a position where the thermal head 130 prints the thermal colorant layer 12 of the label 1 with thermal color development. The interval between the label position detection position and the printing position is equal to the length of each of the labels 1a to 1e.
The thermally activated position is a position where the thermally activated head 150 heats the thermally activated adhesive layer 13 of the label 1.
The peeling position is a position where the cutter 160 is provided.
The label presence / absence detection position is a position at which the label presence / absence detection sensor 320 detects the presence / absence of the label 1, and when the label 1 is present at the label presence / absence detection position as shown in FIGS. The label presence / absence detection sensor 320 outputs a label detection signal. Further, when the label presence / absence detection sensor 320 outputs a label detection signal, the human detection sensor 330 detects whether or not there is an operator near the discharge port 200, and when there is an operator, the human detection signal is output. Output.

  First, the label issuing device 100 rotates the platen roller 120 to convey the belt-like label 1 supplied from the label supply unit 110. Then, as shown in FIG. 4A, when the eye mark 2 of the label 1a is positioned at the label position detection position, the label position detection sensor 310 outputs a label position detection signal.

  Here, since the interval between the label position detection position and the print position is equal to the length of the label 1a as described above, when the label position detection sensor 310 outputs a label position detection signal, the label 1a is displayed at the print position. This means that the tip of the is located. Therefore, when the label position detection sensor 310 outputs a label position detection signal, the thermal head 130 starts printing on the label 1a.

  When the thermal head 130 starts printing on the label 1a, the platen roller 120 appropriately transports the label 1 in conjunction with the thermal head 130. When printing on the label 1a is completed, a printing layer 12-2 having a shape corresponding to the printing data is formed as shown in FIG. 4B. Note that the printing layer 12-2 is a thermal color former layer 12 (not shown) that has been subjected to thermal coloring according to printing data.

  Next, when printing on the label 1 a is completed, the label issuing device 100 rotates the platen roller 120 and the thermal activation platen roller 140 to convey the label 1. And the conveyance of the label 1 is performed for a predetermined time, and the front-end | tip part of the label 1a is located in a heat activation position.

  Next, when the label presence / absence detection sensor 320 does not output a label detection signal and the human detection sensor 330 outputs a human detection signal, that is, as shown in FIG. If the worker is not protruding from the area and there is an operator in the vicinity of the discharge port 200, the thermal activation head 150 starts heating the label 1a. On the other hand, when the label presence / absence detection sensor 320 outputs a label detection signal, or when the human detection sensor 330 does not output a human detection signal, the label presence / absence detection sensor 320 does not output a label detection signal and human detection is performed. It waits until the sensor 330 becomes a state which outputs a human detection signal.

  When the thermal activation head 150 starts heating the label 1 a, the thermal activation platen roller 140 moves the label 1 appropriately in conjunction with the thermal activation head 150. And when the heating with respect to the label 1a is completed, as shown in FIG.4 (d), the adhesion layer 13-2 will be formed. In addition, the adhesion layer 13-2 is the one in which the adhesiveness of the thermally active adhesive layer 13 (not shown) is expressed by heating.

  Next, when the heating of the label 1a is completed, the label issuing device 100 rotates the platen roller 120 and the thermal activation platen roller 140 to convey the label 1. Then, the label 1 is conveyed for a predetermined time, and as shown in FIG. 4E, the base end portion of the label 1a, that is, the boundary portion between the label 1a and the label 1b is positioned at the peeling position. According to this, the label 1a protrudes from the discharge port 200. Therefore, when the operator presses the label 1 against the cutter 160, the label 1a is peeled from the label 1, and the label 1b is positioned at the tip of the strip-shaped label 1 instead of the label 1a.

  Here, at the timing when the label 1a is peeled from the label 1, there is no label 1 at the label presence / absence detection position, and there is an operator near the discharge port 200. For this reason, at the timing when the label 1a is peeled from the label 1, the label presence / absence detection sensor 320 does not output the label detection signal, and the human detection sensor 330 outputs the human detection signal.

  Therefore, when the label presence / absence detection sensor 320 does not output the label detection signal and the human detection sensor 330 outputs the human detection signal, that is, when the label 1a is peeled off from the label 1, the label issuing device 100 conveys the label 1 by rotating the platen roller 120 and the thermal activation platen roller 140 in the reverse direction. According to this, the label 1 is conveyed to the label supply unit 110 side. As shown in FIG. 4F, when the eye mark 2 of the label 1b is located at the label position detection position, the reverse rotation of the platen roller 120 and the thermal activation platen roller 140 is stopped, and the label position detection sensor 310 is activated. Outputs the label position detection signal. According to this, the leading end of the label 1b is positioned at the printing position.

FIG. 5 is a flowchart showing a flow of operations of the label issuing device.
When the operation is started, in step S10, the control unit 400 performs a data input process. In this data input process, the CPU 401 receives print data to be printed on the label 1 from the host connected via the external I / F 501 and stores it in the RAM 403.

  In step S20, the control unit 400, the first transport motor 502, the platen roller 120, and the thermal head 130 perform a printing process. In this print processing, the CPU 401 controls the transport control unit 404 and the print control unit 405 based on the print data stored in the RAM 403. Then, the conveyance control unit 404 supplies a drive signal corresponding to the print data to the first conveyance motor 502, and the first conveyance motor 502 rotates the platen roller 120 according to the print data to convey the label 1. . Further, the print control unit 405 drives the thermal head 130 according to the print data and prints on the label 1. Therefore, in the printing process, the platen roller 120 and the thermal head 130 are linked in accordance with the print data, and the label 1 is printed while being appropriately conveyed.

  In step S30, the control unit 400, the first transport motor 502, and the platen roller 120 perform label transport processing. In this label transport process, the CPU 401 controls the transport control unit 404. Then, the conveyance control unit 404 supplies a drive signal to the first conveyance motor 502, and the first conveyance motor 502 conveys the label 1 by rotating the platen roller 120.

  In step S <b> 40, the control unit 400 and the label presence / absence detection sensor 320 determines whether or not the label 1 protrudes from the discharge port 200. Specifically, if the label presence / absence detection sensor 320 does not output a label detection signal, the CPU 401 determines that the label does not protrude, and the process proceeds to S50. If the label presence / absence detection sensor 320 outputs a label detection signal, the CPU 401 determines that the label is protruding, and repeats S40.

  In step S50, the control unit 400 and the human detection sensor 330 determine whether or not there is an operator near the discharge port 200. Specifically, if the human detection sensor 330 is not outputting a human detection signal, it is determined that there is no worker near the discharge port 200, and the process returns to S40. If the human detection sensor 330 outputs a human detection signal, it is determined that there is an operator near the discharge port 200, and the process proceeds to S60.

  In step S60, the controller 400, the second transport motor 503, the thermal activation platen roller 140, and the thermal activation head 150 perform thermal activation processing. In this thermal activation process, the CPU 401 controls the transport control unit 404 and the thermal activation control unit 406. Then, the conveyance control unit 404 supplies a drive signal to the second conveyance motor 503, and the second conveyance motor 503 conveys the label 1 by rotating the thermal activation platen roller 140. Further, the thermal activation control unit 406 drives the thermal activation head 150 to heat the label 1. Therefore, in the thermal activation process, the thermal activation platen roller 140 and the thermal activation head 150 work together to heat the label 1 while appropriately transporting the label 1.

  In step S70, the controller 400, the first transport motor 502, the second transport motor 503, the platen roller 120, and the thermal activation platen roller 140 perform label transport processing. In this label transport process, the CPU 401 controls the transport control unit 404. Then, the conveyance control unit 404 supplies a drive signal to the first conveyance motor 502 and the second conveyance motor 503, the first conveyance motor 502 rotates the platen roller 120, and the second conveyance motor 503 causes the platen for thermal activation. The roller 140 is rotated to convey the label 1.

  In step S80, the controller 400 and the label presence / absence detection sensor 320 determine whether or not the label 1 protrudes from the discharge port 200. Specifically, if the label presence / absence detection sensor 320 does not output a label detection signal, the CPU 401 determines that the label does not protrude, and the process proceeds to S90. If the label presence / absence detection sensor 320 outputs a label detection signal, the CPU 401 determines that the label is protruding, and repeats S80.

  In step S <b> 90, the control unit 400 and the human detection sensor 330 determine whether there is an operator near the discharge port 200. Specifically, if the human sensor 330 does not output a human sensor signal, it is determined that there is no worker near the discharge port 200, and the process returns to S80. If the human detection sensor 330 outputs a human detection signal, it is determined that there is an operator near the discharge port 200, and the process proceeds to S100.

  In step S100, the control unit 400, the first transport motor 502, the second transport motor 503, the platen roller 120, and the thermal activation platen roller 140 perform label reversal transport processing. In this label reversal conveyance process, the CPU 401 controls the conveyance control unit 404. Then, the conveyance control unit 404 supplies a drive signal to the first conveyance motor 502 and the second conveyance motor 503, the first conveyance motor 502 reversely rotates the platen roller 120, and the second conveyance motor 503 is used for thermal activation. The platen roller 140 is rotated in the reverse direction to transport the label 1 in the direction opposite to the label transport process.

  In step S110, control unit 400 determines whether or not all printing has been completed. Specifically, for example, when 5 labels are to be issued, if 5 labels have already been issued, it is determined that the label has been completed. If 4 labels have already been issued, the label has not been completed. Judge. If it is determined that the operation is completed, one cycle of the operation is completed. If it is determined that the operation is not completed, the process returns to S20.

  As described above, according to the above-described embodiment, when there is an operator near the discharge port 200 and the label 1 does not protrude from the discharge port 200, the label 1 is heated. Therefore, when there is no worker in the vicinity of the discharge port 200 or when the worker does not attach the label 1 that has already been issued, the label 1 is not newly heated, so that convenience can be improved.

  Further, according to the above-described embodiment, after the label 1a is issued, the platen roller 120 and the thermal activation platen roller 140 are reversely rotated so that the leading end portion of the label 1b is positioned at the printing position. Therefore, if the platen roller 120 and the thermal activation platen roller 140 are not rotated in the reverse direction, printing can be performed on the label 1b that could not be printed, and an unprinted portion of the belt-like label 1 occurs. Can be prevented.

(Deformation)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the scope of the present invention.

(1) In the embodiment described above, when the label 160 protruding from the discharge port 200 is pressed against the cutter 160 by the operator, the cutter 160 peels the portion protruding from the discharge port 200 from the strip-shaped label 1. An example was given and explained. However, the present invention is not limited to this. For example, the cutter 160 automatically contacts the label 1 after completing the label carrying process in step S70 described above, and the portion protruding from the discharge port 200 is removed from the strip-shaped label 1. It may be peeled off.

(2) In the above-described embodiment, the example in which the platen roller 120 and the thermal activation platen roller 140 convey the label 1 has been described. However, the present invention is not limited to this. For example, a new roller may be provided, and this roller may convey the label 1.

  In addition, although the above-mentioned embodiment and modification can also be used in combination suitably, detailed description is abbreviate | omitted. Further, the present invention is not limited to the embodiment described above.

1, 1a, 1b, 1c, 1d, 1e Label 2 Eye mark 11 Label substrate 12, 12-2 Thermal color former layer 13, 13-2 Thermally active adhesive layer 100 Label issuing device 110 Label supply unit 120 Platen roller 130 Thermal head 140 Platen roller for thermal activation 150 Thermal activation head 160 Cutter 200 Discharge port 310 Label position detection sensor 320 Label presence detection sensor 330 Human detection sensor 400 Control unit

Claims (3)

A label issuing device for issuing a label,
One side of the label is provided with a heat-activatable pressure-sensitive adhesive layer that develops adhesiveness when heated, and senses the presence of a person by means of a person sensing means for sensing the presence or absence of a person. Then, a thermal activation means for heating the thermally active pressure-sensitive adhesive layer, a discharge port provided so that the label heated by the thermal activation means can be protruded, and the discharge port from the discharge port A protrusion detecting means for detecting whether or not the label protrudes; and a cutting means for cutting the label , wherein the thermal activation means is sensed by the person sensing means that a person is present, and the protrusion wherein when the label from the outlet by the detection means is detected that does not project, and heating the heat-active adhesive layer, after heating with respect to the label is completed, that the label is peeled off by the cutting means Label issuing device to. The label issuing device according to claim 1,
Conveying means for conveying the label that has been formed on the belt, of the other surface of the label, the portion located in the specific area, and a printing means for printing, the conveying means, by the thermal activation means After conveying the label heated by the thermally active pressure-sensitive adhesive layer and causing the label to protrude from the outlet, and after causing the label heated by the thermally active means to protrude from the outlet When the person sensing means senses that there is a person and the protrusion detection means detects that the label does not protrude from the discharge port, the label is reversed and conveyed, and the leading edge of the label A label issuing device characterized in that a part is located in the specific area. 3. The label issuing device according to claim 2, wherein the cutting means is provided in the vicinity of the discharge port.

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