KR101297899B1 - Hologram stamping device capable of automatic adjustment of stamping position - Google Patents

Abstract

PURPOSE: An automatic control-type hologram sticking device for controlling a stamping position of a card is provided to make the defect rate of a plastic card to which a hologram sticks to come close to zero and to facilitate a work for arranging plastic cards on the lower part of a press mold. CONSTITUTION: An automatic control-type hologram sticking device for controlling a stamping position of a card comprises a press unit, a first table (210), a second table, and a table transfer unit. The press unit stamps a hologram foil on a specified position for the plastic card. The first table moves along the X-axis on a machining surface based on a virtual machining surface which is perpendicular to the stamping direction of the press unit. The plastic card is put on the upper side of the first table for stamping. The second table moves along the Y-axis on the virtual surface together with the first table which is held on the second table. The table transfer unit transfers the first table and the second table in the X-axis direction and the Y-axis direction respectively.

Description

Hologram stamping device capable of automatic adjustment of stamping position

The present invention relates to an apparatus for attaching a hologram of a plastic card, and in particular, when setting the position data in the equipment based on the hologram stamping position of a press die, two tables arranged up and down according to the data value set in this way are X, Y axes. The hologram attaching device of the automatic adjustment of the stamping position of the plastic card which the stamping process is performed after the plastic card of the upper table is placed in the state of accurately positioning the hologram stamping designation area under the press die through the automatic movement of the direction. will be.

Generally, credit cards, bank cards, and various ID cards are made of plastic material in a standard shape and thickness.

In recent years, hologram printing for preventing forgery and fading has become common in the manufacturing process of such credit cards, bank cards, and various ID cards (hereinafter referred to as "plastic cards").

Accordingly, devices for attaching a hologram or logo (hereinafter referred to as "stamping") on the surface of the plastic card have been provided (hereinafter referred to as "hologram attaching device").

For example, Korean Patent No. 0422347, "Stamping Device for Credit Card Hologram and Signature Sticker," and Korean Patent Registration No. 0463543, "Transfer Device for Credit Card Printing Machine," have been proposed.

Referring to the Korean Patent No. 0422347, “Stamping device for hologram and signature sticker of credit card”, the configuration of a conventional hologram attaching device will be briefly described as follows.

Conventional hologram attachment device is mounted on the upper side of the workbench and the guide rail to move the cards horizontally, the mounting guides are mounted on both sides of the guide rail and stacked in a line, the card is mounted on one side of the loading guide A transfer cylinder for pushing and transferring to the guide rail, a blow cylinder for pushing up the stamped card to the inside of the other stacking guide, mounted at the bottom of the other stacking guide, and above and below the support frame in the center of the guide rail, respectively. It is composed of a foil wound between the mounted reels and moved up and down, and mounted on the top of the foil and operated by a separate drive motor, and a pressure plate with a heating wire heater embedded therein, and a pressure plate lowered by the drive motor heats the foil. And pressurizes the foil to be thermally bonded to the surface of the card in the shape of the pressing hole on the lower side of the pressing plate. Is the configuration.

However, the conventional hologram attachment device is inconvenient to re-set the setting work for the corresponding parts of the entire device whenever the stamping position of the plastic card changes.

That is, the holographic foil attachment position of the card is slightly different according to the producers of plastic cards such as different banks and card companies, and accordingly, the actual stamping part of the plastic card (usually press configuration, is described in Korean Patent No. 0422347 “ In the case of the stamping device of the credit card hologram and signature sticker ”, the alignment position of the plastic card underneath it must be different, based on the pressure plate). There is currently no hologram attachment device that can easily and efficiently perform this operation. to be.

For this reason, conventional hologram attachments require manual resetting of the corresponding parts of the entire device to maintain accurate alignment between the stamping position of the plastic card and the press mold whenever the type of plastic card changes. Not only is it time-consuming, there is a high risk that the plastic card produced will be a defective product that does not attach the hologram foil in the correct position if the device is not set correctly by a worker who is not skilled at work.

Korean Registered Patent No. 0424347 (2004.03.12), “Stamping Device for Credit Card Hologram and Signature Sticker” Korean Registered Room No. 0463543 (2012.11.05), “Transfer Device of Credit Card Printing Machine”

The present invention has been proposed to solve the above problems, when setting the position data to the equipment based on the holographic stamping position of the press die, two tables arranged up and down according to the data value set in this way, X, Y The hologram attaching device of the automatic adjustment of the stamping position of the plastic card, which is placed in the state where the plastic card of the upper table accurately positions the hologram stamping designation area under the press die, through the automatic movement in the axial direction. The purpose is to provide.

In addition, according to the present invention, the preset position data is detected on the basis of the hologram stamping processing position of the press die, and the upper and lower tables are automatically moved in the X and Y axis directions according to the detection data, and the plastic card of the upper table is pressed. An object of the present invention is to provide a hologram attachment device of automatic adjustment of the stamping position of a plastic card, which can always be accurately positioned at a designated position for hologram stamping on the lower side.

In addition, according to the present invention, as the alignment operation for stamping the plastic card with respect to the hologram press die is automatically controlled according to the input position data value, the plastic card moves the designated area for stamping the hologram to the lower portion of the press mold as compared with the conventional manual alignment method. To ensure accurate positioning of the hologram-laminated plastic card, so that the defect rate of the hologram-laminated plastic card can be close to zero, and the alignment of the plastic mold underside of the press die can be made very easily. An object of the present invention is to provide a hologram attachment device for automatically adjusting the stamping position of a plastic card, which greatly improves the productivity and productivity.

In order to achieve the above object, the hologram attachment device of the automatic adjustment of the stamping position of the plastic card according to the present invention is arranged in a state in which the hologram foil and the plastic card are automatically supplied to each other in a designated area of the plastic card. A hologram attachment apparatus for a plastic card that stamps the hologram foil, comprising: a press portion for stamping the hologram foil in a designated area of the plastic card, and a virtual machining surface perpendicular to the stamping direction of the press portion A first table, which is moved in the X-axis direction along the virtual machining surface as a reference, on which the plastic card is placed for stamping, and Y along the virtual machining surface with the first table mounted on the upper surface. A second table moved in the axial direction, the first table and The second table is configured to include a table moving device for moving each of the X-axis and Y-axis directions.

In addition, the table moving device converts the rotational power of the servo motor and the servo motor for generating power for the X-axis movement of the first table to a linear movement power in the X-axis direction and transfers it to the first table. And a guide rail and a guide block coupled to two opposite surfaces of the ball screw and the first table and the second table to guide the X-axis movement of the first table by the ball screw.

In addition, the table moving device converts the rotational power of the servo motor and the servo motor for generating power for the Y-axis movement of the second table to a linear movement power in the Y-axis direction and transfers it to the second table. It is characterized in that it comprises a guide rail and a guide block coupled to the ball screw and the mounting surface of the second table and the second table respectively to guide the movement of the second table in the Y-axis direction by the ball screw.

In addition, the installation surface of the second table is characterized in that the work surface of the work table including a holographic foil stamping surface through the press portion.

In addition, the guide rail is an LM guide rail and the guide block is characterized in that the LM guide block.

The apparatus may further include a controller configured to automatically operate the table moving apparatus according to the input X axis movement value and the Y axis movement value to control the X axis movement of the first table and the Y axis movement of the second table. It is done.

The apparatus may further include a storage unit configured to pre-store the X-axis movement value and the Y-axis movement value according to any one or both of the plastic card and the hologram foil, for each plastic card. The X-axis movement value and the Y-axis movement value are detected from the storage unit according to a pre-stored unique code value, and then the X-axis movement and the Y-axis movement of the first table and the second table are controlled. do.

According to the present invention, when the corresponding position data is set in the equipment based on the hologram stamping processing position of the press die, the two tables arranged up and down in accordance with the data values set in this way are automatically moved in the X and Y axis directions, respectively. After the plastic card is placed in a state where the hologram stamping designating area is accurately positioned under the press die, stamping processing can be performed.

In addition, the preset position data is detected based on the hologram stamping position of the press die, and the upper and lower tables are automatically moved in the X and Y axis directions according to the detected data, and the plastic card of the upper table is moved to the hologram of the lower press die. It can always be precisely positioned at the designated position for stamping.

In addition, as the alignment operation for stamping the plastic card with respect to the hologram press die is automatically controlled according to the input position data value, compared to the conventional manual alignment method, the plastic card always accurately corrects the designated area for hologram stamping under the press mold. This makes it possible to bring the defect rate of the holographic plastic card to near zero, while aligning the lower part of the press mold of the plastic card with ease, thus producing workability and productivity of producing the holographic plastic card. This is greatly improved.

1 is a side view showing the overall configuration of the hologram attachment device of the automatic adjustment of the stamping position of the plastic card according to an embodiment of the present invention
Figure 2 is a plan view showing the main portion of the holographic attachment device for automatically adjusting the stamping position of the plastic card according to an embodiment of the present invention
3 is a side view of the main part according to FIG. 2;
4 is a view showing a first table moving along the X axis among the main parts of FIG. 2 and a conveying means thereof;
FIG. 5 is a view showing a second table moving along the Y axis among the main parts of FIG. 2 and a conveying means thereof; FIG.
Figure 6 is a schematic block diagram showing the electrical configuration of the holographic attachment device for automatically adjusting the stamping position of the plastic card according to an embodiment of the present invention

Hereinafter, with reference to the accompanying drawings will be described in detail a holographic attachment device of the automatic adjustment of the stamping position of the plastic card according to an embodiment of the present invention.

1 is a side view showing the overall configuration of the hologram attachment device of the automatic adjustment of the stamping position of the plastic card according to an embodiment of the present invention.

As shown, a hologram attachment device (hereinafter, abbreviated as "hologram attachment device") of a plastic card according to an embodiment of the present invention is a work table 110, a card input unit 120, a card transfer unit 130 The hologram supply unit 140 includes a press driving unit 150, a press unit 160, and a card discharge unit 170 for hologram stamping.

The working table 110 is a part forming the basic body of the hologram attaching device 100, that is, the card input unit 120, the card transfer unit 130, the hologram supply unit 140, the press unit ( 160, the card discharge unit 170 is installed, the press driving unit 150 is installed in the lower portion of the work table (110).

The card injecting unit 120 includes a stacking guide 121 for accommodating a plurality of plastic cards in a stacked state, and the plastic cards stacked on the stacking guide 121 are sequentially conveyed one by one. Supplied with a belt. Here, the configuration in which the plastic cards of the stacking guide 121 are sequentially supplied to the conveyor belt of the card transfer unit 130 is a sensor and the plastic cards of the stacking guide 121 are transferred to the conveyor belt one by one through the sensing function of the sensor. The pushing may be performed including a cylinder or the like. That is, the card input unit 120 may be implemented in various forms through the components used in the existing hologram attachment device.

The card transfer unit 130 transfers the plastic card supplied through the card input unit 120 to the press unit 160, and also sends the plastic card on which the hologram is stamped by the press unit 160 to the card discharge unit 180. It functions to transfer to. The card transfer unit 130 as described above includes a conveyor belt and a forward and reverse motor and rollers that provide power to the conveyor belt, as mentioned in the card input unit 120. That is, the card transfer unit 160 may be applied in various forms through the components used in the existing hologram attachment device, and thus detailed illustration and description thereof will be omitted in the present embodiment.

The hologram supply unit 140 functions to continuously supply a plurality of hologram foils sequentially to the stamping processing unit. In other words, the hologram supply unit 140 presses the hologram foils to be stamped onto a designated area of the plastic card. Feed sequentially. The hologram supply unit 140 includes a hologram roll formed by winding a hologram tape, a plurality of reels for supporting and releasing the hologram roll, and a servo motor for providing rotational power to the reels. That is, the hologram supply unit 140 may be implemented in various forms through the configuration that is used in the existing hologram attachment device, and thus detailed illustration and description thereof will be omitted in the present embodiment.

In addition, in this embodiment, the supply direction of the hologram tape through the hologram supply unit 140 is a direction perpendicular to the supply direction of the plastic card through the conveyor belt of the card transfer unit 130, but the present invention is limited thereto. The hologram foils and the plastic cards supplied separately are aligned to face each other so that various modifications can be made within a range that satisfies the conditions under which the stamping processing of the hologram foils can be performed on the designated area of the plastic card. have.

The press driving unit 150 functions to generate power for stamping the hologram foil, and the press driving unit 150 includes a servo motor 151, a worm reducer 152, and a gear box 153. In addition, the press driving unit 150 is coupled to the worktable 110 region of the lower fixing plate through the fixing bar 154.

The servo motor 151 operates so that the press die included in the press unit 160 can perform one stamping operation during one rotation, and the worm reducer 152 increases the torque of the servo motor 151. do. And the gear box 153 is to convert the output torque of the worm reducer 152 into a power for stamping processing of the press unit 160, such a gear box 153 and the shaft of the worm reducer 152 Rotating shaft and eccentric shaft, eccentric cam, bearing and up and down sensor are connected to the rotating shaft.

That is, the gearbox 153 functions to convert the rotational power transmitted through the motor and the reducer into a linear movement power, and the configuration of the gearbox 153 is a common technique used in various technical fields. Modification can be carried out in various forms.

The press unit 160 operates according to the power of the press driver 150 to function to stamp the hologram foil on the plastic card.

The card discharge unit 170 attaches the hologram in the press unit 160 and then receives the plastic card transferred through the card transfer unit 130 to temporarily store or transfer the plastic card to the shipment line.

Next, referring to FIGS. 2 to 6, the first and second tables 210 and 220 under the press unit, which is a feature of the present invention, and a table moving device and a control unit for controlling the operation and operation of the tables 210 and 220. The configuration of 250 will be described.

Figure 2 is a plan view showing the main portion of the stamping position automatic adjustment type hologram attachment device of the plastic card according to an embodiment of the present invention, Figure 3 is a side view of the main portion according to Figure 2, Figures 4 and 5 is the X axis Fig. 1 is a plan view showing the first table to be transferred, the second table to be transferred to the Y-axis, and the moving device of the two tables.

As shown in the drawing, the work surface below the press unit (see 160 of FIG. 1) for hologram stamping has an X-axis moving device 230 that is a first table 210, a second table 220, and a table moving device. Y-axis moving device 240 is installed, respectively.

In the first table 210, a plastic card for hologram stamping is placed on a predetermined area of the upper surface of the first table 210 through a card transfer unit (see 130 of FIG. 1). The first table 210 is moved in the X-axis direction along the virtual machining surface on the basis of the virtual machining surface perpendicular to the stamping machining direction of the press unit 160. Movement power is provided through the X-axis shifter.

Referring to the X-axis moving device with reference to the present embodiment, the X-axis moving device includes a servo motor 231, a ball screw 232, a guide rail 233 and a guide block 234. In addition, the X-axis moving apparatus may further include a power transmission unit 235.

The servo motor 231 generates power for the X-axis movement of the first table 210, and the ball screw 232 converts the rotational power of the servo motor 231 into linear movement power in the X-axis direction. Transfer to first table 210. Here, the power of the servo motor 231 may be in the form of being transmitted to the ball screw 232 through the power transmission unit 235. And the guide rail 233 and the guide block 234 are respectively coupled to two opposite surfaces of the first table 210 and the second table 220, X of the first table 210 by the ball screw 232 Guide the axial movement. In the present embodiment, the guide rail 233 and the guide block 234 of the X-axis moving apparatus are LM guide rails and LM guide blocks, respectively, but the present invention is not limited thereto.

The second table 220 is moved in the Y-axis direction along the virtual machining surface with the first table 210 mounted thereon, and the movement power of the second table 220 is changed to the Y-axis moving device. Is provided through.

Referring to the Y-axis moving device based on the present embodiment, the Y-axis moving device includes a servo motor 241, a ball screw 242, a guide rail 243 and a guide block 244. The servomotor 241 generates power for the Y-axis movement of the second table 220, and the ball screw 242 converts the rotational power of the servomotor 241 into linear movement power in the Y-axis direction. Transfer to second table 220. In addition, the guide rails 243 and the guide block 244 are respectively coupled to the surface on which the second table 220 and the second table 220 are installed, so that the Y-axis of the second table 220 by the ball screw 242 is provided. Guide the direction movement.

In the present exemplary embodiment, the surface on which the second table 220 is installed is an example of the working surface of the work table (see 110 in FIG. 1) including the holographic stamping surface of the press unit 160, but the present invention is not limited thereto. no.

In addition, in the present embodiment, the guide rails 243 and the guide block 244 of the Y-axis moving apparatus are LM guide rails and LM guide blocks, respectively, but the present invention is not limited thereto.

Next, referring to FIG. 6, the controller 250 controls the X-axis moving device and the Y-axis moving device and controls the X-axis movement or the Y-axis movement of the first and second tables 210 and 220. Explain.

The controller 250 receives a movement value for the X-axis movement of the X-axis movement apparatus and a movement value for the Y-axis movement of the Y-axis movement apparatus, respectively, and according to the input X-axis movement value and the Y-axis movement value, The servo motor 231 of the axis moving device and the servo motor 241 of the Y axis moving device are controlled. The first table 210 moves in the X-axis direction and the second table 220 moves in the Y-axis direction by the operation of the servomotors 231 and 241 controlled by the controller 250.

In addition, the hologram attachment device may further include a storage unit 160 in which the X-axis movement value and the Y-axis movement value according to any one or both of the type of plastic card and the type of hologram foil are pre-stored for each plastic card. have. The controller 250 may control the X-axis moving device and the Y-axis moving device according to the X-axis moving value and the Y-axis moving value pre-stored in the storage unit 260.

In other words, the control unit 250 detects the corresponding X-axis movement value and Y-axis movement value from the storage unit 260 according to the pre-stored unique code values for each plastic card, and thus detects the X-axis movement value and the Y-axis movement. The X-axis movement and the Y-axis movement of the first table 210 and the second table 220 may be controlled based on the value.

Through the configuration of the first table 210, the second table 220, the X-axis moving device, the Y-axis moving device, and the control unit 250 as described above, the corresponding position data on the basis of the hologram stamping processing position of the press die When the controller 250 is set to the controller 250, the controller 250 automatically moves the first table 210 and the second table 220 in the X and Y axis directions according to the data values set in this manner to move the plastic card to the hologram designation area. Automatically placed in the state exactly positioned under the press die. Thus, stamping of the hologram on the plastic card can always be done in the correct position.

In addition, the control unit 250 holograms the plastic card of the first table 210 while automatically moving the first table and the second table 210.220 in the X and Y axis directions according to the pre-stored data of the storage unit 260. As the designated area can be automatically positioned in the lower part of the press die, the operator can input the required signal such as a unique identification code of the plastic card to the control unit 250 through the one-touch operation of the first table 210. Hologram stamping can be performed while always placing the plastic card of) at the bottom of the press die at the correct position for stamping the hologram.

As can be seen through the embodiment of Figures 1 to 6 described above, the holographic attachment device of the automatic adjustment of the stamping position of the plastic card according to the present invention, the position data on the basis of the hologram stamping processing position of the press die When set on the equipment, the two tables arranged up and down according to the data value set up are automatically moved in the X and Y axis directions, respectively, and the plastic card is positioned so that the hologram stamping designation area is accurately positioned under the press die. Post stamping processing can be made.

In addition, the preset position data is detected based on the hologram stamping position of the press die, and the upper and lower tables are automatically moved in the X and Y axis directions according to the detected data, and the plastic card of the upper table is moved to the hologram of the lower press die. It ensures that it is always exactly at the specified position for stamping.

In addition, as the alignment operation for stamping the plastic card with respect to the hologram press die is automatically controlled according to the input position data value, compared to the conventional manual alignment method, the plastic card always accurately corrects the designated area for hologram stamping under the press mold. Position, which allows the defect rate of the holographic plastic card to be close to zero, and at the same time, the alignment of the plastic mold under the press mold can be made very easy. Productivity can be greatly improved.

What has been described above is just one embodiment for implementing the holographic attachment device of the automatic adjustment of the stamping position of the plastic card according to the present invention, the present invention is not limited to the above-described embodiment, in the claims below As claimed, any person having ordinary skill in the art without departing from the gist of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

100: hologram attachment device 110: work table
120: card insertion portion 121: stacking guide
130: card transfer unit 140: hologram supply unit
150: press driving unit 151: servo motor
152: worm reducer 153: gearbox
160: press section 170: card ejection section
210: first table 220: second table
231,241 Servo motor 232,242 Ball screw
233,243: Guide rail 234,244: Guide block
235: power transmission unit 250: control unit
260:

Claims (7)

In the hologram attaching device 100 of a plastic card for stamping the hologram foil on a designated area of the plastic card by aligning the hologram foil and the plastic card which are automatically fed automatically,
A press unit 160 for stamping the hologram foil on a designated area of the plastic card;
The first table 210 is moved in the X-axis direction along the virtual machining surface on the basis of the virtual machining surface perpendicular to the stamping machining direction of the press unit 160 and the plastic card is placed on the upper surface for stamping. );
A second table 220 moved in the Y-axis direction along the virtual machining surface with the first table 210 mounted thereon;
Table moving device for moving the first table 210 and the second table 220 in the X-axis and Y-axis direction, respectively,
The table moving device converts the rotational power of the servomotor 231 and the servomotor 231 to generate power for the X-axis movement of the first table 210 into linear movement power in the X-axis direction. The first by the ball screw 232 is coupled to the ball screw 232 to be transmitted to the first table 210 and the two opposite surfaces of the first table 210 and the second table 200, respectively Hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that it comprises a guide rail 233 and the guide block 234 for guiding the X-axis movement of the table 210. The method of claim 1,
The guide rail 233 is an LM guide rail and the guide block 234 is a hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that the LM guide block. In the hologram attaching device 100 of a plastic card for stamping the hologram foil on a designated area of the plastic card by aligning the hologram foil and the plastic card which are automatically fed automatically,
A press unit 160 for stamping the hologram foil on a designated area of the plastic card;
The first table 210 is moved in the X-axis direction along the virtual machining surface on the basis of the virtual machining surface perpendicular to the stamping machining direction of the press unit 160 and the plastic card is placed on the upper surface for stamping. );
A second table 220 moved in the Y-axis direction along the virtual machining surface with the first table 210 mounted thereon;
Table moving device for moving the first table 210 and the second table 220 in the X-axis and Y-axis direction, respectively,
The table moving device converts the rotational power of the servomotor 241 and the servomotor 241 to generate power for the Y-axis movement of the second table 220 into linear movement power in the Y-axis direction. The second table by the ball screw 242 is coupled to the ball screw 242 and the mounting surface of the second table 220 and the second table 220 to be delivered to the second table 220, respectively. Hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that it comprises a guide rail (243) and a guide block (244) for guiding the movement in the Y-axis direction of (242). The method of claim 3, wherein
The installation surface of the second table 220 is a hologram of the automatic adjustment of the stamping position of the plastic card, characterized in that the work surface of the work table 110 including the holographic foil stamping processing surface through the press unit 160. Attachment device. The method of claim 3, wherein
The guide rail (243) is a LM guide rail and the guide block (244) is a hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that the LM guide block. The method of claim 1,
A control unit 250 for automatically operating the table moving device according to the input X-axis movement value and Y-axis movement value to control the X-axis movement of the first table 210 and the Y-axis movement of the second table 220 Hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that it further comprises a). The method according to claim 6,
And a storage unit 260 in which an X-axis movement value and a Y-axis movement value according to any one or both of the plastic card and the hologram foil are pre-stored for each plastic card.
The control unit 250 detects a corresponding X-axis movement value and a Y-axis movement value according to a unique code value pre-stored for each plastic card from the storage unit, and then, based on the first table 210 and the second table 220, Hologram attachment device of the automatic adjustment of the stamping position of the plastic card, characterized in that for controlling the X-axis movement and Y-axis movement of the).

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