KR101445056B1 - Method of heating control in transfer device and apparatus thereof - Google Patents

Abstract

The present invention relates to a method for controlling heating of a transcribing device and an apparatus thereof. A control part is capable of transcribing a pattern, which is formed on a transcription film, on a printed matter through heat pressing by controlling operation of a roller; checking the current temperature of the roller by receiving temperature sensing data from a sensor for measuring the temperature of the roller performing transcribing work; controlling operation of a first heater for raising the temperature of the roller for the next transcribing work based on the amount of change in a temperature according to the current temperature of the roller; controlling operation of a second heater according to whether the roller heat pressurizes after performing operation of the first heater according to detection of the sensor; and repetitively performing until all of transcribing works of a work target printed matter are completed. Therefore, the prevent invention has an effect of optimally maintaining the temperature of the roller for performing transcribing work regardless of an amount of change in the temperature of a roller due to seasonal causes, or an amount of change in the temperature of a roller changed whenever heat is applied to a transcription film, etc.; maximally preventing failure from generating through uniform and stable operation of the transcribing device; and improving the quality of a product by accurately printing a pattern of the transcription film on a printed matter.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating control method and apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating control method and apparatus for a transfer apparatus that allows a roller for transferring a pattern formed on a transfer film to a printed matter in a heat press method to maintain a constant temperature.

In general, printing is the act of imprinting letters, photographs, etc. on paper or other printed matter for the purpose of delivering and preserving the manuscripts containing information, information, and experience, directly or indirectly, quickly, And is a planar space medium of visual transmission and type transfer, especially with eyes.

This print is to receive past knowledge and today 's information, and to make it an opportunity to pledge a better future.

In other words, printing is a communication medium with the purpose of conveying cultural heritage from past to present, from present to future. It is a commercial committee that achieves commercial purpose of providing facilities and technology, and also has a social purpose It can be said to have both sides.

Printing can be broadly classified into silk printing, colloid printing, printing, transfer printing, label printing, cellophane printing, vinyl printing, celloid printing, gravure printing, tube printing, print wiring printing and wood pattern printing.

Among them, the transfer printing will be described as follows. Generally, the meaning of transfer means transferring the transferred transfer film (or paper) to the desired printed product without directly printing.

Transcription printing is a printing method generally used when printing patterns of various colors, such as stationery and other household goods made of plastics or metals, and a transfer film on which the patterns and pictures are put is placed on a print target And the transfer film and the printed matter are pressed so as to come into close contact with each other with a mold or a roller heated to an appropriate temperature, so that the pattern of the transferred film is transferred to the printed matter.

The reason for using the transfer film at this time is that the texture of the printing is much better than the case of printing directly on a printed matter, and there is an advantage that various shapes can be displayed on an object having a curved surface.

A transfer device is used to transfer a transfer film to a print, and FIG. 1 is a schematic view of a conventional transfer device.

As shown in the drawing, the conventional transfer apparatus 10 includes a supply section 11 for supplying the transfer film 20, a recovery section 12 for recovering the transfer film 20 printed on the printed product 30, A roller 14 for printing the pattern of the transfer film 20 mounted on the lower part of the case 30 and the upper side of the printed product 30 by thermally pressing the printed product 30 onto the printed product 30; A heater 15 mounted at an interval in the case 13 to supply heat to the roller 14 and a heater control unit 16 for controlling the driving of the heater 15. [

The transfer process of the conventional transfer apparatus 10 configured as described above will be described. After the transfer film 20 is placed on the supply unit 11, one end of the transfer film 20 is placed on the recovery unit 12. Then, the printed material 30 disposed on the support is moved to the lower portion of the roller 14, and then the roller 14 is operated to heat the transfer film 20 to the printed material 30 to transfer the pattern.

The transfer film 20 remaining on the printed product 30 is recovered to the recovery unit 12 and the heater control unit 16 drives the heater 15 mounted inside the case 13. [ The temperature of the roller 14 that has exhausted the heat when the pattern of the transfer film 20 is transferred to the printed product 30 is raised by the heat transmitted from the heater 15. [

Thereafter, the print 30 disposed on the support is exchanged (or can be automatically processed by using a conveyor), and the pattern formed on the transfer film 20 is transferred to the print 30 through the thermal pressure of the roller 14 Repeat the process of transferring.

However, in the conventional transfer device as described above, when the temperature of the roller consuming heat due to the transfer operation is raised, the temperature is simply raised through the heater drive, and the optimum temperature is maintained based on the temperature change amount of the roller Therefore, there is a concern that defects may occur during the transferring operation due to the fact that the thermal pressurization is not normally performed due to the use of the rollers that fail to maintain the optimum temperature, There was a problem that it was deteriorated.

In other words, the conventional transfer device has a limitation in that the roller maintains the temperature necessary for the optimum transfer operation in consideration of various factors such as the temperature change amount of the roller due to seasonal factors and the temperature change amount of the roller that changes every time when the thermal press is performed It was.

Korea Registered Utility Model No. 20-0302546 2003. 01. 15. Korean Patent Publication No. 10-2006-0039329 2006. 05. 08.

The present invention provides a heating control method and apparatus for a transfer apparatus that allows a roller to operate at a predetermined optimum temperature when transferring a pattern formed on a transfer film through a roller in a heat press method to a printed product.

The present invention relates to a transfer device for maintaining the temperature of a roller for performing heat pressurization constantly through two-channel heater control of the heat quantity supply control depending on whether the roller for performing the proportional control in accordance with the sensor detection and the roller for operating the heat press is operated A heating control method and apparatus therefor are provided.

The heating control method of a transfer apparatus according to an embodiment of the present invention includes the steps of (1) controlling the driving of a roller to transfer a pattern formed on a transfer film to a printed matter through heat pressurization, and (2) (1), receiving the temperature sensing data from a sensor for measuring the temperature of the roller, and (3) checking the current temperature of the roller. Controlling the driving of the first heater unit for raising the temperature of the roller for the next transfer operation based on the temperature change amount according to the present temperature; and (4) Controlling the driving of the second heater unit according to whether or not the roller is thermally pressed after the driving of the first heater unit based on the temperature change amount, and (5) Stage, and it may include the step of performing repeatedly the step (1) after the transfer operation until the end.

And a control unit for controlling the driving of the first heater unit to raise the temperature of the roller in step (3), wherein the driving time and the heating value of the first heater unit are set according to the temperature variation amount of the roller stored in the storage unit, The driving time and the heating value of the first heater unit are determined, and the driving of the first heater unit can be controlled based on the determined driving time and the heating value.

When controlling the driving of the second heater unit to raise the temperature of the roller in step (4), the driving time and the heating value of the second heater unit are controlled in accordance with the heat pressing operation or stop of the roller stored in the storage unit The driving time and the heat generation amount of the second heater section are determined with reference to the set table, and the driving of the second heater section can be controlled based on the determined drive time and the heat generation amount.

The heating control device of the transfer device according to an embodiment of the present invention includes a case and a case which is mounted on a lower portion of the case and which is pressed against the transfer film positioned on the upper side of the printed matter to be subjected to the transfer operation, A sensor for detecting the surface temperature of the roller mounted on the inside of the case and performing a transfer operation; a sensor mounted on the inside of the case at intervals to detect a change in temperature of the roller, A second heater unit mounted in the case with a gap therebetween to supply heat to the roller in accordance with whether the roller is thermally pressed after the driving of the first heater unit, And the pattern formed on the transfer film is transferred to the printed material by controlling the driving. Based on the temperature sensing data sensed by the sensor, the current temperature of the roller which has performed the transfer operation is confirmed, The control unit controls the driving of the first heater unit for raising the temperature of the roller for performing the next transfer operation based on the temperature change amount according to the current temperature of the sensed roller, And a control unit for controlling driving of the second heater unit for raising the temperature.

The heating control device of the transfer device according to an embodiment of the present invention includes a table in which a driving time and a heating value of the first heater are set according to a temperature change amount of the roller, And a storage unit for storing a table in which driving time and heat generation amount are set.

The control unit determines a driving time and a heating value of the first heater unit by referring to a table in which the driving time and the heating value of the first heater unit are set according to the temperature variation of the roller stored in the storage unit, The drive time and the heat generation amount of the second heater section are determined with reference to the table in which the driving time and the heat generation amount of the second heater section are set in accordance with the heat pressing operation or stop of the roller stored in the storage section after the driving of the first heater section And the drive of the second heater unit can be controlled based on the determined drive time and heat generation amount.

As described above, according to the heating control method and apparatus of the transfer device of the present invention, when the pattern formed on the transfer film is thermally pressurized by the roller and transferred to the printed product, The temperature of the roller can be maintained at an optimum level irrespective of the amount of change in the temperature of the roller due to seasonal factors or the amount of change in the temperature of the roller that changes every time the thermal press is performed on the transfer film, As a result, the occurrence of defective transfer operations can be suppressed as much as possible.

In addition, since the temperature of the roller is kept constant through the proportional control according to the sensor detection and the two-channel heater control of the heat quantity supply control depending on whether the roller performing the heat press operation is performed, the transfer device can be driven uniformly and stably And the pattern of the transfer film is accurately printed on the printed product, thereby enhancing the quality of the product.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a conventional transfer apparatus.
FIG. 2 is a view schematically showing a configuration of a heating control apparatus of a transfer apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of the method for controlling the heating of the transfer apparatus according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a heating control method and apparatus of a transfer apparatus of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated with like reference numerals throughout the specification.

FIG. 2 is a view schematically showing a configuration of a heating control apparatus of a transfer apparatus according to an embodiment of the present invention.

As shown in the figure, the apparatus of the present invention includes a transfer apparatus 100, a transfer film 200, and a printed matter 300. The transfer device 100 includes a supplying unit 110, a collecting unit 120, a case 130, a roller 140, a sensor 150, a first heater unit 160, a second heater unit 170, (180), a storage unit (190), and the like.

The supply unit 110 is a part that performs the function of supplying the transfer film 200, and is generally formed of a roller.

The recovery unit 120 is a part that performs a function of recovering the remaining transfer film 200 printed on the printed material 300 and is generally constituted of rollers like the supply unit 110. [

The case 130 is formed with a heat discharging part 131 for discharging the heat generated from the first heater part 160 and the second heater part 170 provided in the upper part while the lower part is opened .

The roller 140 is mounted so that a part of the roller 130 is exposed at a lower portion of the case 130 and the transfer film 200 located on the upper side of the printed material 300 to be transferred is heat- .

The sensor 150 is mounted on the inside of the case 130 (preferably the inner wall surface of the case 130 located behind the roller 140), and the surface temperature of the roller 140, And outputs the sensed data to the control unit 180. At this time, the sensor 150 can use any known sensor such as a laser system or an infrared system.

The first heater unit 160 is installed in the case 130 with a gap therebetween and supplies heat to the roller 140 based on the control of the controller 180 according to the detection of the sensor 150. That is, since the surface temperature of the roller 140 that has completed the transfer operation falls, it is necessary to raise the temperature to a temperature necessary for the optimal transfer operation before the next transfer operation. To this end, And the heat is supplied to the roller 140 proportionally according to the temperature change amount of the roller 140 sensed by the temperature sensor 150.

The second heater unit 170 is installed in the interior of the case 130 with an interval (preferably located behind the first heater unit 160 with respect to the direction in which the roller 140 moves) After the heater unit 160 is driven, heat is supplied to the roller 140 based on the control of the controller 180 in response to the heat pressing operation or the stop. That is, when the roller 140 whose temperature is first raised by the first heater unit 160 moves for the next transfer operation, the temperature may be changed by an external environment or the like. Therefore, in order to continuously maintain the optimum temperature, And supplies heat to the roller roller 140.

At this time, the first heater unit 160 is driven in proportion to the temperature change amount (e.g., a temperature change of several degrees Celsius) of the roller 140 sensed by the sensor 150, The controller 170 controls the amount of heat (for example, 20 Kcal in the thermal pressing operation, and 10 Kcal in the other cases) to the roller 140 according to whether the roller 140 is thermally or thermally pressurized And is driven to supply the same.

The control unit 180 controls the thermal pressing operation of the roller 140 to transfer the pattern formed on the transfer film 200 to the printed material 300. [ After receiving the temperature sensing data from the sensor 150 after the transfer operation, the controller 150 checks the current temperature of the roller 140 that has performed the transfer operation based on the temperature sensing data sensed by the sensor 150, And controls the driving of the first heater unit 160 for raising the temperature of the roller 140 for performing the next transfer operation based on the temperature change amount according to the current temperature of the sensed roller 140. [ At the same time, the controller controls driving of the second heater unit 170 to increase the temperature of the roller 140 based on whether the roller 140 is thermally pressed or not after the first heater unit 160 is driven.

That is, the controller 180 refers to the table in which the driving time and the heat generation amount of the first heater unit 160 are set according to the temperature change amount of the roller 140 stored in the storage unit 190, And controls the driving of the first heater unit 160 on the basis of the determined driving time and the amount of heat generated by the first heater unit 160. The roller 140 stored in the storage unit 190 after the first heater unit 160 is driven, The driving time and the heat generation amount of the second heater unit 170 are determined with reference to the table in which the driving time and the heat generation amount of the second heater unit 170 are set in accordance with the heat press operation or the stop of the second heater unit 170, And the driving of the second heater unit 170 is secondarily controlled.

The storage unit 190 includes a table in which the driving time and the amount of heat generated by the first heater unit 160 are set according to the temperature variation of the roller 140 and the table in which the second heater unit 170, and a drive program for controlling the thermal pressing operation of the transfer apparatus are stored.

Next, an embodiment of the heating control method of the transfer apparatus according to the present invention constructed as above will be described in detail with reference to FIG. At this time, each step according to the method of the present invention may be changed in the use environment or the order by a person skilled in the art.

3 is a flowchart illustrating an operation of the method for controlling the heating of the transfer apparatus according to an exemplary embodiment of the present invention.

First, after the transfer film 200 is placed on the supply unit 110 and one end of the transfer film 200 is mounted on the recovery unit 120, the printed matter 300 arranged on the support is transferred to the lower side of the roller 140 (S100).

Then, the control unit 180 controls the driving of the roller 140 to transfer the pattern formed on the transfer film 200 to the printed material 300 through the thermal pressurization (S200).

The transfer film 200 printed on the printed product 300 as the transfer operation of step S200 is performed is returned to the recovery unit 120 and the sensor 150 provided in the case 130 performs the transfer operation After sensing the temperature of the roller 140, the temperature sensing data is transmitted to the controller 180 (S300).

The control unit 180 confirms the current temperature of the roller 140 that performed the transfer operation based on the temperature sensing data input from the sensor 150 in step S300 and confirms the temperature change amount of the roller 140 before and after the transfer operation S400).

The control unit 180 controls the temperature of the first heater unit 160 to raise the temperature of the roller 140 for the next transfer operation based on the temperature change amount information according to the current temperature of the roller 140, The driving conditions (i.e., the driving time and the heating value) are determined (S500), and the driving of the first heater unit 160 is controlled according to the determined driving conditions (S600).

That is, when the control unit 180 controls the driving of the first heater unit 160 to raise the temperature of the roller 140 to the first level, the control unit 180 controls the temperature of the roller 140 according to the temperature change amount of the roller 140 stored in the storage unit 190 The driving time and the amount of heat generated by the first heater unit 160 are determined with reference to the table in which the driving time and the amount of heat generated by the first heater unit 160 are set, And controls driving.

After controlling the driving of the first heater unit 160 according to the sensor detection in step S600, the controller 180 controls the driving condition of the second heater unit 170 according to the heat pressing operation of the roller 140 Driving time and heat generation amount) (S700), and controls driving of the second heater unit 170 according to the determined driving condition (S800).

That is, when the controller 180 controls the driving of the second heater unit 170 to control the temperature of the roller 140 to the second level, the controller 180 controls the heating operation of the roller 140 stored in the storage unit 190 The drive time and the heat generation amount of the second heater unit 170 are determined with reference to the table in which the driving time and the heat generation amount of the second heater unit 170 are set in accordance with the stop, 170 in response to the control signal.

The rollers 140 that have exhausted the heat when transferring the pattern of the transfer film 200 to the printed material 300 are moved to the first heater unit 160 and the second heater unit 160 by the two- The temperature can be raised by the heat transmitted from each of the heaters 170 and 170, thereby maintaining the optimum temperature necessary for the transfer operation.

Finally, after controlling the driving of the second heater unit 170 through step S800, the controller 180 determines whether the transfer operation of the work 300 is completed (S900), and the transfer operation is terminated Repeat step S100 and thereafter. That is, the process of transferring the pattern formed on the transfer film 200 to the printed material 300 through the thermal pressure of the roller 140 while replacing the printed material 300 disposed on the support until the transferring operation is completed is repeatedly performed .

As described above, according to the present invention, the roller can maintain the optimum temperature regardless of the temperature change amount of the roller due to seasonal factors or the temperature change amount of the roller, which changes every time the heat is applied to the transfer film.

In addition, since the roller maintains a constant temperature through the control of the two channels of the heater, the transfer device can be uniformly and stably driven, so that the pattern of the transfer film can be accurately printed on the printed product to enhance the quality of the product.

It will be apparent to those skilled in the art that various modifications may be made to the invention without departing from the spirit and scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: transfer device 110: supply part
120: recovery unit 130: case
131: heat discharging part 140: roller
150: sensor 160: first heater section
170: second heater unit 180:
190: storage part 200: transfer film
300: printed matter

Claims (6)

(1) The control unit controls the driving of the rollers to transfer the pattern formed on the transfer film to the printed matter through heat pressurization,
(2) The control unit receives the temperature sensing data from the sensor for measuring the temperature of the roller that has performed the transfer operation through the step (1), and confirms the current temperature of the roller,
(3) The control unit controls the driving of the first heater unit for raising the temperature of the roller for the next transfer operation based on the temperature change amount in accordance with the present temperature of the roller, which is checked in the step (2)
(4) The control unit controls the driving of the second heater unit according to whether the roller is thermally pressed after performing the driving of the first heater unit based on the temperature change amount of the roller according to the sensor detection through the step (3) And
(5) The control unit judges whether or not all the transfer jobs of the printed material to be worked have been completed, and repeats the above step (1) and thereafter until the transfer operation is completed
And controlling the heating of the transfer device. The method according to claim 1,
When controlling the driving of the first heater unit to raise the temperature of the roller in the controller through step (3)
Determining a drive time and a heat generation amount of the first heater unit with reference to a table in which a drive time and a heat generation amount of the first heater unit are set according to a temperature change amount of the roller stored in the storage unit, And controlling the driving of the first heater unit. The method according to claim 1,
When controlling the driving of the second heater unit to raise the temperature of the roller in the controller through step (4)
The driving time and the calorific value of the second heater unit are determined by referring to the table in which the driving time and the calorific value of the second heater unit are set in accordance with the thermal pressurization operation or the stoppage of the roller stored in the storage unit, And controlling the driving of the second heater unit based on the detected temperature. case,
A roller mounted on a lower portion of the case and forming a pattern on the printed material by thermally pressing a transfer film positioned on an upper side of the printed matter to be subjected to a transfer operation,
A sensor mounted inside the case for sensing the surface temperature of the roller that performs the transfer operation,
A first heater unit mounted at an interval in the case and supplying heat to the roller based on a temperature change amount of the roller upon sensing of the sensor,
A second heater unit mounted at an interval in the case and supplying heat to the roller according to whether the roller is thermally pressed after the first heater unit is driven,
The control unit controls the thermal press driving of the rollers to transfer the pattern formed on the transfer film to the printed material and confirms the current temperature of the roller that performed the transfer operation based on the temperature sensing data sensed by the sensor, Controls the driving of the first heater unit to raise the temperature of the roller for performing the next transfer operation based on the temperature change amount according to the current temperature of the roller, A controller for controlling the driving of the second heater unit for raising the temperature of the roller based on the control signal
And a controller for controlling the heating of the transfer device. 5. The method of claim 4,
A table in which a driving time and a heating value of the first heater are set in accordance with a temperature change amount of the roller and a table in which a driving time and a heating value of the second heater are set in accordance with a heat- Further comprising: a heating unit for heating the transfer device. 6. The method of claim 5,
Wherein,
Determining a drive time and a heat generation amount of the first heater unit with reference to a table in which the drive time and the heat generation amount of the first heater unit are set according to a temperature change amount of the roller stored in the storage unit, Controls driving of the heater section,
The drive time and the amount of heat generated by the second heater unit are determined with reference to a table in which the drive time and the heat generation amount of the second heater unit are set in accordance with the heat pressing operation or stop of the roller stored in the storage unit after the driving of the first heater unit And controls the driving of the second heater section based on the determined driving time and heat generation amount.

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