Patent Grant
11504976
This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2020-149666, filed on Sep. 7, 2020, the entire contents of which are incorporated herein by reference.
At least one embodiment described herein relates generally to a mobile printer.
In a related art, there is a printer that forms an image on a recording medium with ink containing a thermochromic colorant. The thermochromic colorant changes color by being heated to a predetermined temperature or higher. For example, an image formed by a printer on a recording medium with ink containing a thermochromic colorant is decolorized by a decolorizing apparatus. As the decolorizing apparatus, there is an apparatus that decolorizes the thermochromic colorant on the recording medium by heating the entire recording medium. The decolorizing apparatus that heats the entire recording medium has a problem of not being able to selectively decolorize only a region designated by a user.
There is a decolorizing instrument that decolorizes the thermochromic colorant by frictional heat generated by rubbing the recording medium with a dedicated member such as rubber provided at a rear end of a pen or an end of a cap for the pen. Such a decolorizing instrument has a problem that accurately checking a position where the decolorizing instrument decolorizes is not easy.
The user of the mobile printer may want to decolorize the thermochromic colorant on the recording medium before printing. In order to decolorize the thermochromic colorant on the recording medium before printing, a mobile printer provided with a decolorizing device is required. As the decolorizing device provided in the mobile printer, a device that can decolorize the thermochromic colorant while the user can accurately check the position on the recording medium is desired.
At least one embodiment provides a mobile printer including a device that allows a user to easily check the location to be decolorized.
In general, according to at least one embodiment, there is provided a mobile printer including a casing, a sensor, a print head, an interface, a controller, and a decolorizing device. The casing includes a power supply. The sensor detects the movement of the casing. The print head discharges ink containing a thermochromic colorant. The interface acquires image data. The controller causes the ink to be discharged from the print head based on the image data acquired by the interface and the movement of the casing detected by the sensor. The decolorizing device is attached to the casing and includes a translucent film in which heat is generated by an applied voltage and a translucent substrate that is heated to a temperature at which the thermochromic colorant is decolorized by the heat generated in the translucent film. As utilized herein, the term “translucent” describes an ability to permit passage of light, such as without appreciable scattering. As utilized herein, a “translucent” body is one through which light may pass. For example, light may pass through a “translucent” body without appreciable scattering so that bodies lying beyond the body are seen clearly. As utilized herein, the term “translucent” includes the term “transparent.” Thus, a body that is described herein as being “translucent” may be “transparent.”
Hereinafter, at least one embodiment will be described with reference to the accompanying drawings.
A mobile printer according to at least one embodiment includes a decolorizing device that decolorizes a thermochromic colorant. In at least one embodiment, as an example of the mobile printer including a decolorizing device, a mobile printer including a decolorizing device for decolorizing the thermochromic colorant on a recording medium will be described. In at least one embodiment, decoloration refers to applying heat to the thermochromic colorant to change a color thereof from a color that is visible to humans to a translucent color that is not visible to humans.
First, a configuration of the mobile printer according to at least one embodiment will be described.
In the configuration examples illustrated in
The decolorizing device 11 is a translucent device that decolorizes the thermochromic colorant. The decolorizing device 11 is configured so that the top of the recording medium can be seen through when pressed against the recording medium. That is, the decolorizing device 11 is configured so that the user can directly see the portion pressed for decolorizing the thermochromic colorant. The decolorizing device 11 includes, for example, a translucent substrate 21 (e.g., see
The casing 10 is a casing to which each part such as the decolorizing device 11, the power button 13, the temperature switching button 14, and the heating button 15 is attached. The print head 12, the rollers 17 and 18, and the sensor 19 are provided in the casing 10. A controller 30 (e.g., see
The casing 10 is a handle that the user grips. The user moves the bottom surface of the gripped casing 10 on the recording medium. The mobile printer 1 decolorizes the thermochromic colorant on the recording medium or forms an image on the recording medium by moving (scanning) the casing 10 on the recording medium by the user.
The casing 10 is provided with a support mechanism 101 that holds the decolorizing device 11 in a decolorizing position or an accommodating position.
The support mechanism 101 includes a lock mechanism that locks the decolorizing device 11 at the decolorizing position or the accommodating position. The lock mechanism included in the support mechanism 101 may be any lock mechanism that can be locked or unlocked by user operation. For example, the decolorizing device 11 locked at the decolorizing position is unlocked and moved to the accommodating position by the user moving the casing 10 so as to be folded with respect to the casing 10. The decolorizing device locked at the accommodating position is unlocked and moved to the decolorizing position by an operation of the user.
At the decolorizing position illustrated in
In the accommodating position illustrated in
The mobile printer 1 is configured so that power can be supplied to the decolorizing device 11 located at the decolorizing position and power cannot be supplied to the decolorizing device 11 located at the accommodating position. The decolorizing device 11 is electrically connected to the controller 30 (see
The support mechanism 101 is not limited to a mechanism that rotates the decolorizing device 11 with respect to the casing 10. The support mechanism 101 may be any mechanism as long as the mechanism can hold the decolorizing device 11 at the decolorizing position and the accommodating position. For example, the support mechanism 101 may be a mechanism that slides the decolorizing device 11 to be accommodated in the accommodating position in the casing 10. The support mechanism 101 may be a mechanism capable of removing the decolorizing device 11.
The print head 12 forms an image on the recording medium. For example, the print head 12 is an inkjet head. In at least one embodiment, the print head 12 discharges ink made of a thermochromic colorant. However, the print head 12 may selectively discharge the ink of the thermochromic colorant and other inks. The print head 12 is attached to the casing 10 so as to discharge ink onto the recording medium from the bottom surface of the casing 10.
The print head 12 is configured to print a plurality of pixels in the main scanning direction. A width (e.g., print width) to be printed by the print head 12 in the main scanning direction and a width (e.g., decolorizing width) to be decolorized by the decolorizing device 11 in the main scanning direction are formed to be the same width.
In the configuration example illustrated in
The decolorizing device 11 may be provided on both sides of the casing 10 so as to sandwich the print head 12. For example, in the example illustrated in
The rollers 17 and 18 are provided on the bottom surface of the casing 10. The rollers 17 and 18 rotate in a direction (e.g., sub-scanning direction) perpendicular to the main scanning direction of the print head 12. The rollers 17 and 18 regulate the moving direction of the casing 10 to the sub-scanning direction when the bottom surface of the casing 10 moves to the recording medium.
The sensor 19 detects the movement of the casing 10. The sensor 19 detects an amount of movement in the sub-scanning direction. For example, the sensor 19 may detect the amount of movement in the sub-scanning direction by detecting an amount of rotation of the roller 17 or the roller 18. The sensor 19 may be an acceleration sensor or the like.
The power button 13, the temperature switching button 14, the heating button 15, and the print button 16 are disposed side by side on the upper surface of the casing 10. The power button 13, the temperature switching button 14, the heating button 15, and the print button 16 may be provided anywhere in the casing 10 as long as the buttons are in a position where the user can press the buttons.
The power button 13 is a button for switching ON and OFF of the power. The mobile printer 1 switches ON and OFF of the power according to the state of the power button 13. For example, the mobile printer 1 may be turned ON in a state where the power button 13 is pressed in. The mobile printer 1 may switch ON and OFF of the power depending on the number of times the power button 13 is pressed. The mobile printer 1 may switch ON and OFF of the power according to the time during which the power button 13 is pressed.
The temperature switching button 14 is a button for designating a set temperature of the decolorizing surface in the decolorizing device 11. For example, in a state where the temperature switching button 14 is pressed in, the decolorizing surface of the decolorizing device 11 is set to be a first temperature. In a state where the temperature switching button 14 is not pressed in, the decolorizing surface of the decolorizing device 11 is set to a second temperature different from the first temperature.
The heating button 15 is a button for switching ON and OFF of heating to the decolorizing surface of the decolorizing device 11. For example, the decolorizing device 11 is controlled to heat the decolorizing surface while the heating button 15 is pressed. When the heating button 15 is not pressed, the decolorizing device 11 is controlled to turn OFF heating to the decolorizing surface. The heating button 15 may include a mechanism for holding the heating button 15 in a pressed state. By holding the heating button 15 in the pressed state, the decolorizing device 11 is kept in a continuous state of heating the decolorizing surface.
The print button 16 is a button for switching ON and OFF of image formation by the print head 12. For example, when the print button 16 is pressed, the print head 12 is controlled to print image data according to the movement of the casing 10. While the print button 16 is pressed, the print head 12 is controlled to form an image according to the movement of the casing 10. When the print button 16 is not pressed, the print head 12 may be controlled so as not to discharge ink from the print head 12.
A mobile printer 2 illustrated in
The mobile printer 2 is configured so that a region to be printed by the print head 12 and a region to be decolorized by the decolorizing device 11 do not overlap when the casing 10 is moved in the sub-scanning direction. However, as illustrated in
In the example illustrated in
Next, the configuration of the decolorizing device 11 included in the mobile printer 1 or 2 according to at least one embodiment will be described.
As illustrated in
The translucent substrate 21 is a translucent substrate such as a glass substrate or a PET film. The translucent film 22 is a translucent film having conductivity such as an indium tin oxide (ITO) film. The translucent film 22 has electrical resistance (sheet resistance). For example, the translucent film 22 is formed on the translucent substrate 21 by vapor deposition.
The first electrode 231 and the second electrode 232 are connected to the translucent film 22. The translucent insulating layer 24 such as a glass cover is formed on the translucent film 22 to which the electrodes 23 are connected. The first electrode 231 and the second electrode 232 are connected to a heater drive circuit 35 (see
Next, a configuration of a control system in the mobile printer 1 or 2 will be described.
As illustrated in
The controller 30 controls the driving of the mobile printer 1 or 2 according to the state of each of the buttons 13 to 16. The battery 40 provides energy for heating the heat source of the decolorizing device 11. The battery 40 is a rechargeable secondary battery built in the casing 10. The casing 10 may be provided with a battery box to and from which a battery as the battery 40 can be attached and detached.
The controller 30 includes a processor 31, a ROM 32, a RAM 33, a communication interface (I/F) 34, the heater drive circuit 35, a head drive circuit 36, an interface 37, and a sensor circuit 38. Power is supplied to the controller 30 from the battery 40. The mobile printer 1 or 2 may be provided with an interface for supplying power for charging to the battery 40.
The processor 31 controls each unit and the like. The processor 31 is, for example, a CPU. The processor 31 executes a program for controlling each part. The processor 31 is connected to the ROM 32, the RAM 33, the communication interface (I/F) 34, the heater drive circuit 35, the head drive circuit 36, the interface 37, and the sensor circuit 38 via a bus. The ROM 32 is a non-volatile memory for storing a program. The RAM 21 is a working memory that temporarily stores data.
The communication interface 34 is an interface for communicating with an external device. For example, the communication interface 34 acquires image data of an image formed on the recording medium by the print head 12. The communication interface 34 may acquire a control signal from the external device.
The heater drive circuit 35 includes a circuit that drives the decolorizing device 11. The heater drive circuit 35 controls the driving of the decolorizing device according to a control signal from the processor 31. For example, the heater drive circuit 35 applies a voltage of a value designated by the processor 31 according to the set temperature between the electrodes 231 and 232 (translucent film 22).
The head drive circuit 36 includes a circuit that drives the print head 12. The head drive circuit 36 controls driving of the print head 12 according to the control signal from the processor 31. For example, the head drive circuit 36 drives the print head 12 according to the control signal from the processor 31.
The interface 37 connects the buttons 13 to 16. The processor 31 acquires a signal indicating the state of each of the buttons 13 to 16 via the interface 37.
The sensor circuit 38 acquires a detection signal of the sensor 19. For example, the sensor circuit 38 supplies a signal indicating the amount of movement in the sub-scanning direction detected by the sensor 19 to the processor 31.
Next, a relationship between a voltage to be applied to the translucent film 22 of the decolorizing device 11 and a temperature occurring on the surface of the translucent substrate 21 of the decolorizing device 11 will be described.
In at least one embodiment, it is assumed that the mobile printer 1 or 2 can set two kinds of temperatures as the temperature of the translucent substrate 21. The processor 31 of the controller 30 sets the temperature of the translucent substrate 21 according to the state of the temperature switching button 14. As illustrated in
For example, the temperature set by the temperature switching button 14 is switched according to the object to be decolorized. Some thermochromic colorants have different decolorizing temperatures for decolorizing (decolorizing). As a specific example, it is assumed that a first colorant is decolorized at a temperature higher than a first decolorizing temperature and a second colorant is decolorized at a second decolorizing temperature higher than the first decolorizing temperature. In this case, at a temperature equal to or higher than the first decolorizing temperature and lower than the second decolorizing temperature, the second colorant is not decolorized but the first colorant is decolorized. At a temperature equal to and higher than the second decolorizing temperature, both the second colorant and the first colorant are decolorized. The user can designate either a setting for decolorizing the first colorant without decolorizing the second colorant or a setting for decolorizing both the first colorant and the second colorant with the temperature switching button 14.
Actually, the thermochromic colorant on the recording medium is decolorized by heat applied to the recording medium from the surface of the translucent substrate 21. For that reason, the user may switch the setting of temperature with the temperature switching button 14 according to the situation to be used. For example, when the user wants to quickly move the decolorizing device 11 to decolorize the thermochromic colorant on the recording medium, the user may set the temperature higher with the temperature switching button 14. When the user does not want to give the recording medium as high a temperature as possible, the user may set the temperature lower with the temperature switching button 14 to slowly move the decolorizing device 11.
Next, the operations of the mobile printers 1 and 2 according to at least one embodiment will be described.
Here, it is assumed that the mobile printers 1 and 2 have a decolorizing mode and a decolorizing and printing mode as operation modes. The decolorizing mode is an operation mode in which decolorizing processing is performed by the decolorizing device 11 without printing by the print head 12. The decolorizing and printing mode is an operation mode in which the print head 12 prints on the region which has been decolorized by the decolorizing device 11.
First, the operation in the decolorizing mode of the mobile printers 1 and 2 will be described.
When it is determined that the operation mode is the decolorizing mode (YES in ACT 11), the processor 31 of the controller 30 determines whether the decolorizing device 11 is in a usable state (ACT 12). For example, when the decolorizing device 11 is in the decolorizing position as illustrated in
When it is determined that the decolorizing device 11 is in the unusable state (NO in ACT 12), the processor 31 waits for the decolorizing device 11 to become the usable state. The mobile printer 1 may be provided with an indicator such as an LED indicating whether the decolorizing device 11 is in the usable state or the unusable state. When it is determined that the decolorizing device 11 is in the unusable state, the processor 31 may cause the indicator to indicate that the decolorizing device 11 is in the unusable state.
When it is determined that the decolorizing device 11 is in the usable state (YES in ACT 12), the processor 31 sets the temperature of the translucent substrate 21 having the decolorizing surface according to the state of the temperature switching button 14 (ACT 13). For example, the processor 31 detects the state of the temperature switching button 14. When the temperature switching button 14 is in the state of designating the first temperature, the processor 31 sets a voltage value corresponding to the first temperature in the heater drive circuit 35 as a voltage value to be applied to the decolorizing device 11. When the temperature switching button 14 is in the state of designating the second temperature, the processor 31 sets a voltage value corresponding to the second temperature in the heater drive circuit 35 as a voltage value to be applied to the decolorizing device 11.
After setting the temperature according to the state of the temperature switching button 14, the processor 31 determines whether or not to heat the translucent substrate 21 of the decolorizing device 11 (ACT 13). For example, the processor 31 determines to heat the translucent substrate 21 if the heating button 15 is pressed, and determines not to heat the translucent substrate 21 if the heating button 15 is not pressed. In this case, the processor 31 detects the state of the heating button 15 and determines whether or not to heat the translucent substrate 21 according to the state of the heating button 15.
When it is determined to heat the translucent substrate 21 (YES in ACT 14), the processor 31 applies a voltage of a value set according to the state of the temperature switching button 14 to the electrodes 231 and 232 (translucent film 22) of the decolorizing device 11 (ACT 15). For example, the processor 31 causes a voltage to be applied to the electrodes 231 and 232 from the heater drive circuit 35 in which the voltage value to be applied is set according to the state of the temperature switching button 14.
When it is determined not to heat the translucent substrate 21 (NO in ACT 14), the processor 31 cuts off the voltage applied to the electrodes 231 and 232 of the decolorizing device 11 (ACT 16). For example, the processor 31 stops the application of the voltage from the heater drive circuit 35 to the electrodes 231 and 232 of the decolorizing device 11.
While the operation mode is the decolorizing mode (NO in ACT 17), the processor 31 repeatedly executes the processing of ACTs 12 to 16. When the power OFF is instructed through the power button 13 or when a change to an operation mode other than the decolorizing mode is instructed, the processor 31 determines to terminate the decolorizing mode. When it is determined to terminate the decolorizing mode (YES in ACT 17), the processor 31 ends the operation in the decolorizing mode.
As described above, the mobile printer according to at least one embodiment has the decolorizing mode for decolorizing the thermochromic colorant on the recording medium using the decolorizing device with respect to the recording medium. Since the decolorizing device is translucent, the user can move the casing while checking the place to be decolorized, and decolorizing the desired region can be surely performed.
Next, the operation in the decolorizing and printing mode of the mobile printer 1 will be described.
When it is determined that the operation mode is the decolorizing and printing mode (YES in ACT 31), the processor 31 of the controller 30 determines whether the decolorizing device 11 is in a usable state (ACT 32). For example, when the decolorizing device 11 is in the decolorizing position as illustrated in
When it is determined that the decolorizing device 11 is in the unusable state (NO in ACT 32), the processor 31 waits for the decolorizing device 11 to become the usable state.
When it is determined that the decolorizing device 11 is in the usable state (YES in ACT 32), the processor 31 sets the temperature of the translucent substrate 21 having the decolorizing surface according to the state of the temperature switching button 14 (ACT 33). For example, the processor 31 detects the state of the temperature switching button 14. When the temperature switching button 14 is in the state of designating the first temperature, the processor 31 sets a voltage value corresponding to the first temperature in the heater drive circuit 35 as a voltage value to be applied to the decolorizing device 11. When the temperature switching button 14 is in the state of designating the second temperature, the processor 31 sets a voltage value corresponding to the second temperature in the heater drive circuit 35 as a voltage value to be applied to the decolorizing device 11.
After setting the temperature according to the state of the temperature switching button 14, the processor 31 determines whether or not to heat the translucent substrate 21 of the decolorizing device 11 (ACT 33). For example, the processor 31 detects the state of the heating button 15 and determines whether or not to heat the translucent substrate 21 according to the state of the heating button 15.
When it is determined to heat the translucent substrate 21 (YES in ACT 34), the processor 31 applies a voltage of a value set according to the state of the temperature switching button 14 to the electrodes 231 and 232 (translucent film 22) of the decolorizing device 11 (ACT 35). The processor 31 applies the voltage of the set voltage value to the translucent film 22 of the decolorizing device 11 using the heater drive circuit 35.
When it is determined not to heat the translucent substrate 21 (NO in ACT 34), the processor 31 cuts off the voltage to be applied to the electrodes 231 and 232 of the decolorizing device 11 (ACT 36). The processor 31 stops the application of the voltage from the heater drive circuit 35 to the translucent film 22 of the decolorizing device 11.
In the decolorizing and printing mode, the processor 31 acquires image data to be printed on the recording medium using the print head 12 through the communication interface 34 (ACT 37). The processor 31 stores the image data acquired through the communication interface 34 in a memory such as the RAM 33. In the decolorizing and printing mode, the processor 31 detects the movement of the casing 10 based on the detection signal of the sensor 19 (ACT 38). For example, the processor 31 acquires the detection signal of the sensor 19 by the sensor circuit 38. The processor 31 detects the amount of movement of the casing 10 in the sub-scanning direction with respect to the main scanning direction of the print head 12, based on the detection signal of the sensor 19 acquired by the sensor circuit 38.
The processor 31 determines whether or not the casing 10 is moved in the sub-scanning direction. When the movement of the casing 10 in the sub-scanning direction is detected (YES in ACT 39), the processor 31 prints the image data on the recording medium using the print head 12. The processor 31 drives the print head 12 by the head drive circuit 36 according to the detected movement amount in the sub-scanning direction and the image data. The head drive circuit 36 causes ink containing a thermochromic colorant to be discharged from each pixel of the print head 12 according to the control from the processor 31.
Here, in the mobile printer 1 illustrated in
The processor 31 monitors whether or not the printing of the image based on the image data acquired via the communication interface 34 was completed (ACT 41). When it is determined that the printing of the image based on the acquired image data is not completed (NO in ACT 41), the processor 31 repeatedly executes the processing of ACTs 32 to 40. When it is determined that the printing of the image based on the image data was completed (YES in ACT 41), the processor 31 ends the printing of the image in the decolorizing and printing mode.
As described above, the mobile printer according to at least one embodiment has the decolorizing and printing mode in which the decolorizing device prints an image on the recording medium with the print head while decolorizing the thermochromic colorant. Since the decolorizing device is translucent, the user can move the casing while checking the place to be decolorized, and decolorizing and printing to a desired region can be performed in one operation.
The mobile printer according to at least one embodiment may have a configuration in which the decolorizing device is disposed upstream of the print head in the sub-scanning direction. In the mobile printer having such a configuration, by moving the casing in the sub-scanning direction by the user, the image can be printed by the print head on the region after having been decolorized by the decolorizing device.
The mobile printer according to at least one embodiment may be configured so that the decolorizing width of the decolorizing device 11 and the print width of the print head 12 in the main scanning direction are the same. In the mobile printer having such a configuration, the region to be decolorized by the decolorizing device and the region to be printed by the print head can be the same region when the casing moves in the sub-scanning direction.
While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. Indeed, the novel embodiments described herein may be embodied in a variety of other forms. Furthermore, various omissions, substitutions and changes in the form of the embodiments described herein may be made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the inventions.
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|---|---|---|---|
| JP2020-149666 | Sep 2020 | JP | national |
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| Number | Date | Country | |
|---|---|---|---|
| 20220072868 A1 | Mar 2022 | US |
