JP2008132647A - Printer system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer system which can decrease consumption of electric power stored in a battery by using a solar cell in a small-sized portable printer driven by the battery. <P>SOLUTION: The solar cell 30 is provided on the surface of an attaching implement 20 for mounting the portable printer 10 on a body, and the batteries (a first battery 13 and a second battery 14) for driving the portable printer 10 are charged by the electric power generated by the solar cell 30. Either the first battery 13 or the second battery 14 whose amount of storage of electricity is less is charged by the electric power generated by the solar cell 30. When operation of the portable printer 10 is indicated, the portable printer 10 is driven by the electric power stored in either of the first battery 13 or the second battery 14 whose amount of storage of electricity is more. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a printer system including a portable printer and a mounting tool for mounting the portable printer on the body, and more particularly to a printer system including a portable printer driven by a battery and the mounting tool.

  For the purpose of reducing power consumption, a technique has been proposed in which a solar cell is attached to a cover of a printer and electric power generated by the solar cell is used (see, for example, Patent Document 1).

  However, since the conventional technique requires an area for attaching a solar cell to the printer casing, it can be applied only to a relatively large printer, and is driven by, for example, a battery used for meter reading. In a small portable printer, there is a problem that it is not possible to reduce the amount of power stored in the battery using the solar cell because it is not possible to secure an area for attaching the solar cell to the housing. .

JP 2001-88401 A

  The present invention has been made in view of such a problem, and an object of the present invention is to use power consumption stored in a battery using a solar cell even in a small portable printer driven by the battery. It is in providing a printer system capable of reducing the above.

In order to solve the above problems, the present invention has the following configuration.
The gist of the invention described in claim 1 is a printer system comprising a portable printer driven by a battery and a mounting tool for mounting the portable printer on the body, provided on the surface of the mounting tool. It is characterized by comprising a solar cell and charging control means for charging the battery with the electric power generated by the solar cell.
According to a second aspect of the present invention, the wearing tool includes a member that hangs on a shoulder, and the solar cell is provided on a surface of the member that hangs on the shoulder.
According to a third aspect of the present invention, the battery comprises a first battery and a second battery, and the charge control means is either the first battery or the second battery having a smaller amount of charge. Charging is performed.
According to a fourth aspect of the present invention, when the portable printer is instructed to operate, the power stored in either the first battery or the second battery having a larger amount of storage is used. The printer is driven.

  The printer system of the present invention is configured such that a solar cell is provided on the surface of a mounting tool for mounting the portable printer on the body, and the battery that drives the portable printer is charged by the electric power generated by the solar cell. Thus, even in a portable printer that cannot secure an area for attaching a solar cell to the housing, the amount of power stored in the battery using the solar cell can be reduced. The driving time can be extended.

  Furthermore, the printer system of the present invention has a member that hangs on the shoulder as a mounting tool, and the solar cell is provided on the surface of the member that hangs on the shoulder by providing the solar cell on the surface of the member that hangs on the shoulder. Can efficiently receive sunlight or irradiation from indoor lighting, improve power generation efficiency, and can support the solar cell with the shoulder, thus reducing the weight of the solar cell There is an effect.

  In the printer system of the present invention, the battery is composed of a first battery and a second battery, and the power stored in the first battery or the second battery is charged by the power generated by the solar battery. By performing the configuration, it is possible to efficiently charge the battery.

Furthermore, the printer system of the present invention drives the portable printer using the electric power stored in either the first battery or the second battery with the larger amount of storage when the operation of the portable printer is instructed. By configuring, it is possible to use a more stable power supply, so that it is possible to avoid the problem of printing density and to improve the printing speed.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing the configuration of an embodiment of a printer system according to the present invention, and FIG. 2 is a block diagram showing the configuration of the portable printer 10 shown in FIG.

  Referring to FIG. 1, the printer system according to the present embodiment includes a battery-powered portable printer 10, a waist belt 21 and a shoulder belt 22 that are wearing tools 20 for wearing the portable printer 10 on the body, It consists of a plurality of solar cells 30 provided on the surface side of the belt 21 and the shoulder belt 22.

  The back side (back side) of the portable printer 10 and the mounting tool 20 are configured to be connectable by a connection mechanism (not shown) such as a clip or a hook. In addition, the mounting tool 20 is provided with a power supply cable 23 extending from the plurality of solar cells 30 to the vicinity of the connection position between the portable printer 10 and the mounting tool 20. The electric power to be supplied can be supplied to the portable printer 10.

  Referring to FIG. 2, the portable printer 10 includes a printer main body 11 that performs printing on a printing medium, an operation unit 12 that operates the printer main body 11, a first battery 13 that supplies power for driving the printer main body 11, and A second battery 14, a charge control unit 15 that controls charging of the first battery 13 and the second battery 14, and a remaining amount determination unit 16 that determines the charged amount of the first battery 13 and the second battery 14. Has been.

  The printer main body 11 includes, for example, a storage unit that stores a roll-shaped print medium, a printing unit that includes a platen roller and a thermal head, and a reception unit that receives print data, and the print data received by the reception unit. Based on the above, while the medium to be printed is nipped and conveyed between the platen roller and the thermal head, printing is performed by driving the thermal head.

  The operation unit 12 is provided, for example, at the top of the portable printer 10, and includes a power switch for instructing power on / off of the printer main body 11, a print button for instructing printing, a feed button for instructing feeding of a print medium, and the like Consists of.

The first battery 13 and the second battery 14 are secondary batteries that can be used as batteries by storing electricity by charging. The power for printing (driving the platen roller and the thermal head) and the medium to be printed Electric power for feeding (driving the platen roller), power for receiving print data (driving section driving), and the like are supplied to the printer main body 11.
In the present embodiment, one battery is divided into two parts to be used as the first battery 13 and the second battery 14, and the first battery 13 and the second battery 14 are handled as a unit. Can do.
The first battery 13 and the second battery 14 can be separated from each other. However, by integrating the first battery 13 and the second battery 14, there is no need for a battery to carry around for meter reading of the meter. Or, there is an effect that the number of sub-batteries is small.

  The charge control unit 15 charges either the first battery 13 or the second battery 14 with a small amount of electricity stored by the power supplied from the solar cell 30 via the power supply cable 23.

  The remaining amount determination unit 16 determines the charged amounts of the first battery 13 and the second battery 14, respectively, and when the printer main body is turned on, when the operation unit 12 is operated, the first battery 13 or the second battery 14 The printer main body 11 is supplied with the electric power stored in any of the large amount of stored electricity.

Next, the operation of the present embodiment will be described in detail with reference to FIG. 3 and FIG.
3 is a flowchart for explaining a charging operation when the power is turned off in the portable printer shown in FIG. 1, and FIG. 4 is a battery selection operation and a charging operation when the power is turned on in the portable printer shown in FIG. It is a flowchart for demonstrating.

  First, the charging operation when the power is off will be described. Referring to FIG. 3, the charging control unit 15 monitors the electric power supplied from the solar cell 30 via the power feeding cable 23, thereby irradiating the solar cell 30 with sufficient power generation. When the solar cell 30 is in a power generation state, the remaining amount determination unit 16 is instructed to determine the amount of power stored in the first battery 13 and the second battery 14 (step A1). The remaining amount determination unit 16 determines the amount of electricity stored in each of the first battery 13 and the second battery 14 (step A2), and notifies the charge control unit 15 of the determination result.

  Next, the charge control unit 15 determines whether or not the charged amount of the first battery 13 is larger than the charged amount of the second battery 14 (step A3), and the charged amount of the first battery 13 is the second battery 14 or not. When the amount of stored electricity is larger than the charged amount, the second battery 14 is charged with the electric power supplied from the solar cell 30 via the feeding cable 23 (step A4).

  Next, the charging control unit 15 monitors the arrival of the second battery 14 at full charge while charging the second battery 14 (step A5), and when the second battery 14 reaches full charge, It is determined whether or not the battery 13 is fully charged (step A6). If the first battery 13 is fully charged, the charging of the first battery 13 and the second battery 14 is terminated.

  When the charged amount of the second battery 14 is larger than the charged amount of the first battery 13 at step A3 and when the first battery 13 is not fully charged at step A6, the charge control unit 15 starts from the solar cell 30. The first battery 13 is charged with electric power supplied via the power supply cable 23 (step A7).

  Next, the charging control unit 15 monitors the arrival of the first battery 13 at full charge while charging the first battery 13 (step A8), and when the first battery 13 reaches full charge, It is determined whether or not the battery 14 is fully charged (step A9). If the second battery 14 is fully charged, the charging of the first battery 13 and the second battery 14 is terminated, and the second battery If 14 is not fully charged, step A4 is reached and the second battery 14 is charged.

  Thus, in the charging operation when the power is turned off, control is performed so as to charge either the first battery 13 or the second battery 14 with the smaller amount of charge, and charging can be performed efficiently. Further, when the solar cell 30 is not sufficiently irradiated for power generation and the solar cell 30 is not in the power generation state, the charging to the first battery 13 and the second battery 14 is terminated, and the solar battery 30 is turned on in step A1. It is monitored that the battery 30 is in the power generation state again.

  Next, the battery selection operation and the charging operation when the power is turned on will be described. Referring to FIG. 4, the printer main body 11 monitors the operation of the operation unit 12 (step B <b> 1), and when the operation unit 12 is operated by the user, the first battery 13 and the second battery are supplied to the remaining amount determination unit 16. The battery 14 is instructed to determine the amount of electricity stored, the remaining amount determination unit 16 determines the amounts of electricity stored in the first battery 13 and the second battery 14 (step B2), and notifies the charge control unit 15 of the determination result.

  Next, the remaining amount determination unit 16 and the charge control unit 15 determine whether or not the charged amount of the first battery 13 is larger than the charged amount of the second battery 14 (step B3), and the charged amount of the first battery 13 is determined. When the amount is larger than the amount of charge stored in the second battery 14, the remaining amount determination unit 16 supplies the power stored in the first battery 13 to the printer body 11 (step B4) and the charge control unit 15 Charges the second battery 14 with the electric power supplied from the solar cell 30 via the feeding cable 23 (step B5). Thereby, the operation corresponding to the operation of the operation unit 12 performed in step B <b> 1 is executed by the electric power stored in the first battery 13.

  Next, the remaining amount determination unit 16 monitors that the charged amount of the first battery 13 is equal to or less than a predetermined amount (step B6), and ends the operation corresponding to the operation of the operation unit 12 performed in step B1. (Step B7), and when the operation is completed without the stored amount of the first battery 13 being equal to or less than the predetermined amount, the process returns to step B1.

  When the charged amount of the second battery 14 is larger than the charged amount of the first battery 13 in step B3, and before the operation ends, the charged amount of the first battery 13 has become equal to or less than the predetermined amount in step B6. In some cases, the remaining amount determination unit 16 supplies the power stored in the second battery 14 to the printer main body 11 (step B8), and the charge control unit 15 transmits the power from the solar cell 30 via the power feeding cable 23. The first battery 13 is charged with the supplied electric power (step B9).

  Next, the remaining amount determination unit 16 monitors that the charged amount of the second battery 14 is equal to or less than a predetermined amount (step B10), and ends the operation corresponding to the operation of the operation unit 12 performed in step B1. (Step B11), and when the operation is completed without the stored amount of the second battery 14 being equal to or less than the predetermined amount, the process returns to step B1, and before the operation is completed, the second battery 14 is selected in step B10. If the amount of stored electricity has become equal to or less than the predetermined amount, the process proceeds to step B4.

  Thus, in the battery selection operation when the power is turned on, when the operation unit 12 is operated, the printer main body 11 is driven using either the first battery 13 or the second battery 14 with the larger amount of charge, In the charging operation when the power is turned on, control is performed so as to charge either the first battery 13 or the second battery 14 with the smaller amount of charge.

  In the present embodiment, the wearing device 20 including the waist belt 21 and the shoulder belt 22 is used. However, if there is a member to be hung on the shoulder, for example, a vest worn on the body is used. The solar cell 30 provided on the surface of the member to be hung on the shoulder can efficiently receive sunlight or irradiation from room lighting, and can improve power generation efficiency.

  As described above, according to the present embodiment, the solar cell 30 is provided on the surface of the mounting tool 20 for mounting the portable printer 10 on the body, and the portable printer 10 is generated by the electric power generated by the solar cell 30. Even in the portable printer 10 in which the area for attaching the solar cell to the housing cannot be secured by charging the batteries (the first battery 13 and the second battery 14) that drive the battery, 30 can reduce the consumption of the electric power stored in the batteries (the first battery 13 and the second battery 14), and thus the driving time of the portable printer 10 can be extended.

  Furthermore, according to this Embodiment, it has the member (shoulder belt 22) which hangs on a shoulder as the mounting tool 20, and is comprised so that it may provide on the surface of the member (shoulder belt 22) which hangs the solar cell 30 on a shoulder. The solar cell 30 provided on the surface of the member to be hung on the shoulder (shoulder belt 22) can efficiently receive sunlight or irradiation from indoor lighting, improve the power generation efficiency, and also the solar cell 30. Since the weight of the solar cell 30 can be relaxed, an effect is achieved.

  Furthermore, according to the present embodiment, the battery is composed of the first battery 13 and the second battery 14, and the amount of power stored in the first battery 13 or the second battery 14 is small due to the electric power generated by the solar cell 30. By configuring so that one of the two is charged, there is an effect that charging can be performed efficiently.

  Furthermore, according to the present embodiment, when the operation of the portable printer 10 is instructed, the portable printer 10 is used by using the power stored in either the first battery 13 or the second battery 14 that has a larger amount of storage. By driving the printer, it is possible to use a more stable power supply, so that it is possible to avoid the problem of printing density and to improve the printing speed.

  Note that the present invention is not limited to the above-described embodiments, and it is obvious that the embodiments can be appropriately changed within the scope of the technical idea of the present invention. In addition, the number, position, shape, and the like of the constituent members are not limited to the above-described embodiment, and can be set to a suitable number, position, shape, and the like in practicing the present invention. In each figure, the same numerals are given to the same component.

1 is a configuration diagram illustrating a configuration of an embodiment of a printer system according to the present invention. FIG. 2 is a block diagram illustrating a configuration of the portable printer illustrated in FIG. 1. 3 is a flowchart for explaining a charging operation when the power is turned off in the portable printer shown in FIG. 1. 3 is a flowchart for explaining a battery selection operation and a charging operation when the power is turned on in the portable printer shown in FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Portable printer 11 Printer main body 12 Operation part 13 1st battery 14 2nd battery 15 Charge control part 16 Remaining amount judgment part 20 Wearing tool 21 Waist belt 22 Shoulder belt 23 Feeding cable 30 Solar cell

Claims (4)

A printer system comprising a portable printer driven by a battery and an attachment for attaching the portable printer to the body,
A solar cell provided on the surface of the wearing tool;
A printer system comprising charge control means for charging the battery with electric power generated by the solar cell. The wearing device has a member to be hung on a shoulder,
The printer system according to claim 1, wherein the solar cell is provided on a surface of a member hung on the shoulder. The battery comprises a first battery and a second battery,
3. The printer system according to claim 1, wherein the charging control unit charges one of the first battery and the second battery having a smaller amount of charge. 4.   The portable printer is driven by using the power stored in either the first battery or the second battery having a larger amount of storage when an operation instruction of the portable printer is given. 3. The printer system according to 3.

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