JP2015148886A - power supply system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the size of a device and power consumption for reducing CO2 (carbon dioxide).SOLUTION: A power supply system 1 includes a commercial power supply unit 30 that supplies a power from a commercial power source 60, and an external power supply unit 40 that converts the energy from an external factor 70 to obtain a power; and supplies a power to a power source 20 of an apparatus A including an image forming device that records images on sheets or a post-processing device that processes the sheets having the images recorded thereon, from the commercial power supply unit 30 and the external power supply unit 40.

Description

  The present invention relates to an image forming apparatus that records an image on a sheet or a power supply system that supplies power to a drive unit of a post-processing apparatus that processes a sheet on which an image is recorded.

  For example, in an electrophotographic image forming apparatus such as a copying machine, a printer, a facsimile machine, or a multi-function machine equipped with these, a large amount of electrical energy is temporarily consumed to increase image quality and operation speed, and In order to maintain this function, electric energy is constantly consumed during standby. Furthermore, as a result of emphasizing advanced functions and ease of use by using electrical energy, electrical energy is often consumed even in cases other than function display depending on the operating state.

In recent years, global environmental problems have attracted worldwide attention, and in particular, in order to prevent global warming due to ozone layer destruction, efforts to reduce CO ₂ (carbon dioxide) emissions, which are the cause of this, are being promoted worldwide. It is done in groups. From the viewpoint of preventing global warming, the movement of oil removal and fossil fuels is also taking place, and the establishment of an energy supply system that does not depend heavily on nuclear power or thermal power is a global goal. Image forming apparatuses are often used with their power turned on due to the nature of their products, and the influence of recent global environmental problems is strong, and reduction of power consumption is an issue. For this reason, it is possible to reduce CO ₂ consumption by reducing the power consumption of electronic and electrical components, so we are developing power-saving devices and self-power generation systems.

  As a typical example, a self-power generation device such as a power storage device or a fuel cell is provided in order to avoid the use of power supplied from a commercial power supply (AC100V) as much as possible. There has been proposed an image forming apparatus using thermal energy generated when electric power is obtained (Patent Documents 1 to 3).

JP 2006-106248 A JP 2008-122780 A JP 2003-270980 A

However, in the methods described in Patent Documents 1 to 3, water (H ₂ O) and nitrogen oxides (nitrogen oxides) that are generated when electric energy is generated due to an increase in the size of a self-power generation device such as a power storage device or a fuel cell. It is difficult to treat by-products (specific components or substances) such as NOx) and sulfur oxides (SOx).

The present invention has been made in view of the above points, and provides a power supply system that can reduce the size of the apparatus and can reduce power consumption for CO ₂ (carbon dioxide) reduction. Objective.

  In order to solve the above-described problems and achieve the object, the present invention is configured as follows.

The invention according to claim 1 is a commercial power supply unit that supplies power from a commercial power source;
An external power supply unit that obtains power by converting energy from external factors;
With
To the power source of an image forming apparatus that records an image on paper or a post-processing device that processes paper on which an image is recorded,
In the power supply system, power is supplied from the commercial power supply unit and the external power supply unit.

The invention according to claim 2 includes an internal power supply unit that obtains electric power by converting energy from an internal factor,
The power supply system according to claim 1, wherein power is supplied from the internal power supply unit to the power supply of the device.

The invention according to claim 3, the power from the external power supply unit or the power from the internal power supply unit,
2. The power supply system according to claim 1, wherein power is supplied to the power supply of the apparatus in preference to power from the commercial power supply unit.

The invention according to claim 4 uses the power from the external power supply unit or the power from the internal power supply unit as a power source for a control system,
The power supply system according to claim 1, wherein power from the commercial power supply unit is used as a power source of a drive system.

According to a fifth aspect of the present invention, the external power supply unit is
4. The power supply system according to claim 1, wherein electric power is obtained by converting energy from at least one of light energy, pressure energy, and electrostatic energy.

According to a sixth aspect of the present invention, the internal power supply unit is
4. The power supply system according to claim 2, wherein electric power is obtained by converting energy from at least one of thermal energy, sound energy, and driving energy.

  With the above configuration, the present invention has the following effects.

According to the first aspect of the present invention, by supplying power from the external power supply unit in addition to the commercial power supply unit to the power source of the device, it is possible to reduce the size of the device and reduce CO ₂ (carbon dioxide). Therefore, it is possible to reduce power consumption.

According to the second aspect of the present invention, it is possible to further reduce the size of the device by supplying power from the internal power supply unit to the power source of the device, and to reduce the power consumption for CO ₂ (carbon dioxide) reduction. Reduction is possible.

  According to the third aspect of the present invention, the power from the external power supply unit or the power from the internal power supply unit is supplied to the power supply of the apparatus in preference to the power from the commercial power supply unit, thereby reducing the commercial power. Is possible.

  In the invention according to claim 4, by using the power from the external power supply unit or the power from the internal power supply unit as the power source of the control system, and the power from the commercial power supply unit as the power source of the drive system, It is possible to simplify the configuration of the power supply circuit and reduce commercial power.

  According to the fifth aspect of the invention, external power can be efficiently obtained by converting electric energy from at least one of light energy, pressure energy, and electrostatic energy to obtain electric power.

  According to the sixth aspect of the present invention, external power can be efficiently obtained by converting electric energy from at least one of thermal energy, sound energy, and driving energy to obtain electric power.

It is a block diagram which shows a power supply system. It is a schematic block diagram of a post-processing apparatus. It is a figure which shows the power supply structure of a post-processing apparatus. It is a block diagram which shows an external power supply part. It is a block diagram which shows an internal power supply part.

  Hereinafter, embodiments of the power supply system of the present invention will be described. The embodiment of the present invention shows the most preferable mode of the present invention, and the present invention is not limited to this.

(Schematic configuration of power supply system)
The power supply system of this embodiment will be described with reference to FIG. FIG. 1 is a block diagram showing a power supply system. The power supply system 1 includes a commercial power supply unit 30, an external power supply unit 40, an image forming apparatus that records an image on a sheet, or a power supply 20 of an apparatus A that includes a post-processing apparatus that processes a sheet on which an image is recorded. Power is supplied from the internal power supply unit 50.

  The power source 20 of the apparatus A includes a drive system power source 21 and a control system power source 22. The drive system power source 21 is a power source for driving, for example, a motor, a heater, and the like. It is a power source for controlling sensors, computers and the like.

The commercial power supply unit 30 supplies the power from the commercial power source 60 to the power source 20 of the device A by connecting the commercial power source 60 to the device A. The external power supply unit 40 converts the energy from the external factor 70 to obtain power, and supplies this power to the power source 20 of the device A. The internal power supply unit 50 converts the energy from the internal factor 80 to obtain power, and supplies this power to the power source 20 of the device A. Thus, by supplying power from the external power supply unit 40 and the internal power supply unit 50 in addition to the commercial power supply unit 30 to the power source 20 of the device A, the size of the device can be reduced, and CO ₂ can be obtained. It is possible to reduce power consumption for reducing (carbon dioxide).

The power supply system 1 includes a power supply control unit 90, and the power supply control unit 90 uses power from the external power supply unit 40 or power from the internal power supply unit 50 as power from the commercial power supply unit 20. More preferentially supplied to the power source 20 of the apparatus.
As described above, the power from the external power supply unit 40 or the power from the internal power supply unit 50 is supplied to the power source 20 of the apparatus A in preference to the power from the commercial power supply unit 30, thereby reducing the commercial power. Is possible.

  In addition, the power supply control unit 90 uses the power from the external power supply unit 40 or the power from the internal power supply unit 50 as the control system power supply 22, and the power from the commercial power supply unit 30 as the drive system power supply 21. It can be. Since the voltage of the power from the external power supply unit 40 or the power from the internal power supply unit 50 is low and the voltage of the power from the commercial power supply unit 30 is high, the low voltage power is supplied to the control system. By using the power source 21 of the drive system as the power source 21 of the drive system, the configuration of the power supply circuit can be simplified and the commercial power can be reduced.

(Device configuration)
The apparatus A includes an image forming apparatus that records an image on a sheet or a post-processing apparatus that processes a sheet on which an image is recorded. The image forming apparatus is a printer, a copier, a facsimile, a printing machine, or the like, and requires a power source for driving a motor, a heater, etc., for example, a power source for controlling a sensor, a computer, etc. The post-processing device is a peripheral device of an image forming apparatus such as a printer, a copier, or a printing machine, and for example, processes a plurality of sheets on which images sent from the image forming apparatus are recorded. This process includes a process for binding a sheet bundle by inserting a ring portion of a comb-like ring into a binding hole of a sheet bundle, and a process for performing post-processing such as staple binding, punching, and paper folding. In this embodiment, the configuration of the post-processing apparatus will be described, and the configuration of the image forming apparatus will be omitted.

(Configuration of post-processing equipment)
This post-processing apparatus will be described with reference to FIG. FIG. 2 is a schematic configuration diagram of the post-processing apparatus. The post-processing device 2 according to this embodiment includes a paper conveyance path 3, a binding hole forming unit 4, a compiling unit 5, a binding unit 6, a comb-shaped ring supply unit 7, a discharge unit 8, and a storage stacker 9. The In bookbinding, a ring portion of a comb-like ring is inserted into a binding hole formed on a sheet of a sheet bundle, and the sheet bundle is bound and bound. This post-processing device 2 has shown the binding of a sheet bundle by inserting a ring portion of a comb-like ring into a binding hole of a sheet bundle as binding for post-processing, but is not limited thereto, staple binding, Alternatively, post-processing such as paper folding may be performed.

(Power supply system power supply)
The power supply of this power supply system 1 is demonstrated based on FIG. FIG. 3 is a diagram showing a power supply configuration of the post-processing apparatus. In the post-processing apparatus 2 of this embodiment, as an external power supply unit 40 that obtains electric power by converting energy from an external factor 70, a light energy conversion unit 41, a pressure energy conversion unit 42, and an electrostatic energy conversion unit 43. As an internal power supply unit 50 that obtains electric power by converting energy from internal factors, a thermal energy conversion unit 51, a sound energy conversion unit 52, and a drive energy conversion unit 53 are provided.

(Configuration of external power supply unit)
Next, the configuration of the external power supply unit 40 will be described with reference to FIG. FIG. 4 is a block diagram showing the external power supply unit. The external power supply unit 40 is configured to obtain power by converting energy from at least one of light energy, pressure energy, and electrostatic energy. In this embodiment, a light energy conversion unit 41, a pressure energy conversion unit 42, and an electrostatic energy conversion unit 43 are provided, and the light energy conversion unit 41 lays a solar panel 41a on the exterior of the apparatus and fluoresces or sunlight. The pressure energy conversion unit 42 converts the pressure energy of the shock received by the damper when the book is dropped into the storage stacker 9 or when the device cover is closed. Electric power is generated to obtain electric power, and the electrostatic energy conversion unit 43 performs self-electric power generation to convert electrostatic energy taken from the ground of the device A to obtain electric power.

  Specifically, the light energy conversion unit 41 is configured by a solar panel for performing photovoltaic power generation, and has a configuration as a power generation device that generates power from a battery element that receives light. Specifically, the pressure energy conversion unit 42 has a configuration as a power generation device that drives a pressure driving engine with pressure energy and converts the driving energy into electric power. Specifically, the electrostatic energy conversion unit 43 has a configuration as a power generation device that generates an electric energy conversion element that converts high-voltage, small-current electrostatic energy into low-voltage, large-current electric energy. ing.

  The electric power obtained by performing self-power generation in the light energy conversion unit 41, the pressure energy conversion unit 42, and the electrostatic energy conversion unit 43 is stored in the power storage unit 45 at a predetermined voltage by the voltage adjustment unit 44, and the power supply unit 46 to the power supply of the device A. In this way, external power can be efficiently obtained by converting electric energy from at least one of light energy, pressure energy, and electrostatic energy to obtain electric power.

(Configuration of internal power supply unit)
Next, the configuration of the internal power supply unit 50 will be described with reference to FIG. FIG. 5 is a block diagram showing the internal power supply unit. The internal power supply unit 50 is configured to obtain electric power by converting energy from at least one of thermal energy, sound energy, and driving energy. In this embodiment, a thermal energy conversion unit 51, a sound energy conversion unit 52, and a drive energy conversion unit 53 are provided. The thermal energy conversion unit 51 takes in the heat inside the device A and uses the difference in temperature. The sound energy conversion unit 52 obtains electric power by performing self-power generation for converting thermal energy, and obtains electric power by obtaining self-power generation for converting vibration by taking in noise during driving to obtain vibration, and the driving energy conversion unit 53 Produces self-power generation that converts the drive energy of the rotation of the drive shaft of the device A, the idling of the one-way clutch, and the drive energy of a series of operations at the initial stage.

  Specifically, the thermal energy conversion unit 51 is configured by a sheet-like power generation element, and generates power using a difference in temperature. The element using the physical phenomenon of the “Spin Seebeck effect” generates power. It has a configuration as a power generation device. This phenomenon generates electricity by changing the nature (spin) of the electron magnet instead of moving the electron due to the temperature difference. Specifically, the sound energy conversion unit 52 has a configuration as a power generation device that converts sound into vibration and converts vibration energy into electric energy. Specifically, the drive energy conversion unit 53 has a configuration as a power generator that generates power by driving a generator with drive energy.

  The electric power obtained by performing self-power generation in the thermal energy conversion unit 51, the sound energy conversion unit 52, and the drive energy conversion unit 53 is stored in the power storage unit 55 as a predetermined voltage by the voltage adjustment unit 54, and the power supply unit 56 To the power source of the device A. Thus, external power can be efficiently obtained by converting energy from at least one of thermal energy, sound energy, and driving energy to obtain power.

The present invention can be applied to an image forming apparatus that records an image on a sheet or a power supply system that supplies power to a drive unit of a post-processing apparatus that processes a sheet on which an image is recorded, and the apparatus can be downsized. In addition, it is possible to reduce power consumption for reducing CO ₂ (carbon dioxide).

A device 1 power supply system 2 post-processing device 3 paper conveyance path 4 binding hole forming unit 5 compiling unit 6 binding unit 7 comb-shaped ring supply unit 8 discharge unit 9 storage stacker 20 power source 21 of device A power source 22 of drive system control system Power source 30 commercial power supply unit 40 external power supply unit 41 light energy conversion unit 42 pressure energy conversion unit 43 electrostatic energy conversion unit 44 voltage adjustment unit 45 power storage unit 46 power supply unit 50 internal power supply unit 51 thermal energy conversion unit 52 Sound energy conversion unit 53 Drive energy conversion unit 54 Voltage adjustment unit 55 Power storage unit 56 Power supply unit 60 Commercial power supply 70 External factor 80 Internal factor 90 Power supply control unit

Claims (6)

A commercial power supply unit for supplying power from a commercial power source;
An external power supply unit that obtains power by converting energy from external factors;
With
To the power source of an image forming apparatus that records an image on paper or a post-processing device that processes paper on which an image is recorded,
A power supply system that supplies power from the commercial power supply unit and the external power supply unit. With an internal power supply that converts energy from internal factors to obtain power,
The power supply system according to claim 1, wherein power is supplied to the power supply of the apparatus from the internal power supply unit. The power from the external power supply unit or the power from the internal power supply unit,
The power supply system according to claim 1, wherein power is supplied to the power supply of the apparatus with priority over power from the commercial power supply unit. The power from the external power supply unit or the power from the internal power supply unit is a power source for the control system,
The power supply system according to claim 1, wherein power from the commercial power supply unit is used as a power source of a drive system. The external power supply unit is
4. The power supply system according to claim 1, wherein power is obtained by converting energy from at least one of light energy, pressure energy, and electrostatic energy. 5. The internal power supply unit
4. The power supply system according to claim 2, wherein electric power is obtained by converting energy from at least one of thermal energy, sound energy, and driving energy.