JP2006302175A - Power supply device for automatic vending machine and power supply method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve a power supply device for an automatic vending machine and to reduce consumption of commercial power by effectively using natural energy. <P>SOLUTION: The power supply device for the automatic vending machine is provided with a power changeover switch 1 for connecting a receiving end of a cold/heat controller of the automatic vending machine while switching to either of a solar power generator 10 and a commercial power source 8. When there is surplus in an amount of generated power of the solar power generator, an electric double layer capacitor or a battery 5 is charged, when the generated power runs short, the power accumulated in the electric double layer capacitor or the battery is discharged. When an amount of charge is reduced, the power changeover switch 1 is switched to the side of the commercial power source 8 by an action of a power changeover controller 2. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technology for supplying required power in a vending machine, and in particular, has been improved so as to save power by using natural energy.

Vending machines typically have to cool or overheat products according to customer preferences. Since this cold and heat state is maintained continuously for 24 hours, power consumption is not small.
Considering that the price of goods is generally in the hundreds of yen unit, the burden of electricity charges cannot be ignored.

For this reason, a technology that uses solar cells (solar power generators) and fuel cells in combination without relying only on a commercial power supply has been proposed (Japanese Patent Laid-Open No. 2001-307663).
Japanese Patent Laid-Open No. 2001-307763 JP 2000-293744 A

  In these prior arts, for example, it is a simple idea such as “when the sun is shining, it is cooled and operated by a solar cell, and the heat equipment is switched to a commercial power source when there is insufficient sunlight”. Detailed control such as stockpiling and wind power generation is not considered.

The present invention has been made in view of the circumstances described above, and the object is as follows.
By using natural energy, stockpiling surplus of natural energy, and supplementing the shortage of natural energy with commercial power, maximize the effective use of natural energy and minimize the consumption of commercial power To provide technology that can be saved.

The configuration of the invention apparatus according to claim 1 is an apparatus for supplying power to a cold / heat controller MS of a vending machine (see FIG. 1).
Comprising commercial power receiving terminals 8a, 8b and solar power generator 10,
An electric double layer capacitor or battery 5 for temporarily storing the generated power of the solar generator, and a charge / discharge controller 3 for controlling the charge / discharge action of the electric double layer capacitor or battery;
A DC / AC converter 4 for converting the DC output of the electric double layer capacitor or battery into AC;
A power switch 1 for switching and connecting the power receiving end of the cold / heat controller MS to either the DC / AC converter 4 or the commercial power receiving end 8a, 8b;
The charging / discharging controller 3 includes a power generation / reception change-over switch 7 for switching and connecting the power receiving end of the charging / discharging controller 3 to either the solar power generator 10 or the commercial power receiving end 8a, 8b.

The configuration of the invention device according to claim 2 is a device for supplying power to the cold / heat controller MS of the vending machine (see FIG. 2).
The commercial power receiving terminals 8a and 8b and the wind power generator 11 are provided,
An electric double layer capacitor or battery 5 for temporarily storing the power generated by the wind power generator, and a charge / discharge controller 3 for controlling the charge / discharge action of the electric double layer capacitor or battery;
A DC / AC converter 4 for converting the DC output of the electric double layer capacitor or battery into AC;
A power switch 1 for switching and connecting the power receiving end of the cold / heat controller MS to either the DC / AC converter 4 or the commercial power receiving end 8a, 8b;
The charging / discharging controller 3 includes a power generation / reception changeover switch 7 that switches and connects the power reception end of the charge / discharge controller 3 to either the wind power generator 11 or the commercial power supply reception ends 8a, 8b.

  The configuration of the invention device according to claim 3 is the same as that of the invention device according to claim 1 or claim 2 (see FIG. 1). The illumination lamp of the vending machine is connected in series or in parallel with the controller MS.

The configuration of the invention method according to claim 4 (see FIG. 1) is a method of supplying power to the cold / heat controller MS of the vending machine.
A solar power generator 10 and an electric double layer capacitor or battery 5 are provided, and a power receiving facility for a commercial power source 8 is provided.
When the amount of power generated by the solar power generator is sufficient, the power generated by the solar power generator covers the power consumed by the cold / heat controller MS, and the surplus power is stored in the electric double-layer capacitor or battery 5;
When the amount of power generated by the solar power generator is insufficient, the power stored in the electric double layer capacitor or battery is released to compensate for the shortage,
The feature is that the cold / heat controller is operated by a commercial power source when the discharged power cannot be compensated.

The configuration of the inventive method according to claim 5 is a method of supplying power to the cold / heat controller MS of the vending machine (see FIG. 2).
A wind power generator 11 and an electric double layer capacitor or battery 5 are provided, and a power receiving facility for a commercial power source 8 is provided.
When the amount of power generated by the wind power generator is sufficient, the power generated by the wind power generator covers the power consumed by the cold / heat controller MS, and the surplus power is stored in the electric double-layer capacitor or battery 5;
When the amount of power generated by the wind power generator is insufficient, the power stored in the electric double-layer capacitor or battery is discharged to compensate for the shortage,
The feature is that the cold / heat controller is operated by a commercial power source when the discharged power cannot be compensated.

  The configuration of the inventive method according to claim 6 includes, in addition to the configuration requirements of the inventive method of claim 4 or 5 (see FIG. 1), the vending machine with respect to the cold / heat controller MS. The illumination lamps L are connected in parallel in advance, and the required power of the illumination lamps is covered by the combined use of private power generation and commercial power supply, similar to the cold / heat controller.

When the invention apparatus of claim 1 is applied, when sunlight is sufficient, the power consumption of the cooling and heating equipment for the vending machine is covered by the generated power of the solar generator, and surplus power is stored.
If the power generated by the solar generator cannot be used to cover the power consumed by the cooling and heating equipment, the stored power will be used to supplement the power generated by the solar generator and continue to operate the cooling and heating equipment.
If power is still insufficient, the commercial power supply can satisfy the required power for cooling and heating equipment, and vending machines can be cooled and heated.
This not only reduces the maintenance cost of the vending machine, but also reduces the burden of thermal power generation by reducing commercial power, and thus contributes to social demands for prevention of global warming.

When the invention device of claim 2 is applied, when the wind speed is sufficient, the power consumption of the equipment for cooling and heating of the vending machine is covered by the generated power of the wind power generator, and the surplus power is stored.
If the power generated by the wind power generator cannot be used to cover the power consumption of the cooling and heating equipment, the power stored in the wind power generator will be supplemented by the stored power and the cooling and heating equipment will continue to operate.
If power is still insufficient, the commercial power supply can satisfy the required power for cooling and heating equipment, and vending machines can be cooled and heated.
As in the invention apparatus of claim 1, the social contribution can be achieved by reducing the commercial power.

When the invention device of claim 3 is applied, not only the cooling and heating equipment for the vending machine but also the power for lighting of the vending machine can be covered with natural energy.
Thereby, the power saving according to claim 1 or claim 2 can be made even more complete.

Applying the inventive method of claim 4, when sunlight is sufficient, the power consumption of the cooling and heating equipment for the vending machine is covered by the generated power of the solar power generator, and the surplus power is stored.
If the power generated by the solar generator cannot be used to cover the power consumed by the cooling and heating equipment, the stored power will be used to supplement the power generated by the solar generator and continue to operate the cooling and heating equipment.
If power is still insufficient, the commercial power supply can satisfy the required power for cooling and heating equipment, and vending machines can be cooled and heated.
This not only reduces the maintenance cost of the vending machine, but also reduces the burden of thermal power generation by reducing commercial power, and thus contributes to social demands for prevention of global warming.

Applying the invention method of claim 5, when the wind speed is sufficient, the power consumption of the cooling and heating equipment for the vending machine is covered by the generated power of the wind power generator, and the surplus power is stored.
If the power generated by the wind power generator cannot be used to cover the power consumption of the cooling and heating equipment, the power stored in the wind power generator will be supplemented by the stored power and the cooling and heating equipment will continue to operate.
If power is still insufficient, the commercial power supply can satisfy the required power for cooling and heating equipment, and vending machines can be cooled and heated.
The social contribution by the reduction of the commercial power is the same as in the inventive method of claim 4.

When the invention method of claim 6 is applied, not only the cooling and heating equipment for the vending machine but also the power for illumination of the vending machine can be covered with natural energy.
Thereby, the power saving according to claim 4 or claim 5 can be made even more complete.

FIG. 1 is a system diagram schematically illustrating one embodiment of the present invention.
The power supply device of this example includes a solar power generator 10 and power receiving terminals 8 a and 8 b of a commercial power supply 8.
When sunlight is sufficient and the generated voltage of the solar power generator 10 exceeds a predetermined value, the power generation / reception switching controller 6 controls and drives the power generation / reception switching switch 7 so that the input terminal of the charge / discharge controller 3 is connected to the solar. Connect to the generator 10.

When the sun light decreases and the generated voltage of the solar power generator 10 falls below a predetermined value, the power generation / power reception switching controller 6 controls and drives the power generation / power reception switching switch 7, and the input terminal of the charge / discharge controller 3 is connected to the commercial power source. 8 are connected to the power receiving ends 8a and 8b. Reference numeral 9 denotes a power protection device.
The charge / discharge controller 3 monitors the charge / discharge state of the electric double-layer capacitor or the battery 5, and when it reaches the discharge state, it prevents further discharge and charges it.

When sunlight is sufficient, the power generated by the solar power generator 10 is supplied to the cold / heat controller MS via the DC / AC converter 4.
When sunlight is insufficient, the electric power stored in the electric double layer condenser or the battery 5 is supplied to the cold / heat controller MS via the DC / AC converter 4.
The electric power supplied to the cold / heat controller MS activates the compressor motor CM or the Pelcher element PH to demonstrate the refrigeration function,
In addition, the heater is energized to perform the heating function.

  In this example, the lighting lamp L of the vending machine is connected in parallel to the cold / heat controller MS. Specifically, it is connected in parallel to “a cold / thermal apparatus controlled by the cold / thermal controller MS”. The reference numeral C indicates an automatic switch that detects the ambient illuminance and blinks the illumination lamp.

When the power generation of the solar power generator 10 is low, the charge amount of the electric double layer capacitor or the battery 5 gradually decreases.
When the remaining charge level falls below the specified value, the power supply switching controller 2 operates the power supply switching switch 1 to connect the cooling and heat controller MS to the commercial power supply 8.
As described above, power supply to the cold and heat controllers is ensured while minimizing the consumption of commercial power.

FIG. 2 is a schematic system diagram of an embodiment different from the above. A main matter different from the above (FIG. 1) is that a wind power generator 11 is provided instead of the solar power generator 10.
When the wind speed (wind power) is sufficient and the generated voltage of the wind power generator 11 exceeds a predetermined value, the power generation / power reception switching controller 6 controls and drives the power generation / power reception switch 7, and the input terminal of the charge / discharge controller 3 is driven. Is connected to the wind power generator 11.

When the wind speed decreases and the generated voltage of the wind power generator 11 falls below a predetermined value, the power generation / reception switching controller 6 controls and drives the power generation / reception switching switch 7, and the input terminal of the charge / discharge controller 3 is connected to the commercial power supply 8. Are connected to the power receiving ends 8a and 8b.
The charge / discharge controller 3 monitors the charge / discharge state of the electric double-layer capacitor or the battery 5, and when it reaches the discharge state, it prevents further discharge and charges it.

When the wind speed (wind power) is sufficient, the power generated by the wind power generator 11 is supplied to the cold / heat controller MS via the DC / AC converter 4.
When the wind speed is insufficient, the electric power stored in the electric double layer condenser or the battery 5 is supplied to the cold / heat controller MS via the DC / AC converter 4.
The electric power supplied to the cold / heat controller MS activates the compressor motor CM or the Pelcher element PH to demonstrate the refrigeration function,
In addition, the heater is energized to perform the heating function.

An illumination lamp L of the vending machine is connected in parallel to the cold / heat controller MS. Specifically, it is connected in parallel to “a cold / thermal apparatus controlled by the cold / thermal controller MS”. The reference numeral C indicates an automatic switch that detects the ambient illuminance and blinks the illumination lamp.

When the power generation of the wind power generator 11 is low, the charge amount of the electric double layer capacitor or the battery 5 gradually decreases.
When the remaining charge level falls below the specified value, the power supply switching controller 2 operates the power supply switching switch 1 to connect the cooling and heat controller MS to the commercial power supply 8.
As described above, as in the above-described embodiment (FIG. 1), power supply to the cold and heat controllers is ensured while minimizing the consumption of commercial power.

Although not shown, as a further different embodiment, the solar power generator 10 and the wind power generator 11 may be provided side by side with respect to one vending machine.
Solar power generators and wind power generators have different power generation characteristics. By installing these solar power generators, it is possible to conserve commercial power that is almost completely complementary.
That is, the solar power generator exerts a power generation function by sunlight regardless of the wind speed.
On the other hand, the wind power generator 11 exhibits a power generation function by wind regardless of the presence or absence of sunlight.
Therefore, if both are installed side by side, power generation is performed as long as there is wind even at night, rainy weather, and cloudy weather.
In addition, even when there is no wind, power is generated in the daytime on a clear day.
In this way, there is a low probability (temporal rate) of becoming a power generation disabled state due to changes in the natural environment. That is, the probability (time ratio) that the power generation is possible is high.

1 is a system diagram schematically illustrating one embodiment of the present invention. System diagram schematically depicting an embodiment different from the above

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Power supply switching switch 2 ... Power supply switching controller 3 ... Charge / discharge controller 4 ... DC / AC converter 5 ... Electric double layer capacitor or battery 6 ... Power generation / power reception switching controller 7 ... Power generation / power reception switching switch 8 ... Commercial power supply
8a ... Commercial power receiving end 8b ... Commercial power receiving end 9 ... Power protection device
10 ... Solar generator
11 ... Wind generator
C ... Auto switch CM ... Compressor motor H ... Heater
L ... Lamp
MS ... Cool / Heat Controller
PH ... Pelcher element

Claims (6)

In a device that supplies power to the cold / heat controller (MS) of a vending machine,
A commercial power receiving end (8a, 8b) and a solar power generator (10);
An electric double layer capacitor or battery (5) for temporarily storing the power generated by the solar generator, and a charge / discharge controller (3) for controlling the charge / discharge action of the electric double layer capacitor or battery;
A DC / AC converter (4) for converting the DC output of the electric double layer capacitor or battery into AC;
A power switch (1) for switching and connecting the power receiving end of the cold / heat controller (MS) to either the DC / AC converter (4) or the commercial power receiving end (8a, 8b);
A power generation / reception selector switch (7) for switching and connecting a power receiving end of the charge / discharge controller (3) to either the solar power generator (10) or a commercial power receiving end (8a, 8b); A power supply device for a vending machine. In a device that supplies power to the cold / heat controller (MS) of a vending machine,
A commercial power receiving end (8a, 8b) and a wind power generator (11);
An electric double layer capacitor or battery (5) for temporarily storing the power generated by the wind power generator, and a charge / discharge controller (3) for controlling the charge / discharge action of the electric double layer capacitor or battery;
A DC / AC converter (4) for converting the DC output of the electric double layer capacitor or battery into AC;
A power changeover switch (1) for switching and connecting a power receiving end of the cold / heat controller (MS) to either the DC / AC converter (4) or a commercial power receiving end (8a, 8b);
A power generation / reception selector switch (7) for switching and connecting the power receiving end of the charge / discharge controller (3) to either the wind power generator (11) or the commercial power receiving end (8a, 8b); A power supply device for a vending machine.   The lighting lamp of the vending machine is connected to the output end of the power supply switch (1) in series or in parallel with the cold / heat controller (MS). A power supply device for a vending machine according to claim 2. In a method of supplying power to a cold / heat controller (MS) of a vending machine,
A solar power generator (10) and an electric double layer capacitor or battery 5 are provided, and a power receiving facility for a commercial power source (8) is provided.
When the amount of power generated by the solar power generator is sufficient, the power generated by the solar power generator covers the power consumed by the cold / heat controller (MS) and the surplus power is stored in the electric double layer capacitor or battery (5). Every
When the amount of power generated by the solar power generator is insufficient, the power stored in the electric double layer capacitor or battery is released to compensate for the shortage,
A method of supplying power to a vending machine, characterized in that a cold / heat controller is operated by a commercial power supply when the discharged power cannot be compensated. In a method of supplying power to a cold / heat controller (MS) of a vending machine,
A wind power generator (11) and an electric double layer capacitor or battery 5 are provided, and a power receiving facility for a commercial power supply (8) is provided.
When the amount of power generated by the wind power generator is sufficient, the power generated by the wind power generator covers the power consumed by the cold / heat controller (MS) and the surplus power is stored in the electric double-layer capacitor or battery (5). Every
When the amount of power generated by the wind power generator is insufficient, the power stored in the electric double-layer capacitor or battery is discharged to compensate for the shortage,
A method of supplying power to a vending machine, characterized in that a cold / heat controller is operated by a commercial power supply when the discharged power cannot be compensated. The illumination lamp (L) of the vending machine is connected in parallel to the cold / heat controller (MS) in advance, and the power required for the illumination lamp is the same as that of the cold / heat controller. 6. The power supply method for a vending machine according to claim 4, wherein the power supply is provided by mixed use of power generation and commercial power.

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