KR20160054338A - Power supply system of food vehicle and operation methods thereof - Google Patents

Abstract

Disclosed is a power supply system of a food vehicle. The power supply system of a food vehicle includes a solar panel which is formed on the outside of the food vehicle and converts sunlight into electric energy, a first battery which stores electric energy converted from the solar panel and supplies electric energy to a first external device, and a second battery which is separated from the first battery, stores electric energy supplied from an external power source, and supplies electric energy to a second external device. Thereby, the discharge of a second battery due to the first external device can be prevented. The convenience of a user is improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power supply system for a food vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power supply system for a food vehicle and a method of operating the same, and more particularly, to a power supply system for a food vehicle for supplying power using a battery and an operation method thereof.

In recent years, the number of cases in which food vehicles are legalized and entrepreneurial businesses are increasing, is expected to increase demand for food vehicles. In particular, there is no need to worry about rents because there is no need to provide a fixed place for food vehicles.

In addition, when a food vehicle is provided with a solar panel or the like, it is possible to save energy and reduce costs. In addition, the driving of the vehicle by the battery is proposed as a solution at the present time in which the cost is reduced in the high oil price era and the environmental problem is serious.

However, the battery may be supplied with electric energy from an external power source, but it is still limited in terms of location and time, and when using a solar panel, there is a problem that the weather is limited and the charging takes a long time.

In addition, the driving of the food vehicle may be temporary. For example, it may be the time to drive the food vehicle only in the morning, from the home to the point of sale of the food, and only during the return home after finishing the sale. However, the cooking of food in the food vehicle may not be temporary. For example, it can be a long time after the car stops at the place where the food is sold, while the sale is completed. Thus, vehicle driving may consume more instantaneous electrical energy, but may consume more electrical energy only when cooking food for a longer period of time.

Accordingly, there is a problem that when the food is cooked for a long period of time, the vehicle can not be driven when all the electric energy is consumed.

It is an object of the present invention to provide a power supply system for a food vehicle having a battery for a vehicle and a battery for driving the vehicle separately, and a method of operating the same.

According to another aspect of the present invention, there is provided a power supply system for a food vehicle, including a solar panel provided outside the food vehicle for converting sunlight into electric energy, A first battery for storing the electric energy and supplying the electric energy to a first external device and a second battery for storing electric energy supplied from an external power source separately from the first battery, And a second battery for supplying the electric energy.

The inverter may further include an inverter, and the inverter may convert electrical energy having a characteristic of a DC voltage supplied from the first battery to electrical energy having a characteristic of an AC voltage and supply the converted electrical energy to the first external device.

The first battery may store electric energy supplied from the external power source and supply the electric energy to the first external device.

In addition, the first external device may include at least one of a coffee machine and a coffee grinder, and the second external device may be a DC motor for driving the food vehicle.

According to another aspect of the present invention, there is provided a method of operating a power supply system for a food vehicle, the method comprising: converting sunlight into electric energy through a solar panel provided outside the food vehicle; The method comprising the steps of: storing electric energy supplied from an external power source in a second battery provided separately from the first battery; supplying electric energy stored in the first battery to a first external device; And supplying electric energy stored in the second battery to a second external device.

In addition, the step of supplying the electric energy may convert the electric energy having the characteristic of DC voltage outputted from the first battery into electric energy having a characteristic of an AC voltage and supply the electric energy to the first external device.

The step of supplying the electric energy may store the electric energy supplied from the external power source in the first battery and supply the electric energy to the first external device.

In addition, the first external device may include at least one of a coffee machine and a coffee grinder, and the second external device may be a DC motor for driving the food vehicle.

According to various embodiments of the present invention as described above, it is possible to separately provide a battery for a vehicle device and a battery for driving a vehicle, thereby preventing a vehicle device from being discharged to a vehicle drive battery, thereby improving convenience for a user.

1 is a schematic view for explaining a power supply system of a food vehicle according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a power supply system of a food vehicle according to various embodiments of the present invention.
3 is a flowchart illustrating an operation method of a power supply system of a food vehicle according to an embodiment of the present invention.

Various embodiments of the present invention will now be described in more detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a schematic view for explaining a power supply system 100 of a food vehicle according to an embodiment of the present invention.

1A is a view for explaining a food vehicle according to an embodiment of the present invention. As shown in FIG. 1A, the food vehicle includes a solar panel 110 and a first external device 150-1. Although not shown in FIG. 1, the food vehicle includes a first battery, a second battery, And an inverter or the like.

In the present invention, a food vehicle can be used as a moving means, but also means a vehicle capable of providing food after stopping the vehicle at the same time. It is also assumed that the driving of the vehicle is caused by the battery.

An apparatus for providing food may be provided in the food vehicle. For example, a coffee pot may be provided if the food vehicle provides coffee, and a microwave oven may be provided if the food vehicle provides frozen food. The food vehicle may be provided with a battery for supplying power to such devices, and a battery for supplying power to the devices and a battery for driving the vehicle may be separated. Details of this will be described later.

1A shows a truck as a food vehicle, but is not limited thereto. Various types of vehicles can be used as food vehicles, for example, passenger cars. SUVs, minivans, etc. can be used as food trucks, or buses can be used. Further, the present invention is not limited to a vehicle, and may be applied to a vehicle that can be driven by a battery, such as a bicycle, a cart, a golf car, a handkerchief, or the like.

And, although the side of the food truck is open and the person is seated, it is not limited thereto. For example, the back of a food truck may be open, or both sides of a food truck may be open.

1B is a schematic view for explaining a power supply system 100 of a food vehicle according to an embodiment of the present invention. 1B, the solar panel 110 is a device for converting sunlight into electric energy, and is installed on the roof of a food vehicle, but the present invention is not limited thereto. For example, on the side of the food vehicle, or on the back side of the food vehicle. Alternatively, the solar panel 110 may be installed entirely outside the food vehicle.

The electric energy generated by the solar panel 110 may be stored in the first battery. The first battery stores electric energy and supplies electric energy when the first external device 150-1 is used. The first external device 150-1 means an external device that is not related to the operation of the food vehicle. On the other hand, the power supply system 100 may include a second external device for driving the food vehicle and a second battery for supplying electric energy to the second external device, which will be described later in detail.

On the other hand, the first battery can convert and supply electric energy stored according to the type of the first external device 150-1. The inverter can be used to convert electrical energy. Details of this will be described later.

1, the solar panel 110 has been described as an example, but the present invention is not limited thereto. For example, you can charge the battery using solar power or wind power. Alternatively, the battery is charged only by an external power source to be described later, and may not use the solar panel 110, solar power generation, wind power generation, or the like.

As described above, in the power supply system 100 of the food vehicle according to the embodiment of the present invention, the first battery and the second battery are separated, and the objects to which the electric energy is supplied are separated, .

Hereinafter, the power supply system 100 of the food vehicle will be described in more detail.

2 is a block diagram showing the configuration of a power supply system 100 of a food vehicle according to various embodiments of the present invention.

2A is a block diagram showing a configuration of a power supply system 100 of a food vehicle according to an embodiment of the present invention. As shown in FIG. 2A, the power supply system 100 of the food vehicle may include a solar panel 110, a first battery 120-1, and a second battery 120-2.

The solar panel 110 is configured to absorb solar light and convert it into electric energy, and a plurality of solar cells are attached thereto. In solar cell semiconductors, electrons and holes are generated when a beam of energy larger than the forbidden band width is irradiated on a semiconductor junction region having a PN junction, so that an internal electric field can be formed in the junction region. Electrons are transferred to the N-type semiconductor and holes are transferred to the P-type semiconductor due to the internal electrons formed, thereby generating electromotive force. The electrodes to which the N-type semiconductor and the P-type semiconductor are respectively attached become the negative electrode and the positive electrode, so that the direct current can be taken. As a material of the solar cell semiconductor, not only silicon but also gallium arsenide, cadmium tellurium, cadmium sulfide, indium phosphorus, or a complex between these materials or silicon can be used.

The first battery 120-1 may store the electric energy generated by the solar panel 110. [ Since the electric energy generated by the solar panel 110 has a DC voltage characteristic, the solar panel 110 and the first battery 120-1 can be charged without any device. The first battery 120-1 can supply the stored electric energy to the first external device. Specific details will be described later.

The second battery 120-2 may be provided separately from the first battery 120-1. The second battery 120-2 may be physically separated from the first battery 120-1, but may be electrically isolated. For example, the first battery 120-1 may be provided near the engine in front of the food vehicle, and the second battery 120-2 may be provided in the luggage compartment of the food vehicle. In addition, the first battery 120-1 and the second battery 120-2 may be one battery, but may be divided internally so as not to conduct electricity at all. Accordingly, even if one of the first battery 120-1 and the second battery 120-2 is discharged, the other battery may store electric energy and supply electric energy to the external device.

And the second battery 120-2 may be supplied with electrical energy from an external power source. Details of this will be described later. However, the electric energy generated by the solar panel 110 is stored only in the first battery 120-1 and not in the second battery 120-2.

And the second battery 120-2 can supply electric energy to the second external device. The contents of the second external device will be described later. However, the second external device and the first external device are separated, and the electric energy is supplied separately.

As described above, the first battery 120-1 and the second battery 120-2 are separated from each other, so that even if one battery is discharged, the other batteries are not discharged, thereby improving convenience for the user. Hereinafter, the configuration of the power supply system 100 of the food vehicle will be described in detail.

2B is a block diagram showing a configuration of a power supply system 100 of a food vehicle according to another embodiment of the present invention. 2B, the power supply system 100 of the food vehicle includes a solar panel 110, a first battery 120-1, a second battery 120-2, an external power source 130, An inverter 140, a first external device 150-1, and a second external device 150-2. Details of the components shown in FIG. 2B that overlap with those shown in FIG. 2A will not be described in detail.

The external power source 130 may supply electrical energy to the first battery 120-1 and the second battery 120-2. The external power source 130 may be a domestic power source or a commercial power source. For household power, the supply voltage may be low, for example, 220V. In the case of a commercial power supply, the supply voltage or the supply current can be high, and the electric energy can be supplied faster than a domestic power supply.

Also, the external power source 130 may supply electric energy having a characteristic of an alternating voltage, but the present invention is not limited thereto. For example, the external power source 130 may supply electric energy having a characteristic of a DC voltage, or supply electric energy having a characteristic of a corresponding voltage according to a connected food vehicle.

The first battery 120-1 may store electric energy from the external power source 130 in addition to storing the electric energy generated by the solar panel 110. [ For example, the first battery 120-1 may store electrical energy generated by the solar panel 110 when the weather is clear, but may generate electrical energy by the solar panel 110 when the weather is cloudy And may store the electric energy supplied from the external power source 130. [

The first battery 120-1 may store electric energy supplied from the external power source 130 in addition to storing the electric energy generated by the solar panel 110. [

When the first battery 120-1 stores electric energy supplied from the external power source 130, a converter (not shown) may be used. The converter can convert the electric energy having the characteristic of the AC voltage supplied from the external power source 130 into the electric energy having the characteristic of the DC voltage and provide it to the first battery 120-1.

Meanwhile, the inverter 140 can convert the electric energy having the characteristic of the DC voltage supplied from the first battery 120-1 into the electric energy having the characteristic of the AC voltage. The inverter 140 can supply the converted electrical energy to the first external device 150-1 so as to have the characteristic of the AC voltage. The first external device 150-1 may be a device that can be driven only when electric energy having an AC voltage characteristic is supplied. However, the present invention is not limited to this, and may be a device that can be driven only when electric energy having a DC voltage characteristic is supplied, or may be a device that can be driven with respect to both a DC voltage and an AC voltage. The inverter 140 may not be needed if the first external device 150-1 is a device that can be driven only when electric energy having a DC voltage characteristic is supplied.

On the other hand, the first external device 150-1 may be a device independent of the driving of the vehicle. For example, the first external device 150-1 may include at least one of a coffee machine and a coffee grinder. However, the present invention is not limited to this, and the first external device 150-1 may be a microwave oven, a coffee pot, or the like. Also, the first external device 150-1 may be a device such as a black box or a navigation device that is not related to food.

The second external device 150-2 may be a DC motor for driving the food vehicle. The second external device 150-2 is supplied with electric energy by a battery provided separately from the first external device 150-1. Accordingly, even if the first battery 120-1 is completely discharged by the first external device 150-1, the second battery 120-2 may be storing electric energy, and the vehicle can be driven have. Accordingly, the convenience of the user can be improved.

3 is a flowchart illustrating a method of operating a power supply system 100 of a food vehicle according to an embodiment of the present invention.

First, the power supply system 100 of the food vehicle converts sunlight into electric energy through the solar panel 110 provided outside the food vehicle, stores the converted electric energy in the first battery 120-1 (S310).

The power supply system 100 of the food vehicle stores the electric energy supplied from the external power source 130 in the second battery 120-2 provided separately from the first battery 120-1 ). At this time, the first battery 120-1 and the second battery 120-2 may be physically separated, but may be electrically separated.

The power supply system 100 of the food vehicle supplies the electric energy stored in the first battery 120-1 to the first external device 150-1 and the electric energy stored in the second battery 120-2 To the second external device 150-2 (S330).

In operation S330, the electric energy having the characteristics of the DC voltage output from the first battery 120-1 is converted into the electric energy having the characteristic of the AC voltage and is supplied to the first external device 150 -1). Here, the inverter 140 may be used to convert the characteristics of the electric energy.

In step S330, the electric energy supplied from the external power source 130 is stored in the first battery 120-1 and the electric energy is supplied to the first external device 150-1 .

Also, the first external device 150-1 may include at least one of a coffee machine and a coffee grinder, and the second external device 150-2 may be a DC motor for driving the food vehicle.

According to various embodiments of the present invention as described above, it is possible to separately provide a battery for a vehicle device and a battery for driving a vehicle, thereby preventing a vehicle device from being discharged to a vehicle drive battery, thereby improving convenience for a user.

100: power supply system 110: solar panel
120-1: first battery 120-2: second battery
130: External power source 140: Inverter
150-1: first external device 150-2: second external device

Claims (5)

In a power supply system for a food vehicle,
A solar panel provided outside the food vehicle to convert sunlight into electric energy;
A first battery for storing the electric energy converted from the solar panel and supplying the electric energy to a first external device; And
And a second battery which is provided separately from the first battery and stores electric energy supplied from an external power source and supplies the electric energy to a second external device. The method according to claim 1,
Further comprising an inverter,
The inverter includes:
And converts the electric energy having the characteristic of the DC voltage supplied from the first battery into the electric energy having the characteristic of the AC voltage and supplies the electric energy to the first external device. The method according to claim 1,
The first battery includes:
Wherein the power supply system stores electric energy supplied from the external power source and supplies the electric energy to the first external device. The method according to claim 1,
Wherein the first external device comprises:
A coffee machine, and a coffee grinder,
Wherein the second external device comprises:
And a DC motor for driving the food vehicle. A method of operating a power supply system for a food vehicle,
Converting sunlight into electric energy through a solar panel provided outside the food vehicle and storing the converted electric energy in a first battery;
Storing electric energy supplied from an external power source in a second battery provided separately from the first battery; And
Supplying electric energy stored in the first battery to a first external device and supplying electric energy stored in the second battery to a second external device.

Images