KR102417203B1 - caravan electric control system - Google Patents

Abstract

The present invention relates to a caravan electric control system, and more particularly, to a solar module for generating energy through sunlight (10); a charge controller 20 that converts the energy into electrical energy and controls it to be stored in the battery 30; a battery 30 for storing electric energy converted from the charge controller 20; a main controller 40 selectively controlling the electric device 60; DC/AC inverter 50 for converting DC electrical energy output from the battery 30 into AC electrical energy; a plurality of electric devices (60) supplied with electric energy from the battery (30) and controlled by the main controller (40); In the caravan electric control system consisting of The main controller 40 and the electric device 60 include wireless communication units 41 and 61, respectively, so that wireless control is possible, transmitting and receiving with the main controller 40, and selectively controlling the electric device 60 The wireless control unit 80 is configured to It is possible to eliminate unnecessary wiring work and wiring complexity by allowing the power to be directly connected to each electric device without going through the main controller. , as the main controller and electric device are controlled by a wireless method rather than a wired method, speed and accuracy and convenience of initial installation work are given. In the event of a malfunction of On/Off of the device, the situation inside the caravan can be transmitted in real time as a photo or video, which is a useful invention that can respond immediately to the situation that has occurred.

Description

Caravan electric control system

The present invention relates to a caravan electric control system, and more particularly, power applied from a battery is directly connected to an electric device, thereby eliminating the complexity of wiring and preventing overload, and monitoring the amount of charge and usage of the battery in real time It relates to a technology that can provide convenience in use.

In general, caravans are divided into berthed types and privately owned types, and electronic devices operated by electric power are incidentally included in the inside of the caravan, as well as various tools necessary for accommodation and cooking, and are operated through separate power or batteries. It is configured to be operated by receiving power.

In recent years, camping using such caravan facilities to take a break on weekends and holidays has been in the spotlight, and it is a trend to enjoy camping with close acquaintances and family acquaintances.

On the other hand, in the case of an anchored caravan, as an electric control system is provided on its own, there are no major problems in use, but in the case of a privately owned caravan, many problems with the electric system are exposed.

First, looking at the prior art, in general

Registration No. 10-1933653 (Special) Natural power generation unit that generates electric energy through sunlight; a natural energy charging unit for storing electrical energy generated from the natural power generation unit; an engine power generation unit generating electric energy by driving power of the vehicle; an engine energy charging unit for storing electrical energy generated from the engine power generation unit; a grid power input unit receiving electrical energy from commercial power; a grid energy charging unit for storing electric energy input from the grid power input unit; a DC/AC inverter converting electrical energy output from the natural energy charging unit, the engine energy charging unit, or the grid energy charging unit into alternating current electrical energy; a load device driven by receiving AC electric energy output from the DC/AC inverter; a relay unit configured to electrically connect any one of the system power input unit and the DC/AC inverter to the load device; At least one of the natural energy charging unit, the engine energy charging unit, and the grid energy charging unit is controlled to be electrically connected to the DC/AC inverter, and when electrical energy is input from the system power input unit, the DC/AC inverter is output The relay unit is controlled to cut off electrical energy and electrically connect the system power input unit and the load device, and if no electrical energy is input from the system power input unit, the system power input unit and the load device are electrically cut off and the DC a central control unit controlling the electric energy output from the /AC inverter to be supplied to the load device; an illuminance sensor provided on one side of the vehicle to measure external illuminance; Including, wherein the central control unit controls so that at least one of the natural energy charging unit, the engine energy charging unit, or the system energy charging unit is electrically connected to the battery of the vehicle when the voltage or current of the vehicle's battery is less than a set value and, when the vehicle is running, when the natural energy charging unit is greater than or equal to a first set value, and the engine energy charging unit is less than a second set value, the power of the natural energy charging unit is prioritized over the DC/AC inverter supply, and the engine energy charging unit is continuously charged, the central control device is the natural energy charging unit power source when the natural power generation unit is driving, the engine power generation unit is in a stopped driving state, and there is no input of the system power is preferentially supplied to the DC/AC inverter, but the measured value of the illuminance sensor is less than the set value for more than a set time, and the sum of the power charged in the natural energy charging unit, the engine energy charging unit, and the grid energy charging unit is the set value When it is less than, the engine power generation unit is driven, and when the sum of the electric power charged in the natural energy charging unit, the engine energy charging unit, and the system energy charging unit is greater than or equal to a set value, the power control system of the camper suspends the driving of the engine power generation unit. to be.

The above-mentioned prior art mainly describes stably providing power to a camping load device through power generation and storage by three different power sources. However, by generating power by three different power sources, the power of the camping load device is stably provided. There are limitations to the system, maintenance is difficult, and it is difficult to control a high-capacity load device because the power applied from the battery is applied to the load device after passing through the central control device.

The present invention has been devised to solve the problems of the prior art, and when current is provided to a plurality of electric devices configured inside the caravan through a main controller that controls the caravan as a whole, power applied from the battery can be directly supplied to each of the electric devices without going through the main controller, so that the complexity of wiring can be eliminated, and the amount of charge and usage of the battery can be measured in real time to provide convenience in use On the other hand, the main controller and each of the electric devices apply a wireless communication method rather than a wired communication method, so that the wireless control is possible through the main controller or the wireless controller. And other matters, the situation inside the caravan can be recognized through the camera if necessary, and the caravan electric control system that can respond immediately to the situation that occurs is focused on providing the technical task.

Accordingly, the present invention, a solar module for generating energy through sunlight (10); a charge controller 20 that converts the energy into electrical energy and controls it to be stored in the battery 30; a battery 30 for storing electric energy converted from the charge controller 20; a main controller 40 selectively controlling the electric device 60; DC/AC inverter 50 for converting DC electrical energy output from the battery 30 into AC electrical energy; a plurality of electric devices (60) supplied with electric energy from the battery (30) and controlled by the main controller (40); Including, a monitoring unit 70 that can measure and confirm the amount of charge and usage of the battery 30 in real time between the battery 30 and the electric device 60 is configured, and the main controller 40 and The electric device 60 includes wireless communication units 41 and 61, respectively, so that wireless control is possible, and a wireless control unit 80 for transmitting and receiving with the main controller 40 and selectively controlling the electric device 60 ) is configured, and the electric device 60 is not connected to the main controller 40 and is directly connected to the battery 30 and a wire to receive power, in the caravan electric control system, the electric device 60 ) is configured in plurality, the battery 30 and each electric device 60 are individually connected through a wiring, or the battery 30 and one electric device 60 are connected by a wiring, and , the other electric device 60a is not directly connected to the battery 30, but is directly connected to the electric device 60 through wiring to receive power, and the electric device 60 and the electric device Each power transmission unit 63 is configured in (60a), and the wireless control unit 80, when transmitting the On/Off command signal of the electric device 60 to the main controller 40, the main controller ( When the electric device 60 is turned on/off by 40) and there is no On/Off reaction of the electric device 60 or an On/Off response for a set time, a notification is sent in any one of sound, text, and vibration In the caravan electric control system, the camera 90 is installed inside the caravan and connected to the main controller 40 or the wireless control unit 80 by wire or wirelessly to photograph the inside of the caravan. After the notification is generated, the wireless control unit 80 receives the remaining amount of the battery 30 from the main controller 40 and outputs it in text or voice, and when a set time elapses, the main controller ( 40) automatically activates the camera 90 to It is configured to receive the photo or image acquired from 90 in real time to the wireless controller 80, and the main controller 40 registers and uses one or more wireless controllers 80, but a second wireless controller to register. When receiving a signal for request for use registration from (80), after transmitting the signal to the first registered wireless controller 80, when receiving a use approval signal from the first registered wireless controller 80, the second use registration It is configured to automatically register by approving the use of the radio control unit 80 that has been requested, and the main controller 40, when canceling the use registration of the first registered radio control unit 80, the use from the second It is configured such that the use registration of the wireless controller 80 registered for this purpose is automatically canceled at the same time, and the main controller 40 sends and receives signals in real time with the first registered wireless controller 80, but the first The technical feature is that when there is no signal with the registered wireless controller 80 for a predetermined time, the right to use registration and cancellation of the other wireless controller 80 is moved to the second registered wireless controller 80 .
The wireless communication units 41 and 61 are characterized in that they are configured by combining any one or more of Bluetooth Low Energy, LoRa, WiFi, Zigbee, and Z-Wave.

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According to the caravan electric control system of the present invention, while maintaining the original purpose of the caravan electric control system as it is, the electric power applied from the battery is directly connected to each electric device without going through the main controller, so unnecessary wiring work and wiring It can eliminate the complexity of high-capacity load devices and allows for easy control of high-capacity load devices, while there are no restrictions on the installation location, and as the main controller and electric devices are controlled wirelessly rather than wired, quick and accurate, first-time installation Convenience of operation is given, and as the amount of charge and usage of the battery can be monitored in real time, the situation inside the caravan can be transmitted in real-time as a photo or video in case of a malfunction or malfunction of the electric device on/off. It is a useful invention that can respond immediately to a situation that has occurred because there are a number of possibilities.

1 is a block diagram showing a preferred embodiment of the present invention;
2 is a block diagram showing a preferred embodiment of the present invention;
3 is a block diagram showing a preferred embodiment of the present invention;
4 is a flowchart showing a preferred embodiment of the wireless control method of the present invention;
5 is a flowchart showing a preferred embodiment of the operation of the wireless control unit and the camera of the present invention
6 is a flowchart illustrating a preferred embodiment of registration and approval of a plurality of radio controllers according to the present invention;
7 is a flowchart showing a preferred embodiment of the cancellation of the radio control unit of the present invention

In the present invention, the power applied from the battery is directly connected to the electric device, so it is possible to solve the complexity of wiring and prevent overload, and it is possible to monitor the charge amount and usage of the battery in real time, thereby providing convenience in use. A caravan electric control system is provided.

Hereinafter, a preferred embodiment of the present invention for achieving the above object will be described with reference to FIGS. 1 to 7 with reference to the accompanying drawings.

On the other hand, prior to explaining the present invention, the present invention is not a technology applied to an anchored caravan, but a technical concept applied to a privately owned caravan.

As shown in FIG. 1, the present invention is a solar module 10 , a charge controller 20, a battery 30, a main controller 40, a DC/AC inverter 50, an electric device 60, monitoring It is configured to include a unit 70 , a wireless control unit 80 , and a camera 90 .

That is, the present invention is a solar module for generating energy through sunlight (10); a charge controller 20 that converts the energy into electrical energy and controls it to be stored in the battery 30; a battery 30 for storing electric energy converted from the charge controller 20; a main controller 40 selectively controlling the electric device 60; DC/AC inverter 50 for converting DC electrical energy output from the battery 30 into AC electrical energy; a plurality of electric devices (60) supplied with electric energy from the battery (30) and controlled by the main controller (40); In the caravan electric control system consisting of The main controller 40 and the electric device 60 include wireless communication units 41 and 61, respectively, so that wireless control is possible, transmitting and receiving with the main controller 40, and selectively controlling the electric device 60 The wireless control unit 80 is configured to do this, and the electric device 60 is not connected to the main controller 40 but is directly connected to the battery 30 by wiring to receive power.

That is, the present invention has the characteristics of being able to accurately control the amount of charge and usage of the battery 30 in real time, minimize wiring installation, and wirelessly control the electric device.

The embodiment to be described below will be described as an embodiment of the caravan.

The photovoltaic module 10 is substantially configured outside or inside the caravan, installed in a position where sunlight can be most directly irradiated, and configured to generate energy through the light irradiated from the sunlight.

In general, the photovoltaic module 10 is applied to the relevant technical field and house, and a detailed description thereof will be omitted, and the number of the photovoltaic module 10 may be variously changed depending on the field situation.

The charge controller 20 is configured to convert the energy generated from the photovoltaic module 10 into generally usable electrical energy, and this charge controller 20 is also always installed simultaneously with the photovoltaic module 10 As a configuration, a separate description will be omitted.

The battery 30 is configured to store the electrical energy converted by the charge controller 20 in real time, and its capacity can be variously configured as needed.

The main controller 40 is connected to the battery 30 as shown in FIGS. 1 to 3 as one of the core components of the present invention, and operates by receiving power from the battery 30, but wireless communication It is a touch-based controller that controls one or more electric devices 60 through the method, transmits and receives to and from one or more wireless controllers 80, and utilizes a high-capacity relay and FET to selectively select the electric device 60 to be described below. It is configured to control, and the high-capacity relay and FET correspond to a conventional configuration, and a separate detailed description thereof will be omitted.

First, the main controller 40 is configured with one or more wireless communication units 41 therein in order to operate in a wireless communication manner with one or more electric devices 60, the electric device 60 and the wireless controller 80 and It is configured to enable wireless communication.

At this time, the wireless communication unit 41 may be configured by any one or a combination of two or more of Bluetooth Low Energy, LoRa, WiFi, Zigbee, and Z-Wave. The purpose of being composed of one or more is to enable smooth operation through the other wireless communication unit 41 when one wireless communication unit 41 fails.

Here, the wireless communication range of the wireless communication unit 41 is typically configured to correspond to the range of LoRa, Wifi, Low Power Bluetooth, Zigbee, and Z-Wave.

The DC/AC inverter 50 serves to convert the direct current electric energy applied from the battery 30 into alternating current electric energy, and at this time, one or more electric devices 60 installed in the caravan Only when there is an electric device that is not operated with energy and operates with AC electrical energy, it is converted into AC electrical energy and applied to the electrical device. In the case of the DC/AC inverter 50, a separate detailed description is omitted as it is a typical configuration. decide to do

As shown in FIGS. 1 to 3 , the electric device 60 is a component controlled by the main controller 40 and is one of the core components of the present invention, and is directly connected to the battery 30 . It is configured to receive power from the battery 30, and a wireless communication unit 61 for communicating with the main controller 40 is configured therein, and the electric device 60 is configured with one or more DC electric energy. Alternatively, it may be operated by alternating current electric energy, and it will be described as basically operated by direct current electric energy.

That is, the electric device 60 is directly connected to the battery 30 by wiring, is operated by receiving DC electric energy applied from the battery 30 , and is wirelessly controlled by the main controller 40 .

Conventionally, as one or more electric devices and a battery are directly connected to the main controller by wiring, the length of the wiring is determined according to the location of the main controller, while the power applied from the battery is always transmitted via the main controller. As it was applied as an electric device, an overload occurred when controlling a high-capacity electric device, or the wiring was concentrated with the main controller, so there were many restrictions on the installation location of the facilities inside the caravan, such as the complexity of wiring, and check the charge amount and usage of the battery This was impossible, and many difficulties were bound to accompany it.

However, in the present invention, the electric device 60 receives direct current electric energy from the battery 30 , but does not receive direct current electric energy through the main controller 40 , and is directly connected to the battery 30 by wiring. By being supplied with the main controller 40, it can be installed at any position regardless of the installation position of the main controller 40, thereby eliminating the complexity of wiring, and when power is applied to the battery 30, the main controller 40 It does not pass through, so it can have effects such as convenience of installation and reduction of wiring installation.

That is, as shown in FIG. 2 , when the electric device 60 is configured in plurality, the battery 30 and each electric device 60 may be individually connected to each other through wiring.

In addition, the wireless communication unit 61 of the electric device 60 is composed of a combination of one or more of Bluetooth Low Energy, LoRa, WiFi, Zigbee, and Z-Wave, the main controller ( 40) and the wireless communication unit 41 is configured to communicate wirelessly, and the type and number of the wireless communication unit 61 is preferably configured to correspond to the number of the wireless communication unit 41 and the type.

In addition, as shown in FIG. 3 , the battery 30 and one electric device 60 are connected by wiring, and the other electric device 60a is not directly connected to the battery 30 and the electric It is configured to be directly connected to the device 60 through wiring to receive power, and the electric devices 60 and 60a may include a power transmission unit 63 .

In the case of these electric devices 60 and 60a, the battery 30 is directly connected to only one electric device 60 at first, and the other electric device 60a is not directly connected to the battery 30 and the electric Since it is directly connected to the device 60 and receives power through the power transmission unit 63, it is possible to provide more convenience in connecting and configuring the wiring.

The monitoring unit 70 is one of the core components of the present invention, and as shown in FIGS. 1 to 3 , the amount of charge and usage of the battery 30 in real time between the battery 30 and the electric device 60 . A configuration such as a strategic energy meter is applied so that each of the watt-hour meters can be measured and configured, and the charge amount and usage amount of the battery 30 measured in real time from each of the electricity meters is received and output.

At this time, in the case of the watt-hour meter, it is preferable that the amount of use and the amount of charging be measured, respectively, so that it is composed of two or more.

Although not shown separately in the monitoring unit 70, as the replacement time, period of use, capacity, etc. of the battery 30 can be checked together, the user of the privately owned caravan can perform maintenance based on the above information. It has the advantage of being easy to use.

In addition, in the case of a watt-hour meter for configuring the monitoring unit 70, a shunt resistor may be applied and used, and a configuration capable of measuring other normal watt-hours and usage may be applied if necessary.

The wireless control unit 80 is one of the core components of the present invention that can control the one or more electric devices 60 as shown in Figs. and configured to selectively control the electrical device (60).

That is, the wireless control unit 80 does not directly control the electric device 60, and when a control signal is transmitted to the main controller 40, the main controller 40 controls the electric device 60 installed in each caravan. is configured to

At this time, the wireless controller 80 may be configured as a portable terminal, etc., it is preferable to include a configuration capable of transmitting and receiving even at a distance from the main controller 40.

On the other hand, as shown in FIG. 5 , the wireless controller 80 transmits the On/Off command signal of the electric device 60 to the main controller 40, the electric device by the main controller 40 (60) is turned On/Off, and when there is no On/Off reaction of the electric device 60 or an On/Off response for a set time, it is configured to receive a notification in any one of sound, text, and vibration.

Through this notification, the user who controls the wireless controller 80 can immediately respond to a situation that occurs.

Here, the caravan control system includes a camera 90 installed inside the caravan that is connected to the main controller 40 or the wireless control unit 80 by wire or wirelessly to photograph the inside of the caravan, and the wireless control unit (80), after the notification is generated, receives the remaining amount of the battery 30 from the main controller 40, outputs the text or voice, and then when a set time elapses, the main controller 40 sends the camera ( 90) is automatically operated so that the photo or image obtained from the camera 90 can be transmitted to the wireless controller 80 in real time.

Through the configuration of the camera 90, it is possible to easily recognize and grasp a situation that a user may need inside a caravan or camper, and there is an effect that can immediately respond to a situation that occurs.

In addition, as shown in FIG. 6 , the main controller 40 registers and uses one or more wireless controllers 80 , but when receiving a signal for requesting use registration from the second wireless controller 80 to be registered, the first After transmitting the signal to the first registered wireless controller 80, when a use approval signal is received from the first registered wireless controller 80, the use of the second registered wireless controller 80 is approved and By automatic registration, there is an effect that users can operate and use a plurality of wireless controllers at the same time by registering a plurality of wireless controllers 80, and indiscriminate registration of other wireless controllers 80 not approved by the initially registered wireless controller 80 is prevented. On the other hand, it is possible to block the access of outsiders other than the user.

In addition, as shown in FIG. 7 , when the main controller 40 cancels the use registration of the first registered wireless controller 80, use of the wireless controller 80 registered for use from the second time. Since registration is configured to be automatically canceled at the same time, there is no need to cancel each registered radio controller 80 one by one.

With these functions, registration and cancellation functions can be prepared in case the caravan is used by two or more people, and one user loses or loses the wireless control unit 80 and cannot control it through damage or the like.

In addition, the main controller 40 exchanges a signal with the first registered wireless controller 80 in real time, and when there is no signal with the first registered wireless controller 80 for a predetermined time, another It may be configured such that the right of use registration and cancellation of the wireless controller 80 is moved to the second registered wireless controller 80 .

That is, in the registration and cancellation of the wireless controller 80, if the loss or damage of the first registered wireless controller 80 occurs, the registration approval and cancellation are made to the second registered wireless controller 80. Convenience can be provided by making it transferable.

According to the caravan electric control system of the present invention, while maintaining the original purpose of the caravan electric control system as it is, the electric power applied from the battery is directly connected to each electric device without going through the main controller, so unnecessary wiring work and wiring It can eliminate the complexity of high-capacity load devices and allows for easy control of high-capacity load devices, while there are no restrictions on the installation location, and as the main controller and electric devices are controlled wirelessly rather than wired, quick and accurate, first-time installation Convenience of operation is given, and as the amount of charge and usage of the battery can be monitored in real time, the situation inside the caravan can be transmitted in real-time as a photo or video in case of a malfunction or malfunction of the electric device on/off. It is a useful invention that can respond immediately to a situation that has occurred because there are a number of possibilities.

10: solar module 20: charge controller
30: battery
40: main controller 41: wireless communication unit
50: DC/AC inverter
60: electric device 61: wireless communication unit 63: power transmission unit
70: monitoring unit
80: wireless control unit 90: camera

Claims (8)

Photovoltaic module 10 for generating energy through sunlight; a charge controller 20 that converts the energy into electrical energy and controls it to be stored in the battery 30; a battery 30 for storing electric energy converted from the charge controller 20; a main controller 40 selectively controlling the electric device 60; DC/AC inverter 50 for converting DC electrical energy output from the battery 30 into AC electrical energy; a plurality of electric devices (60) supplied with electric energy from the battery (30) and controlled by the main controller (40); Including, a monitoring unit 70 that can measure and confirm the amount of charge and usage of the battery 30 in real time between the battery 30 and the electric device 60 is configured, and the main controller 40 and The electric device 60 includes wireless communication units 41 and 61, respectively, so that wireless control is possible, and a wireless control unit 80 for transmitting and receiving with the main controller 40 and selectively controlling the electric device 60 ) is configured, and the electric device 60 is not connected to the main controller 40 but is directly connected to the battery 30 and a wire to receive power in the caravan electric control system,
When the electric device 60 is configured in plurality, the battery 30 and each electric device 60 are individually connected through wiring, or the battery 30 and one electric device 60 are configured to be connected to each other. is connected with a wiring, and the other electric device 60a is not directly connected to the battery 30 but is directly connected to the electric device 60 through a wiring to receive power, the electric device ( 60) and the electric device 60a are each configured with a power transmission unit 63,
The wireless control unit 80, when transmitting the On/Off command signal of the electric device 60 to the main controller 40, the electric device 60 is turned on/off by the main controller 40, When there is no On/Off reaction of the electric device 60 or an On/Off response for a set time, it is configured to receive a notification in any one method of sound, text, and vibration,
The caravan electric control system includes a camera 90 installed inside the caravan that is connected to the main controller 40 or the wireless control unit 80 by wire or wirelessly to photograph the inside of the caravan,
After the notification occurs, the wireless controller 80 receives the remaining amount of the battery 30 from the main controller 40 and outputs it in text or voice, and then when a set time elapses, the main controller 40 It is configured to automatically operate the camera 90 to receive the photo or image acquired from the camera 90 to the wireless controller 80 in real time,
The main controller 40 registers and uses one or more wireless controllers 80, but when receiving a signal for a use registration request from the second registered wireless controller 80, the first registered wireless controller 80 is After transmitting the signal, when a use approval signal is received from the first registered wireless controller 80, the second use registration request is configured to approve the use of the wireless controller 80 and automatically register,
The main controller 40 is configured so that when the use registration of the wireless controller 80 registered for the first time is canceled, the use registration of the wireless controller 80 registered for use from the second time is automatically canceled at the same time. ,
The main controller 40 sends and receives signals in real time with the first registered wireless controller 80, and when there is no signal with the first registered wireless controller 80 for a predetermined time, another wireless controller (80) Caravan electric control system, characterized in that the right of use registration and cancellation is moved to the second registered wireless control unit (80).
delete The method of claim 1,
The wireless communication unit (41, 61) is a low-power Bluetooth (Bluetooth Low Energy), LoRa (LoRa), WiFi, Zigbee (Zigbee), caravan electric control system, characterized in that configured by a combination of any one or more of Z-Wave.

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