KR20200006889A - Companion plant irrigation device and method for operating companion plant irrigation device - Google Patents

Abstract

The present invention relates to a device of supplying water to a companion plant. According to one embodiment of the present invention, the device of supplying water to a companion plant comprises: a communication unit configured to receive information of a user input about learning information and gardening information of the user from a user terminal; a level determination unit configured to determine a learning level and a gardening level of the user based on the information of a user input; a control unit connected to each of a plurality of gardening modules provided therein to generate a control signal for controlling each of the plurality of gardening modules; and an interface unit configured to control at least one gardening module of the plurality of gardening modules and a connection port of the control unit according to at least one of the learning level and the gardening level, wherein the control unit is able to selectively generate a control signal to control a gardening module connected by the interface unit. According to the present invention, the device of supplying water to a companion plant is capable of cultivating and managing a companion plant easily according to a level of a learner.

Description

Companion plant watering device and driving method of companion plant watering device {COMPANION PLANT IRRIGATION DEVICE AND METHOD FOR OPERATING COMPANION PLANT IRRIGATION DEVICE}

The present application relates to a companion plant watering device and a method of driving the companion plant watering device.

Recently, circuit board kits have been actively developed using coding programs such as Arduino. Arduino kits can take input values from various switches or sensors and control the output of electronic devices such as motors by coded programs. By taking advantage of these advantages, various educational programs can be developed based on Arduino.

However, the conventional Arduino education program has a problem that it is difficult to learn for a long time due to the lack of elements that cause interest to learners because the explanation of the theory and experiments according to the theory are mainly performed. In other words, the level of development of the parish for teaching the use and application of Arduino is not appropriate, and it is necessary to develop an education program that can induce interest for the learner to actively participate in the education.

On the other hand, in recent years, the interest in the cultivation of large and small companion plants in conjunction with the environmental problems such as fine dust, increased interest in them, diversification of personal hobby life. However, there are many difficulties in steady and easy cultivation of companion plants due to various causes such as diversification of companion plants, flooding of horticultural knowledge on cultivation of companion plants, and lack of personal leisure time. Therefore, there is an increasing need for pots or watering devices that can steadily and easily cultivate companion plants according to personal differences such as the degree of horticultural knowledge, the degree of interest, and the spare time for the cultivation of companion plants.

Background art of the present application is disclosed in Korean Patent Publication No. 10-1746596.

The present application is to solve the above-mentioned problems of the prior art, to provide an Arduino learning teaching aid that can be applied to the real life, and to provide a companion plant watering device that can be produced using the same.

The present application is to solve the above-mentioned problems of the prior art, an object of the present invention to provide a companion plant watering device to utilize the Arduino module having a different difficulty depending on the level of the learner.

The present invention is to solve the above-mentioned problems of the prior art, an object of the present invention is to provide an automated companion plant watering device that can more easily cultivate and manage companion plants according to the level of the learner.

However, the technical problem to be achieved by the embodiments of the present application is not limited to the technical problems as described above, and other technical problems may exist.

As a technical means for achieving the above technical problem, the companion plant irrigation device according to an embodiment of the present application is a communication unit for receiving information of the user input for learning information and gardening information of the user from the user terminal, the information of the user input A level determining unit configured to determine a learning level and a gardening level of the user based on the control unit; a controller connected to each of the plurality of gardening modules provided in the companion plant irrigation device to generate a control signal for controlling each of the plurality of gardening modules; An interface unit for controlling at least one gardening module of the plurality of gardening modules and a connection port of the controller according to at least one of the learning level and the gardening level, wherein the controller is a gardening module connected by the interface unit Generating control signals for controlling the can do.

According to the exemplary embodiment of the present application, the user terminal receives the user input in response to the gardening information including gardening common sense and the learning information including arduino module common knowledge, and the user input is data processed. The input information may be transmitted to the communication unit, and the level determining unit may determine the gardening level and the learning level as any one of the beginner, intermediate, and advanced based on a preset criterion.

According to an embodiment of the present disclosure, the plurality of gardening modules may include a switch module, a submersible pump motor module, a power supply module, and a soil humidity sensing module, and the controller may include an arduino module.

According to an embodiment of the present disclosure, the interface unit controls the connection and disconnection of the connection port of each of the Arduino module and the plurality of gardening modules connected through the substrate unit according to at least one of the learning level and the gardening level. can do.

According to an embodiment of the present disclosure, the interface unit may selectively set connection of connection ports of the plurality of gardening modules according to the learning level and the gardening level.

According to one embodiment of the present application, the interface unit, when the learning level is advanced and the horticulture level is beginner, the type of the plurality of horticultural modules for horticulture of the companion plant corresponding to the beginner horticultural level and connected to the connection The number of pots is determined in consideration of the learning level, and when the learning level is beginner and the gardening level is advanced, the types of the plurality of horticultural modules for horticulture of the companion plant corresponding to the advanced horticulture level and connected The number of connection ports may be determined in consideration of the learning level.

According to an embodiment of the present disclosure, when the learning level and the gardening level is beginner, the interface unit connects the connection port of the switch module, the submersible pump motor module, and the power supply module, and the learning level and the gardening. If the level is either intermediate or advanced, the interface unit may connect connection ports of all the plurality of modules.

According to the exemplary embodiment of the present application, when the learning level and the gardening level are beginners, the water pump motor module is driven through the switch module to supply water to the companion plant, and the learning level and the gardening level are intermediate When the water pump motor module is driven to supply water to the companion plant based on the soil humidity detected by the soil humidity sensing module, and the learning level and the gardening level are high, the communication unit controls the user terminal. The water pump motor module may be driven and supplied to the companion plant based on the control signal.

According to an embodiment of the present application, the communication unit receives weather information from a weather server, and the controller controls the plurality of gardening modules based on the soil humidity detected by the weather information and the soil humidity sensing module, Regardless of the level of horticulture, the submersible pump motor module and the power supply module are controlled, and the communication unit transmits operation information on the case of controlling a plurality of horticultural modules based on the weather information and soil humidity to the user terminal. Can be.

According to one embodiment of the present application, the companion plant irrigation device, a weight sensor for detecting the weight of the plant and soil planted in the pot including the companion plant irrigation device and an optical sensor for sensing the amount of light flowing from the top of the pot The control unit may control the plurality of gardening modules based on at least one of the weight and the light quantity, but may control the submersible pump motor module and the power supply module regardless of the level of gardening.

According to an embodiment of the present application, the level determination unit generates the recommended plant information according to the horticultural level and transmits it to the user terminal through the communication unit, the recommended plant information is the type of plant, plant name, growth cycle and watering May contain information about the cycle.

According to an embodiment of the present application, the recommended plant information may be generated in consideration of the position information received from the user terminal, and may generate different recommended plant information according to the position information.

According to an embodiment of the present disclosure, the user terminal generates virtual companion plant data based on the recommended plant information, and the virtual companion plant data includes a virtual companion plant that can be virtually grown, and the companion plant The virtual companion plant data may be updated to grow the virtual companion plant in response to the growth of the plant, and the growth of the companion plant may be determined based on the image of the companion plant photographed through the camera module of the user terminal.

According to an embodiment of the present disclosure, the user terminal updates the virtual companion plant data to correspond to the companion plant in the form of the virtual companion plant based on the image of the companion plant, but the image of the companion plant and the Comparing virtual companion plant data, the growth score of the companion plant may be calculated and output.

According to an embodiment of the present disclosure, the user terminal may recommend any one of the learning level and the gardening level according to the growth score.

In one embodiment, a method of driving a companion plant irrigation device includes receiving information of a user input for learning information and gardening information from a user terminal, and learning level and gardening level of the user based on the information of the user input. Determining, generating a control signal for controlling each of the plurality of horticultural modules connected to each of the plurality of horticultural modules provided in the companion plant watering device, and at least one of the learning level and the horticultural level. And controlling the connection port of at least one gardening module of the plurality of gardening modules and the controller, wherein generating the control signal selectively selects a control signal for controlling the gardening module to which the connection port is connected. Can be created with

The above-mentioned means for solving the problems are merely exemplary, and should not be construed as limiting the present application. In addition to the above-described exemplary embodiments, additional embodiments may exist in the drawings and detailed description of the invention.

According to the above-described problem solving means of the present application, it is possible to provide a companion plant irrigation apparatus that can provide the Arduino learning parish, which can be used in real life, and can be produced using the same.

According to the above-described problem solving means of the present application, it is possible to provide an automated companion plant watering device that can more easily cultivate and manage the companion plant according to the level of the learner.

According to the above-described problem solving means of the present application, it is possible to provide a companion plant irrigation device to utilize the Arduino module having a different difficulty depending on the level of the learner.

1 is a view showing an embodiment of the companion plant watering device according to an embodiment of the present application.
2 is a view showing the configuration of the companion plant watering device according to an embodiment of the present application.
3 is a diagram illustrating an example of a determination result of a gardening level and a learning level output from a user terminal according to an exemplary embodiment of the present application.
4 is a view showing a connection configuration of the companion plant watering device and a plurality of gardening modules according to an embodiment of the present application.
5 is a diagram illustrating an example of the recommended plant information output from the user terminal according to an embodiment of the present application.
6 is a diagram illustrating an example of a virtual companion plant output from the user terminal according to an embodiment of the present application.
7 is a diagram illustrating an example of a virtual companion plant output from the user terminal according to an embodiment of the present application.
8 is a view illustrating a flow of a method of driving a companion plant watering device according to an embodiment of the present application.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present disclosure. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted for simplicity of explanation, and like reference numerals designate like parts throughout the specification.

Throughout this specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. do.

Throughout this specification, when a member is said to be located on another member "on", "upper", "top", "bottom", "bottom", "bottom", this means that any member This includes not only the contact but also the case where another member exists between the two members.

Throughout this specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding the other components unless otherwise stated.

1 is a view showing an embodiment of the companion plant watering device according to an embodiment of the present application.

Referring to FIG. 1, the companion plant irrigation device 100, the user terminal 200, and the weather server 300 may communicate with each other via a network 1. The network 1 refers to a connection structure capable of exchanging information between respective nodes such as terminals and servers. In one example of such a network, a 3rd generation partnership project (3GPP) network and a long term evolution (LTE) network may be used. Network, 5G network, World Interoperability for Microwave Access (WIMAX) network, Internet, Local Area Network (LAN), Wireless Local Area Network (WLAN), Wide Area Network (WAN), Personal Area Network (PAN), Wi-Fi network, Bluetooth (Bluetooth) network, satellite broadcasting network, analog broadcasting network, DMB (Digital Multimedia Broadcasting) network, etc. include but are not limited to these.

In addition, the user terminal 200 may include, for example, a smartphone, a smart pad, a tablet PC, a personal communication system (PCS), a global system for mobile communication (GSM), a personal digital cellular (PDC), Personal Handyphone System (PHS), Personal Digital Assistant (PDA), International Mobile Telecommunication (IMT) -2000, Code Division Multiple Access (CDMA) -2000, W-Code Division Multiple Access (W-CDMA), Wireless Broadband Internet ) May include all kinds of wireless communication devices such as terminals, and wired communication devices such as desktop computers and smart TVs. The user terminal 200 and the weather server 300 will be described later.

The companion plant watering device 100 may be provided as a parish for learning the Arduino module, which will be described later, and may be implemented as an Arduino module-based device for gardening of a companion plant. The user terminal 200 may interwork with the companion plant watering device 100 to transmit / receive information on the companion plant or information for controlling the companion plant watering device through the network 1. The weather server 300 provides weather information, and watering can be controlled by the plant watering device 100 using the weather information. More specific details will be described later.

2 is a view showing the configuration of the companion plant watering device according to an embodiment of the present application.

Referring to FIG. 2, the companion plant irrigation device 100 may include a communication unit 110, a level determination unit 120, a control unit 130, an interface unit 140, and a sensor unit 150. In addition, although not shown, the companion plant watering device 100 may further include a water supply unit or a supply pipe connected to the water supply unit provided outside, and an electronic valve.

The communication unit 110 may receive user input information about learning information and gardening information of the user from the user terminal 200. According to one embodiment of the present application, the learning information and gardening information may be generated from the user terminal 200 for receiving a user input. For example, the user terminal 200 may receive the user input in response to gardening information including gardening common sense and learning information including arduino module common knowledge. In addition, the user terminal 200 may process the user input to generate information of the user input and transmit the data to the communication unit 110.

The user terminal 200 may provide an application interworking with the companion plant watering device 100, and may provide a quiz about gardening common sense and a quiz about Arduino module common sense through the application. In addition, the user terminal 200 may receive a quiz for gardening common sense and a quiz for Arduino module common sense, respectively, and may transmit the data to the communication unit 110. In addition, the learning level of the present application does not include only the handling level of the user's Arduino module, it can be extended to the learning level of the comprehensive concept determined in consideration of the user's age, gender, grade, degree of learning and the like.

The level determiner 120 may determine the learning level and the gardening level of the user based on the information of the user input received from the user terminal 200. According to the exemplary embodiment of the present application, the level determining unit 120 may determine the gardening level and the learning level as one of beginner, intermediate, and advanced based on a predetermined criterion, respectively.

The level determining unit 120 may determine the gardening level and the learning level according to the number of correct answers in the gardening trivia quiz and the number of correct answers in the Arduino trivia quiz. For example, the gardening trivia quiz and the Arduino trivia quiz may be presented with 10 questions, of which 10 to 8 correct answers may be judged as advanced, 7 to 5 intermediate, and 4 or less beginners. Can be. In addition, in the case of the learning level, the learning level may be determined by further considering the age and grade of the user. The user terminal 200 may transmit the user information based on the user input to the communication unit 110, the user information may include the age and grade of the user.

3 is a diagram illustrating an example of a determination result of a gardening level and a learning level output from a user terminal according to an exemplary embodiment of the present application.

The gardening level and the learning level of each user determined by the level determining unit 120 are transmitted to the user terminal 200 through the communication unit 110, and as shown in FIG. 3, the gardening through the user terminal 200. The determination result of the level and the learning level may be output. As another example, there may be a case in which the user wants to select the desired level. In this case, the user terminal 200 may receive a user input for selecting a gardening level and a learning level, respectively, and may transmit information on the level selection to the communication unit 110. The level determiner 120 may determine a gardening level and a learning level at a level desired by the user based on the information on the level selection.

4 is a view showing a connection configuration of the companion plant watering device and a plurality of gardening modules according to an embodiment of the present application.

The controller 130 may be connected to each of the plurality of gardening modules provided in the companion plant watering device 100 to generate a control signal for controlling each of the plurality of gardening modules. Referring to FIG. 4, the plurality of gardening modules may include a switch module 101, a submersible pump motor module 102, a power supply module 103, and a soil humidity sensing module 104. In addition, although not shown, the plurality of horticultural modules may further include a water supply part or a supply pipe connected to an external water supply part and an electromagnetic valve. In addition, the controller 130 may include an Arduino module. The plurality of gardening modules may be connected to the plant watering device 100 through the substrate unit (breadboard) 10.

The learning level and the horticultural level can be divided so that learning of the Arduino module suitable for the user's level and companion horticultural learning are made. For example, if the learning level is beginner, the learning is performed using the Arduino module and the gardening module with low difficulty, and if the learning level is advanced, the learning level and horticulture are used to cultivate plants with difficult gardening difficulty. Levels can be distinguished. Therefore, the companion plant watering device 100 controls the connection of the gardening module and the control unit 130 so that the available gardening module can be optional according to the learning level, or to cultivate the companion plant to grow a companion plant suitable for the gardening level. I can recommend it. Recommendation of the companion plant will be described with reference to FIG. 5 to be described later.

The interface unit 140 may control the at least one gardening module of the plurality of gardening modules and the connection port 141 of the controller 130 according to at least one of the learning level and the gardening level. Referring to FIG. 4, the interface unit 140 may include a plurality of module connection terminals of the substrate unit 10 and a plurality of connection ports 141, respectively. The interface unit 140 may control the connection and blocking of the Arduino module connected through the substrate unit 10 and the connection ports 141 of each of the plurality of gardening modules according to at least one of the learning level and the gardening level. In other words, the interface unit 140 may selectively set the connection of the connection ports 141 of the plurality of gardening modules according to the learning level and the gardening level. That is, by varying the connection of the connection port 141 according to the level (learning level, gardening level), it can be learned through the gardening module suitable for the user's level.

According to an embodiment of the present application, the learning target gardening module may be determined in consideration of the learning level and the gardening level at the same time. For example, the interface unit 140, when the learning level is advanced and the gardening level is beginner, the type of a plurality of gardening modules corresponding thereto for the gardening of the companion plant corresponding to the beginner gardening level and the connection port 141 connected thereto. Can be determined by considering the level of learning. A user with a high level of learning and a beginner level of horticulture may be an expert with Arduino modules but novice with gardening. Such a user can grow a companion plant using a gardening module corresponding to an advanced learning level even if a cultivated plant of a beginner horticultural level is grown. That is, by focusing on the horticultural level, which is a beginner level, rather than the advanced level of learning about the Arduino module, it may be fun or motivated to use the various horticultural modules to cultivate well plants. As such, according to one embodiment of the present application, the type of the companion plant and the specification (type of the gardening module) of the companion plant irrigation device 100 may be variously determined according to the combination of the gardening level and the learning level of the user.

A companion plant corresponding to the beginner horticultural level may be a plant having low horticultural difficulty, for example, a plant with low irrigation, such as a cactus, and a relatively unnecessary control of pests and weeds. In addition, companion plants corresponding to intermediate and advanced horticultural levels may be plants that have a relatively higher watering frequency and require more management than plants corresponding to the beginner horticultural level. In addition, the type of gardening module is a type of gardening module determined according to the level of horticulture or learning level, for example, in the case of beginner learning level, a gardening module required for manual watering, for example, a switch module 101, underwater The pump motor module 102, the power supply module 103 may be a type of gardening module at the entry level. That is, the beginner learning level may be a level that the user manually passes through the switch. In addition, in the intermediate level and advanced level, the type of gardening module of the beginner level may further include a soil humidity sensing module, a communication module (Bluetooth / Wi-Fi module), and is automatically watered by the sensing (intermediate), or the user terminal The watering can be controlled (advanced) by receiving a control signal by a user command from the 200. In addition, various Arduino-based modules may be used in addition to the above-described gardening module, and may be included in different gardening module types according to the learning level and the difficulty of each module.

As another example, when the learning level is a beginner level and the gardening level is advanced, the interface unit 140 may include a plurality of types of gardening modules for gardening of a companion plant corresponding to the advanced gardening level and the number of connection ports 141 connected thereto. This can be determined by considering the level of learning. A user with a beginner level of learning and a high level of horticulture may be a beginner to the Arduino module but a user with expertise in gardening. Such a user may grow a companion plant using a gardening module corresponding to a beginner learning level even if a cultivated plant of an advanced gardening level is grown. That is, since the user already knows how to cultivate a companion plant, focusing on learning Arduino modules, fun or motivation of learning Arduino modules may be motivated through gardening through Arduino modules and gardening modules.

Referring to FIG. 4, when one of the learning level and the gardening level is a beginner, the interface unit 140 may include the switch module 101, the submersible pump motor module 102, and the connection port 141 of the power supply module 103. ) Can be connected. In addition, when any one of the learning level and gardening level is any one of the intermediate, advanced, the interface unit 140 may connect the connection port 141 of all the plurality of modules. If the learning level and horticulture level is one of intermediate and advanced, the soil humidity sensing module or communication module may be further connected to the horticultural module connected in the case of the beginner.

Referring to the driving of the gardening module according to the level, when the learning level and the gardening level is beginner, the water pump motor module 102 is driven through the switch module 101 can be supplied to the companion plant. When both the learning level and the level of horticulture are beginner, cultivation of plants with easy gardening difficulty, but can be grown with a combination of simple gardening modules to be manually irrigated through the switch module 101. In addition, when the learning level and the horticultural level are intermediate, the water pump motor module 102 may be driven and watered to the companion plant based on the soil humidity detected by the soil humidity sensing module 104. In addition, when the learning level and the gardening level is advanced, the communication unit 110 or the communication module receives a control signal from the user terminal 200, and the water pump motor module 102 is driven based on the control signal to the companion plant. Can be watered. As the level of learning and horticultural level from beginner to advanced level, cultivation of high-difficulty companion plants, not only increases the horticulture module available for horticulture, but also adds various functions for watering.

In addition, when either the learning level or the gardening level is a beginner, the interface unit 140 connects the connection module 141 of the switch module 101, the submersible pump motor module 102, and the power supply module 103. In addition, the submersible pump motor module 102 may be driven through the switch module 101 to supply water to the companion plant. In addition, when the level of gardening is any one of intermediate, advanced, even if the learning level is the beginner interface unit 140 may connect the connection port 141 of all the plurality of modules. Based on the soil humidity sensed by the soil humidity sensing module 104, the submersible pump motor module 102 is driven to supply water to the plant or the communication unit 110 or the communication module receives a control signal from the user terminal 200, Based on the control signal, the submersible pump motor module 102 may be driven to feed the plant. Thus, even if the user's level of learning is relatively beginner, it is possible to easily and precisely cultivate intermediate or high-level plants requiring delicate and continuous attention.

According to an embodiment of the present disclosure, the communication unit 110 may receive weather information from the weather server 300. In exemplary embodiments, the weather information may include weather information, cloud amount information and sunshine amount information. The controller 130 controls a plurality of gardening modules based on weather information and soil humidity detected by the soil humidity sensing module, but controls the water pump motor module 102 and the power supply module 103 regardless of the level of gardening. Can be. For example, when the user is indifferent to the companion plant or the horticultural level is the beginner level, the watering is not performed properly. If this condition persists, the moisture in the soil will decrease, increasing the likelihood that the plants will wither. Even if the user is indifferent to the companion plant, the companion plant's health may be maintained in case of rain depending on the weather, but the companion plant may be withered when the companion plant is grown indoors, or when the sunny weather is maintained without rain. Still exists. Therefore, the controller 130 may control the plurality of horticultural modules so that the companion plants are watered to the companion plants before they wither due to the correlation between the weather information and the soil humidity. Specifically, the controller 130 may calculate the risk of the current soil humidity through weather information, cloud amount information and sunshine information, and if the risk is less than a preset threshold, the water pump motor module 102 regardless of the level of horticulture. ) And the power supply module 103 may be controlled to supply water to the companion plant. In addition, the communication unit 110 may transmit operation information for the case of controlling the plurality of gardening modules based on the weather information and the soil humidity to the user terminal 200. The user terminal 200 may output the operation information to provide information for the user to check the status of the companion plant.

The sensor unit 150 may include a weight sensor for sensing the weight of the plant and soil planted in the flower pot including the companion plant irrigation device 100 and an optical sensor for detecting the amount of light flowing from the top of the pot. The controller 130 may determine the type of the plant planted in the pollen through the weight and light quantity of the soil detected by the sensor unit 150. By way of example, plant types may include coniferous plants, deciduous plants, flowers, trees. The controller 130 may control the plurality of gardening modules based on at least one of weight and light amount, but may control the water pump motor module 102 and the power supply module 103 regardless of the level of gardening. In addition, the risk of the soil humidity can also be calculated through the weight and amount of light of the soil. Thus, as described above, when the user is indifferent to the companion plant, the water pump motor module 102 and the power supply module 103 regardless of the level of horticulture based on the risk of soil humidity according to the type of plant planted in the pot. ) Can be controlled to water the companion plant. In addition, the communication unit 110 may transmit the operation information for the case of controlling the plurality of gardening modules based on the weight and the amount of light of the soil to the user terminal 200. The user terminal 200 may output the operation information to provide information for the user to check the status of the companion plant.

In addition, the sensing data of the weight sensor and the sensing data of the optical sensor collected by the sensor unit 150 may be transmitted to the user terminal 200 through the communication unit 110. The user terminal 200 may determine the type and size of a plant planted in a flower pot including the companion plant irrigation device 100 based on the received sensing data. In addition, the user terminal 200 may calculate the amount of watering and the period based on the identified type and size of the plant to generate a control signal accordingly. In addition, when the learning level of the user is advanced, the user terminal 200 transmits the generated control signal to the plant irrigation device 100 to return the plant watering device 100 to supply the companion plant in accordance with the control signal. Can be.

5 is a diagram illustrating an example of the recommended plant information output from the user terminal according to an embodiment of the present application.

Referring to FIG. 5, the level determiner 120 may generate recommended plant information according to a learning level and a gardening level, and transmit the generated plant information to the user terminal 200 through the communication unit 110. According to an embodiment of the present invention, the gardening module of the companion plant watering device 100 may be determined according to the learning level, and the recommended plant information may be generated according to the gardening level that can be grown using the determined gardening module. For example, the recommended plant information may include information about a plant type, a plant name, a growth cycle, and an irrigation cycle.

In addition, the recommended plant information may be generated in consideration of the location information received from the user terminal 200, and may generate different types of recommended plant information according to the location information. In exemplary embodiments, the user terminal 200 may transmit location information to the communication unit 110. The location information may include GPS information of the user terminal 200 or an address, latitude, and longitude input by the user. The level determiner 120 may generate recommended plant information by considering a climate corresponding to the location of the user terminal 200 through the location information. For example, when the location of the user terminal 200 is close to a north where the temperature is relatively low, recommendation plant information may be generated to include conifers and coniferous plants, and the location of the user terminal 200 may be relatively high in temperature. If it is close to the high south, recommended plant information can be generated to include hardwoods and hardwoods. As such, the level determination unit 120 may generate different recommended plant information according to the location information based on the current location of the user terminal 200 and the climate according to the location. Meanwhile, the process of generating the recommended plant information by the level determination unit 120 may be performed by the user terminal 200.

Referring to FIG. 5, the user terminal 200 may output a plant type, a plant name, a growth cycle, and an irrigation cycle according to the recommended plant information. The user terminal 200 may output a plurality of plant images according to recommended plant information, and receive a user input for selecting one of the plurality of plant images. The user terminal 200 may generate virtual companion plant data based on the recommended plant information. For example, the virtual companion plant data may be generated based on a plant of a plant image selected by a user from among a plurality of plant images, and the virtual companion plant data may include a virtual companion plant that can be cultivated virtually. By providing recommended plant information in consideration of the above-described location information, virtual companion plant data including a virtual companion plant of the same species as a companion plant grown by an actual user may be generated. In addition, the user terminal 200 may receive a user input for the species of the companion plant actually grown, and generate virtual companion plant data including a virtual companion plant of the same species as the actual companion plant based on the user input. can do.

6 is a diagram illustrating an example of a virtual companion plant output from the user terminal according to an embodiment of the present application.

Referring to FIG. 6, the user terminal 200 may grow a virtual companion plant through the above-described application. The virtual companion plant 20 may be set to be cultivated in an ideal environment in which optimal sunshine and irrigation are periodically performed. The user terminal 200 may compare the actual companion plant and the virtual companion plant 20 grown by the user to provide a degree of growth of the actual companion plant. For example, the growth of the companion plant may be determined based on the image of the companion plant photographed through the camera module of the user terminal 200. In other words, by comparing the image of the actual companion plants and the virtual companion plants 20, the growth of the actual companion plants can be determined by comparing the color of the plants, the size of the plants, the size of the leaves, the degree of flowering of the plants. have. If the real companion plant and the virtual companion plant 20 are the same species, and the start date of the cultivation of the actual companion plant and the virtual companion plant data generation date are the same, the virtual companion plant 20 is cultivated in an optimal environment, It can have an ideal growth state. Therefore, by comparing the photographed image of the actual companion plants and the virtual companion plants 20, it is possible to determine the growth of the actual companion plants.

7 is a diagram illustrating an example of a virtual companion plant output from the user terminal according to an embodiment of the present application.

Referring to FIG. 7, the user terminal 200 may update the virtual companion plant data such that the virtual companion plant 20 grows in response to the actual growth of the companion plant. That is, the user terminal 200 virtually matches the shape of the virtual companion plant 20 based on the image 30 of the companion plant such that the virtual companion plant is set to the same growth degree as the actual companion plant 30. You can update your companion plant data. In addition, the user terminal 200 may compare the image 30 of the companion plant and the virtual companion plant data to calculate and output a growth score of the companion plant. By periodically updating the virtual companion plant data to be set at the same growth rate as that of the companion plant, the user can check whether the companion plant is currently growing well through the virtual companion plant of the user terminal 200 and cultivate the companion plant by assigning a growth score. Can inspire motivation. In addition, the user terminal 200 may recommend any one of a learning level and a gardening level according to the growth score. That is, if the degree of increase of the growth score is greater than or equal to a predetermined value, an improved learning level or gardening level may be recommended.

8 is a view illustrating a flow of a method of driving a companion plant watering device according to an embodiment of the present application.

The method of driving the companion plant irrigation apparatus illustrated in FIG. 8 is performed by the companion plant irrigation apparatus 100 described with reference to FIGS. 1 to 7. Therefore, even if omitted below, the contents described with reference to the companion plant watering device 100 through FIGS. 1 to 7 also apply to FIG. 8.

In operation S810, the communication unit 110 may receive user input information about learning information and gardening information of the user from the user terminal 200. The learning information and gardening information may be generated from the user terminal 200 receiving a user input. In detail, the user terminal 200 may receive the user input in response to gardening information including gardening common sense and learning information including arduino module common knowledge. In addition, the user terminal 200 may process the user input to generate information of the user input and transmit the data to the communication unit 110.

In operation S820, the level determiner 120 may determine the learning level and the gardening level of the user based on the information of the user input. In detail, the level determining unit 120 may determine the gardening level and the learning level by any one of the beginner, intermediate, and advanced based on a predetermined criterion based on the response. The level determining unit 120 may determine the gardening level and the learning level according to the number of correct answers in the gardening trivia quiz and the number of correct answers in the Arduino trivia quiz. The gardening level and the learning level determined by the level determining unit 120 are transmitted to the user terminal 200 through the communication unit 110, and the determination result of the gardening level and the learning level may be output through the user terminal 200. have.

In operation S830, the controller 130 may be connected to each of the plurality of gardening modules provided in the companion plant watering device 100 to generate a control signal for controlling each of the plurality of gardening modules. The plurality of gardening modules may include a switch module 101, a submersible pump motor module 102, a power supply module 103, and a soil humidity sensing module 104. In addition, the controller 130 may include an Arduino module. The plurality of gardening modules may be connected to the plant watering device 100 through the substrate unit (breadboard) 10.

In operation S840, the interface unit 140 may control at least one gardening module of the plurality of gardening modules and the connection port 141 of the controller 130 according to at least one of the learning level and the gardening level. The interface unit 140 may control the connection and blocking of the Arduino module connected through the substrate unit 10 and the connection ports 141 of each of the plurality of gardening modules according to at least one of the learning level and the gardening level. In other words, the interface unit 140 may selectively set the connection of the connection ports 141 of the plurality of gardening modules according to the learning level and the gardening level. For example, the interface unit 140 may include a plurality of types of gardening modules for gardening of companion plants corresponding to the beginner horticultural level and the number of connection ports 141 connected when the learning level is advanced and the horticultural level is beginner. Can be determined by considering the level of learning. In addition, when the learning level is a beginner level and the gardening level is advanced, the interface unit 140 learns a plurality of types of gardening modules for gardening of a companion plant corresponding to the advanced gardening level and the number of connection ports 141 connected thereto. This can be determined by considering the level.

When the learning level and the gardening level is beginner, the interface unit 140 may connect the switch module 101, the submersible pump motor module 102, and the connection port 141 of the power supply module 103. In addition, when the learning level and the gardening level is any one of the intermediate, advanced, the interface unit 140 may connect the connection port 141 of all the plurality of modules. If the learning level and gardening level is any one of intermediate, advanced, the soil humidity sensing module may be further connected to the gardening module connected in the case of the beginner.

When the learning level and the gardening level is beginner, the water pump motor module is driven through the switch module to supply water to the companion plant, and when the learning level and the gardening level are intermediate, the soil humidity sensing module When the submersible pump motor module is driven to supply the companion plant based on the detected soil humidity, and the learning level and the gardening level are high, the communication unit receives a control signal from the user terminal, and the control signal. Based on the submersible pump motor module is driven can be watered to the companion plant.

According to an embodiment of the present disclosure, the communication unit 110 may receive weather information from the weather server 300. In exemplary embodiments, the weather information may include weather information, cloud amount information and sunshine amount information. The controller 130 controls a plurality of gardening modules based on weather information and soil humidity detected by the soil humidity sensing module, but controls the water pump motor module 102 and the power supply module 103 regardless of the level of gardening. Can be. The communication unit 110 may transmit operation information for the case of controlling the plurality of gardening modules based on the weather information and the soil humidity to the user terminal 200.

According to one embodiment of the present application, the method of driving the companion plant watering device is a weight sensor to detect the weight of the plant and soil planted in the pot including the plant watering device 100, and the pollen by the light sensor The method may further include detecting an amount of light introduced from an upper portion of the. The controller 130 may control the plurality of gardening modules based on at least one of weight and light amount, but may control the water pump motor module 102 and the power supply module 103 regardless of the level of gardening.

The method of driving a companion plant irrigation device according to an embodiment of the present disclosure may be implemented in the form of program instructions that may be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, and the like, alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

The above description of the present application is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present application. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present application is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present application.

100: companion plant watering device
101: switch module
102: submersible pump motor module
103: power supply module
104: soil humidity sensing module
110: communication unit
120: level judgment
130: control unit
140: interface unit
150: sensor unit
200: user terminal
300: weather server

Claims (17)

In the companion plant watering device,
A communication unit configured to receive information of a user input about learning information and gardening information of the user from the user terminal;
A level determination unit that determines a learning level and a gardening level of the user based on the information of the user input;
A control unit connected to each of the plurality of gardening modules provided in the companion plant watering device and generating a control signal for controlling each of the plurality of gardening modules; And
An interface unit for controlling a connection port between at least one gardening module of the plurality of gardening modules and the controller according to at least one of the learning level and the gardening level;
Including but not limited to:
And the control unit selectively generates a control signal for controlling the gardening module connected by the interface unit. The method of claim 1,
The user terminal,
Receiving the user input in response to the gardening information including gardening common sense and learning information including arduino module common knowledge, transmitting the information of the user input with the user input data processed to the communication unit,
The level determination unit,
Based on the response, the gardening plant irrigation device to determine the gardening level and the learning level to any one of the beginner, intermediate, advanced according to a predetermined criterion. The method of claim 2,
The plurality of gardening modules,
Including switch module, submersible pump motor module, power supply module and soil humidity sensing module,
The control unit comprises an arduino module, companion plant watering device. The method of claim 3,
The interface unit,
And controlling connection and disconnection of the connection port of each of the plurality of gardening modules and the arduino module connected through the substrate unit according to at least one of the learning level and the gardening level. The method of claim 4,
The interface unit,
And selectively setting connection of connection ports of the plurality of gardening modules according to the learning level and the gardening level. The method of claim 5,
The interface unit,
If the learning level is advanced and the gardening level is beginner, the type of the plurality of horticultural modules for gardening of the companion plant corresponding to the beginner horticultural level and the number of connecting ports connected are determined in consideration of the learning level. ,
If the learning level is beginner and the gardening level is advanced, the type of the plurality of horticultural modules for gardening of the companion plant corresponding to the advanced gardening level and the number of connection ports connected are determined in consideration of the learning level. That is, a plant watering device. The method of claim 4,
When the learning level or the gardening level is beginner, the interface unit connects the connection port of the switch module, the submersible pump motor module, the power supply module,
If the learning level or the gardening level is one of intermediate, advanced, the interface unit is to connect the connection port of all the plurality of modules, companion plant watering device. The method of claim 4,
When the learning level is beginner, the submersible pump motor module is driven through the switch module to supply water to the companion plant,
When the learning level is intermediate, the submersible pump motor module is driven based on the soil humidity detected by the soil humidity sensing module to supply water to the companion plant,
If the learning level is advanced, the communication unit receives a control signal from the user terminal, the water pump motor module is driven based on the control signal, water supply to the companion plant, companion plant watering device. The method of claim 4,
The communication unit,
Receive weather information from a weather server,
The controller controls the plurality of gardening modules based on the soil humidity detected by the weather information and soil humidity sensing module, and controls the submersible pump motor module and the power supply module regardless of the level of gardening,
The communication unit,
Companion plant irrigation device for transmitting the operation information for the case of controlling a plurality of gardening modules based on the weather information and soil humidity to the user terminal. The method of claim 4,
A weight sensor for sensing the weight of plants and soil planted in pots including the companion plant irrigation device; And
Light sensor for detecting the amount of light flowing from the top of the pot,
More,
The control unit controls the plurality of gardening modules based on at least one of the weight and the light amount, and controls the water pump motor module and the power supply module irrespective of the level of gardening, companion plant irrigation device . The method of claim 4,
The level determination unit,
Generating recommended plant information according to the horticultural level and transmitting it to the user terminal through the communication unit;
The recommended plant information includes a plant type, plant name, growth cycle and information on the irrigation cycle, companion plant irrigation device. The method of claim 11,
The recommended plant information is generated in consideration of the location information received from the user terminal,
Companion plant irrigation device to generate different recommended plant information according to the location information. The method of claim 9,
The user terminal,
Generate virtual companion plant data based on the recommended plant information, and the virtual companion plant data includes a virtual companion plant that can be cultivated virtually;
Update the virtual companion plant data so that the virtual companion plant grows in response to the growth of the companion plant;
And determining the growth of the companion plant based on the image of the companion plant photographed through the camera module of the user terminal. The method of claim 13,
The user terminal,
Update the virtual companion plant data to correspond to the companion plant in the form of the virtual companion plant based on the image of the companion plant;
Comparing the image of the companion plant and the virtual companion plant data to calculate and output the growth score of the companion plant, companion plant watering device. The method of claim 12,
The user terminal,
According to the growth score, one of the learning level and the horticultural level to recommend a companion plant watering device. In the driving method of the companion plant watering device,
Receiving information of a user input for learning information and gardening information from a user terminal;
Determining a learning level and a gardening level of the user based on the information of the user input;
Generating a control signal connected to each of the plurality of gardening modules provided in the companion plant watering device to control each of the plurality of gardening modules; And
Controlling a connection port of at least one gardening module of the plurality of gardening modules and the controller according to at least one of the learning level and the gardening level,
Including but not limited to:
The generating of the control signal may include selectively generating a control signal for controlling a gardening module to which the connection port is connected. A computer-readable recording medium having recorded thereon a program for executing the method of claim 16 on a computer.

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