CN111023475B - Network system, server, and information processing method - Google Patents

Abstract

Provided is a technique for effectively utilizing an air conditioner. Provided is a network system provided with: an air conditioner (300); one or more electrical devices (200); and a server (100) that controls the air conditioner (300) based on information from the one or more electrical devices (200).

Description

Network system, server, and information processing method

Technical Field

The present invention relates to a technique of an air conditioner for reducing odor, dust, temperature variation of a space.

Background

Various techniques have been proposed for using an air conditioner for reducing the odor of a space. For example, japanese patent laying-open No. 2005-147793 (patent document 1) discloses an odor measuring device. According to patent document 1, three or more types of odor sensors having different sensitivity characteristics to odor and an arithmetic control unit that processes data of output values of the various types of odor sensors are provided. The arithmetic control unit processes data of the sensor output correction value as follows: output values of a plurality of odor sensors for a gas to be measured are corrected based on output values of the odor sensors for a odorless reference gas, and a plurality of sensor output correction values are respectively obtained on mutually different coordinate axes extending from an origin of a plane orthogonal coordinate system, so as to obtain element odor vectors respectively defined in a plurality of quadrants of the coordinate system.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open No. 2005-147793

Disclosure of Invention

Problems to be solved by the invention

The purpose of the present invention is to eliminate odor caused by pet excrement.

Means for solving the problems

According to an aspect of the present invention, there is provided a network system including: an air conditioner; one or more electrical devices; and a server that controls the air conditioner based on information from the one or more electrical devices.

Effects of the invention

As described above, according to the present invention, it is possible to eliminate odor caused by excrement of pets.

Drawings

Fig. 1 is a schematic diagram showing an overall configuration and an outline of an operation of a network system 1 according to a first embodiment.

Fig. 2 is a diagram for explaining one mode of the configuration of the server 100 according to the first embodiment.

Fig. 3 is a diagram showing control information data 121 according to the first embodiment.

Fig. 4 is a schematic diagram showing a specific example of control information data according to the first embodiment.

Fig. 5 is a diagram showing the device information data 122 according to the first embodiment.

Fig. 6 is a flowchart showing information processing in the server 100 according to the first embodiment.

Fig. 7 is a diagram for explaining one mode of the configuration of the electric apparatus 200 according to the first embodiment.

Fig. 8 is a diagram for explaining one mode of the configuration of the air cleaner 300 according to the first embodiment.

Fig. 9 is a flowchart showing information processing in the air cleaner 300 according to the first embodiment.

Fig. 10 is a diagram showing device information data 122B according to the second embodiment.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In the following description, the same members are given the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

< first embodiment >

< overall configuration of network System 1 >

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to fig. 1. The network system 1 according to the present embodiment mainly includes: an electric device such as a server 100, a microwave oven 200A, and an air conditioner 200B, and an air conditioner. The electric device and the air conditioner can communicate with the server 100 via the router 400 and the internet.

The electric devices are not limited to the microwave oven 200A and the air conditioner 200B, and may be home appliances such as a refrigerator, a washing machine, a vacuum cleaner, an automatic cooking pot, an electric cooker, a lighting lamp, a pet toilet, AV (audio/video) devices such as a personal computer, a hard disk recorder, a projector, a music player, a game machine, and a speaker, and residential devices such as an IH cooking heater, a gas range, a ceiling lighting, a solar generator, an intercom, a water heater, a ventilation fan, and a hot water toilet seat controller. Hereinafter, these electric devices will be collectively referred to as electric devices 200.

The air conditioner may be an air cleaner, an air conditioner, a cooling device, a heating device, a humidifier, a dehumidifier, or the like. Hereinafter, a case where the air cleaner 300 having an air cleaning function is used as an air conditioner will be described.

< summary of operation of network System 1 >

The following describes an outline of the operation of the network system 1 according to the present embodiment. In the present embodiment, the electrical device 200 uploads the operation state, measurement results, and the like of the device to the server 100. Server 100 transmits a control command to air cleaner 300 in accordance with the operation of electrical device 200 and the ambient environment.

For example, the air cleaner 300 generally performs various operations according to operation commands of a dust sensor, an odor sensor, and a user. At this time, when heating cooking is started in the microwave oven 200A, the stove, or the like, the server 100 instructs the air cleaner 300 to increase the operation intensity. Accordingly, the air cleaner 300 can increase the operation strength before the odor sensor detects the odor, and thus, the degree of the space being filled with the odor, that is, the effect of removing the odor can be improved.

Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail.

< hardware configuration of Server 100 >

First, an embodiment of the configuration of the server 100 will be described, in which the server 100 configures the network system 1 according to the present embodiment. Referring to fig. 2, the server 100 includes, as main components: a CPU (Central Processing Unit) 110, a memory 120, an operation section 140, and a communication interface 160.

The CPU110 controls each part of the server 100 by executing a program stored in the memory 120. For example, the CPU110 executes various processes described later by executing programs stored in the memory 120 and referring to various data.

The memory 120 is implemented by various RAMs, various ROMs, and the like, and the memory 120 may be included in the server 100, or may be removable to various interfaces of the server 100, or may be a storage medium of other devices accessible from the server 100. The memory 120 stores a program executed by the CPU110, data generated by the CPU110 executing the program, input data, control information data 121, device information data 122, a database used for another service according to the present embodiment, and the like.

Referring to fig. 3, the control information data 121 according to the present embodiment includes, for example, for each control command: identification information of the control command, a control command for the air cleaner 300, conditions under which the control command should be transmitted, and the like. The condition includes, for example, the type of electrical device 200, operation information of electrical device 200, measurement information, and the like.

As a specific example in the case where the electric appliance 200 is the microwave oven 200A, as shown in fig. 4, the control information data 121 registers a voice message from the air cleaner 300, the operation intensity of the air cleaner 300, and the like according to the type of cooking. For example, it is preferable to reduce the intensity of the air cleaning operation when heating japanese cuisine, or to set the intensity of the air cleaning operation to a medium level when heating western cuisine, or to enhance the intensity of the air cleaning operation when heating chinese cuisine, liquor, and the like. Further, it is preferable that the intensity of the air cleaning operation and the operation time are registered based on the cooking time and the heating time.

Of course, the type of cooking is not limited to the type of japanese cuisine, western cuisine, and the like. The following control may be considered: the "salted saury" was judged to produce odor and to enhance the running strength, and the "dried radish strips" were judged to not produce odor and to not enhance the running strength. In addition, the operation intensity may be determined according to "cooking method", for example, "barbecue cooking", "fire cooking", "cooking" or "stew cooking". Further, the following control may be considered: the operation intensity is determined according to the raw material used, for example, when cooking is performed using garlic, the operation intensity is enhanced.

The control target is not limited to the operation intensity, and the operation mode may be changed. For example, the CPU110 may operate the air cleaner 300 in the silent mode when heating the japanese cuisine, and may operate the air cleaner 300 in the deodorization mode when heating the chinese cuisine.

Referring to fig. 5, equipment information data 122 according to the present embodiment mainly includes, for each electrical equipment 200 and air cleaner 300: the correspondence relationship between the identification information of the device, the identification information of the user of the device, the name of the user of the device, the communication address of the device, and the like.

Returning to fig. 2, the operation unit 140 receives a command from a service manager or the like and inputs the command to the CPU 110.

Communication interface 160 transmits data from CPU110 to other devices such as air cleaner 300 and electrical appliance 200 via the internet, a carrier network, a router, and the like. In contrast, communication interface 160 receives data from other devices such as electrical appliance 200 and air cleaner 300 via the internet, a carrier network, a router, and the like, and transmits the data to CPU 110.

< information processing in Server 100 >

Next, with reference to fig. 6, information processing in the server 100 according to the present embodiment will be described. When CPU110 of server 100 receives data from electrical device 200 via communication interface 160, the following processing is executed.

CPU110 acquires identification information of electrical device 200 from the received data (step S112). CPU110 searches control information data 121 for a condition that is satisfied based on the operation information and measurement information of electrical device 200 included in the received data (step S114).

If the condition is satisfied (yes in step S116), CPU110 refers to device information data 122, identifies the user corresponding to electrical device 200, and identifies air cleaner 300 corresponding to the user (step S118). The CPU110 transmits a control command that meets the conditions to the air cleaner 300 via the communication interface 160 (step S120).

Further, CPU110 preferably transmits an instruction to return to the original operation to air cleaner 300 via communication interface 160 when the condition is not satisfied based on the information from electrical device 200.

Further, it is preferable that a duration corresponding to each condition, cooking time, cooking temperature, and the like is set in advance, and after the duration elapses after the condition is no longer satisfied, CPU110 transmits an instruction indicating a return to the original operation to air cleaner 300 via communication interface 160.

However, a duration time corresponding to each condition, cooking time, cooking temperature, and the like may be set in advance, and after the duration time has elapsed after step S118, CPU110 may transmit an instruction to return to the original operation to air cleaner 300 via communication interface 160.

If no matching condition is present (no in step S116), CPU110 waits for data from another electrical device 200.

< construction of Electrical apparatus 200 >

One mode of the configuration of electrical device 200 constituting network system 1 will be described with reference to fig. 7. As main constituent elements, the electrical device 200 according to the present embodiment includes: a CPU210, a memory 220, a display 230, an operation unit 240, a communication interface 260, a speaker 270, a microphone 280, a device driving unit 290, and various sensors 299.

The CPU210 controls each part of the electric device 200 by executing a program stored in the memory 220 or an external storage medium.

Memory 220 is implemented by various RAMs, various ROMs, and the like, and memory 220 may be included in electric device 200, or may be removable to various interfaces of electric device 200, or may be a storage medium of other devices accessible from electric device 200. The memory 220 stores: a program executed by the CPU210, data generated by the CPU210 executing the program, data input via the operation section 240, data received from a remote controller, data received from the server 100 via a router or the internet, and the like.

The display 230 outputs text, images, and the like based on a signal from the CPU 210. The display 230 may be an LED lamp or the like.

The operation unit 240 is implemented by a button, a touch panel, or the like, receives a command from a user, and inputs the command to the CPU 210. The display 230 and the operation unit 240 may constitute a touch panel.

The communication interface 260 is implemented by a communication module such as a wireless LAN or a wired LAN. The communication interface 260 exchanges data with other devices such as the server 100 by wired communication or wireless communication. That is, CPU210 transmits the received operation command, the current operating state, and the measurement results measured by the various sensors to another device such as server 100 via communication interface 260, or conversely receives various information from another device such as server 100.

The speaker 270 outputs a voice message or the like based on voice data from the CPU 210. The microphone 280 acquires a voice of the user or the like, and inputs voice data to the CPU 110.

The device driving unit 290 controls each unit (motor, heater, antenna, etc.) of the electric device based on a signal from the CPU 210. For example, in the microwave oven 200A, the device driving unit 290 may be an antenna or a rotary table for heating and cooking.

The various sensors 299 are a temperature sensor, a humidity sensor, a dust sensor, an odor sensor, a human body sensor, and the like, and input measurement results to the CPU 210.

< construction of air purifier 300 >

An embodiment of the configuration of the air conditioner 300 constituting the network system 1 will be described with reference to fig. 8. The air cleaner 300 according to the present embodiment includes, as main components: a CPU310, a memory 320, a display 330, an operation section 340, a communication interface 360, a speaker 370, a microphone 380, a device driving section 390, a dust sensor 398, and an odor sensor 399.

The CPU310 controls each part of the air cleaner 300 by executing a program stored in the memory 320 or an external storage medium.

The memory 320 is implemented by various RAMs, various ROMs, and the like, and the memory 320 may be included in the air cleaner 300, or may be removable to various interfaces of the air cleaner 300, or may be a storage medium of other devices accessible from the air cleaner 300. The memory 320 stores: a program executed by the CPU310, data generated by the CPU310 executing the program, data input via the operation unit 340, data received from a remote controller, data received from the server 100 via a router or the internet, and the like.

The display 330 outputs text, images, and the like based on a signal from the CPU 310. The display 330 may be an LED lamp or the like.

Operation unit 340 is implemented by a button, a touch panel, or the like, receives a command from a user, and inputs the command to CPU 310. The display 330 and the operation unit 340 may constitute a touch panel.

The communication interface 360 is implemented by a communication module such as a wireless LAN or a wired LAN. The communication interface 360 transmits and receives data to and from other devices such as the server 100 by wired or wireless communication. That is, the CPU310 receives a control command and various information from another device such as the server 100 or transmits various information to the other device via the communication interface 360.

Speaker 370 outputs voice messages and the like based on data from CPU 310. The microphone 380 acquires the voice of the user or the like, and inputs the voice data to the CPU 310.

The dust sensor 398 detects dust contained in the air, and inputs the detection result to the CPU 310.

The odor sensor 399 detects odors contained in the air, and inputs the detection result to the CPU 310.

The device driving unit 390 controls each unit (motor, heater, etc.) of the electric device based on a signal from the CPU 310. For example, in the present embodiment, CPU310 receives commands for various modes, air volume, wind direction, humidification, dehumidification, odor removal, ion generation, and the like from server 100 via operation unit 340, a remote controller, or communication interface 360, and controls device driving unit 390 based on the commands.

Further, in the present embodiment, in the automatic operation mode, when the dust sensor 398 detects dust or the odor sensor 399 detects odor, the CPU310 controls the apparatus driving part 390 to increase the intensity of the air cleaning operation. In particular, the CPU310 increases or decreases the intensity of the air cleaning operation based on the control command from the server 100, regardless of the detection results of the dust sensor 398 and the odor sensor 399.

< information processing in air cleaner 300 >

Next, with reference to fig. 9, information processing in the air cleaner 300 according to the present embodiment will be described. When CPU310 of air cleaner 300 receives a control command from server 100 via communication interface 360 (yes in step S132), device driver 390 is operated in accordance with the control command (step S134). For example, when microwave oven 200A starts cooking, CPU310 sets the intensity of the air cleaning operation to be high based on a control command from server 100.

When the CPU110 has not received the control command from the server 100 (no in step S132), the dust sensor 398 and the odor sensor 399 are caused to measure (step S136). When dust or odor is detected (yes in S138), the CPU310 sets the intensity of the air cleaning operation to be strong by the device driving section 390. (step S140). If no dust or odor is detected (no in step S138), the CPU310 sets the intensity of the air cleaning operation to be weak by the device driving unit 390 (step S142).

< second embodiment >

Preferably, electrical device 200 and air cleaner 300 are associated not only with the user but also with the location where the device is placed, for example, identification information of the house where the device is placed.

Specifically, as shown in fig. 10, the device information data 122B mainly includes, for each of the electrical devices 200 and the air cleaner 300: the correspondence relationship between the identification information of the device, the identification information of the user of the device, the name of the user of the device, the communication address of the device, the identification information of the house in which the device is placed, and the like.

In this case, in step 118 in fig. 6, CPU110 refers to device information data 122B, identifies the user and the house corresponding to electrical device 200, and identifies air cleaner 300 corresponding to the user and the house.

< third embodiment >

In the above embodiment, the microwave oven 200A is described as an example of the electric appliance 200, but the electric appliance 200 is not limited to the microwave oven 200A.

For example, the server 100 may control the air cleaner 300 according to cooking of an automatic cooking pot, operation of a switch of a refrigerator, and operation of a ventilation fan.

Alternatively, the control unit of the pet toilet may provide the server 100 with information that the pet has excreted, and the server 100 may operate the air cleaner 300. Further, the control unit of the pet toilet may supply the amount of excrement of the pet to the server 100, and the server 100 may operate the air cleaner 300 according to the excrement. For example, the CPU110 of the server 100 may perform the following control: if the amount of excrement is less than 10 g, the operation intensity is "weak" and the operation time is "10 minutes" are transmitted to the air cleaner 300 through the communication interface 160, if the amount of excrement is 10 g or more and less than 50, the operation intensity is "medium" and the operation time is "15 minutes" are transmitted to the air cleaner 300 through the communication interface 160, and if the amount of excrement is 50 or more, the operation intensity is "strong" and the operation time is "20 minutes" are transmitted to the air cleaner 300 through the communication interface 160.

< fourth embodiment >

Further, in the above-described embodiment, the odor that is expected to occur due to the operating state of the electrical appliance 200 is effectively suppressed by the air conditioner. However, the present invention is not limited to this embodiment. For example, the above-described technology may be applied to the network system 1, which network system 1 effectively suppresses contamination of air expected to occur due to the operating state of the electrical appliance 200 by the air conditioner. Alternatively, the above-described technique may be applied to the network system 1, which network system 1 effectively suppresses temperature changes expected to occur due to the operating state of the electrical appliance 200 by the air conditioner.

< fifth embodiment >

A part or all of the functions of each device of the network system 1 of the above embodiment may be executed by another device. For example, a part or all of each function of the server 100, the electrical equipment 200, and the air cleaner 300 may be charged by another device, a part or all of each function of the server 100, the electrical equipment 200, and the air cleaner 300 may be charged by a plurality of devices, or a part or all of any one of the server 100, the electrical equipment 200, and the air cleaner 300 may be charged by any one of the server 100, the electrical equipment 200, and the air cleaner 300. For example, the functions of the server 100 may be implemented by a plurality of servers in the cloud, or may be implemented by a smartphone capable of communicating with the air purifier 300, or may be implemented locally by the air purifier 300.

< summary >

In the above-described embodiment, there is provided a network system including: an air conditioner; one or more electrical devices; and a server that controls the air conditioner based on information from the one or more electrical devices.

Preferably, the air conditioner includes an odor sensor, and the indication from the server is prioritized over a detection result of the odor sensor.

Preferably, the server controls the air conditioner based on a kind of smell expected to be emitted from the one or more electric devices.

Preferably, the server controls the air conditioner based on the degree of smell expected to be emitted from the one or more electric devices.

Preferably, the server controls the air conditioner based on a change in temperature expected to be emitted from the one or more electric devices.

Preferably, the server controls the air conditioner based on a degree of pollution of indoor air expected to be emitted from the one or more electric devices.

In the above embodiment, there is provided a server including: an air conditioner; one or more electrical device processors; a communication interface for performing communication; a processor that controls the air conditioner via the communication interface based on information from the one or more electrical devices.

In the above embodiment, there is provided an information processing method including: a step of acquiring information from one or more electrical devices; and controlling the corresponding air conditioner based on the information.

It should be understood that the embodiments disclosed herein are illustrative in all respects, and not restrictive. The scope of the present invention is defined by the terms of the claims, is not defined by the description above, and includes all modifications equivalent in meaning and scope to the terms of the claims.

Description of the reference numerals

1: network system

100: server

110：CPU

120: memory device

121: control information data

122: device information data

122B: device information data

140: operation part

160: communication interface

200: electrical device

200A microwave oven

200B: air conditioner

210：CPU

220: memory device

230: display device

240: operation part

260: communication interface

270: loudspeaker

280: microphone (CN)

290: device driving section

299: sensor with a sensor element

300: air purifier

310：CPU

320: memory device

330: display device

340: operation part

360: communication interface

370: loudspeaker

380: microphone (CN)

390: device driving section

398: dust sensor

399: smell sensor

400: router

Claims (6)

1. A network system is characterized by comprising:

an air cleaner;

a pet toilet; and

a server which determines an air cleaner located in the same room as the pet litter box based on the information on the amount of excretion from the pet litter box by storing data indicating a location where the air cleaner is disposed and a location where the pet litter box is disposed, and controls the air cleaner.

2. The network system of claim 1,

the air cleaner includes an odor sensor, and the instruction from the server is prioritized over a detection result of the odor sensor.

3. The network system according to claim 1 or 2,

the more the discharge amount is, the more the server intensifies the air volume of the air cleaner.

4. The network system according to claim 1 or 2,

the more the discharge amount is, the longer the operation time of the air cleaner is by the server.

5. A server is characterized by comprising:

the pet toilet comprises an air purifier, a pet toilet and a communication interface for communication;

a memory storing data representing a location where the air purifier is configured and a location where the pet litter box is configured; and

and a processor which determines an air cleaner located in the same room as the pet litter box based on the excretion information from the pet litter box with reference to the data, and controls the air cleaner via the communication interface.

6. An information processing method is characterized by comprising:

a step of acquiring excretion information from a pet toilet;

a step of referring to data indicating a position where an air cleaner is disposed and a position where the pet litter box is disposed; and

and a step of determining an air cleaner located in the same room as the pet litter box based on the excretion information, and controlling the air cleaner.

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