CN107346104B - Indoor anemoscope and intelligent home system - Google Patents

Abstract

The utility model relates to an indoor anemoscope and intelligent home systems, this indoor anemoscope includes: the wind wheel is arranged at an indoor ventilation opening; the magnet is fixed on the wind wheel; the Hall sensing module is arranged adjacent to the wind wheel; the processor is in communication connection with the Hall sensing module; wherein the processor is configured to: and acquiring the induction information of the Hall induction module. The utility model discloses an install indoor anemoscope, not only can measure outdoor wind speed data, can play the effect of this indoor anemoscope of protection moreover through installing indoor to can increase this indoor anemoscope's life-span.

Description

Indoor anemoscope and intelligent home system

Technical Field

The utility model relates to an anemoscope technical field especially relates to an indoor anemoscope and intelligent home systems.

Background

At present, an intelligent home is a development trend, various intelligent home devices are new, an anemometer is used as an environment measuring instrument for detecting wind power data of the environment, a good member can be added to an intelligent home center, and home trip strategies of the intelligent home center are enriched. However, the conventional anemometers are usually installed outdoors, which easily causes damage to the anemometers, and thus, the anemometers need to face various natural environments, such as: rain and snow weather, lightning stroke and the like, and the service life of the solar water heater is short due to the fact that the solar water heater is blown by wind and exposed to the sun.

Disclosure of Invention

In view of this, the present disclosure provides an indoor anemometer and an intelligent home system to solve the above technical problems.

In order to achieve the purpose, the technical scheme adopted by the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, an indoor anemometer is provided, including:

the wind wheel is arranged at an indoor ventilation opening;

the magnet is fixed on the wind wheel;

the Hall sensing module is arranged adjacent to the wind wheel;

the processor is in communication connection with the Hall sensing module;

wherein the processor is configured to: and acquiring the induction information of the Hall induction module.

A further improvement of the indoor anemometer of the present disclosure is that the indoor anemometer further comprises a storage module in communication with the processor, the processor further configured to: and storing the sensing information to the storage module.

The indoor anemometer is further improved in that the indoor anemometer further comprises a WiFi module in communication connection with the processor, so that the indoor anemometer is in communication connection with a home control center or a mobile terminal through the WiFi module.

The indoor anemometer is further improved in that the Hall sensing module and the wind wheel are positioned at the same horizontal position

The indoor anemometer is further improved in that the Hall sensing module is a switch type Hall sensor.

The indoor anemometer is further improved in that the induction information is the on and off times of the Hall induction module; when the wind wheel rotates for one circle, the Hall sensing module performs one-time opening or closing action.

According to a second aspect of the embodiments of the present disclosure, a smart home system is provided, including:

a home system processing module;

the indoor anemometer is in communication connection with the home system processing module;

the home system processing module is configured to:

acquiring sensing information of the indoor anemometer;

and generating prompt information according to the induction information.

The further improvement of the intelligent home system of the present disclosure lies in that, according to the induction information generates the prompt information, including:

calculating the outdoor wind power value according to the opening and closing times of the Hall sensing module;

and generating corresponding prompt information according to the outdoor wind power value.

The intelligent home system is further improved in that the prompt information comprises an outdoor wind power value, a prompt for dealing with outdoor wind power and/or a suggestion for dealing with outdoor wind power.

The further improvement of the intelligent home system is that the intelligent home system further comprises a mobile terminal in communication connection, and the induction information in the storage module is inquired and called through a preset application on the mobile terminal.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects: the utility model discloses an install indoor anemoscope, not only can measure outdoor wind speed data, can play the effect of this indoor anemoscope of protection moreover through installing indoor to can increase this indoor anemoscope's life-span.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a block diagram of an indoor anemometer according to an exemplary embodiment;

fig. 2 is a block diagram illustrating a smart home system according to an exemplary embodiment.

Detailed Description

The present disclosure will be described in detail below with reference to specific embodiments shown in the drawings. These embodiments do not limit the disclosure, and structural, methodological, or functional changes made by those skilled in the art according to these embodiments are included in the scope of the disclosure.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

As shown in fig. 1, fig. 1 is a block diagram illustrating a structure of an indoor anemometer according to an exemplary embodiment. The indoor anemometer 100 of the present disclosure rotates the wind wheel 20 mainly by using an indoor and outdoor air pressure difference, and determines outdoor wind speed data by a rotational speed, so that a user can make a trip plan or other activities according to the wind speed data. In addition, the indoor anemometer 100 of the present disclosure is added to the smart home system, so that data in various aspects of the smart home system can be more comprehensive.

The indoor anemometer 100 of the present disclosure includes: a wind wheel 20, a magnet 30, a hall sensing module 40, and a processor 10. The wind wheel 20 is installed at an indoor air vent, such as a ventilation channel. The hall sensing module 40 is disposed adjacent to the wind wheel 20, and can be installed on a wall of the ventilation channel, and the distance between the hall sensing module 40 and the wind wheel 20 is within the distance that the hall sensing module 40 can sense the magnet 30.

Preferably, in the present disclosure, the hall sensing module 40 is located at the same horizontal position as the wind wheel 20, and is configured such that the hall sensing module 40 can sense the magnetic field change caused by the magnet 30 more accurately. Optionally, the hall sensing module 40 of the present disclosure is a switch-type hall sensor, and the magnet 30 causes a magnetic field around the switch-type hall sensor to change during the rotation of the magnet 30 with the wind wheel 20. In the present disclosure, the wind wheel 20 drives the magnet 30 to rotate together through the air pressure difference between the indoor and outdoor, the magnet 30 rotates along with the wind wheel 20, and at the same time, the magnetic field around the wind wheel 20 changes, and at this time, the switch type hall sensor senses the change of the magnetic field, and records the number of turns of the rotation of the wind wheel 20 through the change of the magnetic field. Specifically, the switching type hall sensor performs an on or off operation every time the wind wheel 20 rotates one turn.

The processor 10 is communicatively coupled to the hall sensing module 40. Wherein the processor 10 is configured to: sensing information of the hall sensing module 40 is acquired. The sensing information is the number of times of switching on and off the hall sensing module 40; wherein, when the wind wheel 20 rotates one turn, the hall sensing module 40 performs one on or off action. That is, the wind wheel 20 drives the magnet 30 to rotate, the magnet 30 causes the change of the peripheral magnetic field, and the processor 10 records the number of turns of the wind wheel 20 through the change of the magnetic field acquired by the hall sensor module.

Further, the indoor anemometer 100 further comprises a memory module 50 communicatively connected to the processor 10, the processor 10 further being configured to: the sensing information is stored to the memory module 50. In short, the number of times the hall sensing module 40 is turned on or off, recorded by the processor 10, is stored in the storage module 50, and is configured to be conveniently queried and called by the user.

The indoor anemometer 100 of the present disclosure further includes a WiFi (Wireless Fidelity) module 60 in communication connection with the processor 10, so that the indoor anemometer 100 is in communication connection with the home control center or the mobile terminal through the WiFi module 60. The indoor anemometer 100 can be added into the smart home system through the WiFi module 60, so that the smart home system is more perfect, the related data types are richer, and multi-directional data analysis is provided for a user.

The specific working principle of the anemometer 100 of the present disclosure is as follows: when the outdoor wind speed changes, the indoor air pressure difference also changes, and because the indoor air pressure difference and the outdoor air pressure difference exist, the air flow of an indoor ventilation channel is caused, the air flow drives the wind wheel 20 installed at the ventilation opening to rotate, the wind wheel 20 rotates and simultaneously drives the magnet 30 to rotate along with the wind wheel 20, so that the change of the peripheral magnetic field of the Hall sensing module 40 is caused, the magnetic field change is captured by the Hall sensing module 40, at the moment, when the wind wheel 20 rotates for one circle, the Hall sensing module 40 performs one-time opening or closing action, the processor 10 records the number of the rotating circles of the wind wheel 20 through the opening or closing of the Hall sensing module 40, and finally recorded values are stored in the storage module 50 for a user to inquire and call through preset application. In addition, the data acquired in real time can be uploaded to the smart home system through the WiFi module 60, so as to facilitate the adoption of the whole family policy, for example: when wind speed is great, smart home systems can control smart window and close the operation, so do not have under the condition of people at home, also can manage and control the equipment at home in time.

Specifically, in an embodiment of the present disclosure, when the outdoor wind speed is high, the indoor and outdoor air pressure difference is increased, so that the wind wheel 20 rotates at a high speed, and the number of times of opening or closing the hall switch is increased, thereby determining the relative wind speed. In the present disclosure, the reason for using the relative wind speed is that the user can perform a custom policy through experience, that is, when data of the data report detected by the indoor anemometer 100 is large, what policy should be used by the smart home system is managed and controlled through practice.

As shown in fig. 2, according to another aspect of the embodiment of the present disclosure, there is further provided an intelligent home system 200, where the intelligent home system 200 includes: a home system processing module 201, and the indoor anemometer 100 as described above. This indoor anemometer 100 can be through indoor anemometer 100's wiFi module 60 and home systems processing module 201 communication connection, and wherein, this home systems processing module 201 is configured to: acquiring sensing information of the indoor anemometer 100; and generating prompt information according to the induction information.

Further, the generating of the prompt information according to the sensing information specifically includes:

calculating an outdoor wind power value according to the opening and closing times of the Hall sensing module 40;

and generating corresponding prompt information according to the outdoor wind power value.

Specifically, the home system processing module 201 generates corresponding prompt information through data values by acquiring data in the storage module 50, or may directly perform a countermeasure for operating other devices in the control room. The prompting message may include an outdoor wind value, a reminder to respond to outdoor wind, and/or a recommendation to respond to outdoor wind.

Optionally, the smart home system 200 further includes a mobile terminal 202 connected in communication, and the sensing information in the storage module 50 is queried and called through a preset application on the mobile terminal 202. That is, the mobile terminal 202 in communication connection with the smart home system 200 can query and call the acquired sensing information of the indoor anemometer 100 in real time, so that a user can conveniently check the outdoor wind speed anytime and anywhere. The working principle of the indoor anemometer 100 is described in detail in the above-mentioned embodiment of the indoor anemometer, and thus, the detailed description thereof is omitted.

The utility model discloses an install in indoor anemoscope and have its intelligent home systems, this indoor anemoscope not only can measure outdoor wind speed data, can play the effect of this indoor anemoscope of protection moreover through installing in indoor to can increase the life-span of this indoor anemoscope.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. An indoor anemometer comprising:

the wind wheel is arranged at an indoor ventilation opening;

the magnet is fixed on the wind wheel;

the Hall sensing module is arranged adjacent to the wind wheel and is arranged on the wall of the ventilation channel;

the processor is in communication connection with the Hall sensing module;

wherein the processor is configured to: acquiring induction information of the Hall induction module, and generating prompt information according to the induction information; the generating of the prompt message according to the induction message includes: calculating an outdoor wind power value according to the opening and closing times of the Hall sensing module; and generating corresponding prompt information according to the outdoor wind power value.

2. The indoor anemometer of claim 1 further comprising a storage module communicatively connected to the processor, the processor further configured to: and storing the sensing information to the storage module.

3. The indoor anemometer according to claim 1, further comprising a WiFi module in communication connection with the processor, so that the indoor anemometer is in communication connection with a home control center or a mobile terminal through the WiFi module.

4. The indoor anemometer according to claim 1, wherein the hall sensing module is located at the same horizontal position as the wind wheel.

5. The indoor anemometer according to claim 1, wherein the hall sensing module is a switching hall sensor.

6. The indoor anemometer according to claim 5, wherein the sensing information is a number of times the hall sensing module is turned on and off; when the wind wheel rotates for one circle, the Hall sensing module performs one-time opening or closing action.

7. The utility model provides an intelligent home systems which characterized in that includes:

a home system processing module;

the indoor anemometer according to any one of claims 1 to 6, communicatively connected to the home system processing module;

the home system processing module is configured to:

acquiring sensing information of the indoor anemometer;

generating prompt information according to the induction information, wherein the generating prompt information according to the induction information comprises the following steps: calculating an outdoor wind power value according to the opening and closing times of the Hall sensing module;

and generating corresponding prompt information according to the outdoor wind power value.

8. The smart home system according to claim 7, wherein the prompt message includes an outdoor wind power value, a reminder to deal with outdoor wind power, and/or a suggestion to deal with outdoor wind power.

9. The smart home system according to claim 7, further comprising a mobile terminal in communication connection, wherein the sensing information in the storage module is queried and called through a preset application on the mobile terminal.

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