An intelligent ceiling fan device

Abstract

The utility model relates to the technical field of home appliance discloses a kind of intelligent ceiling fan device, including ceiling fan module, including at least one group of ceiling fan;Monitoring module, the monitoring module includes environmental monitoring unit and ceiling fan monitoring unit, the ceiling fan monitoring unit is arranged in the ceiling fan, the monitoring module is for by monitoring the operating state of the ceiling fan module and environmental temperature data;Control module, the control module is arranged on the ceiling fan module, the control module is electrically connected with the ceiling fan module and the monitoring module respectively, for the state information of the ceiling fan module is collected after control operation;Mobile terminal, the mobile terminal is signal connected with the control module and the monitoring module respectively by communication module, for realizing the remote control and monitoring of the ceiling fan module.

Description

Technical Field

[0001] This utility model relates to the field of home appliance technology, and in particular to an intelligent ceiling fan device. Background Technology

[0002] Ceiling fans are typically fixed to the ceiling, hence the name. They are very effective at cooling people down. With the trends of global warming and environmental protection and energy conservation, the use of high-energy-consuming appliances like air conditioners is becoming increasingly restricted. When the temperature does not exceed 30 degrees Celsius, using a fan is perfectly sufficient to cool and remove heat. Moreover, using a ceiling fan in conjunction with an air conditioner can reduce the load on the air conditioner and also prevent temperature differences in the room, making it less likely for people to catch a cold.

[0003] Existing ceiling fans have certain drawbacks. First, they are usually controlled by a button switch, which is very inconvenient for large rooms with many fans. Also, people often forget to turn off the fans after leaving the room. Utility Model Content

[0004] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide an intelligent ceiling fan device.

[0005] The technical solution of this utility model is as follows: an intelligent ceiling fan device, including a ceiling fan module comprising at least one set of ceiling fans; a monitoring module, the monitoring module comprising an environmental monitoring unit and a ceiling fan monitoring unit, the ceiling fan monitoring unit being disposed within the ceiling fan, the monitoring module being used to monitor the operating status of the ceiling fan module and ambient temperature data; a control module, the control module being disposed on the ceiling fan module, the control module being electrically connected to the ceiling fan module and the monitoring module respectively, and being used to control the operation after collecting the status information of the ceiling fan module; a mobile terminal, the mobile terminal being signal connected to the control module and the monitoring module respectively through a communication module, and being used to realize remote control and monitoring of the ceiling fan module; and further including a personnel monitoring module, the personnel monitoring module employing an infrared sensor, the infrared sensor being disposed on the ceiling fan, the personnel monitoring module being electrically connected to the control module.

[0006] As can be seen from the above scheme, the ceiling fan monitoring unit is used to monitor the operating status of the ceiling fan, such as its rotation speed; the environmental monitoring unit is used to monitor data such as temperature and humidity in the environment; the ceiling fan module includes multiple ceiling fans in multiple rooms; the mobile terminal is used to receive the operating status of multiple ceiling fans and perform intelligent control; and the personnel monitoring module is used to monitor whether there are people in the room. If people leave, the operation of the ceiling fan will be turned off to achieve energy saving and consumption reduction.

[0007] The ceiling fan includes a mounting base, a brushless motor, a fan head, and a fan blade assembly. The brushless motor is housed within the fan head, and a connecting rod connects the mounting base to the fan head. The fan blade assembly includes several blades circumferentially arranged around the fan head. Therefore, the brushless motor drives rotational mechanical energy to deliver airflow, and the mounting base is used for connecting and installing the ceiling fan on the ceiling.

[0008] It also includes a local regulator, which comprises a mounting housing, a display screen mounted on the mounting housing, a light switch, a timer button, and a control button set. The ceiling fan has a receiver connected to the local regulator, and the local regulator is electrically connected to the control module. Therefore, the display screen is used to display data such as temperature and humidity, the control button set is used to control the fan speed, and the light switch is used to control the on / off state of the lighting.

[0009] A light is installed at the bottom of the fan head. The light is connected to the mobile terminal via a signal and is also electrically connected to the local regulator. Therefore, the light is used to provide illumination within the room.

[0010] The environmental monitoring unit includes a temperature and humidity sensor and a gas sensor. Therefore, the temperature and humidity sensor is used to detect the temperature and humidity data in the room with the ceiling fan.

[0011] The communication module uses wireless communication. Attached Figure Description

[0012] Figure 1 This is the connection control diagram of this utility model;

[0013] Figure 2 This is the connection control diagram for the ceiling fan;

[0014] Figure 3 This is a schematic diagram of the local regulator;

[0015] Figure 4 This is a structural diagram of a ceiling fan. Detailed Implementation

[0016] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0017] like Figures 1 to 4 As shown, this utility model is an intelligent ceiling fan device, a ceiling fan module 1, which includes at least one set of ceiling fans 11;

[0018] The monitoring module includes an environmental monitoring unit 4 and a ceiling fan monitoring unit 5. The ceiling fan monitoring unit 5 is disposed inside the ceiling fan 11. The environmental monitoring unit 4 includes several sensors. The monitoring module is used to monitor the operating status of the ceiling fan module 1 and the ambient temperature data.

[0019] Control module 2 is mounted on the ceiling fan module 1. The control module 2 is electrically connected to both the ceiling fan module 1 and the monitoring module, and is used to collect the status information of the ceiling fan module 1 and then control its operation.

[0020] The mobile terminal 3 is connected to the control module 2 and the monitoring module via a communication module 6. The communication module 6 uses wireless communication to realize remote control and monitoring of the ceiling fan module 1.

[0021] In this embodiment, the personnel monitoring module automatically turns off the ceiling fan if it detects that no one is in the room for an extended period. The control module 2 is equipped with an early warning unit, and the ceiling fan monitoring unit 5 includes a temperature probe that detects the internal temperature of the ceiling fan. When the operating time is too long and the heat exceeds a certain threshold, the early warning unit sends an early warning message to the mobile terminal 3 to provide an early warning reminder, facilitating the adjustment of the ceiling fan speed and enabling remote control of the ceiling fan anytime and anywhere. The mobile terminal 3 can create groups in the APP that controls the ceiling fan module to achieve centralized control of multiple ceiling fans, enabling one mobile terminal 3 to control multiple ceiling fans 11 and multiple mobile terminals 3 to control one ceiling fan 11.

[0022] The ceiling fan 11 includes a mounting base 111, a brushless motor, a fan head 112, and a fan blade assembly. The brushless motor is disposed within the fan head 112. A connecting rod 113 connects the mounting base 111 and the fan head 112. The fan blade assembly includes a plurality of blades 114 circumferentially arranged around the fan head 112. In this embodiment, a lifting motor is disposed within the mounting base 111. The output end of the lifting motor is connected to the connecting rod 113 via a lifting device for adjusting the height of the ceiling fan 11 in the room.

[0023] The communication module 6 employs wireless communication. In this embodiment, the communication module 6 uses WIFI communication, which facilitates remote connection communication.

[0024] It also includes a local regulator 21, which comprises a mounting housing 211, a display screen 212 mounted on the mounting housing 211, a light source switch 213, a timer button 214, and a control button group 215. The ceiling fan 11 is equipped with a receiver connected to the local regulator 21, and the local regulator 21 is electrically connected to the control module 2. In this embodiment, the local regulator employs a dual-control system via a wireless remote control and a wall controller, and the mounting housing 211 uses a touchscreen panel for touchscreen control.

[0025] A light 12 is provided at the bottom of the fan head 112. The light 12 is signal-connected to the mobile terminal 3 and electrically connected to the local regulator 21. The environmental monitoring unit 4 includes a temperature and humidity sensor 41 and a gas sensor. The personnel monitoring module uses an infrared sensor 71. In this embodiment, the temperature and humidity sensor 41 is mounted on a connecting block on the fan head 112, and the light 12 is connected to the bottom of the fan head 112 via a connecting bracket.

[0026] An infrared sensor 71 is installed on the ceiling fan 11, and the personnel monitoring module is electrically connected to the control module 2. In this embodiment, the infrared sensor 71 is electrically connected to a timing unit. The infrared sensor 71 is used to periodically detect whether there are people in the room. If no one is in the room for a long time, the ceiling fan 11 and the light 12 will be turned off, realizing the goal of turning off the fan and lights when people leave, which facilitates energy saving and consumption reduction. The infrared sensor 71 is connected to a connector, and the personnel situation in the room can also be viewed in the corresponding APP of the mobile terminal 3.

[0027] Finally, it should be emphasized that the above description is not intended to limit the present invention. For those skilled in the art, the present invention can have various changes and modifications. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A smart ceiling fan device, characterized in that, include: Ceiling fan module (1) includes at least one set of ceiling fans (11); The monitoring module includes an environmental monitoring unit (4) and a ceiling fan monitoring unit (5). The ceiling fan monitoring unit (5) is installed inside the ceiling fan (11). The monitoring module is used to monitor the operating status of the ceiling fan module (1) and the ambient temperature data. Control module (2), the control module (2) is installed on the ceiling fan module (1), the control module (2) is electrically connected to the ceiling fan module (1) and the monitoring module respectively, and is used to collect the status information of the ceiling fan module (1) and control its operation; The mobile terminal (3) is connected to the control module (2) and the monitoring module via the communication module (6) to realize remote control and monitoring of the ceiling fan module (1); It also includes a personnel monitoring module, which uses an infrared sensor (71). The infrared sensor (71) is installed on the ceiling fan (11), and the personnel monitoring module is electrically connected to the control module (2).

2. The intelligent ceiling fan device according to claim 1, characterized in that: The ceiling fan (11) includes a mounting base (111), a brushless motor, a fan head (112), and a fan blade assembly. The brushless motor is located inside the fan head (112). A connecting rod (113) connects the mounting base (111) and the fan head (112). The fan blade assembly includes several blades (114) circumferentially arranged around the fan head (112).

3. The intelligent ceiling fan device according to claim 2, characterized in that: It also includes a local regulator (21), which includes a mounting housing (211), a display screen (212) mounted on the mounting housing (211), a light source switch (213), a timer button (214), and a control button group (215). The ceiling fan (11) is provided with a receiver connected to the local regulator (21), and the local regulator (21) is electrically connected to the control module (2).

4. The intelligent ceiling fan device according to claim 3, characterized in that: The bottom of the fan head (112) is provided with a light (12), the light (12) is connected to the mobile terminal (3) by signal, and the light (12) is electrically connected to the local regulator (21).

5. The intelligent ceiling fan device according to claim 1, characterized in that: The environmental monitoring unit (4) includes a temperature and humidity sensor (41) and a gas sensor.

6. The intelligent ceiling fan device according to claim 1, characterized in that: The communication module (6) uses wireless communication.

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