CN108591106B - Intelligent fan lamp - Google Patents
Intelligent fan lamp Download PDFInfo
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- CN108591106B CN108591106B CN201810428348.9A CN201810428348A CN108591106B CN 108591106 B CN108591106 B CN 108591106B CN 201810428348 A CN201810428348 A CN 201810428348A CN 108591106 B CN108591106 B CN 108591106B
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- fan
- speed regulator
- fan speed
- lamp
- driver
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- 238000005286 illumination Methods 0.000 claims abstract description 131
- 238000004891 communication Methods 0.000 claims description 40
- 230000001360 synchronised effect Effects 0.000 abstract description 8
- 241001465382 Physalis alkekengi Species 0.000 abstract 1
- 238000010586 diagram Methods 0.000 description 7
- 230000013011 mating Effects 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 238000011161 development Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D27/00—Control, e.g. regulation, of pumps, pumping installations or pumping systems specially adapted for elastic fluids
- F04D27/004—Control, e.g. regulation, of pumps, pumping installations or pumping systems specially adapted for elastic fluids by varying driving speed
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/19—Controlling the light source by remote control via wireless transmission
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The invention provides an intelligent fan lamp. Through configuring the fan speed regulator and the illumination driver to be mutually communicated, when the wireless remote controller is adopted for control, only one pairing operation is needed to be carried out so that the wireless remote controller can be successfully paired with one of the fan speed regulator and the illumination driver, and the other one of the fan speed regulator and the illumination driver can be connected with the wireless remote controller in a pairing mode, so that the wireless remote controller can respectively control the fan part and the lamp, and the operation of a user is greatly facilitated. When adopting APP control end to control and monitor, only need set up wireless connection module in one of them of fan speed regulator and illumination driver, through the intercommunication between fan speed regulator and the illumination driver, can realize APP control end to intelligent control and the state synchronous display of fan portion and lamps and lanterns to when realizing the intelligent control and the synchronous display function of APP control end, reduce the structural cost and the equipment cost of fan lamp.
Description
Technical Field
The invention relates to the technical field of fan lamps, in particular to an intelligent fan lamp.
Background
The fan lamp, also called luxury decorative ceiling fan, combines the functions of the lamp and the fan, and is generally used as an auxiliary electric appliance of an air conditioner.
In conventional fan lamps, the fan and the lamp are controlled separately. For the control of the fan, a 433MHz frequency band control signal is generally adopted to realize multi-gear speed regulation. The lamps are controlled in a split control switching mode, for example, a two-way three-section control mode is adopted for lamps consisting of two groups of lamps, a three-way four-section control mode is adopted for lamps consisting of three groups of lamps, and the like.
The current control modes of the fan lamp mainly comprise the following four modes: stay cord, wall accuse, remote control and cell-phone software APP, wherein remote control mode and cell-phone software APP control mode are because more convenient and intelligent, become the hot spot of fan lamp control technology development. In the prior art, because the control modules of the fan and the lamp work independently and do not communicate with each other, in the remote control mode, in order to realize that the remote controller can control the fan and the lamp simultaneously, when the remote controller is initialized, the pairing connection between the remote controller and the fan control module and between the remote controller and the lamp control module must be performed respectively, that is, a user needs to operate a button on the remote controller for establishing the pairing connection with the fan control module and a button for establishing the pairing connection with the lamp control module respectively, which is obviously inconvenient for the user to operate and has poor experience. In the mobile phone software APP control mode, in order to realize the simultaneous control of the fan and the lamp, the mobile phone APP control end needs to be communicated with the fan control module and the lamp control module respectively, which requires that wireless connection modules, such as a WIFI module and the like, are arranged on the fan control module and the lamp control module respectively, so that the cost of the fan lamp is increased.
Disclosure of Invention
The present invention has been made in view of the above problems, and it is an object of the present invention to provide an intelligent fan lamp that overcomes or at least partially solves the above problems.
According to an aspect of an embodiment of the present invention, there is provided an intelligent fan lamp, including: the fan speed regulator is electrically connected with the fan part, the illumination driver is electrically connected with the lamp, and the wireless remote controller is used for controlling the fan speed regulator to be in a power-saving state;
The fan speed regulator and the illumination driver are configured to communicate with each other;
After the wireless remote controller is configured to be in pairing connection with one of the fan speed controller and the illumination driver, the pairing connection between the other of the fan speed controller and the illumination driver and the wireless remote controller is realized through mutual communication between the fan speed controller and the illumination driver, so that the wireless remote controller can respectively control the fan speed controller and the illumination driver, and further respectively control the fan part and the lamp.
Optionally, the wireless remote controller sends a first pairing connection request containing identity information to the fan speed regulator, and the fan speed regulator receives and responds to the first pairing connection request to establish pairing connection with the wireless remote controller; and
The fan speed regulator is communicated with the lighting driver, and a second pairing connection request is sent to the lighting driver, wherein the second pairing connection request carries the identification information and information indicating that the fan speed regulator has established pairing connection with the wireless remote controller; and the lighting driver receives and responds to the second pairing connection request, and establishes pairing connection with the wireless remote controller according to the identity information.
Optionally, the wireless remote controller sends a third pairing connection request containing identity information to the lighting driver, and the lighting driver receives and responds to the third pairing connection request to establish pairing connection with the wireless remote controller; and
The illumination driver is communicated with the fan speed regulator, and a fourth pairing connection request is sent to the fan speed regulator, wherein the fourth pairing connection request carries the identification information and information indicating that the illumination driver has established pairing connection with the wireless remote controller; and the fan speed regulator receives and responds to the fourth pairing connection request, and establishes pairing connection with the wireless remote controller according to the identity information.
Optionally, the fan speed regulator includes a first radio frequency RF module, and the fan speed regulator receives a first pairing connection request of the wireless remote controller through the first RF module and sends a second pairing connection request to the lighting driver, or receives a fourth pairing connection request from the lighting driver through the first RF module;
The lighting driver comprises a second RF module, and receives a second pairing connection request from the fan speed regulator through the second RF module, or receives a third pairing connection request of the wireless remote controller through the second RF module and sends a fourth pairing connection request to the fan speed regulator.
Optionally, the operating frequency band of the first RF module and the second RF module is a 2.4G frequency band.
Optionally, the intelligent fan lamp further comprises an application program APP control end;
One of the fan speed regulator and the illumination driver further comprises a wireless connection module; the APP control end is configured to be in wireless connection with the wireless connection module.
Optionally, if the fan speed regulator includes the wireless connection module, the APP control end establishes a communication connection with the fan speed regulator through the wireless connection module;
when the running state of the fan part is changed, the fan speed regulator sends current running state information of the fan part to the APP control end through the wireless connection module;
When the running state of the lamp is changed, the lighting driver is communicated with the fan speed regulator, and the current running state information of the lamp is sent to the fan speed regulator, so that the fan speed regulator sends the current running state information of the lamp to the APP control end through the wireless connection module after receiving the current running state information of the lamp;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
Optionally, if the lighting driver includes the wireless connection module, the APP control end establishes a communication connection with the lighting driver through the wireless connection module;
when the running state of the lamp is changed, the lighting driver sends the current running state information of the lamp to the APP control end through the wireless connection module;
When the running state of the fan part is changed, the fan speed regulator is communicated with the illumination driver, and the current running state information of the fan part is sent to the illumination driver, so that the illumination driver sends the current running state information of the fan part to the APP control end through the wireless connection module after receiving the current running state information of the fan part;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
Optionally, the wireless connection module includes a WIFI module or a bluetooth module.
Optionally, the operating frequency band of the wireless connection module is a 2.4G frequency band.
According to another aspect of the embodiment of the present invention, there is also provided an intelligent fan lamp, including: a fan part, a lamp, a fan speed regulator electrically connected with the fan part, a lighting driver electrically connected with the lamp, and an APP control end;
The fan speed regulator and the illumination driver are configured to communicate with each other;
One of the fan speed regulator and the lighting driver comprises a wireless connection module;
After the wireless connection module is in communication connection with one of the fan speed regulator and the illumination driver, the APP control end is configured to enable control signals sent by the APP control end to be correspondingly sent or forwarded to the fan speed regulator and the illumination driver respectively through mutual communication between the fan speed regulator and the illumination driver, so that the APP control end can control the fan speed regulator and the illumination driver to further control the fan part and the lamp.
Optionally, if the fan speed regulator includes the wireless connection module, the APP control end sends a corresponding control signal to the fan speed regulator according to a user operation after establishing communication connection with the fan speed regulator through the wireless connection module;
After receiving the control signal of the APP control end through the wireless connection module, the fan speed regulator judges the type of the control signal; if the control signal is a fan control signal, controlling the fan part according to the fan control signal; if the control signal is an illumination control signal, communicating with the illumination driver and forwarding the illumination control signal to the illumination driver;
And after receiving the illumination control signal, the illumination driver controls the lamp according to the illumination control signal.
Further, when the running state of the fan part is changed, the fan speed regulator sends the current running state information of the fan part to the APP control end through the wireless connection module;
When the running state of the lamp is changed, the lighting driver is communicated with the fan speed regulator, and the current running state information of the lamp is sent to the fan speed regulator, so that the fan speed regulator sends the current running state information of the lamp to the APP control end through the wireless connection module after receiving the current running state information of the lamp;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
Optionally, if the lighting driver includes the wireless connection module, the APP control end sends a corresponding control signal to the lighting driver according to a user operation after establishing communication connection with the lighting driver through the wireless connection module;
The lighting driver judges the type of the control signal after receiving the control signal of the APP control end through the wireless connection module; if the control signal is an illumination control signal, controlling the lamp according to the illumination control signal; if the control signal is a fan control signal, communicating with the fan speed regulator, and forwarding the fan control signal to the fan speed regulator;
and after receiving the fan control signal, the fan speed regulator controls the fan part according to the fan control signal.
Further, when the running state of the lamp is changed, the lighting driver sends the current running state information of the lamp to the APP control end through the wireless connection module;
When the running state of the fan part is changed, the fan speed regulator is communicated with the illumination driver, and the current running state information of the fan part is sent to the illumination driver, so that the illumination driver sends the current running state information of the fan part to the APP control end through the wireless connection module after receiving the current running state information of the fan part;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
Optionally, the fan speed regulator includes a third RF module, the fan speed regulator in communication with the lighting driver through the third RF module; and the lighting driver includes a fourth RF module through which the lighting driver communicates with the fan speed governor.
Optionally, the wireless connection module is a wireless fidelity WIFI module or a bluetooth module.
Optionally, the operating frequency band of the wireless connection module is a 2.4G frequency band.
In the technical scheme of the intelligent fan lamp provided by the embodiment of the invention, when the wireless remote controller is adopted for control, the fan speed regulator and the illumination driver are configured to be communicated with each other, after the wireless remote controller is configured to be in pairing connection with one of the fan speed regulator and the illumination driver, the pairing connection between the other of the fan speed regulator and the illumination driver and the wireless remote controller is realized through the mutual communication between the fan speed regulator and the illumination driver, so that a user can control all functions of the fan lamp by using the wireless remote controller only by carrying out one pairing operation to successfully pair one of the wireless remote controller and the fan speed regulator and the illumination driver, thereby greatly facilitating the operation of the user and improving the user experience. When the APP control end is adopted for control, the fan speed regulator and the illumination driver are configured to be capable of communicating with each other, a wireless connection module is arranged in one of the fan speed regulator and the illumination driver, and after the APP control end is configured to establish communication connection with one of the fan speed regulator and the illumination driver through the wireless connection module, the control signal sent by the APP control end can be correspondingly and respectively sent or forwarded to the fan speed regulator and the illumination driver through the mutual communication between the fan speed regulator and the illumination driver, so that intelligent control of the fan lamp is realized.
Further, when the running state of the fan part and/or the lamp of the fan lamp is changed, the current running state information of the fan part and/or the lamp is sent to the APP control end for synchronous display through the wireless connection module through the mutual communication between the fan speed regulator and the lighting driver. Because only need set up wireless connection module in one of them fan speed regulator and illumination driver, when realizing APP control end intelligent control and synchronous display function, reduced the structural component quantity of fan lamp to the structural cost and the equipment cost of fan lamp have been reduced.
The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.
The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.
Drawings
Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:
FIG. 1 shows a schematic diagram of a smart fan lamp according to an embodiment of the present invention;
FIG. 2 shows a schematic diagram of a panel of a wireless remote control in an intelligent fan lamp in accordance with an embodiment of the present invention;
FIG. 3 shows a schematic diagram of a smart fan lamp in accordance with an embodiment of the present invention;
FIG. 4 shows a schematic diagram of a smart fan lamp according to another embodiment of the present invention; and
Fig. 5 shows a schematic structural diagram of an intelligent fan lamp according to yet another embodiment of the present invention.
Detailed Description
Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
In order to solve the technical problems, the embodiment of the invention provides an intelligent fan lamp. Fig. 1 shows a schematic structure of an intelligent fan lamp according to an embodiment of the present invention. As shown in fig. 1, the intelligent fan light 100 may include at least a fan section 110, a light fixture 120, a fan speed regulator 130, a lighting driver 140, and a wireless remote control 150.
The functions of the components or devices of the intelligent fan light 100 according to the embodiment of the present invention and the connection relationship between the components will now be described:
a fan speed regulator 130 electrically connected to the fan unit 110;
A lighting driver 140 electrically connected to the lamp 120;
The fan speed regulator 130 and the illumination driver 140 are configured to communicate with each other;
The wireless remote controller 150 is configured to establish a pairing connection with one of the fan speed regulator 130 and the illumination driver 140, and then, through mutual communication between the fan speed regulator 130 and the illumination driver 140, the other of the fan speed regulator 130 and the illumination driver 140 is implemented to establish a pairing connection with the wireless remote controller 150, so that the wireless remote controller 150 can respectively control the fan speed regulator 130 and the illumination driver 140, and further respectively control the fan portion 110 and the lamp 120.
In the embodiment of the present invention, the fan speed regulator 130 and the illumination driver 140 may communicate with each other through wireless communication. The wireless remote control 150 may be an infrared remote control, a radio remote control, etc., to which the present invention is not limited.
The fan section 110 may include a fan and a motor electrically connected to the fan. In practical applications, the fan speed regulator 130 regulates the capacitance on the motor by controlling the suction of the relay, thereby achieving control over the operation of the fan.
In the technical scheme of the intelligent fan lamp provided by the embodiment of the invention, when the wireless remote controller is adopted for control, the fan speed regulator and the illumination driver are configured to be communicated with each other, after the wireless remote controller is configured to be in pairing connection with one of the fan speed regulator and the illumination driver, the pairing connection between the other of the fan speed regulator and the illumination driver and the wireless remote controller is realized through the mutual communication between the fan speed regulator and the illumination driver, so that a user can control all functions of the fan lamp by using the wireless remote controller only by carrying out one pairing operation to successfully pair one of the wireless remote controller and the fan speed regulator and the illumination driver, thereby greatly facilitating the operation of the user and improving the user experience.
In an alternative embodiment of the present invention, after the wireless remote controller 150 establishes a mating connection with one of the fan speed regulator 130 and the lighting driver 140, the other of the fan speed regulator 130 and the lighting driver 140 establishes a mating connection with the wireless remote controller 150 through the mutual communication between the fan speed regulator 130 and the lighting driver 140, which may be implemented in the following manner:
First, the wireless remote controller 150 transmits a first pairing connection request including identification information to the fan speed regulator 130, and the fan speed regulator 130 receives and responds to the first pairing connection request to establish a pairing connection with the wireless remote controller 150.
Next, the fan speed regulator 130 communicates with the lighting driver 140, and sends a second pairing connection request to the lighting driver 140, where the second pairing connection request carries the identification information and information indicating that the fan speed regulator 130 has established a pairing connection with the wireless remote control 150.
Finally, the lighting driver 140 receives and responds to the second pairing connection request, and establishes a pairing connection with the wireless remote control 150 according to the identification information.
The above-mentioned identification information is a unique identification of the wireless remote controller 150, and may be an ID code, MAC (Medium Access Control, media access control) address, etc. of the wireless remote controller 150.
In an alternative embodiment, after the wireless remote control 150 establishes a mating connection with one of the fan speed regulator 130 and the lighting driver 140, the other of the fan speed regulator 130 and the lighting driver 140 establishes a mating connection with the wireless remote control 150 through the mutual communication between the fan speed regulator 130 and the lighting driver 140, which may be further implemented as follows:
First, the wireless remote controller 150 transmits a third pairing connection request including identification information to the lighting driver 140, and the lighting driver 140 receives and responds to the third pairing connection request to establish a pairing connection with the wireless remote controller 150.
The lighting driver 140 then communicates with the fan speed regulator 130 and sends a fourth pairing connection request to the fan speed regulator 130, the fourth pairing connection request carrying the identification information and information indicating that the lighting driver 140 has established a pairing connection with the wireless remote control 150.
Finally, the fan speed regulator 130 receives and responds to the fourth pairing connection request, and establishes a pairing connection with the wireless remote control 150 according to the identification information.
In an alternative embodiment of the present invention, the fan speed regulator 130 includes a first RF (Radio Frequency) module 131, and the fan speed regulator 130 receives a first pairing connection request of the wireless remote controller 150 through the first RF module 131 and transmits a second pairing connection request to the lighting driver 140, or receives a fourth pairing connection request from the lighting driver 140 through the first RF module 131. The lighting driver 140 includes a second RF module 141, and the lighting driver 140 receives a second pairing connection request from the fan speed regulator 130 through the second RF module 141 or receives a third pairing connection request of the wireless remote controller 150 through the second RF module 141 and transmits a fourth pairing connection request to the fan speed regulator 130.
Further, the operating frequency band of the first RF module 131 and the second RF module 141 is a 2.4G frequency band.
After the fan speed regulator 130 and the illumination driver 140 are connected with the wireless remote controller 150 in a pairing manner, the user can use all the function keys on the wireless remote controller 150 to control the fan speed regulator 130 and the illumination driver 140 respectively, and further control the fan 110 and the lamp 120 respectively. That is, the user can control the fan speed regulator 130 using the function keys on the wireless remote controller 150 regarding the fan, thereby controlling the fan section 110; and the user can control the lighting driver 140, and thus the light fixture 120, using the function keys on the wireless remote control 150 for the light fixture.
Fig. 2 shows a schematic diagram of a panel of a wireless remote control 150 according to an embodiment of the invention. As shown in fig. 2, the panel of the wireless remote control 150 may include an illumination switch key, a fan switch key, an illumination brightness adjustment key, an illumination color temperature adjustment key, a mode selection key, a wind speed adjustment key, a fan timing key, and the like.
In a specific application scenario, in the initialization configuration before the first use, the user only needs to press the lighting switch key or the fan switch key to perform a pairing operation, so that the fan speed regulator 130 and the lighting driver 140 can respectively establish a pairing connection with the wireless remote controller 150. After that, the user can use all function keys on the wireless remote controller 150 to implement all control functions of the fan section 110 and the lamp 120, including but not limited to, switching of the fan, wind speed adjustment, fan timing, switching of the illumination, stepless adjustment of the illumination brightness, stepless adjustment of the illumination color temperature, and the like.
In an alternative embodiment of the present invention, as shown in fig. 3 and 4, the intelligent fan light 100 may include an application APP control end 360 in addition to the fan section 110, the light fixture 120, the fan speed regulator 130, the lighting driver 140, and the wireless remote control 150 shown in fig. 1. One of the fan speed regulator 130 and the lighting driver 140 further includes a wireless connection module 310, and in fig. 3, the fan speed regulator 130 includes the wireless connection module 310, and in fig. 4, the lighting driver 140 includes the wireless connection module 310.APP control end 360 is configured to wirelessly connect with wireless connection module 310.
The APP control terminal 360 mentioned above is an application software product, which may be installed on a self-contained handheld mobile terminal of the intelligent fan light 100 product, or on a personal handheld mobile terminal of the user, which is not limited in this aspect of the present invention. The APP control end 360 is mounted on a handheld mobile terminal and is wirelessly connected to the wireless connection module 310. In practical applications, the handheld mobile terminal may include a mobile phone, a tablet computer, an electronic reader, and the like.
With continued reference to fig. 3, app control end 360 establishes a communication connection with fan speed regulator 130 via wireless connection module 310 for synchronizing the operational status of fan section 110 and light fixture 120.
Specifically, when the operation state of the fan section 110 is changed, the fan speed regulator 130 sends the current operation state information of the fan section 110 to the APP control end 360 through the wireless connection module 310;
When the operation state of the lamp 120 changes, the lighting driver 140 communicates with the fan speed regulator 130 to send the current operation state information of the lamp 120 to the fan speed regulator 130, so that the fan speed regulator 130 sends the current operation state information of the lamp 120 to the APP control end 360 through the wireless connection module 310 after receiving the current operation state information of the lamp 120;
After receiving the current running state information of the fan unit 110 and/or the lamp 120, the APP control end 360 synchronously displays the current running state of the fan unit 110 and/or the lamp 120 on a control interface of the APP control end 360. That is, after receiving the current operation state information of the fan unit 110, the APP control end 360 synchronously displays the current operation state of the fan unit 110 on the control interface of the APP control end 360. After receiving the current running state information of the lamp 120, the APP control end 360 synchronously displays the current running state of the lamp 120 on a control interface of the APP control end 360. After receiving the current operation state information of the fan unit 110 and the lamp 120, the APP control end 360 synchronously displays the current operation states of the fan unit 110 and the lamp 120 on a control interface of the APP control end 360.
With continued reference to fig. 4, app control end 360 establishes a communication connection with lighting driver 140 via wireless connection module 310 for synchronizing the operational status of display fan section 110 and light fixture 120.
Specifically, when the operation state of the lamp 120 changes, the lighting driver 140 sends the current operation state information of the lamp 120 to the APP control end 360 through the wireless connection module 310;
When the operation state of the fan part 110 is changed, the fan speed regulator 130 communicates with the illumination driver 140 to send the current operation state information of the fan part 110 to the illumination driver 140, so that the illumination driver 140 sends the current operation state information of the fan part 110 to the APP control end 360 through the wireless connection module 310 after receiving the current operation state information of the fan part 110;
After receiving the current running state information of the fan unit 110 and/or the lamp 120, the APP control end 360 synchronously displays the current running state of the fan unit 110 and/or the lamp 120 on a control interface of the APP control end 360. That is, after receiving the current operation state information of the fan unit 110, the APP control end 360 synchronously displays the current operation state of the fan unit 110 on the control interface of the APP control end 360. After receiving the current running state information of the lamp 120, the APP control end 360 synchronously displays the current running state of the lamp 120 on a control interface of the APP control end 360. After receiving the current operation state information of the fan unit 110 and the lamp 120, the APP control end 360 synchronously displays the current operation states of the fan unit 110 and the lamp 120 on a control interface of the APP control end 360.
In an alternative embodiment of the present invention, wireless connection module 310 includes a WIFI (WIRELESS FIDELITY ) module or a bluetooth module. Further, the operating frequency band of the wireless connection module 310 is a 2.4G frequency band.
When the wireless connection module 310 is a WIFI module, the APP control end 360 needs to be wirelessly connected with the wireless connection module 310 through a router. The router is configured as a technology well known in the art, and will not be described in detail herein. In particular, when the router is connected to an external network (e.g., a wide area network such as the internet), a user may implement remote monitoring of the fan portion 110 and the light fixture 120 of the intelligent fan light 100 through the APP control end 360.
In the technical scheme of the intelligent fan lamp provided by the embodiment of the invention, when the wireless remote controller is adopted for control, the fan speed regulator and the illumination driver are configured to be communicated with each other, after the wireless remote controller is configured to be in pairing connection with one of the fan speed regulator and the illumination driver, the pairing connection between the other of the fan speed regulator and the illumination driver and the wireless remote controller is realized through the mutual communication between the fan speed regulator and the illumination driver, so that a user can control all functions of the fan lamp by using the wireless remote controller only by carrying out one pairing operation to successfully pair one of the wireless remote controller and the fan speed regulator and the illumination driver, thereby greatly facilitating the operation of the user and improving the user experience. Further, when the running state of the fan part and/or the lamp of the fan lamp is changed, the current running state information of the fan part and/or the lamp is sent to the APP control end for synchronous display through the wireless connection module through the mutual communication between the fan speed regulator and the lighting driver. Because only one of the fan speed regulator and the lighting driver is provided with the wireless connection module, the APP control end synchronous display function is realized, and meanwhile, the number of structural components of the fan lamp is reduced, so that the structural cost and the assembly cost of the fan lamp are reduced.
Based on the same inventive concept, the embodiment of the invention also provides an intelligent fan lamp. Fig. 5 shows a schematic structural diagram of an intelligent fan lamp 500 according to an embodiment of the present invention. As shown in fig. 5, the intelligent fan light 500 may include at least a fan portion 510, a light fixture 520, a fan speed regulator 530, a lighting driver 540, and an APP control end 550, wherein one of the fan speed regulator 530 and the lighting driver 540 includes a wireless connection module 560, and the APP control end 550 is wirelessly connected to the wireless connection module 560. It should be noted that, in fig. 5, the wireless connection module 560 is only schematically provided in the fan speed regulator 530, and those skilled in the art will understand that the wireless connection module 560 may also be provided in the illumination driver 540.
The functions of the components or devices of the intelligent fan lamp 500 according to the embodiment of the present invention and the connection relationship between the components will now be described:
A fan speed regulator 530 electrically connected to the fan unit 510;
a lighting driver 540 electrically connected to the luminaire 520;
Fan speed regulator 530 and illumination driver 540 are configured to communicate with each other;
The APP control end 550 is configured to establish a communication connection with one of the fan speed regulator 530 and the lighting driver 540 through the wireless connection module 560, and then, through the mutual communication between the fan speed regulator 530 and the lighting driver 540, the control signal sent by the APP control end 550 can be correspondingly sent or forwarded to the fan speed regulator 530 and the lighting driver 540, so that the APP control end 550 can control the fan speed regulator 530 and the lighting driver 540, and further control the fan unit 510 and the lamp 520.
In an embodiment of the present invention, the fan speed regulator 530 and the illumination driver 440 may communicate with each other through wireless communication.
The APP control terminal 550 is an application software product, and may be installed on a handheld mobile terminal that is self-contained in the intelligent fan lamp 500 product, or may be installed on a handheld mobile terminal of a user, which is not limited in this aspect of the present invention. The APP control terminal 550 is mounted on a handheld mobile terminal and is wirelessly connected to the wireless connection module 560. In practical applications, the handheld mobile terminal may include a mobile phone, a tablet computer, an electronic reader, and the like.
The fan section 510 may include a fan and a motor electrically connected to the fan. In practical applications, the fan governor 530 adjusts the capacitance on the motor by controlling the suction of the relay, thereby achieving control over the operation of the fan.
In an alternative embodiment of the present invention, the control process of the fan unit 510 and the lamp 520 by the APP control end 550 may be implemented in the following manner:
if the fan speed regulator 530 includes the wireless connection module 560, the APP control end 550 establishes a communication connection with the fan speed regulator 530 through the wireless connection module 560, and then sends a corresponding control signal to the fan speed regulator 530 according to the operation of the user.
After the fan speed regulator 530 receives the control signal of the APP control end 550 through the wireless connection module 560, the type of the control signal is judged; if the control signal is a fan control signal, controlling the fan unit 510 according to the fan control signal; if the control signal is an illumination control signal, it communicates with the illumination driver 540 and forwards the illumination control signal to the illumination driver 540.
The lighting driver 540 receives the lighting control signal and controls the lamp 520 according to the lighting control signal.
Further, when the operation state of the fan unit 510 is changed, the fan speed regulator 530 sends the current operation state information of the fan unit 510 to the APP control end 550 through the wireless connection module 560;
when the running state of the lamp 520 changes, the lighting driver 540 communicates with the fan speed regulator 530 to send the current running state information of the lamp 520 to the fan speed regulator 530, so that the fan speed regulator 530 sends the current running state information of the lamp 520 to the APP control end 550 through the wireless connection module 560 after receiving the current running state information of the lamp 520;
After receiving the current operation state information of the fan unit 510 and/or the lamp 520, the APP control end 550 synchronously displays the current operation state of the fan unit 510 and/or the lamp 520 on a control interface of the APP control end 550.
In another alternative embodiment of the present invention, the control process of the fan unit 510 and the lamp 520 by the APP control end 550 may be further implemented in the following manner:
If the lighting driver 540 includes the wireless connection module 560, the APP control end 550 establishes a communication connection with the lighting driver 540 through the wireless connection module 560, and then sends a corresponding control signal to the lighting driver 540 according to the operation of the user.
After receiving the control signal of the APP control end 550 through the wireless connection module 560, the illumination driver 540 determines the type of the control signal; if the control signal is an illumination control signal, controlling the lamp 520 according to the illumination control signal; if the control signal is a fan control signal, it communicates with the fan speed regulator 530 and forwards the fan control signal to the fan speed regulator 530.
After receiving the fan control signal, the fan governor 530 controls the fan unit 510 according to the fan control signal.
Further, when the operation state of the lamp 520 changes, the lighting driver 540 sends the current operation state information of the lamp 520 to the APP control end 550 through the wireless connection module 560;
When the operation state of the fan unit 510 changes, the fan speed regulator 530 communicates with the illumination driver 540 to send the current operation state information of the fan unit 510 to the illumination driver 540, so that the illumination driver 540 sends the current operation state information of the fan unit 510 to the APP control end 550 through the wireless connection module 560 after receiving the current operation state information of the fan unit 510;
After receiving the current operation state information of the fan unit 510 and/or the lamp 520, the APP control end 550 synchronously displays the current operation state of the fan unit 510 and/or the lamp 520 on a control interface of the APP control end 550.
The above-mentioned fan control signal may include at least one of: fan switch signal, wind speed adjustment signal, fan timing signal. The illumination control signal may include at least one of: a light source switch signal, a light source brightness adjusting signal and a light source color temperature adjusting signal.
In an alternative embodiment of the present invention, the fan speed regulator 530 includes a third RF module 531, and the fan speed regulator 530 communicates with the lighting driver 540 through the third RF module 531. The illumination driver 540 includes a fourth RF module 541, and the illumination driver 540 communicates with the fan speed regulator 530 through the fourth RF module 541. Further, the operating frequency band of the third and fourth RF modules 531 and 541 is a 2.4G frequency band.
In an alternative embodiment of the present invention, wireless connection module 560 is a WIFI module or a bluetooth module. Further, the operating frequency band of the wireless connection module 560 is a 2.4G frequency band.
When the wireless connection module 560 is a WIFI module, the APP control end 550 needs to be wirelessly connected with the wireless connection module 560 through a router. The router is configured as a technology well known in the art, and will not be described in detail herein. In particular, when the router is connected to an external network (e.g., a wide area network such as the internet), a user can remotely control and monitor the fan section 510 and the luminaire 520 of the intelligent fan lamp 500 through the APP control end 550.
According to any one of the above preferred embodiments or a combination of the preferred embodiments, the following advantageous effects can be achieved according to the embodiments of the present invention:
in the technical scheme of the intelligent fan lamp provided by the embodiment of the invention, when the wireless remote controller is adopted for control, the fan speed regulator and the illumination driver are configured to be communicated with each other, after the wireless remote controller is configured to be in pairing connection with one of the fan speed regulator and the illumination driver, the pairing connection between the other of the fan speed regulator and the illumination driver and the wireless remote controller is realized through the mutual communication between the fan speed regulator and the illumination driver, so that a user can control all functions of the fan lamp by using the wireless remote controller only by carrying out one pairing operation to successfully pair one of the wireless remote controller and the fan speed regulator and the illumination driver, thereby greatly facilitating the operation of the user and improving the user experience. When the APP control end is adopted for control, the fan speed regulator and the illumination driver are configured to be capable of communicating with each other, a wireless connection module is arranged in one of the fan speed regulator and the illumination driver, and after the APP control end is configured to establish communication connection with one of the fan speed regulator and the illumination driver through the wireless connection module, the control signal sent by the APP control end can be correspondingly and respectively sent or forwarded to the fan speed regulator and the illumination driver through the mutual communication between the fan speed regulator and the illumination driver, so that intelligent control of the fan lamp is realized.
Further, when the running state of the fan part and/or the lamp of the fan lamp is changed, the current running state information of the fan part and/or the lamp is sent to the APP control end for synchronous display through the wireless connection module through the mutual communication between the fan speed regulator and the lighting driver. Because only need set up wireless connection module in one of them fan speed regulator and illumination driver, when realizing APP control end intelligent control and synchronous display function, reduced the structural component quantity of fan lamp to the structural cost and the equipment cost of fan lamp have been reduced.
In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all technical features thereof can be replaced by others within the spirit and principle of the present invention; such modifications and substitutions do not depart from the scope of the invention.
Claims (13)
1. An intelligent fan lamp, characterized by comprising: a fan part, a lamp, a fan speed regulator electrically connected with the fan part, a lighting driver electrically connected with the lamp, and a wireless remote controller;
The fan speed regulator and the illumination driver are configured to communicate with each other;
after the wireless remote controller is configured to be in pairing connection with one of the fan speed controller and the illumination driver, the other one of the fan speed controller and the illumination driver is in pairing connection with the wireless remote controller through mutual communication between the fan speed controller and the illumination driver, so that the wireless remote controller can respectively control the fan speed controller and the illumination driver, and further respectively control the fan part and the lamp;
the wireless remote controller is connected with the fan speed regulator in a pairing mode, and the wireless remote controller is connected with the lighting driver in a pairing mode through mutual communication between the fan speed regulator and the lighting driver, wherein the wireless remote controller comprises:
The wireless remote controller sends a first pairing connection request containing identity information to the fan speed regulator, and the fan speed regulator receives and responds to the first pairing connection request to establish pairing connection with the wireless remote controller; and
The fan speed regulator is communicated with the lighting driver, and a second pairing connection request is sent to the lighting driver, wherein the second pairing connection request carries the identification information and information indicating that the fan speed regulator has established pairing connection with the wireless remote controller; the lighting driver receives and responds to the second pairing connection request, and establishes pairing connection with the wireless remote controller according to the identity information;
The wireless remote controller is connected with the illumination driver in a pairing way, and the pairing connection of the fan speed regulator and the wireless remote controller is realized through the mutual communication between the fan speed regulator and the illumination driver, wherein the pairing connection of the fan speed regulator and the wireless remote controller comprises the following steps:
the wireless remote controller sends a third pairing connection request containing identity information to the lighting driver, and the lighting driver receives and responds to the third pairing connection request to establish pairing connection with the wireless remote controller; and
The illumination driver is communicated with the fan speed regulator, and a fourth pairing connection request is sent to the fan speed regulator, wherein the fourth pairing connection request carries the identification information and information indicating that the illumination driver has established pairing connection with the wireless remote controller; the fan speed regulator receives and responds to the fourth pairing connection request, and pairing connection with the wireless remote controller is established according to the identity information;
The fan speed regulator comprises a first RF module, and the fan speed regulator receives a first pairing connection request of the wireless remote controller through the first RF module and sends a second pairing connection request to the illumination driver, or receives a fourth pairing connection request from the illumination driver through the first RF module;
The lighting driver comprises a second RF module, and receives a second pairing connection request from the fan speed regulator through the second RF module, or receives a third pairing connection request of the wireless remote controller through the second RF module and sends a fourth pairing connection request to the fan speed regulator.
2. The intelligent fan light of claim 1, wherein the operating frequency band of the first RF module and the second RF module is a 2.4G frequency band.
3. The intelligent fan light of claim 1, further comprising an application APP control terminal;
One of the fan speed regulator and the illumination driver further comprises a wireless connection module; the APP control end is configured to be in wireless connection with the wireless connection module.
4. The intelligent fan light of claim 3, wherein,
If the fan speed regulator comprises the wireless connection module, the APP control end is in communication connection with the fan speed regulator through the wireless connection module;
when the running state of the fan part is changed, the fan speed regulator sends current running state information of the fan part to the APP control end through the wireless connection module;
When the running state of the lamp is changed, the lighting driver is communicated with the fan speed regulator, and the current running state information of the lamp is sent to the fan speed regulator, so that the fan speed regulator sends the current running state information of the lamp to the APP control end through the wireless connection module after receiving the current running state information of the lamp;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
5. The intelligent fan light of claim 3, wherein,
If the lighting driver comprises the wireless connection module, the APP control end establishes communication connection with the lighting driver through the wireless connection module;
when the running state of the lamp is changed, the lighting driver sends the current running state information of the lamp to the APP control end through the wireless connection module;
When the running state of the fan part is changed, the fan speed regulator is communicated with the illumination driver, and the current running state information of the fan part is sent to the illumination driver, so that the illumination driver sends the current running state information of the fan part to the APP control end through the wireless connection module after receiving the current running state information of the fan part;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
6. The intelligent fan light of any of claims 3-5, wherein the wireless connection module comprises a wireless fidelity WIFI module or a bluetooth module.
7. The intelligent fan light of any of claims 3-5, wherein the operating frequency band of the wireless connection module is the 2.4G frequency band.
8. An intelligent fan lamp, characterized by comprising: a fan part, a lamp, a fan speed regulator electrically connected with the fan part, a lighting driver electrically connected with the lamp, and an APP control end;
The fan speed regulator and the illumination driver are configured to communicate with each other;
One of the fan speed regulator and the lighting driver comprises a wireless connection module;
The APP control end is configured to establish communication connection with one of the fan speed regulator and the illumination driver through the wireless connection module, and then control signals sent by the APP control end can be correspondingly sent or forwarded to the fan speed regulator and the illumination driver through mutual communication between the fan speed regulator and the illumination driver, so that the APP control end can control the fan speed regulator and the illumination driver, and further control the fan part and the lamp;
If the fan speed regulator comprises the wireless connection module, the APP control end sends a corresponding control signal to the fan speed regulator according to the operation of a user after communication connection is established between the APP control end and the fan speed regulator through the wireless connection module;
After receiving the control signal of the APP control end through the wireless connection module, the fan speed regulator judges the type of the control signal; if the control signal is a fan control signal, controlling the fan part according to the fan control signal; if the control signal is an illumination control signal, communicating with the illumination driver and forwarding the illumination control signal to the illumination driver;
After receiving the illumination control signal, the illumination driver controls the lamp according to the illumination control signal;
Wherein the fan speed regulator comprises a third RF module, the fan speed regulator in communication with the lighting driver through the third RF module; and the lighting driver includes a fourth RF module through which the lighting driver communicates with the fan speed governor.
9. The intelligent fan light of claim 8, wherein when the operating state of the fan section changes, the fan speed regulator sends current operating state information of the fan section to the APP control end through the wireless connection module;
When the running state of the lamp is changed, the lighting driver is communicated with the fan speed regulator, and the current running state information of the lamp is sent to the fan speed regulator, so that the fan speed regulator sends the current running state information of the lamp to the APP control end through the wireless connection module after receiving the current running state information of the lamp;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
10. The intelligent fan light of claim 8, wherein if the lighting driver comprises the wireless connection module, the APP control end sends a corresponding control signal to the lighting driver according to a user operation after establishing a communication connection with the lighting driver through the wireless connection module;
The lighting driver judges the type of the control signal after receiving the control signal of the APP control end through the wireless connection module; if the control signal is an illumination control signal, controlling the lamp according to the illumination control signal; if the control signal is a fan control signal, communicating with the fan speed regulator, and forwarding the fan control signal to the fan speed regulator;
and after receiving the fan control signal, the fan speed regulator controls the fan part according to the fan control signal.
11. The intelligent fan light of claim 10, wherein when the operating state of the light fixture changes, the lighting driver sends current operating state information of the light fixture to the APP control end through the wireless connection module;
When the running state of the fan part is changed, the fan speed regulator is communicated with the illumination driver, and the current running state information of the fan part is sent to the illumination driver, so that the illumination driver sends the current running state information of the fan part to the APP control end through the wireless connection module after receiving the current running state information of the fan part;
After the APP control end receives the current running state information of the fan part and/or the lamp, the current running state of the fan part and/or the lamp is synchronously displayed on a control interface of the APP control end.
12. The intelligent fan light of any one of claims 8-11, wherein the wireless connection module is a wireless fidelity WIFI module or a bluetooth module.
13. The intelligent fan light of any of claims 8-11, wherein the operating frequency band of the wireless connection module is the 2.4G frequency band.
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CN110552904A (en) * | 2019-09-23 | 2019-12-10 | 深圳市芯锐智能有限公司 | fan lamp and system thereof |
CN110611974A (en) * | 2019-09-23 | 2019-12-24 | 深圳市联芯互联科技有限公司 | Light and color adjustable lamp and system thereof |
CN110621110A (en) * | 2019-10-11 | 2019-12-27 | 欧普照明股份有限公司 | Lamp and lamp control method |
WO2022057879A1 (en) * | 2020-09-21 | 2022-03-24 | 苏州欧普照明有限公司 | Fan lamp |
CN113653661A (en) * | 2021-08-07 | 2021-11-16 | 深圳盈特创智能科技有限公司 | Fan lamp control system and method, terminal equipment and storage medium |
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