Downlighters; Spotlights; Ceiling lights; LED flood lights and LED work lights for construction settings; LED lamps; LED light bulbs; LED luminaires; Lighting fixtures; Solar powered lamps; Wall lights
The present application relates to the technical field of smart homes, and in particular to a clothes management method and device and a smart dressing mirror. The smart dressing mirror comprises a camera, a storage module, and a control module. The camera acquires facial information of a user, and stores, in the storage module, the facial information of the user. The camera further captures an image of clothes placed by the user in a capture region of the camera, and stores, in the storage module, the captured image of the clothes and the facial information of the same user. The control module periodically performs recognition on the clothes images in the storage module, and classifies the clothes images according to a clothes style to acquire a classification result. The user makes a clothes selection according to the clothes classification, and the camera captures a clothes selection image of the user, and stores the same in the storage module. When the user subsequently makes a clothes selection, the control module recommends to the user which clothes to wear according to the clothes selection image and a current temperature.
The present disclosure relates to the technical field of control, and provided thereby are a remote controller and a remote control method. The remote controller comprises: a Bluetooth module and an operation module. The operation module is connected to the Bluetooth module; the operation module is used to sense an operation signal, and if the operation module does not sense an operation signal, the Bluetooth module and the operation module are in a sleep state; and if the operation module senses an operation signal, the operation module outputs a wake-up signal to the Bluetooth module so as to wake up the Bluetooth module, and after waking up, the Bluetooth module receives a remote control command and carries out transmission. Using the present remote controller and remote control method may improve the cruising ability of a battery in the remote controller.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
Disclosed are a curtain control method and device, an electronic device and a readable storage medium, relating to the technical field of intelligent furnishings. The curtain control method can set a highest ascending height or a lowest descending height of a curtain, and the setting of the limited height of the curtain by means of an intelligent terminal can avoid the situation that a driving motor is damaged when the curtain exceeds the limited height during the operation. The control of the curtain is realized by means of the intelligent terminal, the control logic is clear, and the control efficiency is high.
Provided in the embodiments of the present disclosure are a mode control method and apparatus, a readable storage medium and an electronic device, relating to the technical field of intelligent control. The method is applied to an electronic device, and the method comprises: an electronic device determining a mode chosen by a user, acquiring current information of an environment where the electronic device under the mode is located, and then controlling, based on the current information, an operating state of a household appliance in communicative connection with the electronic device. By acquiring, according to a mode chosen by a user, current information under the mode and in turn controlling a household appliance, linkage between the household appliance and the mode is realized, which is more intelligent and improves the user experience.
A device connection method and apparatus, an electronic device, and a readable storage medium, relating to the technical field of smart homes. By means of pre-establishing a group and assigning a password to the group, when using a user terminal to establish communication links with smart devices, the present method can assign a plurality of smart devices in the communication range of the user terminal to a group, and can assign the password of the group to all of the smart devices in the group, without needing to implement password configuration for the smart devices individually. Thus, when using the user terminal to implement control of the smart devices, the outcome of the user terminal being able to control one smart device in the group or control all of the smart devices in the group can be achieved, increasing control efficiency, and enhancing the user experience.
The present application relates to the field of data processing technology, and provided therein are an alarm method, apparatus and system and an electronic device, so as to solve the problem in existing technology in which factors of security present in sensors are low; the present invention may improve the security of sensor data transmission, and said method is applicable to mobile terminals, said method comprising: receiving an alarm signal sent by a sensor, the alarm signal being encrypted and generated by the sensor according to a pre-stored byte encryption table; and then analyzing the alarm signal to obtain alarm information.
G08B 25/08 - Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using communication transmission lines
H04L 29/06 - Communication control; Communication processing characterised by a protocol
H04L 29/08 - Transmission control procedure, e.g. data link level control procedure
A curtain control method and a curtain control device (200). A processing controller (210) controls, according to a control signal received by a communication unit (220), a drive motor (230) to drive a moving end of a curtain to move up or down, and sends a relative position relationship between the moving end and a fixed end of the curtain to a user terminal (100) by means of the communication unit (220), so that the user terminal (100) displays an opening/closing state of the curtain with respect to the relative positions.
An interaction method for a wireless door lock, and a door lock system. The interaction method comprises: for a target action needing to be executed by a wireless door lock (200), a mobile terminal (100) searching a list of action instructions for a corresponding first character string; the mobile terminal (100) using a first key to encrypt a found first character string to obtain encrypted ciphertext; the mobile terminal (100) sending the encrypted ciphertext to the wireless door lock (200) through wireless communication; the wireless door lock (200) using a second key to decrypt the received encrypted ciphertext to obtain a second character string, and searching the list of action instructions to see whether there is an action corresponding to the second character string; and if the wireless door lock (200) finds an action corresponding to the second character string, then executing the action, and feeding an execution success indication back to the mobile terminal (100) when the execution succeeds. As such, the mobile terminal (100) can use one key to encrypt different instructions, facilitating the management of keys and instructions, improving the user experience.
G07C 9/00 - Individual registration on entry or exit
H04L 9/06 - Arrangements for secret or secure communicationsNetwork security protocols the encryption apparatus using shift registers or memories for blockwise coding, e.g. D.E.S. systems
A diaper state monitoring method, a diaper state monitoring apparatus (1) and system, and a storage medium, relating to the technical field of smart home. The method comprises: a master control device (2) receives diaper state data sent by a diaper monitoring apparatus (1) (S102); determine the current diaper state according to moisture data in the diaper state data (S104); send a corresponding instruction to an alarm (3) according to the current diaper state (S106) so that the alarm (3) gives out an alarm signal to remind a guardian of changing a diaper. In this way, symptoms such as eczema, red pimple, and itching can be efficiently prevented due to the fact that the diaper is not changed timely, and healthy and rapid growth of infants, and the physical and mental health of special populations who cannot take care of themselves are facilitated.
G08B 21/00 - Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
G08B 21/24 - Reminder alarms, e.g. anti-loss alarms
G08B 25/10 - Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
A smart home early warning system and method. State information of a smart home is acquire via an information acquisition module and the state information is transmitted respectively to a local control end and a remote control end. The local control end determines whether the state information falls within a preset range; if not, a first control instruction is transmitted to an early warning execution module via a first data transmission module; and, the remote control end determines whether the state information falls within the preset range; if not, a second control instruction is transmitted to the early warning execution module via a second data transmission module. Then, the early warning execution module executes a danger early warning prompt on the basis of either control instruction of the first control instruction and the second control instruction, thus allowing, while monitoring the smart home, the execution of the danger early warning prompt in a timely manner via the early warning execution module when a dangerous situation occurs, thus ensuring the security of a smart home environment.
G05B 15/02 - Systems controlled by a computer electric
G05B 19/418 - Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
Embodiments of the present application provide a remote control device and a remote control method. The remote control device can be in a communication connection with a terminal device, and the remote control device comprises a main control module, a Bluetooth module and multiple touch-control keys, wherein the main control module, the Bluetooth module and the touch-control keys are connected to each other; the Bluetooth module is used for establishing a communication connection with the terminal device, receiving an adjustment instruction of the terminal device for control parameters of the touch-control keys, and sending the adjustment instruction to the main control module; and the main control module is used for adjusting the control parameters of the touch-control keys according to the adjustment instruction. By means of the arrangements, the control parameters of touch-control keys can be correspondingly adjusted according to an instruction of a terminal device, so as to achieve control over different smart homes. In this way, control parameters of touch-control keys can be changed, and control methods are more flexible and diverse.
The present application relates to the technical field of alarms, and provided thereby are an alarm method, an apparatus, a device, and a computer storage medium. The method is applied to an alarm device, and the method comprises: a processor of an alarm device sending alarm data to a first terminal by using a manner of near field communication and a manner of network communication when an alarm process is started; determining a manner of communication for successfully sending the alarm data to the first terminal; executing an alarm operation corresponding to the determined manner of communication. The present application helps a user to promptly learn alarm data, and may effectively improve an alarm effect.
H04W 4/90 - Services for handling of emergency or hazardous situations, e.g. earthquake and tsunami warning systems [ETWS]
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 4/14 - Short messaging services, e.g. short message service [SMS] or unstructured supplementary service data [USSD]
G08B 19/00 - Alarms responsive to two or more different undesired or abnormal conditions, e.g. burglary and fire, abnormal temperature and abnormal rate of flow
16.
STORAGE MEDIUM AND INTELLIGENT HOME DEVICE CONTROL APPARATUS, METHOD AND SYSTEM
Embodiments of the present invention relate to the field of smart homes, and provide a storage medium and an intelligent home device control apparatus, method and system. According to the storage medium and the intelligent home device control apparatus, method and system, first, current environmental weather data sent by a current environmental weather data acquisition module is received; then future weather data is analyzed according to the current environmental weather data and a pre-stored historical weather database; a control instruction associated with the future weather data is generated; and finally, the control instruction is issued to a home device control module associated with the control instruction, and the home device control module controls a home device to execute a corresponding operation, thereby preventing the indoor home device from being damaged or contaminated due to weather conditions and achieving automatic control.
A light intensity control method, apparatus and system, a user terminal, and a computer readable medium. The light intensity control method comprises: receiving a mode selection operation for selecting a light intensity mode from among multiple light intensity modes; acquiring the actual illumination intensity collected by a light intensity collection terminal and a target illumination intensity corresponding to the light intensity mode; determining whether the actual illumination intensity is different from the target illumination intensity; and if the actual illumination intensity is different from the target illumination intensity, sending a control signal to a light intensity adjustment device, so that the light intensity adjustment device adjusts the actual illumination intensity in a room to the target illumination intensity, and adjusting the actual illumination intensity according to the target illumination intensity, so that the actual illumination intensity is the same as the target illumination intensity. The method realizes that a target illumination intensity required by a user in a certain room matches the actual illumination intensity after an illuminating lamp is turned on, and realizes the technical effect of facilitating use by a user.
A fireplace control method and apparatus (100, 200), a terminal device (10), a controlled fireplace (20), and a storage medium, relating to the technical field of smart homes. The method comprises that: a fireplace control client sends a working state data request instruction to a controlled fireplace (20); when the controlled fireplace (20) is in a first working state, the fireplace control client obtains first working state data returned by the controlled fireplace (20) according to the working state data request instruction; the fireplace control client determines whether the first working state data matches preset working state data corresponding to a current time point; and if not, the fireplace control client generates a working state adjusting instruction for adjusting the first working state of the controlled fireplace (20) to be a second working state to the controlled fireplace (20). Therefore, the fireplace control client achieves automatic control to adjust the working state of a controlled fireplace (20) at each time point to a preset working state corresponding to the time point, thereby avoiding troublesome steps required when a user controls the working state of an electronic fireplace.
A plant growth intelligent control system, the system comprising a data acquisition module (20), a data processing module (10) and an environmental adjustment module (30). The data acquisition module is connected to the data processing module, and is used for acquiring environmental data of plant growth and sending the environmental data to the data processing module; the data processing module is connected to the environmental adjustment module, and is used for receiving and analyzing the environmental data sent by the data acquisition module, and sending an adjustment instruction to the environmental adjustment module according to an analysis result; the environmental adjustment module is used for receiving the adjustment instruction sent by the data processing module, and adjusting a plant growth environment according to the data adjustment instruction, thereby achieving the intelligent control of plant growth. Further comprised is a plant growth intelligent control method, and comprised are an electronic terminal and a readable storage medium for executing the described method.
The present application provides an intelligent lighting unit and system, wherein same relate to the technical field of intelligent furniture. The intelligent lighting unit comprises: a lighting module, a timer module and a control module, wherein the timer module is configured to calculate time data, and the control module is configured to control the operation of the lighting module according to a pre-set lighting state when the time data is a pre-set time. According to the present application, the technical problem in the prior art of a lighting device being relatively inconvenient to use is solved.
Embodiments of the present application provide a network connection method and apparatus, and a readable storage medium. The method comprises: first, a user terminal searches for intelligent devices near to the user terminal, and displays the searched intelligent devices on the user terminal; next, allocate the searched intelligent devices to a preset group; finally, set the intelligent devices in the group; establish a wireless communication connection with the intelligent devices in the group. According to the method, the searched intelligent devices are grouped, and the user terminal can implement network connection between all the intelligent devices in the group and the user terminal only by connecting to one intelligent device in groups, and does not need to communicatively connect to newly added intelligent devices one by one, which improves the configuration speed of establishing a network connection between the newly added intelligent devices and the user terminal, simplifies the configuration process, and improves the user experience.
The present application provides a smart button configuration method and a smart button, wherein the smart button includes a pressing operation portion, and the method comprises the following steps: receiving a configuration instruction sent by a mobile terminal; recording communication identification information of at least one Internet-of-Things household device carried in the configuration instruction and an action instruction list corresponding to the Internet-of-Things household device; detecting an operation action performed by a user on the pressing operation portion, and searching a corresponding target control instruction in the action instruction list; and according to the communication identification information of at least one Internet-of-Things household device, sending a target control instruction to at least one Internet-of-Things household device through wireless communication, so as to enable the Internet-of-Things household device to perform the corresponding action according to the target control instruction. In this way, the smart button is configured to control different Internet-of-Things household devices according to the configuration instructions of the mobile terminal, or is configured with control instructions corresponding to different operation actions, thereby implementing more flexible configuration of the smart button and richer functions thereof, and improving user experience.
G06F 3/00 - Input arrangements for transferring data to be processed into a form capable of being handled by the computerOutput arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
Disclosed are a window curtain control method and system. When determining a target controlled window curtain, a control terminal displays a control interface corresponding to the target controlled window curtain, and the control interface displays a window curtain graphic corresponding to the target controlled window curtain and an operation widget. The control terminal detects an operation of the user on the operation widget, and sends, according to the detected operation, a control signal to a target controlled terminal provided on the target controlled window curtain. Upon receipt of the control signal, the target controlled terminal controls, by means of a controller of the target controlled window curtain, the lower edge of the target controlled window curtain to rise and fall, and acquires in real time the position of the lower edge relative to the upper edge of the target controlled window curtain and sends same to the control terminal. The control terminal displays the window curtain graphic of the target controlled window curtain according to the relative position, so that the current profile of the window curtain graphic is similar to the current profile of the target controlled window curtain. Thus, the state of the controlled window curtain can be displayed in real time to a user, so that the user can accurately perform a corresponding control operation.
A method, device and system (10) for controlling an intelligent light: a control terminal (100) receiving an alarm signal sent by any one detection assembly (300), the alarm signal comprising an identity identifier of the detection assembly (300) (S301); according to the identity identifier of the detection assembly (300), determining an intelligent light (200) associated with the detection assembly (300) to act as an intelligent light (200) to be controlled, and finding a first control instruction set of the intelligent light (200) to be controlled in at least one stored first control instruction set to act as a target set (S302); searching, in the target set, for a control instruction corresponding to the received alarm signal to act as a target control instruction, and sending the target control instruction to the intelligent light (200) to be controlled, such that the intelligent light (200) to be controlled achieves a light effect corresponding to the received alarm signal by means of executing the target control instruction (S303). Thus, a user is guaranteed to be promptly informed of air conditions.
G08B 19/00 - Alarms responsive to two or more different undesired or abnormal conditions, e.g. burglary and fire, abnormal temperature and abnormal rate of flow
An alarm method and device, and a computer readable medium, which relate to the technical field of smart control. The method comprises a controller (20) obtaining a gas concentration of a gas to be detected that is collected by a sensing device (10) (S102), the sensing device (10) having at least one type, and each type of sensing device (10) being configured to collect at least one type of gas to be detected; the controller (20) analyzing the gas concentration, and generating alarm information when the gas concentration is analyzed to be greater than or equal to a preset threshold, wherein the alarm information comprises: the type of the sensing device (10) and an alarm level of the sensing device (10) (S104); and the controller (20) sending a control signal to a smart home device on the basis of the alarm information, such that the smart home device performs an alarm action on the basis of the control signal (S106), thereby alleviating the technical problem in which an existing smart home device is not able to achieve linkage control with an alarm detecting device.
Provided are a lamp head connection structure of a LED lamp and a LED lamp. The lamp head connection structure includes a casing (3), a lamp head (1) and a connecting member (2). A connecting hole (31) is arranged on the casing (3), and a card rank (32) is arranged inside the connecting hole (31). A card strip (22) is protruded on the connecting member (2), the connecting member (2) passes out of the casing (3) from the inner diameter connecting hole (31) of the casing (3), the card strip (22) is placed against the card rank (32), the lamp head (1) is located on the connecting member (2) outside the casing (3). The lamp head connection structure is convenient to install and disassemble, the connecting member (2) does not need to process screw hole, which helps to reduce the manufacturing cost. Provided is also LED lamp comprising the lamp head connection structure.
F21K 9/20 - Light sources comprising attachment means
F21V 17/00 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages
Disclosed is an LED ceiling lamp patch, comprising a lamp plate (1) and a lamp cover (2), wherein several lamp beads (11) are distributed on the lamp plate (1); the lamp cover (2) covers a side, where the lamp beads (11) are provided, of the lamp plate (1); positions, corresponding to the lamp beads (11), of the lamp cover (2) are provided with light-transmitting beads (21) in one-to-one correspondence; the light-transmitting beads (21) protrude from a side, facing away from the lamp plate (1), of the lamp cover (2); a side, located on the lamp plate (1), of each light-transmitting bead (21) is provided with an open light-transmitting groove; and the lamp beads (11) are at least partially embedded into the light-transmitting grooves. The LED ceiling lamp patch can improve the light-emitting efficiency of the LED ceiling lamp patch, and a shadow phenomenon does not occur, thus satisfying market requirements.
F21Y 105/18 - Planar light sources comprising a two-dimensional array of point-like light-generating elements characterised by the overall shape of the two-dimensional array annularPlanar light sources comprising a two-dimensional array of point-like light-generating elements characterised by the overall shape of the two-dimensional array polygonal other than square or rectangular, e.g. for spotlights or for generating an axially symmetrical light beam
28.
WIRELESS CHARGING BASED INTELLIGENT ELECTRIC SYSTEM AND INTELLIGENT ELECTRIC APPLIANCE
Provided by the present invention are a wireless charging based intelligent electric system and an intelligent electric appliance. The intelligent electric system comprises a first body (1) and a second body (2); the first body (1) is internally provided with a wireless charging transmitting module (4), the second body (2) is internally provided with a wireless charging receiving module (5), a power storage module (6) and a wireless communication module (7); and the first body (1) and the second body (2) are detachably connected. The wireless charging based intelligent electric system of the present invention can avoid wiring troubles, so as to realize the random placement and arrangement of electrical products.
A panel switch, comprising a mounting box (4), a device box (3), and an operation panel (1). The operation panel (1) is provided on the device box (3); the device box (3) is mounted on the mounting box (4); the operation panel (1) is provided with operation keys (2); and the operation panel (1) at least can rotate along one direction to change the orientation thereof. The operation panel (1) of the panel switch at least can rotate along one direction to change the orientation thereof, when people operate and utilize the panel switch, the orientation of the operation panel (1) can be approximately perpendicular to human eyes and hands by means of operation, and in this case, an operator can conveniently observe and operate the panel switch.
A smart LED lamp, comprising a lamp holder (10), a lampshade (20), and an LED light-emitting module (30). The LED light-emitting module (30) is mounted in the lamp holder (10), the lampshade (20) is mounted on the lamp holder (10) and covers the LED light-emitting module (30), and the lamp holder (10) is a metal lamp holder. The smart LED lamp further comprises a wireless control module and an antenna (40). The wireless control module is disposed in the lamp holder (10); one end of the antenna (40) is electrically connected to the wireless control module, and the other end passes through the lamp holder (10) and extends outward. The provision of the wireless control module and the antenna (40) for receiving or transmitting electrical signals enables the direct wireless control of a lamp, instead of controlling by means of a switch, so that the lamp is convenient to use. In addition, the antenna (40) passes through the lamp holder (10) and extends outward, thereby facilitating the reception of signals by the antenna (40) and preventing the metal lamp holder (10) from weakening the signal strength of the antenna (40), and therefore, the control is more flexible.
A down lamp and a remote control system for down lamps. The remote control system comprises a power management unit (11), an LED driving unit (12), and a control unit (13) provided on a circuit board, wherein the power management unit (11) supplies commercial power to the LED driving unit (12) and the control unit (13) after voltage reduction; the LED driving unit (12) is separately connected to an LED lamp (21) and the control unit (13), and controls the LED lamp (21) to work according to a control signal of the control unit (13); the control unit (13) comprises at least one of a press-key module (131), a Bluetooth module (132), a WIFI module (133), an infrared module (134), a ZigBee module, and a 2.4G wireless transmission module (135). By designing a down lamp having multiple control modes, user experience is improved, and the controllable mode of the down lamp is increased; moreover, by means of a design of an integrated circuit of multiple control modes, the whole occupation space is reduced; the design is applicable to different down lamps, saves costs, and facilitates large-scale production of products.
The present invention relates to the field of sockets, and specifically relates to a Bluetooth socket. The Bluetooth socket comprises a drive circuit connected to mains power and an output plug connected to the drive circuit; and the Bluetooth socket further comprises: an AD-DC step-down circuit, a Bluetooth control circuit, a USB plug and a relay, the AD-DC step-down circuit being connected to the drive circuit, the Bluetooth control circuit, and the USB plug respectively, the relay being connected to the output plug and the Bluetooth control circuit respectively, wherein the mains power is stepped down by the AD-DC step-down circuit and input to the Bluetooth control circuit and the USB plug, when the Bluetooth control circuit is controlled, the control relay controls the switch of the output plug. The present invention enables an output plug of a Bluetooth wireless control socket to work or be closed by designing a Bluetooth socket, and increases USB plugs, improves the applicable range of the plugs, and has strong practicality; and the Bluetooth socket has a simple structure, a stable circuit and high security, thereby improving the user experience.
Provided is a Bluetooth control device for lighting equipment, wherein the Bluetooth control device comprises a Bluetooth processor (11) and buttons. The buttons include a color adjusting button (121), a switch button (122), a brightness adjusting button (123) and a color temperature adjusting button (124). The Bluetooth processor (11) is respectively connected with the buttons, and sends the corresponding Bluetooth signal to a Bluetooth receiving module (21) of the lighting equipment according to the control of the corresponding button. The lighting equipment (20) performs a corresponding operation according to the Bluetooth signal. Provided is also a Bluetooth control method for lighting equipment. The Bluetooth control device uses a simple and effective circuit structure, and integrates a Bluetooth remote controller to make the Bluetooth control device more practical, while reducing space occupation, reducing cost, facilitating mass production, and improving user experience.
A dual-functional controller, comprising a main control module (11), a Bluetooth module (12), a data processing module (13), an output control module (15) and a dimmer input module (14), wherein the main control module (11) sends, according to a Bluetooth control signal received by the Bluetooth module (12), a control signal to the data processing module (13); the control signal is processed by the data processing module (13) and is then sent to the output control module (15); and the output control module (15) outputs, according to the control signal sent by the data processing module (13) or a dimming signal of the dimmer input module (14), a dimming control signal and controls LED lamp dimming of an illumination device (20). According to the dual-functional controller, a dimmer and Bluetooth dimming are designed in an integrated manner, thus improving the overall stability, reducing unnecessary electronic devices, reducing the cost, and facilitating an integrated, miniaturized and modular design.
An intelligent filament lamp. The intelligent filament lamp comprises a lamp holder (10), a bulb lamp cover (20) with a filament (1) and a circuit board (30). The bulb lamp cover is mounted on the lamp holder, and the circuit board is electrically connected to the filament and mounted in the lamp holder. The circuit board comprises a circuit bottom board (31) and at least one intelligent module board (32), and the intelligent module board is mounted on the circuit bottom board. The bottom board of the circuit is arranged along a lateral direction of the lamp holder, the intelligent module board is arranged along a longitudinal direction of the lamp holder, and the space of the lamp holder is used rationally, so that the lamp holder simultaneously accommodates the circuit bottom board and the intelligent module board, and the function of expanding a filament lamp is realized without increasing the volume of the lamp holder.
The present application relates to the field of illumination devices, in particular to a control system and a control box for an illumination device. The control system comprises a gateway and a control box, wherein the control box comprises a WiFi module and an infrared receiving head; an external terminal sends a first control signal to the WiFi module of the control box by means of the gateway, and an external infrared emitter sends a second control signal to the infrared receiving head of the control box; and the WiFi module controls the operation of an LED lamp by means of an LED driver according to the first control signal and the second control signal. In the present application, by means of designing a control system and a control box for an illumination device, a control manner for the illumination device is added, thus improving the user experience; and moreover, a WiFi module and an infrared module are integrally designed, thus reducing an occupied space, reducing the cost and improving the performances, such as of stability and security, also reducing loss, facilitating an integrated and miniaturized design and facilitating large-scale production of products.
A Bluetooth fireplace apparatus, comprising: a first control module (11), a first Bluetooth module (12), a control button (15), an AC-DC step-down circuit (13), a drive module (14), a heating body (16) and a fan (17), wherein the AC-DC step-down circuit (13) supplies power to the first control module (11) and the first Bluetooth module (12) after stepping down mains power; the drive module (14) is respectively connected to the heating body (16) and the fan (17); the first control module (11) is respectively connected to the first Bluetooth module (12), the control button (15) and the drive module (14), and the drive module (14) is controlled to drive the heating body (16) and the fan (17) to work according to a Bluetooth signal received by the first Bluetooth module (12) or a control signal of the control button (15). Further disclosed are a Bluetooth fireplace system.
Disclosed is a smart LED lamp, relating to the technical field of lamps. The smart LED lamp comprises a lamp base, a lampshade and an LED light-emitting module, wherein the lamp base comprises a top shell and hanging members, the LED light-emitting module is mounted inside the top shell, and the lampshade is mounted at the bottom of the top shell; and the top shell is provided with two guide grooves parallel to each other in the lengthwise direction, and two ends of the hanging members are respectively clamped in the two guide grooves in a sliding manner. When the smart LED lamp is mounted, the hanging members are fixed onto a wall by means of screws, and the position of the lamp base can be adjusted by sliding the hanging members in the guide grooves, thus preventing the screws from being unscrewed and then screwed in again, causing no secondary damage to the wall, achieving a simple operation and convenient mounting, and greatly reducing the labour cost.
Provided are a ceiling lamp patch and a smart ceiling lamp patch. The ceiling lamp patch comprises a lamp shade (1), a lamp panel (2) and a power source (4). The lamp shade (1) is annular; a rear side of the lamp shade (1) is provided with a lamp panel mounting opening (11); an annular ring of the lamp shade (1) is internally provided with a power source shell (3) connected to the lamp shade (1); the lamp panel (2) is annular to adapt to the lamp shade (1); a rear side of the lamp panel (2) is provided with multiple magnetic attraction columns (5); the lamp panel (2) is disposed inside the lamp shade (1) via the lamp panel mounting opening (11); the magnetic attraction columns (5) extend out of the lamp panel mounting opening (11); and the power source (4) is disposed inside the power source shell (3). The ceiling lamp patch is used as a replacement accessory when a ceiling lamp is damaged, the replacement operation is convenient, and the components, such as the lamp shade, a shell and a radiator, of an original ceiling lamp can be retained for continuous use, thus saving on the replacement cost.
Provided are a panel lamp and a smart panel lamp. The panel lamp comprises a frame (1), a diffusion plate (3), a light guide plate (4) and light source plates (2). The frame (1) is provided with a front opening (11). The diffusion plate (3) covers the front opening (11). The light guide plate (4) is disposed inside the frame (1), and outer peripheral sides of the light guide plate (4) directly face inner peripheral sides of the frame (1), with gaps being formed therebetween. Each of the light source plates (2) comprises a plate body (21) and lamp beads (22). The lamp beads (22) are divided into several lamp bead units (23) successively arranged along the plate body (21). Each of the lamp bead units (23) comprises a lamp bead R (224), a lamp bead G (223) and a lamp bead B (225) that are independent of one another. The plate body (21) of the light source plate (2) is attached to the inner side of the frame (1), and a side, provided with the lamp beads (22), of the plate body (21) faces the light guide plate (4). The panel lamp and the smart panel lamp can reduce the loss of light and have a high emergent light intensity.
The present invention relates to the field of traffic information acquisition and usage, and specifically relates to a road monitoring method and system: a plurality of Bluetooth transmission-based monitoring devices are provided on a road, and the monitoring method specifically comprising the following steps: by means of monitoring devices, acquiring the number and speed of vehicles in a corresponding monitoring zone of a road, and sending the same to a cloud server by means of a Bluetooth/WiFi gateway; forming road condition information of the road according to the acquired data information; and forming an anti-congestion measure according to the road condition information. The present invention monitors the road conditions of a road in real time, and sends traffic jam information to a management department and users if a traffic jam is detected such that the management department may promptly divert traffic away from the road section experiencing a traffic jam, and users may avoid the road experiencing the traffic jam according to an alert, thereby preventing the traffic jam from worsening.
The present invention relates to the field of traffic information acquisition and utilization, and in particular, to a monitoring method and system for a highway, the monitoring method specifically comprising the following steps: acquiring the real-time state of a guardrail, and acquiring the traffic data of a highway; sending the real-time state and the traffic data to a cloud server; and the cloud server determining whether a traffic accident occurs, and if a traffic accident occurs, sending a determination result to a display end. The present invention monitors the guardrail in real time, and determines, by means of whether the guardrail has been collided with, whether a vehicle has collided with the guardrail or an animal has collided with the guardrail, so as to determine whether there is an accident, and transmit information to the traffic department and the driver in time.
Disclosed are an intelligent ceiling lamp (100) and a control method therefor. The intelligent ceiling lamp (100) comprises: a lens (1); a face ring (2), a front side thereof having the lens (1) fixed thereon; a shell (7) fixed to a rear side of the face ring (2) so as to form an accommodation cavity; a PCB (6) arranged inside the accommodation cavity and at the rear side of the lens (1); a communication module (4) which is used for receiving an external control signal and which is arranged on the PCB (6); and an LED module (5) arranged inside the accommodation cavity, the LED module (5) being electrically connected to the communication module (4) so as to be controlled by the communication module (4). By means of the clever arrangement of the lens (1), the face ring (2) and the shell (7), the structure assembly mode for the intelligent ceiling lamp is novel. Not only is the communication module (4) stably fixed inside the ceiling lamp (100), but same also has a small structure occupancy space and a low requirement for the shell (7) of the product.
F21S 8/08 - Lighting devices intended for fixed installation with a standard
F21V 23/00 - Arrangement of electric circuit elements in or on lighting devices
F21V 17/10 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages characterised by specific fastening means or way of fastening
Disclosed is an intelligent light bulb (100), comprising a light bulb housing (1), a lamp holder (2), a PCB (6), a communication module (4) and an LED module (5), wherein a positioning column (10) is arranged at the rear side of the light bulb housing (1); the lamp holder (2) is fixedly connected to the rear side of the light bulb housing (1); the PCB (6) is arranged inside the lamp holder; a positioning hole (60) is provided in the PCB (6), and thus, the PCB is fixed to the positioning column (10) by means of the positioning hole (60); the communication module (4), which is used for receiving an external control signal, is arranged on the PCB (6); and the LED module (5) is arranged inside the light bulb housing (1), and the LED module (5) is electrically connected to the communication module (4) so as to be controlled by the communication module (4). The structure assembly mode is novel. Not only is the communication module stably fixed inside the light bulb, but same also has a small structure occupancy space and a low requirement for the housing of the product.
F21K 9/232 - Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings specially adapted for generating an essentially omnidirectional light distribution, e.g. with a glass bulb
F21K 9/238 - Arrangement or mounting of circuit elements integrated in the light source
H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
An intelligent power supply (100), comprising: a PCB (1), wherein the PCB comprises a horizontal sub-board (11) and a vertical sub-board (12), one end of the vertical sub-board is fixedly connected to the horizontal sub-board, and the horizontal sub-board is provided with a positioning hole (10); a communication module (2) for receiving an external control signal, wherein the communication module is arranged on the vertical sub-board and is electrically connected to a light-emitting module, and the communication module controls the light-emitting module according to the control signal; and a power supply drive circuit (3), wherein the power supply drive circuit is arranged on the horizontal sub-board, is electrically connected to the communication module, and is connected to the light-emitting module so as to supply power to the light-emitting module. The beneficial effects are: by means of providing a positioning hole on a PCB, the way in which the structure is assembled is novel, and not only is a communication module stably fixed in a power supply module, the structure occupies a small space and has a low requirement for a product installation housing.
F21V 23/00 - Arrangement of electric circuit elements in or on lighting devices
F21S 9/03 - Lighting devices with a built-in power supplySystems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light
Disclosed in the present invention is a smart warning light for a highway guardrail, the warning light comprising a plurality of sub-warning lights, the plurality of sub-warning lights being connected by means of Bluetooth communication, and being arranged, according to a preset spacing, on guardrails at two sides of the highway, each of the sub-warning lights comprising a power supply driving circuit, a Bluetooth module for Bluetooth communication and a light emitting module; the Bluetooth module is electrically connected to the power supply driving circuit for connecting to a power supply; the light emitting module is electrically connected to the power supply driving circuit and the Bluetooth module, and the Bluetooth communication module adjusts, according to an external Bluetooth signal, the light emitting module to emit light. Advantageous effects of the present invention are: by means of providing a plurality of warning lights on the highway guardrail, and providing Bluetooth modules in the warning lights for Bluetooth networking, when the highway guardrail fails, the warning lights help positioning so as to acquire the position of the guardrail.
G08G 1/065 - Traffic control systems for road vehicles by counting the vehicles in a section of the road or in a parking area, i.e. comparing incoming count with outgoing count
G08G 1/09 - Arrangements for giving variable traffic instructions
An intelligent LED street lamp system (1000), comprising a plurality of street lamps (100); the plurality of street lamps (100) are connected through Bluetooth communication and provided on two sides of a street according to a preset interval; each street lamp ( 100) comprises a housing (4), a support rod (5), a power drive circuit (1), a Bluetooth module (2) for Bluetooth communication, and a light-emitting module (3); the Bluetooth module (2) is electrically connected to the power drive circuit (1) to access a power source; the light-emitting module (3) is electrically connected to the power drive circuit (1) and the Bluetooth module (2), and the Bluetooth module (2) adjusts the light emitted from the light-emitting module (3) according to external Bluetooth signals; one end of the support rod (5) is fixed to one side of the street, and the other end of the support rod is provided with the housing (4); and the power drive circuit (1), the Bluetooth module (2) and the light-emitting module (3) are all provided in the housing (4). By providing street lamps (100) on both sides of the street and providing the Bluetooth module (2) in the street lamp (100) to realize Bluetooth networking, when failure occurs in a street lamp (100), the location of the street lamp can be known by assisted positioning.
A wireless intelligent bulb, comprising a lamp cap (10), a lamp housing (20) provided on the lamp cap, a control circuit board (11), a light-emitting component (21) provided in the lamp housing and electrically connected to the control circuit board, an antenna (12) connected to the control circuit board, and a mounting post (22) provided in the lamp housing. The antenna is at least partially provided in the mounting post. By mounting the antenna in the mounting post, the mounting post shields between the light-emitting component and the antenna, thereby reducing the influence of the temperature inside the lamp housing on the antenna when the bulb is used, and extending the service life of the antenna. Further disclosed is an electric appliance.
F21V 17/10 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages characterised by specific fastening means or way of fastening
A smart panel lamp (100), comprising: a frame (1) a functional board group (2), disposed at a back side of the frame (1); a backplane (3), disposed at a back side of the functional board group (2); a driver circuit (4); an LED module (5), disposed at an inner side of the frame (1) and electrically connected to the driver circuit (4); and a Bluetooth module (6), used to receive an external Bluetooth signal and electrically connected to the driver circuit (4), the Bluetooth module (6) converting the Bluetooth signal into a control signal, then transferring the signal to the driver circuit (4), which controls the LED module (5) according to the control signal. Remote controlled adjustment is realized by means of the driver circuit (4) and the Bluetooth module (6) disposed in the panel light (100); the structural assembly mode thereof is novel, and product housing requirements are low given that the structure takes up little space, by means of a vertical arrangement of two PCB boards (81, 82).
A smart assembly light (100), comprising: a power source driver (1) that is used for accessing an alternating current and outputting a direct current; a wire branching box (2), the wire branching box (2) comprising a drive circuit (21), a Bluetooth module (22) that is used for receiving an external Bluetooth signal, and a plurality of output terminals (23); the drive circuit (21) and the Bluetooth module (22) are electrically connected to the power source driver (1) so as to access a direct current; the Bluetooth module (22) is connected to the plurality of output terminals (23) by means of the drive circuit (21) so as to convert a Bluetooth signal into a control signal and output the same to the plurality of output terminals (23); a plurality of lamp bodies (3), which are respectively connected to the plurality of output terminals (23) so as to receive the Bluetooth signal emitted by the Bluetooth module (22), the plurality of lamp bodies (3) emitting light according to the control signal.
A Bluetooth panel switch (100), comprising: a box (1), a surface of the box (1) being opened with an opening (10); a fixing plate (2), the fixing plate (2) being fixed inside of the box (1) and being located within the opening (10), and the fixed plate (2) being provided thereon with a suction device (21); an operation panel (3), the operation panel (3) comprising a housing (31), a plurality of buttons (32), and a Bluetooth module (33); the plurality of buttons (32) is arranged on a surface of the housing (31), while the Bluetooth module (33) is arranged inside of the housing (31) and is electrically connected to the plurality of buttons (32), the housing (31) being suctioned to the suction device (21) by means of a rear side such that the operation panel (3) is fixed onto the fixing plate (2). The Bluetooth panel switch (100) has a Bluetooth remote control function, and the manner of installing the panel switch (100) has a broad range of applications; the panel switch (100) may further be fixed onto a wall by means of a conventional 86 box, or may work independently by being removed from the 86 box.
A smart panel switch (100), comprising: a plurality of button housings (1); an upper panel cover (2), a plurality of openings (21) which correspond to the plurality of button housings (1) being provided in the upper panel cover (2); a plurality of pressing portions (3) respectively provided inside the plurality of button housings (1); a button circuit (4) which is abutted against the plurality of pressing portions (3) to receive a button signal; a Bluetooth module (5) electrically connected to the button circuit (4) to convert the button signal into a Bluetooth signal and transmit the Bluetooth signal; a lower panel cover (6) fixedly connected to the upper panel cover (2); and a panel fixing device (7) for being fixed to other objects, the panel fixing device (7) being provided on the rear side of the lower panel cover (6). The panel switch has a Bluetooth remote control function, is easy to install, can be fixed on a wall at will and can also be removed anytime and anywhere to conduct the Bluetooth remote control, and is more portable and intelligent than the conventional panel switches.
Provided is a dimming and color modulating filament lamp (100) comprising: a bulb housing (1); a lamp cap (2) being fixedly connected to a rear side of the bulb housing (1); a power driving circuit (3) comprising a power sub-circuit (31) and a dimming and color modulation driving sub-circuit (32), wherein the dimming and color modulation driving sub-circuit (32) comprises a dimming pulse input interface (321), a color modulation pulse input interface (324), a dimming output interface (322), a color modulation output interface (325), and a dimming and color modulation chip (323); a Bluetooth module (4) electrically connected to the power sub-circuit (31), and electrically connected to the dimming pulse input interface (321) and the color modulation pulse input interface (324); and an LED module (5) which is provided inside the bulb housing (1), electrically connected to the power sub-circuit (31), and is electrically connected to the dimming output interface (322). The beneficial effects of the dimming and color modulating filament lamp are as follows: the power driving circuit (3) and the Bluetooth module (4) are arranged in the filament to realize the dimming function, the structure assembly method is novel; and through the vertical arrangement of the PCB boards, the structure occupies a small space and has low requirement for the product housing.
F21K 9/232 - Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings specially adapted for generating an essentially omnidirectional light distribution, e.g. with a glass bulb
F21V 19/00 - Fastening of light sources or lamp holders
F21V 23/00 - Arrangement of electric circuit elements in or on lighting devices
F21V 23/06 - Arrangement of electric circuit elements in or on lighting devices the elements being coupling devices
H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
Provided is a dimming filament lamp (100), comprising: a bulb housing (1); a lamp cap (2), said lamp cap (2) being fixedly connected to the rear side of the bulb housing (1); a power supply driver circuit (3), said power supply driver circuit (3) comprising a power supply sub-circuit (31) and a dimming driver sub-circuit (32); said dimming driver sub-circuit (32) comprising a dimming pulse input interface (321), a dimming output interface (322), and a dimming chip (323) separately electrically connected to the dimming pulse input interface (321) and the dimming output interface (322); a Bluetooth module (4) used for receiving a Bluetooth signal, said Bluetooth module (4) being electrically connected to the power supply sub-circuit (31) and electrically connected to the dimming pulse input interface (321); an LED module (5), arranged inside the bulb housing (1) and electrically connected to the power supply sub-circuit (31) and electrically connected to the dimming output interface (322). The beneficial effects are: a dimming function is achieved by means of the power supply driver circuit (3) and the Bluetooth module (4) being arranged in the filament lamp (100); the manner of assembly of the structure is novel, and by means of the vertical arrangement of two PCBs (6), the structure occupies a small space, resulting in low requirements for the product housing.
A smart strip light, comprising: a housing (1); a light-transmitting cover (2), which is arranged on the housing (1) so as to form a strip-shaped accommodating space; end covers (3), which are arranged at two ends of the strip-shaped accommodating space; a drive circuit (4), which is arranged within the strip-shaped accommodating space; a light-emitting diode (LED) module (5), which is arranged within the strip-shaped accommodating space and which is electrically connected to the drive circuit (4); a Bluetooth module (6) that is used for receiving an external Bluetooth signal, being arranged within the strip-shaped accommodating space and being electrically connected to the drive circuit (4); the Bluetooth module (6) converts a Bluetooth signal to a control signal and then transmits the control signal to the drive circuit (4), which controls the LED module (5) according to the control signal. The advantages of the present invention are as follows: by means of arranging the drive circuit and the Bluetooth module in the strip light, a remote control adjustment function is achieved; the manner of assembling the structure thereof is novel; and the structure thereof occupies little space due to the vertical arrangement of two printed circuit boards (PCBs), while requirements for the housing of the product are low.
F21K 9/27 - Retrofit light sources for lighting devices with two fittings for each light source, e.g. for substitution of fluorescent tubes
F21K 9/278 - Arrangement or mounting of circuit elements integrated in the light source
F21K 9/275 - Details of bases or housings, i.e. the parts between the light-generating element and the end capsArrangement of components within bases or housings
H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
A smart bulb (100), comprising: a bulb shell (1); a lamp cap (2); a casing (3), the front end of the casing being fixedly connected to the bulb shell (1), and the rear end being fixedly connected to the lamp cap (2); a power driving circuit (4) disposed inside the casing (3), the power driving circuit (4) comprising a power sub-circuit (41) and a driving sub-circuit (42), wherein the power sub-circuit (41) is electrically connected to the lamp cap (2) to access alternating current and converts the alternating current into direct current; a Bluetooth module (5) used to receive an external Bluetooth signal and disposed inside the casing (3), the Bluetooth module (5) being electrically connected to the power sub-circuit (41) to access the direct current and being electrically connected to the driving sub-circuit (42); and a lamp panel module (6) disposed at the front end of the casing (3) and electrically connected to the driving sub-circuit (42), the lamp panel module (6) being adjusted by the Bluetooth module (5) by means of the driving sub-circuit (42) to emit light.
An LED remote controller and an LED control system, the LED remote controller being used for controlling an LED remote control lamp. A Bluetooth module is mounted in the LED remote control lamp. The LED remote controller comprises a key circuit (110), a Bluetooth main control circuit (120) and a Bluetooth antenna (130). The key circuit, the Bluetooth main control circuit and the Bluetooth antenna are electrically connected in sequence. The Bluetooth antenna is used for communicating with the Bluetooth module. The key circuit comprises a plurality of keys for controlling the operating state of the LED remote control lamp, and the key circuit is used for receiving information about a user's operation on the keys, and sending the operation information to the Bluetooth main control circuit. The Bluetooth main control circuit outputs a corresponding control signal according to the operation information, and sends the control signal to the Bluetooth antenna. The Bluetooth antenna sends the control signal to the LED remote control lamp using the Bluetooth mesh technology. The LED remote controller can control multiple groups of LED remote control lamps simultaneously.
Disclosed is a nixie tube, comprising a PCB (1), multiple lamp beads (2), a word frame (3), a diffusion film (4) and a light-transmitting film (5), wherein the word frame (3) is provided with multiple openings (31), the multiple lamp beads (2) and the word frame (3) are all arranged on the PCB (1), the multiple lamp beads (2) are respectively arranged inside the multiple openings (31) of the word frame (3), and the light-transmitting film (5) and the diffusion film (4) are stacked and arranged on the word frame (3). By arranging the lamp beads (2) in the word frame (3) and adjusting colour through the light-transmitting film (5), the structure is simple, the product cost is low, and fonts in a plurality of colours can be realized.
A spotlight, comprising a lens (1), a housing (2), a lamp holder (3), and a smart lamp (4). The lens (1) is fixedly connected to a front end of the housing (2). The lamp holder (3) is fixedly connected to a rear end of the housing (2). The lens (1), the housing (2), and the lamp holder (3) form an accommodation cavity. The smart lamp (4) is disposed in the accommodation cavity. The smart lamp (4) comprises an antenna (41) for receiving an external signal, a central control unit (42), and a light-emitting unit (43). The antenna (41) and the light-emitting unit (43) are both disposed at a rear side of the lens (1). The central control unit (42) is separately electrically connected to the antenna (41) and the light-emitting unit (43). The central control unit (42) controls, according to the external signal, the light-emitting unit (43) to emit light. The lens is fixedly connected to the housing, and the antenna is disposed at the rear side of the lens, such that the aesthetic appearance of the spotlight is not affected, and normal transmission and reception of an antenna signal is ensured.
A smart lamp (100), comprising a first PCB board (1), a light-emitting unit (2), a second PCB board (3), a central control unit (4), a power support board (5), and a power drive unit (6). A front side of the first PCB board (1) abuts a rear side of the second PCB board (3). The second PCB board (3) is provided with an opening (31), and the light-emitting unit (2) is disposed at the front side of the first PCB board (1) and in the opening (31). The central control unit (4) is disposed at a front side of the second PCB board (3). One end of the power support board (5) is fixedly connected to a rear side of the first PCB board (1), and the power drive unit (6) is disposed on the power support board (5). The power drive unit (6) is separately electrically connected to the light-emitting unit (2) and the central control unit (4), and the central control unit (4) is electrically connected to the light-emitting unit (2). In the smart lamp (100), the light-emitting unit (2), the central control unit (4), and the power drive unit (6) are integrally disposed, such that operation is facilitated, the space occupied by the structure is minimal, and product external housing requirements are low.
A control circuit of a smart lighting lamp, comprising: a Bluetooth module (110), used for networking with other Bluetooth devices via a Bluetooth mesh networking technique, also used for receiving a Bluetooth signal outputted by a terminal controller, and generating a Bluetooth digital dimming signal on the basis of the Bluetooth signal; a dimming control circuit (120), used for monitoring a voltage signal generated by a dimmer of the smart lighting lamp and generating a dimmer dimming signal on the basis of the voltage signal; a master control circuit (130), used for generating a dimming control signal on the basis of the Bluetooth digital dimming signal or of the dimmer dimming signal; and a driver circuit (140), used for regulating, on the basis of the dimming control signal, a current outputted to the smart lighting lamp. The control circuits of the smart lighting lamp allows a user not only to implement adjustments with respect to the smart lighting lamp via a terminal controller such as a smart electronic device or remote control, but also to perform dimming via the dimmer, thus enhancing operability.
Disclosed in the present invention is a Bluetooth WIFI gateway device. The Bluetooth WiFi gateway device comprises: a Bluetooth module; a WIFI module, electrically connected to the Bluetooth module; a switching circuit, electrically connected to the WIFI module; a first voltage stabilization circuit, electrically connected to the Bluetooth module; and a second voltage stabilization circuit, electrically connected to the WIFI module and the switching circuit. The beneficial effects are provided by implementing the present invention: by means of the Bluetooth gateway device, a Bluetooth gateway receive a Bluetooth signal and transmits a WIFI signal, and the Bluetooth gateway device has a simple structure and low costs.
A panel lamp (100), comprising: a panel lamp housing assembly (10); a control module (20), which is disposed at an inner portion of the panel lamp housing assembly (10); a Bluetooth module (30), which is used for receiving an external control signal by means of Bluetooth and which is coupled to the control module (20); a light-emitting unit (40), which is disposed at the inner portion of the panel lamp housing assembly (10); and an illumination driving circuit (50), which is used for controlling the light-emitting unit (40) and which is coupled to the control module (20) and the light-emitting unit (40). By means of Bluetooth wireless control technology, the brightness, color, timing, music accompanied by colors, scene mode and other functions of the panel lamp (100) may be remotely adjusted, making life more convenient and increasing the diversification and appeal of smart home lighting.
Disclosed are a frequency-modulated receiving circuit, a lamp, and an audio playback method thereof. The frequency-modulated receiving circuit comprises: a frequency-modulated receiving antenna used for receiving a frequency-modulated signal; a frequency-modulated receiving chip electrically connected to the frequency-modulated receiving antenna; a receiving microprocessor electrically connected to the frequency-modulated receiving chip; a received frequency coding switch used for adjusting a received frequency point and electrically connected to the receiving microprocessor; an amplifier electrically connected to the frequency-modulated receiving chip; and a loudspeaker electrically connected to the amplifier. The present invention has the following beneficial effects: by configuring different frequency points for frequency-modulated reception of external audio signals, not only anti-interference capability of a remote control technology is improved, but also communication reliability of smart home is improved; and by configuring a plurality of loudspeaker nodes or lamps and achieving a music networking function between the plurality of nodes or lamps, people's life experience is improved and smart home control functions are enriched.
Disclosed are a frequency-modulated transmitting circuit and a frequency-modulated transmitting method. The circuit comprises: a frequency-modulated transmitting antenna used for transmitting a frequency-modulated signal; a signal amplification circuit electrically connected to the frequency-modulated transmitting antenna; a frequency-modulated transmitting chip electrically connected to the signal amplification circuit; a transmitting microprocessor electrically connected to the frequency-modulated transmitting chip; a transmitted frequency coding switch used for adjusting a transmitted frequency point and electrically connected to the transmitting microprocessor; an audio signal socket configured for plug-in connection of an audio interface and electrically connected to the frequency-modulated transmitting chip; and an audio Bluetooth socket configured for plug-in connection of a Bluetooth module and electrically connected to the frequency-modulated transmitting chip. The present invention has the following beneficial effects: by configuring different frequency points for frequency-modulated transmission of audio signals, not only anti-interference capability of a remote control technology is improved, but also communication reliability of smart home is improved; and by applying the frequency-modulated transmitting circuit to the smart home, people's life experience is improved and smart home control functions are enriched.
Disclosed are a multichannel surround sound system and a mounting method therefor. The system comprises an audio transmitting device and a plurality of frequency-modulated loudspeaker devices. The audio transmitting device comprises a frequency-modulated transmitting circuit used for transmitting an audio frequency-modulated signal. Each of the frequency-modulated loudspeaker devices comprises a frequency-modulated receiving circuit used for receiving and playing the audio frequency-modulated signal. The present invention has the following beneficial effects: by configuring different frequency points for frequency-modulated transmission of audio signals, not only anti-interference capability of a remote control technology is improved, but also communication reliability of smart home is improved; multichannel surround sound is achieved by means of frequency modulation; and by applying the frequency-modulated transmitting circuit to the smart home, people's life experience is improved and smart home control functions are enriched.
The present invention discloses a networked musical light source and a system thereof. The networked musical light source comprises: a frequency-modulation transmitting circuit; a first amplifier circuit, electrically connected to the frequency-modulation transmitting circuit; an audio output circuit, electrically connected to the frequency-modulation transmitting circuit and the first amplifier circuit; a wireless audio device, electrically connected to the audio output circuit; a first wireless lighting device; a first lighting drive circuit, electrically connected to the first wireless lighting device; and a first lightboard circuit, electrically connected to the first lighting drive circuit. The present invention achieves effective networked functionality among multiple musical light sources by means of wireless control technology and frequency modulation, enhancing home living and diversifying smart home control functions.
Disclosed are networked speakers and a system thereof. The networked speakers comprise: a frequency-modulation transmitting circuit; a first power amplifier circuit electrically connected to the frequency-modulation transmitting circuit; an audio output circuit electrically connected to the frequency-modulation transmitting circuit and the first power amplifier circuit; and a wireless audio device electrically connected to the audio output circuit. The invention realizes a networking function between multiple speakers by means of a wireless control technique and frequency modulation, thereby improving user experience, and achieving a variety of control functions for smart home appliances.
A Bluetooth ceiling lamp fan (100), comprising: an AC/DC circuit (1) for connecting an alternating current and converting same into a direct current; a fan speed change circuit (2) used for adjusting the rotational speed of a fan (3) and electrically connected to the AC/DC circuit (1); the fan electrically connected to the fan speed change circuit (2); a lamp panel driving circuit electrically connected to the AC/DC circuit (1); a lamp panel (5) electrically connected to the lamp panel driving circuit (4); and a Bluetooth communication module (6) used for connecting an external Bluetooth signal so as to control the fan (3) and the lamp panel (5) and electrically connected to the fan speed change circuit (2) and the lamp panel driving circuit (4). By means of Bluetooth wireless control technology, the Bluetooth ceiling lamp fan (100) achieves functions such as the remote control of brightness adjustment, colour adjustment, timing, colourful music, and scene modes of a ceiling lamp, and functions such as the remote control of switching on/switching off and wind speed adjustment of a fan, thereby facilitating people's lives and improving the experience of a smart home.
A Bluetooth networking-based lamp strip audio synchronization system and method. The system comprises a plurality of vehicle-mounted devices (100) connected to each other by means of Bluetooth. Each vehicle-mounted device comprises: a lamp strip (2) comprising a plurality of lamp areas; a plurality of constant-current drive circuits (1) electrically connected to the plurality of lamp areas respectively; a lamp strip Bluetooth circuit (3) electrically connected to the plurality of constant-current drive circuits; an audio output unit (4); an audio Bluetooth circuit (5) electrically connected to the audio output unit; a power supply circuit (6) electrically connected to the lamp strip Bluetooth circuit, the audio Bluetooth circuit, and the plurality of constant-current drive circuits respectively; and a battery pack (7) electrically connected to the power supply circuit. A plurality of bicycles, motorcycles, and electric bicycles synchronously emit light or music by means of Bluetooth networking, so that the application of the lamp strip is enhanced, thereby improving user experience.
A paper diaper sensing device (100), comprising: a housing (1); a circuit board (2) disposed inside the housing (1); a control unit (3) disposed on the circuit board (2); a sensing unit (4) for sensing the temperature and humidity of a paper diaper, the sending unit (4) being disposed on the circuit board (2), electrically connected to the control unit (3), and abutting against the inner wall of the housing (1); and an antenna (5) for sending and receiving a Bluetooth signal, the antenna (5) being electrically connected to the control unit (3) and disposed on the circuit board (2). The paper diaper sensing device (100) senses the temperature and humidity of a paper diaper in real time to determine whether the paper diaper needs to be replaced, and transmits information that the paper diaper needs to be replaced to an external terminal such as a mobile terminal by means of Bluetooth communication, so that the paper diaper is replaced in time.
A61F 13/42 - Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the bodySupporting or fastening means thereforTampon applicators with wetness indicator or alarm
72.
CONTROL SYSTEM AND CONTROL METHOD FOR BLUETOOTH LAMP STRIP VEHICLE-MOUNTED DEVICE
A control system (10) and control method for a Bluetooth lamp strip vehicle-mounted device. The control system comprises a Bluetooth lamp strip vehicle-mounted device (100), a mobile terminal (200), and a backend server (300). The Bluetooth lamp strip vehicle-mounted device is communicationally connected to the mobile terminal by means of Bluetooth, and the mobile terminal is communicationally connected to the backend server by means of a network. The backend server is used for receiving and responding to a request signal of the mobile terminal, so as to send a control signal to the mobile terminal. The mobile terminal is used for sending the request signal to the backend server, receiving the control signal, and sending and/or receiving a Bluetooth signal to and/or from the Bluetooth lamp strip vehicle-mounted device. By means of a Bluetooth wireless control technology, a vehicle-mounted device is remotely controlled to emit different light and music, so that functions such as brightness adjustment, color adjustment, timing, music with color effects, and modes for vehicles such as motorcycles, bicycles, and electric bicycles are achieved, thereby making the functions of the vehicle-mounted device more diversified and more delightful.
H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
H02J 7/32 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from a charging set comprising a non-electric prime mover
A Bluetooth remote controller (100), comprising: a remote controller housing (1), wherein a plurality of openings are provided on the remote controller housing (1); a circuit board (2) arranged inside the remote controller housing (1); a plurality of keys (3) arranged in the plurality of openings; a control unit (4) arranged on the circuit board (2); a key circuit (5) electrically connected to the control unit (4), arranged on the circuit board (2) and abutted against the plurality of keys (3); and an antenna (6), for transceiving a Bluetooth remote control signal, electrically connected to the control unit (4) and arranged on the circuit board (2). By means of the Bluetooth wireless control technology, functions, such as remote brightness adjustment, colour adjustment, timing, colourful music and a profile mode of a remote controller are implemented, thereby making life more convenient for people, and increasing the diversity and interest of smart home lighting.
Disclosed is a ceiling light with a Bluetooth speaker. The ceiling light comprises: a surface hood (10), wherein an opening (101) is provided around a centre axis of the surface hood (10); a bottom plate (11), wherein the bottom plate (11) is connected to the surface hood (10) so as to form an accommodation chamber; a light plate (12), wherein the light plate (12) is provided within the accommodation chamber and abuts against the inner side of the bottom plate (11); and a Bluetooth speaker housing (13), wherein the upper side of the Bluetooth speaker housing (13) is provided with a sound hole (131), and wherein the outer edge of the sound hole (131) and the edge of the opening (101) are attached to each other, and the bottom side of the Bluetooth speaker housing (13) is connected to the inner side of the bottom plate (11). By means of the Bluetooth wireless control technology, functions of the ceiling light such as remote luminance adjusting, colour adjusting, timing, music with dazzling light, scene mode, etc. are realized, making life more convenient for people and adding to the diversity and fun of intelligent residential lighting.
A Bluetooth bulb lamp, comprising: a bulb lamp housing assembly (1); a control module (2) provided in the bulb lamp housing assembly (1); a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module (2); a light-emitting unit (4) provided in the bulb lamp housing assembly (1); and a Bluetooth control circuit (5) used for controlling the light-emitting unit (4) and coupled with the control module (1) and the light-emitting unit (4). By means of Bluetooth wireless control technology, functions, such as remote brightness adjustment, color adjustment, timing, music colorful illumination, and profiles, of a bulb lamp are implemented, thereby facilitating people's life, and enhancing the diversity and delights of intelligent home illumination.
A Bluetooth control power source (100), comprising: a power source housing assembly (1); a control module (2) provided inside the power source housing assembly; a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module; and a Bluetooth control circuit (5) used for controlling on/off of a light-emitting unit (4) and coupled with the control module and the light-emitting unit. By means of Bluetooth wireless control technology, functions such as remote control of timing, on/off, brightness adjustment, color adjustment, music colorful illumination, and profiles of a lamp are implemented, thereby facilitating people's life and enhancing the diversity and delights of intelligent home illumination.
A Bluetooth bulb lamp (100), comprising: a bulb lamp housing assembly (1); a control module (2) provided in the bulb lamp housing assembly (1); a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module (2); a light-emitting unit (4) provided in the bulb lamp housing assembly (1); and a Bluetooth control circuit (5) used for controlling the light-emitting unit (4) and coupled with the control module (2) and the light-emitting unit (4). By means of Bluetooth wireless control technology, functions such as remote brightness adjustment, color adjustment, timing, music colorful illumination, and profiles of a bulb lamp are implemented, thereby facilitating people's life and enhancing the diversity and delights of intelligent home illumination.
F21K 9/232 - Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings specially adapted for generating an essentially omnidirectional light distribution, e.g. with a glass bulb
H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
A Bluetooth down lamp (100), comprising: a down lamp housing assembly (1); a control module (2) provided in the down lamp housing assembly (1); a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module (2); a light-emitting unit (4) provided in the down lamp housing assembly (1); and a Bluetooth control circuit (5) used for controlling the light-emitting unit (4) and coupled with the control module (2) and the light-emitting unit (4). By means of Bluetooth wireless control technology, functions such as remote brightness adjustment, color adjustment, timing, music colorful illumination, and profiles of the Bluetooth down lamp (100) are implemented, thereby facilitating people's life and enhancing the diversity and delights of intelligent home illumination.
A Bluetooth panel lamp (100), comprising: a panel lamp housing assembly (1); a control module (2) provided in the panel lamp housing assembly; a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module; a light-emitting unit (4) provided in the panel lamp housing assembly; and a Bluetooth control circuit (5) used for controlling the light-emitting unit and coupled with the control module and the light-emitting unit. By means of Bluetooth wireless control technology, functions such as remote brightness adjustment, color adjustment, timing, music colorful illumination, and profiles of a panel lamp are implemented, thereby facilitating people's life, and enhancing the diversity and the delights of intelligent home illumination.
A Bluetooth ceiling lamp (100) comprises: a ceiling lamp housing assembly (1); a control module (2), disposed in the ceiling lamp housing assembly (1); a Bluetooth mesh module (3), used for receiving an external control signal by means of Bluetooth and coupled to the control module (2); a light emitting unit (4), disposed in the ceiling lamp housing assembly (1); and a Bluetooth control circuit (5), used for controlling the light emitting component (2), and coupled to the control module (2) and the light emitting component (4). In the technical solution, by means of a Bluetooth wireless control technology, remote brightness adjustment, color adjustment, timing, splendid colors with music, profiles and other functions are implemented on the ceiling lamp, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth controller (100) comprises: a controller housing assembly (1); a control module (2), disposed in the controller housing assembly (1); a Bluetooth mesh module (3), used for receiving an external control signal by means of Bluetooth and coupled to the control module (2); a Bluetooth control circuit (5), used for controlling the light emitting unit and coupled to the control module (2); and a Bluetooth power supply module (4), used for supplying a direct current to the Bluetooth control circuit (5) and coupled to the Bluetooth control circuit (5). By means of a Bluetooth wireless control technology, remote brightness adjustment, color adjustment, timing, splendid colors with music, profiles and other functions are implemented by the controller, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth ceiling lamp (100), comprising: a ceiling lamp housing assembly (1); a control module (2) provided in the ceiling lamp housing assembly (1); a Bluetooth mesh module (3) used for receiving an external control signal by means of Bluetooth and coupled with the control module (2); a light-emitting unit (4) provided in the ceiling lamp housing assembly (1); and a Bluetooth control circuit (5) used for controlling the light-emitting unit (4) and coupled with the control module (2) and the light-emitting unit (4). By means of Bluetooth wireless control technology, functions such as remote brightness adjustment, color adjustment, timing, music colorful illumination, and profiles of a ceiling lamp are implemented, thereby facilitating people's life and enhancing the diversity and the delights of intelligent home illumination.
A Bluetooth sensing switch panel (100) comprises: a switch housing assembly (1); a control module (2), disposed in the switch housing assembly (1); a Bluetooth sensing mesh module (3), used for sensing the movement of surrounding objects by means of Bluetooth, coupled to the control module (2) and disposed on the surface of the switch housing assembly (1); and a Bluetooth control circuit (5), used for controlling ON and OFF of a light emitting component (4), coupled to the control module (2), and comprising a relay (53) used for controlling ON and OFF of the light emitting component (4), the relay (53) being coupled to the light emitting component (4). In the Bluetooth sensing switch panel (100), a function of remotely adjusting ON and off of a lamp by means of a Bluetooth wireless control technology is implemented, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth-sensing switching lamp socket (100) comprises: a switching lamp socket housing assembly (1); a control module (2), disposed in the switching lamp socket housing assembly (1); a Bluetooth-sensing mesh module (3), used for sensing by means of Bluetooth movement of nearby objects, coupled to the control module (2) and disposed on the surface of the switching lamp socket housing assembly (1); and a Bluetooth control circuit (5), used for controlling ON and OFF of a light emitting component (4), coupled to the control module (2), and comprising a relay (53) used for controlling ON and OFF of the light emitting component (4), the relay (53) being coupled to the light emitting component (4). The benefits of the Bluetooth sensing switching lamp socket (100) are a remote on/off adjustment function of a lamp by means of Bluetooth wireless control technology, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth sensing lamp switch (100) comprises: a switch housing assembly (1); a control module (2), disposed in the switch housing assembly (1); a Bluetooth sensing mesh module (3), used for sensing the movement of surrounding objects by means of Bluetooth, coupled to the control module (2) and disposed on the surface of the switch housing assembly (1); and a Bluetooth control circuit (5), used for controlling ON and OFF of a lamp load (4), and coupled to the control module (2) and the lamp load (4). A function of remotely adjusting ON and off of a lamp by means of a Bluetooth wireless control technology is implemented, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth lamp switch comprises a switch housing assembly (1), a control module (2), a Bluetooth mesh module (3), and a Bluetooth control circuit (5). The control module (2) is disposed in the switch housing assembly (1). The Bluetooth mesh module (3) is coupled to the control module (2), and is used for receiving an external control signal by means of Bluetooth. The Bluetooth control circuit (5) is coupled to the control module (2) and a lamp load (4), and is used for controlling ON and OFF of the lamp load (4). The Bluetooth lamp switch has a function of remotely adjusting ON and off of a lamp by means of a Bluetooth wireless control technology.
A Bluetooth panel lamp comprises a lampshade assembly (1), a light emitting unit (8), a lamp plate (2), a diffusion panel (3), a light guide plate (4), reflection paper (5), and a lower cover (6). The lower cover (6) is mounted on the lampshade assembly (1) and forms an accommodating chamber. The light emitting unit (8) is disposed on the lampshade assembly (1). The lamp plate (2) is fixed to the inner wall of the lampshade assembly (1) and is electrically connected to the light emitting unit (8), and comprises a Bluetooth mesh circuit used for receiving an external Bluetooth control signal and a control circuit used for controlling the light emitting unit (8) according to the Bluetooth control signal received by the Bluetooth mesh circuit. The Bluetooth mesh circuit is coupled to the control circuit. The control circuit is electrically connected to the light emitting unit (8). The diffusion panel (3), the light guide plate (4) and the reflection paper (5) are sequentially connected in an abutting manner and then are disposed in the accommodating chamber. By means of a Bluetooth wireless control technology, remote brightness adjustment, color adjustment, timing, splendid colors with music, profiles and other functions are implemented on the panel lamp, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
A Bluetooth switch panel comprises: a switch housing assembly (1); a control module (2), disposed in the switch housing assembly; a Bluetooth mesh module (3), used for sensing the movement of surrounding objects by means of Bluetooth, coupled to the control module and disposed on the surface of the switch housing assembly; and a Bluetooth control circuit (5), used for controlling ON and OFF of a light emitting component (4), coupled to the control module, and comprising a relay (53) used for controlling ON and OFF of the light emitting component, the relay being coupled to the light emitting component. The technical solution has the beneficial effects: a function of remotely adjusting ON and off of a lamp by means of a Bluetooth wireless control technology is implemented, thereby bringing convenience to the life of the people, and increasing the variety and the enjoyment of smart home lighting.
An infrared smart socket control system (1000), comprising: a remote server (200); an infrared code library server (300), used for storing and providing infrared codes, and in a communication connection with the remote server (200); a smart socket (100), used for performing local infrared control and learning, and in a communication connection with the remote server (200), a surface of the smart socket (100) being provided with an infrared transceiving module (9); a control terminal (400), used for remotely controlling the smart socket (100) to perform infrared control, and in a communication connection with the remote server (200). Remote smart infrared control is implemented via infrared learning and infrared forwarding in coordination with the infrared code library server (300), other home appliances are controlled in real time via the smart socket (100), and the power consumption of the socket (100) is obtained in real time via current and voltage detection, thereby achieving smart, safe and energy-saving effects.
A smart socket remote control system (1000) and method, the system (1000) comprising: a remote server (200); a smart socket (100), used for emitting a control signal to a local electrical appliance, and in a communication connection with the remote server (200); a control terminal (400), used for remotely controlling the smart socket (100) to emit the control signal, and in a communication connection with the remote server (200); a voice identification server (500), used for identifying voice information, and in a communication connection with the remote server (200); an infrared code library server (300), used for storing and providing infrared codes, and in a communication connection with the remote server (200). The control system (1000) and method implement remote control by the smart socket (100) via the control terminal (400), other home appliances are controlled in real time via the smart socket (100), and the power consumption of the socket is obtained in real time via current and voltage detection, thereby achieving smart, safe and energy-saving effects.
A smart socket voice control system, comprising: a remote server (200); a voice identification server (500), used for identifying voice information, and in a communication connection with the remote server; a smart socket (100), used for receiving a local voice and emitting a control signal according to an identified voice, and in a communication connection with the remote server, a surface of the smart socket being provided with a sound collection module (14). Smart socket voice control is implemented via the voice identification server, other home appliances are controlled in real time via the smart socket, and the power consumption of the socket is obtained in real time via current and voltage detection, thereby achieving smart, safe and energy-saving effects.
Disclosed in the present invention are a method and an apparatus for synchronously controlling lamps by using a mobile terminal. The method comprises: obtaining loading programs of multiple lamps needing to be synchronously controlled; separately obtaining states of the multiple lamps according to the loading programs; setting up groups according to the states of the multiple lamps; and synchronously controlling on/off and colors of the multiple lamps according to the groups. Implementation of the present invention has the following beneficial effects: intelligent lamps can be managed in batches by means of intelligent grouping; on/off and colors of the intelligent lamps are controlled by means of scenario dazzle and music dazzle, so that the intelligence degree of a system is increased, control types are enriched, and the user experience is improved.
G06F 3/0484 - Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
