CN206136419U - Intelligent energy -saving lighting device - Google Patents

Abstract

The embodiment of the utility model discloses an intelligent energy-saving lighting device, which relates to the technical field of lighting equipment control. The intelligent energy-saving lighting device includes: a processor, a human body sensing module, a brightness sensing module and a light source; wherein, the human body sensing module is used to detect human body sensing information of whether there is a person in the controlled area; the brightness sensing module is used to Detecting ambient light brightness information; the processor is connected to the human body sensing module, the brightness sensing module, and the light source, and is configured to, according to the human body sensing information and/or the ambient light brightness information, The intelligent energy-saving lighting device performs energy-saving control; wherein, the energy-saving control includes: adjusting the brightness of the light source and/or controlling the light source to be turned on and off. The technical solution of the embodiment of the utility model can automatically control the brightness and switch of the lighting device through the human body induction module, which can prevent waste of electricity and realize intelligent energy saving.

Description

Intelligent energy-saving lighting device

Technical Field

The embodiment of the utility model provides a relate to lighting apparatus control technical field, especially relate to an energy-conserving lighting device of intelligence.

Background

At present, the light source and the illumination are used as a marginal interdisciplinary subject for bringing brightness to human beings, and take an important position in various fields of national economy such as industrial and agricultural production, scientific research, cultural entertainment, medical treatment and public health, daily life and the like. In response to the call for saving material resources and energy resources, energy saving of the lighting device is also important.

In a conventional LED (Light Emitting Diode) energy-saving lamp, wiring is required in advance and a fixed switch is required to be mounted. Because usually will arrange the electric wire in the inside of wall body or the body of rod, in case set up the switch position, it can be very troublesome to change the switch position again. Moreover, the user controls the switch of the lamp through the switch at the fixed position, which is inconvenient for special people such as disabled people. In daily life, if a user forgets to turn off the lamp after going out, the user can only return to the room, the lamp is turned off by fixing the switch, which is troublesome and laborious, and if the user forgets to turn off the lamp all the time, the user is easy to cause energy waste. In summary, the existing energy-saving lamp has relatively simple function, low flexibility and less obvious energy-saving effect.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an energy-conserving lighting device of intelligence to solve lighting device complex operation and the not obvious scheduling problem of energy-conserving effect, realize that lighting device's intelligence is energy-conserving.

An embodiment of the utility model provides an energy-conserving lighting device of intelligence, the device includes: the device comprises a processor, a human body induction module, a brightness induction module and a light source; wherein,

the human body induction module is used for detecting whether human body induction information of a person exists in the controlled area;

the brightness sensing module is used for detecting the ambient light brightness information;

the processor is connected with the human body induction module, the brightness induction module and the light source and is used for carrying out energy-saving control on the intelligent energy-saving lighting device according to the human body induction information and/or the environment light brightness information; wherein the energy saving control includes: the brightness of the light source is adjusted and/or the light source is controlled to be turned on and off.

Further, the intelligent energy-saving lighting device further comprises:

the wireless transmission module is used for carrying out signal interaction with the terminal;

the processor is connected with the wireless transmission module and is further used for adjusting the brightness of the light source and/or controlling the light source to be turned on and off according to the control signal input by the terminal.

Further, wireless transmission module includes at least one in WIFI module, bluetooth module, infrared module and the purple bee module.

Further, the human body sensing module comprises a pyroelectric infrared sensor module.

Further, the processor is an STM32F0 processor.

Furthermore, the intelligent energy-saving lighting device also comprises a heat dissipation device for dissipating heat;

the processor is connected with the heat dissipation device and is also used for controlling the heat dissipation device to dissipate heat.

Furthermore, the intelligent energy-saving lighting device also comprises a temperature sensor for detecting the ambient temperature;

the processor is connected with the temperature sensor and is specifically used for controlling the heat dissipation device to dissipate heat according to the temperature detection result of the temperature sensor.

Further, the processor, the Bluetooth module, the brightness sensing module and the light source are packaged in the same shell.

Further, the light source is an LED lamp.

The technical scheme of this embodiment, through setting up human response module, luminance response module, can detect whether there is human response information in the controlled area through human response module, detect the ambient light brightness through luminance response module to by the treater according to human response information, and/or ambient light brightness information carries out energy-conserving control to intelligent energy-conserving lighting device, adjusts opening and closing of light source luminance and/or control light source, and the actual demand of fully combining external environment and user can really realize lighting device's energy-conservation, compares in traditional technical scheme through fixed switch control lighting device in addition, and is more nimble convenient, more intelligent.

Drawings

In order to more clearly illustrate the technical solutions of the exemplary embodiments of the present invention, a brief description is given below of the drawings required for describing the embodiments. It should be clear that the described figures are only drawings of some of the embodiments of the invention to be described, not all, and that for a person skilled in the art, other figures can be derived from these figures without inventive effort.

Fig. 1 is a schematic structural diagram of an intelligent energy-saving lighting device according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent energy-saving lighting device provided in the second embodiment of the present invention;

fig. 3 is a schematic flow chart of a control method of an intelligent energy-saving lighting device according to a third embodiment of the present invention;

fig. 4 is a schematic flowchart of a control method of an intelligent energy-saving lighting device according to a fourth embodiment of the present invention;

fig. 5 is a schematic flow chart of a control method of an intelligent energy-saving lighting device according to a fifth embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a schematic structural diagram of an intelligent energy-saving lighting device provided in the first embodiment of the present invention, as shown in fig. 1, the intelligent energy-saving lighting device provided in this embodiment includes: a processor 110, a human body sensing module 120, a brightness sensing module 130 and a light source 140; the human body sensing module 120 is configured to detect whether human body sensing information of a person exists in the controlled area; a brightness sensing module 130 for detecting ambient light brightness information; the processor 110 is connected with the human body sensing module 120, the brightness sensing module 130 and the light source 140, and is configured to perform energy-saving control on the intelligent energy-saving lighting device according to the human body sensing information and/or the ambient light brightness information; wherein the energy saving control includes: the brightness of the light source is adjusted and/or the light source is controlled to be turned on and off. Optionally, the processor 110 is an STM32F0 processor.

It can be understood that the intelligent energy-saving lighting device further comprises: and the power supply 150 is used for supplying power to the processor 110, the human body induction module 120, the brightness induction module 130, the light source 140 and other components of the intelligent energy-saving lighting device. Illustratively, the power supply 150 may be a battery-type power supply or an interface-type power supply, or the like. In this embodiment, optionally, the intelligent energy-saving lighting device may further include a dual power supply function, and may be externally powered by a commercial power of 110 v to 220 v ac, or may be powered by a 24 v battery or a 24 v dc switching power supply.

Illustratively, the human body sensing module 120 may include a pyroelectric infrared sensor module. The pyroelectric infrared sensor module can detect infrared rays with specific wavelength of about 10um radiated by a human body in a non-contact mode, converts the infrared rays into voltage signals, can identify moving living beings and other non-living beings, and has the advantages of low cost, low power consumption, stable performance, long-term reliable work and the like.

Alternatively, the brightness sensing module may include an illumination intensity sensor, a photoelectric sensor, and the like, as long as the ambient light brightness can be represented. For example, an illumination intensity sensor is a common detection device based on light intensity change, which can detect the change of the received light intensity, and mainly uses various photoelectric elements such as a photoresistor, a reference resistor, a comparator, a relay, a nor gate and the like to convert an optical signal into an electrical signal, and then the electrical signal is processed by a signal sampling circuit, an amplifying circuit and an analog-to-digital conversion circuit to obtain a digital signal representing the illumination intensity and then the digital signal is processed.

To better achieve energy saving, the light source 140 may select an energy saving type lamp, such as an LED lamp. The specific model, size, appearance, etc. may be selected according to the actual application environment, and are not limited herein.

The technical scheme of this embodiment, through setting up human response module 120, luminance response module 130, can detect whether there is human body response information in the controlled area through human response module 120, detect the ambient light brightness through luminance response module 130, thereby by processor 110 according to human body response information, and/or ambient light brightness information, carry out energy-saving control to intelligent energy-saving lighting device, adjust opening and closing of light source 140 luminance and/or control light source 140, the actual demand of fully combining external environment and user can really realize lighting device's energy-conservation, and compare in traditional technical scheme through fixed switch control lighting device, it is more nimble convenient, it is more intelligent.

Example two

Fig. 2 is a schematic structural diagram of an intelligent energy-saving lighting device provided by the embodiment of the present invention. As shown in fig. 2, the technical solution of this embodiment is further optimized on the basis of the first embodiment, and compared with the first embodiment, the intelligent energy-saving lighting device provided in this embodiment further includes: a wireless transmission module 160 for performing signal interaction with the terminal; the processor 110 is connected to the wireless transmission module 160, and is further configured to adjust the brightness of the light source and/or control the light source 140 to turn on or off according to the control signal input by the terminal. Similarly, the power supply 150 supplies power to the wireless transmission module 160.

By adopting the technical scheme, the remote wireless control of the intelligent energy-saving lighting device can be realized, so that a user can control the intelligent energy-saving lighting device at any time and any place according to requirements, for example, when the lighting device is a lamp used by a family, the user can remotely control the on-off of the lighting device at home even if the user goes out, and the intelligent energy-saving lighting device is more convenient and flexible and meets the individual requirements of the user.

Optionally, the wireless transmission module 160 may include at least one of a WIFI module, a bluetooth module, an infrared module, and a zigbee module. Illustratively, the WIFI module may include an ESP8266WIFI module. It is understood that the WIFI module, the bluetooth module, the infrared module and the zigbee module mentioned in the above embodiments are only used for explaining the wireless transmission module 160, and are not limited thereto, that is, the wireless transmission module 160 is not limited to the modules mentioned in the above embodiments, as long as the wireless transmission module 160 can realize signal transmission between the processor 110 and the terminal, and the present invention is within the protection scope of the present invention.

Taking the wireless transmission module 160 as a bluetooth module as an example, the bluetooth module is connected to the processor 110 and is used for signal transmission between the processor 110 and a terminal; the processor 110 may be configured to adjust the brightness of the light source 140 and/or control the turning on and off of the light source 140 according to the detection result of the bluetooth module, the human body sensing module and/or the brightness sensing module 130.

On the basis of the above embodiments, optionally, the human body sensing module may further include at least one of an infrared sensor, a pressure sensor, a voice control sensor, and a microwave sensor.

In order to ensure the performance of each component in the passport illumination device, the intelligent energy-saving illumination device optionally further comprises a heat dissipation device for dissipating heat; and the processor 110 is connected with the heat dissipation device and is further used for controlling the heat dissipation device to dissipate heat. The power supply 150 may provide power to the heat sink. By adopting the technical scheme, the processor 110, the human body induction module 120, the brightness induction module 130, the light source 140, the wireless transmission module 160 and other components of the lighting device can work under a constant temperature condition, and the performance of the components can be kept stable.

On the basis, for better energy conservation, the intelligent energy-saving lighting device can further comprise a temperature sensor for detecting the ambient temperature; and the processor 110 is connected with the temperature sensor, and is specifically configured to control the heat dissipation device to dissipate heat according to a temperature detection result of the temperature sensor. The power supply 150 supplies power to the temperature sensor. The advantage that sets up like this lies in, can launch through temperature sensor's testing result the heat abstractor dispels the heat, can avoid need not radiating under the circumstances, opens heat abstractor always and cause the energy waste.

It is understood that the intelligent energy saving device may further include a timing module, a brightness adjusting module, and the like, and the timing module and the brightness adjusting module may be respectively integrated on separate chips, respectively connected to the processor 110, and may also be integrated in the processor 110.

Based on the above embodiments, the processor 110, the human body sensing module 120, the brightness sensing module 130 and the light source 140 are exemplarily enclosed in the same housing. On this basis, the wireless transmission module 160, the processor 110, the human body sensing module 120, the brightness sensing module 130 and the light source 140 can be packaged in the same housing. The shape, size, etc. of the housing may be set according to the actual requirements of the user, and are not limited herein. By adopting the technical scheme, the installation is convenient, the transportation is convenient, the packaging and the protection of the shell are provided, the external force can be prevented from directly contacting the processor 110, the human body induction module 120, the brightness induction module 130 and the light source 140, the risk of damaging the structure of each part is reduced, and meanwhile, the dustproof effect can be well achieved. In order to facilitate identification of the components, the shell may be respectively provided with marks of the processor 110, the human body sensing module 120, the brightness sensing module 130, the light source 140, and the like. Optionally, the mark may be in the form of a pattern and/or a text. In consideration of convenience of fault detection of the lighting device, the housing may be further provided with indicator lamps of the processor 110, the human body sensing module 120, the brightness sensing module 130, the light source 140, and the like, and the fault detection of the lighting device may be performed by turning on or off the indicator lamps, changing colors, or the like.

EXAMPLE III

Fig. 3 is a schematic flow chart of a control method of an intelligent energy-saving lighting device according to a third embodiment of the present invention. The method of this embodiment may be executed by the intelligent energy-saving lighting device according to any embodiment of the present invention, as shown in fig. 3, the method of this embodiment specifically includes:

s310, when the intelligent energy-saving lighting device is started, whether human body induction information of a person exists in the controlled area detected by the human body induction module is obtained.

In this embodiment, the lighting energy-saving device can be turned on in various ways. Illustratively, the intelligent energy-saving lighting device can be controlled to be turned on according to human body induction information in a preset time period; or, the energy-saving lighting device is controlled to be turned on according to whether human body sensing information of a person exists in the controlled area detected by the human body sensing module and the brightness of the rhizoma polygonati detected by the brightness sensing module; or controlling the intelligent energy-saving lighting device to be turned on according to a control instruction for turning on the light source, which is input by a user in a wired or wireless mode.

Optionally, the obtaining of the human body sensing information of whether there is a person in the controlled area detected by the human body sensing module may be to periodically obtain the human body sensing information of whether there is a person in the controlled area detected by the human body sensing module in real time or at preset time intervals. Further, optionally, the human body induction module may detect whether human body induction information exists in the controlled area in real time, or periodically detect whether human body induction information exists in the controlled area at intervals of a preset time period; whether human body induction information of a person exists in the controlled area or not can be detected within a preset time range.

It is understood that the controlled area may be less than or equal to the maximum detection range of the human body sensing module. Whether a person is in the controlled area includes: at least one person is detected in the controlled area or no person is detected in the controlled area. Wherein detecting at least one person within the controlled area comprises: including the detection of at least one person moving and/or staying within the controlled area.

S320, performing energy-saving control on the intelligent energy-saving lighting device according to the human body induction information; wherein the energy saving control includes: the brightness of the light source is adjusted and/or the light source is controlled to be turned off.

In this embodiment, performing energy-saving control on the intelligent energy-saving lighting device according to the human body sensing information may include: and if no person exists in the controlled area, controlling the light source to be turned off when detecting that the continuous turn-on time of the light source exceeds a preset first time interval. Or if no person is in the controlled area, controlling the brightness of the light source to be reduced to a preset second brightness threshold value when detecting that the continuous opening time of the light source exceeds a preset second time interval. On this basis, after the controlling the brightness of the light source to decrease to the preset second brightness threshold, the method may further include: and if no person exists in the controlled area and the continuous opening time of the light source is detected to exceed a preset third time interval, controlling the light source to be closed. Or, if the ambient light brightness information is higher than a preset first brightness threshold, controlling the light source to be turned off. For example, the human body sensing module determines whether a person is moving and staying, and if no person is moving and staying in the controlled area, the light source can be adjusted in brightness and/or controlled to be turned off, so as to save energy.

According to the technical scheme provided by the embodiment, the intelligent energy-saving lighting device is subjected to energy-saving control of adjusting the brightness of the light source and/or controlling the light source to be turned off according to whether human body induction information of a person exists in the controlled area detected by the human body induction module, so that the actual requirements of a user can be fully combined, the intelligent energy-saving lighting device is controlled, and intelligent energy saving of the lighting device is really realized.

Example four

Fig. 4 is a schematic flow chart of a control method of an intelligent energy-saving lighting device according to a fourth embodiment of the present invention, on the basis of the above embodiments, the present embodiment optionally further optimizes "according to the human body sensing information, the intelligent energy-saving lighting device performs energy-saving control" as follows: and if no person exists in the controlled area, when the fact that the continuous opening time of the light source exceeds a preset second time interval is detected, the brightness of the light source is adjusted to be reduced to a preset second brightness threshold value.

On the basis of the above technical solution, further, after the controlling the brightness of the light source to decrease to a preset second brightness threshold, the method further includes: and if no person exists in the controlled area and the continuous opening time of the light source is detected to exceed a preset third time interval, controlling the light source to be closed.

Correspondingly, the method of the embodiment specifically includes:

s410, when the intelligent energy-saving lighting device is started, whether human body induction information of a person exists in the controlled area detected by the human body induction module is obtained.

And S420, if no person exists in the controlled area, when the fact that the continuous opening time of the light source exceeds a preset second time interval is detected, adjusting the brightness of the light source to be reduced to a preset second brightness threshold value.

Wherein the second time interval may start with the last time a person in the controlled area is detected. The specific value of the second time interval may be a default empirical value, or may be preset by the user according to the user's own needs. If no person is in the controlled area and the continuous on-time of the light source is detected to exceed the preset second time interval, the controlled area is in an unmanned state all the time in the preset second time interval, and at the moment, the lighting device is continuously turned on at high brightness, so that a large amount of energy waste can be caused. It will be appreciated that the timing may be restarted if a person is detected within the controlled area at a second time interval.

And S430, if no person is in the controlled area and the continuous opening time of the light source is detected to exceed a preset third time interval, controlling the light source to be closed.

Wherein the third time interval may be a time beginning from a last detection of a person within the controlled area, at which time the third time interval is greater than the second time interval; it may also be a time starting from the end of the second time interval, i.e. it may also start when the brightness of the light source decreases to a preset second brightness threshold. And if the fact that the continuous opening time of the light source exceeds the preset third time interval and no person exists in the controlled area is detected, the light source is controlled to be turned off, and energy conservation can be better achieved. This technical scheme is particularly useful for the condition that the user had a rest at night.

For example, the human body sensing module may automatically reduce the brightness of the light source when no human body movement or stay is detected within 5 minutes, and automatically turn off the light source when no human body movement or stay is detected within 10 minutes, so that the light source automatically enters a sleep state. It can be appreciated that after the light source is turned off, the human body sensing module can still continue to detect whether a person is in the controlled area.

According to the technical scheme of the embodiment, whether the light source is turned off or not is controlled by detecting whether a person exists in the controlled area, and if the continuous turn-on time of the light source exceeds a preset second time interval when the controlled area does not exist, the light source is controlled to adjust the brightness of the light source to be reduced to a preset second brightness threshold value; and continuously detecting the continuous opening time of the light source, and controlling the light source to be closed if the continuous opening time exceeds a preset third time interval, so that the energy waste caused by the fact that the light source is always opened when no person is in the controlled area for a long time can be effectively avoided. And the brightness is reduced firstly, and then the system is closed, so that users about to arrive at a controlled area can be reminded, the system is more humanized and intelligent, and the energy-saving effect is more obvious.

It should be noted that "first", second ", and third" of "first time interval", "second time interval", and "third time interval" are only used to distinguish time intervals in different scenes, and are not limited. The specific values of the "first time interval", "second time interval" and "third time interval" may be the same or different, and may be set according to actual requirements, which is not limited herein.

EXAMPLE five

Fig. 5 is a schematic flowchart of a control method of an intelligent energy-saving lighting device according to a fifth embodiment of the present invention, as shown in fig. 5, this embodiment is further optimized on the basis of the foregoing embodiments, and the control method of the intelligent energy-saving lighting device in this embodiment may further include: acquiring the ambient light brightness information detected by the brightness sensing module; and controlling the light source to be started according to the human body induction information and the environment light brightness information.

Correspondingly, the method of the embodiment specifically includes:

and S510, obtaining the ambient light brightness information detected by the brightness sensing module.

Illustratively, the brightness sensing module may include a brightness sensor, also called a light sensor.

The brightness of the surrounding environment can be accurately identified by acquiring the environment brightness information, and whether a user possibly needs to perform energy-saving adjustment on the intelligent energy-saving lighting device is judged in an auxiliary manner. Specifically, the acquiring the ambient light brightness information detected by the brightness sensing module may include: and periodically acquiring the ambient light brightness information detected by the brightness induction module in real time or at preset time intervals. Further, the brightness sensing module may detect the ambient light brightness information in real time or periodically at preset time intervals; the ambient light brightness information may also be detected within a preset time range.

S520, whether human body induction information of a person exists in the controlled area detected by the human body induction module is obtained.

And S530, controlling the light source to be started according to the human body induction information and the environment light brightness information.

The human body induction information can judge whether people are in the controlled area, and whether the light source needs to be controlled to be started or not can be better judged by combining the ambient light brightness information. In this embodiment, the specific step of controlling the light source to be turned on according to the human body sensing information and the ambient light brightness information may be that if there is a person in the controlled area and the ambient light brightness information is lower than a preset first brightness threshold, the light source is controlled to be turned on. Or, if someone is in the controlled area, acquiring the current time of the current processor; and if the current time is within a preset time range and the ambient light brightness information is lower than a preset first brightness threshold value, automatically controlling the light source to be started.

For example, a pyroelectric human body sensing module can be adopted, and the light source is controlled to be turned on when the processor detects that a human body moves or stays within 6m within a preset time period; or when the processor detects that the human body moves or stays within 6m and the ambient light brightness is less than 1000 nits, controlling the light source to be turned on.

S540, performing energy-saving control on the intelligent energy-saving lighting device according to the human body induction information; wherein the energy saving control includes: the brightness of the light source is adjusted and/or the light source is controlled to be turned off.

For example, the day mode and the night mode may be set according to a preset time node. For example, the daytime operation mode may be 6:00 to 18:00 in the morning, and in the daytime operation mode, if the brightness sensing module of the lighting device detects that the ambient light brightness is higher than or equal to 1000 nits, the light source may be forcibly controlled to be turned off and not turned on; if the ambient brightness of the brightness sensing module of the lighting device is detected to be lower than 1000 nits, a user can turn on or turn off the light source according to the requirement, and the brightness of the light source can be automatically adjusted according to the ambient brightness. The night working mode is 18:00 to 6:00 in the next day, and under the night working mode, if the human body induction module of the lighting device detects that people move, the light source can be automatically controlled to be started, meanwhile, a user can set the brightness of the light source according to needs, and the lighting device can automatically adjust the brightness to a set value.

By adopting the technical scheme, the processor can acquire the human body sensing information and the ambient light brightness information, the light intensity of the ambient environment and the requirements of a user are comprehensively considered, the light source is automatically controlled to be turned on or turned off, the actual condition that the light source needs to be turned on or turned off can be judged more accurately, and the energy conservation of the lighting device is realized more effectively and more intelligently.

In order to avoid energy waste, even if the light source is turned off to save energy, on the basis of the above embodiments, after the controlling the light source to turn on, the method further includes: and if the ambient light brightness information is higher than a preset first brightness threshold value, controlling the light source to be closed. Wherein the first brightness threshold value can be set by a manufacturer of the lighting device according to an empirical value; or, the first brightness threshold value is preset according to the user's needs, that is, the processor may recognize a value input by the user in advance as the first brightness threshold value. The advantage that sets up like this lies in, when the ambient light luminance information is higher than predetermined first luminance threshold value, can regard as ambient light luminance can satisfy user's demand, but the automatic control light source was closed this moment, avoids the energy extravagant, effectively realizes intelligent energy-conservation.

In order to further facilitate the control of the user to the lighting device, the embodiment of the utility model provides a basis, still include: and adjusting the brightness of the light source and/or controlling the light source to be turned on and off according to the received control signal input by the terminal. Wherein the terminal can input the control signal through the wireless transmission device. As previously described, the wireless transmission module may include at least one of a WIFI module, a bluetooth module, an infrared module, and a zigbee module. That is, the wireless transmission module may include one, two or more combinations of a WIFI module, a bluetooth module, an infrared module, and a zigbee module.

Taking the example that the intelligent energy-saving device further comprises a bluetooth module, the control method of the intelligent energy-saving lighting device may include: when the processor detects a signal interacted with the terminal based on the Bluetooth module, acquiring the ambient light brightness information detected by the brightness sensor; and performing energy-saving control on the intelligent energy-saving lighting device according to the ambient light brightness information. Wherein the energy saving control may include at least one of: adjusting the brightness of the LED lamp, adjusting the color of the LED lamp and controlling the on-off of the LED lamp.

Specifically, the performing energy-saving control on the intelligent energy-saving lighting device according to the ambient light brightness information may include: and if the ambient light brightness information is higher than a preset first brightness threshold value, controlling the light source to be closed. Or, when the processor detects that the bluetooth module is connected with the terminal, receiving a control signal sent by the terminal; and performing energy-saving control on the intelligent energy-saving lighting device according to the environment light brightness information and/or the control signal. Further, the control signal may comprise a music playing signal carrying music melody information; correspondingly, the performing energy-saving control on the intelligent energy-saving lighting device according to the control signal may include: and adjusting the brightness and/or color of the LED lamp according to the music playing signal.

According to the technical scheme, intelligent energy conservation is achieved, more choices can be provided for the user, the method and the device can be suitable for the personalized requirements of the user, and the flexibility and the convenience of controlling the lighting device by the user are improved.

Illustratively, the control signal may include a music play signal carrying music melody information; correspondingly, the performing energy-saving control on the intelligent energy-saving lighting device according to the control signal includes: and adjusting the brightness and/or color of the light source according to the music playing signal. Specifically, when the processor receives a music playing signal carrying music melody information through the bluetooth device, the light source may change along with the change of the music melody. Namely, the terminal can play music to generate a music playing signal, and the music playing signal is transmitted to the Bluetooth module of the lighting device through the Bluetooth equipment of the terminal, so that the light effect of controlling the LED energy-saving lamp is achieved. Wherein the light effect may comprise the brightness and/or color of the light source. The processor adjusts the brightness of the light source, or adjusts the color of the light source, or adjusts both the brightness and the color of the light source according to the music playing signal. For example, when soothing music is played, the processor may adjust the light source to vary within a relatively soft range of brightness and/or color depending on the melody of the music being played. On the contrary, when playing more dynamic music, the processor may adjust the brightness and/or color of the light source to change within a relatively strong range according to the melody of the played music.

In addition, the processor can also perform energy-saving control on the intelligent energy-saving lighting device according to the intensity of the Bluetooth signal of the terminal detected by the Bluetooth device and the ambient light brightness information. Because the intensity of the Bluetooth signal can reflect whether the user enters or leaves the area where the light-emitting device is located to a certain extent, the intelligent energy-saving lighting device is subjected to energy-saving control according to the intensity of the Bluetooth signal and the ambient light brightness information, the actual situation of the user is fully combined, the light-emitting device is automatically controlled to save energy, and the light-emitting device is enabled to be more intelligent.

Typically, the terminal of the embodiment of the present invention can be a mobile phone, a tablet computer, an intelligent watch, a notebook computer, etc.

By adopting the technical scheme, the intelligent energy-saving lighting device is subjected to energy-saving control through the control signal input by the terminal, so that the energy-saving effect can be realized, the atmosphere can be adjusted, the personalized requirements of users can be met, the flexibility is further enhanced, the intelligent lighting device is more intelligent, and the user experience can be greatly improved.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (9)

1. An intelligent energy-saving lighting device, comprising: a processor, a human body sensing module, a brightness sensing module and a light source; wherein, The human body sensing module is used to detect human body sensing information of whether there is a person in the controlled area; The brightness sensing module is used to detect ambient light brightness information; The processor is connected to the human body sensing module, the brightness sensing module and the light source, and is used to perform energy-saving control on the intelligent energy-saving lighting device according to the human body sensing information and/or the ambient light brightness information ; Wherein, the energy-saving control includes: adjusting the brightness of the light source and/or controlling the light source to be turned on and off. 2. The device according to claim 1, characterized in that: It also includes a wireless transmission module for signal interaction with the terminal; The processor, connected to the wireless transmission module, is further configured to adjust the brightness of the light source and/or control the light source to be turned on and off according to the control signal input by the terminal. 3. The device according to claim 2, wherein the wireless transmission module includes at least one of a WIFI module, a Bluetooth module, an infrared module and a Zigbee module. 4. The device according to claim 1, wherein the human body sensing module comprises a pyroelectric infrared sensor module. 5. The device according to claim 1, wherein the processor is an STM32F0 processor. 6. The device according to claim 1, characterized in that: It also includes a heat dissipation device for heat dissipation; The processor is connected to the heat dissipation device and is also used to control the heat dissipation device to dissipate heat. 7. The device according to claim 6, characterized in that: A temperature sensor is also included to detect the ambient temperature; The processor is connected to the temperature sensor, and is specifically configured to control the heat dissipation device to perform heat dissipation according to the temperature detection result of the temperature sensor. 8 . The device according to claim 3 , wherein the processor, the Bluetooth module, the brightness sensing module and the light source are packaged in a same housing. 9. The device according to any one of claims 1-8, wherein the light source is an LED lamp.