CN208337968U - Intelligent illuminating system - Google Patents

Abstract

The utility model discloses a kind of intelligent illuminating systems, including pillow, terminal and headlamp；The headlamp includes light emitting module；The pillow and the terminal communicate to connect, and for detecting vital sign parameter signals, and when vital sign parameter signals are not detected, issue trigger signal to terminal；The pillow is also used to when detecting the vital sign parameter signals, issues cut-off signals to the terminal；The terminal is communicated to connect with the headlamp, for receiving the trigger signal or the cut-off signals that the pillow is sent, and the trigger signal or the cut-off signals is sent to the headlamp；The headlamp, for lighting the light emitting module when receiving the trigger signal that the terminal is sent；The headlamp is also used to close the light emitting module when receiving the cut-off signals that the terminal is sent.The utility model is using pillow detection vital sign parameter signals as a result, the switch control of progress headlamp, easy to use.

Description

Intelligent lighting system

Technical Field

The utility model relates to a circuit electron field especially relates to an intelligent lighting system.

Background

The advent of electric lamps enables people to get rid of using candles, torches and the like for illumination, and promotes the improvement of human civilization. With the development of the technology, electric lamps are gradually updated, and light sources such as fluorescent lamps, electronic energy-saving lamps, high-pressure sodium lamps, LED lamps and the like appear in sequence. On the other hand, the development of the field of lamp switching control still cannot keep up with the demands of users, especially in the field of household lamp switching control. At present, most of the users still adopt simple and original touch switches to carry out illumination control at home, and if the users get up in the middle of the night, the users need to touch the touch switches in the dark to start illumination, so that the use is very inconvenient.

SUMMERY OF THE UTILITY MODEL

A primary object of the utility model is to provide an intelligent lighting system aims at solving and adopts touch switch to carry out the illumination control of family and leads to awkward problem.

In order to achieve the above object, the utility model provides an intelligent lighting system, which comprises a pillow, a terminal and a lighting lamp; the illumination lamp comprises a light emitting module; wherein,

the pillow is in communication connection with the terminal and is used for detecting vital sign signals and sending a trigger signal to the terminal when the vital sign signals are not detected;

the pillow is also used for sending a turn-off signal to the terminal when the vital sign signal is detected;

the terminal is in communication connection with the illuminating lamp and is used for receiving the trigger signal or the turn-off signal sent by the pillow and sending the trigger signal or the turn-off signal to the illuminating lamp;

the lighting lamp is used for lighting the light-emitting module when receiving the trigger signal sent by the terminal;

the lighting lamp is further used for turning off the light emitting module when the turn-off signal sent by the terminal is received.

Optionally, the pillow comprises a pillow body, a control chip, a piezoelectric film sensor, a memory and a first communication module are arranged in the pillow body, and the control chip is electrically connected with the piezoelectric film sensor, the memory and the first communication module respectively;

the piezoelectric film sensor is used for detecting a vital sign signal and sending the detected vital sign signal to the control chip when the vital sign signal is detected;

the control chip is used for sending the turn-off signal to the terminal through the first communication module when receiving the vital sign signal sent by the piezoelectric film sensor;

the control chip is further configured to send the trigger signal to the terminal through the first communication module when the vital sign signal sent by the piezoelectric film sensor is not received;

the memory is used for storing the vital sign signals.

Optionally, a heart rate monitoring module is further arranged in the pillow body, and the heart rate monitoring module is connected between the piezoelectric film sensor and the control chip;

the piezoelectric film sensor is also used for sending the vital sign signals to the control chip through the heart rate monitoring module;

the heart rate monitoring module is used for determining heart rate data of a human body according to the vital sign signals sent by the piezoelectric film sensor and sending the heart rate data to the memory;

the memory is also used for storing the heart rate data.

Optionally, the first communication module includes a bluetooth chip and/or a WiFi module.

Optionally, the pillow body is made of rubber.

Optionally, the lighting lamp further comprises a controller and a second communication module; the controller is electrically connected with the second communication module and the light-emitting module respectively;

the second communication module is configured to receive the trigger signal or the shutdown signal sent by the terminal;

the controller is configured to control the light emitting module to be turned on or turned off according to the trigger signal or the turn-off signal received by the second communication module.

Optionally, the second communication module includes a bluetooth chip and/or a WiFi module.

Optionally, the lighting lamp further comprises a photosensitive detection module, and the photosensitive detection module is electrically connected with the controller;

the photosensitive detection module is used for detecting the illumination intensity and sending the illumination intensity data to the controller;

the controller is further configured to receive the illumination intensity data sent by the photosensitive detection module, and control the lighting module to light up according to the trigger signal received by the second communication module when the illumination intensity data is smaller than a set value;

the controller is further configured to control the light emitting module to be turned off according to the turn-off signal received by the second communication module when the illumination intensity data is smaller than a set value;

the controller is further used for controlling the light emitting module to be closed when the illumination intensity data is larger than or equal to a set value.

Optionally, the lighting lamp further comprises a brightness adjusting module, and the brightness adjusting module is connected between the controller and the light emitting module;

and the brightness adjusting module is used for adjusting the illumination brightness of the light emitting module.

Optionally, the lighting lamp further includes a power supply module, and the power supply module is electrically connected to the controller and is configured to provide a direct current power supply.

The pillow, the terminal and the illuminating lamp are arranged; the illumination lamp comprises a light emitting module; the pillow is in communication connection with the terminal and used for detecting vital sign signals and sending a trigger signal to the terminal when the vital sign signals are not detected; the pillow is also used for sending a turn-off signal to the terminal when the vital sign signal is detected; the terminal is in communication connection with the illuminating lamp, and a user sends the trigger signal or the turn-off signal to the illuminating lamp; the lighting lamp is used for lighting the light-emitting module when receiving the trigger signal sent by the terminal; the lighting lamp is further used for turning off the light emitting module when the turn-off signal sent by the terminal is received. Therefore, the light-emitting module of the illuminating lamp is automatically turned off or turned on according to whether the vital sign signal is detected by the pillow, so that a user does not need to touch the touch switch in the dark when getting up at night, and the use is convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a block diagram of an embodiment of the intelligent lighting system of the present invention;

FIG. 2 is a schematic diagram of the intelligent lighting system of FIG. 1;

fig. 3 is a schematic structural diagram of a pillow in the intelligent lighting system of fig. 1.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Pillow (Ref. TM.) with a heat-insulating layer	15	Heart rate monitoring module
20	Terminal device	16	Core control unit
				30	Lighting lamp	31	Light emitting module
11	Control chip	32	Controller
				12	Piezoelectric thin film sensor	33	Second communication module
13	Memory device	34	Photosensitive detection module
				14	First communication module	35	Brightness adjusting module

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an intelligent lighting system.

Referring to fig. 1, in one embodiment, the intelligent lighting system includes a pillow 10, a terminal 20, and a lighting lamp 30; the illumination lamp 30 includes a light emitting module 31; wherein,

the pillow 10 is in communication connection with the terminal 20, and is configured to detect a vital sign signal, and send a trigger signal to the terminal 20 when the vital sign signal is not detected;

the pillow 10 is further configured to send a shutdown signal to the terminal 20 when the vital sign signal is detected;

the terminal 20 is in communication connection with the lighting lamp 30, and is configured to receive the trigger signal or the turn-off signal sent by the pillow 10, and send the trigger signal or the turn-off signal to the lighting lamp 30;

the lighting lamp 30 is configured to light the light emitting module 31 when receiving the trigger signal sent by the terminal 20;

the illumination lamp 30 is further configured to turn off the light emitting module 31 when receiving the turn-off signal sent by the terminal 20.

The terminal 20 may be at least one of a smart phone, a tablet computer, and a home gateway. The vital sign signal parameters may refer to the user's respiration, body temperature, heartbeat, pulse, etc. After the corresponding parameters of the vital sign signals are selected, the vital sign signals can be detected by corresponding sensors arranged in the pillow 10, and the vital sign signals can be mechanically measured according to different pressed states of the pillow 10.

When the head of the user is rested on the pillow 10, the pillow 10 detects the vital sign signal, that is, it is determined that the user is in a bed state at the moment, the pillow 10 sends a turn-off signal to the terminal 20, the terminal 20 forwards the turn-off signal to the illuminating lamp 30, so that the illuminating lamp 30 turns off the light emitting module 31 of the illuminating lamp 30 after receiving the turn-off signal; when the user gets up, the pillow 10 is not in contact with the head of the user, and at this time, the pillow 10 cannot detect the vital sign signal, that is, it is determined that the user is in the out-of-bed state, the pillow 10 sends a trigger signal, and the terminal 20 forwards the trigger signal to the illuminating lamp 30, so that the illuminating lamp 30 lights the light-emitting module 31 after receiving the trigger signal. According to the scheme, whether the pillow 10 detects a vital sign signal or not is used for judging the bed leaving state or the bed in state of the user, so that the light emitting module 31 which sends a trigger signal or a turn-off signal to control the lighting lamp 30 to be turned on or turned off, and therefore when the user gets up at midnight, the lighting lamp 30 is directly turned on, the user does not need to touch black to control the touch switch, and the switch control is simple and easy to operate.

It should be noted that the terminal 20 in this application is used to forward the turn-off signal or the trigger signal, so as to ensure that the pillow 10 and the illumination lamp 30 can perform signal transmission in a communication connection manner, replace the original electrical connection manner, have no limitation of wire distance, and do not affect the normal use of the pillow 10. Further, the main emphasis of the present solution is to realize the intelligent control of the illumination lamp 30 through the hardware circuit connection of the pillow 10, the terminal 20 and the illumination lamp 30 and the signal transmission attached to the hardware circuit, and for the software program possibly involved in the present solution, specific settings can be performed with reference to the prior art, which is not described herein again.

Referring to fig. 2 and 3, the pillow 10 includes a pillow body, and the material of the pillow body can be set according to actual needs, for example, the material can be rubber. A control chip 11, a piezoelectric film sensor 12, a memory 13 and a first communication module 14 are arranged in the pillow body, and the control chip 11 is electrically connected with the piezoelectric film sensor 12, the memory 13 and the first communication module 14 respectively;

the piezoelectric film sensor 12 is configured to detect a vital sign signal, and send the detected vital sign signal to the control chip 11 when the vital sign signal is detected;

the control chip 11 is configured to send the shutdown signal to the terminal 20 through the first communication module 14 when receiving the vital sign signal sent by the piezoelectric thin film sensor 12;

the control chip 11 is further configured to send the trigger signal to the terminal 20 through the first communication module 14 when the vital sign signal sent by the piezoelectric film sensor 12 is not received;

the memory 13 is used for storing the vital sign signals.

The control chip 11, the memory 13 and the first communication module 14 form a core control component 16, and the core control component 16 performs centralized control and storage on the vital sign signals detected by the piezoelectric film sensor 12. The piezoelectric film sensor 12 is a dynamic strain sensor, when the head of a user is rested on the pillow 10, an electric signal is generated between the upper pole and the lower pole of a piezoelectric film element in the piezoelectric film sensor 12, the electric signal is proportional to the deformation generated by the piezoelectric film element, and the vital sign signal can be obtained after the electric signal is processed by filtering, amplifying and the like. When the user gets up, the head of the user leaves the pillow 10, the piezoelectric film element does not deform, the electric signal disappears, and the pillow 10 cannot detect the vital sign signal at this time.

The control chip 11 in the core control component 16 generates a corresponding trigger signal or a shutdown signal according to the existence of the vital sign signal sent by the piezoelectric film sensor 12, and then sends the trigger signal or the shutdown signal to the terminal 20 through the connected first communication module 14. Alternatively, the first communication module 14 may be a bluetooth chip or a WiFi (WIreless-FIdelity) module. The control chip 11 can also transfer the received vital sign signals to the memory 13 for storage. Through the combined design of the piezoelectric film sensor 12, the control chip 11, the first communication module 14 and the memory 13 in the pillow body, the effective monitoring of vital sign signals such as heart rate and pulse is facilitated when a user is in bed rest.

Please refer to fig. 2, a heart rate monitoring module 15 may be further disposed in the pillow body, and the heart rate monitoring module 15 is electrically connected to the control chip 11 and the piezoelectric film sensor 12. The piezoelectric film sensor 12 sends the vital sign signal to the control chip 11 through the heart rate monitoring module 15; the heart rate monitoring module 15 can determine heart rate data of the human body according to the vital sign signals sent by the piezoelectric film sensor 12. Optionally, the vital sign signals may be filtered, amplified, and subjected to parameter transformation to obtain heart rate data of the human body. The heart rate monitoring module 15 can also send the heart rate data of the human body to the control chip 11, and the control chip 11 stores the heart rate data into the memory 13. The function of the pillow 10 is expanded by arranging the heart rate monitoring module 15, and a technical basis is provided for the health parameter monitoring of the user.

A display module (not shown), such as a capacitive screen assembly, electrically connected to the control chip 11 may also be disposed on one side of the pillow body, so as to display the heart rate data through the display module. Alternatively, the display module may not be disposed in the pillow body, and may be a separately integrated display device, and the display device may be communicatively connected to the first communication module 14 of the pillow 10 for obtaining the heart rate data and the sleep state of the human body through the first communication module 14.

It should be noted that the pillow 10 may further include a power supply (not shown), and the power supply may be connected to the mains supply to convert the mains supply into a direct current to supply power to the circuit modules in the pillow body. Optionally, the pillow body may not be provided with a power supply, and the rechargeable battery (not shown) and a charging interface (not shown) connected with the rechargeable battery are provided to supply power to each circuit module instead of the power supply.

Further, the illumination lamp 30 may further include a controller 32 and a second communication module 33; wherein the controller 32 is electrically connected to the second communication module 33 and the light emitting module 31, respectively;

the second communication module 33 is configured to receive the trigger signal or the shutdown signal sent by the terminal 20;

the controller 32 is configured to control the light emitting module 31 to turn on or turn off according to the trigger signal or the turn-off signal received by the second communication module 33.

The lighting lamp 30 may further include a power supply module (not shown) for connecting to a commercial power, and providing a direct current to each circuit module in the lighting lamp 30 after ac/dc conversion. The controller 32 is a single lamp controller, is a control center of the illumination lamp 30, and can be used to control the on and off of the line between the light emitting module 31 and the illumination power supply module. The Light Emitting module may be an LED (Light Emitting Diode) lamp, a tungsten lamp, a fluorescent lamp, or the like.

The second communication module 33 may include a bluetooth chip and/or a WiFi module. It should be noted that, on the premise that the illumination lamp 30 and the pillow 10 are both provided with communication modules, the terminal 20 also needs to be provided with corresponding communication modules to ensure smooth transmission of signals.

The bluetooth chip and/or the WiFi module in the first communication module 14 and the second communication module 33 are both hardware structures, and the software programs involved therein can be specifically configured by means of a technique commonly used in the art.

Further, with continued reference to fig. 2, the illumination lamp 30 may further include a photosensitive detection module 34, wherein the photosensitive detection module 34 is electrically connected to the controller 32;

the photosensitive detection module 34 is configured to detect an illumination intensity and send illumination intensity data to the controller 32;

the controller 32 is further configured to receive the illumination intensity data sent by the photosensitive detection module 34, and control the light-emitting module 31 to be turned on according to the trigger signal received by the second communication module 33 when the illumination intensity data is smaller than a set value;

the controller 32 is further configured to control the light emitting module 31 to turn off according to the turn-off signal received by the second communication module 33 when the illumination intensity data is smaller than a set value;

the controller 32 is further configured to control the light emitting module 31 to turn off when the illumination intensity data is greater than or equal to a set value.

The function of the photosensitive detection module 34 can be implemented using a combination of a photoresistor in combination with other electronic components. The scheme for comparing the illumination intensity data with the set value by the controller 32 may be to use the voltage value of the photo-resistor as the illumination intensity data, use the on-state voltage of the switching tube as the set value, and compare the voltage value of the photo-resistor with the on-state voltage of the switching tube, or may adopt other alternative schemes, which are not described herein again.

By arranging the photosensitive detection module 34 and the controller 32 with the photosensitive detection module 34 having a function suitable for the pillow 10, the light emitting module 31 of the illuminating lamp 30 is turned off under the condition that the pillow 10 cannot detect vital sign signals and the current environment can be illuminated by natural light or other light sources, so that the waste of electric energy is reduced.

Further, the illumination lamp 30 may further include a brightness adjusting module 35 connected between the controller 32 and the light emitting module 31, for adjusting the illumination brightness of the light emitting module 31. The brightness adjusting module 35 can adjust the illumination brightness of the light emitting module 31 by adjusting the voltage, for example, three-step dimming or electrodeless dimming may be used. Through the setting of brightness adjustment module 35, the user's regulation demand to different illumination luminance has been satisfied.

It should be emphasized that the circuit modules in the illumination lamp 30, the pillow 10 and the terminal 20 are circuit control implemented by combining circuit elements such as a sensor, a single chip, a triode, a MOS transistor and the like based on an existing software control program, and the specific circuit composition structure is not emphasized here, as long as the corresponding functions of the circuit modules can be realized, that is, the internal circuit structure of each circuit module is diversified.

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An intelligent lighting system is characterized by comprising a pillow, a terminal and a lighting lamp; the illumination lamp comprises a light emitting module; wherein,

the pillow is in communication connection with the terminal and is used for detecting vital sign signals and sending a trigger signal to the terminal when the vital sign signals are not detected;

the pillow is also used for sending a turn-off signal to the terminal when the vital sign signal is detected;

the terminal is in communication connection with the illuminating lamp and is used for receiving the trigger signal or the turn-off signal sent by the pillow and sending the trigger signal or the turn-off signal to the illuminating lamp;

the lighting lamp is used for lighting the light-emitting module when receiving the trigger signal sent by the terminal;

the lighting lamp is further used for turning off the light emitting module when the turn-off signal sent by the terminal is received.

2. The intelligent lighting system according to claim 1, wherein the pillow comprises a pillow body, a control chip, a piezoelectric film sensor, a memory and a first communication module are arranged in the pillow body, and the control chip is electrically connected with the piezoelectric film sensor, the memory and the first communication module respectively;

the piezoelectric film sensor is used for detecting a vital sign signal and sending the detected vital sign signal to the control chip when the vital sign signal is detected;

the control chip is used for sending the turn-off signal to the terminal through the first communication module when receiving the vital sign signal sent by the piezoelectric film sensor;

the control chip is further configured to send the trigger signal to the terminal through the first communication module when the vital sign signal sent by the piezoelectric film sensor is not received;

the memory is used for storing the vital sign signals.

3. The intelligent lighting system according to claim 2, wherein a heart rate monitoring module is further disposed in the pillow body, and the heart rate monitoring module is connected between the piezoelectric film sensor and the control chip;

the piezoelectric film sensor is also used for sending the vital sign signals to the control chip through the heart rate monitoring module;

the heart rate monitoring module is used for determining heart rate data of a human body according to the vital sign signals sent by the piezoelectric film sensor and sending the heart rate data to the memory;

the memory is also used for storing the heart rate data.

4. The intelligent lighting system according to claim 2, wherein the first communication module comprises a bluetooth chip and/or a WiFi module.

5. The intelligent lighting system according to claim 2, wherein the pillow body is made of rubber.

6. The intelligent lighting system according to any one of claims 1-5, wherein the lighting lamp further comprises a controller and a second communication module; the controller is electrically connected with the second communication module and the light-emitting module respectively;

the second communication module is configured to receive the trigger signal or the shutdown signal sent by the terminal;

the controller is configured to control the light emitting module to be turned on or turned off according to the trigger signal or the turn-off signal received by the second communication module.

7. The intelligent lighting system according to claim 6, wherein the second communication module comprises a Bluetooth chip and/or a WiFi module.

8. The intelligent lighting system according to claim 6, wherein the lighting lamp further comprises a light sensitive detection module, the light sensitive detection module being electrically connected to the controller;

the photosensitive detection module is used for detecting the illumination intensity and sending the illumination intensity data to the controller;

the controller is further configured to receive the illumination intensity data sent by the photosensitive detection module, and control the lighting module to light up according to the trigger signal received by the second communication module when the illumination intensity data is smaller than a set value;

the controller is further configured to control the light emitting module to be turned off according to the turn-off signal received by the second communication module when the illumination intensity data is smaller than a set value;

the controller is further used for controlling the light emitting module to be closed when the illumination intensity data is larger than or equal to a set value.

9. The intelligent lighting system according to claim 6, wherein the illumination lamp further comprises a brightness adjustment module connected between the controller and the lighting module;

and the brightness adjusting module is used for adjusting the illumination brightness of the light emitting module.

10. The intelligent lighting system according to claim 6, wherein the lighting lamp further comprises a power supply module electrically connected to the controller for providing a direct current power supply.