CN210351746U - Lighting lamp control circuit and lighting lamp control device - Google Patents

Abstract

The utility model discloses a light control circuit and light controlling means. The lighting lamp control circuit comprises a signal receiving circuit, a lighting lamp controller and a switch circuit; the signal receiving circuit is in communication connection with the heart rate detection device, and the output end of the signal receiving circuit is connected with the input end of the illuminating lamp controller; the output end of the illuminating lamp controller is connected with the controlled end of the switch circuit, the input end of the switch circuit is connected with the output end of the system power supply, and the output end of the switch circuit is connected with the illuminating lamp. The technical scheme of the utility model, can promote user experience according to opening and closing of user's rhythm of the heart control light.

Description

Lighting lamp control circuit and lighting lamp control device

Technical Field

The utility model relates to a light control technology field, in particular to light control circuit and light controlling means.

Background

At present, the control method of the intelligent illuminating lamp usually detects light through a photosensitive element so as to control the opening and closing of the illuminating lamp according to the intensity of the light; or the lighting lamp is controlled to be turned on or off by the voice control technology; or, the opening and closing of the illuminating lamp can be controlled according to the infrared radiation quantity of the human body by detecting the infrared radiation quantity of the human body.

However, the light intensity detected by the photosensitive element is used for controlling the on and off of the illuminating lamp, which is often not humanized; the lighting lamp is controlled to be turned on or off according to the sound control technology, and the reliability is poor due to the interference of external sound; the opening and closing of the illuminating lamp are controlled according to the infrared radiation quantity of the human body, and the sensitivity is poor due to the fact that the detection of the infrared radiation is affected by the angle of the human body.

The above is only for the purpose of assisting understanding of the technical solutions of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model provides a light control circuit and light controlling means aims at opening and closing through the user rhythm of the heart with the control light, promotes user experience.

In order to achieve the above object, the utility model provides a light control circuit, light control circuit includes:

the signal receiving circuit is in communication connection with the heart rate detection device; the signal receiving circuit is configured to receive the user heart rate output by the heart rate detection device;

the input end of the illuminating lamp controller is connected with the output end of the signal receiving circuit; the lighting lamp controller is configured to receive the heart rate of the user, and when the heart rate of the user is greater than a heart rate threshold value, a turn-on signal is generated and output;

the controlled end of the switch circuit is connected with the output end of the illuminating lamp controller, the input end of the switch circuit is connected with the output end of the system power supply, and the output end of the switch circuit is connected with the illuminating lamp; the switch circuit is configured to be conducted according to the starting signal, so that the system power supply supplies power to the illuminating lamp.

Optionally, the lighting lamp control circuit further comprises a voltage stabilizing circuit, an input end of the voltage stabilizing circuit is connected with an output end of the system power supply, and an output end of the voltage stabilizing circuit is connected with a power input end of the lighting lamp controller; the voltage stabilizing circuit is configured to receive a voltage signal output by the system power supply, stabilize the voltage signal and output the stabilized voltage signal to the lighting lamp controller.

Optionally, the lighting lamp control circuit further includes a brightness detection circuit, and an output end of the brightness detection circuit is connected to a signal input end of the lighting lamp controller.

Optionally, the signal receiving circuit is a bluetooth module or a WIFI module.

In order to achieve the above object, the utility model also provides a light controlling means, light controlling means include rhythm of the heart detection device and as above arbitrary the light control circuit, rhythm of the heart detection device with light control circuit communication is connected.

Optionally, the heart rate detecting device includes:

a heart rate detection circuit configured to detect a user heart rate and output;

the input end of the heart rate controller is connected with the output end of the heart rate detection circuit; the heart rate controller is configured to receive the user heart rate and output the user heart rate;

the input end of the signal sending circuit is connected with the output end of the heart rate controller, and the signal sending circuit is in communication connection with the signal receiving circuit of the lighting lamp control circuit; the signal transmitting circuit configured to transmit the user heart rate to the signal receiving circuit.

Optionally, the heart rate detection circuit includes a heart rate sensor, and an output end of the heart rate sensor is connected to an input end of the heart rate controller.

Optionally, the signal transmitting circuit is a bluetooth module or a WIFI module.

Optionally, the heart rate detection device further includes a display device, and the display device is connected to an output end of the heart rate controller.

According to the technical scheme of the utility model, the user heart rate output by the heart rate detection device is received by the signal receiving circuit, when the user heart rate is greater than the heart rate threshold value, the lighting lamp controller generates an opening signal and outputs the opening signal to the controlled end of the switch circuit so as to control the switch circuit to be conducted; when the switch circuit is switched on, the system power supply supplies power to the illuminating lamp, and the illuminating lamp is on.

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 a lighting lamp control end circuit of the present invention;

fig. 2 is a schematic circuit diagram of the heart rate detecting device in fig. 1.

The reference numbers illustrate:

10	heart rate detection device	20	Signal receiving circuit
				30	Controller for lighting lamp	40	Switching circuit
50	System power supply	60	Lighting lamp
				70	Voltage stabilizing circuit	80	Brightness detection circuit
102	Heart rate controller	101	Heart rate detection circuit
				104	Display device	103	Signal transmission circuit

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

Detailed Description

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, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications 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 indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly 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 a light control circuit.

Referring to fig. 1, the illumination lamp control circuit includes a signal receiving circuit 20, an illumination lamp controller 30, and a switching circuit 40; the signal receiving circuit 20 is in communication connection with the heart rate detection device 10, and the output end of the signal receiving circuit 20 is connected with the input end of the lighting lamp controller 30; the output end of the lighting lamp controller 30 is connected with the controlled end of the switch circuit 40, the input end of the switch circuit 40 is connected with the output end of the system power supply 50, and the output end of the switch circuit 40 is connected with the lighting lamp 60.

The signal receiving circuit 20 is configured to implement short-distance signal transmission, and the signal receiving circuit 20 may be a bluetooth module or a WIFI module. A signal sending circuit is arranged in the heart rate detection device 10, and the signal receiving circuit 20 corresponds to the signal sending circuit arranged in the heart rate detection device 10 one by one, so that signal transmission between the lighting lamp control circuit and the heart rate detection device 10 is realized; for example, if the signal transmitting circuit built in the heart rate detecting device 10 is a bluetooth module, the signal receiving circuit 20 of the lighting lamp control circuit is also set as a bluetooth module; if the signal sending circuit built in the heart rate detection device is a WIFI module, the signal receiving circuit 20 of the lighting lamp control circuit is also set as the WIFI module; or, can all set up bluetooth module and WIFI module in light control circuit and the rhythm of the heart detection device.

The lighting lamp controller 30 can be selected from microprocessors such as a single chip microcomputer, a DSP (digital signal processor), an FPGA (field programmable gate array) and the like, and a software program for analyzing and processing the received heart rate of the user can be integrated in the lighting lamp controller 30. The received user heart rate is analyzed by running or executing software programs and/or modules stored in the memory of the light controller 30 to generate corresponding control signals, such as an on signal or an off signal, to control the on or off of the switch circuit 40. In other embodiments, a heart rate controller built in the heart rate detection device 10 may be configured to analyze and process the received heart rate of the user, generate a corresponding control signal, and transmit the control signal to the lighting lamp controller 30, so that the lighting lamp controller 30 controls the on/off of the switch circuit 40 according to the control signal output by the heart rate detection device 10.

The switch circuit 40 has two states of off and on, and may be implemented by using a circuit formed by a relay, various transistors, such as a MOS transistor, and a triode, but not limited thereto.

The heart rate detection device 10 may be a heart rate bracelet, or a circuit composed of a heart rate sensor and a controller, or may be other circuits capable of realizing heart rate detection, and is not limited here.

Specifically, the heart rate of the user is detected by the heart rate detection device 10 carried by the user, for example, by a heart rate bracelet worn by the user. When the user got into the effective distance of rhythm of the heart detection device 10 with the light control circuit, for example, if light control circuit all is provided with bluetooth module with rhythm of the heart detection device, when the user was in the effective distance of bluetooth and the bluetooth pairs successfully, rhythm of the heart detection device 10 passes through light control circuit's signal reception circuit 20, transmits the user rhythm of the heart to light control device 30. The light controller 30 receives the heart rate of the user, and then judges whether the heart rate of the user is greater than a heart rate threshold value, and the heart rate threshold value can be set according to the heart rate value of the user in a sleep state. The heart rate threshold value can be set in the heart rate detection device 10, and if the heart rate threshold value is set in the heart rate detection device 10, the heart rate threshold value can be transmitted to the lighting lamp controller 30 by the heart rate detection device 10; or may be set in advance by the user in the lighting controller 30. When the lighting lamp controller 30 confirms that the heart rate of the user is greater than the heart rate threshold value, it indicates that the user is in a non-sleep state at the moment; correspondingly, the lighting lamp controller 30 generates a start signal, which may be a high-level start signal or a low-level start signal, and may be configured according to the circuit configuration of the switch circuit 40; and transmits the generated on signal to the switching circuit 40. The switching circuit 40 is turned on in response to the on signal, and when the switching circuit 40 is turned on, the system power supply 50, for example, a 220V ac power supply, supplies power to the illumination lamp 60, and the illumination lamp 60 is turned on.

Further, the user enters a sleep state, the heart rate gradually slows down, and when the heart rate of the user received by the lighting lamp controller 30 is smaller than the heart rate threshold value, it indicates that the user is in the sleep state. At this time, the illumination lamp controller 30 generates a turn-off signal and outputs it to the switching circuit 40; the switch circuit 40 is turned off in response to the off signal, and when the switch circuit 40 is turned off, the system power supply 50 and the illumination lamp 60 are turned off, and the illumination lamp 60 is turned off.

Or, when the light controller 30 detects disconnection between the heart rate detection device 10 and the light control circuit, for example, because the user leaves the effective distance between the heart rate detection device 10 and the light control circuit, resulting in disconnection, for example, if the light controller and the heart rate detection device 10 are both provided with a bluetooth module, when the user goes out, leaves the effective distance of bluetooth, and the bluetooth is paired and failed, then disconnection between the light control circuit and the heart rate detection device 10. When the connection between the heart rate detecting device 10 and the illumination lamp control circuit is disconnected, the illumination lamp controller 30 generates a turn-off signal and outputs it to the switching circuit 40, and the switching circuit 40 is turned off according to the turn-off signal. When the switching circuit 40 is turned off, the system power supply 50 and the illumination lamp 60 are turned off, and the illumination lamp 60 is turned off. The illuminating lamp is controlled by the heart rate of the user, and when the user is in a sleep state or leaves, the illuminating lamp 60 is controlled to be turned off; when the user is in the room and in the non-sleep state, the illumination lamp 60 is controlled to be on. So set up, can improve user experience.

In other embodiments, a clock module may be disposed in the heart rate detection device 10, and a user can set the on time and the off time of the illumination lamp control circuit through the clock module of the heart rate detection device 10, for example, a time period from 7 pm to 7 am of the same day for starting the illumination lamp control circuit may be set, and in this time period, the illumination lamp 70 may be controlled to be turned on and off according to the heart rate of the user. To enhance the user experience.

According to the technical scheme of the embodiment, the heart rate of the user is detected by the heart rate detection device 10, and the detected heart rate of the user is transmitted to the lighting lamp controller 30; when the heart rate of the user is greater than the heart rate threshold value, the lighting lamp controller 30 controls the lighting lamp 60 to be on; when the heart rate of the user is smaller than the heart rate threshold value or the user leaves an effective distance between the heart rate detection device 10 and the illuminating lamp control circuit, the illuminating lamp controller 30 controls the illuminating lamp to be turned off. The starting and the closing of the illuminating lamp are controlled through the heart rate of the user, the reliability is good, and the user experience is good.

In an embodiment, referring to fig. 1, the illumination lamp control circuit further includes a voltage stabilizing circuit 70, an input terminal of the voltage stabilizing circuit 70 is connected to an output terminal of the system power supply 50, and an output terminal of the voltage stabilizing circuit 70 is connected to a power input terminal of the illumination lamp controller 30.

In this embodiment, the voltage stabilizing circuit 70 is configured to stabilize a voltage signal output by the ac power supply of the system power supply 50, for example, 220V, to be stabilized to 3.3V, and output the voltage signal to the lighting lamp controller 30, so as to supply power to the lighting lamp controller 30.

In one embodiment, referring to fig. 1, the illumination lamp control circuit further includes a brightness detection circuit 80, and an output terminal of the brightness detection circuit 80 is connected to a signal input terminal of the illumination lamp controller 30.

In this embodiment, the brightness detection circuit 80 is configured to detect the ambient brightness and transmit the detected ambient brightness to the illumination lamp controller 30.

The brightness detection circuit 80 may be implemented by a circuit including a brightness sensor or other circuits capable of detecting ambient brightness, and is not limited herein.

Specifically, the brightness detection circuit 80 detects the ambient brightness, and transmits the detected ambient brightness to the illumination lamp controller 30. Further, the light controller 30 analyzes the received ambient brightness to determine whether the lighting 60 needs to be turned on or off according to the received heart rate of the user. A brightness threshold may be set in the illumination lamp controller 30, and the brightness threshold may be set according to the visibility of the user. It can set up, when the ambient brightness that light lamp controller 30 received is greater than the luminance threshold value, it states that ambient visibility can satisfy user's demand this moment, and at this moment, light lamp controller 30 can not receive the user's heart rate that heart rate detection device 10 sent, perhaps receives the user's heart rate that heart rate detection device 10 sent, but light lamp controller 30 does not produce control signal, perhaps does not send control signal to switch circuit 40. When the ambient brightness received by the lighting lamp controller 30 is less than the brightness threshold, it indicates that the indoor visibility is low at this time, and the user needs to turn on the lighting lamp. At this time, the illumination lamp controller 30 generates a corresponding control signal to the switching circuit 40 according to the received heart rate of the user. That is to say, when the ambient brightness received at light controller 30 is less than the luminance threshold value, light controller 30 further judges whether the received user's heart rate is greater than the heart rate threshold value, if receive the user's heart rate and be greater than the heart rate threshold value, light controller 30 produces turn-on signal to control switch circuit 40 switches on, makes light 60 bright. If the heart rate of the user received by the light controller 30 is less than the heart rate threshold, or the light controller 30 detects that the connection between the light controller circuit and the heart rate detection device 10 is disconnected, it indicates that although the indoor visibility is low at this time and cannot meet the user's requirement, the user may be in a sleep state at this time or has left the room, so the light controller 30 generates a turn-off signal to control the switch circuit 40 to be disconnected, and the light 60 is turned off.

The utility model also provides a light controlling means, refer to his 1 and figure 2, light controlling means includes rhythm of the heart detection device and as above arbitrary the light control circuit, rhythm of the heart detection device with light control circuit's signal reception circuit communication is connected. The heart rate detection device includes:

a heart rate detection circuit 101, a heart rate controller 102 and a signal transmission circuit 103; the output end of the heart rate detection circuit 101 is connected with the input end of a heart rate controller 102, the output end of the heart rate controller 102 is connected with the input end of a signal sending circuit 103, and the signal sending circuit 103 is in communication connection with a signal receiving circuit 20 of the illuminating lamp control circuit.

In this embodiment, heart rate detection circuitry 101 is the optional heart rate sensor, heart rate detection circuitry can detect the user's heart rate, heart rate sensor's output with heart rate controller 102's input is connected.

The signal transmitting circuit 103 is configured to implement short-distance signal transmission, and the signal receiving circuit 20 may be a bluetooth module or a WIFI module.

The heart rate controller 102 may be a microprocessor such as a single chip, a DSP, and an FPGA, and a software program for analyzing and processing the received heart rate of the user may be integrated in the heart rate controller 102. The user's heart rate is output after analysis processing of the received user's heart rate by running or executing software programs and/or modules stored in the memory of the heart rate controller. In other embodiments, it may also be configured that after the heart rate controller analyzes the received heart rate of the user, a corresponding control signal, such as an on signal or an off signal, is generated and transmitted to the light controller 30, so that the light controller 30 controls the on and off of the switch circuit 40 according to the control signal generated by the heart rate controller 102.

Specifically, the heart rate of the user is detected by the heart rate detection device 10 carried by the user, for example, by a heart rate bracelet worn by the user. When the user got into the effective distance of rhythm of the heart detection device 10 with the light control circuit, for example, if light control circuit all is provided with bluetooth module with rhythm of the heart detection device, when the user was in the effective distance of bluetooth and the bluetooth pairs successfully, rhythm of the heart detection device 10 passes through light control circuit's signal reception circuit 20, transmits the user rhythm of the heart to light control device 30. The light controller 30 receives the heart rate of the user, and then judges whether the heart rate of the user is greater than a heart rate threshold value, and the heart rate threshold value can be set according to the heart rate value of the user in a sleep state. The heart rate threshold value can be set in the heart rate detection device 10, and if the heart rate threshold value is set in the heart rate detection device 10, the heart rate threshold value can be transmitted to the lighting lamp controller 30 by the heart rate detection device 10; or may be set in advance by the user in the lighting controller 30. When the lighting lamp controller 30 confirms that the heart rate of the user is greater than the heart rate threshold value, it indicates that the user is in a non-sleep state at the moment; correspondingly, the lighting lamp controller 30 generates a start signal, which may be a high-level start signal or a low-level start signal, and may be configured according to the circuit configuration of the switch circuit 40; and transmits the generated on signal to the switching circuit 40. The switching circuit 40 is turned on in response to the on signal, and when the switching circuit 40 is turned on, the system power supply 50, for example, a 220V ac power supply, supplies power to the illumination lamp 60, and the illumination lamp 60 is turned on.

Further, the user enters a sleep state, the heart rate gradually slows down, and when the heart rate of the user received by the lighting lamp controller 30 is smaller than the heart rate threshold value, it indicates that the user is in the sleep state. At this time, the illumination lamp controller 30 generates a turn-off signal and outputs it to the switching circuit 40; the switch circuit 40 is turned off in response to the off signal, and when the switch circuit 40 is turned off, the system power supply 50 and the illumination lamp 60 are turned off, and the illumination lamp 60 is turned off.

Or, when the light controller 30 detects disconnection between the heart rate detection device 10 and the light control circuit, for example, because the user leaves the effective distance between the heart rate detection device 10 and the light control circuit, resulting in disconnection, for example, if the light controller and the heart rate detection device 10 are both provided with a bluetooth module, when the user goes out, leaves the effective distance of bluetooth, and the bluetooth is paired and failed, then disconnection between the light control circuit and the heart rate detection device 10. When the connection between the heart rate detecting device 10 and the illumination lamp control circuit is disconnected, the illumination lamp controller 30 generates a turn-off signal and outputs it to the switching circuit 40, and the switching circuit 40 is turned off according to the turn-off signal. When the switching circuit 40 is turned off, the system power supply 50 and the illumination lamp 60 are turned off, and the illumination lamp 60 is turned off. The illuminating lamp is controlled by the heart rate of the user, and when the user is in a sleep state or leaves, the illuminating lamp 60 is controlled to be turned off; when the user is in the room and in the non-sleep state, the illumination lamp 60 is controlled to be on. So set up, can improve user experience.

In other embodiments, a clock module may be disposed in the heart rate detection device 10, and a user can set the on time and the off time of the illumination lamp control circuit through the clock module of the heart rate detection device 10, for example, a time period from 7 pm to 7 am of the same day for starting the illumination lamp control circuit may be set, and in this time period, the illumination lamp 70 may be controlled to be turned on and off according to the heart rate of the user. To enhance the user experience.

In an embodiment, referring to fig. 2, the heart rate detecting device further includes a display device 104, and the display device 104 is connected to an output terminal of the heart rate controller 102.

In this embodiment, the heart rate detection device further includes a display device 104, such as an LCD display screen, an LED display screen, and the like, where the display device 104 may be disposed on the heart rate detection device, and is configured to display the heart rate of the user received by the heart rate controller 102 in real time. Meanwhile, based on the display device 104, the user may also perform setting of a heart rate threshold, or setting of the on-time and off-time of the illumination lamp control circuit, or the like.

The above is only the optional embodiment of the present invention, and not therefore the limit to the patent scope of the present invention, all the concepts of the present invention utilize the equivalent structure transformation of the content of the specification and the attached drawings, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (9)

1. A light control circuit, characterized in that the light control circuit comprises:

the signal receiving circuit is in communication connection with the heart rate detection device; the signal receiving circuit is configured to receive the user heart rate output by the heart rate detection device;

the input end of the illuminating lamp controller is connected with the output end of the signal receiving circuit; the lighting lamp controller is configured to receive the heart rate of the user, and when the heart rate of the user is greater than a heart rate threshold value, a turn-on signal is generated and output;

the controlled end of the switch circuit is connected with the output end of the illuminating lamp controller, the input end of the switch circuit is connected with the output end of the system power supply, and the output end of the switch circuit is connected with the illuminating lamp; the switch circuit is configured to be conducted according to the starting signal, so that the system power supply supplies power to the illuminating lamp.

2. The lamp control circuit according to claim 1, further comprising a voltage regulator circuit, an input terminal of said voltage regulator circuit being connected to an output terminal of said system power supply, an output terminal of said voltage regulator circuit being connected to a power input terminal of said lamp controller; the voltage stabilizing circuit is configured to receive a voltage signal output by the system power supply, stabilize the voltage signal and output the stabilized voltage signal to the lighting lamp controller.

3. The lamp control circuit of claim 2, further comprising a brightness detection circuit, an output of said brightness detection circuit being connected to a signal input of said lamp controller.

4. The lighting lamp control circuit according to any one of claims 1 to 3, wherein the signal receiving circuit is a Bluetooth module or a WIFI module.

5. A light control device, characterized in that the light control device comprises a heart rate detection device and a light control circuit according to any one of claims 1 to 4, wherein the heart rate detection device is connected with the light control circuit in a communication way.

6. The light control device of claim 5, wherein the heart rate detection device comprises:

a heart rate detection circuit configured to detect a user heart rate and output;

the input end of the heart rate controller is connected with the output end of the heart rate detection circuit; the heart rate controller is configured to receive the user heart rate and output the user heart rate;

the input end of the signal sending circuit is connected with the output end of the heart rate controller, and the signal sending circuit is in communication connection with the signal receiving circuit of the lighting lamp control circuit; the signal transmitting circuit configured to transmit the user heart rate to the signal receiving circuit.

7. The light control device of claim 6, wherein the heart rate detection circuit comprises a heart rate sensor, an output of the heart rate sensor being connected to an input of the heart rate controller.

8. The light lamp control apparatus of claim 7, wherein the signaling circuit is a Bluetooth module or a WIFI module.

9. The light control device of claim 8, wherein the heart rate detection device further comprises a display device, the display device being coupled to an output of the heart rate controller.

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