CN220554126U - Human body induction lamp strip - Google Patents

Abstract

The utility model relates to a human body induction lamp strip, which is provided with a human body inductor, and further comprises: the control chip is electrically connected with the human body sensor; the lamp body is electrically connected with the control chip; the panel is connected with the lamp body; the indicator lamp is connected with the control chip and is positioned on the panel so as to provide more information and flexibility, so that a user can better know and control the performance of the light bar, and the use experience and convenience of the indicator lamp are improved.

Description

Human body induction lamp strip

Technical Field

The utility model relates to the technical field of lamps, in particular to a human body induction lamp strip.

Background

Current human body sensing light bars are typically comprised of a light bar and a human body sensor for automatically illuminating the light bar when the proximity of a human body is detected. However, these light bars often lack indicator lights to display important information such as battery level, light bar brightness, light bar color temperature, and current operating modes (e.g., night mode, daytime mode, or normally-on mode). This results in a user not having an accurate knowledge of the status and performance of the light bar, thereby limiting the convenience and flexibility of use thereof. Therefore, it is necessary to provide a new type of human body sensing light bar to provide more information and flexibility, so that the user can better understand and control the performance of the light bar, and the use experience and convenience of the light bar are improved.

Disclosure of Invention

The utility model aims to provide a novel human body induction lamp strip so as to provide more information and flexibility, so that a user can better know and control the performance of the lamp strip, and the use experience and convenience of the lamp strip are improved.

According to an aspect of the present utility model, there is provided a human body sensing light bar provided with a human body sensor, the human body sensing light bar further comprising:

the control chip is electrically connected with the human body sensor;

the lamp body is electrically connected with the control chip;

the panel is connected with the lamp body;

and the indicator lamp is connected with the control chip and is positioned on the panel.

More preferably, the human body induction light bar further comprises:

the battery is connected with the control chip;

the indicator lamp includes:

and the electric quantity indicator lamp is connected with the control chip to display the electric quantity of the battery.

More preferably, the human body induction light bar further comprises:

a first power display circuit comprising: resistor R16, LED D8, LED D7, resistor R26; one end of the resistor R16 is connected with a power supply, the other end of the resistor R16 is connected with the positive electrode of the light emitting diode D8, the negative electrode of the light emitting diode D8 is respectively connected with the control chip and the positive electrode of the light emitting diode D7, the negative electrode of the light emitting diode D7 is connected with one end of the resistor R26, and the other end of the resistor R26 is grounded;

a second power display circuit comprising: resistor R19, light emitting diode D6, light emitting diode D5, resistor R24; one end of the resistor R19 is connected with a power supply, the other end of the resistor R19 is connected with the positive electrode of the light emitting diode D6, the negative electrode of the light emitting diode D6 is respectively connected with the control chip and the positive electrode of the light emitting diode D5, the negative electrode of the light emitting diode D5 is connected with one end of the resistor R24, and the other end of the resistor R24 is grounded.

More preferably, the indicator light further comprises:

and the brightness indicator lamp is connected with the control chip to display the brightness of the lamp body.

More preferably, the human body induction light bar further comprises:

a first luminance display circuit comprising: resistor R18, LED D4, LED D3, resistor R21; one end of the resistor R18 is connected with a power supply, the other end of the resistor R18 is connected with the positive electrode of the light emitting diode D4, the negative electrode of the light emitting diode D4 is respectively connected with the control chip and the positive electrode of the light emitting diode D3, the negative electrode of the light emitting diode D3 is connected with one end of the resistor R21, and the other end of the resistor R21 is grounded;

a second brightness display circuit comprising: resistor R17, light emitting diode D2, light emitting diode D1, resistor R20; one end of the resistor R17 is connected with a power supply, the other end of the resistor R17 is connected with the positive electrode of the light emitting diode D2, the negative electrode of the light emitting diode D2 is respectively connected with the control chip and the positive electrode of the light emitting diode D1, the negative electrode of the light emitting diode D1 is connected with one end of the resistor R20, and the other end of the resistor R20 is grounded.

More preferably, the indicator light further comprises:

and the color temperature indicator lamp is connected with the control chip to display the color temperature of the lamp body.

More preferably, the human body induction light bar further comprises:

a color temperature display circuit comprising: resistor R15, light emitting diode D13, light emitting diode D14, resistor R25, light emitting diode D12, resistor R13; one end of the resistor R15 is connected with a power supply, the other end of the resistor R15 is connected with the positive electrode of the light emitting diode D13, the negative electrode of the light emitting diode D13 is respectively connected with the control chip and the positive electrode of the light emitting diode D14, the negative electrode of the light emitting diode D14 is connected with one end of the resistor R25, the other end of the resistor R25 is grounded, one end of the resistor R13 is grounded, the other end of the resistor R13 is connected with the negative electrode of the light emitting diode D12, and the positive electrode of the light emitting diode D12 is connected with the control chip.

More preferably, the indicator light further comprises:

and the mode indicator lamp is connected with the control chip to display that the control chip is in a daytime mode, a night mode or a normally-on mode currently.

More preferably, the human body induction light bar further comprises:

a mode display circuit comprising: resistor R14, light emitting diode D9, light emitting diode D10, resistor R22, light emitting diode D11, resistor R23; one end of the resistor R14 is connected with a power supply, the other end of the resistor R14 is connected with the positive electrode of the light emitting diode D19, the negative electrode of the light emitting diode D19 is respectively connected with the control chip and the positive electrode of the light emitting diode D10, the negative electrode of the light emitting diode D10 is connected with one end of the resistor R22, the other end of the resistor R22 is grounded, one end of the resistor R23 is grounded, the other end of the resistor R23 is connected with the positive electrode of the light emitting diode D11, and the negative electrode of the light emitting diode D11 is respectively connected with the control chip and the positive electrode of the light emitting diode D12.

More preferably, the human body induction light bar further comprises:

the brightness sensor is connected with the control chip to detect brightness in the environment;

the mode control key is connected with the control chip to switch the daytime mode, the night mode or the normally-on mode;

the brightness control key is connected with the control chip to adjust the brightness of the lamp body;

and the color temperature control key is connected with the control chip to adjust the color temperature of the lamp body.

The utility model has the following beneficial effects: through set up the panel on the human response lamp strip that is equipped with human inductor to set up the pilot lamp on the panel, in order to provide more information and flexibility, make the user know better and control the performance of lamp strip, promote its use experience and convenience.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

Fig. 1 is a perspective view of a human body induction light bar according to an embodiment of the present utility model;

FIG. 2 is a block diagram illustrating a connection of a control chip according to an embodiment of the present utility model;

FIG. 3 is a circuit diagram illustrating a control chip and display circuits according to an embodiment of the present utility model;

reference numerals illustrate: 10. a human body sensor; 100. human body induction lamp strip; 20. a control chip; 30. a lamp body; 40. a panel; 50. an indicator light; 60. a battery; 51. an electric quantity indicator lamp; 21. a first power display circuit; 22. a second power display circuit; 52. a brightness indicator light; 23. a first brightness display circuit; 24. a second brightness display circuit; 53. a color temperature indicator light; 25. a color temperature display circuit; 54. a mode indicator light; 26. a mode display circuit; 70. a brightness sensor; 81. a mode control key; 82. a brightness control key; 83. color temperature control keys.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to fig. 3, an embodiment of the present utility model provides a human body induction light bar 100, where the human body induction light bar 100 further includes: the human body sensor 10, the control chip 20, the lamp body 30, the panel 40 and the indicator lamp 50.

The human body sensor 10 is a sensor for detecting whether a human body is approaching around. It can trigger the work of the light bar through sensing the heat, infrared radiation or movement of human body.

The control chip 20 is a core component of the human body sensing light bar 100, and is electrically connected to the human body sensor 10. It receives signals from the human body sensor 10 and controls the operation mode, brightness, color temperature, etc. of the lamp body 30 according to the set logic and parameters. The control chip 20 can automatically turn on or off the light bar according to the approaching or leaving signal of the human body, so as to achieve the effects of energy saving and automation.

The light body 30 is a light emitting part of the human body sensing light bar 100, and emits light by an instruction of the control chip 20. It can be an LED bulb, fluorescent tube or other type of lamp, providing different brightness and color temperature as required.

Wherein the panel 40 is an external part of the human body sensing light bar 100, and is located near or at one side of the light body 30. In the present embodiment, the panel 40 is disposed in parallel with the lamp body 30. The panel 40 may be a decorative panel 40 for mounting the indicator lights 50 and other control components, or may be a touch panel 40, a push button panel 40, or other form for user interaction and placement with the light bar. In the present embodiment, the panel 40 is a button type panel 40, and an indicator lamp 50 and an inductor are integrated.

The indicator light 50 is a display device on the panel 40 for displaying the status and information of the light bar. The indicator lamp 50 includes a power indicator lamp 51, a brightness indicator lamp 52, a color temperature indicator lamp 53, and a mode indicator lamp 54. They are connected to the control chip 20 and display the electric quantity of the battery 60, the brightness, the color temperature and the current operation mode of the lamp body 30 according to the instruction of the control chip 20.

Therefore, through the cooperative work of these components, the human body sensing light bar 100 can sense the approach of the human body and adjust the operation mode, brightness and color temperature of the light body 30 according to the instruction of the control chip 20. The indicator light 50 provides a visual display that allows the user to easily understand the status and information of the light bar. Such a design improves the practicality and user experience of the human sensing light bar 100.

More preferably, the control chip 20 is electrically connected to the human body sensor 10, the lamp body 30 is electrically connected to the control chip 20, and the panel 40 is connected to the lamp body 30.

Wherein, the electrical connection between the control chip 20 and the human body sensor 10 enables the control chip 20 to accurately receive the signal from the human body sensor 10. Thus, when a human body approaches, the human body sensor 10 will transmit a signal to the control chip 20 through the electrical connection, triggering a corresponding operation.

The electrical connection between the lamp body 30 and the control chip 20 enables the control chip 20 to directly control the working state of the lamp body 30. The control chip 20 can send instructions to the lamp body 30 to adjust parameters such as brightness and color temperature of the lamplight. Through the electrical connection, the control chip 20 can flexibly control the brightness of the lamp body 30 to adapt to different environments and requirements.

Wherein the connection between the panel 40 and the lamp body 30 allows the panel 40 to be conveniently installed near or at one side of the lamp body 30. In this way, the user can operate and set directly on the panel 40 without additional operating means.

Therefore, through the electrical connection between the control chip 20 and the human body sensor 10, accurate signal transmission can be ensured, so that the human body sensing light bar 100 can timely and accurately sense the approach of the human body. Meanwhile, the control chip 20 and the lamp body 30 are electrically connected to realize rapid and accurate light control. The connection of the panel 40 to the light body 30 facilitates operation and setup by the user, providing a better use experience. Overall, this connection can improve the responsiveness, flexibility and convenience of the human body sensing light bar 100.

Preferably, an indicator light 50 is connected to the control chip 20 and is located on the panel 40.

Wherein, the electric connection between the indicator lamp 50 and the control chip 20 enables the indicator lamp 50 to directly receive the signal from the control chip 20 and to be positioned on the panel 40 so that the user can intuitively observe and understand the relevant information.

The control chip 20 may send a corresponding instruction to the indicator lamp 50 to display specific information through the electrical connection between the indicator lamp 50 and the control chip 20. For example, the charge indicator light 51 may display the charge level of the battery 60, the brightness indicator light 52 may display the brightness level of the light body 30, the color temperature indicator light 53 may display the color temperature setting of the light body 30, and the mode indicator light 54 may display whether it is currently in the daytime, nighttime, or normally-on mode.

Wherein the indication lamp 50 is provided on the panel 40 so that a user can directly see and observe the state of the indication lamp 50. The user can obtain information about the amount of electricity, the brightness, the color temperature, the operation mode, etc. through the indication lamp 50 without additional equipment or operation steps. Such a design provides a more intuitive and convenient way to understand and control the function and status of the body sensing light bar 100.

Therefore, the connection between the indicator light 50 and the control chip 20 and the placement of the indicator light on the panel 40 can effectively enhance the usage effect of the human body sensing light bar 100. The user can directly acquire the required information through the indicator lamp 50, so that the performance of the light bar can be better known and controlled, and the use experience and convenience of the user are improved.

More preferably, the human body sensing light bar 100 further comprises: a battery 60, the indicator lamp 50 includes: a power indicator light 51. A battery 60 is connected to the control chip 20. The charge indicator lamp 51 is connected to the control chip 20 to display the charge of the battery 60.

The battery 60 is connected to the control chip 20, and the power indicator lamp 51 is connected to the control chip 20, for displaying power information of the battery 60. By connecting the battery 60 to the control chip 20, the control chip 20 can monitor the state of charge of the battery 60 in real time. Thus, when the power of the battery 60 is reduced, the control chip 20 can send a corresponding signal to the power indicator lamp 51, so that a user on the light bar can intuitively know the power level of the battery 60 through the indicator lamp 50. The manner in which the charge indicator light 51 is displayed may vary depending on the design, and common manners include different colors of the indicator light 50 or different brightness lights to indicate different charge levels. For example, green may indicate that battery 60 is full, yellow indicates that battery 60 is remaining medium, and red indicates that battery 60 is low. In the present embodiment, the number of light emitting diodes to be lit is used to determine the amount of electricity.

Therefore, through the existence of the charge indicator lamp 51, the user can know the charge condition of the battery 60 at any time, so as to determine whether the battery 60 needs to be replaced or charged in time. This provides convenience and timeliness, ensures continued normal operation of the human body sensing light bar 100, and also improves the user experience.

More preferably, the human body sensing light bar 100 further comprises: a first power display circuit 21 and a second power display circuit 22. The first power display circuit 21 includes: resistor R16, LED D8, LED D7, resistor R26; the second power display circuit 22 includes: resistor R19, light emitting diode D6, light emitting diode D5, and resistor R24. One end of the resistor R16 is connected with a power supply, the other end of the resistor R16 is connected with the positive electrode of the light emitting diode D8, the negative electrode of the light emitting diode D8 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D7, the negative electrode of the light emitting diode D7 is connected with one end of the resistor R26, and the other end of the resistor R26 is grounded. One end of the resistor R19 is connected with a power supply, the other end of the resistor R19 is connected with the positive electrode of the light emitting diode D6, the negative electrode of the light emitting diode D6 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D5, the negative electrode of the light emitting diode D5 is connected with one end of the resistor R24, and the other end of the resistor R24 is grounded. In the present embodiment, when the light emitting diode D8 is turned on, it indicates that the battery 60 has 100% of the electric power, when the light emitting diode D7 is turned on, it indicates that the battery 60 has 75% or more of the electric power, when the light emitting diode D6 is turned on, it indicates that the battery 60 has 50% or more of the electric power, and when the light emitting diode D5 is turned on, it indicates that the battery 60 has 25% or more of the electric power.

When the battery 60 is charged sufficiently, the voltage of the resistor R16 is high, so that the light emitting diode D8 is turned on. At the same time, the led D7 will also be lit, indicating that the battery 60 is still high. When the battery 60 is low, the voltage of the resistor R19 is reduced, so that the light emitting diode D6 is turned on. If the power of the battery 60 is further reduced, the light emitting diode D5 is also turned on, indicating that the power of the battery 60 is low. By observing the on-off condition of the light emitting diodes D8, D7, D6, and D5, the user can roughly estimate the remaining capacity of the battery 60. When led D8 is lit, it indicates that battery 60 is still 100% charged. If only LED D7 is lit, this indicates that battery 60 is still more than 75% charged. When the led D6 is lit, it indicates that the battery 60 has more than 50% of its capacity. Finally, when the led D5 is lit, it indicates that the battery 60 has more than 25% of its capacity. Such a design enables a user to intuitively understand the state of charge of the battery 60 so as to take measures for charging or replacing the battery 60 in time

More preferably, the indicator light 50 further includes: a brightness indicator light 52. The brightness indicator lamp 52 is connected to the control chip 20 to display the brightness of the lamp body 30.

Wherein the brightness indicator lamp 52 is an indicator for displaying the brightness level of the lamp body 30. It is connected to the control chip 20, and acquires the brightness information of the current lamp body 30 by interacting with the control chip 20. Based on the brightness information, the brightness indicator lamp 52 emits a corresponding light signal to indicate the brightness level of the lamp body 30. Through the brightness indicator lamp 52, a user can quickly understand the brightness level of the lamp body 30 to adjust or use according to the need. Such a design of the indication lamp 50 increases the operability and convenience for the user, enabling it to better control the brightness of the lamp body 30.

More preferably, the human body sensing light bar 100 further comprises: a first luminance display circuit 23 and a second luminance display circuit 24. The first luminance display circuit 23 includes: resistor R18, LED D4, LED D3, resistor R21; the second luminance display circuit 24 includes: resistor R17, light emitting diode D2, light emitting diode D1, and resistor R20. One end of the resistor R18 is connected with a power supply, the other end of the resistor R18 is connected with the positive electrode of the light emitting diode D4, the negative electrode of the light emitting diode D4 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D3, the negative electrode of the light emitting diode D3 is connected with one end of the resistor R21, and the other end of the resistor R21 is grounded. One end of the resistor R17 is connected with a power supply, the other end of the resistor R17 is connected with the positive electrode of the light emitting diode D2, the negative electrode of the light emitting diode D2 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D1, the negative electrode of the light emitting diode D1 is connected with one end of the resistor R20, and the other end of the resistor R20 is grounded.

Wherein the brightness levels of the light emitting diodes D1, D2, D3 and D4 can be controlled by adjusting the output signal of the control chip 20. When the light emitting diode D1 is turned on, it means that the brightness of the lamp body 30 is 25%; when the light emitting diode D2 is turned on, it means that the brightness of the lamp body 30 is 50%; when the light emitting diode D3 is turned on, it means that the brightness of the lamp body 30 is 75%; when the light emitting diode D4 is turned on, the brightness of the lamp body 30 is 100%. Through the two brightness display circuits, the user can intuitively understand the brightness level of the lamp body 30 so as to adjust according to the requirement. This design increases the visual control of the brightness of the lamp body 30 by the user, making it more convenient and easy to use.

More preferably, the indicator light 50 further includes: a color temperature indicator lamp 53. A color temperature indicator lamp 53 is connected to the control chip 20 to display the color temperature of the lamp body 30.

Wherein, the color temperature indicator lamp 53 is connected with the control chip 20, and displays the color temperature of the lamp body 30 through the electrical connection with the control chip 20. The control chip 20 may adjust the color temperature of the lamp body 30, for example, from warmer yellow light to cooler blue light. Through the color temperature indicator lamp 53, the user can intuitively understand the current color temperature setting of the lamp body 30, thereby selecting a proper lighting atmosphere and environment. This design increases the visual control of the color temperature of the lamp body 30 by the user, making it more convenient and easy to use. The user can adjust the color temperature of the lamp body 30 according to his own preference and demand, and create different light effects and comfort.

More preferably, the human body sensing light bar 100 further comprises: a color temperature display circuit 25. The color temperature display circuit 25 includes: resistor R15, light emitting diode D13, light emitting diode D14, resistor R25, light emitting diode D12, resistor R13; one end of the resistor R15 is connected with a power supply, the other end of the resistor R15 is connected with the positive electrode of the light emitting diode D13, the negative electrode of the light emitting diode D13 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D14, the negative electrode of the light emitting diode D14 is connected with one end of the resistor R25, the other end of the resistor R25 is grounded, one end of the resistor R13 is grounded, the other end of the resistor R13 is connected with the negative electrode of the light emitting diode D12, and the positive electrode of the light emitting diode D12 is connected with the control chip 20. Accordingly, the brightness of the light emitting diodes D13, D14, and D12 is adjusted by the control chip 20 to display the color temperature level of the lamp body 30. By changing the brightness of the light emitting diode, different color temperature effects can be realized, and by observing the on-off state of the light emitting diode, the user can understand the color temperature setting of the lamp body 30, thereby obtaining a desired lighting effect. In the present embodiment, when the light emitting diode D13 is turned on, the color temperature of the lamp body 30 is 4500K; the color temperature of the lamp body 30 is 6000K when the light emitting diode D14 is lighted, and the color temperature of the lamp body 30 is 3000K when the light emitting diode D12 is lighted.

More preferably, the indicator light 50 further includes: a mode indicator light 54. A mode indicator light 54 is connected to the control chip 20 to indicate that the control chip 20 is currently in a daytime mode, a nighttime mode, or a normally-on mode. When in the daytime mode, the lamp body 30 does not light up even if the human body sensor 10 senses that a person is approaching. When the lamp is initially in the off state while in the night mode, the body 30 is turned on when the human sensor 10 senses that a person is approaching. When the brightness sensor 70 detects that the ambient brightness is bright, i.e. in daytime, or other lights are turned on, the lamp body 30 is automatically turned off when the human body sensing lamp is not required to be turned on, so that electric energy is saved. Therefore, in design, it is necessary to avoid direct light of the lamp body 30 from striking the luminance sensor 70, so as to avoid misjudging the ambient luminance by the luminance sensor 70. When in the normally-on mode, the lamp body 30 remains in a lighted state.

More preferably, the human body sensing light bar 100 further comprises: a mode display circuit 26. The mode display circuit 26 includes: resistor R14, light emitting diode D9, light emitting diode D10, resistor R22, light emitting diode D11, resistor R23; one end of the resistor R14 is connected with a power supply, the other end of the resistor R14 is connected with the positive electrode of the light emitting diode D19, the negative electrode of the light emitting diode D19 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D10, the negative electrode of the light emitting diode D10 is connected with one end of the resistor R22, the other end of the resistor R22 is grounded, one end of the resistor R23 is grounded, the other end of the resistor R23 is connected with the positive electrode of the light emitting diode D11, and the negative electrode of the light emitting diode D11 is respectively connected with the control chip 20 and the positive electrode of the light emitting diode D12. Depending on the mode of operation, the LEDs in the mode display circuit 26 may be turned on or off to display the current mode of operation. In the present embodiment, in the daytime mode, the light emitting diode D9 is turned on, and the light emitting diodes D11 and D10 are turned off; in the night mode, the light emitting diode D11 is turned on, and the light emitting diode D9 and the light emitting diode D10 are turned off; in the normal-light mode, the light emitting diode D10 is turned on and the light emitting diode D9 and the light emitting diode D11 are turned off, and the user can clearly understand the current operation mode of the control chip 20 through the status of the light emitting diodes in the mode display circuit 26 so as to adjust or understand the operation state of the lamp body 30 according to the need.

More preferably, the human body sensing light bar 100 further comprises: a luminance sensor 70, a mode control key 81, a luminance control key 82, a color temperature control key 83. A brightness sensor 70 is connected to the control chip 20 to detect brightness in the environment. The mode control key 81 is connected to the control chip 20 to switch the daytime mode, the nighttime mode, or the normally-on mode. The brightness control key 82 is connected to the control chip 20 to adjust the brightness of the lamp body 30. The color temperature control key 83 is connected to the control chip 20 to adjust the color temperature of the lamp body 30.

Wherein a brightness sensor 70 is connected to the control chip 20 for detecting a brightness level in the environment. By monitoring the ambient brightness in real time, the control chip 20 can adjust the brightness of the lamp body 30 as required to ensure a comfortable lighting effect suitable for the current environment.

The mode control key 81 is connected to the control chip 20, and is used for switching the working mode of the lamp body 30. By pressing the mode control key 81, the user can select a daytime mode, a nighttime mode, or a normally-lit mode. The different modes will trigger the corresponding light behavior and functions.

The brightness control key 82 is connected to the control chip 20, and is used for adjusting the brightness level of the lamp body 30. The user may increase or decrease the intensity of the light by pressing the intensity control key 82 to meet personal preferences or specific needs.

The color temperature control key 83 is connected to the control chip 20, and is used for adjusting the color temperature of the lamp body 30. The user can switch different color temperature options by pressing the color temperature control key 83 to obtain a warm or cool colored light to accommodate different scenes or personal preferences.

Therefore, the panel 40 is arranged on the human body induction light bar 100 provided with the human body inductor 10, and the indicator light 50 is arranged on the panel 40, so that more information and flexibility are provided, a user can better know and control the performance of the light bar, and the use experience and convenience of the user are improved.

The above embodiments represent only a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model, which are within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A human response lamp strip is equipped with human inductor, its characterized in that, human response lamp strip still includes:

the control chip is electrically connected with the human body sensor;

the lamp body is electrically connected with the control chip;

the panel is connected with the lamp body;

and the indicator lamp is connected with the control chip and is positioned on the panel.

2. The body sensing light bar of claim 1, further comprising:

the battery is connected with the control chip;

the indicator lamp includes:

and the electric quantity indicator lamp is connected with the control chip to display the electric quantity of the battery.

3. The body sensing light bar of claim 1, further comprising:

a first power display circuit comprising: resistor R16, LED D8, LED D7, resistor R26; one end of the resistor R16 is connected with a power supply, the other end of the resistor R16 is connected with the positive electrode of the light emitting diode D8, the negative electrode of the light emitting diode D8 is respectively connected with the control chip and the positive electrode of the light emitting diode D7, the negative electrode of the light emitting diode D7 is connected with one end of the resistor R26, and the other end of the resistor R26 is grounded;

a second power display circuit comprising: resistor R19, light emitting diode D6, light emitting diode D5, resistor R24; one end of the resistor R19 is connected with a power supply, the other end of the resistor R19 is connected with the positive electrode of the light emitting diode D6, the negative electrode of the light emitting diode D6 is respectively connected with the control chip and the positive electrode of the light emitting diode D5, the negative electrode of the light emitting diode D5 is connected with one end of the resistor R24, and the other end of the resistor R24 is grounded.

4. The body sensing light bar of claim 1, wherein the indicator light further comprises:

and the brightness indicator lamp is connected with the control chip to display the brightness of the lamp body.

5. The body sensing light bar of claim 4, further comprising:

a first luminance display circuit comprising: resistor R18, LED D4, LED D3, resistor R21; one end of the resistor R18 is connected with a power supply, the other end of the resistor R18 is connected with the positive electrode of the light emitting diode D4, the negative electrode of the light emitting diode D4 is respectively connected with the control chip and the positive electrode of the light emitting diode D3, the negative electrode of the light emitting diode D3 is connected with one end of the resistor R21, and the other end of the resistor R21 is grounded;

a second brightness display circuit comprising: resistor R17, light emitting diode D2, light emitting diode D1, resistor R20; one end of the resistor R17 is connected with a power supply, the other end of the resistor R17 is connected with the positive electrode of the light emitting diode D2, the negative electrode of the light emitting diode D2 is respectively connected with the control chip and the positive electrode of the light emitting diode D1, the negative electrode of the light emitting diode D1 is connected with one end of the resistor R20, and the other end of the resistor R20 is grounded.

6. The body sensing light bar of claim 1, wherein the indicator light further comprises:

and the color temperature indicator lamp is connected with the control chip to display the color temperature of the lamp body.

7. The body sensing light bar of claim 6, further comprising:

a color temperature display circuit comprising: resistor R15, light emitting diode D13, light emitting diode 914, resistor R25, light emitting diode 912, resistor R13; one end of the resistor R15 is connected with a power supply, the other end of the resistor R15 is connected with the positive electrode of the light emitting diode D13, the negative electrode of the light emitting diode D13 is respectively connected with the control chip and the positive electrode of the light emitting diode D14, the negative electrode of the light emitting diode D14 is connected with one end of the resistor R25, the other end of the resistor R25 is grounded, one end of the resistor R13 is grounded, the other end of the resistor R13 is connected with the negative electrode of the light emitting diode D12, and the positive electrode of the light emitting diode D12 is connected with the control chip.

8. The body sensing light bar of claim 7, wherein the indicator light further comprises:

and the mode indicator lamp is connected with the control chip to display that the control chip is in a daytime mode, a night mode or a normally-on mode currently.

9. The body sensing light bar of claim 8, further comprising:

a mode display circuit comprising: resistor R14, light emitting diode D9, light emitting diode D10, resistor R22, light emitting diode D11, resistor R23; one end of the resistor R14 is connected with a power supply, the other end of the resistor R14 is connected with the positive electrode of the light emitting diode D19, the negative electrode of the light emitting diode D19 is respectively connected with the control chip and the positive electrode of the light emitting diode D10, the negative electrode of the light emitting diode D10 is connected with one end of the resistor R22, the other end of the resistor R22 is grounded, one end of the resistor R23 is grounded, the other end of the resistor R23 is connected with the positive electrode of the light emitting diode D11, and the negative electrode of the light emitting diode D11 is respectively connected with the control chip and the positive electrode of the light emitting diode 912.

10. The body sensing light bar of claim 1, further comprising:

the brightness sensor is connected with the control chip to detect brightness in the environment;

the mode control key is connected with the control chip to switch the daytime mode, the night mode or the normally-on mode;

the brightness control key is connected with the control chip to adjust the brightness of the lamp body;

and the color temperature control key is connected with the control chip to adjust the color temperature of the lamp body.