CN109068461B - Touch system applied to lamp RGB control - Google Patents

Abstract

The invention provides a touch system applied to RGB control of a lamp, which comprises a control part and a touch part, wherein the control part is connected with the touch part, the control part is arranged in the lamp, the touch part is arranged on a shell of the lamp, the touch part is provided with a conductive medium, the conductive medium detects the touch time in the touch part in real time and then sends corresponding signals to the control part, and the control part controls the RGB change of a light source according to different signals. Compared with the prior art, the invention can realize different RGB color control effects on one touch component through the touch time length, thereby effectively solving the problem that a single key can not realize the control effects of multiple RGB colors.

Description

Touch system applied to lamp RGB control

Technical Field

The invention relates to the field of lighting devices, in particular to a touch system applied to lamp RGB control.

Background

In the field of lighting, various lamps provide various lighting effects for living spaces of people, such as table lamps, ceiling lamps, floor lamps and the like. The desk lamp and the floor lamp mainly concentrate light on a desktop or a small area on the ground, so that the illumination range of the desk lamp and the floor lamp is relatively small and concentrated; the ceiling lamp scatters light to a living room, a room or an office at the top of a wall, so that the irradiation range of the ceiling lamp is larger than that of a desk lamp and a floor lamp.

Among various lamps and lanterns that use now, especially desk lamp, the control tradition to the change state of RGB on it is all controlled through specific button, for example entity button, knob, touch button etc. to control opening, the color state change of RGB and close etc. in this kind of control mode different RGB control effect need realize through a plurality of buttons, can't realize on a button, control the trouble, therefore be unfavorable for user to use the promotion of experience.

Disclosure of Invention

In view of this, the invention provides a touch system applied to RGB control of a lamp, and aims to solve the problem that a single key in the prior art cannot achieve multiple RGB color control effects.

The invention provides a touch system applied to RGB control of a lamp, which comprises a control part and a touch part, wherein the control part is connected with the touch part, the control part is arranged in the lamp, the touch part is arranged on a shell of the lamp, the touch part is provided with a conductive medium, the conductive medium detects the touch time in the touch part in real time and then sends corresponding signals to the control part, and the control part controls the RGB change of a light source according to different signals.

Further, the conductive medium is a copper film, an aluminum foil or conductive cotton arranged in the shell of the lamp.

Further, when the conductive medium is touched, the conductive medium sends a first signal to the control component, and the control component starts the RGB adjustment function of the light source.

Further, when the conductive medium is touched for a period of time in a state of starting the RGB adjustment function, the conductive medium sends a second signal to the control component, and the control component enters an RGB color automatic evolution mode.

Further, the time to touch the conductive medium is greater than 1.5 seconds.

Further, in the RGB color automatic evolution mode, the conductive medium is continuously touched, the conductive medium sends a third signal to the control component, and the control component controls the light source to stay in the current color state.

Further, in the RGB color automatic evolution mode, the conductive medium continues to be touched for a period of time, the conductive medium sends a fourth signal to the control component, and the control component controls the light source to enter the next color state, and so on.

Further, the time to touch the conductive medium is less than 1 second.

Further, when the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a fifth signal to the control part, and the control part controls the light source to turn off the RGB adjustment function.

Further, the time to touch the conductive medium is greater than 2.5 seconds.

According to the touch system applied to the RGB control of the lamp, the control component and the touch component are arranged, the conductive medium is arranged in the touch component, and after a user contacts the conductive medium on the shell, corresponding operations such as opening and closing of RGB, color adjustment and the like can be performed, so that different RGB color control effects can be realized on one touch component through the touch time length, and the problem that multiple RGB color control effects cannot be realized by a single key in the prior art can be effectively solved.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched, the conductive medium sends a first signal to the control component, and the control component starts the RGB adjustment function of the light source, so that the RGB adjustment function can be started in a touch control manner through the touch component.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a second signal to the control component, the control component enters the RGB color automatic evolution mode, the time for touching the conductive medium may be specifically set to be greater than 1.5 seconds, and the turning-on operation of the RGB color automatic evolution mode in another touch control manner through the touch component may be realized.

In the touch system applied to the RGB control of the lamp, as a specific improvement, in the RGB color automatic evolution mode, the conductive medium is continuously touched, the conductive medium sends the third signal to the control component, and the control component controls the light source to stay in the current color state, so that the touch component can realize the change operation of one color state in another touch control manner.

In the above touch system applied to RGB control of a lamp, as a specific improvement scheme, in an automatic RGB color evolution mode, the conductive medium is continuously touched for a period of time, the conductive medium sends a fourth signal to the control component, the control component controls the light source to enter a next color state, and so on, the time for touching the conductive medium may be specifically set to be less than 1 second, so that gradual change adjustment of the color state in another touch control manner through the touch component can be realized, and a function of adjusting the color of the light source can be realized.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a fifth signal to the control component, the control component controls the light source to turn off the RGB adjustment function, the time for touching the conductive medium may be specifically set to be greater than 2.5 seconds, and the turning-off operation of the RGB adjustment function in another touch control manner through the touch component may be implemented.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural diagram of a touch system applied to RGB control of a lamp according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Referring to fig. 1, a touch system applied to RGB control of a lamp according to an embodiment of the present invention is shown, which mainly includes a control component and a touch component, the control component and the touch component may be electrically connected in a wired or wireless manner to implement transmission of an electrical signal, the control component may be a PCB board disposed inside the lamp, on which an information processing chip is disposed, the touch component is disposed on a housing of the lamp, the touch component may be a touch pad integrated on the housing, the touch component has a conductive medium, the conductive medium may be disposed in the touch pad, the conductive medium may be made of a copper film, an aluminum foil, or conductive cotton, the conductive medium detects a touch time in the touch component in real time, and then sends a corresponding signal to the control component, and the control component controls RGB change of a light source according to different signals to implement corresponding operations, the detailed operation will be described below.

First, with respect to the on and off control of the RGB adjustment function, the following is a description of detailed operation and control procedures.

The control component starts the RGB adjustment function of the light source by touching the conductive medium under the state that the RGB adjustment function is not started, wherein the conductive medium is used for placing a hand on the touch component to contact the control component once the conductive medium is touched, and the control component does not need to calculate time under many conditions, namely the RGB adjustment function is started immediately once the touch pressure is sensed, similar to a sensor.

The conductive medium is touched for a period of time in the state of starting the RGB adjusting function, the conductive medium sends a fifth signal to the control component, and the control component controls the light source to close the RGB adjusting function; in the control process, the touch time of the conductive medium can be calculated through the control component, the control component is not needed to calculate the time in the starting control process, and once the touch component senses the touch pressure, the RGB adjusting function is immediately closed.

In the control process of turning off the RGB adjustment function, when calculating the time, the touch time for the conductive medium may be set to a period of time, for example, greater than 2.5 seconds; and particularly to some embodiments, may be 2.5 seconds, 2.7 seconds, 2.9 seconds, 3.1 seconds, 3.3 seconds, etc.; in other embodiments, 2.6 seconds, 2.8 seconds, 3.0 seconds, 3.2 seconds, 3.4 seconds, etc. may be set as desired.

Next, for the control of the RGB color adjustment of the light source, a detailed description of the operation and control process is given below.

The conductive medium is touched for a period of time in the state of starting the RGB adjustment function, the conductive medium sends a second signal to the control component, and the control component enters an RGB color automatic evolution mode, namely the RGB color automatic evolution mode is started when the lamp enters the RGB color adjustment mode through a touch operation; in the control process, the touch time of the conductive medium can be calculated through the control component, the control component is not needed to calculate the time in the starting control process, and once the touch component senses the touch pressure, the RGB color automatic evolution mode is started.

In the above control process of turning on the RGB color automatic evolution mode, when calculating the time, the touch time for the conductive medium may be set for a period of time, for example, greater than 1.5 seconds; and particularly to some embodiments, can be 1.5 seconds, 1.7 seconds, 1.9 seconds, 2.1 seconds, 2.3 seconds, etc.; in other embodiments, the time may be set to 1.6 seconds, 1.8 seconds, 2.0 seconds, 2.2 seconds, 2.4 seconds, or the like, as needed.

After entering the brightness adjustment mode, continuously touching the conductive medium in the RGB color automatic evolution mode, sending a third signal to the control component by the conductive medium, and controlling the light source to stay in the current color state by the control component; continuing to touch the conductive medium for a period of time, sending a fourth signal to the control part by the conductive medium, and controlling the light source to enter the next color state by the control part, and so on; the color status level may specifically be a color parameter value preset in the control unit, for example, a first color parameter, a second color parameter, a third color parameter, a fourth color parameter, and the like are set according to a color parameter that needs to be decreased, and correspond to different color status levels in sequence; in the control process, the touch time of the conductive medium can be calculated through the control part, the control part is not needed to calculate the time in the starting control process, and once the touch part senses the touch pressure, the color state is adjusted step by step.

In the above control process of descending the color state step by step, when calculating the time, the touch time for the conductive medium may be set to a period of time, for example, less than 1 second; and particularly to some embodiments, may be 1 second, 0.8 second, 0.6 second, 0.4 second, 0.2 second, etc.; in other embodiments, the time may be set to 0.9 second, 0.7 second, 0.5 second, 0.3 second, 0.1 second, or the like, as necessary.

The touch system applied to RGB control of a lamp provided by this embodiment, as shown in fig. 1, by setting a control component and a touch component, and setting a conductive medium in the touch component, after a user contacts the conductive medium on the housing, corresponding operations such as switching on and off RGB and color adjustment can be performed, so that different RGB color control effects can be realized on one touch component through the length of time of touch, and thus the problem that a single key in the prior art cannot realize multiple RGB color control effects can be effectively solved.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched, the conductive medium sends a first signal to the control component, and the control component starts the RGB adjustment function of the light source, so that the RGB adjustment function can be started in a touch control manner through the touch component.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a second signal to the control component, the control component enters the RGB color automatic evolution mode, the time for touching the conductive medium may be specifically set to be greater than 1.5 seconds, and the turning-on operation of the RGB color automatic evolution mode in another touch control manner through the touch component may be realized.

In the touch system applied to the RGB control of the lamp, as a specific improvement, in the RGB color automatic evolution mode, the conductive medium is continuously touched, the conductive medium sends the third signal to the control component, and the control component controls the light source to stay in the current color state, so that the touch component can realize the change operation of one color state in another touch control manner.

In the above touch system applied to RGB control of a lamp, as a specific improvement scheme, in an automatic RGB color evolution mode, the conductive medium is continuously touched for a period of time, the conductive medium sends a fourth signal to the control component, the control component controls the light source to enter a next color state, and so on, the time for touching the conductive medium may be specifically set to be less than 1 second, so that gradual change adjustment of the color state in another touch control manner through the touch component can be realized, and a function of adjusting the color of the light source can be realized.

In the touch system applied to the RGB control of the lamp, as a specific improvement, the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a fifth signal to the control component, the control component controls the light source to turn off the RGB adjustment function, the time for touching the conductive medium may be specifically set to be greater than 2.5 seconds, and the turning-off operation of the RGB adjustment function in another touch control manner through the touch component may be implemented.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (3)

1. The touch system applied to RGB control of the lamp is characterized by comprising a control component and a touch component, wherein the control component is connected with the touch component, the control component is arranged in the lamp, the touch component is arranged on a shell of the lamp, the touch component is provided with a conductive medium, the conductive medium detects the touch time in the conductive medium in real time and then sends corresponding signals to the control component, and the control component controls the RGB change of a light source according to different signals;

the method for controlling the turning on and off of the RGB adjusting function comprises the following steps:

the method comprises the steps that a conductive medium is touched under the state that the RGB adjusting function is not started, the conductive medium sends a first signal to a control component, the control component starts the RGB adjusting function of a light source, the conductive medium is touched once, namely, a hand is placed on a touch component to contact the conductive medium, the control component is not required to calculate time, and once touch pressure is sensed, the RGB adjusting function is started immediately;

the conductive medium is touched for a period of time in the state of starting the RGB adjusting function, the conductive medium sends a fifth signal to the control component, and the control component controls the light source to close the RGB adjusting function; in the control process, a control component is not required to calculate time, and once the touch component senses the touch pressure, the RGB adjustment function is immediately closed;

the control method for RGB color adjustment of a light source comprises the following steps:

the conductive medium is touched for a period of time in the state of starting the RGB adjustment function, the conductive medium sends a second signal to the control component, and the control component enters an RGB color automatic evolution mode, namely the RGB color automatic evolution mode is started when the lamp enters the RGB color adjustment mode through a touch operation; in the control process, a control component is not required to calculate time, and once the touch component senses the touch pressure, the RGB color automatic evolution mode is started;

after entering the brightness adjustment mode, continuously touching the conductive medium in the RGB color automatic evolution mode, sending a third signal to the control component by the conductive medium, and controlling the light source to stay in the current color state by the control component; continuing to touch the conductive medium for a period of time, sending a fourth signal to the control part by the conductive medium, and controlling the light source to enter the next color state by the control part; the color state grade is a color parameter value preset in the control part, and a first color parameter, a second color parameter, a third color parameter and a fourth color parameter are set according to the color parameter needing to be decreased, and correspond to different color state grades in sequence; in the control process, a control part is not required to calculate time, and once the touch part senses the touch pressure, the color state is adjusted step by step.

2. The touch system of claim 1, wherein the conductive medium is a copper film, an aluminum foil, or a conductive cotton disposed in a housing of the lamp.

3. The touch system of claim 1, wherein when the conductive medium is touched for a period of time in a state where the RGB adjustment function is turned on, the conductive medium sends a fifth signal to the control component, and the control component controls the light source to turn off the RGB adjustment function.

Images