CN211671037U - Control switch for lighting wall - Google Patents

Abstract

The utility model provides a lighting wall surface control switch, its has increased the time and has set up the button, through cooperating with parameter adjustment part, can self-define the start time, the duration of each scene, so each self-defined scene can be according to demand automatic start-up, switch and close, do not need repeated manual operation to start-up, switch and close the scene, the flexibility obtains improving greatly, has solved traditional wall switch and has started, has switched and finishes predefined scene and has operated inconveniently, the poor problem of flexibility.

Description

Control switch for lighting wall

Technical Field

The application belongs to the control switch field, especially relates to an illumination wall surface control switch.

Background

Lighting controlled wall switches have undergone an evolution from mechanical switches to touch switches, which greatly improves the ease of cleaning and the aesthetic feel of the wall switch. On the premise of further application of digital and information technologies, a plurality of scene buttons are added to an advanced wall switch appearing in the market, each scene comprises brightness and color temperature parameters which can be adjusted by an arched adjusting slider, and people only need to touch the adjusting slider to modify the current brightness and color temperature or only start or switch the required scene with predefined brightness and color temperature, so that the current requirements of people on brightness and color temperature are met.

However, if people start and end predefined scenes regularly every day as required, even if only one or two touches are needed, repeated operations of people are wasted; and is also not flexible enough when a scene needs to be changed or different predefined scenes are arranged with successively different needs.

Therefore, the traditional wall switch has the problems of inconvenient operation and poor flexibility when the predefined scene is started, switched and ended.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a lighting wall surface control switch, and aims to solve the problems of inconvenience in operation and poor flexibility existing when a traditional wall switch is started, switched and closed in a predefined scene.

To achieve the above object, according to an aspect of the embodiments of the present invention, there is provided a lighting wall surface control switch, including:

the power supply button is used for powering on or powering off the lighting device;

a brightness setting button for selecting the setting of the brightness parameter;

a color temperature setting button for selecting setting of color temperature parameters;

the parameter adjusting part is used for adjusting parameters, and the parameters comprise a brightness parameter and a color temperature parameter; and

a plurality of scene buttons, each scene button for selecting one of a plurality of scenes and/or for selecting a parameter adjustment of the selected scene, the parameters of the scene including a brightness parameter and a color temperature parameter;

the illumination wall surface control switch further comprises:

a time setting button for setting the setting of the start time, duration of the scene, wherein the parameter adjusting means is further configured to adjust the time; the parameters of the scene also include a start time and a duration of the scene; and

a display screen configured to display at least a numerical value of each of the parameters.

The utility model discloses an aspect has increased the time setting button, through cooperating with parameter adjustment part, can self-define the start time, the duration of each scene, so each self-defined scene can be started, switched and closed according to the demand is automatic, does not need to repeat manual operation start, switch and close the scene, and the flexibility is greatly improved, has solved traditional wall switch and has started, switched and end the problem that predefined scene has inconvenient operation, poor flexibility; in addition, a display screen is provided, the setting parameters and the scene parameters can be displayed in real time and visually, and the use is convenient.

In one embodiment, the time setting button is further configured for selectively setting an absolute time setting, and the parameter adjustment component is further configured for adjusting the absolute time.

The time setting button in the embodiment can also be used for setting absolute time, such as hour, grade and the like, so that the whole lighting wall surface control switch has accurate reference time, and the setting and the control of the lighting device are convenient.

In one embodiment, the time setting button comprises a first button and a second button; the first button is used for selecting the setting operation of starting time and hour; the second button is used for setting operation of a selected duration and minutes.

In the embodiment, the two buttons are used for realizing the selection of the settings among the scene starting time, the scene duration and the scene unit, and the operation is simple and convenient.

In one embodiment, the parameter adjusting component comprises a touch track with a preset shape, which is arranged on the illuminated wall surface control switch panel, and the touch track can be slidingly touched between a first position and a second position to adjust the size of the parameter.

In one embodiment, the predetermined shape comprises a ring shape or a bar shape.

In the two embodiments, each parameter is adjusted by using the touch track with the preset shape, so that the adjustment continuity is good, and convenience and rapidness are realized.

In one embodiment, the parameter adjusting component comprises a sliding switch arranged on the control switch panel of the lighting wall surface, and a sliding handle of the sliding switch can be pushed to slide between one side and the other side of the sliding rail to adjust the size of the parameter.

In the embodiment, each parameter is adjusted by using the sliding switch, so that the adjustment continuity is good, convenience and rapidness are realized, and the cost is low.

In one embodiment, the parameter adjustment component includes a third button for adjusting the value increase of the parameter and a fourth button for adjusting the value decrease of the parameter.

The embodiment uses two physical buttons to replace a sliding or touching adjusting part, and has lower cost and higher reliability.

In one embodiment, the lighting wall surface control switch further comprises a plurality of indicator lamps respectively arranged on the lighting wall surface control switch panel, and each indicator lamp is respectively arranged in the area where the brightness setting button, each scene button, the color temperature setting button and the time setting button are located.

The embodiment uses the indicating lamp to indicate different functional states, and the user can conveniently and intuitively know that each button executes different functions.

In one embodiment, the power supply button, the brightness setting button, the color temperature setting button, the parameter adjusting part, each of the scene buttons, the first button, and the second button are all touch switches or touch key switches.

This embodiment provides different implementation types of the respective buttons.

In one embodiment, the system further comprises a processor configured to automatically and sequentially output the luminance and color temperature parameters of the corresponding scenes according to the time parameter settings of the scenes.

The embodiment provides a control circuit of a control switch of a lighting wall surface, which uses an integrated circuit, and the integrated circuit has good consistency and high reliability.

Further effects of the above-mentioned non-conventional alternatives will be described below in connection with the embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a panel of a control switch for illuminating a wall surface according to a first embodiment of the present application;

fig. 2 is a schematic structural diagram of a panel of a control switch for illuminating a wall surface according to a second embodiment of the present application;

fig. 3 is a schematic structural diagram of a panel of a control switch for illuminating a wall surface according to a third embodiment of the present application;

fig. 4 is a schematic structural diagram of a panel of a control switch for illuminating a wall surface according to a fourth embodiment of the present application;

fig. 5 is a schematic structural diagram of a panel of a control switch for illuminating a wall surface according to a fifth embodiment of the present application;

fig. 6 is a schematic view of a usage mode of the control switch for illuminating a wall surface according to the embodiment of the present application;

fig. 7 is a flowchart illustrating setting parameters of a default scene of a control switch for a lighting wall according to an embodiment of the present application;

fig. 8 is a flow chart of setting parameters of a custom scene of a control switch for a lighting wall according to an embodiment of the present application.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, a control switch (hereinafter referred to as a switch) 10 for illuminating a wall surface according to an embodiment of the present disclosure includes a power button 11, a brightness setting button 12, a color temperature setting button 13, a parameter adjusting unit 14, a plurality of scene buttons 15, a time setting button 16, and a display screen 17. In this embodiment, the above-mentioned buttons are all disposed on the panel of the control switch 10, and may be a touch switch or a touch key switch.

The power button 11 is used to power up or power down the lighting device. In particular, the power button 11 may be used to power up the lighting device connected to and controlled by the switch 10, as well as other keys on the panel and internal control circuitry. Optionally, when the power button 11 is not on, the other components of the switch 10 are in a sleep mode to save power consumption.

The brightness setting button 12 is used for selecting the setting of the brightness parameter; a color temperature setting button 13 for selecting setting of a color temperature parameter; the parameter adjusting part 14 is used for adjusting parameters, including brightness parameters and color temperature parameters; each scene button 15 is used for selecting one of a plurality of scenes and/or for adjusting parameters for selecting the selected scene, the parameters of the scene including a brightness parameter and a color temperature parameter; a time setting button 16 for setting the setting of the start time, duration of the scene, wherein said parameter adjustment means 14 is further configured for adjusting said time; the parameters of a scene also include a start time and a duration of the scene; the display screen 17 is configured at least for displaying the value of each of said parameters.

Optionally, the scene button 15 is also configured to confirm and save parameters of the scene. In this manner, after the parameter setting of the selected scene is completed, the scene button 15 may be pressed again to confirm and save the parameters of the scene to complete the parameter setting of the scene. Of course, it is also possible to confirm the setting without pressing any button, that is, to automatically set the setting once set, to complete the setting of the parameters of the scene.

Optionally, the time setting button 16 is further configured for selectively setting an absolute time setting, and the parameter adjustment component 14 is further configured for adjusting the absolute time. Such as hours, minutes, seconds. That is, pressing the time setting button 16, the operating parameter adjusting part 14 can adjust the absolute time after the setting of the selected set hour, minute, or second is selected. A time reference is provided for the start time or duration of the scene.

In one embodiment, referring to FIG. 1, the time setting button 16 includes two buttons: a first button 161 and a second button 162. Pressing the first button 161 in a short-press or long-press manner is used for a setting operation for selecting a start time and an hour (absolute time); the second button 162 is pressed in a short press or a long press for the setting operation of the selected duration and minute (absolute time). Alternatively, in different states, the first button 161 is multiplexed for setting operations of a selected start time and hour, respectively, and the second button 162 is multiplexed for setting operations of a selected duration and minute, respectively.

In another embodiment, referring to fig. 2, the time setting button 16 is a button, and when the time setting is entered, the button is operated to switch the start time, the duration, and the absolute time (e.g. hour, minute) in sequence by pressing short or long, and the parameter of the selected scene is switched to be adjusted by operating the parameter adjusting unit 14. Alternatively, the time setting button 16 is multiplexed as the setting operation of the selected start time, duration, absolute time, respectively, in different states.

In other embodiments, the time setting button 16 includes three buttons for selecting the setting operation of the start time, the duration, and the absolute time, respectively, wherein the setting button of the absolute time may be operated in a short-press or long-press manner to be sequentially switched over the unit time hours, etc.; or multiplexed into the set-up operations for selected hours and minutes, respectively, under different conditions. The time setting button 16 may also include four buttons for selecting the setting operation of the start time, duration, hour, and minute, respectively.

In some embodiments, referring to fig. 1-3, the parameter adjustment component 14 includes a touch track 141 with a predetermined shape disposed on the panel of the illuminated wall control switch 10, and the touch track can be slidably touched between a first position 142 and a second position 143 to adjust the size of the parameter. Wherein the predetermined shape includes a ring shape (as shown in fig. 1), a bar shape (as shown in fig. 2), a circular arc shape (as shown in fig. 3), and the like. Referring to fig. 1, the predetermined shape of the touch track 141 is a ring shape, and the first position 142 and the second position 143 are respectively located at two opposite sides of the lowest point of the ring-shaped touch track 141. Referring to fig. 2 and 3, if the predetermined shape is not a closed figure, such as a bar or a circular arc, the first position 142 and the second position 143 may be respectively disposed at two ends. In one embodiment, sliding from the first position 142 to the second position 143 increases the setting and sliding from the second position 143 to the first position 142 decreases the setting.

In some embodiments, referring to fig. 4, the parameter adjusting component 14 includes a sliding switch disposed on the panel of the illuminated wall control switch 10, and an operable sliding handle 144 of the sliding switch can be pushed to slide between one side and the other side of the sliding rail 145 to adjust the size of the parameter. The present embodiment provides a slide switch instead of the touch trajectory 141, which operates in the same manner. Alternatively, the sliding handle 144 of the sliding switch may be automatically reset to a side or middle position of the sliding rail 145.

In some embodiments, referring to FIG. 5, the parameter adjustment component 14 includes a third button 146 for adjusting the value increase (increasing the setting value) of the parameter, and a fourth button 147 for adjusting the value decrease (decreasing the setting value) of the parameter. The embodiment provides the plus and minus buttons to adjust the parameters, and has low cost and high reliability.

In some embodiments, referring to fig. 1 to 5, the switch 10 further includes a plurality of indicator lights 18 respectively disposed on the panel of the switch 10, and each indicator light 18 is respectively disposed in the areas where the brightness setting button 12, the scene buttons 15, the color temperature setting button 13, and the time setting button 16 are located. For example, when the button is a touch key switch, the indicator light 18 is disposed on one side of the button; when the button is a touch switch, the indicator lamp 18 is provided on a touch area of the button. The indicator lights 18 are used to indicate the status of each button, and the indicator lights 18 are indicated by a turn-off mode, a breathing light mode in which the time is gradually changed between on and off (for example, the time is required to be 1 second or more for the fade time from the brightest to the extinguished), a blinking mode in which the time is rapidly changed between on and off (for example, the time is 1 second for the brightest to the extinguished to be completed), a normally on mode, and the like.

In some embodiments, the switch 10 further comprises a processor (not shown) configured to automatically perform the luminance and color temperature parameter outputs of the respective scenes in sequence according to the time parameter settings of the respective scenes. The settings related to the parameters are stored in a separate memory or a storage part of the processor, and when the corresponding scene parameter output is executed, the corresponding parameters are sent to the driver of the lighting device in a DALI protocol or Zigbee radio frequency manner.

The display screen 17 is typically an LED nixie tube or other type of display screen, such as LCD, OLED screen, etc., and is configured to display at least the values of brightness, color temperature, and also start time, duration, and absolute time. The name of the selected button, etc. may also be displayed. The display screen 17 is provided at the bottom, middle or top of the panel of the switch 10.

In the present embodiment, each of the scene buttons 15 is located at the upper portion of the panel, the brightness setting button 12, the color temperature setting button 13, and the time setting button 16 are located at the lower portion of the panel, and the power supply button 11 and the parameter adjusting part 14 are located at the middle portion of the panel. In other embodiments, the layout of each button on the panel may be changed according to different design and application requirements, and is not limited herein.

Referring to fig. 1 and 6, the related embodiment is illustrated by taking 4 scene buttons 15 (including scenes 1, 2, 3, and 4) as an example, wherein each scene button 15 represents a predefined scene mode. During use, the switch 10 is configured to a plurality of use modes of operation:

1. referring to fig. 6, when the power button 11 is pressed to power up, the processor of the switch 10 executes a default scene setting, and the default scene setting is infinite, and the lighting device is controlled by outputting the default brightness parameter and the default color temperature parameter. In this case, each scene indicator lamp 18 is turned off.

2. After the power button 11 is pressed to power on, in a default scene, referring to fig. 7, the user may press the brightness setting button 12 or the color temperature setting button 13 to enter the setting of the corresponding brightness parameter or color temperature parameter, and at this time, the user continues to operate the parameter adjusting part 14, so that the brightness parameter or color temperature parameter of the current lighting device may be adjusted in real time. In addition, the user may also press the time setting button 16 to select the absolute time setting and operate the parameter adjustment device 14 to adjust the absolute time of the switch 10. In this case, the corresponding indicator light will flash for each selected parameter. In the embodiment shown in fig. 1, the user presses the start time/hour button to select "hour" per unit time to enter the adjustment; the user presses the duration/minute button and selects the unit time "minutes" to enter the adjustment. Alternatively, the user may operate the parameter adjustment component 14 to adjust the absolute time of the switch 10 by pressing the time setting button 16 at any time to select the absolute time setting.

3. Referring to fig. 6, after the power supply button 11 is pressed to power on, in a default scene, if a scene mode is preset and is to be executed by the processor at a preset timing, the indicator light 18 of the corresponding scene button 15 is triggered to be in the breathing light mode before entering the corresponding scene mode, the indicator light 18 of the corresponding scene button 15 is triggered to be in the normally on mode after entering the corresponding scene mode, and the processor of the switch 10 automatically and sequentially executes the brightness and color temperature parameter output of the corresponding scene according to the time parameter setting of the scene until the scene is automatically turned off or the current scene button 15 is pressed to be manually turned off, and the corresponding indicator light 18 is also turned off; and then, the default scene is restored to be directly switched to other scenes with preset timing starting.

4. After the power button 11 is pressed to power on, the default scene or the adjusted brightness and color temperature parameters are implemented. When a user presses one of the scene buttons 15 to select one of a plurality of scenes, the indicator light 18 of the corresponding scene button 15 is triggered to be in a normally-on mode, and the processor of the switch 10 automatically and sequentially outputs the brightness and color temperature parameters of the corresponding scene according to the selected scene time parameter setting until the current scene button 15 is pressed to be manually turned off, and the corresponding indicator light 18 is also turned off.

5. In any of the above cases 1 to 4, after one of the scene buttons 15 is pressed for a long time, the user-defined setting of the scene is entered, and correspondingly, the indicator light 18 of the corresponding scene button 15 is triggered to be in the blinking mode. Referring to fig. 8, when the brightness setting button 12 and the color temperature setting button 13 are pressed by the user, the state to be adjusted of the corresponding brightness parameter and color temperature parameter is entered, and at this time, the user continues to operate the parameter adjusting part 14 to set the brightness parameter and the color temperature parameter. When the time setting button 16 is pressed by the user, for example, the first button 161 and the second button 162, the starting time or duration of the corresponding scene is to be set, and the user continues to operate the parameter adjustment component 14 to set the starting time or duration. Alternatively, after the parameter setting of the selected scene is completed, the current scene button 15 may be pressed for a longer time to confirm and save the parameters of the scene to complete the parameter setting of the scene. Of course, it is also possible to confirm the setting without pressing any button, that is, to automatically set the setting once set, to complete the setting of the parameters of the scene.

The aforementioned "pressing" operation of each button may be a short pressing operation or a long pressing operation, and those skilled in the art may set the operation according to different requirements, which is not limited herein. For example, a short press of the scene button 15 is used to select one of a plurality of scenes, so that the processor in the switch 10 automatically executes the brightness and color temperature parameter outputs of the corresponding scenes in sequence to control the lighting device according to the time parameter settings of the selected scene. And long-pressing one of the scene buttons 15 is used for selecting the parameter adjustment of the selected scene, entering the setting process of the parameters of the scene, and after the setting of the parameters is completed, long-pressing the scene button 15 to confirm and store the parameters of the scene.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A illuminated wall control switch (10) comprising:

a power button (11) for powering on or off the lighting device;

a brightness setting button (12) for selecting a setting of a brightness parameter;

a color temperature setting button (13) for selecting setting of a color temperature parameter;

parameter adjusting means (14) for adjusting parameters including a luminance parameter, a color temperature parameter; and

a plurality of scene buttons (15), each scene button for selecting one of a plurality of scenes and/or for selecting a parameter adjustment of the selected scene, the parameters of the scene including a brightness parameter and a color temperature parameter;

characterized in that, illumination wall surface control switch (10) still includes:

a time setting button (16) for setting a setting of a start time, a duration of a scene, wherein the parameter adjustment means (14) is further configured for adjusting the time; the parameters of the scene also include a start time and a duration of the scene; and

a display screen (17) configured at least for displaying the value of each of the parameters.

2. The illuminated wall control switch (10) according to claim 1, wherein the time setting button (16) is further configured for selectively setting an absolute time setting, and the parameter adjustment component (14) is further configured for adjusting the absolute time.

3. The illuminated wall control switch (10) of claim 2, wherein the time setting button (16) includes a first button (161) and a second button (162);

the first button (161) is used for selecting the setting operation of the starting time and the hour; the second button (162) is used for a set operation of a selected duration and minutes.

4. The illuminated wall control switch (10) according to any one of claims 1 to 3, wherein the parameter adjusting means (14) comprises a touch track (141) having a predetermined shape and provided on a panel of the illuminated wall control switch (10), and the touch track (141) can be slidably touched between a first position (142) and a second position (143) to adjust the size of the parameter.

5. The illuminated wall control switch (10) of claim 4, wherein the predetermined shape comprises a ring or a bar.

6. The illuminated wall surface control switch (10) according to any one of claims 1 to 3, wherein the parameter adjusting means (14) comprises a slide switch provided on a panel of the illuminated wall surface control switch (10), and a slide handle of the slide switch can be pushed to slide between one side and the other side of a slide rail to adjust the size of the parameter.

7. The illuminated wall control switch (10) according to any one of claims 1 to 3, characterized in that the parameter adjusting means (14) comprises a third button for adjusting the value increase of the parameter and a fourth button for adjusting the value decrease of the parameter.

8. The illuminated wall control switch (10) of claim 1, further comprising a plurality of indicator lights (18) respectively disposed on a panel of the illuminated wall control switch (10), wherein each of the indicator lights (18) is respectively disposed in an area where the brightness setting button (12), the scene button (15), the color temperature setting button (13), and the time setting button (16) are disposed.

9. The illuminated wall control switch (10) according to claim 3, wherein the power button (11), the brightness setting button (12), the color temperature setting button (13), the parameter adjusting part (14), each of the scene buttons (15), the first button (161), and the second button (162) are all touch switches or touch key switches.

10. The illuminated wall control switch (10) of claim 1, further comprising a processor configured to automatically perform the luminance and color temperature parameter outputs of the respective scenes in sequence based on the time parameter settings of the respective scenes.

Images