CN113692095B - Intelligent lighting wall control panel configuration method and intelligent lighting wall control panel - Google Patents

Abstract

The application discloses an intelligent lighting wall control panel configuration method and an intelligent lighting wall control panel, and relates to the field of lighting engineering. The method comprises the following steps: acquiring a functional scene based on big data; and setting a corresponding number of function keys on the intelligent lighting wall control panel according to the number of the function scenes, and associating the function scenes with the function keys in a one-to-one correspondence manner. The difficult technical problem of current intelligent lighting wall accuse panel configuration has been solved in this application.

Description

Intelligent lighting wall control panel configuration method and intelligent lighting wall control panel

Technical Field

The invention relates to the technical field of lighting engineering, in particular to an intelligent lighting wall control panel configuration method and an intelligent lighting wall control panel.

Background

At present, the intelligent lighting system is increasingly popularized and applied, the intelligent lighting system is not only applied to large buildings, but also enters families, and intelligent home life is provided for people.

The existing intelligent lighting system generally uses a wall control panel to control a lighting lamp to realize a lighting effect, professional technicians are usually required to use special system configuration software to carry out parameter configuration on the intelligent lighting lamp and the wall control panel for installation, debugging and equipment maintenance of the intelligent lighting system so as to determine that each key function on the wall control panel can meet the use requirement of a user, and if the equipment is damaged after being used for a period of time, the special software is also required to be used for configuring the same parameters for the new replaced equipment.

In the process of implementing the present application, the inventor finds that at least the following problems exist in the prior art: the configuration work of the intelligent lighting system is usually a relatively complex and specialized work, which has high technical requirements on the personnel for implementing the configuration, needs to use specialized tool software for implementation, has strong implementation technical performance, causes the problems of high implementation threshold and high cost of the intelligent lighting system, and greatly hinders the popularization and application of the intelligent lighting system.

Disclosure of Invention

Therefore, the embodiment of the application provides an intelligent illumination wall control panel configuration method and an intelligent illumination wall control panel, which can solve the technical problem that the configuration of the existing intelligent illumination wall control panel is difficult, and the specific technical scheme content is as follows:

in a first aspect, an embodiment of the present application provides a method for configuring an intelligent lighting wall control panel, where the method includes:

acquiring a functional scene based on big data;

and setting a corresponding number of function keys on the intelligent lighting wall control panel according to the number of the function scenes, and associating the function scenes with the function keys in a one-to-one correspondence manner.

Through the technical scheme, based on big data calculation obtain the function scene that the user is commonly used and is used to, correspond and set up the function key on the intelligent illumination wall control panel, under the prerequisite that satisfies most users' demand, when the installation of intelligent illumination wall control panel, need not to carry out the on-the-spot configuration to intelligent illumination wall control panel, realize that the software installation is exempted from to intelligent illumination wall control panel promptly, the complexity that intelligent illumination wall control panel according to has been simplified, after the damage of intelligent illumination wall control panel, the user can change by oneself, need not professional technical staff, the popularization and application of the intelligent lighting system of being convenient for.

Preferably, the function scene includes address information of corresponding preset lamp loops, and the preset lamp loops correspond to the address information one to one;

a dial switch is arranged on the intelligent lighting wall control panel;

the method further comprises the following steps:

receiving an address modification trigger signal;

and acquiring the current lamp loop address code information of the dial switch according to the address modification trigger signal, modifying the address information of a preset lamp loop in the current function scene according to the address code information, and switching the lamp loop controlled by the current function scene.

By adopting the technical scheme, the address information of the lamp is modified to modify the current intelligent lighting wall control panel control lamp loop, the diversity of the lamp loop controlled by the intelligent lighting wall control panel is increased, different requirements of users are met, the application range of the intelligent lighting system is further improved, and the purpose of accurate control is realized.

Preferably, the number of the functional scenes is not more than 6.

Through adopting above-mentioned technical scheme, the required function scene quantity of user is at most 6 based on big data statistics, and the quantity that sets up the function scene is no longer than 6, under the prerequisite that satisfies most users' demand, simplifies the complexity of programming, and also simplifies the complexity of intelligent lighting wall accuse panel design.

Preferably, the number of the functional scenarios is set to 4 or 6.

The number of the keys is set to be 4 or 6, daily requirements of users can be met on the basis of big data operation on the basis of requirements of functional scenes, and the number of the keys on the intelligent lighting wall control panel is set to be 4 or 6, namely, the keys are even numbers, so that the intelligent lighting wall control panel is convenient for users to remember, and the intelligent lighting wall control panel also accords with the good impression of people on symmetrical objects or double objects in the traditional mode, improves the comfort level of users in the using process, and is convenient for processing the intelligent lighting wall control panel.

Preferably, a fine adjustment knob is arranged on the intelligent lighting wall control panel, the fine adjustment knob comprises a brightness adjustment mode and a color temperature adjustment mode, and the initial default mode of the fine adjustment knob is the brightness adjustment mode; and when no signal is generated by the fine adjustment knob at the interval preset time, setting the current mode of the fine adjustment knob as a brightness adjustment mode.

Through the setting, when the user adjusts the fine adjustment knob at the preset time interval, the current adjustment state is the brightness adjustment mode, and the adjustment by the user is convenient.

Preferably, the method further comprises:

acquiring fine adjustment knob adjustment information;

acquiring current address information;

and adjusting the light state of the lamp corresponding to the current address information according to the fine adjustment knob adjustment information.

By adopting the technical scheme, the fine adjustment knob is not directly associated with the corresponding lamp, so that the light state of the lamp loop corresponding to the current address information is directly adjusted when the adjustment information of the fine adjustment knob is received, the adjustment is convenient, the programming design is simplified, and the system performance is improved.

Preferably, the functional scene comprises a bright mode, a comfortable mode and a night mode, the brightness range of the lamp in the bright mode is 60% -100%, and the color temperature range of the lamp is 4500-6500K; the lamp brightness range of the comfortable mode is 10% -60%, and the color temperature range of the lamp is 3500K-4500K; the brightness range of the lamp in the night mode is 1% -10%, and the color temperature range of the lamp is 2500K-3500K.

By adopting the technical scheme, the range values corresponding to the lamp brightness and the lamp color temperature in the functional scene are set, namely the adjustable range of the functional scene is set, so that the light state corresponding to the functional scene is adjustable, but the adjustable range is in the adjustable range of the functional scene, and the phenomenon that a user directly uses the mode to adjust the light to other states except the light state required by the functional scene because the user forgets to switch the mode, so that the functional scene corresponding to different function keys is confused when the user uses the lamp next time, or the functional scene required by the corresponding function key cannot be obtained by other people when the user uses the lamp is reduced; secondly, in this application intelligent lighting system implements, can set up the light state that the function scene shows for any one state of its within range that sets up, and then the user of being convenient for selects the light state combination of oneself liking according to the light state that sets up, the self-defined setting of being convenient for.

In a second aspect, an embodiment of the present application provides an intelligent lighting wall control panel, which is used in cooperation with any one of the foregoing intelligent lighting wall control panel configuration methods, and includes: the multifunctional keyboard comprises a panel main body, wherein at least one function key is arranged on the panel main body;

the function keys are respectively associated with related function scenes, the function scenes are associated with the address information of the corresponding lamp loop, and the corresponding lamps are controlled by the function keys to display the function scenes currently associated with the function keys.

Through adopting above-mentioned technical scheme, the panel main part sets up the function key, and function key correlation function scene, user touch function key can set up light for required state, when the installation of intelligence illumination wall control panel, need not professional and debug, set up, and intelligence illumination wall control panel can reach user's demand.

Preferably, be equipped with the fine setting knob on the main part panel, fine setting knob and function key-type connection, the light state of the lamps and lanterns that the function key that uses at present is adjusted to the fine setting knob.

Through adopting above-mentioned technical scheme, set up the fine setting knob, the user of being convenient for is according to the fine setting light state of liking of oneself.

Preferably, the panel main body is further provided with a dial switch, the dial switch is connected with the function key, and the dial switch adjusts address information of the lamp corresponding to the function scene associated with the function key.

By adopting the technical scheme, the dial switch is arranged, so that a user can adjust the lamp loop controlled by the current intelligent lighting wall control panel and adapt to the control conditions of multiple groups of lamps.

In a third aspect, embodiments of the present application provide a computer device, including a memory, a processor, and a computer program stored in the memory and running on the processor, where the processor, when executing the computer program, implements the steps of the intelligent lighting wall control panel configuration method according to any one of the preceding claims.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium having stored thereon a computer program, which when executed by a processor, implements the steps of the intelligent lighting wall control panel configuration method as set forth in any one of the preceding claims.

In summary, compared with the prior art, the beneficial effects brought by the technical scheme provided by the embodiment of the present application at least include:

1. the method comprises the steps that a frequently-used and habitual function scene of a user is obtained based on big data calculation, and function keys on an intelligent lighting wall control panel are correspondingly arranged, so that on the premise that the requirements of most users are met, the intelligent lighting wall control panel is installed without field configuration, namely, the software-free installation of the intelligent lighting wall control panel is realized, the complexity of the intelligent lighting wall control panel is simplified, the intelligent lighting wall control panel can be replaced by the user after being damaged, professional technicians are not needed, and the popularization and application of an intelligent lighting system are facilitated;

2. the address information of the lamp is modified to modify the current intelligent lighting wall control panel control lamp loop, so that the diversity of the control loop of the intelligent lighting wall control panel is increased, different requirements of users are met, the application range of the intelligent lighting system is further improved, and the aim of accurate control is fulfilled;

3. setting corresponding range values of lamp brightness and lamp color temperature in a functional scene, namely setting an adjustable range of the functional scene to enable a light state corresponding to the functional scene to be adjustable, wherein the adjustable range is within the adjusting range of the functional scene, so that the phenomenon that a user directly adjusts the light to be in other states except the light state required by the functional scene because the user forgets to switch the mode is reduced, and the functional scene corresponding to different function keys is confused when the user uses the functional scene next time or the functional scene required by the corresponding function key cannot be obtained by other people when the user uses the functional scene; secondly, in this application intelligent lighting system implements, can set up the light state that the function scene shows for any one state of its within range that sets up, and then the user of being convenient for selects the light state combination of oneself liking according to the light state that sets up, the self-defined setting of being convenient for.

Drawings

Fig. 1 is a schematic flow chart of a configuration method of an intelligent lighting wall control panel according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of a configuration method of an intelligent lighting wall control panel according to another embodiment of the present application.

Fig. 3 is a second schematic structural diagram of a configuration method of an intelligent lighting wall control panel according to another embodiment of the present application.

Fig. 4 is a schematic structural diagram of an intelligent lighting wall control panel according to an embodiment of the present disclosure.

Fig. 5 is a schematic structural diagram of an intelligent lighting wall control panel according to another embodiment of the present application.

Fig. 6 is a second schematic structural diagram of an intelligent lighting wall control panel according to another embodiment of the present application.

Description of reference numerals:

1. a panel main body; 2. a function key; 3. finely adjusting a knob; 4. a dial switch.

Detailed Description

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In addition, the term "and/or" in the present application is only one kind of association relationship describing the associated object, and means that three kinds of relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, in the present application, the character "/" indicates that the preceding and following related objects are in an "or" relationship, unless otherwise specified.

The intelligent household lighting is a distributed wireless remote measurement, remote control and remote communication control system which is composed of technologies such as a computer, a wireless communication data transmission technology, a spread spectrum power carrier communication technology, computer intelligent information processing, energy-saving electric appliance control and the like, so that intelligent control over household lighting equipment and even household living equipment is realized. The intelligent lighting control system has the functions of adjusting the intensity of the light brightness, soft starting of the light, timing control, setting of scenes and the like, and has the characteristics of safety, energy conservation, comfort and high efficiency.

An existing intelligent lamp Lighting system based on a Digital Addressable Lighting Interface (DALI) protocol is commonly adopted for Lighting of an intelligent lamp, the DALI is used as a bus, a broadcasting, grouping or independent address addressing mode is adopted to control the lamp, the control mode of the lamp comprises light scene calling, dimming and color temperature control, a scene can be configured in advance before construction, and light configuration parameters can be modified in the use process after installation. In addition, the DALI protocol has a data bidirectional transmission function, and can determine the working state of the lighting equipment through the query instruction, so that the effects of personalized and efficient management of the lighting equipment, energy conservation and emission reduction are achieved.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

Referring to fig. 1, in one embodiment of the present application, there is provided a method of configuring an intelligent lighting wall control panel, the method comprising:

s1: acquiring a functional scene based on big data;

s2: and setting a corresponding number of function keys on the intelligent lighting wall control panel according to the number of the function scenes, and associating the function scenes with the function keys in a one-to-one correspondence manner.

Specifically, in this embodiment, the manner of obtaining information based on big data may be: 1. under the condition that the permission of the user is obtained, user data of the intelligent household of the user about the lamp is collected in a networking mode; 2. initiating an offline and/or online user questionnaire; 3. different intelligent test scenes are built in the intelligent home sales places, and people experience test data generated by the lighting states of different lamps in the intelligent test scenes. In this embodiment, taking the method 1 as an example, the user data 4 of the user smart home about the lamp is acquired through a network, the user smart lighting system is configured through historical staff, and the user configuration information collected by the user agreement is obtained.

In this embodiment, the data acquired based on the big data is in a suite of a user, and the user has a core common requirement in the aspect of applying intelligent lighting control, that is, the user has a requirement on a lighting scene, and the user has a requirement on a light state in the lighting scene, where the light state refers to the color temperature and brightness of the lamp.

The method for acquiring the information of the functional scene based on the big data can be as follows: 1. collecting the demands of users on the scene, generating a functional scene type, acquiring light state information in the functional scene type, counting the brightness range and the color temperature range of the lamp in the functional scene, calculating the sample density of each brightness value in the brightness range of the lamp, and acquiring the maximum and second maximum values of the sample density as the end point values of the final set lamp calculation brightness range, wherein the color temperature range of the lamp is calculated in the same way; counting the average value of the data in the range within the obtained lamp calculation brightness range, and taking the average value as the lamp brightness of the functional scene; and counting the average value of the data in the range in the obtained lamp calculation color temperature range, and taking the average value as the lamp color temperature of the functional scene. 2. Collecting the demands of users on the scene, generating a functional scene type, acquiring the light state information in the functional scene type, and counting the average value of the lamp brightness values in the functional scene as the lamp brightness of the scene and the average value of the lamp color temperatures as the lamp color temperatures of the scene.

A function scene type forms a corresponding function scene, and the function scene comprises lamp brightness and lamp color temperature in the function scene.

In the use process of the existing intelligent lighting system, professional technicians are required to configure the light state of the functional scene according to the actual use requirements of users by using special system configuration software. If the conventional intelligent lighting system capable of adjusting the light state is adopted, the adjustment levels of the brightness and the color temperature of the lamp are generally fine and smooth, namely, the adjustment levels are more, in order to adapt to different user requirements as much as possible.

Under the comparatively fine and smooth condition of adjustable progression, all there is the regulation progression of a plurality of levels at lamps and lanterns luminance, lamps and lanterns colour temperature, when the user adjusts the light state of lamps and lanterns according to its actual demand, generally need be with the one-level adjustment of light luminance one-level, with the one-level adjustment of colour temperature also one-level, the time that the adjustment needs is longer, user operation is inconvenient, and the light state of the formation that the user adjusted at every turn hardly adjusts into with the light state the same last time, lead to user experience relatively poor.

The function scene of the core is calculated according to the big data, on one hand, a user can conveniently and directly adjust the light state corresponding to the required function scene, and on the other hand, the function scene is obtained based on the big data calculation, so that the universality is better, and the requirements of most users are met.

The intelligent lighting system comprises an intelligent lighting wall control panel, wherein the quantity of functional scenes generated on the intelligent lighting wall control panel according to big data calculation is provided with corresponding quantity of functional keys, and a user can control to start the functional keys to trigger the corresponding functional scenes.

Through associative function key and function scene, it needs professional software configuration to have solved current intelligent illumination wall control panel, and the configuration still needs the condition of on-the-spot investigation user demand, very big simplification intelligent lighting system's the popularization degree of difficulty, makes the intelligent illumination wall control panel of the intelligent lighting system of this application need not professional configuration, even this application intelligent illumination wall control panel takes place to damage, the user buys new intelligent illumination wall control panel again and can change by oneself.

Optionally, in another embodiment, the function scenario includes address information of corresponding preset lamp loops, and the preset lamp loops correspond to the address information one to one.

Referring to fig. 2, the method further includes:

s3: receiving an address modification trigger signal;

s4: and acquiring the current lamp loop address code information of the dial switch according to the address modification trigger signal, modifying the address information of a preset lamp loop in the current function scene according to the address code information, and switching the lamp loop controlled by the current function scene.

The lamps commonly used in the household life are various, such as a ceiling lamp, a wall lamp, an atmosphere lamp and the like, and different lamp types are favored for different functional scenes based on different preferences of users; the intelligent lighting wall control panel generally controls lamps in a room area. For the foregoing reasons, in order to increase the diversification and humanization of the lamp control, in the solution of the embodiment, a dial switch is disposed on the intelligent lighting wall control panel, and the dial switch switches the lamp loop controlled by the current intelligent lighting wall control panel, which can also be understood as switching the lamp loop controlled by the current functional scene, for example, the address code of the current dial switch is 00010, the lamp loop controlled by the intelligent lighting wall control panel is address information 00010, the functional key turned on at this time is functional scene 1, and the light state of the lamp loop of 00010 is adjusted to be the light state corresponding to the functional scene 1 at this time. If the opened function key is switched at this time, and the opened function key is the function scene 2, the light state of the lamp loop of 00010 is adjusted to be the light state corresponding to the function scene 2 at this time.

The address modification trigger signal is generated by the dialing switch being toggled, a user toggles the dialing switch to modify the address code of the dialing switch into 00100, the lamp loop with the address information of 00100 is controlled by the intelligent lighting wall control panel, the function key which is turned on at the moment is the function scene 1, and the light state of the lamp loop with the address information of 00100 is adjusted to be the light state corresponding to the function scene 1. If the opened function key is switched at this time, so that the opened function key is the function scene 2, adjusting the light state of the lamp loop of 00100 to be the light state corresponding to the function scene 2 at this time.

The scheme of the embodiment sets that the loop controlled by the intelligent lighting wall control panel is adjustable, adapts to different requirements of users, adjusts the loops of different indoor lamps, can adjust the strategy of coordinative display of different lamps, and extends the application range of the intelligent lighting wall control panel.

Optionally, in another embodiment, the number of the functional scenes is not more than 6, and the number of the functional scenes is not more than 6, that is, the number of the functional scenes is less than or equal to 6.

In this embodiment, the number of the functional scenes is not more than 6, and is based on user survey and industrial usage effect, and based on big data statistics, the functional scenes of the user about the light in daily life include: 1. bright mode: lighting scenes requiring "high brightness, cold color temperature" in a house: the scene is mainly used for reading, cleaning, sanitation and the like in the situation that bright lighting is needed. 2. A comfort mode: lighting scenes with medium brightness and neutral color temperature in houses; the scene is mainly used for the condition that the daily activities such as dining, meeting and talking need comfortable illumination, and under the illumination scene, due to the fact that the brightness is relatively low, balance of illumination and power consumption can be considered at the same time, and the purpose of considering illumination and energy conservation is achieved. 3. Night mode: lighting scenes requiring "very low brightness, warm color temperature" in a house: the scene is mainly used for viewing images, getting up at night and the like under the condition of needing extremely low-brightness illumination. 4. Indoor dark mode: the house needs to be powered off for lighting: this operation is mainly used to turn off the light fixtures that are turned on in the current functional scenario. 5. Lighting mode at home: and the house-entering lamp is turned on at the house-entering position. 6. An away-from-home mode: all lamps in the whole house are in the off mode.

It should be noted that the functional scene illustrated in this embodiment is not used to limit that other functional scenes may be adopted in the present application, but is only used to explain this embodiment, and the setting of the type of the functional scene of the intelligent lighting wall control panel is determined according to the position of the intelligent lighting wall control panel in the house, for example, the functional scene is set at a door, and the relevant mode of lighting of the house lamp is added to the functional scene; and the lighting device is arranged in a living room, and the related mode of lighting of the atmosphere lamp is added to the functional scene.

The user has great requirements on the illumination of the functional scene in the house and the illumination at the entrance, and because the lamp loop address information of the functional scene is different from the address information of the entrance, when the lamp loop address information is set, the addressing logic between different functional keys is established.

Under the situation that lighting in a house and lighting at an entrance are required to be set, setting functional scene address information as n, and setting entrance lamp address information as n +1, namely adding 1 to the lamp address n to obtain a lamp address representing the lamp address of the entrance lamp no matter whether the address information of a lamp loop corresponding to the current functional scene is any number n of n; in other embodiments, n may be added with any positive integer as the fixture address of the hallway lamp. Examples are as follows: after the dial switch is adopted to adjust the address information of the lamp loop controlled by the intelligent lighting wall control panel to be n, when a function key corresponding to a functional scene of lighting in a house is touched to adjust lighting in the house, the lamp loop is addressed through the address n; when the function key corresponding to the functional scene of the lighting of the entrance is touched to adjust the lighting of the entrance, the lamp loop is addressed through the address n + 1.

In another embodiment, if it is required that the intelligent lighting wall control panel simultaneously controls more than one lamp loop, before the intelligent lighting wall control panel leaves the factory, the addressing logic of the function keys is edited, so that the function keys have associated addressing logic therebetween, thereby implementing multi-path lamp loop control.

And the following requirements are required for the design of the intelligent lighting wall control panel based on the physiological characteristics of people and the requirements of industrial design:

1. the existing intelligent lighting systems are installed by a resident who selects additionally after finishing or using the house, so that the wall of the house needs to be damaged, for example, a space for accommodating the intelligent lighting wall control panel is arranged on the wall to hide internal devices of the intelligent lighting wall control panel, so that the internal wiring of the intelligent lighting wall control panel is orderly folded, and the attractiveness of the house is not influenced. For the wall structure, the stress state and deformation characteristics of the wall body are affected by the damage to the wall body, the design size of the general intelligent lighting wall control panel is not too large, and the regulations in the building fields of high standard 7.2, national civil building engineering design technical measure-structure and the like can be referred to specifically.

2. In order to achieve large-scale production, the design templates of the intelligent lighting wall control panel during design and production are not too many, the number of the design templates can be 3 for the intelligent lighting wall control panel of the same set of intelligent lighting system, various decoration styles in the existing home are difficult to meet, in order to enable the intelligent lighting wall control panel to be installed on a wall body of a house to achieve attractiveness and not to generate a large salience with original decoration in the house, and the size of the intelligent lighting wall control panel needs to be reasonably set.

3. The intelligent lighting wall control panel is also used for communicating the passageway with intelligent lighting system, and the comfort level that the user used intelligent lighting wall control panel is very important consideration, when carrying out intelligent lighting wall control panel design, needs to satisfy people to the consideration of control function variety, also needs to operate wall control panel with intelligence according to cooperation such as people's operation visual area, operation requirement, operation custom, space harmony, concept harmony.

The quantity of function scene has decided the quantity of function key, and then has influenced the size of intelligent illumination wall control panel, consequently when designing the function scene of this application intelligent illumination wall control panel, need fully consider aforementioned factor.

Research shows that when people's brains store, 4 pieces of information are generally stored at most once, common examples include bank card numbers and telephone numbers, and the bank card numbers generally comprise four groups of four numbers; telephone numbers are usually 11 digits, and people also often divide telephone numbers into 4 segments when memorizing the telephone numbers. In the language teaching and research, the basic restriction of the human information processing capability limit to the language structure written by luipu and written by schooling phoenix, the limit of "short-time memory" is about 7, that is, the limit of thinking operation is about 7, from the viewpoint of convenient information processing, the same level of categories exceeds about 7, which is not convenient for direct identification, therefore, the number of the function scenes is set to be less than 7, that is, not more than 6 is most favorable for memory, and the number is set to be 4, which is the optimal design.

Therefore, in combination with the user's demand for functional scenarios for big data computing and the above-mentioned demands on human physiology and industrial production, in the present embodiment, the number of functional scenarios is set to 4 or 6.

In relation to the theory, the application performs mass experiments, and the experiments that a plurality of function keys are arranged on the intelligent lighting wall control panel, each function key represents different function scenes and is divided into different fields according to the number of the function keys are performed. When the experiment is carried out, the personnel participating in the experiment are familiar with the function scenes corresponding to the function keys on the intelligent lighting wall control panel within 1 minute, the experimenter randomly designates one function scene, the personnel participating in the experiment can click the function keys corresponding to the function scene within the set time, and the error probability of the personnel participating in the experiment under the function scenes with different quantities is recorded.

In many experiments, the conclusion reachs, when function key sets up to 4 on the intelligent lighting wall control panel, can satisfy user's most demand, and also the most convenient to user memory, and based on the user demand of above-mentioned big data statistics, can set up the function scene into 4: 1. bright mode: lighting scenes requiring "high brightness, cold color temperature" in a house: the scene is mainly used for reading, cleaning, sanitation and the like in the situation that bright lighting is needed. 2. A comfort mode: lighting scenes with medium brightness and neutral color temperature in houses; the scene is mainly used for the condition that the daily activities such as dining, meeting and talking need comfortable illumination, and under the illumination scene, due to the fact that the brightness is relatively low, balance of illumination and power consumption can be considered at the same time, and the purpose of considering illumination and energy conservation is achieved. 3. Lighting mode at home: and the house-entering lamp is turned on at the house-entering position. 4. An away-from-home mode: all lamps in the whole house are in the off mode. When the number of the function keys is 4, the function keys can control the on-off of the corresponding function scenes.

In the embodiment, when 6 functional scenes are set, the intelligent lighting wall control panel can meet the core requirements of users based on big data statistics, and the universality is excellent; when the number of the function scenes is set to 4, the function scenes accord with the actual physiological characteristics of the user, the experience feeling of the user is better, and as an optional implementation mode, the number of the function scenes is set to be even, namely, the number of the function keys on the intelligent lighting wall control panel is set to be 4 or 6, so that the intelligent lighting wall control panel is convenient to produce and process.

Optionally, the functional scenes comprise a bright mode, a comfortable mode, a night mode and an indoor dark mode, the brightness range of the lamp in the bright mode is 60% -100%, and the color temperature range of the lamp is 4500-6500K; the lamp brightness range of the comfortable mode is 10% -60%, and the color temperature range of the lamp is 3500K-4500K; the brightness range of the lamp in the night mode is 1% -10%, and the color temperature range of the lamp is 2500K-3500K.

The lamp brightness range and the lamp color temperature range in the four functional scenes are obtained through calculation based on the information obtained by big data, the four functional scenes are suitable for most users, the functional scenes are set to be the corresponding parameters, and the applicability of the intelligent lighting wall control panel is improved.

Optionally, in actual implementation, habitual lamp brightness and color temperature ranges of current users in scenes corresponding to different lamp loops are automatically and continuously collected, and the lamp brightness range and the lamp color temperature range corresponding to the current lamp loop are automatically corrected, that is, in actual use, specific values of the current lamp brightness and the current color temperature are randomly generated in the lamp brightness and the color temperature range corresponding to the current functional scene, the current use satisfaction of the users is collected, and the lamp brightness and the color temperature range in the functional scene are gradually reduced according to the use satisfaction of the users; the user satisfaction can be that user terminal passes through bluetooth, WIFI, wireless or wired mode such as data line connection connects intelligent lighting system, after the user starts intelligent lighting system, intelligent lighting system sets up current lamps and lanterns luminance, colour temperature in the scope of lamps and lanterns luminance, colour temperature that current function scene corresponds automatically, then intelligent lighting system sends the use satisfaction questionnaire to user terminal, intelligent lighting system collects information adjustment lamps and lanterns luminance, colour temperature that the adjustment is started next time according to the use satisfaction of user, realize automatic study user's custom, and the effect of the light state of self-adaptation adjustment lamps and lanterns.

Optionally, a fine adjustment knob is arranged on the intelligent lighting wall control panel, and the step length for adjusting the fine adjustment knob is set according to the acquired sensitivity information of the eyes of the user to light variation.

The sensitivity information of the user eyes to light change is that the user eyes can generate uncomfortable feeling when the user fills in the gray scale jump of the lamp at the level and the color temperature changes little when the user carries out on-line research.

The fine adjustment knob is a push knob switch, the knob switch adjusts the light state of the lamp in two adjusting modes, one is a brightness adjusting mode, the other is a color temperature adjusting mode, and the adjusting mode of the knob switch is adjusted by acquiring a trigger signal triggered by pushing the knob switch.

In the embodiment, the adjustment step length of the brightness adjustment mode fine adjustment knob is set to be clockwise rotated by 15 degrees, and the lamp gray scale is increased by 1 level; and (5) adjusting the color temperature mode, wherein the adjustment step length of the fine adjustment knob is clockwise rotation of 15 degrees, and the color temperature of the lamp is increased by 200 k.

The fine adjustment knob comprises a brightness adjustment mode and a color temperature adjustment mode, and the initial default mode of the fine adjustment knob is the brightness adjustment mode; and when no signal is generated by the fine adjustment knob at the interval preset time, setting the current mode of the fine adjustment knob as a brightness adjustment mode.

In the present embodiment, the preset time is 30 seconds, but may be adjusted to any time such as 10 seconds or 20 seconds according to actual use requirements.

In actual use, the adjustment of the lighting state of the lamp by a user is usually the adjustment of the lighting brightness, and the mode of the fine adjustment knob pair is defaulted to be the brightness adjustment mode, so that the common requirements of the user are met; when the adjustment is not performed continuously after the fine adjustment knob is used for the preset time, the adjustment mode of the fine adjustment knob is set back to the default brightness adjustment mode, so that the daily use of a user is facilitated.

Referring to fig. 3, optionally, the method further includes:

s5: acquiring fine adjustment knob adjustment information;

s6: acquiring current address information;

s7: and adjusting the light state of the lamp corresponding to the current address information according to the fine adjustment knob adjustment information.

In the embodiment, the dial switch is arranged on the panel, and the lamp loop controlled by the panel can be exchanged by adjusting the dial switch. When the user operates the fine adjustment knob, fine adjustment knob adjustment information is generated.

The application range of the fine adjustment knob switch is improved by binding the fine adjustment knob adjustment information with the lamp address code, and more lamps can be adjusted by the fine adjustment knob when the fine adjustment knob is actually used.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

In the prior art, an intelligent lighting wall control panel is installed on a wall body in a house, a control module is preset in the intelligent lighting wall control panel, and control information is stored in the control module, so that the intelligent lighting wall control panel can adjust a lamp through the control module.

Referring to fig. 4, in an embodiment of the present application, an intelligent lighting wall control panel is provided, which includes a panel main body 1 and function keys 2 disposed on the panel main body 1, wherein a control module, such as a single chip microcomputer, is preset in the panel main body 1. The function key 2 is in signal connection with the control module, and function scene related parameters are pre-stored in the control module, and in this embodiment, the related parameters of the function scene are lamp addresses associated with the function scene, color temperature information of related lamps, and brightness information of related lamps, for example, the address of the lamp a is 001, the brightness is 50%, the color temperature is 2000k, and the like. The user can conveniently select different function scenes by touching the function keys 2 on the panel body 1.

In this embodiment, at least 1 function key 2 is provided, in this embodiment, 4 function keys are provided, and in other embodiments, 2 function keys, 3 function keys, 6 function keys, etc. may be provided according to production requirements.

In this embodiment, one function key 2 corresponds to one function scene, and by touching the function key 2, the function key 2 transmits a trigger signal generated by the touch to the control module so as to control the lamp corresponding to the function scene to display a corresponding light state, where the light state of this embodiment represents the brightness and color temperature of the lamp.

Referring to fig. 4 and 5, in the present embodiment, the number of function keys 2 is set not more than 6, that is, the number of function keys 2 is less than or equal to 6, and in the present embodiment, 4.

A fine adjustment knob 3 is arranged on the panel main body 1, the fine adjustment knob 3 is connected with the function key 2 through a control module, the fine adjustment knob 3 is a push knob switch, after the panel main body 1 is started, the light brightness of the lamp is adjusted by defaulting the fine adjustment knob 3 at the moment, and the light brightness of the lamp loop associated with the function scene corresponding to the function key 2 at present can be adjusted by rotating the fine adjustment knob 3; when a user presses the fine adjustment knob 3, the light color temperature of the lamp is adjusted by switching to the fine adjustment knob 3, and the light brightness of the lamp loop associated with the current corresponding function scene of the function key 2 can be adjusted by rotating the fine adjustment knob 3.

Optionally, in this embodiment, the function keys 2 on the panel main body 1 are set to be even and symmetrical with respect to the center point of the surface of the panel main body 1 on which the function keys 2 are disposed, and the function keys 2 are set to be even and symmetrical, when the position of the panel main body 1 on which the function keys 2 are disposed is subjected to stamping processing during production and processing, because the function keys 2 on the panel main body 1 are symmetrically disposed, the pressure applied to the panel main body is relatively balanced during stamping processing, and the panel main body 1 is not easily damaged due to unbalanced stress; if the panel body 1 is formed by thermoforming, the panel body 1 arranged symmetrically can be released better than that arranged asymmetrically, so that the defective rate is low.

In the present embodiment, the fine adjustment knob 3 is disposed at a midpoint of a surface of the panel body 1 where the function keys 2 are disposed, specifically, a central axis of the fine adjustment knob 3 is perpendicular to the surface of the panel body 1 where the function keys 2 are disposed and passes through the midpoint.

Referring to fig. 4 and 6, optionally, a dial switch 4 is further disposed on the panel main body 1, the dial switch 4 is connected to the function key 2 through a control module, and a lamp loop controlled by the function key 2, that is, a lamp address corresponding to a function scene associated with the function key 2, can be adjusted by adjusting the dial switch 4.

In one embodiment of the embodiments of the present application, a computer device is provided, which may be a server. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device may be implemented by any type of volatile or non-volatile storage devices, including but not limited to: magnetic disk, optical disk, EEPROM (Electrically-Erasable Programmable Read Only Memory), EPROM (Erasable Programmable Read Only Memory), SRAM (Static Random Access Memory), ROM (Read-Only Memory), magnetic Memory, flash Memory, PROM (Programmable Read-Only Memory). The memory of the computer device provides an environment for the running of an operating system and computer programs stored within it. The network interface of the computer device is used for communicating with an external terminal through a network connection. Which when executed by a processor implements the data processing method steps described in the above embodiments.

In an embodiment of the present application, a computer-readable storage medium is provided, which stores a computer program that, when executed by a processor, implements the data processing method steps described in the above embodiments. The computer-readable storage medium includes a ROM (Read-only memory), a RAM (Random-access memory), a CD-ROM (compact disc-Read-only memory), a magnetic disk, a floppy disk, and the like.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of each functional unit or module is illustrated, and in practical applications, the above-mentioned function may be distributed as different functional units or modules as required, that is, the internal structure of the apparatus described in this application may be divided into different functional units or modules to implement all or part of the above-mentioned functions.

Claims (11)

1. A method for configuring an intelligent lighting wall control panel, the method comprising:

acquiring a functional scene based on big data;

setting a corresponding number of function keys on the intelligent lighting wall control panel according to the number of the function scenes, and associating the function scenes with the function keys in a one-to-one correspondence manner;

the function scene comprises address information of corresponding preset lamp loops, and the preset lamp loops correspond to the address information one by one;

a dial switch is arranged on the intelligent lighting wall control panel;

the method further comprises the following steps:

receiving an address modification trigger signal;

and acquiring the current lamp loop address code information of the dial switch according to the address modification trigger signal, modifying the address information of a preset lamp loop in the current function scene according to the address code information, and switching the lamp loop controlled by the current function scene.

2. The configuration method of the intelligent lighting wall control panel according to claim 1, wherein the number of the functional scenes is not more than 6.

3. The configuration method of the intelligent lighting wall control panel according to claim 2, wherein the number of the functional scenes is set to be 4 or 6.

4. The configuration method of the intelligent lighting wall control panel according to claim 1, wherein a fine adjustment knob is arranged on the intelligent lighting wall control panel, the fine adjustment knob comprises a brightness adjustment mode and a color temperature adjustment mode, and an initial default mode of the fine adjustment knob is the brightness adjustment mode; and when no signal is generated by the fine adjustment knob at the interval preset time, setting the current mode of the fine adjustment knob as a brightness adjustment mode.

5. The intelligent lighting wall control panel configuration method of claim 1, further comprising:

acquiring fine adjustment knob adjustment information;

acquiring current address information;

and adjusting the light state of the lamp corresponding to the current address information according to the fine adjustment knob adjustment information.

6. The intelligent lighting wall control panel configuration method of claim 1, further comprising: the functional scenes comprise a bright mode, a comfortable mode and a night mode, the brightness range of the lamps in the bright mode is 60% -100%, and the color temperature range of the lamps is 4500K-6500K; the lamp brightness range of the comfortable mode is 10% -60%, and the color temperature range of the lamp is 3500K-4500K; the brightness range of the lamp in the night mode is 1% -10%, and the color temperature range of the lamp is 2500K-3500K.

7. An intelligent lighting wall control panel, which is used in combination with the configuration method of the intelligent lighting wall control panel according to any one of claims 1 to 6, and comprises a panel main body, wherein at least one function key is arranged on the panel main body;

the function keys are respectively associated with related function scenes, the function scenes are associated with the address information of the corresponding lamp loop, and the corresponding lamps are controlled by the function keys to display the function scenes currently associated with the function keys.

8. The intelligent lighting wall control panel of claim 7, wherein the main body panel is provided with a fine adjustment knob, the fine adjustment knob is connected with the function key, and the fine adjustment knob adjusts a light state of the lamp corresponding to the currently used function key.

9. The intelligent lighting wall control panel according to any one of claims 7 or 8, wherein the panel body is further provided with a dial switch, the dial switch is connected with a function key, and the dial switch adjusts address information of a lamp corresponding to a function scene associated with the function key.

10. A computer arrangement comprising a memory, a processor and a computer program stored in the memory and running on the processor, the processor when executing the computer program implementing the steps of the intelligent lighting wall control panel configuration method according to any one of claims 1-6.

11. A computer-readable storage medium, characterized in that it stores a computer program which, when being executed by a processor, carries out the steps of the intelligent lighting wall control panel configuration method according to any one of claims 1 to 6.

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