CN113286404A - Intelligent linkage control system for desk lamp and illuminating lamp - Google Patents

Abstract

The invention provides an intelligent linkage control system for a desk lamp and an illuminating lamp, which comprises: the method comprises the following steps: the system comprises a relation establishing module, an induction sensing module, an analysis processing module, an adjustment control module and a wireless transmission module; the relation establishing module is used for establishing connection between the desk lamp and the illuminating lamp; the sensing module is used for acquiring the current brightness information of the desk lamp and the illuminating lamp; the analysis processing module is used for analyzing and processing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp to obtain an analysis processing result; the adjusting control module is used for generating an adjusting control instruction according to the analysis processing result and completing adjusting control of the desk lamp and the illuminating lamp according to the adjusting control instruction; and the wireless transmission module is used for transmitting data information. The desk lamp and the illuminating lamp are connected through the relation creation module, the desk lamp and the illuminating lamp are adjusted through the analysis processing module and the adjustment control module, and therefore the desk lamp and the illuminating lamp are convenient and energy-saving and do not need manual regulation and control.

Description

Intelligent linkage control system for desk lamp and illuminating lamp

Technical Field

The invention relates to the technical field of lighting lamps, in particular to an intelligent linkage control system for a desk lamp and a lighting lamp.

Background

The desk lamp is an electric lamp with a base and is placed on a desk, small and exquisite, and convenient to carry. The lighting lamp is a lamp fixedly installed for lighting, is usually fixed in position and is not easy to move and carry. The desk lamp and the illuminating lamp are both used as illuminating lamps in the market at present and generally exist independently, only the desk lamp can realize illumination through control and adjustment, only the illuminating lamp can realize illumination through control and adjustment, the two have no relevance in the prior technical scheme, but when the desk lamp is turned on indoors with the illuminating lamp for work or study, the brightness of the illuminating lamp is required to be adjusted to be lower than that of the desk lamp, so that the attention of people is better focused in the off-illumination range of the desk lamp, the brightness of the desk lamp and the illuminating lamp can be adjusted by manual operation, the system is not only troublesome, but also the brightness gradient between the desk lamp and the illuminating lamp is not easy to control to cause resource waste, therefore, the invention provides an intelligent linkage control system of the desk lamp and the illuminating lamp, the desk lamp and the illuminating lamp are connected through a relation establishing module, and the desk lamp and the adjustment of the desk lamp and the illuminating lamp are realized through an analysis processing module and an adjustment control module, not only is convenient and energy-saving, but also does not need manual regulation and control.

Disclosure of Invention

The invention aims to provide an intelligent linkage control system for a desk lamp and an illuminating lamp, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a desk lamp and light intelligence coordinated control system, includes: the system comprises a relation establishing module, an induction sensing module, an analysis processing module, an adjustment control module and a wireless transmission module;

the relation establishing module is used for establishing connection between the desk lamp and the illuminating lamp;

the sensing module is used for acquiring the current brightness information of the desk lamp and the illuminating lamp;

the analysis processing module is used for analyzing and processing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp to obtain an analysis processing result;

the adjusting control module is used for generating an adjusting control instruction according to the analysis processing result and completing adjusting control of the desk lamp and the illuminating lamp according to the adjusting control instruction;

and the wireless transmission module is used for transmitting data information.

Further, the relationship creation module includes: a connection request unit and a request matching unit;

the connection request unit is used for sending a connection request and comprises a first connection request unit and a second connection request unit, the first connection request unit is used for sending a link establishment request of the desk lamp, and the second connection request unit is used for sending a link establishment request of the illuminating lamp;

the request matching unit is used for matching the link establishment request of the desk lamp with the link establishment request of the illuminating lamp and successfully establishing a link between the desk lamp and the illuminating lamp.

Further, the sensing module comprises: the sensing unit and the sensing unit;

the sensing unit is used for sensing the current brightness of the desk lamp and sensing the current brightness of the illuminating lamp;

the sensing unit is used for respectively acquiring the sensing information of the brightness of the person according to the current brightness of the desk lamp and the current brightness of the illuminating lamp sensed by the sensing unit.

Further, when acquiring the brightness perception information of a person, the perception unit obtains the perception information according to the current brightness of the desk lamp or the current brightness of the illuminating lamp in a brightness perception information table, wherein the perception information is a fuzzy perception word, and the fuzzy perception word comprises: dazzling, moderate and dim; the sensing unit obtains the current brightness of the desk lamp or senses the current brightness of the illuminating lamp by acquiring and processing basic parameter information of the desk lamp or the illuminating lamp, wherein the current brightness of the desk lamp or the current brightness of the illuminating lamp is determined according to the following formula after the basic parameter information of the desk lamp or the illuminating lamp is acquired;

H＝(R×ω×k)÷(m×n)

h represents the current brightness of the desk lamp or senses the current brightness of the illuminating lamp, R represents the current light source luminous flux of the desk lamp or the current light source luminous flux of the illuminating lamp, ω represents the light utilization coefficient of the desk lamp or the light utilization coefficient of the illuminating lamp, k represents the maintenance coefficient of the desk lamp or the maintenance coefficient of the illuminating lamp, m represents the length of an illumination space, and n represents the width of the illumination space.

Further, the analysis processing module includes: the system comprises an information analysis unit and a regulation and control strategy unit;

the information analysis unit is used for analyzing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp, comprehensively considering the current brightness information of the desk lamp and the brightness information of the illuminating lamp to obtain mixed light information, and analyzing the mixed light information to determine adjustment information;

and the regulation and control strategy unit is used for obtaining a regulation and control scheme by combining the current brightness information of the desk lamp and the current brightness information of the illuminating lamp according to the regulation and control information.

Further, analyzing the mixed light information to determine adjustment information includes:

analyzing the mixed light information; determining a brightness superposition loss rate between the desk lamp and the illuminating lamp according to the current brightness information of the desk lamp and the current brightness information of the illuminating lamp in the mixed light information;

comparing the target light information with the mixed light information, determining the difference between the mixed light and the target light, and obtaining light overall adjustment information according to the difference between the mixed light and the target light;

obtaining target brightness of the desk lamp and target brightness of the illuminating lamp by adopting a target optimization model according to the integral light adjustment information in combination with the brightness superposition loss rate and basic parameter information of the desk lamp and the illuminating lamp; wherein the objective optimization model comprises:

an objective function:

MIN＝U₁*I₁*T+(I₂)²*R₂*T

wherein MIN represents the minimum value, U₁Indicating the access voltage of the desk lamp, I₁Indicating the current flowing current, I, of the desk lamp₂Indicating the current flowing current, R, of the lamp₂The internal resistance of the illuminating lamp is represented, and T represents the turn-on time of the desk lamp or the illuminating lamp;

constraint conditions are as follows:

wherein, P₁Indicating the rated power, P, of the desk lamp₂Represents the rated power of the illuminating lamp, h₁Represents the current brightness, h, of the desk lamp₂Representing the current brightness of the illuminating lamp, l representing the brightness superposition loss rate between the desk lamp and the illuminating lamp, y representing the brightness of target lamp light, and mu representing an allowable error value;

determining a regulation and control scheme; and obtaining the regulation and control information of the desk lamp according to the target brightness of the desk lamp and the current brightness information of the desk lamp, and obtaining the regulation and control information of the illuminating lamp according to the target brightness of the illuminating lamp and the current brightness information of the illuminating lamp.

Further, the regulation control module comprises: an instruction generating unit and an instruction executing unit;

the instruction generating unit is used for generating an adjusting control instruction of the desk lamp and an adjusting control instruction of the illuminating lamp according to the adjusting and controlling scheme;

the instruction execution unit is used for completing the adjustment control of the desk lamp and the illuminating lamp according to the adjustment control instruction, and comprises: the first small instruction execution unit is used for executing the adjusting control instruction of the desk lamp to realize the adjusting control of the desk lamp, and the second small instruction execution unit is used for executing the adjusting control instruction of the illuminating lamp to realize the regulation and control of the illuminating lamp.

Further, the regulation control module also comprises an instruction transmission unit;

the instruction transmission unit is used for acquiring the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp generated in the instruction generation unit and sending the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp to the instruction execution unit.

Further, when sending the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp to the instruction execution unit, the instruction transmission unit includes:

compressing the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp respectively to obtain the size of the compressed adjustment control instruction of the desk lamp and the size of the compressed adjustment control instruction of the illuminating lamp;

respectively calculating an adjusting control instruction of the table lamp and an adjusting control instruction of the illuminating lamp to send energy consumption; estimating first transmission energy consumption according to the size of the compressed adjusting control instruction of the desk lamp; estimating second transmission energy consumption according to the size of the compressed adjusting control instruction of the illuminating lamp;

and sending the compressed adjusting control instruction of the desk lamp to the first instruction execution small unit according to the estimated first transmission energy consumption, and sending the compressed adjusting control instruction of the illuminating lamp to the second instruction execution small unit according to the estimated second transmission energy consumption.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of an intelligent linkage control system for a desk lamp and an illuminating lamp according to the present invention;

FIG. 2 is a schematic diagram of a relationship creation module in the intelligent desk lamp and illuminating lamp linkage control system according to the present invention;

FIG. 3 is a schematic diagram of an induction sensing module in an intelligent desk lamp and illuminating lamp linkage control system according to the present invention;

FIG. 4 is a schematic diagram of an analysis processing module in the intelligent desk lamp and illuminating lamp linkage control system according to the present invention;

FIG. 5 is a schematic diagram of an adjusting control module in the intelligent desk lamp and illuminating lamp linkage control system according to the present invention;

fig. 6 is another schematic diagram of an adjustment control module in the intelligent linkage control system for a desk lamp and an illumination lamp according to the invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1, an embodiment of the present invention provides an intelligent linkage control system for a desk lamp and an illumination lamp, including: the system comprises a relation establishing module, an induction sensing module, an analysis processing module, an adjustment control module and a wireless transmission module;

the relation establishing module is used for establishing connection between the desk lamp and the illuminating lamp;

the sensing module is used for acquiring the current brightness information of the desk lamp and the illuminating lamp;

the analysis processing module is used for analyzing and processing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp to obtain an analysis processing result;

the adjusting control module is used for generating an adjusting control instruction according to the analysis processing result and completing adjusting control of the desk lamp and the illuminating lamp according to the adjusting control instruction;

and the wireless transmission module is used for transmitting data information.

Above-mentioned technical scheme provides a desk lamp and light intelligence coordinated control system, including relation creation module, response perception module, analysis and processing module, regulation control module and wireless transmission module in desk lamp and light intelligence coordinated control system, when carrying out intelligent coordinated control to desk lamp and light, carry out according to following step in proper order: the desk lamp and the illuminating lamp are wirelessly connected by means of the relationship creation module; the method comprises the steps that current brightness information of a desk lamp and current brightness information of an illuminating lamp are obtained through induction perception by an induction perception module respectively, and the current brightness information not only comprises the brightness value of the desk lamp or the illuminating lamp, but also comprises perception information of people on the current brightness; the wireless transmission module transmits the current brightness information of the desk lamp and the current brightness information of the illuminating lamp to the analysis processing module; analyzing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp through the analysis processing module, analyzing the brightness of the desk lamp, which is most beneficial to work or study of people, and analyzing the brightness of the illuminating lamp, which has the smallest influence on people, so as to obtain an analysis processing result; the wireless transmission module transmits the analysis processing result to the adjustment control module; and generating an adjusting control instruction according to the analysis and processing result through the adjusting control module, and executing the adjusting control instruction, thereby realizing the adjusting control of the desk lamp and the illuminating lamp.

According to the technical scheme, the relation between the desk lamp and the illuminating lamp is generated through the relation creation module, so that an adjusting object is definitely controlled, and the connected desk lamp and the connected illuminating lamp can be accurately adjusted and controlled; the current brightness information of the desk lamp and the illuminating lamp can be efficiently and quickly obtained through the sensing module; the intelligent linkage control system of the desk lamp and the illuminating lamp can transmit information wirelessly through the wireless transmission module, so that the trouble of wired transmission is avoided, and the information transmission is convenient; make through analysis processes module and regulation and control module and to realize intelligent regulation and control to desk lamp and illumination, need not the people and manually carry out regulation and control, it is very convenient and convenient, and combine perception information at analysis processes, make the luminance of desk lamp after the regulation and control and the light more let the people feel comfortable, promote people's use and feel, in addition, can make intelligently form suitable luminance gradient between desk lamp and the light and can also effectively avoid the wasting of resources in desk lamp and the light use process simultaneously, save electric energy consumption.

As shown in fig. 2, in an embodiment provided in the present invention, the relationship creating module includes: a connection request unit and a request matching unit;

the connection request unit is used for sending a connection request and comprises a first connection request unit and a second connection request unit, the first connection request unit is used for sending a link establishment request of the desk lamp, and the second connection request unit is used for sending a link establishment request of the illuminating lamp;

the request matching unit is used for matching the link establishment request of the desk lamp with the link establishment request of the illuminating lamp and successfully establishing a link between the desk lamp and the illuminating lamp.

According to the technical scheme, the relation creation module is divided into a connection request unit and a request matching unit, the connection request unit is divided into a first connection request unit and a second connection request unit, when the relation creation module establishes connection between the desk lamp and the illuminating lamp, a link establishment request of the desk lamp and a link establishment request of the illuminating lamp are sent through the first connection request unit and the second connection request unit respectively, then the request matching unit carries out bidirectional matching on the link establishment request of the desk lamp and the link establishment request of the illuminating lamp, a matching result is obtained, link connection is established according to the matching result, if and only after the link establishment request of the desk lamp and the link establishment request of the illuminating lamp are successfully matched, a link connection between the desk lamp and the illuminating lamp is successfully established, and otherwise, the link connection cannot be established between the desk lamp and the illuminating lamp.

According to the technical scheme, the connection request unit sends the link establishment request of the desk lamp and the second connection request unit sends the link establishment request of the illuminating lamp, so that bidirectional matching can be achieved in the request matching unit, the determining efficiency of the matching result is improved, and the relationship creation module can quickly establish connection between the desk lamp and the illuminating lamp.

As shown in fig. 3, in an embodiment provided by the present invention, the sensing module includes: the sensing unit and the sensing unit;

the sensing unit is used for sensing the current brightness of the desk lamp and sensing the current brightness of the illuminating lamp;

the sensing unit is used for respectively acquiring the sensing information of the brightness of the person according to the current brightness of the desk lamp and the current brightness of the illuminating lamp sensed by the sensing unit.

Above-mentioned technical scheme divides into induction element and perception unit in the response perception module, current luminance information includes the luminance value of desk lamp or light and the perception information of people to the current luminance of desk lamp or light, when obtaining the current luminance information of desk lamp and light through the response perception module, obtain the current luminance of desk lamp and the current luminance value of light respectively by induction element, then the rethread perception unit carries out the perception to the current luminance of desk lamp, thereby obtain the perception information to the current luminance of desk lamp, carry out the perception to the current luminance of light through the perception unit, thereby obtain the perception information to the current luminance of light, and then obtain the current luminance information who obtains desk lamp and light.

Above-mentioned technical scheme can take into account the perception information of people to the current luminance value of desk lamp and light through the perception unit for can give comfortable sensation to desk lamp and light, and then make the people can work or study high-efficiently under this bright atmosphere, make the influence that produces to people's eyesight minimum moreover, but also can save electric energy consumption.

In an embodiment provided by the present invention, when obtaining the brightness perception information of a person, the perception unit obtains the perception information according to the current brightness of the desk lamp or the current brightness of the lighting lamp in a brightness perception information table, where the perception information is a fuzzy perception word, and the fuzzy perception word includes: dazzling, moderate and dim; the sensing unit obtains the current brightness of the desk lamp or senses the current brightness of the illuminating lamp by acquiring and processing basic parameter information of the desk lamp or the illuminating lamp, wherein the current brightness of the desk lamp or the current brightness of the illuminating lamp is determined according to the following formula after the basic parameter information of the desk lamp or the illuminating lamp is acquired;

H＝(R×ω×k)÷(m×n)

h represents the current brightness of the desk lamp or senses the current brightness of the illuminating lamp, R represents the current light source luminous flux of the desk lamp or the current light source luminous flux of the illuminating lamp, ω represents the light utilization coefficient of the desk lamp or the light utilization coefficient of the illuminating lamp, k represents the maintenance coefficient of the desk lamp or the maintenance coefficient of the illuminating lamp, m represents the length of an illumination space, and n represents the width of the illumination space.

When the sensing unit in the technical scheme acquires the brightness sensing information of a person, the sensing information corresponding to the current brightness of the desk lamp and the current brightness of the illuminating lamp is acquired in the brightness sensing information table according to the current brightness, the sensing information is a dazzling, moderate and dim fuzzy sensing word in a fuzzy sensing set, the brightness sensing information table is obtained by researching and observing changes of eyeballs and pupils caused by brightness changes, when the diameters of the eyeballs and the pupils stretch and contract within an allowable fluctuation range, the sensing information is moderate, when the diameters of the eyeballs and the pupils stretch and contract within the allowable fluctuation range, the sensing information is dim, and when the diameters of the eyeballs and the pupils stretch and contract within the allowable fluctuation range, the sensing information is dazzling.

Above-mentioned technical scheme makes through the perception unit and has clear and definite perception impression to the current luminance of desk lamp and the current luminance of light, can clearly understand the people to bright impression to promote the people and use the satisfaction of desk lamp and light study or during operation simultaneously, make the people can high-efficient study or work under the suitable bright circumstances, and then promote people's experience and feel.

As shown in fig. 4, in an embodiment provided by the present invention, the analysis processing module includes: the system comprises an information analysis unit and a regulation and control strategy unit;

the information analysis unit is used for analyzing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp, comprehensively considering the current brightness information of the desk lamp and the brightness information of the illuminating lamp to obtain mixed light information, and analyzing the mixed light information to determine adjustment information;

and the regulation and control strategy unit is used for obtaining a regulation and control scheme by combining the current brightness information of the desk lamp and the current brightness information of the illuminating lamp according to the regulation and control information.

When the analysis processing module analyzes and processes the current brightness information of the desk lamp and the current brightness information of the illuminating lamp, the information analysis unit comprehensively analyzes the brightness change of the current brightness information of the desk lamp and the current brightness information of the illuminating lamp when the desk lamp and the illuminating lamp illuminate simultaneously by analyzing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp obtained by the induction sensing unit, so as to obtain mixed light information, and then the mixed light information is compared with the optimal light information during working or learning to obtain the adjustment information of the mixed light, namely to determine whether the mixed light should enhance the brightness or reduce the brightness, wherein the optimal light information during working or learning takes the light as a variable and the perception of human eyes as a dependent variable, the single control variable is obtained by research; then, the adjusting information is combined with the current brightness information of the desk lamp and the current brightness information of the illuminating lamp through the adjusting strategy unit to determine the adjusting range of the brightness of the desk lamp and the adjusting range of the brightness of the illuminating lamp, and therefore the adjusting scheme of the desk lamp and the illuminating lamp is obtained.

Above-mentioned technical scheme confirms the change of the mixed light after both are bright superposes when desk lamp and light are thrown light on simultaneously through the information analysis unit in-process to the adjustment information, make mixed light information accord with actual conditions more, and then make the adjustment information confirmed through analysis mixed light information more accurate, and, the best light information that refers to when analyzing mixed light information obtains through single control research, have the foundation nature, thereby make desk lamp and light after adjusting according to the adjustment information can improve people's eye comfort level.

In an embodiment of the present invention, analyzing the mixed lighting information to determine the adjustment information includes:

analyzing the mixed light information; determining a brightness superposition loss rate between the desk lamp and the illuminating lamp according to the current brightness information of the desk lamp and the current brightness information of the illuminating lamp in the mixed light information;

comparing the target light information with the mixed light information, determining the difference between the mixed light and the target light, and obtaining light overall adjustment information according to the difference between the mixed light and the target light;

obtaining target brightness of the desk lamp and target brightness of the illuminating lamp by adopting a target optimization model according to the integral light adjustment information in combination with the brightness superposition loss rate and basic parameter information of the desk lamp and the illuminating lamp; wherein the objective optimization model comprises:

an objective function:

MIN＝U₁*I₁*T+(I₂)²*R₂*T

wherein MIN represents the minimum value, U₁Indicating the access voltage of the desk lamp, I₁Indicating the current flowing current, I, of the desk lamp₂Indicating the current flowing current, R, of the lamp₂Represents the aboveThe internal resistance of the illuminating lamp, T represents the turn-on time of the desk lamp or the illuminating lamp;

constraint conditions are as follows:

wherein, P₁Indicating the rated power, P, of the desk lamp₂Represents the rated power of the illuminating lamp, h₁Represents the current brightness, h, of the desk lamp₂Representing the current brightness of the illuminating lamp, l representing the brightness superposition loss rate between the desk lamp and the illuminating lamp, y representing the brightness of target lamp light, and mu representing an allowable error value;

determining a regulation and control scheme; and obtaining the regulation and control information of the desk lamp according to the target brightness of the desk lamp and the current brightness information of the desk lamp, and obtaining the regulation and control information of the illuminating lamp according to the target brightness of the illuminating lamp and the current brightness information of the illuminating lamp.

When the mixed light information is analyzed to determine the adjustment information, the mixed light information, the current brightness information of the desk lamp and the current brightness information of the illuminating lamp are analyzed in the mixed light information, so that the difference of brightness effect superposition between the mixed light information and the current brightness information of the desk lamp and the current brightness information of the illuminating lamp is determined, and the brightness superposition loss rate between the desk lamp and the illuminating lamp is determined; then, comparing the target light information, namely the optimal light information during working or learning, with the mixed light information to obtain the difference between the target light and the mixed light, and forming light overall adjustment information according to the difference between the target light and the mixed light; secondly, a target optimization model is adopted, a target function is determined to be the minimum total energy consumption of the desk lamp and the illuminating lamp, the constraint conditions are that the power of the desk lamp is larger than zero and smaller than the rated power, the power of the illuminating lamp is larger than zero and smaller than the rated power, and the brightness of the desk lamp and the brightness of the illuminating lamp are mixed in a target brightness error range, so that the target brightness of the desk lamp and the target brightness of the illuminating lamp are obtained through the target optimization model; and finally, obtaining the regulation and control information of the desk lamp according to the target brightness of the desk lamp and the current brightness information of the desk lamp, and obtaining the regulation and control information of the illuminating lamp according to the target brightness of the illuminating lamp and the current brightness information of the illuminating lamp, thereby obtaining the regulation and control information.

According to the technical scheme, in the process of determining the regulation and control information, the error between the process of determining the regulation and control information and the actual condition is reduced by considering the brightness superposition loss rate between the desk lamp and the illuminating lamp, so that the regulation and control information is more accurate, and a target optimization model is adopted when the target brightness of the desk lamp and the target brightness of the illuminating lamp are obtained, so that the target brightness of the desk lamp and the target brightness of the illuminating lamp are optimized under the condition that the mixed light meets the target light, not only can the adjusted mixed light meet the optimal light during working or learning, but also the overall energy consumption is less, and the resources are effectively saved.

As shown in fig. 5, in an embodiment provided by the present invention, the adjustment control module includes: an instruction generating unit and an instruction executing unit;

the instruction generating unit is used for generating an adjusting control instruction of the desk lamp and an adjusting control instruction of the illuminating lamp according to the adjusting and controlling scheme;

the instruction execution unit is used for completing the adjustment control of the desk lamp and the illuminating lamp according to the adjustment control instruction, and comprises: the first small instruction execution unit is used for executing the adjusting control instruction of the desk lamp to realize the adjusting control of the desk lamp, and the second small instruction execution unit is used for executing the adjusting control instruction of the illuminating lamp to realize the regulation and control of the illuminating lamp.

The adjusting control module in the above technical solution comprises an instruction generating unit and an instruction executing unit, the instruction executing unit is divided into a first instruction executing small unit and a second instruction executing small unit, when the adjusting control module generates the adjusting control instruction and executes the adjusting control instruction, the instruction generating unit respectively generates an instruction for adjusting and controlling the desk lamp and an instruction for adjusting and controlling the lighting lamp according to the adjusting and controlling scheme, then, through the instruction execution unit, the first instruction execution small unit executes the adjustment control instruction of the desk lamp, the second instruction execution small unit executes the adjustment control instruction of the illuminating lamp, and the first small instruction execution unit and the second small instruction execution unit can execute the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp simultaneously and respectively, so that the linkage control of the desk lamp and the illuminating lamp is realized.

Above-mentioned technical scheme realizes the execution to regulation control command through first instruction execution subelement and second instruction execution subelement to avoid single regulation and control to desk lamp or light to produce not good influence to other indoor personnel, first instruction execution subelement and second instruction execution subelement are carried out regulation control command simultaneously moreover, can effectively improve the efficiency of executable instruction, thereby make and to realize the coordinated control to desk lamp and light fast.

As shown in fig. 6, in an embodiment provided by the present invention, the adjustment control module further includes an instruction transmission unit;

the instruction transmission unit is used for acquiring the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp generated in the instruction generation unit and sending the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp to the instruction execution unit.

The adjusting control module in the above technical solution further includes an instruction transmission unit in addition to the instruction generation unit and the instruction execution unit, and after the instruction generation unit generates the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp according to the adjusting scheme, the instruction transmission unit obtains the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp, and transmits the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp to the instruction execution unit to execute the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp.

According to the technical scheme, the adjusting control instruction is only transmitted inside the adjusting control module through the instruction transmission unit, so that the transmission efficiency is high, the transmission complexity can be avoided, and the error probability of the adjusting control instruction transmission is reduced.

In an embodiment of the present invention, when the instruction transmission unit sends the adjustment control instruction of the desk lamp and the adjustment control instruction of the lighting lamp to the instruction execution unit, the instruction transmission unit includes:

compressing the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp respectively to obtain the size of the compressed adjustment control instruction of the desk lamp and the size of the compressed adjustment control instruction of the illuminating lamp;

respectively calculating an adjusting control instruction of the table lamp and an adjusting control instruction of the illuminating lamp to send energy consumption; estimating first transmission energy consumption according to the size of the compressed adjusting control instruction of the desk lamp; estimating second transmission energy consumption according to the size of the compressed adjusting control instruction of the illuminating lamp;

and sending the compressed adjusting control instruction of the desk lamp to the first instruction execution small unit according to the estimated first transmission energy consumption, and sending the compressed adjusting control instruction of the illuminating lamp to the second instruction execution small unit according to the estimated second transmission energy consumption.

According to the technical scheme, when the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp are sent to the instruction execution unit through the instruction transmission unit, the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp are sent to be respectively compressed, and the size of the compressed adjusting control instruction of the desk lamp and the size of the compressed adjusting control instruction of the illuminating lamp are obtained; and then estimating first transmission energy consumption and second transmission energy consumption according to the transmission energy consumption rule according to the size of the adjustment control instruction of the compressed table lamp and the size of the adjustment control instruction of the compressed illuminating lamp, finally sending the adjustment control instruction of the compressed table lamp to the first instruction execution small unit according to the estimated first transmission energy consumption, and sending the adjustment control instruction of the compressed illuminating lamp to the second instruction execution small unit according to the estimated second transmission energy consumption.

According to the technical scheme, the adjustment control instruction is only transmitted inside the adjustment control module through the instruction transmission unit, the transmitted information is prevented from getting lost in the transmission process, and the transmission energy consumption is estimated during transmission, so that the adjustment control instruction transmitted can be ensured to arrive successfully, the phenomenon of loss in the transmission process is avoided, and the success rate of the instruction transmission unit is effectively improved.

It will be understood by those skilled in the art that the first and second embodiments of the present invention are merely directed to different stages of application.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. The utility model provides a desk lamp and light intelligence coordinated control system which characterized in that includes: the system comprises a relation establishing module, an induction sensing module, an analysis processing module, an adjustment control module and a wireless transmission module;

the relation establishing module is used for establishing connection between the desk lamp and the illuminating lamp;

the sensing module is used for acquiring the current brightness information of the desk lamp and the illuminating lamp;

the analysis processing module is used for analyzing and processing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp to obtain an analysis processing result;

the adjusting control module is used for generating an adjusting control instruction according to the analysis processing result and completing adjusting control of the desk lamp and the illuminating lamp according to the adjusting control instruction;

and the wireless transmission module is used for transmitting data information.

2. The intelligent desk lamp and illuminating lamp linkage control system according to claim 1, wherein the relationship creation module comprises: a connection request unit and a request matching unit;

the connection request unit is used for sending a connection request and comprises a first connection request unit and a second connection request unit, the first connection request unit is used for sending a link establishment request of the desk lamp, and the second connection request unit is used for sending a link establishment request of the illuminating lamp;

the request matching unit is used for matching the link establishment request of the desk lamp with the link establishment request of the illuminating lamp and successfully establishing a link between the desk lamp and the illuminating lamp.

3. The intelligent desk lamp and illuminating lamp linkage control system according to claim 1, wherein the induction sensing module comprises: the sensing unit and the sensing unit;

the sensing unit is used for sensing the current brightness of the desk lamp and sensing the current brightness of the illuminating lamp;

the sensing unit is used for respectively acquiring the sensing information of the brightness of the person according to the current brightness of the desk lamp and the current brightness of the illuminating lamp sensed by the sensing unit.

4. The intelligent desk lamp and illuminating lamp linkage control system according to claim 3, wherein the perception unit obtains perception information according to the current brightness of the desk lamp or the current brightness of the illuminating lamp in a brightness perception information table when obtaining the perception information of brightness of a person, the perception information is a fuzzy perception word, and the fuzzy perception word comprises: dazzling, moderate and dim; the sensing unit obtains the current brightness of the desk lamp or senses the current brightness of the illuminating lamp by acquiring and processing basic parameter information of the desk lamp or the illuminating lamp, wherein the current brightness of the desk lamp or the current brightness of the illuminating lamp is determined according to the following formula after the basic parameter information of the desk lamp or the illuminating lamp is acquired;

H＝(R×ω×k)÷(m×n)

wherein H represents the current luminance of the desk lamp or the current luminance of the illumination lamp, R represents the current source luminous flux of the desk lamp or the current source luminous flux of the illumination lamp, ω represents a light utilization coefficient of the desk lamp or the light utilization coefficient of the illumination lamp, k represents a maintenance coefficient of the desk lamp or the maintenance coefficient of the illumination lamp, m represents a length of an illumination space, and n represents a width of the illumination space.

5. The intelligent desk lamp and illuminating lamp linkage control system according to claim 1, wherein the analysis processing module comprises: the system comprises an information analysis unit and a regulation and control strategy unit;

the information analysis unit is used for analyzing the current brightness information of the desk lamp and the current brightness information of the illuminating lamp, comprehensively considering the current brightness information of the desk lamp and the brightness information of the illuminating lamp to obtain mixed light information, and analyzing the mixed light information to determine adjustment information;

and the regulation and control strategy unit is used for obtaining a regulation and control scheme by combining the current brightness information of the desk lamp and the current brightness information of the illuminating lamp according to the regulation and control information.

6. The intelligent desk lamp and illuminating lamp linkage control system according to claim 5, wherein analyzing the mixed light information to determine adjustment information comprises:

analyzing the mixed light information; determining a brightness superposition loss rate between the desk lamp and the illuminating lamp according to the current brightness information of the desk lamp and the current brightness information of the illuminating lamp in the mixed light information;

comparing the target light information with the mixed light information, determining the difference between the mixed light and the target light, and obtaining light overall adjustment information according to the difference between the mixed light and the target light;

obtaining target brightness of the desk lamp and target brightness of the illuminating lamp by adopting a target optimization model according to the integral light adjustment information in combination with the brightness superposition loss rate and basic parameter information of the desk lamp and the illuminating lamp; wherein the objective optimization model comprises:

an objective function:

MIN＝U₁*I₁*T+(I₂)²*R₂*T

wherein MIN represents the minimum value, U₁Indicating the access voltage of the desk lamp, I₁Indicating the current flowing current, I, of the desk lamp₂Indicating the current flowing current, R, of the lamp₂The internal resistance of the illuminating lamp is represented, and T represents the turn-on time of the desk lamp or the illuminating lamp;

constraint conditions are as follows:

wherein, P₁Indicating the rated power, P, of the desk lamp₂Represents the rated power of the illuminating lamp, h₁Represents the current brightness, h, of the desk lamp₂Representing the current brightness of the illuminating lamp, l representing the brightness superposition loss rate between the desk lamp and the illuminating lamp, y representing the brightness of target lamp light, and mu representing an allowable error value;

determining a regulation and control scheme; and obtaining the regulation and control information of the desk lamp according to the target brightness of the desk lamp and the current brightness information of the desk lamp, and obtaining the regulation and control information of the illuminating lamp according to the target brightness of the illuminating lamp and the current brightness information of the illuminating lamp.

7. The intelligent desk lamp and illuminating lamp linkage control system according to claim 5, wherein the adjusting control module comprises: an instruction generating unit and an instruction executing unit;

the instruction generating unit is used for generating an adjusting control instruction of the desk lamp and an adjusting control instruction of the illuminating lamp according to the adjusting and controlling scheme;

the instruction execution unit is used for completing the adjustment control of the desk lamp and the illuminating lamp according to the adjustment control instruction, and comprises: the first small instruction execution unit is used for executing the adjusting control instruction of the desk lamp to realize the adjusting control of the desk lamp, and the second small instruction execution unit is used for executing the adjusting control instruction of the illuminating lamp to realize the regulation and control of the illuminating lamp.

8. The intelligent linkage control system for the desk lamp and the illuminating lamp as claimed in claim 7, wherein the adjusting control module further comprises a command transmission unit;

the instruction transmission unit is used for acquiring the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp generated in the instruction generation unit and sending the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp to the instruction execution unit.

9. The intelligent linkage control system for the desk lamp and the illuminating lamp as claimed in claim 8, wherein the instruction transmission unit comprises, when sending the adjusting control instruction of the desk lamp and the adjusting control instruction of the illuminating lamp to the instruction execution unit:

compressing the adjustment control instruction of the desk lamp and the adjustment control instruction of the illuminating lamp respectively to obtain the size of the compressed adjustment control instruction of the desk lamp and the size of the compressed adjustment control instruction of the illuminating lamp;

respectively calculating an adjusting control instruction of the table lamp and an adjusting control instruction of the illuminating lamp to send energy consumption; estimating first transmission energy consumption according to the size of the compressed adjusting control instruction of the desk lamp; estimating second transmission energy consumption according to the size of the compressed adjusting control instruction of the illuminating lamp;

and sending the compressed adjusting control instruction of the desk lamp to the first instruction execution small unit according to the estimated first transmission energy consumption, and sending the compressed adjusting control instruction of the illuminating lamp to the second instruction execution small unit according to the estimated second transmission energy consumption.

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