CN111050452A - Color temperature consistency matching method - Google Patents

Abstract

The application discloses a color temperature consistency collocation method, which comprises the following steps: receiving a collocation instruction; respectively acquiring light source color temperature parameters in a light source color temperature parameter group, acquiring focusing lens color temperature parameters in a focusing lens color temperature parameter group, acquiring magnifier color temperature parameters in the magnifier color temperature parameter group and acquiring objective lens color temperature parameters in an objective lens parameter group to form a matching group; calculating the actual color temperature value in the matching group; judging whether the actual color temperature value meets a preset standard color temperature value or not; if yes, outputting a collocation result; if not, judging whether the actual color temperature value is greater than the upper limit value of the standard color temperature value or less than the lower limit value of the standard color temperature value; and replacing the light source color temperature parameter or the focusing mirror color temperature parameter respectively according to the judgment condition, recalculating the actual color temperature value, and judging whether the preset standard color temperature value is met. By using the matching method, systematic data support is provided, matching efficiency is improved, and finally displayed color temperature deviation after matching is ensured to be qualified and stable.

Description

Color temperature consistency matching method

Technical Field

The application relates to the technical field of display, in particular to a color temperature consistency collocation method.

Background

The display module in the stage lamp mainly comprises a light source, a focusing lens, a magnifying lens and an objective lens, wherein light emitted by the light source is projected onto the curtain wall through the focusing lens, the magnifying lens and the objective lens in sequence. Because the light source, the focusing lens, the magnifying lens and the objective lens have certain color temperature deviation, once the matching among the light source, the focusing lens, the magnifying lens and the objective lens is unreasonable, the color temperature deviation displayed finally is easy to be large, the display effect is influenced, and the impression experience of people is reduced. Every light source on the market has a specific color temperature value, and can be known when being purchased. However, the focusing lens, the magnifying lens and the objective lens usually need to detect the color temperature data twice by themselves to pursue better matching combination. However, in the prior art, there is no systematic and efficient matching method for color temperature consistency. The collocation among the light source, the focusing lens, the magnifier and the objective lens is random, and the qualified and stable color temperature deviation of final display cannot be ensured.

Disclosure of Invention

In view of this, an object of the present application is to provide a color temperature consistency matching method, which can be applied to color temperature consistency matching among a light source, a focusing lens, a magnifying lens, and an objective lens, provide systematic data support, improve matching efficiency, and ensure that a color temperature deviation finally displayed after matching is qualified and stable.

In order to achieve the technical purpose, the application provides a color temperature consistency matching method, which comprises the following steps:

step 100, receiving a collocation instruction;

200, respectively acquiring a light source color temperature parameter in a light source color temperature parameter set, a focusing lens color temperature parameter in a focusing lens color temperature parameter set, a magnifying lens color temperature parameter in a magnifying lens color temperature parameter set and an objective lens color temperature parameter in an objective lens parameter set according to a color temperature deviation relation among a light source, the focusing lens, the magnifying lens and the objective lens to form a matching set;

step 300, calculating an actual color temperature value in the matching group;

step 400, judging whether the actual color temperature value meets a preset standard color temperature value;

step 500, if yes, outputting a collocation result;

step 600, if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value;

step 700, when the actual color temperature value is judged to be greater than the upper limit value of the standard color temperature value, obtaining a replacement light source color temperature parameter smaller than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group, and returning to execute the step 200;

step 800, when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value, obtaining a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matched set, and returning to execute the step 200.

Further, the step 200 specifically includes:

and respectively acquiring the maximum light source color temperature parameter in the light source color temperature parameter group, the minimum focusing lens color temperature parameter in the focusing lens color temperature parameter group, the minimum magnifying lens color temperature parameter in the magnifying lens color temperature parameter group and the minimum objective lens color temperature parameter in the objective lens parameter group to form a matching group.

Further, between the step 100 and the step 200, further comprising:

and 101, sequencing the light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set respectively.

Further, between the step 500 and the step 600, further comprising:

step 501, after the collocation result is output, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective lens color temperature parameter in the collocation result from the corresponding light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set and objective lens color temperature parameter set, and returning to step 200.

Further, the steps 700 and 800 include:

step 701, when all the replacement light source color temperature parameters for replacement in the light source color temperature parameter set are replaced and the calculated actual color temperature value of the formed matching set still does not meet the standard color temperature value, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifying lens color temperature parameter and the objective lens color temperature parameter in the initial matching set from the corresponding light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set, and returning to step 200.

Further, the step 800 is followed by:

step 801, when the replacement focusing lens color temperature parameters for replacement in the focusing lens color temperature parameter set are completely replaced and the actual color temperature value calculated by the formed matching set still does not meet the standard color temperature value, removing the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter from the corresponding focusing lens color temperature parameter set, the magnifier color temperature parameter set and the objective color temperature parameter set, and returning to step 200.

Further, the step 300 specifically includes:

and calculating the sum of the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter in the matching group to obtain an actual color temperature value.

The application also discloses a colour temperature uniformity collocation device includes:

the receiving unit is used for receiving the collocation instruction;

the acquiring unit is used for respectively acquiring light source color temperature parameters in a light source color temperature parameter group, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifier color temperature parameters in the magnifying lens color temperature parameter group and acquiring objective lens color temperature parameters in the objective lens parameter group according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching group;

the first processing unit is used for calculating the actual color temperature value in the matching group;

the first judgment unit is used for judging whether the actual color temperature value meets a preset standard color temperature value or not;

the output unit is used for outputting the collocation result;

the second judgment unit is used for judging whether the color temperature value is larger than the upper limit value or the lower limit value of the standard color temperature value;

the second processing unit is used for acquiring a replacement light source color temperature parameter which is smaller than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group when the actual color temperature value is judged to be larger than the upper limit value of the standard color temperature value;

and the third processing unit is used for acquiring a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matching group when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value.

The application also discloses a color temperature consistency collocation device, which comprises a processor and a storage;

the processor is used for storing program codes and transmitting the program codes to the processor;

the processor is configured to execute a color temperature consistency collocation method according to any one of claims 1 to 7 according to instructions in the program code.

The present application also discloses a computer-readable storage medium for storing program code for performing a color temperature uniformity collocation method of any one of claims 1-7.

According to the technical scheme, the color temperature consistency collocation method is provided, and after the collocation instruction is received; respectively acquiring light source color temperature parameters in a light source color temperature parameter set, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifying lens color temperature parameters in a magnifying lens color temperature parameter set and acquiring objective lens color temperature parameters in an objective lens parameter set according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching set; calculating the actual color temperature value in the matching group; judging whether the actual color temperature value meets a preset standard color temperature value or not; if yes, outputting a collocation result; if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value; and replacing the light source color temperature parameter or the focusing mirror color temperature parameter respectively according to the judgment condition, recalculating the actual color temperature value, and judging whether the preset standard color temperature value is met. The matching method can be applied to color temperature consistency matching among the light source, the focusing lens, the magnifying lens and the objective lens, provides systematic data support, improves matching efficiency, and ensures that the finally displayed color temperature deviation is qualified and stable after matching.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic flowchart illustrating a color temperature consistency matching method according to a first embodiment of the present disclosure;

fig. 2 is a flowchart illustrating a color temperature consistency matching method according to a second embodiment of the present disclosure.

Detailed Description

The technical solutions of the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "ith," "jth," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should be noted that the terms "mounted," "connected," and "connected" are used broadly and are defined as, for example, a fixed connection, an exchangeable connection, an integrated connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements, unless otherwise explicitly stated or limited. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

The embodiment of the application discloses a color temperature consistency collocation method.

Referring to fig. 1, an embodiment of a color temperature consistency matching method provided in the embodiment of the present application includes the steps of:

step 100, receiving a collocation instruction; it should be noted that the collocation instruction may be sent by a background system, or sent by a worker through a mobile terminal device to control the background system, which is not limited specifically.

200, respectively acquiring a light source color temperature parameter in a light source color temperature parameter set, a focusing lens color temperature parameter in a focusing lens color temperature parameter set, a magnifying lens color temperature parameter in a magnifying lens color temperature parameter set and an objective lens color temperature parameter in an objective lens parameter set according to a color temperature deviation relation among a light source, the focusing lens, the magnifying lens and the objective lens to form a matching set; it should be noted that the color temperature deviation of the light source is larger than the deviation value of the focusing lens, the magnifying lens and the objective lens, so when the matching is performed by using the color temperature deviation relationship among the light source, the focusing lens, the magnifying lens and the objective lens; the matching mode can be that the color temperature parameter of the large light source is matched with the color temperature parameter of the small focusing lens, the color temperature parameter of the small magnifier and the color temperature parameter of the small objective lens respectively. In addition, in this embodiment, the worker records the temperature parameters of the light source group, the focusing lens group, the amplifying lens group, and the objective lens group to be collocated, and inputs the temperature parameters for obtaining. The color temperature parameters of the light source can be provided by a supplier, and the focusing lens, the magnifying lens and the objective lens can obtain the required color temperature parameters through testing. Specific tests may be as follows, for example: firstly, a light source which is exactly equal to the standard color temperature value is selected from the light source group. Secondly, randomly extracting a magnifying lens and a focusing lens from a magnifying lens group and an objective lens from a focusing lens group, matching the light source selected in the first step, outputting white light on a test frame, testing the matched white light color temperature value by an instrument, setting the value to be K, and calling the light source as a standard light source, the focusing lens as the standard focusing lens, the magnifying lens as the standard magnifying lens and the objective lens as the standard objective lens; and fourthly, only replacing the focusing lens with the standard light source, the standard magnifier and the standard objective lens fixed, reading a color temperature value by an instrument when one focusing lens is replaced, comparing the color temperature value with the K value to obtain a color temperature deviation value of the replaced focusing lens, and repeating the fourth step until all the focusing lenses are tested to obtain a result. And fifthly, replacing the objective lens only when the standard light source, the standard magnifier and the standard focusing lens are not moved, reading a color temperature value through an instrument when one objective lens is replaced, comparing the color temperature value with the K value to obtain a color temperature deviation value of the replaced objective lens, and repeating the fifth step until all the objective lenses are tested to obtain a result. And sixthly, replacing the magnifier only when the standard light source, the standard objective lens and the standard focusing lens are not moved, reading a color temperature value through an instrument when one magnifier is replaced, comparing the color temperature value with a K value to obtain a color temperature deviation value of the replaced magnifier, and repeating the sixth step until all the magnifiers are tested to obtain a result. And then the test results are sorted and correspondingly numbered, and are input for obtaining and using. The purpose of numbering is to select a corresponding light source, a focusing lens, an objective lens and a magnifier according to a matching result after the matching result is obtained subsequently.

Step 300, calculating an actual color temperature value in the matching group; it should be noted that, after the color temperature parameters are correspondingly obtained, the actual color temperature value can be calculated.

Step 400, judging whether the actual color temperature value meets a preset standard color temperature value or not; in the present embodiment, since the display effect is considered to be normal when the color temperature deviation is within 300, the standard color temperature value may be-150 k to +150k, and it is determined whether the actual color temperature value is within the range of-150 k to +150 k.

Step 500, if yes, outputting a collocation result; it should be noted that, if the determination result in the step 400 is yes, the collocation result, that is, the result of the light source parameter color temperature parameter, the magnifier color temperature parameter, the focusing lens color temperature parameter, and the objective lens color temperature parameter that can satisfy the color temperature consistency can be output.

Step 600, if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value; it should be noted that, when the determination result in step 400 is negative, it is determined whether the actual color temperature value is greater than the upper limit value of the standard color temperature value or less than the lower limit value of the standard color temperature value.

Step 700, when the actual color temperature value is judged to be greater than the upper limit value of the standard color temperature value, obtaining a replacement light source color temperature parameter which is less than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group, and returning to execute the step 200; it should be noted that, when the upper limit value of the standard color temperature value is determined to be greater than the upper limit value of the standard color temperature value, a smaller light source color temperature parameter may be replaced, and the step 200 is then returned to, and the calculation and the determination are repeated to determine whether the standard color temperature value is satisfied. If not, the replacement is continued, and the replacement sequence can be from large to small, namely, the color temperature parameter of the replacement light source which is smaller than the originally selected color temperature parameter of the light source is gradually replaced. Taking the obtained light source color temperature parameter as 400k, the focusing lens color temperature parameter as-100 k, the magnifier color temperature parameter as 100k and the objective lens color temperature parameter as 100k as an example, at this time

And 800, when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value, acquiring a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matched set, and returning to execute the step 200. It should be noted that, similarly to the above step 700, when it is determined that the color temperature is smaller than the lower limit of the standard color temperature, a larger color temperature parameter of the focusing lens may be replaced, and the step 200 is then returned to, and the calculation is repeated to determine whether the standard color temperature is satisfied. If not, the replacement is continued, and the replacement sequence can be from large to small, namely, the color temperature parameter of the replacement focusing lens which is larger than the originally selected color temperature parameter of the focusing lens is gradually replaced.

According to the technical scheme, the color temperature consistency collocation method is provided, and after the collocation instruction is received; respectively acquiring light source color temperature parameters in a light source color temperature parameter set, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifying lens color temperature parameters in a magnifying lens color temperature parameter set and acquiring objective lens color temperature parameters in an objective lens parameter set according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching set; calculating the actual color temperature value in the matching group; judging whether the actual color temperature value meets a preset standard color temperature value or not; if yes, outputting a collocation result; if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value; and replacing the light source color temperature parameter or the focusing mirror color temperature parameter respectively according to the judgment condition, recalculating the actual color temperature value, and judging whether the preset standard color temperature value is met. The matching method can be applied to color temperature consistency matching among the light source, the focusing lens, the magnifying lens and the objective lens, provides systematic data support, improves matching efficiency, and ensures that the finally displayed color temperature deviation is qualified and stable after matching.

The above is a first embodiment of a color temperature consistency collocation method provided in the embodiments of the present application, and the following is a second embodiment of a color temperature consistency collocation method provided in the embodiments of the present application, specifically please refer to fig. 2.

Step 100, receiving a collocation instruction; it should be noted that the step 100 is the same as the step 100 in the first embodiment, and will not be described in detail.

And 101, sequencing the light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set respectively. It should be noted that, the color temperature parameter sets are sorted first, which is convenient for obtaining parameters in each parameter set in the subsequent step. For example, in the case of processing in a descending order or an ascending order, when the color temperature parameters are acquired, the parameters may be acquired in a direction of the descending order or the ascending order. More specifically, the light source color temperature parameter set can be sorted in a descending order, the magnifier color temperature parameter set and the objective lens color temperature parameter set can be sorted in an ascending order, and list data which are vertically arranged are constructed, so that the method is more convenient when the corresponding color temperature parameters are obtained, and the calculation amount is saved.

Step 200, respectively obtaining the maximum light source color temperature parameter in the light source color temperature parameter group, obtaining the minimum focusing lens color temperature parameter in the focusing lens color temperature parameter group, obtaining the minimum magnifying lens color temperature parameter in the magnifying lens color temperature parameter group and obtaining the minimum objective lens color temperature parameter in the objective lens parameter group to form a matching set. It should be noted that, the collocation and combination can be performed according to the collocation manner between the maximum and the minimum, such collocation is more uniform, the collocation result is more unique, and the corresponding calculation amount can be saved.

Step 300, calculating the sum of the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter in the matched set to obtain an actual color temperature value; it should be noted that, taking the light source color temperature parameter as 500k, the focusing lens color temperature parameter as-100 k, the magnifier color temperature parameter as-50 k, and the objective lens color temperature parameter as 100k as an example, the actual color temperature value is 500k-100k-50k +100k — 450 k.

Step 400, judging whether the actual color temperature value meets a preset standard color temperature value or not; it should be noted that this step is the same as step 400 in the first embodiment, and details are not repeated.

Step 500, if yes, outputting a collocation result; it should be noted that, taking the light source color temperature parameter as 400k, the focusing lens color temperature parameter as-100 k, the magnifier color temperature parameter as-100 k, and the objective lens color temperature parameter as-100 k as examples, the obtained actual color temperature value is 100k, and the actual color temperature value is between-150 k and +150k of the standard color temperature value, so that the output result of the rechecking step 400 may be the result of consistent color temperature collocation: the light source color temperature parameter is 400k, the focusing lens color temperature parameter is-100 k, the magnifier color temperature parameter is-100 k and the objective lens color temperature parameter is-100 k. According to the result, the worker can select the corresponding light source, focusing lens, magnifying lens and objective lens from the light source group, focusing lens group, magnifying lens group and objective lens group with known color temperature parameters to be applied to equipment such as stage lamps.

Step 501, after the collocation result is output, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective lens color temperature parameter in the collocation result from the corresponding light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set and objective lens color temperature parameter set, and returning to step 200. It should be noted that, after obtaining a matching result, the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter, and the objective color temperature parameter included in the matching result may be removed from the corresponding light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set, and objective color temperature parameter set, and then the light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set, and objective color temperature parameter set data are updated. When the second operation is carried out, the acquired maximum light source color temperature parameter, the minimum focusing lens color temperature parameter, the minimum magnifier color temperature parameter and the minimum objective lens color temperature parameter can not repeat the data acquired by the first operation, namely, the subsequent collocation is carried out on the rest data. And finally outputting all collocation results capable of meeting the standard color temperature value.

Step 600, if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value; it should be noted that the step 600 is the same as the step 600 in the first embodiment, and details are not repeated. Taking the standard color temperature value of-150 k- +150k as an example, it is determined whether the actual color temperature value is greater than +150k or less than-150 k.

Step 700, when the actual color temperature value is judged to be greater than the upper limit value of the standard color temperature value, obtaining a replacement light source color temperature parameter which is less than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group, and returning to execute the step 200; it should be noted that this step is the same as step 700 in the first embodiment, and is not limited to this step.

Step 701, when all the replacement light source color temperature parameters for replacement in the light source color temperature parameter set are replaced, and the actual color temperature value calculated by the formed matching set still does not meet the standard color temperature value, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifying lens color temperature parameter and the objective lens color temperature parameter in the initial matching set from the corresponding light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set, and returning to step 200. It should be noted that, if the light source color temperature parameters are replaced completely, and the actual color temperature values calculated by the light source color temperature parameters still cannot satisfy the standard color temperature values, the matching combination is considered to be inappropriate at this time, and at this time, the light source color temperature parameters, the focusing lens color temperature parameters, the magnifier color temperature parameters, and the objective color temperature parameters included in the initial matching combination can be removed from the corresponding light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifier color temperature parameter set, and the objective color temperature parameter set, and then the light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifier color temperature parameter set, and the objective color temperature parameter set are updated. And re-matching a new matching group, and then performing calculation judgment and the like.

Step 800, when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value, acquiring a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matched set, and returning to execute the step 200; it should be noted that this step is the same as step 800 in the first embodiment, and is not limited to this step.

Step 801, when the replacement focusing lens color temperature parameters for replacement in the focusing lens color temperature parameter set are completely replaced and the actual color temperature value calculated by the combined matching set still does not meet the standard color temperature value, removing the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter in the initial matching set from the corresponding focusing lens color temperature parameter set, the magnifier color temperature parameter set and the objective color temperature parameter set, and returning to step 200. It should be noted that, similarly, if the color temperature parameters of the focusing lens are replaced completely, and the calculated actual color temperature value still cannot satisfy the standard color temperature value, the matching combination may be considered to be inappropriate at this time, and at this time, the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter, and the objective color temperature parameter included in the initial matching combination may be removed from the corresponding light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set, and objective color temperature parameter set, and then the light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set, and objective color temperature parameter set data may be updated. And re-matching a new matching group, and then performing calculation judgment and the like.

According to the technical scheme, the color temperature consistency collocation method is provided, and after the collocation instruction is received; respectively acquiring light source color temperature parameters in a light source color temperature parameter set, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifying lens color temperature parameters in a magnifying lens color temperature parameter set and acquiring objective lens color temperature parameters in an objective lens parameter set according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching set; calculating the actual color temperature value in the matching group; judging whether the actual color temperature value meets a preset standard color temperature value or not; if yes, outputting a collocation result; if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value; and replacing the light source color temperature parameter or the focusing mirror color temperature parameter respectively according to the judgment condition, recalculating the actual color temperature value, and judging whether the preset standard color temperature value is met. The matching method can be applied to color temperature consistency matching among the light source, the focusing lens, the magnifying lens and the objective lens, provides systematic data support, improves matching efficiency, and ensures that the finally displayed color temperature deviation is qualified and stable after matching.

An embodiment of a color temperature consistency collocation apparatus provided in an embodiment of the present application includes:

the receiving unit is used for receiving the collocation instruction; the acquiring unit is used for respectively acquiring light source color temperature parameters in a light source color temperature parameter group, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifier color temperature parameters in the magnifying lens color temperature parameter group and acquiring objective lens color temperature parameters in the objective lens parameter group according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching group; the first processing unit is used for calculating the actual color temperature value in the matching group; the first judgment unit is used for judging whether the actual color temperature value meets a preset standard color temperature value or not; the output unit is used for outputting the collocation result; the second judging unit is used for judging whether the color temperature value is greater than the upper limit value or the lower limit value of the standard color temperature value; the second processing unit is used for acquiring a replacement light source color temperature parameter which is smaller than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matched set when the actual color temperature value is judged to be larger than the upper limit value of the standard color temperature value; and the third processing unit is used for acquiring a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matched set when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value.

Specifically, the receiving unit may be a conventional communication module, such as a WiFi communication module, a 3G/4G communication module, or the like, and is configured to be in communication connection with the backend system to receive an execution instruction, such as a collocation instruction. The obtaining unit may be a reading module, and when the storage module is provided, the reading module may be configured to read data in the storage module. Of course, the acquiring unit, the first processing unit, the second processing unit, the third processing unit, the first judging unit and the second judging unit may belong to the same processor, that is, the functions of the first processing unit, the second processing unit, the third processing unit, the first judging unit, the second judging unit and the acquiring unit may be completed by one processor. The output unit can be a conventional display module or a voice broadcast module and is used for outputting a collocation result to inform a worker.

An embodiment of a color temperature consistency collocation apparatus provided in an embodiment of the present application includes:

a processor and a memory; the processor is used for storing the program codes and transmitting the program codes to the processor; the processor is used for executing a color temperature consistency collocation method according to instructions in the program codes.

A computer-readable storage medium for storing program code for performing a color temperature consistency collocation method is provided in an embodiment of the present application.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of a unit is only one logical functional division, and there may be other divisions when the actual implementation is performed, for example, a plurality of units or components may be combined or may be integrated into another grid network to be installed, or some features may be omitted or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method of the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

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

Claims (10)

1. A color temperature consistency collocation method is characterized by comprising the following steps:

step 100, receiving a collocation instruction;

200, respectively acquiring a light source color temperature parameter in a light source color temperature parameter set, a focusing lens color temperature parameter in a focusing lens color temperature parameter set, a magnifying lens color temperature parameter in a magnifying lens color temperature parameter set and an objective lens color temperature parameter in an objective lens parameter set according to a color temperature deviation relation among a light source, the focusing lens, the magnifying lens and the objective lens to form a matching set;

step 300, calculating an actual color temperature value in the matching group;

step 400, judging whether the actual color temperature value meets a preset standard color temperature value;

step 500, if yes, outputting a collocation result;

step 600, if not, judging whether the actual color temperature value is larger than the upper limit value of the standard color temperature value or smaller than the lower limit value of the standard color temperature value;

step 700, when the actual color temperature value is judged to be greater than the upper limit value of the standard color temperature value, obtaining a replacement light source color temperature parameter smaller than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group, and returning to execute the step 200;

step 800, when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value, obtaining a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matched set, and returning to execute the step 200.

2. The color temperature consistency collocation method according to claim 1, wherein the step 200 specifically comprises:

and respectively acquiring the maximum light source color temperature parameter in the light source color temperature parameter group, the minimum focusing lens color temperature parameter in the focusing lens color temperature parameter group, the minimum magnifying lens color temperature parameter in the magnifying lens color temperature parameter group and the minimum objective lens color temperature parameter in the objective lens parameter group to form a matching group.

3. The method of claim 2, further comprising between the step 100 and the step 200:

and 101, sequencing the light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set respectively.

4. The color temperature consistency collocation method according to claim 3, wherein between the step 500 and the step 600, further comprising:

step 501, after the collocation result is output, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective lens color temperature parameter in the collocation result from the corresponding light source color temperature parameter set, focusing lens color temperature parameter set, magnifier color temperature parameter set and objective lens color temperature parameter set, and returning to step 200.

5. The color temperature consistency collocation method according to claim 4, wherein the step 700 and the step 800 comprise:

step 701, when all the replacement light source color temperature parameters for replacement in the light source color temperature parameter set are replaced and the calculated actual color temperature value of the formed matching set still does not meet the standard color temperature value, removing the light source color temperature parameter, the focusing lens color temperature parameter, the magnifying lens color temperature parameter and the objective lens color temperature parameter in the initial matching set from the corresponding light source color temperature parameter set, the focusing lens color temperature parameter set, the magnifying lens color temperature parameter set and the objective lens color temperature parameter set, and returning to step 200.

6. The color temperature consistency matching method according to claim 1, wherein the step 800 is followed by further comprising:

step 801, when the replacement focusing lens color temperature parameters for replacement in the focusing lens color temperature parameter set are completely replaced and the actual color temperature value calculated by the formed matching set still does not meet the standard color temperature value, removing the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter from the corresponding focusing lens color temperature parameter set, the magnifier color temperature parameter set and the objective color temperature parameter set, and returning to step 200.

7. The color temperature consistency collocation method according to claim 1, wherein the step 300 specifically comprises:

and calculating the sum of the light source color temperature parameter, the focusing lens color temperature parameter, the magnifier color temperature parameter and the objective color temperature parameter in the matching group to obtain an actual color temperature value.

8. A color temperature uniformity matching apparatus, comprising:

the receiving unit is used for receiving the collocation instruction;

the acquiring unit is used for respectively acquiring light source color temperature parameters in a light source color temperature parameter group, acquiring focusing lens color temperature parameters in the focusing lens color temperature parameters, acquiring magnifier color temperature parameters in the magnifying lens color temperature parameter group and acquiring objective lens color temperature parameters in the objective lens parameter group according to the color temperature deviation relation among the light source, the focusing lens, the magnifying lens and the objective lens to form a matching group;

the first processing unit is used for calculating the actual color temperature value in the matching group;

the first judgment unit is used for judging whether the actual color temperature value meets a preset standard color temperature value or not;

the output unit is used for outputting the collocation result;

the second judgment unit is used for judging whether the color temperature value is larger than the upper limit value or the lower limit value of the standard color temperature value;

the second processing unit is used for acquiring a replacement light source color temperature parameter which is smaller than the maximum light source color temperature parameter from the color temperature parameter group to replace the maximum light source color temperature parameter in the matching group when the actual color temperature value is judged to be larger than the upper limit value of the standard color temperature value;

and the third processing unit is used for acquiring a replacement focusing mirror color temperature parameter which is larger than the minimum focusing mirror color temperature parameter from the focusing mirror color temperature parameter group to replace the minimum focusing mirror color temperature parameter in the matching group when the actual color temperature value is judged to be smaller than the lower limit value of the standard color temperature value.

9. A color temperature consistency collocation device is characterized by comprising a processor and a storage;

the processor is used for storing program codes and transmitting the program codes to the processor;

the processor is configured to execute a color temperature consistency collocation method according to any one of claims 1 to 7 according to instructions in the program code.

10. A computer-readable storage medium for storing program code for performing a color temperature uniformity collocation method of any one of claims 1-7.

Images