CN110572919A

CN110572919A - Workshop touch lamp control system

Info

Publication number: CN110572919A
Application number: CN201910881369.0A
Authority: CN
Inventors: 李博洋
Original assignee: Beijing Lear Dymos Automotive System Co Ltd
Current assignee: Beijing Lear Transys Automotive System Co Ltd
Priority date: 2019-09-18
Filing date: 2019-09-18
Publication date: 2019-12-13
Anticipated expiration: 2039-09-18
Also published as: CN110572919B

Abstract

The invention provides a workshop touch lamp control system, which comprises: the brightness detection unit is used for detecting the brightness of the corresponding area in the workshop so as to provide brightness information for the control module; the control module controls the preset lighting conditions in the corresponding area to start or close the lighting equipment according to the detection result of the light brightness module; the wireless transmission module transmits data through a wireless transmission network, transmits the light brightness information to the control module and transmits the instruction of the control module to the illumination execution module; the illumination execution module comprises a plurality of groups of lamps, and is turned on or turned off according to a preset instruction under the control of the control module.

Description

Workshop touch lamp control system

Technical Field

The invention relates to the technical field of workshop illumination, in particular to a workshop touch lamp control system.

Background

In the prior art, generally, a large-scale factory needs lighting, and good lighting can bring many positive effects, firstly, the lighting is an important guarantee for safety production, and secondly, the operation precision can be improved, the product quality is improved, and the production is increased; the building area can be fully utilized, and the cleanness of a working place is ensured; the fatigue of optic nerves of workers can be relieved, and particularly the eyesight of old workers skilled in the art can be improved, so that the working environment is bright and comfortable; finally, the lighting of the factory workshop is controlled by using the computer technology, so that the lighting control can be conveniently and quickly realized, and the lighting control can be conveniently closed in an unmanned factory, thereby saving energy.

Chinese patent document, CN201720298135.X, it discloses a factory workshop light control system based on computer includes illumination induction unit and computer control unit, illumination induction unit includes microprocessor, light control module, visible light detection module, human detection module, button module, wireless module, alternating current power supply, power module, computer control unit includes the host processing ware, main wireless module, light supplementary control module, alarm module, alternating current power supply, power module, serial communication module, computer, clock module, display module, set button, divide the light in factory workshop into multiunit control area, receive the light condition in every area at the computer end, realize total accuse, be convenient for in time the management.

in the technical scheme, although the workshop lamp system is controlled in a wireless mode, the accuracy of wireless control is not improved, and the accuracy of wireless control cannot be guaranteed.

Disclosure of Invention

In view of this, the invention provides a workshop touch lamp control system, and aims to solve the technical problem that the existing wireless control precision is poor.

the invention provides a workshop touch lamp control system, which comprises:

the brightness detection unit is used for detecting the brightness of the corresponding area in the workshop so as to provide brightness information for the control module; the control module controls the preset lighting conditions in the corresponding area to start or close the lighting equipment according to the detection result of the light brightness module; the wireless transmission module transmits data through a wireless transmission network, transmits the light brightness information to the control module and transmits the instruction of the control module to the illumination execution module; the illumination execution module comprises a plurality of groups of lamps and is turned on or turned off according to a preset instruction under the control of the control module;

The control module sets different illumination standards according to different workshop illumination brightness requirements, divides workshops according to regions, and sets corresponding illumination brightness requirement models F (A, Q) by the control module, wherein A represents the corresponding workshop, and Q represents the corresponding brightness requirement;

The brightness detection unit detects brightness values in each workshop and calculates a brightness mean value Q0k, wherein a brightness sensor is arranged in the brightness detection unit and is used for detecting brightness; the system comprises a workshop, a first brightness sensor group, a second brightness sensor group, a first lighting sensor group, a second lighting sensor group and a control unit, wherein an equipment area for placing equipment, a tooling area and a channel area are arranged in any workshop, the brightness values in the three areas are different, a round point is arranged at the center of one corresponding equipment, the circular area where the equipment is located is defined as the equipment area, the first brightness sensor group is arranged in the equipment area, the brightness value of the equipment area is detected in real time, and the brightness value Q1i of the equipment area is obtained; a second light brightness sensor group is arranged in a rectangular area in an area between two adjacent devices, and real-time detection is carried out on the light brightness value in the tool area to obtain a tool area brightness value Q2 j; a third brightness sensor group is arranged in a channel region between each two devices, and is used for detecting the brightness value in the channel region in real time to obtain a channel region brightness value Q3;

The method comprises the steps that a first workshop firstly obtains a luminance mean value Q0 and transmits the luminance mean value Q0 to a control module, the control module obtains an illumination luminance demand model F (A, Q), a preset luminance value Q and a real-time detection value Q0 of the same workshop A are compared, whether the real-time detection value is in a preset luminance value range or not is determined, and if the luminance value is in the preset range, luminance values in a second workshop are detected and compared; if the real-time detection value Q0 in the first workshop is not within the interval of the preset brightness value Q, the brightness of the illuminating lamp in the first workshop needs to be adjusted.

Further, the control module sets the device area brightness value Q1i > the tool area brightness value Q2j > the channel area brightness value Q3, the brightness in the device operation area is greater than the brightness value in the tool area, and the brightness value in the tool area is greater than the brightness value in the channel area.

further, the luminance value of the device region luminance value Q1i is as follows: q11> Q12> Q13 … … > Q1i, when the device region is labeled, the labeling is performed according to the brightness value;

The brightness value of the tool area brightness value Q2j is as follows: q21> Q22> Q23 … … > Q2j, and when the tooling area is labeled, the labeling is performed according to the brightness value.

Furthermore, in any workshop, each equipment area, each tooling area and each passage area are provided with an independent illuminating lamp, the control module can respectively control the brightness of the illuminating lamps in each area, and the control module calculates the brightness mean value Q0;

Wherein, Q0k { (Q11+ Q12+ Q1i)/i + (Q21+ Q22+ Q2j)/j + Q3}/3(1)

In the formula, i represents the number of devices, j represents the number of tools, j represents the number of devices, a channel area is arranged in each workshop, k represents the serial number of the workshop, and the serial number represents a stamping workshop, an injection molding workshop, a welding workshop, a coating workshop, a machining workshop and a final assembly workshop respectively.

Further, the control module adjusts the lamps from a low-brightness value lamp to a high-brightness lamp, wherein the control module firstly enhances the brightness of the lamps in the channel region by a preset brightness value Q1, after enhancing the brightness of the lamps in the channel region by a preset brightness value Q2, the control module obtains an average brightness value Q0 after adjustment corresponding to a workshop, compares the average brightness value Q0 with the preset brightness value Q, and illuminates according to the brightness of the illumination light if the adjusted brightness value is within a preset Q interval; if the adjusted brightness value is still smaller than the preset threshold value, the control module controls an illuminating lamp in the tool area to increase brightness; when the brightness of the illuminating lamp in the tool area is increased, firstly, the brightness value Q2j of the illuminating lamp in the jth tool area is increased, the adjusted average brightness mean value Q0 corresponding to a workshop is obtained and is compared with the preset brightness value Q, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values in the (j-1) th tool area in the tool area are sequentially increased until reaching the 1 st tool area; if the adjusted brightness value is still smaller than the preset threshold value, the control module firstly enhances the brightness value Q2j of the ith equipment area in the equipment area by Q3, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values of the 1 st equipment area in the tooling area are sequentially enhanced until the 1 st equipment area.

Further, the brightness of the illuminating lamp in the channel area is enhanced by a preset brightness value q1 each time, the brightness enhancement value of the illuminating lamp in the tool area is enhanced by q2 each time, and the brightness value of each equipment area in the equipment area is reduced by q3 each time, and q1 is greater than q2 and is greater than q3 each time.

further, the control module adjusts the illumination lamps with high brightness values to the illumination lamps with low brightness values in sequence, and the brightness values are reduced gradually; when the brightness value Q11 of the 1 st equipment area in the equipment area is reduced by Q4, the control module obtains the adjusted average brightness value Q0 corresponding to a workshop, compares the average brightness value Q0 with a preset brightness value Q, and illuminates according to the brightness of the illumination light if the adjusted brightness value is in a preset Q interval; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module gradually adjusts and reduces the light brightness value according to the reducing sequence of the light brightness value of each tool workshop, and controls the light brightness value in the No. 2 equipment area to reduce by Q4 until the No. i equipment area; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module controls a light brightness value Q21 in a first tool area in the tool area to reduce by Q5, and if the adjusted light brightness value is still larger than the preset threshold value Q, the control module gradually adjusts and reduces the light brightness value Q5 according to the sequence of reduction of the light brightness value of each tool workshop until reaching the jth tool area; if the adjusted brightness value is still greater than the preset threshold Q, the control module controls the brightness value Q3 of the channel region to decrease by Q6.

further, the brightness of the illuminating lamps in the channel area is reduced by the preset brightness value q6 each time, the brightness of the illuminating lamps in the tooling area is reduced by q5 each time, the brightness of each equipment area in the equipment area is reduced by q4 each time, and q4> q5> q5 each time.

Further, the length or width of the rectangular area of the tool is the diameter of the circular area, and correspondingly, the width or length is the distance between two adjacent devices.

Further, the length of the channel region is the distance between two devices at two ends, and the width is the average distance between two adjacent device regions.

Compared with the prior art, the workshop touch lamp control system has the advantages that each workshop is separated, the equipment area, the tooling area and the channel area are respectively set in each workshop, the luminance brightness values in the three areas are different, the fixed area and the fixed illuminating lamp are respectively set in each area, the luminance brightness value of each area is respectively adjusted, and the control precision is high.

Particularly, the control module sets the brightness value Q1i of the equipment area, the brightness value Q2j of the tooling area and the brightness value Q3 of the channel area, the brightness of the equipment operation area is larger than that of the tooling area, and the brightness value of the tooling area is larger than that of the channel area, so that the equipment operation area can be adjusted for each area conveniently. In the present invention, the luminance value of the device region luminance value Q1i is as follows: q11> Q12> Q13 … … > Q1i, when marking the device region, marking according to the brightness value without adopting the mode of the continuation of the adjacent devices; the brightness value of the tool area brightness value Q2j was as follows: q21> Q22> Q23 … … > Q2j, when marking the frock region, carry out the mark number according to the luminance value, and do not adopt the mode mark number that adjacent frock was held forward, through this kind of mark number mode, conveniently when the adjustment luminance, adjust in order, the adjustment process is comparatively convenient.

Particularly, when the actual detected brightness is lower than the preset brightness value, the control module adjusts the lamps from the low-brightness value lamp to the high-brightness lamp, the control module firstly enhances the preset brightness value q1 to the brightness of the lamps in the channel area, the electric energy is saved by enhancing the low-brightness value, and the brightness value can be more accurately controlled and the control instruction can be more accurately transmitted by increasing the brightness in the area with the requirement of low-brightness; if the adjusted brightness value is still smaller than the preset threshold value, the control module controls the illuminating lamp in the tool area to increase brightness, and if the adjusted brightness value is still smaller than the preset threshold value, the control module firstly enhances the brightness value Q2j of the ith equipment area in the equipment area by Q3, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness value in the 1 st equipment area in the tool area is sequentially enhanced until reaching the 1 st equipment area.

particularly, when the actual detected brightness is higher than the preset brightness value, the control module adjusts the brightness value from the high brightness value lamp to the low brightness lamp, and decreases the brightness value gradually, the control module decreases the brightness value Q11 of the 1 st equipment area in the equipment area 1 by Q4, if the adjusted brightness value is still larger than the preset threshold value Q, the control module decreases the brightness value by gradually adjusting the brightness value of each tool shop in the decreasing order, if the adjusted brightness value is still larger than the preset threshold value Q, the control module decreases the brightness value Q3 of the channel area by Q6, and the brightness value of each equipment area in the equipment area decreases by Q4, Q4> Q5> Q5, so as to better achieve precise adjustment and enhancement of the brightness value, and the best energy-saving effect can be achieved.

Drawings

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

FIG. 1 is a functional block diagram of a touch lamp control system for a workshop according to an embodiment of the present invention;

fig. 2 is a functional block diagram of the plant detection according to the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1, which is a functional block diagram of a workshop touch lamp control system according to an embodiment of the present invention, the workshop touch lamp control system according to the embodiment of the present invention includes a luminance brightness detection unit, which detects luminance brightness of a corresponding area in a workshop to provide luminance brightness information to a control module; the control module controls the preset lighting conditions in the corresponding area to start or close the lighting equipment according to the detection result of the light brightness module; the wireless transmission module transmits data through a wireless transmission network, transmits the light brightness information to the control module and transmits the instruction of the control module to the illumination execution module; the illumination execution module comprises a plurality of groups of lamps and is turned on or turned off according to a preset instruction under the control of the control module; the display module is used for displaying the brightness information and the regulation and control information in the corresponding area.

specifically, in the embodiment of the invention, the control module sets different lighting standards according to different requirements of lighting brightness of a workshop, the workshop is divided into areas according to the areas, the areas are respectively a stamping workshop, an injection molding workshop, a welding workshop, a coating workshop, a machining workshop and a final assembly workshop, each workshop is set with different lighting brightness standards, the control module sets a corresponding lighting brightness requirement model F (A, Q), A represents the corresponding workshop, and Q represents the corresponding brightness requirement. In the embodiment of the present invention, the required luminance value Q is a luminance value within a certain range.

Referring to fig. 2, which is a functional block diagram of the workshop detection according to an embodiment of the present invention, in the embodiment of the present invention, the luminance detection unit detects luminance values in each workshop and calculates a luminance mean value Q0k, wherein a luminance sensor is disposed in the luminance detection unit to detect luminance; and the illumination intensity sensor is also arranged to detect the illumination intensity in the workshop. In this embodiment, since the workshop has the device area 1 for placing devices, the tool area 2, and the channel area 3, and luminance values in the three areas are different, wherein a circular point is set at the center of one device, the circular area where the device is located is defined as the device area, a first luminance sensor group is set in the device area, and the luminance value of the device area is detected in real time to obtain a luminance value Q1i of the device area; in the embodiment, the length or the width of the rectangular area is the diameter of the circular area, and the width or the length is the distance between two adjacent devices; the third brightness sensor group is arranged in a channel region between the devices, the brightness value in the channel region is detected in real time, the brightness value Q3 of the channel region is obtained, the length of the channel region is the distance between the devices at two ends, the width is the average distance between the circles of two adjacent device regions, in the diagram, the distance between the circular regions where the first device and the second device are located is shown, or the distance between the third device and the fourth device is shown in the front of the circular region.

Specifically, in the embodiment of the present invention, the required luminance values in the respective areas are different, the device area luminance value Q1i > the tool area luminance value Q2j > the channel area luminance value Q3 are set, and the luminance in the device operation area is greater than the luminance value in the tool area and greater than the luminance value in the channel area. The electric energy can be saved as much as possible by setting the brightness rule of the gradient, and the brightness value in the corresponding area can be conveniently adjusted due to the existence of the brightness gradient.

Specifically, in the embodiment of the present invention, the luminance value of the device region luminance value Q1i is as follows: q11> Q12> Q13 … … > Q1i, that is, in the present embodiment, when a device region is labeled, the labeling is performed according to the brightness value, instead of the labeling in a sequential manner of adjacent devices; the brightness value of the tool area brightness value Q2j was as follows: q21> Q22> Q23 … … > Q2j, when the tooling areas are labeled, the labeling is carried out according to the brightness value, and the labeling in a mode that adjacent tooling is extended is not adopted. Through this kind of labeling mode, the convenience is when the adjustment luminance, and the adjustment is comparatively convenient in order, adjustment process.

Specifically, in the embodiment of the present invention, each of the equipment area 1, the tooling area 2, and the passage area 3 is provided with a separate illumination lamp, and the control module can control the brightness of the illumination lamps in each area. For any workshop, the embodiment calculates the brightness mean value Q0;

Wherein, Q0k { (Q11+ Q12+ Q1i)/i + (Q21+ Q22+ Q2j)/j + Q3}/3(1)

Specifically, a first workshop firstly obtains a luminance mean value Q0 and transmits the luminance mean value Q0 to a control module, the control module obtains an illumination luminance demand model F (A, Q), a preset luminance value Q and a real-time detection value Q0 of the same workshop A are compared, whether the real-time detection value is in a preset luminance value range or not is determined, and if the luminance value is in the preset range, the luminance value in a second workshop is detected and compared; if the real-time detection value Q0 in the first workshop is not within the interval of the preset brightness value Q, the brightness of the illuminating lamp in the first workshop needs to be adjusted.

Specifically, in the embodiment of the present invention, during adjustment, in order to better adjust the actual detected brightness during the dynamic brightness adjustment process, when the actual detected brightness is lower than the preset brightness value, the control module adjusts the actual detected brightness according to the sequence from the low brightness value lamp to the high brightness lamp, wherein the control module first increases the brightness of the lamp in the channel region 3 by the preset brightness value q1, as the brightness value of the lamp in the channel region 3 increases, the brightness values in the tool region and the device region also increase properly, and the low brightness value is increased to save power, and starting with increasing the brightness in the region with the requirement of low brightness, the control command can be transmitted more accurately by controlling the brightness value more accurately. After the control module enhances the brightness of the illuminating lamp in the channel area 3 by a preset brightness value Q2, obtaining an average brightness value Q0 after adjustment corresponding to a workshop, comparing the average brightness value Q0 with the preset brightness value Q, and if the brightness value after adjustment is within a preset Q interval, illuminating according to the brightness of the illuminating light; if the adjusted brightness value is still smaller than the preset threshold value, the control module controls the lighting lamp in the tool area to increase brightness. When the brightness of the illuminating lamp in the tool area is increased, firstly, the brightness value Q2j of the illuminating lamp in the jth tool area is enhanced, the adjusted average brightness value Q0 corresponding to a workshop is obtained and is compared with the preset brightness value Q, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values in the (j-1) th tool area in the tool area are sequentially enhanced until reaching the 1 st tool area. If the adjusted brightness value is still smaller than the preset threshold value, the control module firstly enhances the brightness value Q2j of the ith equipment area in the equipment area by Q3, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values of the 1 st equipment area in the tooling area are sequentially enhanced until the 1 st equipment area.

Specifically, in the adjustment process, the brightness of the illuminating lamp in the channel region 3 is increased by the preset brightness value q1 each time, the brightness of the illuminating lamp in the tooling region is increased by q2 each time, and the brightness of each equipment region in the equipment region is decreased by q3, q1> q2> q3 each time, so that the brightness of the illuminating lamp in the equipment region is accurately adjusted and increased.

specifically, in the embodiment of the present invention, when the actual detected brightness is higher than the preset brightness value, the control module performs adjustment in the order from the high brightness value illumination lamp to the low brightness illumination lamp to gradually decrease the brightness value. When the brightness value Q11 of the 1 st equipment area in the equipment area 1 is reduced by Q4, the control module obtains the adjusted average brightness value Q0 corresponding to the workshop, compares the average brightness value Q0 with the preset brightness value Q, and illuminates according to the brightness of the illumination light if the adjusted brightness value is in the preset Q interval; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module gradually adjusts and reduces the light brightness value according to the reducing sequence of the light brightness value of each tool workshop, and controls the light brightness value in the No. 2 equipment area to reduce by Q4 until the No. i equipment area; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module controls a light brightness value Q21 in a first tool area in the tool area to reduce by Q5, and if the adjusted light brightness value is still larger than the preset threshold value Q, the control module gradually adjusts and reduces the light brightness value Q5 according to the sequence of reduction of the light brightness value of each tool workshop until reaching the jth tool area; if the adjusted brightness value is still greater than the preset threshold Q, the control module controls the brightness value Q3 of the channel region to decrease by Q6.

Specifically, in the adjustment process, the brightness of the illuminating lamp in the channel region 3 is reduced by the preset brightness value q6 each time, the brightness of the illuminating lamp in the tool region is reduced by q5 each time, the brightness of each equipment region in the equipment region is reduced by q4 each time, and q4> q5> q5 each time, so that the brightness value can be accurately adjusted and enhanced, and the optimal energy-saving effect can be achieved.

Specifically, in the embodiment of the present invention, when the luminance value in any equipment area and tool area is adjusted, the luminance value in the whole area is detected by increasing and decreasing the luminance value in any area, and therefore, the overall average luminance value in the workshop needs to be detected in real time.

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

Claims

1. a touch lamp control system for a workshop, comprising:

The control module sets different illumination standards according to different workshop illumination brightness requirements, divides workshops into regions according to different procedures, and sets different illumination brightness standards for a stamping workshop, an injection molding workshop, a welding workshop, a coating workshop, a machining workshop and a general assembly workshop respectively, the control module sets corresponding illumination brightness requirement models F (A, Q), A represents a corresponding workshop, and Q represents a corresponding brightness requirement;

The method comprises the steps that a first workshop firstly obtains a luminance mean value Q0 and transmits the luminance mean value Q0 to a control module, the control module obtains an illumination luminance demand model F (A, Q), a preset luminance value Q and a real-time detection value Q0 of the same workshop A are compared, whether the real-time detection value is in a preset luminance value range or not is determined, and if the luminance value is in the preset range, luminance values in a second workshop are detected and compared; if the real-time detection value Q0 in the first workshop is not within the interval where the preset brightness value Q is located, the brightness of the illuminating lamp in the first workshop needs to be adjusted.

2. The workshop touch lamp control system according to claim 1, wherein the control module sets the equipment area brightness value Q1i > the tooling area brightness value Q2j > the channel area brightness value Q3, the brightness in the equipment working area is greater than the brightness in the tooling area, and the brightness in the tooling area is greater than the brightness in the channel area.

3. The workshop touch lamp control system of claim 2, wherein the device area brightness value Q1i is as follows: q11> Q12> Q13 … … > Q1i, when the device region is labeled, the labeling is performed according to the brightness value;

4. The workshop touch lamp control system according to claim 3, wherein in any workshop, a separate illuminating lamp is arranged in each of the equipment area, the tooling area and the passage area, the control module can respectively control the brightness of the illuminating lamps in each area, and the control module calculates a brightness mean value Q0;

Wherein, Q0k { (Q11+ Q12+ Q1i)/i + (Q21+ Q22+ Q2j)/j + Q3}/3(1)

in the formula, i represents the number of devices, j represents the number of tools, a channel area is arranged in each workshop, k represents the serial number of the workshop, and the serial number represents a stamping workshop, an injection molding workshop, a welding workshop, a coating workshop, a machining workshop and a final assembly workshop respectively.

5. The workshop touch lamp control system according to claim 4, wherein the control module adjusts the lamps in the sequence from low-brightness lamp to high-brightness lamp, wherein the control module first increases the brightness of the lamps in the passage area by a preset brightness value Q1, and after increasing the brightness of the lamps in the passage area by a preset brightness value Q2, the control module obtains an adjusted average brightness value Q0 corresponding to the workshop, compares the average brightness value Q0 with the preset brightness value Q, and illuminates according to the brightness of the illumination light if the adjusted brightness value is within the preset Q interval; if the adjusted brightness value is still smaller than the preset threshold value, the control module controls an illuminating lamp in the tool area to increase brightness; when the brightness of the illuminating lamp in the tool area is increased, firstly, the brightness value Q2j of the illuminating lamp in the jth tool area is increased, the adjusted average brightness mean value Q0 corresponding to a workshop is obtained and is compared with the preset brightness value Q, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values in the (j-1) th tool area in the tool area are sequentially increased until reaching the 1 st tool area; if the adjusted brightness value is still smaller than the preset threshold value, the control module firstly enhances the brightness value Q2j of the ith equipment area in the equipment area by Q3, and if the adjusted brightness value is still smaller than the preset threshold value, the brightness values of the 1 st equipment area in the tooling area are sequentially enhanced until the 1 st equipment area.

6. the workshop touch lamp control system according to claim 5, wherein the brightness of the illuminating lamps in the passage area is increased by a preset brightness value q1 each time, the brightness of the illuminating lamps in the tool area is increased by q2 each time, and the brightness of each equipment area in the equipment area is reduced by q3, q1> q2> q3 each time.

7. The workshop touch lamp control system of claim 4, wherein the control module adjusts the high brightness value illuminating lamp to the low brightness illuminating lamp in sequence to reduce the brightness value successively; when the brightness value Q11 of the 1 st equipment area in the equipment area is reduced by Q4, the control module obtains the adjusted average brightness value Q0 corresponding to a workshop, compares the average brightness value Q0 with a preset brightness value Q, and illuminates according to the brightness of the illumination light if the adjusted brightness value is in a preset Q interval; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module gradually adjusts and reduces the light brightness value according to the reducing sequence of the light brightness value of each tool workshop, and controls the light brightness value in the No. 2 equipment area to reduce by Q4 until the No. i equipment area; if the adjusted light brightness value is still larger than a preset threshold value Q, the control module controls a light brightness value Q21 in a first tool area in the tool area to reduce by Q5, and if the adjusted light brightness value is still larger than the preset threshold value Q, the control module gradually adjusts and reduces the light brightness value Q5 according to the sequence of reduction of the light brightness value of each tool workshop until reaching the jth tool area; if the adjusted brightness value is still greater than the preset threshold Q, the control module controls the brightness value Q3 of the channel region to decrease by Q6.

8. The workshop touch lamp control system according to claim 7, wherein the brightness of the illuminating lamps in the passage area is reduced by a preset brightness value q6 each time, the brightness of the illuminating lamps in the tooling area is reduced by q5 each time, and the brightness of each equipment area in the equipment area is reduced by q4, q4> q5> q5 each time.

9. the workshop touch lamp control system of claim 3, wherein the length or width of the rectangular area of the tool is the diameter of the circular area, and correspondingly, the width or length is the distance between two adjacent devices.

10. The workshop touch lamp control system of claim 3, wherein the length of the passageway area is the distance between two devices at two ends, and the width is the average distance between two adjacent device area circles.