CN102004362A

CN102004362A - Antidazzle mirror with consistency as well as debugging method and measuring tool adopted thereby

Info

Publication number: CN102004362A
Application number: CN 201010298193
Authority: CN
Inventors: 黄诚标; 谢建辉; 王秀妹; 魏二荣
Original assignee: Tung Thih Electron Xiamen Co Ltd
Current assignee: Tung Thih Electron Xiamen Co Ltd
Priority date: 2010-09-26
Filing date: 2010-09-26
Publication date: 2011-04-06

Abstract

The invention discloses an antidazzle mirror with consistency as well as a debugging method and a measuring tool adopted in the debugging method. In the invention, a control unit is divided into two modes, namely a learning mode and a normal operating mode; a storage module adopts a cleanable memory; when in a learning mode, the control unit stores an AD value obtained by converting the signal collected by a photosensitive element through an AD conversion module to a memory module, so as to realize the set of the threshold value, thus the invention can overcome the problems of the sensitivity differences of different light sensitive tubes, and the inconsistency of the optical conductivity after the finished products are assembled, thus achieving the effects of starting anti-dazzle condition consistency in the same environment, and good product consistency.

Description

Antidazzle mirror with consistency, the measuring tool that adjustment method and this method adopted

Technical field

The present invention relates to the debugging field of antidazzle mirror finished product, relate to antidazzle mirror with consistency, the measuring tool that adjustment method and this adjustment method adopted of this antidazzle mirror in particular.

Background technology

In the vehicle ' process, evening, it is dazzling that human pilot is produced, thereby bring hidden danger to traffic safety because of back vehicle discomfort glare.At above-mentioned puzzlement, people have developed antidazzle mirror, and this antidazzle mirror can be regulated the transmittance of eyeglass rapidly naturally automatically according to the variation of extraneous light, thereby avoid high light that human pilot is exerted an influence and produce potential safety hazard.

As shown in Figure 1, it is the principle schematic of antidazzle mirror 9 on the market, it comprises circuit board 91 and all is arranged on control module 92, light activated element 93, color-changing lens 94 and power module 95 on the circuit board 91, this light activated element 93 all links to each other with control module 92 by circuit board 91 with color-changing lens 94, and this control module 92 also is built-in with AD modular converter 921 and prestores the memory module 922 of threshold value; This power module 95 plays the effect of supply power, the intensity of these light activated element 93 light sensings, and sensing signal is flowed to the AD modular converter 921 of control module 92, this AD modular converter 921 carries out the AD conversion and obtains corresponding AD value, 92 of this control modules obtain AD modular converter 921 after threshold value compares in AD value and the memory module 922, and controlled signal, this control signal is then controlled color-changing lens 94 variable colors, can play the effect of regulating color-changing lens 94 transmittances thus.Memory module 922 is generally ROM (read-only memory) in this control module 92, and threshold value wherein is solid-state shape and can not revises, and this moment is in order to reach regulation anti-dazzle enabling gate limit value, the normally potentiometer on the regulating circuit plate 91 before assembling.

But, because the reason of photodiode (being the specific implementation of above-mentioned light activated element 93) manufacturing process, its parameter discrete to photoresponse is very big, this antidazzle mirror 9 is finished Shi Yihui in assembling and be there are differences simultaneously, creating antidazzle mirror 9 anti-dazzle startup thresholdings thus differs greatly, be produced antidazzle mirror 9 in the face of equivalent environment the time, it is inconsistent that it starts anti-dazzle condition; So it has the defective of homogeneity of product difference.Adopt potentiometer set mode also to exist simultaneously will to increase device, artificial regulating error, service time long afterpotential device aging and make defective such as its parameter variation easily because vibrate on the car.

In view of this, the inventor has this case to produce at the above-mentioned defective further investigation of existing antidazzle mirror 9 then.

Summary of the invention

First purpose of the present invention is to provide a kind of preferable conforming antidazzle mirror that has, to solve the problem of antidazzle mirror homogeneity of product difference in the prior art.

In order to reach above-mentioned purpose, solution of the present invention is:

Antidazzle mirror with consistency comprises control module, light activated element and color-changing lens, and this light activated element all links to each other with control module with color-changing lens; This control module also is connected with AD modular converter and memory module, and this light activated element is gathered light intensity, and carries out analog to digital conversion via the AD modular converter; Wherein, this control module has mode of learning and normal mode of operation, and this memory module adopts the erasable type storer; When this control module was in mode of learning, the AD value that obtains after the signal that this control module collects light activated element is changed via the AD modular converter deposited in the memory module; And when this control module was in normal mode of operation, this control module was transferred data from memory module, and compared with the current AD value that obtains, and generated control signal and control color-changing lens work.

Further, this AD modular converter and memory module are built in the control module.

Further, this memory module is selected EEPROM or FLASH for use.

Second purpose of the present invention is to provide a kind of debud mode of antidazzle mirror, thereby the feasible antidazzle mirror of debugging out via this method can be reached first purpose of the present invention, promptly makes this antidazzle mirror can have preferable homogeneity of product.

A kind of adjustment method of antidazzle mirror wherein, comprises the steps:

A, antidazzle mirror is assemblied on the measuring tool: this measuring tool comprises the localization tool that is used to locate antidazzle mirror, for the microprocessor that links to each other with the antidazzle mirror control module and be laid in the light source board that antidazzle mirror is peripheral and link to each other with microprocessor;

The mode of learning of B, startup antidazzle mirror: the measuring tool microprocessor is linked to each other with the antidazzle mirror control module, and make the antidazzle mirror control module be in mode of learning;

C, antidazzle mirror study normal brightness: under the control of measuring tool microprocessor, open light source board, and make it to send light with normal brightness, this antidazzle mirror light activated element is then responded to the normal brightness light that this light source board sends, and via obtaining corresponding standard AD value after the conversion of antidazzle mirror AD modular converter, the standard A D value that obtains is stored in the antidazzle mirror memory module, and this memory module adopts the erasable type storer;

D, other normal brightness of continuation study: under the control of measuring tool microprocessor, change light source board and send the normal brightness of light, and simultaneously the standard A D value that obtains is stored in the memory module;

E, antidazzle mirror is broken away from measuring tool: and make antidazzle mirror carry out normal mode of operation simultaneously.

Further, this light source board comprises surround lighting source plate and dazzle light source board, this surround lighting source plate links to each other with the measuring tool microprocessor respectively with the dazzle light source board, this antidazzle mirror light activated element then comprises the surround lighting photosensitive elements of induced environment light source board and the dazzle light activated element of induction dazzle light source board, this surround lighting photosensitive elements and dazzle light activated element are then gathered the normal brightness light that surround lighting source plate and dazzle light source board send respectively, and, finally be respectively stored in the memory module via obtaining corresponding standard AD value after the AD modular converter conversion of antidazzle mirror control module.

Further, link to each other by the LIN bus between this measuring tool microprocessor and the antidazzle mirror control module.

Further, also comprise step C1 after above-mentioned steps C: this antidazzle mirror returns learning outcome to measuring tool, and judges whether success of learning outcome, if step D is then carried out in success, if unsuccessful then continue step C, till learning success.

Further, also comprise step D1 after above-mentioned steps D: this antidazzle mirror returns learning outcome to measuring tool, and judges whether success of learning outcome, if step e is then carried out in success, if unsuccessful then continue step D, till learning success.

The measuring tool that provides a kind of antidazzle mirror adjustment method to be adopted is provided the 3rd purpose of the present invention, thereby guarantees that this adjustment method can debug out the antidazzle mirror of the present invention's first purpose gained.

The measuring tool that a kind of antidazzle mirror adjustment method is adopted, wherein, comprising: the localization tool, the confession antidazzle mirror control module that are used to locate antidazzle mirror link to each other and drive the antidazzle mirror control module and be in the microprocessor of mode of learning and be laid in the light source board that antidazzle mirror is peripheral and link to each other with microprocessor.

Further, this light source board comprises and is laid in localization tool up and down the surround lighting source plate and the dazzle light source board of both sides respectively.

After adopting said structure, the present invention is by making control module enter mode of learning, and the normal brightness light that sends by the measuring tool light source board is given light activated element, this light activated element is changed sensing signal by the AD modular converter after, pass to control module and be stored in the memory module, promptly realized the setting of whole antidazzle mirror threshold value.Control module grasps the influence value of actual light and compares with the value of learning by measuring tool in actual applications, thereby judges which numerical value section is actual light be in, and makes corresponding anti-dazzle grade thus.Be that the present invention is after whole antidazzle mirror assembling is finished, by measuring tool adjustment criteria light source, the corresponding value of Different Light light activated element, transmit the memory module storage that the antidazzle mirror control module is delivered in oral instructions by data, as anti-dazzle startup thresholding fiducial value, thereby can overcome the inconsistent problem of different photosensitive tube sensitivity difference problems and finished product assembling back light conductivity, promptly reach equivalent environment and start anti-dazzle term harmonization, make the effect of good product consistency.

Description of drawings

Fig. 1 is the principle schematic of antidazzle mirror on the market;

Fig. 2 be the antidazzle mirror with consistency that the present invention relates to measuring tool between the principle schematic of combination when linking to each other;

Fig. 3 is the control flow chart of the adjustment method of a kind of antidazzle mirror that the present invention relates to;

Fig. 4 is the structural representation that the present invention relates to measuring tool;

Among the figure:

Antidazzle mirror 100 control modules 110

AD modular converter 111 memory modules 112

Light activated element 120 surround lighting photosensitive elements 121

Dazzle light activated element 122 color-changing lens 130

Measuring tool 200 localization tools 210

Microprocessor 220 light source boards 230

Surround lighting source plate 231 dazzle light source boards 232

Display screen 240

Antidazzle mirror 9 circuit boards 91

Control module 92 AD modular converters 921

Memory module 922 light activated elements 93

Color-changing lens 94 power modules 95

Embodiment

In order further to explain technical scheme of the present invention, the present invention will be described in detail below by specific embodiment.

As shown in Figure 2, it is the principle schematic when being connected between the antidazzle mirror with consistency 100 that the present invention relates to and the measuring tool 200, wherein:

This antidazzle mirror with consistency 100 comprises control module 110, light activated element 120 and color-changing lens 130, and this light activated element 120 all links to each other with control module 110 with color-changing lens 130; This control module 110 also is connected with AD modular converter 111 and memory module 112, and this light activated element 120 is gathered light intensity, and carries out analog to digital conversion via AD modular converter 111; This AD modular converter 111 and memory module 112 all can be built in the control module 110 as required, 120 of this light activated elements can adopt photodiode, can adopt electrochomeric glass for 130 of color-changing lens, certainly this antidazzle mirror 100 can also comprise circuit board (not shown) and power module (not shown), this circuit board plays the effect of carrying, i.e. this control module 110, light activated element 120 and color-changing lens 130 all are arranged on the circuit board, this power module then provides electric power to supply with, its above-mentioned feature all with existing antidazzle mirror 100 basically identicals, so do not carry out unnecessary description, below improvement of the present invention partly be described in detail:

This control module 110 specifically is set to have mode of learning and normal mode of operation, and 112 of this memory modules adopt the erasable type storer, are preferably EEPROM or FLASH; When this control module 110 was in mode of learning, the signal that light activated element 120 collects obtained the AD value after via AD modular converter 111 conversion, and 110 of control modules deposit this AD value in the memory module 112 in; And when this control module 110 is in normal mode of operation, this control module 110 is transferred data from memory module 112, and compare with the current AD value that obtains, and generate control signal and control color-changing lens 130 work, its concrete working method is consistent with antidazzle mirror of the prior art 100, so do not describe in detail.

Set forth the adjustment method that the present invention relates to antidazzle mirror 100 together below in conjunction with Fig. 2, Fig. 3 and Fig. 4, the adjustment method of this antidazzle mirror 100 comprises the steps:

A, antidazzle mirror 100 is assemblied on the measuring tool 200: this measuring tool 200 comprises localization tool 210, microprocessor 220 and light source board 230, this localization tool 210 is used to locate antidazzle mirror 100, thereby guarantee that antidazzle mirror 100 can keep a stable status, thereby be convenient to follow-up study; 220 of this microprocessors link to each other with antidazzle mirror 100 control modules 110, specifically can be with reference to Fig. 2, and, preferably link to each other between these measuring tool 200 microprocessors 220 and antidazzle mirror 100 control modules 110 by the LIN bus, certainly it is not to adopt the LIN bus, and it can also adopt self-defined rigid line to realize between the two data communication; 230 of this light source boards outwards send the light with normal brightness, and it is laid antidazzle mirror 100 peripheries and links to each other with microprocessor 220, can be under the control of microprocessor 220 and send the light of various criterion brightness;

The mode of learning of B, startup antidazzle mirror 100: measuring tool 200 microprocessors 220 are linked to each other with antidazzle mirror 100 control modules 110, and make antidazzle mirror 100 control modules 110 be in mode of learning; Promptly this microprocessor 220 drives this control module 110, and makes it to change on mode of operation;

C, antidazzle mirror 100 study normal brightnesses: under the control of measuring tool 200 microprocessors 220, open light source board 230, and make it to send light with normal brightness, the normal brightness light that this light source board 230 of 120 inductions of these antidazzle mirror 100 light activated elements sends, and via obtaining corresponding standard AD value after 111 conversions of antidazzle mirror 100AD modular converter, the standard A D value that obtains is stored in antidazzle mirror 100 memory modules 112, and this memory module 112 adopts the erasable type storer;

D, other normal brightness of continuation study: under the control of measuring tool 200 microprocessors 220, change light source board 230 and send the normal brightness of light, and simultaneously the standard A D value that obtains is stored in the memory module 112; At this moment, then will need the light of the normal brightness learnt all to learn, as concrete a kind of embodiment, its illuminance that need learn comprises 13 groups, and it is respectively 140LUX, 130LUX, 120LUX, 110LUX, 100LUX, 90LUX, 80LUX, 70LUX, 60LUX, 50LUX, 40LUX, 30LUX, 15LUX; Promptly be equivalent to carry out 13 secondary data storages, certainly its threshold value be not certain limitation be 13 groups, it can be adjusted according to current needs;

E, antidazzle mirror 100 is broken away from measuring tools 200: and make antidazzle mirror 100 carry out normal mode of operation simultaneously.

In addition, this light source board 230 also preferably includes surround lighting source plate 231 and dazzle light source board 232, this surround lighting source plate 231 links to each other with measuring tool 200 microprocessors 220 respectively with dazzle light source board 232, thus simultaneously, these 120 of antidazzle mirror 100 light activated elements comprise the surround lighting photosensitive elements 121 of induced environment light source board 231 and the dazzle light activated element 122 of induction dazzle light source board 232,122 of this surround lighting photosensitive elements 121 and dazzle light activated elements are gathered the normal brightness light that surround lighting source plate 231 and dazzle light source board 232 send respectively, and, finally be respectively stored in the memory module 112 via obtaining corresponding standard AD value after AD modular converter 111 conversions of antidazzle mirror 100 control modules 110.

In order to judge whether learning outcome is correct, it also preferably includes following steps: also comprise step C1 after above-mentioned steps C: this antidazzle mirror 100 returns learning outcome to measuring tool 200, and judge whether learning outcome is successful, if success, then carry out step D, if unsuccessful then continue step C, till learning success.Certainly, can also comprise step D1 after above-mentioned steps D: this antidazzle mirror 100 returns learning outcome to measuring tool 200, and judges whether success of learning outcome, if step e is then carried out in success, if unsuccessful then continue step D, till learning success.Specifically can be with reference to being elaborated as following table:

Corresponding ADC value of each illuminance in the last table, if learning outcome meets:

250＞m＞l＞k＞j＞i＞h＞g＞f＞e＞d＞c＞b＞a and a＞2 two condition, learning success so, preferred, light source board 230 is to increase illuminance in regular turn when sending light source, thereby can play the effect of being convenient to follow-up storage.

As shown in Figure 4, shown in it for the present invention relates to the structure diagram of measuring tool 200; Wherein, the measuring tool 200 that these antidazzle mirror 100 adjustment methods are adopted, comprise localization tool 210, microprocessor 220 and light source board 230, this localization tool 210 is used to locate antidazzle mirror 100,220 of this microprocessors supply antidazzle mirror 100 control modules 110 to link to each other and driving antidazzle mirror 100 control modules 110 are in mode of learning, 230 of this light source boards are laid in antidazzle mirror 100 peripheries and link to each other with microprocessor 220, further, this light source board 230 comprises surround lighting source plate 231 and the dazzle light source board 232 that is laid in localization tool both sides about in the of 210 respectively.Certainly know measuring tool 200 current working state for the ease of people, it also comprises display screen 240, and this display screen 240 links to each other with microprocessor 220, thus the effect that current operation information can be shown.

In sum, the present invention is by making control module 110 enter mode of learning, and the normal brightness light that sends by measuring tool 200 light source boards 230 is given light activated element 120, this light activated element 120 is changed sensing signal by AD modular converter 111 after, pass to control module 110 and be stored in the memory module 112, promptly realized the setting of whole antidazzle mirror 100 threshold values.Control module 110 grasps the influence value of actual light and compares with the value of learning by measuring tool 200 in actual applications, thereby judges which numerical value section is actual light be in, and makes corresponding anti-dazzle grade thus.Be that the present invention is after whole antidazzle mirror 100 assemblings are finished, by measuring tool 200 adjustment criteria light sources, Different Light light activated element 120 corresponding values, transmit memory module 112 storages that antidazzle mirror 100 control modules 110 are delivered in oral instructions by data, as anti-dazzle startup thresholding fiducial value, thereby can overcome the inconsistent problem of different photosensitive tube sensitivity difference problems and finished product assembling back light conductivity, promptly reach equivalent environment and start anti-dazzle term harmonization, make the effect of good product consistency.Focusing on of this case in the antidazzle mirror field, provides a kind of novel thinking, thereby can make product have preferable consistance.

The foregoing description and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present invention to its suitable variation or modification of doing.

Claims

1. antidazzle mirror with consistency comprises control module, light activated element and color-changing lens, and this light activated element all links to each other with control module with color-changing lens; This control module also is connected with AD modular converter and memory module, and this light activated element is gathered light intensity, and carries out analog to digital conversion via the AD modular converter; It is characterized in that this control module has mode of learning and normal mode of operation, this memory module adopts the erasable type storer; When this control module was in mode of learning, the AD value that obtains after the signal that this control module collects light activated element is changed via the AD modular converter deposited in the memory module; And when this control module was in normal mode of operation, this control module was transferred data from memory module, and compared with the current AD value that obtains, and generated control signal and control color-changing lens work.

2. antidazzle mirror with consistency as claimed in claim 1 is characterized in that, this AD modular converter and memory module are built in the control module.

3. antidazzle mirror with consistency as claimed in claim 1 is characterized in that this memory module is selected EEPROM or FLASH for use.

4. the adjustment method of an antidazzle mirror is characterized in that, comprises the steps:

5. the adjustment method of a kind of antidazzle mirror as claimed in claim 4, it is characterized in that, this light source board comprises surround lighting source plate and dazzle light source board, this surround lighting source plate links to each other with the measuring tool microprocessor respectively with the dazzle light source board, this antidazzle mirror light activated element then comprises the surround lighting photosensitive elements of induced environment light source board and the dazzle light activated element of induction dazzle light source board, this surround lighting photosensitive elements and dazzle light activated element are then gathered the normal brightness light that surround lighting source plate and dazzle light source board send respectively, and, finally be respectively stored in the memory module via obtaining corresponding standard AD value after the AD modular converter conversion of antidazzle mirror control module.

6. the adjustment method of a kind of antidazzle mirror as claimed in claim 4 is characterized in that, links to each other by the LIN bus between this measuring tool microprocessor and the antidazzle mirror control module.

7. the adjustment method of a kind of antidazzle mirror as claimed in claim 4, it is characterized in that, also comprise step C1 after above-mentioned steps C: this antidazzle mirror returns learning outcome to measuring tool, and judge whether learning outcome is successful, if success, then carry out step D, if unsuccessful then continue step C, till learning success.

8. the adjustment method of a kind of antidazzle mirror as claimed in claim 4, it is characterized in that, also comprise step D1 after above-mentioned steps D: this antidazzle mirror returns learning outcome to measuring tool, and judge whether learning outcome is successful, if success, then carry out step e, if unsuccessful then continue step D, till learning success.

9. measuring tool that the antidazzle mirror adjustment method is adopted, it is characterized in that, comprising: the localization tool, the confession antidazzle mirror control module that are used to locate antidazzle mirror link to each other and drive the antidazzle mirror control module and be in the microprocessor of mode of learning and be laid in the light source board that antidazzle mirror is peripheral and link to each other with microprocessor.

10. the measuring tool that a kind of antidazzle mirror adjustment method as claimed in claim 9 is adopted is characterized in that, this light source board comprises and is laid in localization tool up and down the surround lighting source plate and the dazzle light source board of both sides respectively.