CN204479270U - A kind of image data acquiring equipment - Google Patents

Abstract

The utility model discloses a kind of image data acquiring equipment, it comprises equipment and runs board, image-capturing apparatus and light refraction chamber, image-capturing apparatus and light refraction chamber are located at equipment and are run above board, equipment runs board and is provided with the carrier loading LED module to be detected, equipment runs board and is provided with detection station, the incidence end correspondence in light refraction chamber detects station, the exit end correspondence image capture device in light refraction chamber.The utility model is simple and reasonable, and design ingenious, volume is little, can power to carrier easily, and carrier can to circulate walking by setting path in board, and automatically locates, and accurately stops, carrying out the detection of LED module at detection station.The utility model makes image be changeless to the distance of daylighting camera lens, plurality of pictures is gathered respectively by CCD image sensor under different optical filter, the length of every pictures distance daylighting camera lens is all the same, carries out calculating comparison by software, thus can reduce visual realistic colour.

Description

A kind of image data acquiring equipment

Technical field

The utility model relates to image capture device technique device, particularly a kind of image data acquiring equipment.

Background technology

At present, in existing image data acquiring equipment, for the equipment of test LED module, when testing the qualification rate of LED module, needing LED module to be placed into image data acquiring equipment and carrying out energising detection.

So just need to arrange a carrier for LED conveying module, and meet carrier automatically to walk on equipment operation board, meet the electric power conveying of this carrier, and the equipment of electric power conveying can not hinder the action of carrier, nor as causing the volume of equipment operation board excessive, run on board at this equipment and also inspection station will be set, enable LED module to be detected, carrier in the process of walking, can automatically locate, automatic accurate location in detection station, so that detect.

Existing image processing equipment-as camera, it is all the realistic colour of image of cannot breaking forth, capital deviation and cause the color of photograph and real color to distinguish to some extent to some extent when light got by any camera lens, existing image processing equipment does not possess the function of going back original image realistic colour.

Its structure of existing camera installation is all camera lenses is that Collapsible structure is to focus, and the structure that rear gathers the CCD sensor (formal name used at school is the pale pinkish purple element of electric charge) of image is fixing, also filter set is not possessed in it, this traditional image capture device is only used for taking a picture and uses, for the application of going back original image true colors, such as, be applied in LED display products to detect, when detecting the blind spot of LED display screen, existing image processing equipment cannot be competent at.

Therefore, a kind of can automatic transport LED module to be detected, adopt the image data acquiring equipment of image processing equipment of brand new to become demand.

Summary of the invention

The purpose of this utility model is, provides a kind of image data acquiring equipment for the deficiencies in the prior art part.

The technical scheme that the utility model is adopted for achieving the above object is:

A kind of image data acquiring equipment, it comprises an equipment and runs board, an image-capturing apparatus and a light refraction chamber, this image-capturing apparatus and light refraction chamber are located at this equipment and are run above board, this equipment runs board and is provided with a carrier for loading LED module to be detected that can walk by setting path circulation or stop, described equipment runs board and is provided with a detection station, the corresponding described detection station of incidence end in this light refraction chamber, the corresponding described image-capturing apparatus of exit end in this light refraction chamber.

Described equipment runs board and comprises board, it also comprises the carrier revolving-door mechanism for driving described carrier revolving-door, for the arrangements of electric connection of powering to this carrier, the described detection station detected for the workpiece to be detected carried this carrier and the station identification apparatus for positioning described carrier, this carrier revolving-door mechanism is located in board, this arrangements of electric connection is to should carrier revolving-door organization establishes, this detection station is located at above this board, this station identification apparatus is located in this carrier revolving-door mechanism detecting station.

Described carrier revolving-door mechanism comprises the lower floor's delivery platform be located in described board, a upper strata delivery platform and two hoistable platforms, this upper strata delivery platform is located at above this lower floor's delivery platform, the both sides of this upper strata delivery platform, lower floor's delivery platform are located at respectively by described two hoistable platforms, when described hoistable platform is in a high position, this hoistable platform and upper strata delivery platform maintain an equal level, when described hoistable platform is in low level, this hoistable platform and lower floor's delivery platform maintain an equal level.

Described arrangements of electric connection comprises the driving conductor rail be located on board and the conduction brush suitable with this driving conductor rail be located on described carrier.

Described detection station comprises a support, an elevating mechanism, an annular seal space fixed head, can stretch annular seal space and a carrier pressing plate, this support is fixed on the top of board, sealing chamber fixed head, elevating mechanism are fixed on this support from top to bottom successively, this carrier pressing plate is fixed on the movable end of this elevating mechanism, and the two ends of this annular seal space that can stretch are fixedly connected with annular seal space fixed head, carrier pressing plate respectively; The top of this support is located at by sealing chamber fixed head.

Described station identification apparatus comprises several bar shaped code characters that several position sensors be located on described carrier are arranged with the corresponding described position sensor of running route along this carrier.

Described two hoistable platforms are individually fixed on the lifting movable end of an elevating mechanism; Described upper strata delivery platform, lower floor's delivery platform with hoistable platform is provided with all accordingly two guide rails for carrier.

Described driving conductor rail comprises upper strata driving conductor rail, lower floor's driving conductor rail and two activity driving conductor rails that can move up and down, this upper strata driving conductor rail is located at above this lower floor driving conductor rail, and this two movable driving conductor rail is located at the two ends of this upper strata driving conductor rail, lower floor's driving conductor rail respectively.

The described annular seal space both ends open that stretches, this side face that can stretch annular seal space is provided with the fold that can stretch; The top of this support, annular seal space fixed head and carrier pressing plate are provided with suitable window; The side of described support is provided with a locating stop piece, and the lower end of this locating stop piece is provided with several stepped breach; Also comprise a probe card contacted with the carrier of vision facilities collecting device, this probe card is fixed on this carrier pressing plate, and this probe card is provided with several probe aperture.

Described bar shaped code character be included in this equipment run on board by the right side turn left set gradually district to be measured group, data collection zone group, treat discharge zone group, and be located at this district to be measured group, data collection zone group and treat the carrier race way group below the group of discharge zone; Described bar shaped code character also comprises the first activity bar shape code group that can move up and down in company with the platform lifting mechanism on this equipment operation board being located at this group side, district to be measured, and one is located at the Article 2 shape code group that can move up and down in company with another platform lifting mechanism on this equipment operation board that this treats side, discharge zone.

Described upper strata driving conductor rail, lower floor's driving conductor rail and movable driving conductor rail include a positive conductive rail and a negative conductive rail, and the positive pole of this positive conductive rail and power supply is conducted, and the negative pole of this negative conductive rail and power supply is conducted; Described equipment runs corresponding described activity driving conductor rail place on board and is provided with platform lifting mechanism, and described activity driving conductor rail is fixed on the top of this platform lifting mechanism; Described driving conductor rail to comprise on one contact chip and once contact chip, and on this, contact chip is located at the top of this lower contact chip.

Described light refraction chamber comprises a casing, at least one pair of flexible mirror is provided with in this casing, one guide light reflection mirror telescoping mechanism parallel with, described flexible mirror comprise two orthogonal, by horizontal line to be benchmark be upper reflector that positive 45 degree of angles arrange and the lower catoptron in the settings of negative 45 degree angles, described flexible mirror is fixed on the movable end of this parallel telescoping mechanism, it is the upper reflector that positive miter angle is arranged that the exit end in this light refraction chamber is this, this guide light reflection mirror is fixed on the top of described detection station, the incidence end in this light refraction chamber is this guide light reflection mirror, guide light reflection mirror be fixedly installed to make guide light reflection mirror respectively be in the LED module to be detected detected in station, corresponding by light path with the lower catoptron in flexible mirror.

This image-capturing apparatus includes fixing body, daylighting camera lens, optical filter replacing mechanism, CCD imageing sensor and displacement focus adjusting mechanism, wherein, daylighting camera lens and optical filter are changed mechanism and are fixedly installed on fixing body, and optical filter is changed mechanism and is positioned on rear side of daylighting camera lens to make the work optical filter in optical filter replacing mechanism be positioned in the light path after the daylighting of daylighting camera lens; CCD imageing sensor is fixedly installed on displacement focus adjusting mechanism, described CCD imageing sensor is positioned at optical filter and changes the rear side of the work optical filter of mechanism and corresponding with work optical filter, the movement locus of displacement focus adjusting mechanism is parallel with daylighting light path make CCD imageing sensor in displacement focus adjusting mechanism motion process be positioned at all the time work optical filter filter after light path on;

Also include data acquisition comparison system, data acquisition comparison system is had data acquisition module with the image light after being used for gathering CCD imageing sensor and being filtered by different operating optical filter and converts image light to electronic signal; Data acquisition comparison system also has image comparison analysis module and compares draw the most real Image Chroma Information to be used for the electronic signal after by conversion and benchmark image electronic signal.

The collection of the image light after the data after collection are filtered to each work optical filter by data acquisition comparison system also converts image light to electronic signal, then the electronic signal after conversion and benchmark image electronic signal are compared and draw the most real Image Chroma Information.The utility model can be widely used in the specific occasion such as detection, safety check of product.

The beneficial effects of the utility model are: the utility model is simple and reasonable, design ingenious, volume is little, can power to carrier easily, and carrier can to circulate walking by setting path in board, and automatically locate, accurately stop at detection station, carry out the detection of LED module.Vertical direction is changed into horizontal direction by the reflective mirror that the utility model is arranged by 45 degree of angles, in addition, lengthening to prevent object distance causes equipment to lengthen, the shortening object distance that the utility model adopts parallel telescoping mechanism to come at double, the object distance of more than twice or twice can be shortened as required, so just can greatly reduce the horizontal volume of equipment, the daylighting camera lens of the utility model by being fixedly installed, carry out displacement by rear CCD imageing sensor and displacement focus adjusting mechanism automatically to focus, this structure is relative to the stretch advantage of focusing of the camera lens before existing: make the position of camera lens uncertain because traditional camera lens stretches, like this, very large difficulty can be produced and cannot calculate when carrying out image data processing software comparison according to multiple pictures under different optical filter, the daylighting camera lens be fixedly installed of the present utility model, image is made to be changeless to the distance of daylighting camera lens, like this, plurality of pictures is gathered respectively by CCD image sensor under different optical filter, the length of every pictures distance daylighting camera lens is all the same, like this, the data of these pictures just can carry out calculating comparison by software, thus can reduce image realistic colour.The utility model can be widely used in the specific occasion such as detection, safety check of product.

Below in conjunction with accompanying drawing and embodiment, the utility model is further illustrated.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is that in the utility model, equipment runs bench structure schematic diagram;

Fig. 3 is the structure diagram that in the utility model, equipment runs board;

Fig. 4 is the structural representation of arrangements of electric connection when platform lifting mechanism is in a high position in the utility model;

Fig. 5 is the structural representation of arrangements of electric connection when platform lifting mechanism is in low level in the utility model;

Fig. 6 is the structural representation of Fig. 4 middle rolling car conductor rail;

Fig. 7 is the polycrystalline substance schematic diagram detecting station place in the utility model;

Fig. 8 is the top structure schematic diagram detecting station place in the utility model;

Fig. 9 is the exploded view of Fig. 8;

Figure 10 is the structural representation of image-capturing apparatus in the utility model.

Embodiment

Embodiment: as shown in Figures 1 to 10, a kind of image data acquiring equipment of the utility model, it comprises an equipment and runs board, one image-capturing apparatus 8 and a light refraction chamber 9, this image-capturing apparatus 8 and light refraction chamber 9 are located at this equipment and are run above board, this equipment runs board and is provided with a carrier 7 for loading LED module 18 to be detected that can walk by setting path circulation or stop, described equipment runs board and is provided with a detection station, the corresponding described detection station of incidence end in this light refraction chamber, the corresponding described image-capturing apparatus 8 of exit end in this light refraction chamber.

Described equipment runs board and comprises board 1, it also comprises the carrier revolving-door mechanism 2 for driving described carrier revolving-door, for the arrangements of electric connection 3 of powering to this carrier, the described detection station 4 detected for the workpiece to be detected carried this carrier and the station identification apparatus for positioning described carrier, this carrier revolving-door mechanism 2 is located in board 1, this arrangements of electric connection 3 is to should carrier revolving-door mechanism 2 arrange, this detection station 4 is located at above this board 1, this station identification apparatus is located in this carrier revolving-door mechanism 2 detecting station 4.

Described carrier revolving-door mechanism 2 comprises lower floor's delivery platform 21, upper strata delivery platform 22 and two hoistable platforms 23 be located in described board 1, this upper strata delivery platform 22 is located at above this lower floor's delivery platform 21, the both sides of this upper strata delivery platform 22, lower floor's delivery platform 21 are located at respectively by described two hoistable platforms 23, when described hoistable platform 23 is in a high position, this hoistable platform 23 maintains an equal level with upper strata delivery platform 22, when described hoistable platform 23 is in low level, this hoistable platform 23 maintains an equal level with lower floor's delivery platform 21.

Described arrangements of electric connection 3 comprises the driving conductor rail 31 be located on board 1 and the conduction brush suitable with this driving conductor rail 31 be located on described carrier 7.

Described detection station 4 comprises a support 41, and detects elevating mechanism 42, annular seal space fixed head 43, and can to stretch annular seal space 44 and a carrier pressing plate 45, this support 41 is fixed on the top of board 1, sealing chamber fixed head 43, detection elevating mechanism 42 are fixed on this support 41 from top to bottom successively, this carrier pressing plate 45 is fixed on the movable end of this detection elevating mechanism 42, and the two ends of this annular seal space 44 that can stretch are fixedly connected with annular seal space fixed head 43, carrier pressing plate 45 respectively; The top of this support 41 is located at by sealing chamber fixed head 43.

Described station identification apparatus comprises several bar shaped code characters that several position sensors 51 be located on described carrier 7 are arranged with the corresponding described position sensor 51 of running route along this carrier.

Described position sensor 51 is six, and these six position sensors 51 are arranged side by side in five row, and wherein row are provided with two position sensors 51.

Described arbitrary bar shaped code character comprises one to five bar code, wherein the corresponding column position inductor 51 of each bar code.

Described six position sensors 51 are fixed on the bottom of this carrier 7 by a bearing 53.

Described two hoistable platforms 23 are individually fixed on the lifting movable end of a platform lifting mechanism 231; Described upper strata delivery platform 22, lower floor's delivery platform 21 with hoistable platform 23 is provided with all accordingly two guide rails for carrier 7.

Described driving conductor rail 31 comprises upper strata driving conductor rail 311, lower floor's driving conductor rail 312 and two activity driving conductor rails 313 that can move up and down, this upper strata driving conductor rail 311 is located at above this lower floor driving conductor rail 312, and this two movable driving conductor rail 313 is located at the two ends of this upper strata driving conductor rail 311, lower floor's driving conductor rail 312 respectively.

Described driving conductor rail to comprise on one contact chip 314 and once contact chip 315, on this, contact chip 314 is located at the top of this lower contact chip 315, when carrier runs, this conduction brush contacts with the side of upper contact chip 314, or conduction brush contacts with the upper surface of lower contact chip 315, or this conduction brush contacts with upper contact chip 314, lower contact chip 315 simultaneously.

Described driving conductor rail also comprises a pedestal 316, and this pedestal 316 is provided with two ladders, and this lower contact chip 315 is located at the top that this is in the ladder of below, and on this, contact chip 314 is located at the top that this is in the ladder of top.

Described annular seal space 44 both ends open that stretches, this side face that can stretch annular seal space 44 is provided with the fold that can stretch; The top of this support 41, annular seal space fixed head 43 and carrier pressing plate 45 are provided with suitable window 46; The side of described support 41 is provided with a locating stop piece 47, and the lower end of this locating stop piece 47 is provided with several stepped breach; Also comprise a probe card 48 contacted with the carrier 7 of vision facilities collecting device, this probe card 48 is fixed on this carrier pressing plate 45, and this probe card 48 is provided with several probe aperture.On described carrier 7, this locating stop piece 47 corresponding is provided with two alignment sensors 71, when carrier 7 runs to and detects station, first alignment sensor 71 senses locating stop piece 47, carrier 7 slows down, second alignment sensor 71 senses locating stop piece 47, carrier 7 stops, thus accurately locates, and the position set in detection station exactly stops.

Described bar shaped code character be included on this board 1 by the right side turn left set gradually district to be measured group 521, data collection zone group 522, treat discharge zone group 523, and be located at this district to be measured group 521, data collection zone group 522 and treat the carrier race way group 524 below discharge zone group 523; Described bar shaped code character also comprises the first activity bar shape code group 6 that can move up and down in company with the platform lifting mechanism 231 on this board 1 being located at this group 521 side, district to be measured, and one is located at the Article 2 shape code group 8 that can move up and down in company with another platform lifting mechanism 231 on this board 1 that this treats side, discharge zone.This district to be measured group 521, data collection zone group 522 and treat that discharge zone group 523 is located at the surface of this upper strata delivery platform 22, this carrier race way group 524 is located at the surface of this lower floor's delivery platform 21, and this first activity bar code character 6 and Article 2 shape code group 8 are located at the surface of a hoistable platform 23 respectively.

Described upper strata driving conductor rail 311, lower floor's driving conductor rail 312 and movable driving conductor rail 313 include a positive conductive rail and a negative conductive rail, and the positive pole of this positive conductive rail and power supply is conducted, and the negative pole of this negative conductive rail and power supply is conducted; On described board 1, corresponding described activity driving conductor rail 313 place is provided with platform lifting mechanism 231, and described activity driving conductor rail 313 is fixed on the top of this platform lifting mechanism 231; Described driving conductor rail 31 to comprise on one contact chip and once contact chip, and on this, contact chip is located at the top of this lower contact chip.Described driving conductor rail 31 also comprises a pedestal, and this pedestal is provided with two ladders, and this lower contact chip is located at the top that this is in the ladder of below, and on this, contact chip is located at the top that this is in the ladder of top.

Described light refraction chamber 9 comprises a casing 91, at least one pair of flexible mirror is provided with in this casing 91, one guide light reflection mirror 92 telescoping mechanism 93 parallel with, described flexible mirror comprise two orthogonal, by horizontal line to be benchmark be upper reflector 94 that positive 45 degree of angles arrange and the lower catoptron 95 in the settings of negative 45 degree angles, described flexible mirror is fixed on the movable end of this parallel telescoping mechanism 93, it is the upper reflector 94 that positive miter angle is arranged that the exit end in this light refraction chamber 9 is this, this guide light reflection mirror 92 is fixed on the top of described detection station, the incidence end in this light refraction chamber 9 is this guide light reflection mirror 92, guide light reflection mirror 92 be fixedly installed to make guide light reflection mirror 92 respectively be in the LED module 18 to be detected detected in station, corresponding by light path with the lower catoptron 95 in flexible mirror.

This image-capturing apparatus 8 includes fixing body 81, daylighting camera lens 82, optical filter replacing mechanism 83, CCD imageing sensor 84 and displacement focus adjusting mechanism 85, wherein, daylighting camera lens 82 and optical filter are changed mechanism 83 and are fixedly installed on fixing body 81, and optical filter is changed mechanism 83 and is positioned on rear side of daylighting camera lens 82 to make the work optical filter in optical filter replacing mechanism 83 be positioned in the light path after daylighting camera lens 82 daylighting; CCD imageing sensor 84 is fixedly installed on displacement focus adjusting mechanism 85, described CCD imageing sensor 84 is positioned at optical filter and changes the rear side of the work optical filter of mechanism 83 and corresponding with work optical filter, the movement locus of displacement focus adjusting mechanism 85 is parallel with daylighting light path make CCD imageing sensor 84 in displacement focus adjusting mechanism 85 motion process be positioned at all the time work optical filter filter after light path on;

Also include data acquisition comparison system, data acquisition comparison system is had data acquisition module with the image light after being used for gathering CCD imageing sensor 84 and being filtered by different operating optical filter and converts image light to electronic signal; Data acquisition comparison system also has image comparison analysis module and compares draw the most real Image Chroma Information to be used for the electronic signal after by conversion and benchmark image electronic signal.

The collection of the image light after the data after collection are filtered to each work optical filter by data acquisition comparison system also converts image light to electronic signal, then the electronic signal after conversion and benchmark image electronic signal are compared and draw the most real Image Chroma Information.The utility model can be widely used in the specific occasion such as detection, safety check of product.

When use the utility model product, carrier 7 moves on upper strata delivery platform 22, now the hoistable platform 23 in carrier 7 moving direction front is in a high position, carrier 7 moves on this hoistable platform 23, and elevating mechanism 5 takes this hoistable platform 23 to low level, and carrier 7 moves to lower floor's delivery platform 21, now the hoistable platform 23 in carrier 7 moving direction front is in low level, take carrier 7 to a high position by this hoistable platform 23 again, so circulate, make carrier 7 ceaselessly can carry out work.

The right-hand member of board 1 is feeding area, the platform lifting mechanism 231 being positioned at board 1 right-hand member will be located at activity driving conductor rail 313 jack-up at its top, this activity driving conductor rail 313 is in up stroke position, drive a vehicle conductor rail 311 smooth transition in the activity driving conductor rail 313 and the upper strata that make this be positioned at board 1 right-hand member, LED module to be turned left conveying from board 1 right-hand member by carrier 7, carrier 7 moves on upper strata driving conductor rail 311, after LED module completes detection, by workman after LED module takes off by discharging area, carrier 7 continues the left end toward board 1, the activity driving conductor rail 313 being now positioned at board 1 left end is in up stroke position, when carrier 7 is on this activity driving conductor rail 313 being positioned at board 1 left end, platform lifting mechanism 231 declines, the activity driving conductor rail 313 and the lower floor that make this be positioned at board 1 left end drive a vehicle conductor rail 312 smooth transition, carrier 7 runs on lower floor's driving conductor rail 312, the activity at its top driving conductor rail 313 is driven decline by the platform lifting mechanism 231 being positioned at board 1 right-hand member, this activity driving conductor rail 313 is made to be in down stroke position, carrier 7 runs on this activity driving conductor rail 313 being in board 1 right-hand member, the platform lifting mechanism 231 being positioned at board 1 right-hand member will be located at activity driving conductor rail 313 jack-up at its top, thus carrier 7 carries out subsequent work circulation, by coordinating of driving conductor rail 31 and conduction brush, flexible power supply is to carrier 7.

When the carrier 7 being mounted with LED module 18 to be detected walks detection station 4, by being arranged at two alignment sensors 71 of carrier 7 and coordinating of the locating stop piece 47 be arranged on support 41, carrier 7 being parked in exactly and detecting in station 4.Described detection elevating mechanism 42 works, carrier pressing plate 45 moves downward together in company with the movable end detecting elevating mechanism 42, until be pressed on carrier 7, the stretched annular seal space 44 be fixed between annular seal space baffle plate and carrier pressing plate 45 is opened, the top of carrier 7 is covered, thus completely cut off by the light that the LED module to be detected 18 be loaded on carrier 7 and exterior lateral sides are irradiated, thus guarantee the testing result accurate and effective of LED module.In the present embodiment, run on board in equipment, a probe ejecting mechanism 10 is also provided with above described detection station 4, on the movable end of this probe ejecting mechanism 10, the corresponding LED module 18 to be detected be loaded on carrier 7 is provided with probe 101, described probe 101 external power supply, the movable end of probe ejecting mechanism 10 moves downward, probe 101 is made to insert in interface corresponding on LED module 18 to be detected, now, LED module 18 meeting electrified light emitting to be detected, light is by guide light reflection mirror 92, the refraction of lower catoptron 95 and upper reflector 94, then the daylighting camera lens 82 of image-capturing apparatus 8 is entered into.

Described position sensor 51 is six, and these six position sensors 51 are arranged side by side in five row, and wherein row are provided with two position sensors 51.

Described arbitrary bar shaped code character comprises one to five bar code, wherein the corresponding column position inductor 51 of each bar code.

Described six position sensors 51 are fixed on the bottom of this carrier 7 by a bearing.

The carrier 7 being loaded with article to be measured moves on board 1, when this carrier 7 by the district to be measured on board 1, data collection zone, until discharge zone and carrier race way time, position sensor 51 can collect the information of the bar shaped code character in opposed area, and be transferred in the disposal system of image data acquiring equipment, thus the location of carrier 7 can be realized, control the start and stop of carrier 7, test job can be carried out smoothly, and there is the phenomenon of collision in front and back carrier 7 of avoiding knowing clearly.

Vertical direction is changed into horizontal direction by the reflective mirror that the utility model is arranged by 45 degree of angles, in addition, lengthening to prevent object distance causes equipment to lengthen, the shortening object distance that the utility model adopts parallel telescoping mechanism 93 to come at double, the object distance of more than twice or twice can be shortened as required, so just can greatly reduce the horizontal volume of equipment, the daylighting camera lens 82 of the utility model by being fixedly installed, carry out displacement by rear CCD imageing sensor 84 and displacement focus adjusting mechanism 85 automatically to focus, this structure is relative to the stretch advantage of focusing of the camera lens before existing: make the position of camera lens uncertain because traditional camera lens stretches, like this, very large difficulty can be produced and cannot calculate when carrying out image data processing software comparison according to multiple pictures under different optical filter, the daylighting camera lens 82 be fixedly installed of the present utility model, image is made to be changeless to the distance of daylighting camera lens 82, like this, plurality of pictures is gathered respectively by CCD image sensor under different optical filter, the length of every pictures distance daylighting camera lens 82 is all the same, like this, the data of these pictures just can carry out calculating comparison by software, thus can reduce image realistic colour.The utility model can be widely used in the specific occasion such as detection, safety check of product.

The foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model right change and modify, and all should belong to the covering scope of the utility model claim.

Claims (10)

1. an image data acquiring equipment, it is characterized in that: it comprises an equipment and runs board, an image-capturing apparatus and a light refraction chamber, this image-capturing apparatus and light refraction chamber are located at this equipment and are run above board, this equipment runs board and is provided with a carrier for loading LED module to be detected that can walk by setting path circulation or stop, described equipment runs board and is provided with a detection station, the corresponding described detection station of incidence end in this light refraction chamber, the corresponding described image-capturing apparatus of exit end in this light refraction chamber.

2. image data acquiring equipment according to claim 1, it is characterized in that, described equipment runs board and comprises board, it also comprises the carrier revolving-door mechanism for driving described carrier revolving-door, for the arrangements of electric connection of powering to this carrier, the described detection station detected for the workpiece to be detected carried this carrier and the station identification apparatus for positioning described carrier, this carrier revolving-door mechanism is located in board, this arrangements of electric connection is to should carrier revolving-door organization establishes, this detection station is located at above this board, this station identification apparatus is located in this carrier revolving-door mechanism detecting station.

3. image data acquiring equipment according to claim 2, it is characterized in that, described carrier revolving-door mechanism comprises the lower floor's delivery platform be located in described board, a upper strata delivery platform and two hoistable platforms, this upper strata delivery platform is located at above this lower floor's delivery platform, the both sides of this upper strata delivery platform, lower floor's delivery platform are located at respectively by described two hoistable platforms, when described hoistable platform is in a high position, this hoistable platform and upper strata delivery platform maintain an equal level, when described hoistable platform is in low level, this hoistable platform and lower floor's delivery platform maintain an equal level.

4. image data acquiring equipment according to claim 2, is characterized in that, described arrangements of electric connection comprises the driving conductor rail be located on board and the conduction brush suitable with this driving conductor rail be located on described carrier;

Described driving conductor rail comprises upper strata driving conductor rail, lower floor's driving conductor rail and two activity driving conductor rails that can move up and down, this upper strata driving conductor rail is located at above this lower floor driving conductor rail, and this two movable driving conductor rail is located at the two ends of this upper strata driving conductor rail, lower floor's driving conductor rail respectively.

5. image data acquiring equipment according to claim 2, it is characterized in that, described detection station comprises a support, and detects elevating mechanism, an annular seal space fixed head, and can to stretch annular seal space and a carrier pressing plate, this support is fixed on the top of board, sealing chamber fixed head, detection elevating mechanism are fixed on this support from top to bottom successively, this carrier pressing plate is fixed on the movable end of this detection elevating mechanism, and the two ends of this annular seal space that can stretch are fixedly connected with annular seal space fixed head, carrier pressing plate respectively; The top of this support is located at by sealing chamber fixed head;

The described annular seal space both ends open that stretches, this side face that can stretch annular seal space is provided with the fold that can stretch; The top of this support, annular seal space fixed head and carrier pressing plate are provided with suitable window; The side of described support is provided with a locating stop piece, and the lower end of this locating stop piece is provided with several stepped breach; Also comprise a probe card contacted with the carrier of vision facilities collecting device, this probe card is fixed on this carrier pressing plate, and this probe card is provided with several probe aperture.

6. state image data acquiring equipment according to claim 2, it is characterized in that, described station identification apparatus comprises several bar shaped code characters that several position sensors be located on described carrier are arranged with the corresponding described position sensor of running route along this carrier;

Described bar shaped code character be included in this equipment run on board by the right side turn left set gradually district to be measured group, data collection zone group, treat discharge zone group, and be located at this district to be measured group, data collection zone group and treat the carrier race way group below the group of discharge zone; Described bar shaped code character also comprises the first activity bar shape code group that can move up and down in company with the platform lifting mechanism on this equipment operation board being located at this group side, district to be measured, and one is located at the Article 2 shape code group that can move up and down in company with another platform lifting mechanism on this equipment operation board that this treats side, discharge zone.

7. image data acquiring equipment according to claim 3, it is characterized in that, described two hoistable platforms are individually fixed on the lifting movable end of a platform lifting mechanism; Described upper strata delivery platform, lower floor's delivery platform with hoistable platform is provided with all accordingly two guide rails for carrier.

8. image data acquiring equipment according to claim 1, it is characterized in that, described light refraction chamber comprises a casing, at least one pair of flexible mirror is provided with in this casing, one guide light reflection mirror telescoping mechanism parallel with, described flexible mirror comprise two orthogonal, by horizontal line to be benchmark be upper reflector that positive 45 degree of angles arrange and the lower catoptron in the settings of negative 45 degree angles, described flexible mirror is fixed on the movable end of this parallel telescoping mechanism, it is the upper reflector that positive miter angle is arranged that the exit end in this light refraction chamber is this, this guide light reflection mirror is fixed on the top of described detection station, the incidence end in this light refraction chamber is this guide light reflection mirror, guide light reflection mirror be fixedly installed to make guide light reflection mirror respectively be in the LED module to be detected detected in station, corresponding by light path with the lower catoptron in flexible mirror.

9. image data acquiring equipment according to claim 6, it is characterized in that, this image-capturing apparatus includes fixing body, daylighting camera lens, optical filter replacing mechanism, CCD imageing sensor and displacement focus adjusting mechanism, wherein, daylighting camera lens and optical filter are changed mechanism and are fixedly installed on fixing body, and optical filter is changed mechanism and is positioned on rear side of daylighting camera lens to make the work optical filter in optical filter replacing mechanism be positioned in the light path after the daylighting of daylighting camera lens; CCD imageing sensor is fixedly installed on displacement focus adjusting mechanism, described CCD imageing sensor is positioned at optical filter and changes the rear side of the work optical filter of mechanism and corresponding with work optical filter, the movement locus of displacement focus adjusting mechanism is parallel with daylighting light path make CCD imageing sensor in displacement focus adjusting mechanism motion process be positioned at all the time work optical filter filter after light path on.

10. image data acquiring equipment according to claim 4, it is characterized in that, described upper strata driving conductor rail, lower floor's driving conductor rail and movable driving conductor rail include a positive conductive rail and a negative conductive rail, the positive pole of this positive conductive rail and power supply is conducted, and the negative pole of this negative conductive rail and power supply is conducted; Described equipment runs corresponding described activity driving conductor rail place on board and is provided with platform lifting mechanism, and described activity driving conductor rail is fixed on the top of this platform lifting mechanism; Described driving conductor rail to comprise on one contact chip and once contact chip, and on this, contact chip is located at the top of this lower contact chip.