CN102355542B

CN102355542B - Float glass section texture scanner and using method thereof

Info

Publication number: CN102355542B
Application number: CN201110173926.7A
Authority: CN
Inventors: 林嘉宏
Original assignee: TAIWAN GLASS CHENGDU GLASS CO Ltd
Current assignee: TAIWAN GLASS CHENGDU GLASS CO Ltd
Priority date: 2011-06-27
Filing date: 2011-06-27
Publication date: 2014-04-09
Anticipated expiration: 2031-06-27
Also published as: CN102355542A

Abstract

The invention discloses a float glass section texture scanner and a using method thereof. A slide rail (16) is provided with a sliding block (24). A scanning substrate (2) is fixed on the sliding block (24). A glass groove (12) is fixed on the scanning substrate (2). The glass groove (12) is filled with refractive liquid (13). One end of the glass groove (12) is provided with a 45-degree reflector (7) which is arranged at the same height with a parallel light tube (3). The scanning substrate (2) is also provided with a line CCD (Charge Coupled Device) (5) and a CCD circuit board (4). The line CCD (5) is connected with the CCD circuit board (4) through a cable (8) and then is connected with a main board (9). The main board (9) is connected with a computer through a USB (Universal Serial Bus) interface (21) arranged on the main board. The scanning substrate (2) is driven to move through a synchronous belt (15). Due to the adoption of the float glass section texture scanner and the using method thereof, a digital figure of a section texture of float glass can be rapidly obtained, the imaging quality is high, a darkroom is not required, equipment is small, and the operation is simple.

Description

Texture scanner of float glass section and using method thereof

Technical field

The present invention relates to a kind of reason scanner and using method thereof, be specifically related to a kind of scanner and using method thereof of energy float glass section texture electronic pictures.

Background technology

The striated texture that float glass section texture is formed in melt-forming process by float glass on float glass cross section, it is usually used in judging float glass muscle line source.In existing production technology, can only make to detect by an unaided eye, and can only carry out observe and decide through the personnel of professional training, therefore personnel are required very high and cannot leave effective image file, also can there is certain error in manual observation in addition.

Summary of the invention

The present invention has overcome the deficiencies in the prior art, and a kind of texture scanner of float glass section and using method thereof are provided, solved existing observational technique to personnel require high, observe inaccurate and there is no a problem of dossier.

For solving above-mentioned technical problem, the present invention by the following technical solutions:

A kind of texture scanner of float glass section, comprise the parallel light tube being arranged on substrate, mainboard, slide rail, drive the stepper motor of Timing Belt, described slide rail is provided with slide block, on slide block, be fixed with scanning substrate, on scanning substrate, be fixed with glass guide channel, REFRACTIVE LIQUID is housed in glass guide channel, one end of glass guide channel is provided with the 45 degree speculums of installing with parallel light tube co-altitude, wired CCD and CCD circuit board are also installed on scanning substrate, line CCD is connected with mainboard after being connected with CCD circuit board by cable again, mainboard is connected with computer by USB interface mounted thereto, Timing Belt drives scanning substrate motion.

Further technical scheme is: above-mentioned stepper motor is connected with mainboard by electric wire.

Further technical scheme is: above-mentioned mainboard is also connected with control board.

Further technical scheme is: in above-mentioned glass guide channel, be provided with glass supporting seat.

Further technical scheme is: above-mentioned glass guide channel is to be fixed on substrate by main supporting base.

Further technical scheme is: above-mentioned slide rail is to be fixed on substrate by slide rail supporting seat.

Further technical scheme is: above-mentioned parallel light tube is to be fixed on substrate by parallel light tube supporting seat.

A kind of using method of texture scanner of float glass section:

Step 1, puts into glass guide channel by tested glass bar and makes it be immersed in REFRACTIVE LIQUID completely;

Step 2, controls parallel light tube by mainboard and sends directional light and be irradiated on 45 degree speculums through reflecting through tested glass bar the upper imaging of online CCD; Meanwhile, mainboard control step motor, driving Timing Belt drive scanning substrate to move along tested glass bar longitudinal direction, and tested glass bar is carried out to complete scan;

Step 3, line CCD by CCD circuit board, image is converted into the signal of telecommunication and by cable transmission to mainboard;

Step 4, mainboard is converted into digital signal by the signal of telecommunication and is transferred on computer by USB interface;

Step 5, computer is by after Digital Signal Analysis, and composograph is also converted into visual picture format preservation;

Step 6, mainboard by electric wire control step motor, drive Timing Belt and drive scanning substrate to get back to initial position.

Further technical scheme is: in step 2, mainboard can be controlled start and stop by computer and/or control board.

Compared with prior art, the invention has the beneficial effects as follows: can obtain fast the digital picture of float glass section texture, than observation method of naked eye, record more rapidly and accurately and interpretation, good imaging quality of the present invention, does not need darkroom, and equipment is small and exquisite, simple to operate, operator does not need special training.

Accompanying drawing explanation

Fig. 1 is plan structure schematic diagram of the present invention;

Fig. 2 is main TV structure schematic diagram of the present invention;

Fig. 3 is the cutaway view of the A-A of Fig. 1.

Wherein: 1. substrate, 2. scanning substrate, 3. parallel light tube, 4.CCD circuit board, 5. line CCD, 6. control board, 7.45 degree reflective mirror, 8. cables, 9. mainboard, 10. main supporting seat, 11. stepper motors, 12. glass guide channels, 13. REFRACTIVE LIQUIDs, 14. tested glass bars, 15. Timing Belts, 16. slide rails, 17. slide rail supporting seats, 20. electric wires, 21.USB interface, 22. parallel light tube supporting seats, 23. glass supporting seats, 24. slide blocks.

Embodiment

Below in conjunction with accompanying drawing, the present invention is further elaborated.

As Fig. 1, shown in Fig. 2 and Fig. 3: a kind of texture scanner of float glass section, it is characterized in that: comprise the parallel light tube 3 being arranged on substrate 1, mainboard 9, slide rail 16, drive stepper motor 11 Timing Belts 15 of Timing Belt 15 to drive scanning substrate 2 motions, described slide rail 16 is provided with slide block 24, on slide block 24, be fixed with scanning substrate 2, on scanning substrate 2, be fixed with glass guide channel 12, REFRACTIVE LIQUID 13 is housed in glass guide channel 12, one end of glass guide channel 12 is provided with the 45 degree speculums 7 of installing with parallel light tube 3 co-altitudes, wired CCD5 and CCD circuit board 4 are also installed on scanning substrate 2, line CCD5 is connected with mainboard 9 after being connected with CCD circuit board 4 by cable 8 again, mainboard 9 is connected with computer by USB interface mounted thereto 21, above-mentioned stepper motor 11 is connected with mainboard 9 by electric wire 20, and mainboard 9 is also connected with control board 6, is provided with glass supporting seat 23 in glass guide channel 12.Above-mentioned glass guide channel 12 is to be fixed on substrate 2 by main supporting base 10, and slide rail 16 is to be fixed on substrate 2 by slide rail supporting seat 17, and parallel light tube 3 is to be fixed on substrate 2 by parallel light tube supporting seat 22.

A kind of using method based on above-mentioned texture scanner of float glass section is:

Step 1, puts into tested glass bar 14 glass guide channel 12 and makes it be immersed in REFRACTIVE LIQUID 13 completely;

Step 2, sends directional light by mainboard 9 control parallel light tubes 3 and is irradiated on 45 degree speculums 7 through reflecting through tested glass bar 14 the upper imaging of online CCD5; Meanwhile, mainboard 9 control step motors 11, driving Timing Belt 15 drive scanning substrates 2 to move along tested glass bar 14 longitudinal directions, and tested glass bar 14 is carried out to complete scan;

Step 3, line CCD5 is converted into the signal of telecommunication by CCD circuit board 4 by image and is transferred on mainboard 9 by cable 8;

Step 4, mainboard 9 is converted into digital signal by the signal of telecommunication and is transferred on computer by USB interface 21;

Step 6, mainboard 9 is by electric wire 20 control step motors 11, driving Timing Belt 15 and drive scanning substrate 2 to get back to initial position.

In above-mentioned steps two, mainboard 9 can be controlled start and stop by computer and/or control board 6.

Claims

1. a texture scanner of float glass section, it is characterized in that: comprise the parallel light tube (3) being arranged on substrate (1), mainboard (9), slide rail (16), drive the stepper motor (11) of Timing Belt (15), described slide rail (16) is provided with slide block (24), on slide block (24), be fixed with scanning substrate (2), on scanning substrate (2), be fixed with glass guide channel (12), REFRACTIVE LIQUID (13) is housed in glass guide channel (12), one end of glass guide channel (12) is provided with the 45 degree speculums (7) of installing with parallel light tube (3) co-altitude, scanning substrate is also installed wired CCD(5 on (2)) and CCD circuit board (4), line CCD(5) be connected with mainboard (9) again after being connected with CCD circuit board (4) by cable (8), mainboard (9) is connected with computer by USB interface mounted thereto (21), Timing Belt (15) drives scanning substrate (2) motion.

2. texture scanner of float glass section according to claim 1, is characterized in that: described stepper motor (11) is connected with mainboard (9) by electric wire (20).

3. texture scanner of float glass section according to claim 1, is characterized in that: described mainboard (9) is also connected with control board (6).

4. texture scanner of float glass section according to claim 1, is characterized in that: in described glass guide channel (12), be provided with glass supporting seat (23).

5. texture scanner of float glass section according to claim 1, is characterized in that: described glass guide channel (12) is to be fixed on substrate (2) by main supporting base (10).

6. texture scanner of float glass section according to claim 1, is characterized in that: described slide rail (16) is to be fixed on substrate (2) by slide rail supporting seat (17).

7. texture scanner of float glass section according to claim 1, is characterized in that: described parallel light tube (3) is to be fixed on substrate (2) by parallel light tube supporting seat (22).

8. the using method of the texture scanner of float glass section described in the arbitrary claim of claim 1 to 7, is characterized in that:

Step 1, puts into tested glass bar (14) glass guide channel (12) and makes it be immersed in REFRACTIVE LIQUID (13) completely;

Step 2, sends directional light by mainboard (9) control parallel light tube (3) and is irradiated to 45 degree speculums (7) above through reflecting through tested glass bar (14) online CCD(5) upper imaging; Meanwhile, mainboard (9) control step motor (11), driving Timing Belt (15) drive scanning substrate (2) along the motion of tested glass bar (14) longitudinal direction, and tested glass bar (14) is carried out to complete scan;

Step 3, line CCD(5) by CCD circuit board (4), image is converted into the signal of telecommunication and is transferred on mainboard (9) by cable (8);

Step 4, mainboard (9) is converted into digital signal by the signal of telecommunication and is transferred on computer by USB interface (21);

Step 6, mainboard (9) is by electric wire (20) control step motor (11), driving Timing Belt (15) and drive scanning substrate (2) to get back to initial position.

9. the using method of texture scanner of float glass section according to claim 8, is characterized in that: in step 2, mainboard (9) can be controlled start and stop by computer and/or control board (6).