CS212771B2 - Hue metering apparatus - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color measurement device, in particular for the quantitative evaluation of chromatograms, gelelectropherograms, autoradiograms or photographic images thereof, or diapositives comprising a camera, monitor, sampling memory, string connection, comparator, gate, oscillator, counter, indicator unit and line printer. , also performing arithmetic operations.

Methods and devices are known which consist of measuring the intensity of light transmitted by a plate illuminated by visible or ultraviolet light, or by measuring the intensity of reflected light. Both in the transillumination of the boards and in the measurement of the reflected light, a point light source is possible.

For the quantitative evaluation of chromatograms, a densitometer is mostly used. Its disadvantage is that the test can only be performed very slowly.

In the chromatogram, autoradiogram and gelelectrophorogram, the degree of staining of the spots is proportional to the amount of substance excreted at the site. Inside the stain, the fabric shows a normal bell curve distribution, with the stain becoming darker from the edge inwards.

For example, in researching the structure of va2 in barley protein, the number of amino acid analyzes required to elucidate the complete amino acid sequence of egg white of normal molecular weight is 3000-4000. Similarly, numerous tests are needed in plant breeding research, in the development of a single plant species, especially when the purpose of plant cultivation is to obtain a high egg white content or a certain proportion of lysine-methionine. In addition, for example, amino acid analysis in clinical practice is a series test. Evaluating numerous measurement results using known methods and devices is very costly and requires a lot of time.

SUMMARY OF THE INVENTION It is an object of the present invention to eliminate the disadvantages of the known solutions and to provide a device which makes it possible to carry out evaluation of measurements in a short time and at a relatively low cost.

The invention solves this problem by connecting the video output of the camera to the sampling memory input, the first comparator input and the first monitor input, the camera image sync signal output to the first input of the sampling and trimming unit and the unit input level switching, line sync camera output is connected to the second input of the unit for ur212771 reading of the sampling point and the viewport, the sampling memory output is connected to the analog input of the wiring, the output of the wiring is connected to the second comparator input, the output of the switching unit is connected to the control input of the wiring, the first output of the sampling point and image viewer unit is connected to the first gate input, its second output is connected to the monitor, and its third output is connected to the sampling memory, to the second gate input the comparator output is connected and its third input of the unit for determining the sampling point and image section is connected to the first gate input, its second output is connected to the monitor and its third output is connected to the sampling memory, the second gate input is connected the third input is connected to the output of the oscillator, the gate output is connected to the input of the counter, the first output of the counter is connected to the input of the indicating unit and its second output to the input of a line printer also performing arithmetic operations.

The advantage of the solution according to the invention lies in the fact that it enables fast and cheap evaluation of the measurement results.

The device according to the invention will now be explained in detail by means of an exemplary embodiment, the circuit diagram of which is shown in the accompanying drawing.

The sample 1 to be evaluated, the light source 2, the color filter 3 and the camera 4 are arranged in a closed chamber. The video output of the camera 4 is connected to the sampling memory input 5, the first input of the comparator 7 and the first input of the monitor 15. The video synchronization signal output of the camera 4 is connected to the first input of the sampling and trimming unit 3 level switching. The line sync output of the camera 4 is coupled to the second input of the unit to determine the sampling point and the viewport. The output of the sampling memory 5 is connected to the analog input of the wiring 6, the output of the wiring 6 is connected to the second input of the comparator 7. The output of the level switching unit 8 is connected to the control input of the wiring 6. The image output is connected to the first gate input 10, its second output connected to the monitor 15 and its third output connected to the sampling memory 5. The second input of the gate 10 is connected to the output of the comparator 7 and its third input is connected to the output of the oscillator 11, the output of the gate 10 is connected to the input of the counter 12; printers 14 also performing arithmetic operations.

The function of the device according to the invention is as follows.

The sample 1 to be evaluated is illuminated or illuminated in a closed chamber by means of a light source 2 and a color filter 3 by monochromatic homogeneous light. The image of sample 1 is scanned by camera 4. Spot inspection in camera 4 is provided by controlling the electron beam of the image pickup tube, and the scanned image is made visible by the monitor 15. Adjustment of image sharpness and image trimming can be made on monitor 15.

The amplitude of the transmitted video signal is proportional to the color of the plate in accordance with it, and the video signal is well adapted to quantitatively assess the amount of material deposited on the colored surfaces.

The video signal output from the camera 4 is connected to the sampling input of the sampling memory 5. The sampling memory 5 takes a sample for each row before the point to be measured, the signal level corresponding to the density of the sampling point being stored until the next sampling.

The synchronization output of the image and the line from the camera 4 is connected to the inputs of the unit 3 for determining the sampling position and the image trimming. The sampling point and image section unit 3 contains monostable multivibrators and the test area of the chromatogram can be determined by its control devices. The second output of the sampling point and image trimming unit 3 is connected to a monitor 15 at which the area determined can be inspected. The third output of the sampling point and image trimming unit 3 associated with the input of the sampling memory 5 transmits for each row a signal that controls the sampling memory 5.

The first output of the sampling point and image trimming unit 3 is connected to the first gate 10 input, to which the logic level '1' will come only after examining a certain test area.

The output of the sampling memory 5 is connected to the analog input of the wiring 6 so that at said input there is an electrical signal level proportional to the density of the sampling point between the two sampling sessions, i.e. for the duration of the row. The string connection 6 divides the signal range between a level corresponding to the density of the sampling point and a black level. The lower limit of the split range can be set above the black level. The dividing ratio of the string connection 6 is stepwise reduced by the signal connected from the outputs of the level switching unit 8 to the control inputs of the string connection 6.

The level switching unit 8 is controlled by an image synchronization signal from the camera 4. Thus, the string connection B sends the same level to the other input of the comparator 7 for the duration of one picture each time.

The comparator 7 compares the level of the signal coming from the string connection 8 with the video signal coming to one of its inputs. If the video signal falls below the level of the signal coming from the string connection 6, that is, if the spot is darker than the density corresponding to the level of the signal coming from the string connection 6 on the area being examined, wherein the signal reaches the second gate input 10. The output of the oscillator 11 is connected to the third gate input 10.

Thus, at the output of the gate 10 connected to the counter 12 there is a signal when an area has been scanned. In this case, the sampling point and image trimming unit 9 transmits a logical level signal -1, wherein 1 of the comparator 7 transmits a logical level signal -1. In this case, the pulses of the oscillator 11 are passed through the gate 10 and are counted by the counter 12. The result of the counter 12 appears on the recording unit 13 or the line printer.

14.

Test sample 1 should be examined as often as to how many degrees the signal area is divided between the sample level and, for example, the black level.

By proceeding from the lower level towards the upper level, the comparator 7 also sends a logic level signal " -1 " The frequency of the oscillator 11 is selected as the product of the line frequency and the number of lines giving each individual image, so that the horizontal and vertical decomposition of the image are the same.

The number of pulses released by the gate 10 is proportional, while examining each individual image, to the area of the spots whose density exceeds the level determined by the chain connection. While examining the individual images, the counter 12 of the said area adds up to obtain a result that is proportional to the area of the spots and their density.

Due to the fact that the stain area and density depend on the amount of material deposited on the stain, the result of the counter 12 is proportional to the amount of material. After evaluating each individual image section, the device automatically continues to evaluate the next spot or group of spots.

Compared to the known methods and devices, the solution according to the invention achieves one order of magnitude higher evaluation rate, so that even serial examinations can be performed in a very short time.

Claims (1)

Apparatus for measuring color, in particular for the quantitative evaluation of chromatograms, gelelectrophorograms, autoradiograms or photographic images or diapositives thereof, comprising a camera, a monitor, a sampling memory, a string circuit, a comparator, gate, oscillator, counter, indicating unit and line printer also performing arithmetic an operation, characterized in that the video output of the camera (4) is coupled to the sampling memory (5) input, the first comparator input (7) and the first monitor input (15), the video synchronization signal output of the camera (4) is connected to the first input of the sampling and trimming unit (9) and the level switching unit (8) input, the camera sync line output (4) is connected to the second input of the sampling and trimming unit (9) output memory (5 J sampling is connected to analog input ø the wiring (6), the output of the wiring (6) is connected to the second input of the comparator (7), the output of the level switching unit (8) is connected to the control input of the wiring (6), the first output of the unit (9) the second output is connected to the monitor (15) and its third output is connected to the sampling memory (5), the comparator output (7) is connected to the second gate input (10) and to its third input is connected the output of the oscillator (11), the gate output (10) is connected to the input of the counter (12), the first output of the counter (12) is connected to the input of the indicating unit (13) printers (14) also performing arithmetic operations.