SU451200A1 - Microobject counting device - Google Patents

Description

The invention relates to the field of auto-ation and computer technology and is intended for use in the counting systems of micro-objects distributed on the surface of the carrier and used, for example, in nuclear physics, microbiology, and medicine.

Known devices for counting ikooBeEETOv | containing a scanning unit, optically coupled through the carrier of micro-objects installed on the platform with the signal-generating unit, do not allow determining the distribution laws of the micro-objects over the carrier surface by auto detection (such determination can be made only by visual viewing of the carrier surface with a microscope),

The described device is characterized in that it comprises a kinematically associated with the platform unit of dividing the carrier of micro-objects into

ZONES and a multicast memory block, the information and control inputs of which are connected respectively to the signal generation unit and the dividing unit of the micro-objects carrier into zones. This allows you to expand the field of application of the device.

The drawing shows a functional diagram of the device

The scanning unit i consists of a high resolution electron beam tube (CRT) with a focusing deflection complex (K) 2 and lens 3. The micro-objects carrier 4 is mounted on the platform 5. The signal generation unit 6 contains a photodetector 7 and a signal conversion circuit 8. The microobject dividing unit 9 consists of a discrete position sensor U, a platform 5 with the carrier t of engine II, a light source 12, a diaphragm 13, a photodetector 14, an electrical signal generating circuit 15 from the sensor. The device also contains a multicast memory block 16.

The device works as follows.

On the screen of the CRT using FLC 2 creates a sweep of the light spot. The light spot with the help of lens 3 is projected onto the surface of the carrier, which is a transparent plate with micro-objects located on its surface. Change light

the flux caused by the intersection of the light spot of the micro-object is recorded by the photodetector 7 located behind the carrier of the micro-objects 4. The signal-generating unit 6 generates pulses whose number is equal to the number of micro-objects on the carrier surface. from circuit 8, the pulses go to multicast memory block 16.

The carriers of micro-objects 4 can have a flat or cylindrical shape. Accordingly, platform 5 is re-progressively rotated or rotated around an axis. (The drawing shows the last case).

On a single axis with platform 5, a discrete Yu position sensor and engine II are installed. When the risk platform of the sensor I rotates (J intersects the flow from the light source 12, which through the diaphragm 13 enters the photodetector 14. Modulation

the light flux caused by the occurrence of risks is transformed by the photopriye NIKOM 14 into an electrical pulse, which is generated by circuit 15. Two subsequent signals from this circuit set the zone on the carrier of micro-objects 4. The UTI signals switch addresses in block 16. Thus, the atom in the block is accumulated information on the distribution of micro-objects in areas of the carrier surface.

To obtain a two-dimensional distribution, part of the beam with a CRT using a semitransparent mirror is directed to the dashed grating, by means of which the zones are counted in the direction of the beam.

ISCRIPTION SUBJECT

A device for counting micro-objects, comprising a scanning unit optically coupled via a micro-object carrier mounted on a platform with a signal-generating unit, characterized in that. in order to expand the field of application of the device, it contains a kinematically connected to the platform dividing unit

0 micro-objects carrier to zones and a multicast memory block, the information and control inputs of which are connected respectively to the signal-shaping unit and the block

5 divisions of the carrier of micro-objects into zones.

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