RU1778693C - Device for placing liquid components into plate hollows - Google Patents

Abstract

Usage: medical laboratory equipment, in particular the conduct of serological studies. SUMMARY OF THE INVENTION: the device comprises a horizontal platform for a plate, a multi-channel dispenser made in the form of a replaceable unit with a cassette having means for interacting with a dose setter. The platform is mounted on the carriage with the possibility of rotation around a vertical axis and is connected with a rotation angle sensor connected via a switch to a control unit, to which the sensors for controlling the stepwise movement of the carriage are connected. 1 ill.

Description

The invention relates to medical laboratory equipment, the preferred field of use is immunologists, in particular when conducting serological studies.

Multichannel digital pipettes are known that allow manual insertion of liquids into the wells, the volumes of the dosing liquid are set on the digital indicator, the tips can be separated from the pipettes if necessary.

A known multi-channel device for dispensing liquids into plates, selected as a prototype, comprises a closed chamber equipped with a syringe block that is mounted on a platform, with the pistons of the syringes being moved by a pneumatic device. The number of syringes corresponds to the number of cannulas communicating with the base channels of the device with syringes, the base being able to be fixed in various positions. The base on which the plate is located contains a device to orient the plate with the holes in relation to the cannula m. The piston stroke can be adjusted to the required dose.

A disadvantage of the known device is the difficulty in selecting syringes for various components for conducting serological tests, low operational reliability due to the use of many regulatory bodies and compressed air, and the lack of efficiency of introducing components into the wells of the plate due to manual operations, which can lead to reduce the reliability of the final research results.

Ј

-VI 1

00 O O O)

The purpose of the invention is to increase productivity in conducting serological tests. The productivity of introducing components into the plates is increased by 8-9 times.

The goal is achieved by the fact that the device for introducing liquid components into the wells of the plate, containing a horizontal platform for securing the plate, a multi-channel dispenser, a carriage connected to a reciprocating drive connected to a control unit with a dose adjuster, further comprises connected to the unit through a switch a rotation angle sensor associated with a platform mounted on the carriage with the possibility of rotation about a vertical axis, and step control sensors the lattices connected to the control unit, the multi-channel dispenser is made in the form of a replaceable unit including a peristaltic pump, connecting tubes with tips and a cassette for accommodating containers with corresponding components, having means for interacting with the dose adjuster, while the pump drive is connected to the control unit.

Comparative analysis with the prototype shows that the invention is distinguished by the presence of new units, mechanisms, and elements: an electronic control unit with control and automatic control elements providing discrete movement of the serological plate and dispensing the required dose to the plate wells, and a replaceable unit made in the form of a multi-channel dispenser with tubes, and cartridges with containers for the corresponding components, while the metering drive, made in the form of a peristaltic pump, is connected to the control unit laziness.

The drawing schematically shows a device for introducing liquid components into the wells of the plate, General view.

The device for introducing liquid components into the wells of the plate contains a horizontal platform 1 for securing the plate 2, a multi-channel dispenser made in the form of a peristaltic pump 3 with an electric drive 4, a carriage 5 with a drive 6 connected to a control unit 7 equipped with a dose adjuster 8. In addition, the device is equipped with a sensor 9 of the angle of rotation of the platform 1. connected through the switch 10 to the control unit 7, the sensors 11 for controlling the stepwise movement of the carriage 5, also connected to the control unit 7. Peristaltic pump 3 and connecting tubes 12 s

the tips 13, as well as the cassette 14 for holding containers 15c with respective components, represent a replaceable unit. Means 16 for interacting with dose adjusters 8 located on cartridge 14 and drive 4 of pump 3 are connected to control unit 7.

The device operates as follows.

0 A replaceable unit consisting of a peristaltic pump 3, connecting tubes 12 with tips 13 and cassettes 14 with tanks 15 containing the corresponding reaction components, sets 5 s on the device, while the rotor of pump 3 is engaged with the drive 4, and the Set 14 means 16 (for example, a protrusion) acts on one of the dose adjusters 8, which, through the control unit 7, prepares the switching circuit of the electric drive 4 for the corresponding number of revolutions. The plate 2 is placed on the platform 1 of the carriage 5. If necessary, by turning the platform 1 around the vertical axis, the plate 2 is oriented relative to the pump 3, while the sensor 9 of the angle of rotation of the platform 1 through the switch 10 and the control unit 7 prepares the switching circuit of one of the sensors 11 for controlling the stepping movement

0 of the carriage 5. When the device is turned on, the electric drive 6 moves the carriage 5 with the plate 2 towards the pump 3, which is monitored by sensors 11 (for example, an optocoupler with shutters). Upon reaching

5 of the first row of holes in the plate of the 2 tips 13, the sensor 11, through the control unit 7, turns off the electric drive 6 and turns on the electric drive 4 of the pump 3 for the number of revolutions set by the setter 8, while

0 the dose of the component from the tanks 15 through the tubes 12 and tips 13 to the first row of the plate 2. After performing a given number of revolutions, the electric drive 4 is turned off and through the control unit 7 a command is given to turn on the electric drive 6 to move the carriage 5 with the plate 2. Issue doses in the second and subsequent rows of the wells of plate 2 are produced in sequence, similarly

0 described above. After the dose has been delivered to the last row of the Luna plate 2, the carriage 5 is returned to its original position, while the replacement unit is replaced with another one containing other components.

5

Claims (1)

SUMMARY OF THE INVENTION A device for introducing liquid components into the wells of a plate, comprising a horizontal platform for securing the plate, a multi-channel dispenser, a carriage associated with a reciprocating drive connected to a control unit with a dose adjuster, characterized in that in order to increase productivity during serological testing, it further comprises a rotation angle sensor connected via a switch to the control unit, connected to a platform mounted on the carriage with the possibility of rotation about a vertical axis, and carriage step control sensors connected to the control unit, the multi-channel dispenser is made in the form of a replaceable unit including a peristaltic pump, connecting tubes with tips and a cassette for placing containers with corresponding components, having means for interacting with the dose adjuster, while the pump drive is connected to control unit. 5 d 2 11 Sg