CZ17834U1 - Laboratory apparatus - Google Patents

Description

BACKGROUND OF THE INVENTION

At present, many different designs of laboratory apparatuses are known which differ in particular according to the intended use of the laboratory apparatus.

Among the known devices are, for example, the universal clinical analysis device described in EP 0895087. The apparatus comprises a base plate with three main levels, a first level holding end for reagents and samples with means for cyclically vibrating individual containers as well as means for recognizing external graphics In addition, a thermostat block incorporating a plurality of grooves that receive, without distinction, a disposable tape of small analytical cartridges and an analytical card, as well as a reader for agglutination, while at its third level the machine base carries a centrifuge that can receive indiscriminately ribbon and card from the collector head holding a single clamp for collecting, transporting and placing positioning of both tapes and cards.

Very similar is the apparatus for automatically carrying out several laboratory tests simultaneously described in EP 0918221. The apparatus has two main parts containing members whose work is controlled automatically, the first part to which the user has interactive access allows the introduction of samples, controls, calibrators , diluents and other specimen collection and dilution equipment and the plate to be tested, and the second part to which the user has occasional access includes stations dedicated to the remainder of the process, including incubation, washing, scanning, and other activities. while maintaining several plates at different stages of the process. The apparatus has a device consisting of a trolley and a plate for the automatic movement of the plate along the three coordinate axes X, Y and Z to transport reagents and plates to carry out the process, several tests can be performed simultaneously in a set of samples on one or several plates. many tasks with the same or a different set of samples, even if the previous tasks have not yet been completed. The instrument contains within its two main parts a series of EC reagent containers for storing auxiliary liquids in the process and for collecting waste and waste residues.

DE 1907177 further describes an analysis system, an analysis apparatus and a system reagent carrier, in particular for this analysis system. The analysis system for performing clinical-che35 ball and immunological analyzes in the medical analytical field comprises an analysis apparatus and at least one system reagent carrier. . The analyzer comprises at least one rotary motion controlled rotor for reagents, a first storage device for reagent cuvettes, a second storage device for sample containers, a lifting and pivoting device that is provided with a pipetting device, is controlled in a controlled manner and movable along a circular path relative to a reagent rotor, a washing station for the pipetting device, a detection device, and a control device for controlling the drive of the reagent rotor and the lifting and pivoting drive of the lifting and pivoting device, as well as for controlling the operation of the pipetting device and the detection device. At least one sample container is disposed on the circular swivel path of the pipetting device, and first storage devices 45 are provided in the reagent rotor, adapted to receive the measuring cells, the detection device being arranged at a certain angular position of the reagent rotor so that analysis is performed. one of the measuring cells arranged in the reagent rotor and the system reagent carrier comprises at least one

A cell that is pre-filled with a test-specific, pre-chemically prepared liquid system reagent, as well as a measuring cell.

The apparatus for immunochromatographic determination is known from CZ 297475. The apparatus has one or more chromatographic strips which are attached to a plate-shaped substrate, wherein each chromatographic strip is sealed so that the portion of the substrate surrounding each chromatographic strip is tightly connected to an insulating film placed on a chromatographic strip, and the insulating film and / or substrate has a film comprising a desiccant and / or a film comprising an oxygen absorbing agent.

The aforementioned devices are always intended for certain specific laboratory applications, in particular for use in connection with the examination of biological samples, in particular medical samples.

A variety of instruments are also known which are used to test strips usually placed in a tray, which is part of a laboratory test equipment.

These known laboratory apparatuses include a laboratory apparatus having space in its front part for accommodating a plate of strips. Above this space, it has controls and a container behind it to extract used reagents from the strip plate. Behind this vessel are a series of pumps, with reagent vessels behind them. The working area is protected by a hinged cover whose position can be fixed in a stable position by means of telescopic dampers at the moment of handling the strip tray or used reagent container or reagent container. The hinged cover has an opening in its surface through which the operating elements can be manipulated. The disadvantage of this device is its design intended for testing of certain specific samples. Its design is not universal, which means that its individual components are not optimally positioned ergonomically.

Also known is a laboratory apparatus having a plurality of reagent containers at its front. Above these containers there is a plate of strips, with control elements placed on the side parts. Again, this device is not universal and is designed primarily for long-term examination of one type of samples. The disadvantage is especially small display control.

A small space for the controls also has another known laboratory apparatus, in which, like the previous one, they are placed together with a small display on the side panel. At the front of the instrument is a plate with strips and is covered by a transparent cover. Behind the instrument are the reagent containers and the reagent container. Since frequent handling may occur, especially with reagent containers, this arrangement is not ergonomically advantageous, again demonstrating the focus of the instrument on long-term testing of one type of specimen,

Many of the disadvantages of the prior art are evident from the above documents. The main disadvantage of the instruments used for strip examination is their single-purpose design, which is mainly intended for long-term examination of certain identical sample types. This is related to their ergonomic design, which makes it difficult to use these known laboratory devices universally.

The aim of the technical solution is a simple design of the laboratory instrument, which will allow its universal use with frequent sample alternation, while the design will not only allow simple operation of the device, but also its easy maintenance.

The essence of the technical solution

These drawbacks are largely eliminated and the objectives of the technical solution are fulfilled by a laboratory apparatus, in particular a laboratory apparatus for automatic examination of Western blots, controlled by a control system consisting of a frame structure and a carrier with strip tray, pumps and reagent supply tubes and stripping of strip contents. according to this technical solution, which is based on the fact that in its front part there are

The control and monitoring means are disposed in the lid of the lid, the strip carrier and the sliding arm of the reagent distribution being pivotably mounted in the swivel lid working space.

This arrangement allows clear operation and easy access to the service parts of the device. Peristaltic pumps are used to transport the reagents to ensure accurate reagent dosing while returning the unused reagent to the reservoir after dosing. The control and control means are control buttons, LEDs and a large display, which are used to start the program with the possibility of checking the program steps performed, eventually the requirement of the device for establishing reagents.

The distribution of the reagents into the strip plate is performed by means of a sliding arm moving parallel to the strip plate. The sliding arm of the reagent distribution carries the orifice of the tubing from the pumps.

Preferably, the sliding arm of the reagent distribution further comprises a hinged arm for aspirating the strip plate content. This construction allows simultaneous filling and extraction of strips during one pass of the arm above the tray. In the most preferred embodiment, the tilting arm is attached to the gripper 15, which is mounted on a rotatable guide bar, the gripper also having a sliding arm which is also rotatably supported by the toothed belt and the drive and supported in a linear guide.

In a preferred embodiment, the strip tray support is pivotably mounted such that the aspiration points of the strip tray content are disposed in the oscillation axis thereof, thereby allowing the stroke of the suction arm to be minimized. The strip suction hose is connected to a vacuum bottle from which air is sucked through a vacuum diaphragm pump.

The swinging of the strip carrier is performed by an eccentric resting on the bell which is supported on the strip plate carrier, the eccentric being connected to the drive.

It is advantageous if the drive is a stepper motor mounted in silent blocks at the bottom of the working space, whereby the drive is also connected to the eccentric by the silentblock. This mounting of the stepper motor minimizes the vibrations transmitted to the instrument structure.

Advantageously, a hinged cover is provided on the hinged lid, wherein a seal is provided in the contact area of the hinged lid and the hinged kiyt. The hinged cover prevents contamination of examined samples or contamination of the environment during operation.

The bottom of the working space is inclined so that any leaked liquid flows to a location provided with a drainage duct opening which drains the leaked liquids outside the interior of the device, thereby ensuring its protection.

The versatility of the device is ensured by the design of the strip carrier for trays of various sizes, which brings great economic savings.

It is also very advantageous if a holder is attached to the sliding arm in which the reagent supply tubes are freely stored. Free storage of the tubing allows for very quick and easy maintenance.

The laboratory instrument is controlled by a control system that is connected to the programming device. The control system allows easy change of the program, variability in the choice of grouping of examined samples and the possibility of simultaneous examination of various types of tests. This arrangement allows to place samples of one patient for different examinations into individual groups or to concentrate individual types of examinations into groups.

Ergonomic arrangement of construction elements and technical solution of the laboratory device enables clear selection of programs and thus also efficient work, easy maintenance, or even trouble-free access to the interior of the device.

The design of the test laboratory apparatus according to the technical solution is simple to manufacture, functional and reliable in the long term.

-3Overview of figures in drawings

The technical solution will be explained in more detail by means of the drawings, in which Fig. 1 shows in axonometric view the overall arrangement of the laboratory instrument with the hinged cover open, Fig. 2 shows a partial cross-section of the working space of the laboratory instrument; laboratory apparatus.

Example of technical solution

The laboratory apparatus for automatic examination of the Western blots controlled by the control system consists (Fig. 1) of a frame structure 30 on which the hinged lid 1 is mounted, which comprises control and monitoring means 4, which are a display 27, LEDs 28 and buttons 24. The lid 6 is accommodated with a carrier 6 with a plate of 7 strips, the laboratory apparatus further comprising pumps 3 and ha ----------- ----------- plates. 22. 29 feeds and reflections and stripping of strip content. The frame structure 30 is made of sheet metal.

In the front part 2 of the apparatus, control and monitoring means 4 are mounted on the hinged lid 1, below which six reagent pumps 3 are arranged in the frame structure 30. The reagent pumps 3 are peristaltic pumps. At the same time, in the working space 5 of the hinged lid 1, the sliding arm 8 of the reagent distribution is placed and the carrier 6 of the strip plate 7 is pivoted. In the working space 5, a drip tray 34 is also provided, which serves to catch any drips from the reagent supply tubes 22 and the strip suction tube 29 when they are not in the working position.

The sliding arm 8 of the reagent distribution (FIG. 3) includes a tilting arm 9 for strip strip content extraction 7, which is set so that the strip strip extraction points 25 are located in the swing axis 6 of the strip plate carrier 7. The strip plate carrier 6 is mounted on pins 33.

The tilting arm 9 (FIG. 3) is attached to a carrier 11, which is supported by a guide sleeve on a rotatable guide bar 12 of hexagonal shape, while the carrier 11 is also rotatably supported by a sliding arm 8 which is simultaneously connected by a toothed belt 35 to the drive 32 The sliding arm 8 thus performs only an axial movement, while the tilting arm 9 performs, together with the sliding arm 8, an axial movement as well as a rocking movement which is performed by pivoting the guide rod 12, which is by means of a toothed tooth (not shown). belt connected to a drive (not shown).

The strip plate carrier 6 (FIG. 3) comprises an eccentric jaw 13 connected to a drive 15, which is a stepper motor mounted in silent blocks 23 from the bottom 18 of the working space 5, while the drive 15 is simultaneously connected to an eccentric 14 .

A hinged cover 16 is disposed on the hinged cover 1 (FIG. 1) and is mounted on the same pins 31 as the hinged cover 1. A seal 17 is provided in the contact area of the hinged cover 1 and the hinged cover 16.

The bottom 18 of the working space 5 is inclined and comprises an outlet 19 of the drainage conduit.

The strip plate carrier 6 (FIG. 2) comprises means 20 for receiving a strip plate of different size. These means are grooves formed by the carriers 6.

Mounted to the sliding arm 8 (FIG. 2) is a holder 21 in which the reagent supply tubes 22 are freely stored.

The control system of the laboratory instrument for automatic examination of Western blots is connected to the programming device via the USB port. The apparatus further comprises a vacuum container (not shown) to which the strip suction hose 29 is connected and a vacuum pump (not shown).

-4GB 17834 Ul

PROTECTION RIGHTS

Claims (12)

PROTECTION RIGHTS 1. Laboratory apparatus, in particular Western j | Blots, controlled by a control system, consisting of a frame structure and a carrier with ΐ tray of strips, pumps and reagent supply tubing and strip suction, 5, characterized in that reagent pumps (3) and a hinged lid are located in the front part (2); (1) The control and monitoring means (4) are disposed, wherein in the working space (5) of the hinged lid (1), the strip carrier (6) and the sliding arm (8) of the reagent distribution are pivoted. Laboratory apparatus according to claim 1, characterized in that the sliding arm (8) for distributing the reagents further comprises a tilting arm (9) for aspirating the contents of the strip plate (7). Laboratory apparatus according to claim 2, characterized in that the suction points (25) of the strip tray (7) are located in the swivel axis (10) of the strip tray carrier (6). Laboratory apparatus according to claim 2, characterized in that the tilting arm (9) is attached to a carrier (11), which is mounted on a rotatable guide rod (12), and on the carrier 15 (11), the sliding arm (8) is also rotatably mounted, which at the same time is connected by a toothed belt (35) to the drive (32) and supported in a linear guide (26). * Laboratory apparatus according to claim 1, characterized in that the strip carrier (6) comprises a strip (13) supported by an eccentric (14) connected to the drive (15). Laboratory apparatus according to claim 5, characterized in that the drive (15) is 20 step motor mounted in silentblocks (23) at the bottom (18) of the working space (5), the drive (15) being connected to the eccentric (14) by the silentblock. and. Laboratory apparatus according to claim 1, characterized in that a hinged lid (16) is disposed on the hinged lid (1), and a seal (17) is provided in the contact area of the hinged lid (1) and the hinged cover (16). 25 Laboratory apparatus according to claim 1, characterized in that the bottom (18) of the working space (5) is inclined and comprises a drainage opening (19). Laboratory apparatus according to claim 1, characterized in that the strip carrier (6) comprises strip means (20) for receiving strip sizes (7) of different sizes, Laboratory apparatus according to claim 1, characterized in that it is displaceable 30 of the arm (8) is a holder (21) in which the reagent supply tubes (22) are freely stored. The laboratory apparatus of claim 1, further comprising a vacuum waste container to which the strip suction tube (29) and the vacuum diaphragm pump are connected. Laboratory apparatus according to any one of the preceding claims, characterized in that: 35 that the control system is connected to the programming device. 2 drawings