RU125074U1 - VACUUM TABLE OF CENTRIFUGES - Google Patents

Abstract

The utility model relates to the field of medical technology, in particular, to autotransfusors - devices for collecting and processing patient's wound blood during an operation in order to return it to the patient’s bloodstream, which significantly reduces the need for donor blood, and in some cases allows it refuse.

The task, which the utility model aims to solve, is to increase the efficiency of the centrifuge vacuum table, by creating conditions for fixing the bell on the centrifuge vacuum table, which eliminates the possibility of misalignment (improper installation) and weak retention of the bell.

The technical result of the utility model is to increase the efficiency of the operation of the centrifuge vacuum table, by fixing the bell on the centrifuge table by creating a vacuum under the bell, in the absence of a mechanical fixation of the bell.

Description

The utility model relates to the field of medical technology, in particular, to autotransfusors - devices for collecting and processing patient's wound blood during an operation in order to return it to the patient’s bloodstream, which significantly reduces the need for donor blood, and in some cases allows it refuse.

Most of these devices include a separator for the separation of blood fractions. This separation is carried out by the method of high-speed centrifugation (separation) of blood in a special bell mounted on the centrifuge table.

The proposed utility model can be used to securely hold the bell on the table of a centrifuge rotating at high speed.

Known used in clinical practice centrifuge domestic device for the collection and processing of wound blood "Agat" [1].

Also known centrifuge collection and processing of wound blood, described in patent number 114610, selected as a prototype [2].

The task, which the utility model aims to solve, is to increase the efficiency of the centrifuge vacuum table, by creating conditions for fixing the bell on the centrifuge vacuum table, which eliminates the possibility of misalignment (improper installation) and weak retention of the bell.

The technical result of the utility model is to increase the efficiency of operation of the centrifuge vacuum table, by fixing the bell on the centrifuge table by creating a vacuum under the bell, in the absence of a mechanical fixation of the bell.

Another technical result of the proposed utility model is the simplicity of the table design, reducing the requirements for its preliminary balancing, simplicity and reliability of fixing the bulb (the calculated holding force at the bottom of the square bell and the average vacuum of 49 kPa is approximately 50 kg).

The utility model is illustrated in the drawing, which shows a functional block diagram of a vacuum centrifuge table.

The figure 1 presents the scheme of the claimed device.

1 - centrifuge vacuum table

2 - a sealing ring

3 - rotor

4 - bearing

5 - stator

6 - bell

7 - air filter

8 - pressure sensor

9 - air pump

10 - highway

Vacuum centrifuge table works as follows.

Before starting the operation, the bell 6 is pre-installed on the centrifuge vacuum table 1, along the outer radius of which a groove is machined, in which an o-ring 2 is laid. the rotor 3, which in turn is aligned horizontally with a hole in the bearing 4 and a hole in the stator 5. Through line 10, the air pump 9 causes air to be pumped out from under olokola 6 mounted on a rotating table with a rubber sealing ring 2. The sealing ring seals the space between the bell and the vacuum table. Line 10 is made of silicone material. On line 10, the air passes through the air filter 7, being cleaned of small particles. A vacuum is created, the pressure sensor 8 shows that there are no violations of the bell 6, the bell 6 is pressed against the vacuum table 1, the rotor 3 rotates and the vacuum table of the centrifuge with the bell 6 spins up to the required speed. Vacuum makes the fixation of the bell more reliable.

Thus, it is possible to pump air out from under the bell installed on the table, pressing it to the table and spinning it up to the necessary revolutions in the centrifuge, without using mechanical clamps.

Moreover, a pressure sensor installed on the vacuum line informs about possible problems with the bell being fixed on the vacuum table and does not work if the vacuum does not reach the specified value, thus indicating a malfunction or possible distortion of the bell installation. When this occurs, an emergency stop of the centrifuge or its launch is not allowed.

The pressure sensor allows to judge about the absence of violations of the bell installation, to operate with air leakage and does not allow the centrifuge to be started without the bell installed.

The pressure sensor monitors a constant pressure in the system and is triggered by an air leak, for example, through a broken line, or a loose connection of system components. Using the specified pressure sensor you can adjust the pump power. For example, when a vacuum under the bell has already formed, and there is practically no air leakage under the bell (the pipeline is sufficiently tight), then there is no need for the pump to work with the same initial power with which it worked when creating the vacuum and this power can be significantly reduced. The pressure sensor will also not allow the centrifuge to be started without a bell installed.

A centrifuge vacuum table is much easier to balance compared to a table with mechanical locks, which require their selection in weight, size and shape to eliminate imbalance when the table rotates. In the absence of mechanical locks, the acoustic noise of the centrifuge operation also decreases.

A solution is proposed in which the supply of vacuum (air exhaust) is carried out through the holes in the rotor, the hole in the bearing and the hole in the stator of the centrifuge. The vacuum is created before the start of the rotor rotation and is maintained further constantly for a reliable holding of the bell in the whole range of rotation variation of the centrifuge.

The air filter protects the vacuum pump from small particles of dust, droplets, etc. that, once in the pump, can damage it.

The inventive vacuum centrifuge table performs work using a vacuum, for which it provides a pipeline for pumping out air. This leads to a more reliable attachment of the bell to the centrifuge vacuum table. In addition, the requirements for balancing the table are reduced.

In the claimed utility model, a bearing 4 of sapphire - a single crystal with a high degree of hardness is used for pumping out air through a rotating rotor of a centrifuge and a longer life of the vacuum table. Due to its qualities and high-precision faceting (up to 1 micron), it reduces friction between the rotor and the stator, does not require lubrication, and has the necessary tightness for pumped air and high resistance to mechanical stress.

The industrial applicability of the claimed vacuum centrifuge table is determined by the possibility of its manufacture in industrial production conditions using standard equipment, modern materials and technologies.

Bibliography:

1. The RF patent for useful model No. 114610 dated 09.22.2011.

2. RF patent for the invention №2284194 dated March 29, 2005

Claims (1)

A centrifuge table comprising a stator, a bearing, a rotor and a centrifuge bell mounted on the table, characterized in that it contains an air pumping line from under the bell connected through holes in the bearing, stator and rotor with the space under the bell, and the bell is hermetically mounted on the centrifuge table using a rubber sealing ring, while the pressure sensor inserted has the ability to signal a violation of the bell installation, operate with air leaks and prevent the centrifuge from starting without a bell.

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