RU2590995C1 - Device for degassing and sealing of vacuum tubes - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be used in manufacturing of vacuum tubes for venous blood sampling for analysis. Device for degassing and sealing of vacuum tubes includes a vacuum chamber coaxial with a removable sleeve. Vacuum chamber comprises a cylindrical housing with a nozzle for air pumping, a bottom with a nipple for connection of a removable sleeve and a cover with a central nipple. Between the cover and the housing there is a fixed elastic membrane, in which a rod is coaxially mounted with the possibility of movement along the axis, in the lower part, the rod has a head located inside the chamber directly under the membrane, and there is a circular thrust in the upper part. There is a locking device for rob fixation in the upper part of the cover, a return spring is in the nipple between the cover of the chamber and the rob circular thrust. Removable sleeve is made with a bell in the lower part of which there is a sealing ring. There are quick-detachable connection elements on the exterior surface of the nipple of the chamber bottom and on the inner surface of the sleeve bell.

EFFECT: device has simple design and reduces the possibility of probable vacuum leakage.

1 cl, 1 dwg

Description

The invention relates to medicine and can be used in the manufacture of vacuum tubes for collecting venous blood from patients for analysis.

A prototype of the proposed device is a device for evacuating vacuum tubes for blood analysis (application KR 20110135228, АВВ 5/154; A61J 1/05; В67В 3/24; G01N 33/49, published on December 16, 2011). The known device includes a base on which is mounted a mechanism for raising and lowering the vacuum chamber with a drive, a vacuum chamber, which is a cube without a bottom. A pressure plate is installed in the chamber, on the lower surface of which there are holders of caps assembled with stoppers for corking tubes. A mechanism for raising and lowering the pressure plate with a drive is mounted on the lid of the vacuum chamber. The movable elements (rods) of the pressure plate drive passing through the chamber cover and the end surface of the chamber in contact with the base are provided with sealing elements.

The disadvantages of the prototype are the design complexity and the need to compensate for vacuum losses due to possible leakage through the sealing elements.

The objective of the invention is to simplify the design of the device and eliminate vacuum losses during evacuation of tubes.

The problem is solved by a device for evacuating and sealing vacuum tubes, which includes a coaxially located vacuum chamber and a removable cup, the vacuum chamber is a cylindrical body with a fitting for pumping air, a bottom with a nozzle for attaching a removable nozzle and a lid with a centrally located nozzle between the lid and an elastic membrane is fixed in the housing, in which the rod is coaxially mounted with the possibility of axial movement, in the lower part the rod has a head, is located In the chamber cavity directly below the membrane, and in the upper part there is an annular stop, a stopper for fixing the rod is installed in the upper part of the cap nozzle, a return spring is placed in the nozzle between the chamber cap and the annular stem stop, a removable cup is made with a bell, in the lower part the o-ring is located on the socket, on the outer surface of the nozzle of the bottom of the chamber and the inner surface of the socket of the glass are made elements of a quick coupler, for example bayonet.

The technical result of the invention is to simplify the design and reduce the possibility of a possible vacuum leak.

The invention is illustrated by the scheme of the proposed device.

A device for evacuating and sealing vacuum tubes includes a coaxially located vacuum chamber 1 and a removable cup 2. The vacuum chamber 1 has a cylindrical body 3 with a nozzle 4 for pumping air, a bottom 5 with a nozzle 6 for attaching a removable nozzle 2 and a cover 7 with a centrally located nozzle 8 An elastic membrane 9 is fixed in the vacuum chamber 1 between the cover 7 and the housing 3, in which the rod 10 is coaxially mounted with the possibility of movement along the axis. In the lower part of the rod 10 has a head 11 located in the cavity of the chamber 1 directly below the membrane 9, in the upper part of the rod 10 an annular stop 12 is made.

In the upper part of the pipe 8, a locking device 13 for fixing the rod 10 is installed, eliminating the spontaneous movement of the rod as a vacuum occurs in the vacuum chamber.

In the pipe 8 between the cover 7 of the chamber 1 and the annular stop 12 of the rod 10 is placed a return spring 14, designed to return the rod to its original position after disconnecting from the vacuum source. The removable cup 2 is made with a bell 15, in the lower part of the bell there is a sealing ring 16, on the outer surface of the pipe 8 and the inner surface of the bell 2 there are made quick-disconnect elements, for example, bayonet.

The device operates as follows.

A test tube 17, covered with a cap 18 with a stopper 19, is placed in a removable cup 2, which is attached to the vacuum chamber 1. From the vacuum chamber 1, air is pumped out through the nozzle 4 to a predetermined vacuum depth. The rod 10, fixed in the upper position by the locking device, limits the movement of the cap 18 with the stopper 19 upward when a vacuum is created in the chamber, and the head 11 of the rod 10 keeps the membrane 9 from deforming inside the chamber.

When the required vacuum depth is reached, the locking device 13 is released, while the elastic membrane 9 is deformed into the chamber 1 and the rod 10 pushes the plug 19 into the test tube 17. Then the connection of the chamber 1 with the vacuum source is closed and the cup 2 is disconnected from the chamber 1. Under the action of the return spring 14 the rod 10 returns to its original position and stops. From the glass 2 remove the evacuated and sealed tube.

The invention in comparison with the prototype has a simpler design. In the prototype, for closing the evacuated tubes, a special device with a drive is used - a pressure plate, in the lower part of which there are holders of caps with tube caps. In the proposed design, a test tube with a cap with a stopper placed on it is placed in a vacuum chamber. When air is evacuated from the chamber, the cap with the tube, under the action of air flow from the internal cavity of the tube into the chamber, freely rises above the tube to such a distance that it easily provides evacuation without moving the cap beyond the end of the tube. Limiting the displacement of the cap beyond the end of the tube is ensured by the gap between the outer end of the cap and the rod head. Corking of the test tube is carried out by the head of the rod when it moves inside the removable glass when the membrane is deformed inside the vacuum chamber under the action of the pressure force arising from the difference in atmospheric pressure and vacuum inside the chamber.

To ensure the tightness of the vacuum chamber in the prototype provides glands for sealing movable rods passing through the lid of the vacuum chamber, the wear of which can lead to leakage of the vacuum and, therefore, there is a need to compensate for these losses. In the proposed device, the tightness of the vacuum chamber is ensured by an elastic membrane and a sealing ring in the socket of a removable cup, which, unlike the prototype, compact static elements rather than movable ones, which significantly reduces their wear and, therefore, the possibility of vacuum leakage through them.

Thus, the proposed device has a simple design and reduces the possibility of vacuum leakage. A device for evacuating and sealing vacuum tubes can be used in industry for the production of vacuum tubes, as it is structurally consistent with the principle of operation of a rotary machine and can be adapted into a rotary machine in many ways. In this case, the performance of the machine will depend only on the needs of production and the diameter of the bearing rotor.

Claims (1)

A device for evacuating and sealing vacuum tubes including a coaxially located vacuum chamber and a removable cup, the vacuum chamber is a cylindrical body with a fitting for pumping air, a bottom with a nozzle for attaching a removable cup and a lid with a centrally located nozzle, an elastic membrane is fixed between the lid and the housing, in which the rod is coaxially mounted with the possibility of axial movement, in the lower part the rod has a head located directly in the chamber cavity under the membrane, and in the upper part there is an annular stop, in the upper part of the cap nozzle a locking device for fixing the rod is installed, a return spring is placed in the nozzle between the chamber cover and the annular stem stop, a removable cup is made with a bell, in the lower part of which there is an o-ring, on the inner surface of the socket and on the outer surface of the nozzle of the bottom of the chamber elements are made quick-connect, for example bayonet.

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