RU2478404C2 - Medium transfusion device - Google Patents

Abstract

FIELD: medicine, pharmaceutics.

SUBSTANCE: invention refers to medical equipment and may be used in transfusiology for transfusion of blood, its products, blood substitutes and infusion solutions. A device comprises first and second needles for connection to transfusion medium containers connected with tubes that are clamped. The tubes are connected with a microfilter series connected with a dropper and an injection assembly. The microfilter is provided with a filter element wherein a filter material is clamped between a body and a cover of the filter element. End surfaces of the body and the cover of the filter element are meshed. The body and the cover of the filter element are coupled by joint surfaces. The body of the microfilter and the body of the filter element, the cover of the microfilter and the cover of the filter element are gapped for supplying the transfusion medium through a supply union, distributing the filter material uniformly over the surface and discharging through a discharge union of the microfilter.

EFFECT: use of the given invention enables higher ease of manufacture and assembly quality of the microfilter, its reliability and ease of use of the microfilter device.

3 cl, 2 dwg

Description

The invention relates to medical equipment and can be used in transfusion for transfusion of blood, its products, blood substitutes and infusion solutions.

A device of the company "Pall" (the website of the company PALL Corporation dated 05/04/2010) "Microaggregate filter" (SQ40S Blood Transfusion Filter), used to remove microaggregates larger than 40 microns from blood and its components, is known. This device contains a housing connected on one side with a polymer needle with a removable cap, and on the opposite side with a coaxially located fitting for connecting a blood transfusion device. Inside the housing is a filter element. To connect the filter to the device for blood transfusion, it is necessary to additionally use special adapters. The need for additional manipulations by the medical staff when connecting the filter to the blood transfusion device creates inconvenience to the medical staff, and also does not exclude a violation of the sterility of the connected products and the possibility of infection of the transfusion medium.

The closest analogue is a device for transfusion of blood, its products, blood substitutes and infusion solutions (utility model RU 72407 U1), which contains two needles, a microfilter, a dropper and an injection unit connected by blood tubes on which the clamps are installed. The dropper body is made in the form of a truncated cone, the larger base of which is rigidly and coaxially connected to the microfilter body with the formation of a single dropper and microfilter assembly, which has a droplet located in the center of a single assembly and connecting the filtering cavity of the microfilter housing with the dropper cavity. The smaller base of the dropper body has a fitting for connecting to the tube. Each needle has a blood channel, and one of the needles is additionally equipped with an air duct. A filter in the form of a grid, the sizes of which is from 10 to 200 microns, is installed in the microfilter housing along the perimeter in front of the entrance to the droplet former. The device provides ease of use, elimination of air embolism and simplification of the design and manufacturing process. However, the known device has a low speed and insufficient filtering efficiency.

The technical problem that the invention solves is to increase the manufacturability of the microfilter assembly process, to ensure the quality of the product, its reliability, as well as to increase the efficiency and speed of filtration, ease of operation.

The technical result is achieved due to the fact that in the device for transfusion of the transfusion medium, including the first and second needles for connecting to containers with transfusion media, connected with tubes on which the clamps are installed, the tubes are connected to a microfilter connected in series with a dropper and injection the unit, the microfilter is equipped with a filter element, in which the filter material is sandwiched between the housing and the cover of the filter element, while the end surfaces of the housing and filter cover the elements are made in the form of grids, the microfilter housing and cover are hermetically connected to each other due to mating surfaces, there are gaps between the microfilter housing and the filter element housing, the microfilter cover and the filter element cover for the input of uniform distribution over the surface of the filter material and exit through the fitting to output the microfilter.

The technical result is enhanced due to the fact that the nozzle for input and the nozzle for outputting the microfilter are paired with the microfilter radially opposite.

The microfilter has the ability to vertically install and implement side filtering.

The invention is further disclosed with reference to the position of the drawings, where

figure 1 shows a General view of a device for transfusion of a transfusion medium,

and figure 2 - microfilter connected to it by means of a nozzle dropper in the context.

A device for transfusion of transfusion medium contains the first 1 and second 2 needles for connection to containers with transfusion media (not shown). The needles 1 and 2 are connected by tubes 3 and 4 to a tee 5. A microfilter 7, a dropper 8 and an injection unit 9 are connected in series to a tee 5 through a tube 6. Clamps 10 are installed on the tubes 3 and 4. The microfilter 7 is equipped with a filter element 11, in which the filter the material 12 is sandwiched between the housing 13 and the cover 14 of the filter element 11. The end surfaces 15 and 16, respectively, of the housing 13 and the cover 14 of the filter element 11 are made in the form of grids. The housing 17 and the cover 18 of the microfilter 7 are hermetically connected to each other due to the mating surfaces 19. The surfaces of the housing 17 are included in the gap between the surfaces of the cover 18 with the formation of a locking connection. The degree of tightness is increased due to the selection of materials for the execution of the housing 17 and the cover 18 of the microfilter 7 with varying degrees of stiffness. Between the housing 17 of the microfilter 7 and the housing 13 of the filter element 11, the cover 18 of the microfilter 7 and the cover 14 of the filter element 11 there are two gaps 20 for entering the transfusion medium through the nozzle 21 for input, uniform distribution over the surface of the filter material 12, uniform transmission through the filter material 12 and then exit through the fitting 22 for output. The filter element 11 is located in the microfilter 7 and divides its internal volume into a cavity for unfiltered blood and a cavity for filtered blood. The cavities are combined with the gaps 20. The filter material 12 is a package of several disks cut from non-woven material with varying degrees of delay of micro- and macrobunches.

A dropper 8 and an injection unit 9 are connected by a tube 23. An infusion rate regulator 24 is installed on the tube 23. A fitting 21 for input and a fitting 22 for outputting the microfilter 7 are radially opposite to the microfilter 7.

The design of the microfilter 7 provides its vertical orientation in space and the implementation of the so-called lateral filtration.

Side filtration is understood as a process in which the microfilter is placed vertically, the medium is supplied to the microfilter body from the side along the input plane of the filter material, and also discharged from the microfilter from the side.

The device operates as follows.

The needle 1 is connected to a container with an infusion solution, and the needle 2 to a polymer container with blood or blood product (erythromass), which must be introduced to the patient as a result of transfusion. Capacities are mounted on a tripod at a height of about 1 meter. The microfilter 7 is filled with a transfusion medium (erythromass), displacing the air in it.

After displacing air from the device using the regulator 24 on the tube 23 set the necessary rate of transfusion. The speed is determined by the number of drops falling from the droplet in the dropper 8. Transfusion medium is transfused to the patient. When this medium enters the microfilter 7 through the nozzle 21 for input, enters the gap 20, is evenly distributed over the area of the filter material 12 and passes through it. The transfusion medium is filtered uniformly throughout the filter element 7. The filtered medium passes into the gap 20 behind the filter element and is discharged from the microfilter 7 through the outlet 22.

Microfilter 7 holds at least 99% of macro- and microclots of blood larger than 25 microns.

The invention has the following advantages:

1) the microfilter has a simple design and a simple manufacturing process;

2) reliable sealing is ensured in the microfilter due to the interaction of mating surfaces and the selection of materials to perform mating parts;

3) the microfilter provides a high degree of purification of the transfusion medium and a high filtration rate;

4) the convenience of using the device with a microfilter is provided;

5) increased speed and filtering efficiency due to the vertical location of the microfilter.

Claims (3)

1. A device for transfusion of a transfusion medium, comprising the first and second needles for connecting to containers with transfusion media, connected to tubes on which the clamps are mounted, the tubes being connected to a microfilter connected in series with a dropper and injection unit, characterized in that the microfilter equipped with a filter element, in which the filter material is sandwiched between the housing and the cover of the filter element, while the end surfaces of the housing and the cover of the filter element are made in the form of a net , the microfilter housing and cover are interconnected due to mating surfaces, there are gaps between the microfilter housing and the filter element housing, the microfilter cover and the filter element cover for inlet, uniform distribution over the surface of the filter material and exit through the outlet for output microfilter. 2. The device according to claim 1, characterized in that the nozzle for input and the nozzle for output are paired with the microfilter radially opposite. 3. The device according to claim 1, characterized in that the microfilter has the ability to vertically install and implement side filtering.

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