RU2652561C1 - Device for supplying of micro-quantities of a fluid - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device relates to a medical equipment, namely to a device for supplying micro-quantities of a fluid. Device includes an electric drive, on the rod of which a coupling is mounted, made with possibility of connection to a magnet located in the metering pump separating diaphragm, inside the suction chamber. Suction chamber is located in the body of the metering pump. Metering pump is installed in the electric drive transitional casing and is fixed with a fixing latch. Pump comprises a discharge line connected to the outlet valve and a suction line connected to the suction chamber. Pump includes a displacement chamber with a working diaphragm and a central opening in the working diaphragm connected to the suction chamber. Pump also includes a suction chamber with a separating diaphragm and an output valve with an outlet valve diaphragm connected to the displacement chamber through the displacement chamber outlet channel and the outlet valve diaphragm. Suction chamber separating diaphragm surface is made corrugated. On the surface of the diaphragm outlet valve facing the displacement chamber body, by the center of the diaphragm a circular protrusion is formed with a cavity inside, which is interfaced with the central channel of the displacement chamber. Outlet valve diaphragm contains at least 4 openings. Displacement chamber volume exceeds the displacement chamber outlet channel volume by at least 5 times.

EFFECT: technical result is an increase in the outlet pressure created by the pump without additional increase in power consumption, ensuring reliable sealing of the outlet chamber and the displacement chamber and reliable dosing of the liquid medium.

1 cl, 5 dwg

Description

The invention relates to medical equipment and relates to metering pumps for the metered supply of micro-quantities of a fluid, for example, medicinal solutions for the treatment of various diseases, and may find application in self-treatment by a patient, for example, diabetes mellitus.

Dosing devices come in various types: mechanical, automatic and electronic.

The most widely used for the dosed supply of liquid substances are piston-type mechanical devices, the so-called metering syringes with a screw-nut type micro-feeding mechanism.

Known syringe injector META (Ostrava) - MADI (Czech Republic), comprising a housing with a protective cap, which houses a reservoir with a replaceable needle, a piston with a rod and a screw mechanism for moving the rod, connected with a rotating metering button and located in the end of the housing. To carry out the injection, the protective cap is removed, a needle is inserted into the patient's body, and then, by rotating the metering button, the required amount of the drug is administered. In this case, the screw mechanism converts the rotation of the button into the translational movement of the rod with the piston, which squeezes the drug from the reservoir into the needle. The dose is formed by counting the revolutions of the metering button. This syringe injector is inconvenient for the patient, because he has to make injections with two hands: hold the device with one hand and rotate the metering button with the other.

In recent years, there have been reports of the successful use of electronic metering systems for the treatment of cancer and surgical diseases (US Pat. RF No. 2221594, No. 2368312, PM PM No. 157058). These dispensers allow you to continuously and accurately inject drugs. However, dispensers are very expensive, it is difficult to administer several drugs, which requires a serial and parallel connection of metering devices.

Known and widely used mechanical devices of the membrane (diaphragm) type.

Known membrane electromagnetic pump containing a membrane mounted in the housing with a rigid center made of ferromagnetic material, limiting the chamber of the electromagnetic drive, communicating with the atmosphere of the discharge channel, in which an adjustable choke is installed (ed. St. USSR No. 628334).

Known diaphragm metering pump containing a housing mounted in the housing of a spring-loaded diaphragm displacer and a single-winding electromagnetic drive connected to a power supply by pulse current (ed. St. USSR No. 1705609).

A volume pump is known in which the valve assembly comprises a single flexible plate locking element interacting with the peripheral part of one side with the inlet seat, the passage opening of which is in communication with the inlet pipe, and the central part of the other side with the output seat, the passage opening of which is in communication with the pump outlet pipe . In this case, the locking element is made in the form of a continuous flexible disk freely placed between the saddles, and the latter are mounted coaxially with the possibility of mutual axial movement (ed. St. USSR No. 840459). In addition, at least one of the seats of the locking element is the end face of the corresponding pump nozzle.

Known volumetric metering pump for endovascular administration of drugs, containing a housing with an inlet channel and a discharge valve, an elastic diaphragm placed in the housing with the formation of a displacement chamber, and a plunger mounted to interact with the diaphragm. At the same time, an annular groove is provided at the end of the housing on the side of the displacement chamber, which is in communication with the inlet channel and is located coaxially with the displacement chamber to form a dividing belt between it and the groove with an edge rounded on the side of the displacement chamber (ed. USSR certificate No. 1585548).

A device for supplying micro-quantities of a fluid, including an electric drive, a metering pump for supplying micro-quantities of a fluid, containing discharge and suction lines, a displacement chamber with a working diaphragm and a central opening, a suction chamber with a separation diaphragm and an outlet valve with a diaphragm (US Pat. RF No. 1086215). The disadvantage of this metering pump is its low performance, the inability to replace the metering pump.

The closest technical solution to the proposed technical solution is a device for supplying micro amounts of fluid, including an electric drive and a metering pump containing discharge and suction lines, a displacement chamber with a working diaphragm and a central opening, a suction chamber with a separation diaphragm and an outlet valve with a diaphragm, at this drive is equipped with a transitional housing in which the metering pump is installed and secured in it with a latch-lock, while installed on the actuator rod a sleeve coupling connected to a magnet located inside the suction chamber in the separation diaphragm (PM RF 109664).

Common disadvantages of diaphragm pumps are low performance, high power consumption, supply fluctuations depending on external conditions due to changes in the amplitude of the membrane oscillations and the inability to control the amplitude with a constant voltage supply, unreliable dosing of a liquid medium with gas bubbles in it.

The purpose of the proposed technical solution is to increase the operational properties of the device for supplying microquantities of the current fluid, for example, for the long-term administration of anticoagulants and other medicinal solutions into the regional sections of the human arterial system selected for local treatment.

The technical result is an increase in the outlet pressure created by the pump without an additional increase in energy consumption, ensuring reliable sealing of the displacement chamber and the outlet chamber from other pump cavities, and reliable metering of the liquid medium.

The technical result is achieved through the use of a device for supplying micro amounts of fluid, including an electric drive, on the rod of which a coupling is mounted that connects to a magnet located inside the suction chamber in the diaphragm of the metering pump installed in the transitional housing of the electric drive and containing a discharge and suction line, a camera displacing with a working diaphragm and a central opening, a suction chamber with a separation diaphragm and an outlet valve with a diaphragm. Moreover, the surface of the separation diaphragm of the suction chamber is made corrugated around, and the outlet valve diaphragm is made in the form of a cup, on the surface of which, facing the displacement chamber body, a round protrusion is made in the center of the diaphragm with a cavity interfaced with the central channel of the displacement chamber, and contains at least 4 holes, while the volume of the displacement chamber exceeds the volume of the outlet channel in the displacement chamber by at least 5 times.

The technical essence of the proposed solution is as follows:

- the separating diaphragm of the suction chamber with a magnet located in its cavity is made around the corrugated circumference, which reduces by several times its resistance to the advancement of the actuator rod;

- the diaphragm of the outlet valve, which is made in accordance with the proposed technical solution, provides a reliable fit of the outlet diaphragm to the surface of the housing of the displacement chamber and enhances its valve property in comparison with a conventional flat diaphragm;

- on the diaphragm of the outlet valve, the holes located around the circumference reduce the resistance to the movement of the liquid stream when the next portion is fed;

- the volume of the displacement chamber must exceed the volume of the outlet channel in the displacement chamber by at least 5 times, which ensures reliable metering of the liquid medium with the content of gas bubbles in it.

The invention is expressed in the aggregate of essential features sufficient to achieve a technical result.

The present invention allows to create an outlet pressure at the injection site of the drug solution of more than 0.5 ATM. This significantly reduces the likelihood of blood clots, not only with intravenous infusions, but especially with intraarterial infusions. The use of the inventive pump for infusion in various parts of the arterial system opens up new possibilities for the treatment of cardiovascular, oncological and a number of other diseases.

Patent studies have shown that there are no technical solutions with the indicated set of essential features in similar devices for a dosed injection of a drug by a patient on his own, i.e. the proposed solution meets the criterion of novelty.

We believe that the information set forth in the application materials is sufficient for the practical implementation of the invention.

The essence of the proposed system is illustrated by the following description and drawings.

In FIG. 1 shows a general diagram of the device, where 1 is the electric drive, 2 is the actuator stem, 3 is the coupling, 4 is the transitional housing of the electric drive, 5 is the metering pump housing, 6 is the magnet, 7 is the pump bottom, 8 is the suction chamber, 9 is the separation diaphragm of the suction chamber, 10 - suction line, 11 - discharge line, 12 - displacement chamber, 13 - working displacement of the displacement chamber, 14 - central hole in the working diaphragm, 15 - output chamber, 16 - outlet valve, 17 - outlet valve diaphragm, 18 - outlet fitting, 19 - lid-latch

In FIG. 2 shows the separation diaphragm of the suction chamber, where 20 is the corrugated surface of the separation diaphragm, 21 is the cavity for installing the magnet.

In FIG. 3 shows the diaphragm of the outlet valve, where 22 is a round protrusion, 23 is a cavity in a round protrusion, 24 are holes.

In FIG. 4 shows the output fitting, where 25 is the annular groove for installing the diaphragm of the output fitting.

In FIG. 5 shows the central part of the pump, where 26 is the annular protrusion of the displacement chamber, 27 is the output channel in the displacement chamber.

Device Description

In the assembled state of the device (Fig. 1), the working diaphragm (13) of the metering pump (5) is tightly mounted on the annular protrusions (26) of the displacement chamber (12), and the diaphragm of the outlet valve (17) is installed in the annular groove (25) of the outlet fitting (18) and when installing the remaining parts of the metering pump, the displacement chamber (12) and the outlet chamber (15) are sealed from other pump cavities.

In the initial state, the metering pump (5) (Fig. 1) is inserted into the adapter housing (4) of the electric drive (1) and secured by a lid-lock (19).

When unscrewing the cover-lock (19), the metering pump (5) is easily removed from the adapter housing (4) of the electric drive (1).

When installing the metering pump (5) in the adapter housing (4), the magnet (6) attracts a sleeve (3) made of magnetizable material and connects the separation diaphragm (9) with the movable rod (2) of the electric drive, thereby forming an inextricable construction i.e. the reciprocating movement of the rod (2) during operation of the electric drive (1) causes, respectively, the reciprocating movement of the separation diaphragm (9).

The dosed liquid through the suction line (10) of the suction chamber (8) and the central hole (14) in the working diaphragm (13) enters the displacement chamber (12), formed by one surface of the housing of the displacement chamber (12). When the separation diaphragm (9) moves under the action of the rod (2) of the electric actuator (1) to the right, the protruding part of the separation diaphragm overlaps the central hole (14) in the working diaphragm (13) and a portion of the liquid is ejected from the displacement chamber (12) through the outlet valve (16) formed by another flat surface of the housing of the displacement chamber (12) and the diaphragm of the outlet valve (17) into the outlet chamber (15) and then through the outlet fitting (18) and the discharge line (11) to the outside.

When the separation diaphragm (9) moves to the left, a new portion of the liquid from the suction chamber (8) through the hole (14) again enters the displacement chamber (12).

When the volume of the displacement chamber (12) is less than 5 times the volume of the outlet channel (27) and in the case of gas bubbles in the dosed liquid medium, as well as when the back pressure at the pump outlet is caused, for example, by arterial pressure in the blood vessel where the liquid is injected , a portion of the liquid along with the gas may not be supplied from the displacement chamber, which can lead to negative consequences.

Claims (1)

A device for supplying microfluids of a fluid, including: an electric drive, on the stem of which a coupling is mounted, configured to connect to a magnet located in the separation diaphragm of the metering pump, inside the suction chamber located in the metering pump housing; a metering pump installed in the transitional housing of the electric drive and secured by a lid-retainer, the pump comprising: a discharge line connected to the outlet valve, and a suction line connected to the suction chamber, a displacement chamber with a working diaphragm and a central hole in the working diaphragm connected with a suction chamber, a suction chamber with a separation diaphragm; and an output valve with a diaphragm of the output valve connected to the displacement chamber through the output channel of the displacement chamber and the diaphragm of the output valve, characterized in that the surface of the separation diaphragm of the suction chamber is corrugated, and on the surface facing the housing of the displacement chamber of the diaphragm of the output valve, in the center of the diaphragm made a round protrusion with a cavity inside, paired with the Central channel of the displacement chamber, and the diaphragm of the outlet valve contains at least 4 holes, while the volume of the chamber s displacement exceeds the displacement chamber outlet is not less than 5 times.

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