RU2240142C2 - Device for dosed liquid supply - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has pump for supplying liquid doses and engine with power supply source connected to it. The pump is of diaphragm type and has chamber with flexible wall for receiving liquid. Step-type engine is applied as the engine. A member is eccentrically fixed on step-type engine shaft. Its external surface is manufactured as circular cylinder interacting with flexible diaphragm type pump chamber wall. The mentioned member is manufactured as rolling-contact bearing which external race is connected to the flexible diaphragm type pump chamber wall.

EFFECT: small size; simplified control.

3 cl, 2 dwg

Description

The invention relates to medicine, in particular to devices intended for dosing the introduction into the patient's body of medicines in liquid form.

A device for the metered administration of liquid drugs, controlled manually (application EP 143503).

Known infusion device intended for implantation in the patient’s body, comprising a housing with a reservoir for storing medicinal fluid, an injection and dosing unit for pumping fluid from the reservoir to the outlet of the catheter. The device comprises means for balancing the pressure between the interior of the housing and the environment. The tool is made in the form of a hydrophilic or hydrophobic membrane with pores of a certain size. The tool can also be made in the form of an infusion membrane in combination with an overpressure valve in the housing wall (application DE 3138320).

A device for supplying multiple doses of a liquid medicine, including a container for drugs in communication with the pump. An inlet opening communicating with the reservoir and an outlet opening with a catheter are made in the pump housing. Through the catheter, the drug is supplied in liquid form to the patient. Between the inlet and outlet openings of the pump there is a fluid channel and a chamber in which a certain volume of liquid medicine is placed. A valve is installed between the inlet and the chamber in the channel to allow fluid to enter the chamber, and between the chamber and the outlet there is a pressure reducing valve that operates when the pump is turned on. Above the chamber is a flexible deformable pump wall (US Pat. No. 4,634,427).

Closest to the claimed device is an implantable infusion system with a pump, designed for continuous administration of drugs at a given speed, including a housing and a pump with a power source (application EP 110117). Between the parallel walls of the casing there is a pump with a pump chamber, inside of which there is a constantly magnetizable piston that makes reciprocating movements. The pump, on the one hand, communicates with an expandable reservoir for drugs adjacent to one wall of the casing, and on the other hand, with a catheter for introducing the drug into the patient's body. The two-way valve causes the drug to enter the pump chamber during a short intake stroke and to withdraw it from the chamber with a given infusion rate during a longer discharge stroke. The movement of the piston stroke during short strokes of the intake is carried out under the action of magnetic coils located inside the housing, and during longer strokes of the release - by magnetic attraction between the piston and the pole end of the electromagnet.

The closest analogue described has disadvantages that limit its use. Firstly, this device is quite complicated, since it requires a piston magnetization system and an appropriate power source. Secondly, the complexity of the device determines its lack of reliability. Thirdly, the control system of this device, if necessary, to change the volume of injected liquid will be quite complicated, since it is necessary to change the magnitude of the forward and reverse piston strokes, while influencing the timing of these strokes.

The problems solved by the invention is the creation of a simple, reliable small-sized device for dosed fluid supply by means of a micropump (diaphragm pump) with adjustable capacity, and the device should provide easy controllability, that is, the ability to easily change the fluid flow rate over time.

The tasks are solved due to the fact that in the device containing a pump for dosed fluid supply and an associated motor with a power source, the pump is made in the form of a diaphragm pump containing a fluid chamber made of silicone rubber with a flexible wall, while a stepping motor is used the motor, and an element interacting with the flexible wall of the diaphragm pump chamber is eccentrically fixed on the shaft of the stepper motor, the outer surface of the element being made in the form of a cylindrical a rotationally mounted relative to the flexible wall of the chamber of the diaphragm pump in contact with it, and the eccentrically fixed element is made mainly in the form of a rolling bearing, the outer circular cylindrical cage of which is connected to the flexible wall of the chamber for liquid.

The device in a preferred embodiment is equipped with a microcontroller that controls the rotation of the shaft of the stepper motor. In this case, the microcontroller is connected to one or more sensors of the patient's condition.

The technical result consists in simplifying the device, ensuring compactness and reliability of its operation.

The achievement of these results is due to the fact that the executive body acting on the flexible wall of the diaphragm pump is a bearing eccentrically mounted on the shaft of a stepper motor, which makes it possible to inject liquid according to any given law. At the same time, along with the use of a small-sized stepper motor with low energy consumption and a reliable diaphragm micropump (for example, as in US Pat. No. 4,634,427), a bearing or a similar tool is used as an actuator, while ensuring the simplicity of the device and its compactness, it is possible to carry out reliable control the flow of injected fluid on a command from the microcontroller.

The volume of fluid injected by the diaphragm pump is constant in one stroke. Due to this, when the stepper motor shaft is rotated through a predetermined angle, it is possible to obtain a predetermined amount of fluid supply, and the stepper motor used is simple, reliable, miniature, and has good controllability using current pulses. In mechanics, the executive bodies in the form of an eccentric are widely known. However, in the inventive device, the combination “stepper motor - eccentric", on the one hand, allows for accurate dosage of the injected drug by a simple and reliable method - by turning the actuator eccentrically mounted on the motor shaft by a predetermined angle. On the other hand, the design of the bearing (an outer cage rolling or sliding along the inner cage) ensures the simplicity of the actuator, and the immobility of the outer casing with respect to the flexible chamber wall provides a long device life (reliability), since the moving parts of the actuator are bearing parts defined for mutual movement.

The scope of the proposed device is wider than that of the described analogues, since the execution of the executive body of the device in combination with a silicone diaphragm pump and a stepper motor allows the device to be used in cases where the use of peristaltic or, in particular, gear pumps is impossible due to their negative impact to the pumped liquid.

An additional technical result from the use of the present invention is achieved due to the presence of a small-sized stepper motor in the design of the device, which allows you to connect a microcontroller to it and provide a metered injection of the drug at a predetermined frequency, including when using the device as an implantable body. The simplicity of pairing a stepper motor with a microcontroller provides a feedback system. In this case, the amount of medication administered is calculated according to a given program depending on the data received from sensors located in the human body (for example, from a blood sugar sensor). When implanting the device to the patient, the combination of a stepper motor and a microcontroller will allow for contactless control of the dosage of the drug (without surgical intervention in the body). The proposed implementation of the executive body in the form of a bearing, in particular a rolling bearing, ensures reliability in operation due to the exact dosage of the injected liquid when the stepper motor shaft is rotated by a predetermined angle.

The invention is illustrated by drawings, in which:

figure 1 shows a functional diagram of a device for dosed fluid supply;

figure 2 is a schematic diagram of a device.

A device for dosed liquid supply contains a stepper motor 1, a microcontroller 2, which controls the rotation of the shaft 3 of the stepper motor 1 according to a predetermined program (determines the number of revolutions or the angle of rotation of the stepper motor shaft per unit time, depending on the signals from the control panel or signals from sensors).

The device also contains a rigid housing 4, on which is mounted a micropump - a silicone diaphragm pump 5, and the aforementioned stepper motor 1. A cylindrical body, for example a rolling bearing 6. is eccentrically mounted on the shaft 3 of the stepper motor 1. There is a power source, for example, a battery 7, electrically connected to the microcontroller 2.

The outer race of the rolling bearing 6 is fixedly mounted relative to the flexible wall of the diaphragm pump 5 due to their bonding to each other or due to the friction force. As a result, the rotational movement of the shaft 3 of the stepper motor 1 is converted into a reciprocating motion of the bearing 6 in a vertical plane. The bearing 6 cyclically compresses the pump 5, thereby pumping the liquid.

The amount of injected fluid is determined by the eccentricity of the bearing 6, the speed of the stepper motor 1 and the volumetric capacity of the silicone diaphragm pump 5. By changing the speed of the stepper motor 1, you can adjust the fluid flow from ~ 1 ml / day to ~ 100 l / day.

Using a microcontroller to control the stepper motor 1 allows you to provide any characteristic injection of a certain amount of liquid in time.

The battery 7 for periodic recharging is connected to the charger 8. Charging the battery 7 can be carried out, including, and contactless induction method. The inductor method of charging the battery is based on the fact that if an electric current passes through the induction coil of the charger 8, the resulting alternating magnetic field causes an EMF in a nearby induction coil connected to the battery 7. This phenomenon is often used for contactless transmission electrical energy, including when charging batteries.

The microcontroller 2 and the power source (battery 7) are also electrically connected to the receiver 9, which provides contactless (as shown in the diagram) or contact reception of digital control signals supplied to the microcontroller 2 from the control panel 10. Depending on the signals supplied, the microcontroller 2 gives commands to start or stop the stepper motor 1, to change the operation parameters of the stepper motor 1 and, accordingly, the silicone diaphragm pump 5 (micropump). The operation parameters are set by the microcontroller 2 program.

This embodiment of the device allows you to provide the ability to quickly change over a wide range of performance silicone diaphragm pump 5 (micropump), including remotely.

The microcontroller 2 and the rechargeable battery 7 are also electrically connected to the transmitter 11, which provides contact or contactless transmission from the microcontroller 2 to the control panel 10 of digital signals characterizing the operation parameters of the device (set dependence of the injection volume on time, program termination, etc.)

The control panel 10 is used to remote control the micropump and monitor its operation. The control panel includes a battery, a receiver, a transmitter, a keyboard for entering data to control the operation of the micropump, a display for displaying settings and faults.

Sensors 12 of the patient's condition, for example, a blood sugar sensor, can be additionally connected to the microcontroller 2. The analog signal from such a sensor can be sent to microcontroller 2, which converts the analog signal from sensor 12 into a digital form and then analyzes it (for example, compares it with a predetermined threshold value of the measured parameter). Based on the information received from one or more sensors and the program embedded in the microcontroller 2, if necessary, the performance of the micropump is adjusted by increasing or decreasing the speed of the stepper motor 1.

Claims (3)

1. Device for a dosed liquid supply containing a pump for a dosed liquid supply and an associated motor with a power source, characterized in that the pump is made in the form of a diaphragm pump containing a silicone rubber fluid chamber with a flexible wall, wherein it is an engine a stepper motor was used, and an element interacting with the flexible wall of the diaphragm pump chamber was eccentrically fixed on the shaft of the stepper motor, the outer surface of the element being made in the form of a circular cylinder a single surface fixed without rotation with respect to the flexible wall of the chamber of the diaphragm pump in contact with it, the eccentrically fixed element being made predominantly in the form of a rolling bearing, the outer casing of which is connected to the flexible wall of the chamber for liquid. 2. The device according to claim 1, characterized in that it is equipped with a microcontroller that controls the rotation of the shaft of the stepper motor. 3. The device according to claim 2, characterized in that the microcontroller is connected to one or more sensors of the patient's condition.

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