WO2018203014A1

WO2018203014A1 - Flow meter capable of being controlled remotely

Info

Publication number: WO2018203014A1
Application number: PCT/FR2018/051120
Authority: WO
Inventors: Noura Hamdi; Imad Hamdi; Romuald Dinterich
Original assignee: Mediconseil
Priority date: 2017-05-04
Filing date: 2018-05-04
Publication date: 2018-11-08
Also published as: FR3066016A1; FR3066016B1

Abstract

The invention relates to a flow meter allowing the control, measurement and/or adjustment of the flow rate of a fluid flowing in a flexible pipe (2) having a modular fluid flow area, said flow meter comprising at least one sensor (3) configured to measure the flow rate of the fluid flowing in the pipe (2) as well as flow rate reduction means (4) making it possible to limit the flow rate of the fluid flowing in the duct (2) by narrowing the flow area, said flow rate reduction means being arranged to narrow the flow area upstream from the sensor (3) when the pipe (2) is equipped with the flow meter, characterised in that said flow meter includes communication means capable of communicating bidirectionally with means for remote control of the means for reducing the flow rate (4) and the data collection frequency (3).

Description

DEBITMETER FITABLE TO BE REMOTELY CONTROLLED

TECHNICAL FIELD OF THE INVENTION

[001] The invention relates to a flow meter for controlling, measuring and adjusting the flow rate of a fluid flowing in a flexible pipe.

By flexible conduit is meant in the present application a pipe that can be compressed so as to move from a so-called relaxed position to a so-called compressed position in which the passage diameter is reduced, and vice versa.

[003] The flow meter is intended in particular, but not exclusively, to be used with medical devices delivering liquid solutions, such as perfusion devices.

STATE OF THE ART

[004] Flow meters for medical use administer fluids to be infused continuously in a defined amount per unit of time. The quantity of liquid to be delivered per unit of time is conventionally adjusted manually by acting on the flow rate of the liquid flowing in the tubing of the associated infusion system by more or less restricting the diameter of the tubing according to the desired flow rate.

[005] The adjustment of the flow via such flow meters however requires the intervention of medical personnel. Moreover, such flow meters require frequent control by the medical staff of the flow of the liquid administered.

[006] In an effort to overcome or at least limit the time allocated by the medical staff to flow control, it has been developed flow meters transmitting to a computer server flow data collected by sensors provided for this purpose on the tubing of the associated flowmeter so as to allow remote monitoring of the flow of the fluid. For this purpose, the flowmeters are equipped with transmitters transmitting the flow data at predefined time intervals. Such flow meters do not, however, overcome the problem of in situ adjustment of flow meters by medical personnel. Moreover, the frequency of the measurement of the data measured by the sensors is fixed. However, the defined frequency may in some cases be inappropriate. The invention aims to provide a communicating flow meter to overcome the aforementioned drawbacks of the flowmeters of the prior art.

OBJECT OF THE INVENTION

[009] For this purpose, and according to a first aspect, the invention proposes a flowmeter for controlling, measuring and / or adjusting the flow rate of a fluid flowing in a flexible pipe having a fluid passage section. flexible, said flowmeter comprising at least one sensor configured to measure the flow rate of the fluid flowing in the pipe and flow reduction means for limiting the flow of fluid flowing in the pipe by narrowing the passage section , said flow reduction means being arranged to ensure the narrowing of the passage section upstream of the sensor when the pipe is equipped with the flow meter, the flowmeter being remarkable in that it comprises communication means capable of communicating bidirectionally with remote control means flow reduction means.

The flowmeter thus configured makes it possible to act remotely not only on the flow rate of the liquid flowing in the flexible pipe but also on the frequency of the transmission of data relating to the flow of the fluid.

Advantageously, the communication means comprise a transmitter / receiver configured to receive control commands from the remote control means and a microcontroller controlling the flow reduction means according to the control commands transmitted by the transmitter / receiver to the microcontroller.

Advantageously, the transmitter / receiver is configured for the transmission of data recorded by the sensor and processed by a microcontroller to a remote central management server. [0013] Advantageously, the remote control means are configured to control the data collection frequency from the microcontroller (8).

Advantageously, the flow meter comprises an internal clock programmed to launch instructions for collecting data from the sensor from data collection frequency commands from the microcontroller which frequencies are remotely modifiable via the communication means. .

Advantageously, the sensor is selected from the group of sensors consisting of Hall effect sensors, ultrasonic sensors, electromagnetic sensors and thermal sensors.

Advantageously, the flowmeter comprises two sensors configured to measure the flow rate of the fluid flowing in the pipe, said sensors being a combination of different sensors selected from the group of sensors consisting of hall effect sensors, ultrasonic sensors, electromagnetic sensors and thermal sensors.

The invention also relates to an infusion equipment comprising a tubing equipped with a flow meter as described above.

The invention also relates to a flow management system of a fluid flowing in a flexible pipe, the system comprising an equipment comprising a pipe equipped with a flow meter as described above, said flow meter communicating with a server remote centralized management. Advantageously, the central management remote server comprises the remote control means of the flow reduction means.

BRIEF DESCRIPTION OF THE FIGURES [0019] Other objects and advantages of the invention will become apparent from the following description, made with reference to the appended drawings, in which:

FIG. 1 represents a partial view of a pipe equipped with a flowmeter according to an exemplary embodiment of the invention;

FIG. 2 represents a view in transparency of the pipe of FIG. 1 equipped with the flowmeter;

FIG. 3 represents a schematic view of the printed circuit of the flowmeter of FIG. 1;

- Figures 4a and 4b show a schematic view of the flow reduction means;

FIG. 5 represents a synoptic view of a flow management system implementing the flow meter of FIG. 1. DETAILED DESCRIPTION OF THE FIGURES

In connection with Figures 1 to 4, there is described a flow meter 1 for controlling, measuring and / or adjusting the flow of a fluid flowing in a flexible pipe 2 of the type for example in a tubing an infusion device.

The flowmeter 1 comprises sensors 3 for measuring the flow of the flowing fluid in the pipe 2 and fluid flow reduction means 4, respectively placed on the pipe 2.

The sensors 3, two in number in the illustrated example, are preferably sensors selected from sensors of the hall effect type, ultrasonic, electromagnetic or thermal. In order to improve the precision of the measured flow rate and to reduce the measurement uncertainty, two sensors 3 different from a technology point of view will be preferred. Thus, for example, if one of the sensors used is a hall effect sensor, the other sensor implemented will be either ultrasound or electromagnetic or thermal. Other combinations are of course possible without departing from the scope of the invention. Advantageously, the sensors 3 are preferably micromechanical sensors. The flow reduction means 4 advantageously consist of a tube 5 surrounding the pipe 2, connected to control means adapted to control the crushing of the pipe 2 by clamping the tube 5 on the pipe 2. FIGS. 4a and 4b show the pipe 2 respectively in the unstressed position (also called relaxed) and in the stress position (also called compressed) under the action of a worm 6 actuated by a motor (not shown). This is of course an exemplary embodiment, other means for reducing the passage section of the pipe 2 known to those skilled in the art can be implemented without departing from the scope of the invention.

As illustrated in FIG. 2, the flow reduction means 4 are situated upstream of the micro-detectors 3. The term "upstream" is defined with respect to the direction of flow of the fluid, which is illustrated in FIG. 2. by the arrows shown at the entrance and exit of the portion of the pipe 2 illustrated.

More particularly, they are located at a determined distance so that the portion of the pipe 2 compressed by the flow reduction means 4 to reduce the diameter does not affect the operation of the sensors 3.

The sensors 3 and the flow reduction means 4 are respectively connected to an electronic card 7.

The electronic card 7 comprises a microcontroller 8 configured for the processing of data collected by the sensors 3 and a memory for storing these data.

The electronic card 7 further comprises wireless communication means able to communicate bidirectionally with a central management remote server 100, as shown in Figure 5, and remote control means of the reduction means of 4. Advantageously, the central management remote server 100 comprises the remote control means of the flow reduction means 4.

The communication means comprise a transmitter and a receiver (hereinafter referred to as transmitter / receiver 9). The transmitter associated with an antenna 11 is configured to transmit to the remote server the data recorded by each of the sensors 3 and processed by the microcontroller 8. The receiver is configured meanwhile to receive control commands from the remote control means and transmit them to a second configured microcontroller 15 to control the flow reduction means 4 according to the control commands transmitted by the receiver to the microcontroller 15. It will thus control the loosening or clasping of the tube 5 on the pipe 2.

According to a preferred embodiment, the communication means operate in Wifi mode, Bluetooth, BLR, GPRS, PSTN, ISDN, DSL, GSM or ISM. The flow meter 1 comprises a housing 10 in which the electronic card 7 and the associated elements (transmitter / receiver 9 and microcontrollers 8 and 15) are housed. Advantageously, the electronic card 7 is formed on the inner wall of the housing 10. The housing 10 is further equipped with a switch constituted, in the illustrated embodiment, by a tab 13 disposed between the batteries and the printed circuit. In the illustrated embodiment, the antenna 11 extends over all or part of the periphery of the housing 10.

In the illustrated embodiment, the flow meter 1 is powered by a battery powered system located in a location of the housing provided for this purpose, under a removable hatch 12.

The flowmeter further comprises light-emitting means 14, of the electroluminescent diode type for characterizing the state of the battery or batteries according to the emitted color. Thus, in case of low state of the battery or batteries, the emitted light will be red and in the case of good operation, the emitted light will be green.

The invention is described in the foregoing by way of example. It is understood that the skilled person is able to achieve different embodiments of the invention without departing from the scope of the invention.

Claims

Flowmeter (1) for controlling, measuring and / or adjusting the flow rate of a fluid flowing in a flexible pipe (2) having a modulable fluid flow section, said flowmeter comprising at least one sensor ( 3) configured to measure the flow rate of the fluid flowing in the pipe (2) and flow reduction means (4) for limiting the flow of the fluid flowing in the pipe (2) by shrinking the section passage, said flow reduction means being arranged to ensure the narrowing of the passage section upstream of the sensor (3) when the pipe (2) is equipped with the flow meter (1), characterized in that said flowmeter comprises means communication system capable of communicating bidirectionally with remote control means of the flow reduction means (4).

2. Flowmeter (1) according to claim 1, characterized in that the communication means comprise a transmitter / receiver (9) configured to receive control commands from the remote control means and a microcontroller (15) driving the means rate reduction according to the control commands transmitted by the transmitter / receiver (9) to the microcontroller (15).

3. Flowmeter (1) according to claim 1 or claim 2, characterized in that the transmitter / receiver is configured for the transmission of the data recorded by the sensor (3) and processed by a microcontroller (8) to a remote server centralized management (100).

4. Flowmeter (1) according to the preceding claim, characterized in that the remote control means are configured to control the frequency of data collection from the microcontroller (8).

5. Flowmeter (1) according to any one of the preceding claims, characterized in that it comprises an internal clock programmed to initiate instructions for collecting data from the sensor (3) from frequency orders data collection from the microcontroller (8) which frequencies are modifiable remotely via the communication means.

Flowmeter (1) according to any one of the preceding claims, characterized in that the sensor (3) is selected from the group of sensors consisting of hall effect sensors, ultrasonic sensors, electromagnetic sensors and thermal sensors.

Flowmeter (1) according to any one of the preceding claims, characterized in that it comprises two sensors (3) configured to measure the flow rate of the fluid flowing in the pipe (2), said sensors being a combination of different sensors selected from the group of sensors consisting of Hall effect sensors, ultrasonic sensors, electromagnetic sensors and thermal sensors.

Infusion equipment comprising a tubing equipped with a flowmeter (1) according to any one of the preceding claims.

System for managing the flow rate of a fluid flowing in a flexible pipe (2), the system comprising equipment comprising a pipe (2) equipped with a flow meter (1) according to any one of Claims 1 to 6, said flow meter communicating with a remote central management server.

Management system according to the preceding claim, characterized in that the central management remote server comprises the remote control means of the flow reduction means (4).