ITPD20100227A1 - CONTAINER FOR LIQUIDS, AND IN PARTICULAR THE TYPE FOR EXTRA-REPAIR BLOOD CIRCULATION, REFINED - Google Patents

Description

CONTAINER FOR LIQUIDS, AND IN PARTICULAR OF THE TYPE FOR EXTRA-BODY BLOOD CIRCULATION, PERFECTED

DESCRIPTION

The present invention relates to an improved container for liquids, and in particular of the type for extracorporeal blood circulation.

Containers used in the medical field are known today, suitable for temporarily collecting the blood of a patient who is undergoing, for example, cardiac surgery, and in general which are used in cases in which a so-called extracorporeal circulation is carried out, therefore with the patient's blood that it is recirculated and oxygenated outside the patient's body.

These collection containers have connections to the rest of the extracorporeal circulation system, therefore an inlet for the blood, an outlet for the same blood and means for introducing oxygen into the same blood present in the container.

For these containers it is essential that they are equipped with a precise system for measuring the level of the blood contained in them, since a non-compliant level of blood fluid implies either a leak in the extracorporeal circulation circuit or further problems of loss of blood. blood in the patient. These collection containers are made of polycarbonate, which is peculiarly transparent and easily sterilized, characteristics for which polycarbonate has found wide use in the medical field and in particular for the production of equipment for artificial dialysis and cardiac surgery.

To date, the only blood level measurement and control system for these collection containers is given by the definition of a scale of notches on the outside of the container, which allows the visualization of the quantity of liquid present, for example expressed according to the unit of measurement of volume.

This measuring system generally involves the assistance of specialized personnel in charge of a very frequent if not continuous visual reading of the blood level in the container.

This notch measurement system, in addition to requiring an unavoidable and very careful human intervention of observation by a specialized operator, implies that, in the event of an incorrect blood level, it is the same specialized operator, or another one warned by the same , having to manually intervene on the extracorporeal circulation machinery to try to restore the correct level of blood in the collection container, as there is no type of interconnection and automation of interventions between the measurement system and the machinery.

The object of the present invention is to provide an improved container for liquids, and in particular of the type for extracorporeal blood circulation, capable of overcoming the drawbacks of known collection containers.

Within this aim, an object of the invention is to provide a container for liquids which allows a continuous reading and without constant monitoring, by a dedicated operator, of the level of the liquid inside it.

Another object of the invention is to provide an improved container whose level measurement is digitized and can be used to automatically activate safety systems of an extracorporeal circulation machinery of which the container is a part.

A further object of the invention is to provide an improved container which can be made of polycarbonate or other similar and equivalent material, in the same way as containers of the known type.

Another object of the invention is to provide an improved container to be intended as achievable of any shape and size according to the uses and needs of the user.

Another object of the invention is to provide an improved container in particular for extracorporeal blood circulation, but also achievable for other uses and purposes not in the medical field.

Last but not least, the invention provides an improved container for liquids, and in particular of the type for extracorporeal blood circulation, which can be manufactured with known systems and technologies.

This task, as well as these and other purposes which will appear better below, are achieved by a container for liquids, and in particular of the type for extracorporeal blood circulation, improved, which is characterized in that it presents a wave guide extending along at least an internal wall of the same container, at least between a predefined maximum level point and a predefined minimum level point of a liquid contained therein, said wave guide having means for emitting an electromagnetic wave signal and means for receiving electromagnetic waves at the output of the wave guide after having traveled through it at least for the portion immersed in the liquid, said emitting means and said receiving means being interconnected to an electronic unit designed to calculate the attenuation of said signal in its transit from the emitting means to the reception.

Further characteristics and advantages of the invention will become clearer from the description three preferred, but not exclusive, embodiments of the improved container according to the invention, illustrated, by way of non-limiting example, in the accompanying drawings, in which:

Figure 1 shows a perspective view of an improved container according to the invention in a first embodiment thereof;

Figure 2 is a sectional side view of the improved container of Figure 1;

Figure 3 is a partial side sectional view of an improved container in a second embodiment thereof;

Figure 4 is a partial side sectional view of an improved container according to the invention in a third embodiment thereof;

Figure 5 shows a detail of an improved container according to the invention.

With reference to the aforementioned figures, a container for liquids, and in particular of the type for extracorporeal blood circulation, improved according to the invention, is indicated in its first embodiment as a whole with the number 10.

This improved container 10 is characterized in that it has a wave guide 11 extending from a first point A of the upper edge 12 of the container 10 itself, to the bottom 13 of the container 10 along a first portion 14 of the internal lateral surface 15 of the container 10. same container 10, extending along the bottom 13 and then rising along a second portion 16 of the internal lateral surface 15 up to a second point B, diametrically opposite to the first point A.

Said wave guide 11 therefore develops between a predefined maximum level point, identified by points A and B, and a predefined minimum level point of a liquid 17 that can be contained therein, given by the surface of the bottom 13.

This wave guide 11 has connectors 18 and 19 for connection respectively with emitting means 20, schematized in Figure 2, of an electromagnetic wave signal, and with means 21 for receiving the electromagnetic waves coming out of the wave guide 11 after having traveled from point A to point B.

The emitting means 20 and the receiving means 21 are interconnected to, or are part of, an electronic unit 22 designed to calculate the attenuation of said signal passed by said emitting means 20 to said receiving means 21.

The wave guide 11 can be made of optical fiber, glass, plastic or other similar and equivalent materials.

In particular, for the embodiments described here by way of non-limiting example of the invention, the waveguide 11 is made of polycarbonate, that is the same material in which the body 10a of the container 10 is made.

In this embodiment, the waveguide 11 has a substantially quadrangular cross section and is connected to the internal surface 15 of the body 10a of the container 10 by means of a rib 24.

In the particular case described, the wave guide 11 is made in a single body with the body 10a of the container 10.

In a variant embodiment thereof, not illustrated for simplicity, the invention has a wave guide which is made separately and then placed inside the container body adjacent to its internal surface.

The container 10 can be equipped with a lid 26.

The emitting means 20 are given, for example, by a LED or laser source designed to emit an optical signal, or an electromagnetic signal in the visible or infrared or ultraviolet spectrum.

The receiving means 21 are given, for example, by a corresponding photoreceiver.

Emitting and receiving means are to be understood as of a per se known type.

The connectors 18 and 19 for the connection of the wave guide 11 with the emitting means 20 and with the receiving means 21 are also to be understood as connectors for optical fiber of a per se known type. The operation of the improved container 10 according to the invention is based on detecting the variation of the optical signal that crosses the wave guide, which in turn is partly exposed to the air and partly immersed in the liquid which it is necessary to know with precision and continuously the level.

According to the physical principles of the propagation of an optical signal through a medium, such as glass, polycarbonate or another plastic material, the optical beam is captured and propagated through the waveguide thanks to the fact that the index of refraction of the transmission medium, i.e. the wave guide, is higher than the refractive index of the medium surrounding the wave guide.

Since the refractive index of a liquid is generally greater than the refractive index of air and approaches the refractive index of the material with which the waveguide 11 is made, part of the optical signal that passes through the wave guide 11, in correspondence with the liquid 17 in which the guide 11 is immersed, is lost, with consequent attenuation of the signal. The difference between the signal emitted by the emitting means 20 and the signal picked up by the receiving means 21 allows to calculate the level of the liquid 17 contained in the body of the improved container 10, thanks to the specific programming of the electronic unit 22.

In a second embodiment, schematized in Figure 3, the waveguide 111 develops only from a part of the internal lateral surface 115 of the body 110a of the improved container 110. The optical signal is reflected by a special reflecting surface 130 made at the lower end of the wave guide 111. In this embodiment, the same connector 118 has a socket 118a for the emitting means and a socket 118b for the receiving means.

In a possible third embodiment of the improved container according to the invention, indicated in Figure 4 with the number 210, the external surface 240 of the waveguide 211 is treated, either by painting, or by means of a coating, or by means of surface processing, to discretize the signal variation and better control the optical loss phenomenon.

In particular in figure 5, the guide 311 is painted or coated with a coating having a lower refractive index than the inside of the waveguide itself, over its entire surface 340 with the exception of a series of windows 341, only from the which is possible the phenomenon of optical loss.

In this way a greater control of the propagation losses of the optical signal through the waveguide is achieved, since the losses occur only in correspondence with the windows 341 in which the waveguide 311 is bare from the outside.

For a better measurement of the liquid level in the body 10a of the container 10 it is preferable to use a sufficiently sensitive optical receiver, such as for example a phototransistor or a photodiode or an integrated photoreceiver.

In practice it has been found that the invention achieves the intended aim and objects.

In particular, the invention has developed a container for liquids which allows a continuous reading and without constant monitoring, by a dedicated operator, of the level of the liquid inside, thanks to the digitization of the reading of the variation of the liquid. optical signal that runs through the waveguide.

The digitalized measurement of the liquid level eventually allows the development of automatic means of intervention on the machinery for the restoration of the default and optimal level of the blood in the container, in the case of application in the field of extracorporeal circulation.

Furthermore, the invention has provided an improved container which can be made of polycarbonate or other similar and equivalent material, in the same way as containers of the known type.

In addition, the invention provides an improved container which is intended to be manufactured in any shape and size according to the uses and needs of the user.

Furthermore, the invention provides an improved container in particular for extracorporeal blood circulation, but also achievable for other uses and purposes not in the medical field.

Last but not least, the invention provides an improved container for liquids, and in particular of the type for extracorporeal blood circulation, which can be manufactured with known systems and technologies.

The invention thus conceived is susceptible of numerous modifications and variations, all of which are within the scope of the inventive concept; moreover, all the details can be replaced by other technically equivalent elements.

In practice, the materials used, as well as the contingent shapes and dimensions, may be any according to requirements and to the state of the art.

Where the features and techniques mentioned in any claim are followed by reference marks, these marks have been affixed for the sole purpose of increasing the intelligibility of the claims and consequently such reference marks have no limiting effect on the interpretation of each element. identified by way of example by these reference signs.

Claims (2)

CLAIMS 1) Container for liquids (10), and in particular of the type for extracorporeal blood circulation, improved, which is characterized by having a wave guide (11) developing along the internal surface (15) of the body (10a) of the same container (10), at least between a predefined maximum level point and a predefined minimum level point of a liquid (17) which can be contained therein, said wave guide (11) having emitting means (20) of a signal with electromagnetic waves and receiving means (21) of the electromagnetic waves leaving the wave guide (11), said emitting means and said receiving means being interconnected to an electronic unit (22) designed to calculate the attenuation of said transited signal from said emitting means to said receiving means. 2) Improved container according to claim 1, which is characterized in that it has a wave guide (11) extending from a first point (A) of the upper edge (12) of the container itself (10), along a first portion (14) of the internal side surface (15) to the bottom (13), extending along the bottom (13) and then rising along a second portion (16) of the internal side surface (15) to a second point (B). 3) Improved container according to the preceding claims, which is characterized in that said wave guide (11) has connectors (18, 19) for connection respectively with said emitting means (20) of an electromagnetic wave signal, and with said receiving means (21) of the electromagnetic waves leaving the wave guide (11) ■ 4) Improved container according to the preceding claims, which is characterized in that said wave guide (11) can be made of optical fiber, glass, plastic or other similar and equivalent materials. 5) Container according to the preceding claim, which is characterized in that said wave guide (11) is made of polycarbonate. 6) Container according to the preceding claim which is characterized in that the wave guide (11) is made in a single body with the body (10a) of the container (10). 7) Container according to the preceding claims, which is characterized by the fact that said emitting means (20) are given by a LED or laser source designed to emit an optical signal, or an electromagnetic signal in the visible or infrared or ultraviolet spectrum. 8) Container according to the preceding claims, which is characterized in that said receiving means (21) are given by a corresponding photoreceiver, and preferably either a phototransistor or a photodiode, or an integrated photoreceiver. 9) Improved container according to the preceding claims, which is characterized in that said wave guide (111) develops only from a part of the internal lateral surface (115) of the body (110a) of the improved container (110), the optical signal being reflected by a suitable reflecting surface (130) made at the lower end of the wave guide (111). 10) Improved container according to the preceding claims, which is characterized by the fact that the external surface (240) of the waveguide (211) is treated, either by painting, or by means of a coating, or by means of a surface processing, for discret to control the signal variation and to better control the phenomenon of optical loss.