GR1010376B - Flexible bracelet for secure biological material collection - Google Patents

Abstract

The invention relates to a flexible bracelet characterized by a stem (1) made of a polymeric material comprising an isosceles triangle in the form of a removable capsule meant for the secure collection of biological material samples (4), slots (3) retaining the base of this triangle and a Near Field Communication Chip (5) integrated to the above stem (1). The collected biological material samples can be used in a viral infection detection test (see, epidemic or pandemic, COVID-19). Through the interconnection of the integrated Near Field Communication Chip) (5), a digital ecosystem is created, which system is in position to return to the user results of positive or negative connotation and allow all users to share information so as to be isolated from the viral infection carrier, creating a special protocol for restriction of movements in the social fabric.

Description

DESCRIPTION

FLEXIBLE SAFE COLLECTION BRACELET

A flexible bracelet characterized by a stem (1) made of polymeric rubber or similar flexible material to achieve the perfect adaptation of the bracelet to the human hand at the point of the human wrist and comprising an isosceles triangle formation consisting of two equal sides in the shape of a capsule, which is fixed and have holding slots (3) in the form of an elliptical arrangement with holding ends for the base of the triangle, which is a removable safety capsule for collecting samples of biological material (4). The collected samples of biological material can be used in tests to detect a viral infection, which, according to common and scientific knowledge, is transmitted to another person and creates an infection in the social tissue, like an epidemic or pandemic, such as the COVID-19 coronavirus. The flexible bracelet has an integrated Near Field Communication Chip (5) integrated in the stem (1) for the identification of the wearer-user, so that through this interface a digital ecosystem is created, which returns to the wearer-user any recording with results-answers of a positive or negative nature and allows all user-agents or digital interconnection nodes that are interconnected with the digital ecosystem in question, to become information communicators, within the framework of personal data protection, so that they are isolated from the user -carrier of viral infection, creating a special protocol to limit movements in the social fabric.

The problem and defect that the methods of collecting samples of biological material have is known and is characterized by time-consuming and complicated procedures of collection and preservation of samples until their laboratory examination as tests, which produces critical delays, both in the collection of biological material and in results, positive or negative, of the tests for infectious viruses, with the accompanying problem of this increasing exponentially the possibility of escape, of the transmission of viruses to society as a whole and the creation of the phenomenon of the epidemic and ultimately of the pandemic with the forced result of the state of quarantine of all or part of the citizens, with what this entails for the normality of the social and economic environment.

The object and aim of the present invention is found in the mechanism and method of collecting samples of biological material from the user at any point that may be located, which can be stored directly within the two independent storage sections of the assembled security capsule of the invention and remain isolated until their laboratory examination to diagnose symptoms associated with infectious viruses. This makes the collection of the biological material functional, direct and appropriate in terms of the safety of the result, the speed of diagnosis and the immediacy of transmitting this information to the user of the device, so that he can be immediately included in a treatment protocol and removed from the rest of society, such as also the distribution of the above diagnosis, if it is positive, to all the interconnected users supported by the digital ecosystem that operates and uses the device, in order to isolate and deterrently limit, through blocking, the movement of the operator-user in the social tissue, resulting in the preventive protection of the spread of any viral infection, the assurance of individual virus-free social interactions and the replacement of mass quarantine with the individual quarantine of the carrier-user.

The features of the invention are defined in the claims.

In Figure 1, the flexible bracelet is characterized by a stem (1) made of polymer rubber or a similar flexible material which carries inside a metal plate (2), which is placed inside the bracelet, along its stem, and a magnet (24) at its end, to achieve the absolute adaptation of the bracelet to the human hand at the point of the human wrist.

The flexible bracelet carries on its stem, an isosceles triangle formation consisting of two equal sides in the shape of a capsule, which are fixed and carry retaining slots (3) in the form of an elliptical arrangement with retaining ends for the base of the triangle, which is a detachable capsule safety device for collecting samples of biological material (4) made of plastic, aluminum paper, insulating glass, aluminum, copper or any other material that serves its functional use and its antimicrobial property.

In Figure 2, the detachable capsule for collecting biological material (4) from all or part of the aforementioned materials, includes two independent storage sections with sealing mandrels for isolating samples of biological material after their collection.

The first independent storage part of the removable biological material collection capsule (4) is placed on a base with an internal torsion guide (13), which includes the nasal secretion collector (9) made of flexible silicone and has a threaded shaft (11), on which the surface is an adapted rubber ring with serrated ends (10), of the same external diameter as that of the shaft, made of rubber material or similar material. The sealing spindle (5) of the first independent storage part of the detachable capsule has a thread (8) inside its stem and at the base of the thread is fitted an elastic ring with toothed grooves (6) of the same outer diameter, made of rubber material or similar material in full correspondence with the geometry of the rubber ring with serrated ends (10).

In order to use the nasal secretion collector for sample collection, the user must first break the safety ring, consisting of the connecting parts (7) and (12) by turning the sealing spindle (5) counterclockwise. The user then places the nasal secretion collector (9) into one of the two nasal passages, applying pressure to the collector, which operates on the principle of vacuum and reverse suction to collect a sample of nasal secretions and stores the sample that has collected within the first independent storage section of the detachable capsule by screwing the sealing spindle (5) into the base with internal torsion guide (13), applying a clockwise torque. During clockwise rotation of the seal spindle (5) on the base (13), the rings (6) and (10) fit perfectly in contact through the insertion of the toothed ends of the ring (10) into the toothed grooves of the ring (6). , isolating and sealing the area bearing the sample.

The second independent storage part of the removable biological material collection capsule comprises a spindle (16) connected as a single member to the base carrying an internal torsion guide (13), on which a collapsible member (14) carrying a removable cotton swab (15) is mounted on the tip of this or other similar collector, which by twisting with a worm gear and crown gear mechanism connecting the internal torsion guide (13) to the collapsible stem (14), extends and retracts the detachable cotton swab (15) for the collecting a sample of saliva from the oral cavity or pharyngeal tube. The end of the sealing spindle (23) of the second independent storage part of the detachable capsule has a threaded shaft (22) and on its surface is fitted an elastic ring with toothed ends (20), the same external diameter as the shaft, made of rubber material or a similar material . The spindle of the second independent storage part of the detachable biological material collection capsule (16) has a thread (18) inside its stem and an elastic ring with serrated grooves (17) of the same outer diameter as it, made of rubber material, is attached to its base or similar material.

In order to use the detachable cotton swab (15) to collect a sample of saliva from the oral cavity or pharyngeal tube, the user must first break the safety ring, consisting of the connecting parts (21) and (19) by rotating the end of the sealing spindle (23) counterclockwise. The user then uses the detachable cotton swab (15) to collect a saliva sample, applying a counterclockwise twist to extend it through the worm gear and crown gear mechanism that connects the internal torsion guide (13) to the collapsible stem ( 14) and at the end of the process of collecting saliva from the oral cavity or the pharyngeal tube, by means of an opposite clockwise twist, it withdraws the removable bandonette. At the end of the process of collecting the saliva sample from the oral cavity or pharyngeal tube, the sample is stored by screwing the end of the sealing spindle (23) onto the spindle (16), applying a clockwise twist. During clockwise rotation of the end of the sealing stem (23) on the stem (16), the rings (17) and (20) fit perfectly in contact through the insertion of the toothed ends of the ring (20) into the toothed grooves of the ring ( 17), isolating and sealing the area bearing the sample.

The Near Field Communication Chip (5) is integrated into the bracelet stem to identify the wearer as a unique entity due to the bracelet's unique production ID and interfaces electronically with a special application and with electronic - digital centers for recording, processing and safeguarding this data, so that through this interconnection a digital ecosystem is created, which returns to the user agency any recording with positive or negative results-answers and allows all user agencies or nodes of digital interconnection that are interconnected with the digital ecosystem in question, to become information communicators, within the framework of personal data protection, so that they are isolated from the user-carrier of viral infection, creating a special protocol to limit movements in the social network.

The use of the present invention allows the collection of samples of biological material by the user at any point where he may be and in any state of fixed or non-fixed biometric characterization, which in turn the samples of biological material can be stored directly within the two independent storage sections of the assembled safety capsule of the invention and remain isolated until given in accordance with the protocol of management of the control ecosystem and identification of the biological material for laboratory examination, resulting in the diagnosis of a positive or negative answer for the existence of an infectious viral disease, which can be transmitted to community and as long as it is not limited to developing into an epidemic or even a pandemic like the phenomenon with the COVID-19 coronavirus.

In addition, the use of the present invention allows through the near field communication transmitter (Near Field Communication Chip) integrated in the bracelet stem, the identification of the carrier-user as a unique entity, due to the unique production identity of the bracelet, the interconnection electronically with special application (application) and with electronic-digital recording centers, the processing and safeguarding of these data, so that through this interface a digital ecosystem is created, which repays the operator-user for any recording with positive or negative results-answers and allows all the users-carriers or the digital interconnection nodes that are interconnected with the digital ecosystem in question, to become information partners, within the framework of personal data protection, in order to isolate themselves from the user-carrier of viral infection by creating a special protocol to limit the movements in the social fabric and special treatment priority protocols, which ensure the effectiveness and resilience of the Health System in an epidemic or pandemic situation.

Claims (4)

1. A flexible bracelet characterized by a stem (1) made of polymer rubber or a similar flexible material to achieve the perfect adaptation of the bracelet to the human hand at the point of the human wrist and comprising an isosceles triangle formation consisting of two equal sides in the shape of a capsule, which are fixed and carry retaining slots (3) in the form of an elliptical arrangement with retaining ends for the base of the triangle, which is a removable safety capsule for collecting biological material samples (4) and integrated in the stem (1) of the near field communication transmitter (Near Field Communication Chip) (5). The collected samples of biological material can be used in tests to detect a viral infection, which is transmitted according to common and scientific knowledge to another person and creates an infection in the social tissue, like an epidemic or pandemic, such as the COVID-19 coronavirus. The flexible bracelet has a near field communication transmitter (Near Field Communication Chip) (5) integrated in the stem to identify the wearer, so that through this interface a digital ecosystem is created, which returns to the wearer any recording with results -positive or negative answers and allows all user-agents or digital interconnection nodes that are interconnected with the digital ecosystem in question, to become information communicators, within the framework of personal data protection, in order to isolate themselves from the user-carrier of viral infection , creating a special protocol to restrict movements in the social network. 2. A flexible bracelet according to claim 1, characterized by an isosceles triangle formation consisting of two equal sides in the shape of a capsule, which are fixed and have holding slots (3) in the form of an elliptical arrangement with holding ends for the base of the isosceles triangle, which is a detachable biological material collection capsule (4) of two independent storage compartments with sealing covers. The first independent storage part of the removable biological material collection capsule (4) is placed on a base with an internal torsion guide (13), which includes the nasal secretion collector (9) made of flexible silicone and has a threaded shaft (11), on which the surface is an adapted rubber ring with serrated ends (10), of the same external diameter as that of the shaft, made of rubber material or similar material. The sealing spindle (5) of the first independent storage part of the detachable capsule has a thread (8) inside its stem and at the base of the thread is fitted an elastic ring with toothed grooves (6) of the same outer diameter, made of rubber material or similar material in full correspondence with the geometry of the rubber ring with serrated ends (10). In order to use the nasal secretion collector for sample collection, the user must first break the safety ring, consisting of the connecting parts (7) and (12) by turning the sealing spindle (5) counterclockwise. The user then places the nasal secretion collector (9) into one of the two nasal passages, applying pressure to the collector, which operates on the principle of vacuum and reverse suction to collect a sample of nasal secretions and stores the sample that has collected within the first independent storage section of the detachable capsule by screwing the sealing spindle (5) into the base with internal torsion guide (13), applying a clockwise torque. During clockwise rotation of the seal spindle (5) on the base (13), the rings (6) and (10) fit perfectly in contact through the insertion of the toothed ends of the ring (10) into the toothed grooves of the ring (6). , isolating and sealing the area bearing the sample. The collected sample of biological material can be used in tests to detect viral infection. Through the interconnection of the near field communication transmitter (Near Field Communication Chip) (5) for the identification of the operator-user a digital ecosystem is created, which returns to the operator-user any recording with positive or negative results and answers and allows all operators - users or the digital interconnection nodes that are interconnected with the digital ecosystem in question, to become information communicators, within the framework of personal data protection, so that they are isolated from the user-carrier of viral infection, creating a special protocol to restrict movements in the social network. 3. Flexible bracelet according to claims 1 and 2, characterized by an isosceles triangle formation consisting of two equal sides in the shape of a capsule, which are fixed and carry retaining slots (3) in the form of an elliptical arrangement with holding ends for the base of the isosceles triangle, which is a removable capsule for collecting biological material (4) of two independent storage compartments with sealing covers. The second independent storage part of the removable biological material collection capsule comprises a spindle (16) connected as a single member to the base carrying an internal torsion guide (13), on which a collapsible member (14) carrying a removable cotton swab (15) is mounted on the tip of this or other similar collector, which by twisting with a worm gear and crown gear mechanism connecting the internal torsion guide (13) to the collapsible stem (14), extends and retracts the detachable cotton swab (15) for the collecting a sample of saliva from the oral cavity or pharyngeal tube. The end of the sealing spindle (23) of the second independent storage part of the detachable capsule has a threaded shaft (22) and on its surface is fitted an elastic ring with toothed ends (20), the same external diameter as the shaft, made of rubber material or a similar material . The spindle of the second independent storage part of the detachable biological material collection capsule (16) has a thread (18) inside its stem and an elastic ring with serrated grooves (17) of the same outer diameter as it, made of rubber material, is attached to its base or similar material. In order to use the detachable cotton swab (15) to collect a sample of saliva from the oral cavity or pharyngeal tube, the user must first break the safety ring, consisting of the connecting parts (21) and (19) by rotating the end of the sealing spindle (23) counterclockwise. The user then uses the detachable cotton swab (15) to collect a saliva sample, applying a counterclockwise twist to extend it through the worm gear and crown gear mechanism that connects the internal torsion guide (13) to the collapsible stem ( 14) and at the end of the process of collecting saliva from the oral cavity or the pharyngeal tube, by means of an opposite clockwise twist, it withdraws the removable bandonette. At the end of the process of collecting the saliva sample from the oral cavity or pharyngeal tube, the sample is stored by screwing the end of the sealing spindle (23) onto the spindle (16), applying a clockwise twist. During clockwise rotation of the end of the sealing stem (23) on the stem (16), the rings (17) and (20) fit perfectly in contact through the insertion of the toothed ends of the ring (20) into the toothed grooves of the ring ( 17), isolating and sealing the sample bearing area. The collected sample of biological material can be used in tests to detect viral infection. Through the interconnection of the near field communication transmitter (Near Field Communication Chip) (5) for the identification of the operator-user a digital ecosystem is created, which returns to the operator-user any recording with positive or negative results-answers and allows everyone the users-carriers or the digital interconnection nodes that are interconnected with the digital ecosystem in question, to become information partners, within the framework of personal data protection, so that they are isolated from the user-carrier of viral infection, creating a special protocol for restricting movements in the social fabric. 4. Flexible bracelet according to claim 1, characterized by a Near Field Communication Chip (5) integrated in the bracelet stem (1) for identifying the wearer-user as a unique entity, due to the unique production ID of the bracelet, for the electronic interface with a special application (application) and with electronic-digital recording centers, for the processing and safeguarding of this data, so that through this interface a digital ecosystem is created, which repays the operator-user for any recording with results-answers of a positive or negative connotation and allows all user-agents or those who are interconnected with the general public of information, inside the sides to be isolated from the creating special protocol environment. at the nodes of the digital interface through the digital ecosystem, to protect personal data, user-carrier of viral infection, definition of movements in the social