RU2020142016A - SYRINGE DESTRUCTION - Google Patents

Claims (25)

1. A syringe handling device for disposing of a syringe comprising a main body and a hypodermal needle attached thereto, the main body comprising a tip to which a cannula is attached supporting the needle portion of the hypodermal needle, and said syringe handling device comprising: a needle destruction assembly for destroying the needle part of the hypodermal needle, comprising a conductive clamping electrode configured to clamp the needle part of the hypodermal needle at a point located between the cannula and the tip of the needle part, a conductive end electrode designed to contact the tip of the needle part of the hypodermal needle and driven into a movement for moving coaxially with the axis of the needle portion of the hypodermic needle; and means for applying a voltage between the clamp electrode and the tip electrode while advancing the tip electrode towards the cannula so that resistive heating of the needle occurs in combination with axial compression applied by the tip electrode to the needle, resulting in softening/melting of the needle tip and thus , to blunt and sterilize the needle tip, wherein said device also contains: a holder for supporting and holding the main body and driven to move the main body along a path that is parallel to said axis; and a cannula clamping assembly for clamping the hypodermal needle cannula, comprising an annular clamping portion configured to interact with the hypodermal needle cannula when said holder is driven along said axis, wherein the holder and the cannula clamping assembly are relatively movable so as to separate the cannula of the hypodermic needle from the tip of the main body. 2. The syringe handling device of claim 1, wherein the needle breaker assembly also includes a retaining cylinder that surrounds the needle portion of the hypodermal needle and within which the tip of the needle is movably placed. 3. The syringe handling device of claim 2, wherein the retaining cylinder is sized to prevent or reduce bending or curvature of the needle portion of the hypodermal needle when an axial compressive force is applied thereto. 4. The syringe reprocessing device according to claim 2 or 3, wherein the holding cylinder comprises a heating coil. 5. Device for processing the syringe according to paragraphs. 2, 3, or 4, also comprising an inductor surrounding the needle and conducting an electrical current which, when used, induces a current in the needle, whereby the resulting needle-heating eddy currents are used to heat and/or melt the needle portion of the hypodermal needle. . 6. The syringe handling device according to any preceding claim, wherein the voltage applied between the tip electrode and the clamp electrode comprises one or more of the group consisting of: DC voltage, AC voltage, and RF voltage. 7. The syringe handler of any preceding claim, also comprising a control/feedback system for coordinating the application of stress and axial compressive force. 8. The syringe handler of claim 7, wherein the control/feedback system comprises a high speed feedback circuit configured, in use, to adjust the applied voltage and tip electrode displacement so as to maintain the tip electrode in contact with the tip, while maintaining the parameters of the current inside the needle between the clamping and end electrodes within the specified ranges. 9. The syringe handling device according to any of the preceding claims, wherein the end electrode comprises a relief element for centering the tip of the needle portion of the hypodermic needle on the center of the end electrode. 10. The syringe handling device of claim 1, wherein either or both of the tip electrode and holder are driven to move coaxially with the axis of the hypodermic needle needle portion by any one or more of the group consisting of: pulley structures and a belt; a gear rack with a driving gear; screw and linear actuator. 11. The syringe handling apparatus according to any preceding claim, wherein the holder comprises a main body shaped to receive the main body of the syringe, the main body shape comprising end stops that engage with the distal and proximal ends of the main body of the syringe, thereby preventing or by reducing the axial displacement of the syringe relative to the holder. 12. The syringe handling apparatus of any preceding claim, wherein the holder comprises means for adjusting the holder configuration such that the hypodermal needle automatically aligns with a baseline that is or can be aligned with said axis. 13. The syringe handler of claim 12, comprising a centralizer that includes a tapered orifice that guides the hypodermal needle when the syringe is placed into the syringe handler, the constriction being configured to align the needle portion of the hypodermal needle with said axis. 14. The syringe handling device according to claim 12 or 13, wherein the holder comprises adjustable clamping means that clamps the syringe main body and comprises two or more clamping portions movable into a position of interaction with the syringe main body and mounted on a support, slidable to compensate for any misalignment between the axis of the main body of the syringe and the axis of the needle, and means for locking the support in place after the axis of the needle portion of the hypodermic needle is aligned with the axis of the syringe handler. 15. The syringe handling apparatus according to any preceding claim, wherein the cannula clamp assembly clamps the hypodermal needle cannula with an annular clamp portion configured to engage with the hypodermal needle cannula when said holder is driven along said axis, the annular clamp portion contains an elastically deformable ring, which enters into frictional interaction with the cannula when it is axially inserted into it. 16. The syringe handling apparatus of any preceding claim, wherein the holder and cannula clamp assembly are movable relative to each other as a result of axial or reciprocating movement of the holder relative to the cannula clamp. 17. The syringe handling apparatus according to any preceding claim, wherein the holder and cannula clamp assembly are movable relative to each other as a result of rotational or oscillatory displacement of the holder about said axis relative to the cannula clamp. 18. A syringe handling device according to claim 17, depending on claim 16, in which the rotation/oscillatory movement of the cannula relative to the tip is coordinated with the axial/reciprocating displacement of the cannula relative to the specified tip. 19. The device for handling the syringe according to claim 18, also containing a controller for coordinating the rotation/oscillatory movement of the cannula relative to the tip with axial/reciprocating displacement of the cannula relative to the tip, wherein the controller is configured to measure and/or regulate relative forces and/or relative offsets. 20. The device for handling the syringe according to claim 19, also containing a logic circuit that is configured to attempt to detach the cannula from the tip in various ways, including: only axial displacement; only rotational displacement; axial displacement + rotational oscillation; axial displacement + rotation and rotation around the axis + linear displacement.