RU2014094C1 - Syringe - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: syringe piston has a blind cylindrical hole and at least two diametrically positioned slots on the outer end. Each slot is parted by flexible bent tab 9 into two cavities 7 and 8. Flexible bent plates 12 entering the slots and which free ends are engageable with the inner surface of tabs 9 are fixed to the outer end of the piston. A shortened cone rod which has at least two projections bent in the cross section is inserted into the piston hole, the projections enter the piston slot cavities. EFFECT: improved structure. 2 cl, 6 dwg

Description

 The invention relates to medicine and relates to the construction of a medical syringe used for subcutaneous and intravenous administration of drugs.

 The closest to the proposed technical essence and the achieved results is a syringe containing a hollow body, in which a piston is placed, connected on one side with a cannula placed in the needle body, which can be fixed in the tip of the body, and on the other hand, with a threaded rod the connection node made in the form of a blind cylindrical hole in the piston.

 The main disadvantage of the known design (prototype) is the inability to ensure one-time use.

 The aim of the invention is to provide the possibility of a single use of the syringe.

 This goal is achieved by the fact that at least two grooves are additionally made in the piston connection unit, diametrically located on the side surface of the piston and connected with its bore, elastic curved petals fixed in the piston and dividing each of the grooves into two cavities, and elastic curved plates rigidly fixed at the piston end by one end and having the possibility of contacting the other ends with the outer surfaces of the petals with the formation of a cavity in which current.

 The stem has at least two protrusions bent in the cross section on the lateral surface.

 The presence of grooves separated by elastic curved petals on the cavity, elastic plates, a shortened conical rod with curved protrusions that can enter the grooves, allows you to achieve the goal - a single use of the syringe.

 In FIG. 1 shows a syringe assembly; in FIG. 2 - a shortened conical rod; in FIG. 3 - node I in FIG. 1 when the piston moves down to displace air before starting to take the injection solution and remove the needle; in FIG. 4 - the same, when the piston moves upward during the intake of the solution; in FIG. 5 - the same when moving the piston to displace residual air and subsequent injection; in FIG. 6 - the same, when trying to reuse the syringe to collect the injection solution; in FIG. 7 - reusable stock.

 The syringe consists of a housing 1 having an outlet tip 2 with a blind conical channel, the taper of which corresponds to the taper of the base 3 of the needle 4, having a tapered collet hole, into which a cylindrical protrusion 5 is located with a slight interference fit, located in the center of the working end surface of the piston 6. On the back end surface of the piston 6 has a blind cylindrical hole and at least two diametrically located grooves, divided into cavities 7 and 8 by curved elastic petals 9. The bent cavity the protrusions 10 of the shortened conical rod 11. The curved elastic plate 12 is rigidly fixed to the piston end with the condition that the free ends touch the outer surface forming the cavity 13. The inlet of the housing 1 in the transport position is sealed with a plate 14, and the tip with a gasket 15. The syringe is equipped with a reusable stem use 16 with collet hole 17.

 The syringe is assembled from its individual parts in the following order. A piston 6 is inserted into the housing 1 of the syringe ending with a blind tip 2, on the conical protrusion 5 of which is placed the base 3 of the needle 4. From the outer end of the piston having a cylindrical blind hole and at least two diametrically located grooves, divided into cavities 7 and 8 by an elastic a curved petal 9, a shortened rod 11 is inserted so that it protrudes into the cavities with its protrusions 10. Elastic curved plates 12 are rigidly attached to the end surface of the piston 6 with the condition that the free ends touch the outer surfaces of the mills weights 9. The inlet of the housing 1 is sealed with a plate 14. The syringe is sterilized and packaged in a known manner. The rod 16 is similarly packaged in an amount significantly less than the number of syringes (one rod for twenty or more syringes).

 When there is a need to use a syringe, the rod 16 is removed from the packaging, the glued plate 14 is removed from the syringe body 1, the tip 15 gasket 15 is cut off. The rod 16 is put on the shortened conical rod 11 of the piston 6. By moving the rod 16 downward, the needle 4 is withdrawn through the tip 2 in the center out. In this case, the base 3 of the needle 4 with its tapered surface with an interference fit greater than the axial force of the introduction of the needle 4 into the living tissue, sits in the conical channel of the tip 2. Simultaneously, an interference fit occurs on the shortened conical rod 11 of the rod 16 along the conical surface of the collet hole 17. The interference fit is calculated on the force exceeding the axial force of the piston movement that occurs when the drug is taken. All this time, the protrusions 10 of the shortened conical rod 11 are in the cavities 8 of the piston 6 (see Fig. 3). The syringe is ready to use. In the usual way, the syringe is filled with injection solution through needle 4, i.e. by moving the piston 6 upward by the rod 16 through the shortened conical rod 11. In this case, the protrusions 10 of the shortened conical rod 11 are moved upward (see Fig. 4) into the cavity 13, bending the elastic petals 9, the elasticity of which is less than the resistance force of the piston to move in the syringe body 1. Resting on the base of the curved elastic plates 12, the protrusions 10 move the piston 6 to the upper position. When moving the piston 6 in the direction of the needle 4 during the release of air bubbles and injection, the protrusions 10 of the shortened conical rod 11 move in the cavity 7, sliding along the outer surface of the petals 9 and bending the ends of the elastic plates 12, the elasticity of which is less than the resistance to the movement of the piston 6 in the syringe body . During the injection process, the protrusions 10 press on the base of the cavities 7 (see Fig. 5) and thereby move the piston down. In this case, the free ends of the elastic plates 12 return to their original position, touching the outer surface of the petals 9 and thereby block the entrance to the cavity 13.

 After injection by the rod 16, a shortened conical rod 11 is freely withdrawn, and the piston 6 remains inside the syringe body 1 near the needle (see FIG. 6). Reuse of the syringe is excluded.

 Thus, the proposed syringe allows you to fully ensure not only the complete sterility of all its working parts (needles, pistons, inner surfaces of the syringe body), but also the single use.

Claims (2)

 1. A SYRINGE containing a hollow body in which a piston is located, connected on one side with a cannula placed in the needle body, which can be fixed in the tip of the body, and on the other hand, with the rod through a connection unit made in the form of a blind cylindrical hole in a piston in which a rod is installed, characterized in that, in order to ensure the possibility of a one-time use of the syringe, at least two grooves, diametrically located along the side surface of the pores, are additionally made in the connection unit a wedge and associated with its hole, elastic curved petals fixed in the piston and dividing each of the grooves into two cavities, and elastic curved plates rigidly fixed to the end of the piston at one end and able to contact the other ends with the outer surfaces of the petals to form a cavity, which is placed with the possibility of exit from her stock.  2. The syringe according to claim 1, characterized in that in the cavity formed by the petals and plates, at least two protrusions bent in the cross section are arranged on the stem.

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