RU2008931C1 - Injection syringe - Google Patents

Abstract

FIELD: medicine; medicine tools. SUBSTANCE: syringe has body and piston of multiple application, and singly used chamber with needle. Chamber is made of flexible material which may swell in rod end under action of rarefaction produced in course of drug suction. Drug chamber is made in form of cylindrical cap with same size in height corresponding to chamber outer surface. Besides, needle boss is made in form of conical plug whose free end is elongated and has shape corresponding to chamber inner surface. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to medicine / in particular to medical instruments.

 Injection syringes are known containing a cylindrical body, a piston, and a chamber made of an elastic material and tightly fixed to the needle hub.

 The syringe contains a cylindrical body, a piston and a removable needle with a hub. The chamber is made of rubber in the form of a convex membrane.

 The disadvantage of this syringe is the unsatisfactory operation caused by the shape of the chamber.

 A syringe is also known (see UK application N 1051142 class A 61 M 5/02, 1963), selected as a prototype. The syringe contains a cylindrical body, a piston with an internal cavity placed therein, a hub with a needle, and a chamber made of an elastic material sealed on the hub. The disadvantage of the described syringe is the inability to completely displace the drug. This is explained by the fact that at the end of the injection, the elastic chamber that came out during the drug intake from the piston cavity, being compressed into an accordion, is placed between the bottom of the cylinder and the end of the piston, and does not allow the piston to snug against the bottom of the cylinder. As a result, voids filled with medicine are formed in the chamber.

 The aim of the invention is the complete removal of the drug from the chamber.

. где W_м - максимально дозируемый объем для данного типа шприца;
R - внутренний радиус цилиндрического корпуса шприца;
r - радиус резиновой оболочки или ступицы иглы;
К - допустимое относительное увеличение поверхности оболочки при растяжении.This goal is achieved by the fact that in the known design of the syringe containing a cylindrical body, a piston with a hub with a needle placed therein and a chamber made of elastic material sealed on the hub, the needle hub has the shape and dimensions corresponding to the inner chamber , which is made in the form of a rubber shell, the initial volume W which corresponds to the dependence
W =

. where W _m - the maximum dosed volume for this type of syringe;
R is the inner radius of the cylindrical body of the syringe;
r is the radius of the rubber sheath or the hub of the needle;
K is the allowable relative increase in the shell surface in tension.

 In this case, the diameter and height of the chamber in the initial state are related to the inner diameter and height of the syringe barrel, corresponding to the maximum dosage, in the same proportion.

.Comparative analysis with the prototype shows that the inventive syringe differs from the prototype in that the needle hub has a shape and size corresponding to the inner cavity of the chamber, made in the form of a rubber shell, the initial volume of which corresponds to the dependence

.

 In addition, the diameter and height of the chamber in the initial state are related to the inner diameter and height of the syringe barrel, corresponding to the maximum dosage, in the same proportion.

 In FIG. 1 shows a housing and a reusable piston; in FIG. 2 - single use unit; in FIG. 3 - a syringe filled with medicine and ready for injection; in FIG. 4 - seal assembly on a large scale.

 The injection syringe contains a housing 1 with a connecting conical socket 2 and a piston 3. The single-use unit (see Fig. 2) consists of a hub 4 made in the form of a conical plug, a rubber chamber 5 and a needle 6. The chamber 5 is made in the form of a cylindrical shell tightly mounted on the elongated end of the needle hub, and its sealing cuff 7 is included in the annular groove of the needle hub. To accommodate the elongated hub with the chamber in the piston 3, a cavity 10 is made, the inner surface of which corresponds to the outer surface of the rubber chamber.

 An injection syringe works as follows. Before injection, the piston 3 is installed in the extreme forward position, the single-use unit (see Fig. 2) is inserted through the conical socket 2 into the piston cavity 10 and is pressed tightly, as with conventional syringes. When the piston 3 moves back into the sub-piston cavity, a vacuum is created under the action of which the rubber chamber 5 begins to inflate, and the medicine begins to be absorbed through the needle immersed in the medicine. As the piston 3 moves back, the rubber chamber 5, inflating in breadth and length, facilitates the inner surface of the cylinder wall and extends axially after the piston. Ultimately, the inflated and drug-filled rubber chamber takes the form of a cylinder with a hemispherical head 8. At the same time, a clearly visible line 9 is formed at the boundary of the cylindrical and hemispherical parts of the chamber, from which the dosage volume of the drug is counted.

 When the piston moves forward (injection process) under the action of increased pressure in the cylinder, the medicine is squeezed out of the chamber and at the same time, the elastically stretched rubber chamber contracts, decreasing its volume. As a result, at the end of the injection, the chamber gradually, assuming the initial shape and dimensions, fits snugly against the outer surface of the needle hub and, together with it, enters the piston cavity, thereby ensuring complete removal of the drug from the chamber. (56) UK patent N 1.051.142, cl. A 61 M 5/02, 1963.

 U.S. Patent 3,527,215, CL A 61 M 5/18, 1970.

Claims (1)

INJECTION SYRINGE, containing a cylindrical body, a piston with an internal cavity placed therein, a hub with a needle and a chamber made of an elastic material sealed on the hub, characterized in that, in order to completely remove the medicine from the chamber, the needle hub has a shape and dimensions, corresponding to the internal cavity of the chamber, which is made in the form of a rhizin shell, the initial volume of which corresponds to
W =

/
where W _m - the maximum dosed volume of the drug for this type of syringe;
R is the inner radius of the cylindrical body of the syringe;
r is the radius of the rubber shell in the initial state;
K is the allowable relative increase in the shell surface in tension.

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