RU2139737C1 - Syringe-tube - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: syringe-tube is used for injections. It has body-ampoule with substance and piston without rod which is provided with recess. It also has needle with cap made of hard material. When in use, cap is removed from needle and inserted in piston recess with its end piece. Thus needle cap becomes piston rod. EFFECT: precluded depressurization and infection. 2 cl 6 dwg

Description

 The invention relates to medical equipment, namely to a syringe tube.

 Known syringe tubes (N 1), in which the tank is made of soft material, and the contents are displayed by pressing fingers on the tank. These syringe tubes have the following disadvantages.

 The route of administration limits the volume of the tank to one milliliter, which drastically reduces the range and number of drugs that can be used in the syringe tube.

 With the introduction of the drug, due to the design of the reservoir, at least a third of the contents remain in the reservoir, which further reduces the volume of the injected drug and leads to the useless use of expensive medications (e.g. drugs), while the patient receives an insufficient dose.

 This leads to the non-use of syringe tubes by medical workers even in the field and on the ambulance, that is, where the syringe tubes would be most convenient, and their use only in first-aid kits. When using a syringe tube with a non-medical contingent after administration of the drug, a person often reflexively unclenches his fingers on the reservoir, and the contents are absorbed back.

 A known syringe tube (N 2) having a housing and a piston ampoule. It can be performed of any volume, the contents during administration are completely excreted and are not absorbed back. However, the presence of valves on the piston-ampoule requires careful sealing, which, combined with the small size of the parts, such a syringe tube is complex and expensive to manufacture.

 With the introduction of the drug together with air through the valve, microorganisms can enter the piston ampoule and infect the contents. It is also possible depressurization and infection of the solution during long-term storage and transportation. In addition, the process of drug administration is complicated and doubled (especially in the non-medical contingent), while in urgent cases the time can be counted by seconds.

 The proposed syringe tube (Fig. 1) includes a cylindrical tank (A) with a substance (B) and a piston without a rod (C), hermetically sealed with a thin layer of plastic on both sides (E). A needle is dressed on the syringe cannula similarly to a conventional syringe tube (analogue from N 1) (F). The needle cap is made of hard plastic and has a length slightly greater than the length of the tank, a pointed tip and a thickening (in the form of a washer) on the base (H). The piston has a recess (D) corresponding in size and shape to the cap tip.

 With the introduction of the substance, the cap is removed from the needle and, piercing the protective layer of plastic with a tip, inserted into the piston (Fig. 2), after which the drug is introduced, directing it to the base of the cap.

The second option (Fig. 3) (can be used in larger syringe tubes: for internal, intra-arterial and intracardiac injections) is distinguished by the presence of a triangular tip (A) on the needle cap, the piston consists of two soldered parts, one of which has a cone-shaped a recess (section BB), the other slit-like (section CC). This allows, by introducing the cap into the piston and turning it 90 ^° , to move the piston in both directions.

 The proposed syringe tube can be made of any size and volume, which will ensure the use of any drugs in any way. The contents are administered without residue, and absorption of the drug administered is excluded.

 The drug is stored in a sealed ampoule tank and its infection during storage and administration is excluded, and the introduction is carried out twice as fast as in the prototype. Moreover, the proposed syringe tube is much simpler, cheaper, and more technologically advanced in production than the prototype, since it uses parts similar to those produced for existing syringe tubes and disposable syringes.

 These qualities will make it possible to massively use the proposed syringe tube as medical personnel (especially in the army, the Ministry of Emergencies and the Ambulance), and the population (military personnel) in self-help and mutual assistance.

Claims (2)

 1. A syringe containing an ampoule with a substance, two membranes for sealing the ampoule, a rod in which the needle is located, and a piston in which a recess is made corresponding in shape and size to the tip of the rod, characterized in that the rod is made in the form of a cap for a needle with the possibility of installing it as a piston rod, and the needle is hermetically mounted on the cannula. 2. The syringe according to claim 1, characterized in that the piston is made of two soldered parts, one of which has a cone-shaped recess, and the other is slit-like, and the needle cap is made with a triangular tip, with the possibility of its rotation in the piston by 90 ^o for moving the piston in both directions and, if necessary, removing it from the piston.

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