RU2351368C1 - Disposable syringe - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment, namely to syringes for dosed introduction into organism tissues of liquid medications, used only for one injection. Disposable syringe contains cylinder with nozzle, flange and with located in cylinder piston with installed in it rod and at least one cutting element. Cutting element is made in form of cup, which forms cavity between piston and inner side of cutting element. In place of contact with cylinder wall, cutting element has sharp edge. Outer side of piston and cutting element are made in such way that integrity of membrane during motion from nozzle is ensured. Cylinder contains at least one projecting inside cylinder membrane.

EFFECT: in simplification of cutting element construction, safety of usage due to cylinder construction, which does not acquire applying additional effort during injection.

4 cl, 1 tbl, 4 dwg

Description

The invention relates to medical equipment, namely to syringes for dosed injection into the body tissue of liquid drugs used for only one injection.

The well-known "disposable syringe" (RF patent for the invention No. 2065756, A61M 5/50, 1996), containing a cylinder with a tip, a flange and a piston placed in it, in the cavity of which there is a knife with the possibility of cutting the cylinder, mounted on the plate associated with the stock. The piston cavity is made in the form of a figured groove with a bevel, along which a plate made in the form of a heel slides. The cylinder wall on the knife side is made in the form of a stepped path, and on the opposite side, with an internal sector thickening, which corresponds to a slice made on the piston. The disadvantages of the syringe are the complexity of the design and the insecurity of use, since the cutting element cuts through the body through and out, as well as the need for great effort when working.

Known "Disposable syringe" (US patent for the invention No. 5308328, A61M 5/00, 1994), containing a cylinder with a tip, a flange in which the piston is located with cutouts for placement in them of the front of the rod, with two cutting axes fixed to the axis elements that have the ability to move for cutting into the cylinder by the cutting parts through cutouts in the piston when the rod moves in the direction of the tip and move inside the piston when the rod moves in the opposite direction. Since the cutting elements are fixed on the axis of the rod, and the piston cut-outs serve as guides for the cutting elements, the rod and piston are made as separate parts.

The disadvantages of the closest analogue include: a rod with cutting elements fixed on its axis is a mechanism with sharp moving components, which makes the design complex and inevitably affects the reliability of its operation. The location of the cutting elements is perpendicular to the outer surface of the cylinder, which can lead to personal injury during operation. In addition, during injection, it is necessary to additionally make a significant effort to overcome the resistance of the material when cutting the cylinder wall.

The technical result achieved in the claimed invention is to simplify the design of the cutting element, the safety of use due to the cutting element not extending beyond the cylinder boundaries, as well as the ease of use due to the design of the cylinder, which does not require excessive efforts during injection.

The technical result is achieved by the fact that a cutting element is installed in the piston with the rod, made in the form of a bowl forming a cavity between the piston and the inner side of the cutting element. The outer side of the cutting element and the piston is made so that the integrity of the membrane is ensured when moving "from the tip". At the end, from the outside of the cutting element, in contact with the cylinder wall, a sharp edge is made, parallel to the rod toward the tip. In addition, membranes are made on the cylinder in the form of protrusions directed into the cylinder. The dimensions of the cutting element do not exceed the inner diameter of the cylinder, while cutting membranes is ensured.

The invention is illustrated by drawings, where in Fig.1 shows a disposable syringe in the initial position until the cylinder is filled with a drug substance; figure 2 shows an enlarged view of the membrane; figure 3 shows a syringe at the time of filling the cylinder with a medicinal substance, figure 4 shows a syringe at the time of injection. Table "Examples of syringe sizes."

The disposable syringe shown in FIG. 1 contains a cylinder 1 with a tip for a needle 2, a flange 3, a piston 4 with a rod 5 and a cutting element 6. FIGS. 2, 3 show a cylinder with a wall thickness B having thin-walled membranes on the surface 7, made in the form of protrusions in a shape close to round, with a wall thickness B, protruding into the cylinder to a height C.

Figure 4 shows the cavity 8 between the piston and the inner surface of the cutting element into which the membranes 7 are assembled, cut when the rod moves in the direction of the tip.

The cutting element, in particular a metal knife, for example, in the form of a ring or a half ring covers the rod and is made in the form of a bowl fixed to the piston by any known method, for example by pressing. The outer side of the knife, in the part in contact with the cylinder walls, is made, for example, rounded around the perimeter so as not to damage the membranes when the piston with the knife passes through them in the direction “from the tip”. In addition, chamfers can be made on the outside of the knife. At the end of the outer side of the knife, in contact with the cylinder wall, a sharp cutting edge is made, parallel to the rod toward the tip, in order to cut the membranes when the piston moves during injection. Disposable use of the syringe is achieved by destroying the integrity of the syringe barrel during injection, when the cutting element cuts the membranes along the way. The integrity of the membranes and the ease of passage of the piston through the cylinder is ensured by the execution of the lateral surface of the piston, for example, with rounded edges or with chamfers. In addition, cut membranes are collected in the cavity between the piston and the cutting element. Thus, in one step, cutting and disposal of the cut membranes is achieved, which increases the environmental friendliness and manufacturability of the syringe.

Currently, polymeric materials are used for syringes, in particular, based on polyethylene, which have the corresponding elasticity characteristics. The most commonly used standard sizes of the wall thicknesses of the syringe cylinders are shown in the table in column 1. The wall thickness of the cylinders of these syringes is from 0.6 to 1 mm. The ratio of the wall thickness of the cylinder B to the thickness of the membrane B is selected so that during injection there is no need for excessive force to break the cylinder. Empirically, the optimal ratio of the cylinder wall thickness to the thickness of the membrane is established in the ratio 1: 0.14 ÷ 0.2, while the membrane thickness is from 0.1 to 0.15 mm (see table, graph 2). In practice, the thickness of the membrane can be selected from the following ratio of cylinder wall thickness to membrane thickness 1: 0.05 ÷ 0.3. For ease of use of the syringe, the height of the protrusion of the membrane should be sufficient to form a through hole when cutting, while at the same time the membrane must be flexible enough to restore its original shape during deformation, while the thickness of the membrane should ensure ease of cutting. The optimal height of the protrusion of the membranes C at given wall thicknesses of the syringe barrel and empirically selected membrane thicknesses providing ease of cutting, possessing the necessary elasticity characteristics, and at the same time elasticity sufficient for the initial restoration of the shape of the membranes during deformation, are given in column 3 of the table. In practice, the height of the protrusion of the membrane can be selected based on the ratio of the cylinder wall thickness to the height of the protrusion of the membrane 1: 0.5 ÷ 3, corresponding to the thickness of the membrane selected from the ratio of the cylinder wall thickness to the membrane thickness 1: 0.05 ÷ 0.3.

The shape of the protrusion of the membrane also affects the restoration of the original shape of the membrane after deformation and the force when the piston passes through them. Preferred is the implementation inside the cylinder of the protrusion in the form close to rounded. In addition, the protrusion can be made, for example, in the form of a cone and its varieties, a pyramid, a hemisphere, etc.

The syringe is applied as follows.

When taking medicine, the piston with the knife moves in the direction “from the tip”, while pressing the rounded knife and the piston, the membranes are deformed and bend outward, without violating the integrity of the cylinder. Due to the elasticity of the membrane material, their original shape is restored. During the injection, when the rod is pressed, the piston moves along the cylinder towards the “tip”, and the sharp edge of the knife, passing through the membranes, cuts them, violating the integrity of the cylinder. Cut membranes remain in the cavity between the piston and the inside of the knife. Initial piston inflation into the cylinder is carried out during the production of a syringe by a vacuum device that ensures the retraction of the membranes by segments for the period of retraction towards the outer surface of the cylinder. After retooling the piston, the membranes restore their original shape due to the elasticity of the material.

Table Syringe Size Examples Wall thickness
cylinder B, mm Membrane thickness
In mm Protrusion height
membranes C, mm one 2 3 0.6 ÷ 0.7 0,1 ÷ 0,12 1,0 ÷ 1,6 0.7 ÷ 0.8 0.12 ÷ 0.13 1.2 ÷ 1.8 0.8 ÷ 0.9 0.13 ÷ 0.14 1.3 ÷ 1.9 0.9 ÷ 1.0 0.14 ÷ 0.15 1.4 ÷ 2.0

Claims (4)

1. A disposable syringe containing a cylinder with a tip, a flange and with a piston placed in the cylinder with a rod installed in it and at least one cutting element, characterized in that the cutting element is made in the form of a bowl forming a cavity between the piston and the inner the side of the cutting element, and in contact with the cylinder wall has a sharp edge, while the outer side of the piston and the cutting element are made so that the integrity of the membrane when moving from the tip, while the cylinder with It is holding at least one protruding membrane inside the cylinder. 2. The syringe according to claim 1, characterized in that the membrane is made convex, in a shape close to round. 3. The syringe according to claim 1, characterized in that the ratio of the cylinder wall thickness to the membrane thickness is 1: 0.05 ÷ 0.3. 4. The syringe according to claim 1, characterized in that the ratio of the cylinder wall thickness to the height of the protrusion of the membrane is 1: 0.5 ÷ 3.

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