RU2523628C1 - Disposable syringe - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: what is presented is a syringe comprising a body, a rod piston and a needle. A body opening comprises a circular groove; the piston also comprises a rectangular circular groove which integrates an unclosed ring spring element. The width of the spring element correlates with that of the circular grooves in the body opening and on the piston. An external diameter of the spring element in a free condition correlates with the diameter of the circular groove in the body, while an internal diameter of the spring element in the free condition is less than the diameter of the body opening. The smaller body opening comprises a lightly tensed support with a working end face of the piston resting against when assembled and transported. The above circular groove in the body opening is rectangular or trapezium-shaped. The above unclosed ring spring element represents an irregular rectangle, square or trapeze in section with an upper side presented to a convex curve. The diameter of the circle formed by intersection of the above curve and a side of the irregular rectangle, square or trapeze is greater than the diameter of the body opening in the free condition of the unclosed ring spring element. The above rest comprises at least one through flattened surface.

EFFECT: invention enables reducing efforts for the piston movement in the process of injection, eliminating repeated use of the syringe, and facilitating the assembly process.

3 cl, 7 dwg

Description

The invention relates to medical equipment, in particular to single-use injection devices.

Disposable syringes are known according to patents RU No. 2358766, No. 2351368, No. 2330687, No. 2314130, No. 2289431 and others. Their disadvantage is the complexity of the design.

The closest in technical solution is the syringe according to the patent (see RU No. 2458711, A61M 5/50, A61M 5/315, 04/27/2012). It is taken as a prototype. The syringe contains a housing in which a piston with a rod is placed, and a needle. An annular groove is made on the piston, in which an open spring element is installed, which in cross section may be in the form of a rectangle, square, circle or ellipse. The annular groove on the piston in cross section may be in the form of a rectangle, square, segment of a circle or segment of an ellipse. An annular groove is also made in the opening of the housing, which in cross section may be in the form of a rectangle, square, circle segment, or ellipse segment. The width of the spring element corresponds to the width of the annular grooves in the bore of the housing and on the piston. The outer diameter of the spring element in the free state corresponds to the diameter of the annular groove in the housing, and its inner diameter is less than the diameter of the hole in the housing. The syringe is equipped with a stop fixed on the housing with the possibility of interaction with the working end of the piston. For example, the emphasis can be installed in a small bore of the housing with a slight interference fit, with the piston working end resting against the emphasis during assembly and in the transport state.

The specified syringe has the following disadvantages.

1. If the open spring element in the cross section is in the form of a rectangle or square, then increased effort is required to move the piston due to the large area of contact of the outer surface of the spring element and the housing opening, as well as the presence of sharp edges on the outer cylindrical surface of the spring element. If the spring element in the cross section is in the form of a circle or an ellipse, then, due to errors in the manufacture of the parts of the syringe, it is possible in some cases to perform a reverse stroke of the piston with the rod after the spring element is activated and reuse the syringe.

2. In addition, an emphasis is installed in the small opening of the housing with a slight interference fit, which is a cylindrical rod with a head (thickening) at one end. When assembling the syringe, you first need to enter the stop in the small hole in the housing, and then introduce the piston into the large hole in the housing. In this case, an air plug occurs in the body cavity between the stop and the piston, which impedes the advancement of the piston.

3. Currently, the body of the syringe is usually made of transparent materials. Therefore, an unscrupulous person who injects (in particular, an addict) can observe the movement of the piston and stop further movement of the piston until the spring element is triggered in order to reuse the syringe.

The objectives of the invention are as follows.

1. Reducing the effort to move the piston during the injection.

2. Elimination of the possibility of reuse of the syringe.

3. Facilitation of the syringe assembly process.

To achieve these goals, a syringe is proposed comprising a housing, a piston with a rod, and a needle. An annular groove of a rectangular or trapezoidal shape is made in the opening of the housing; an annular groove of a rectangular shape is made on the piston, in which an open ring spring element is installed. The width of this spring element corresponds to the width of the annular grooves in the bore of the housing and on the piston. The outer diameter of the spring element in the free state corresponds to the diameter of the annular groove in the housing, and the inner diameter of the spring element in the free state is less than the diameter of the hole in the housing.

An open ring spring element in cross section can be made in the form of an irregular rectangle or square, the sides of which are made by mutually parallel straight lines perpendicular to the rectilinear base, and the upper side is made along a convex curve. The convex curve of the upper side of the cross section of the open annular spring element is made along part of a circle, ellipse, or other convex curve. The diameter of the circle formed by the intersection of the said convex curve with the side of the irregular rectangle or square is larger than the diameter of the hole in the housing in the free state of an open annular spring element. In this case, the annular groove in the opening of the housing is rectangular.

The open ring spring element in cross section can be made in the form of an irregular trapezoid, in which the upper side is made along a convex curve. The convex curve of the upper side of the cross section of the open annular spring element is made along part of a circle, ellipse, or other convex curve. The diameter of the circle formed by the intersection of the convex curve with the lateral side of the trapezoid is larger than the diameter of the hole in the housing with the free state of the open ring spring element. In this case, the annular groove in the opening of the housing is trapezoidal.

A stop is installed in a small bore of the housing with a slight interference fit, against which the working end face of the piston abuts during assembly and in the transport state. The emphasis is made in the form of a cylindrical rod with a head (thickening) at one end. At least one flat is made on the surfaces of the cylindrical rod and head.

The body of the syringe may be made of opaque material.

The essence of the invention is illustrated by drawings.

In Fig.1 shows a syringe in the transport and initial position before the solution set. Figure 2 - syringe after injection. Figure 3 shows an open spring element, which in cross section is made in the form of an irregular rectangle or square, the sides of which are made by mutually parallel straight lines perpendicular to the rectilinear base, and the upper side is made on a convex curve. Figure 4 shows an open spring element, which in cross section is made in the form of an irregular trapezoid, in which the upper side is made along a convex curve. Figure 5 shows the emphasis in three projections. 6 and 7 are possible configurations of the housing.

The syringe includes a housing 1 (FIGS. 1, 2), in the opening of which a piston 2 with a rod 3 is placed, and a needle 4. An annular groove 5 is made in the opening of the housing 1. An annular groove 6 of rectangular shape with an open spring is installed on the piston 2 element 7. (In Fig.1, 2 the shape of the open spring element 7 is shown simplified). The width of the spring element 7 corresponds to the width of the annular grooves 5 and 6. The outer diameter of the spring element 7 in the free state corresponds to the diameter of the annular groove 5 in the housing 1, and its inner diameter is less than the diameter of the hole in the housing 1.

The spring element 7 in cross section can be made in the form of an irregular rectangle or square (Fig. 3), the sides of which are made by mutually parallel straight lines perpendicular to the rectilinear base, and the upper side is made along a convex curve. The convex curve of the upper side of the cross section of the open annular spring element can be made along part of a circle, ellipse or other convex curve. The diameter d of the circle formed by the intersection of said convex curve with the lateral side of an irregular rectangle or square is larger than the diameter of the hole in the housing in the free state of the open annular spring element 7. In this case, the annular groove in the opening of the housing is rectangular (Fig. 6).

The spring element 7 in cross section can be made in the form of an irregular trapezoid, in which the upper side is made along a convex curve (figure 4). The diameter d of the circle formed by the intersection of the convex curve with the side of the trapezoid is larger than the diameter of the hole in the housing 1 in the free state of the open annular spring element 7. In this case, the annular groove in the opening of the housing is trapezoidal (Fig. 7).

For ease of assembly and maintaining the correct relative positioning of the parts of the syringe during transportation, a stop 8 (Fig. 5) is installed in a small bore of the housing 1 with a slight interference fit; the working end face of the piston 2 rests against it in the transport state. The stop 8 is made (Fig. 5) in the form of a cylindrical rod with a head (thickening) at one end. On the surfaces of the cylindrical rod and head are made two through flats L.

The housing 1 of the syringe may be made of opaque material.

The syringe works as follows. First, the emphasis 8 is removed and the needle 4 is installed. Then a solution is drawn, while the rod 3 moves the piston 2 to the right in FIG. During injection, the rod 3 moves the piston 2 to the left. During the stroke, the resistance to the movement of the piston is constant. Therefore, the person performing the injection does not feel the spring element 7 approaching the annular groove 5. At the end of the stroke of the piston 2, the open spring element 7 enters the annular groove 5 and expands - it works. The return stroke of the piston 2 with the rod 3 becomes impossible.

The flat side surfaces of the spring element 7 securely hold the piston 2 in the locked position. The execution of the upper side of the cross section of the open annular spring element 7 along a convex curve provides a reduction in effort to move the piston 2. The presence of flats A on the stop 8 ensures that there is no air plug in the opening of the housing 7 during assembly. The execution of the housing 1 of the syringe from an opaque material eliminates the possibility of observing the movement of the piston 2.

Thus, the present invention allows to reduce the force for moving the piston during the injection, to exclude the possibility of reuse of the syringe and to facilitate the assembly process of the syringe.

Claims (3)

1. A disposable syringe containing a housing, a piston with a rod and a needle, wherein an annular groove is made in the housing opening, a rectangular annular groove is made on the piston, in which an open ring spring element is installed, the width of which corresponds to the width of the annular grooves in the housing opening and on the piston moreover, the outer diameter of the spring element in the free state corresponds to the diameter of the annular groove in the housing, and the inner diameter of the spring element in the free state is less than the diameter of the hole in the housing, and in the small opening of the housing with a slight interference fit, a stop is placed against which the piston end face abuts during assembly and in the transport state, characterized in that said annular groove in the housing opening is made in the form of a rectangle or trapezoid, said open ring spring element in cross section is made in the form of an irregular rectangle, square or trapezoid, in which the upper side is made along a convex curve, and the diameter of the circle formed by the intersection of the said a curved curve with the lateral side of an irregular rectangle of a square, or a trapezoid larger than the diameter of the hole in the housing in the free state of an open annular spring element, and at least one through flange is made on said stop. 2. The syringe according to claim 1, characterized in that the convex curve of the upper side of the cross section of the open annular spring element is made along part of a circle, ellipse or other convex curve. 3. The syringe according to claim 1 or 2, characterized in that the housing of the syringe is made of opaque material.

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