US2707954A - Dosing syringe - Google Patents

Description

y 10, 1955 J. L. KAs, SR 2,707,954

DOSING SYRINGE Filed May 5. 1954 United States Patent DOSING SYRINGE John L. Kas, Sr., Boston, Mass.

Application May 5, 1954, Serial No. 427,729 6 Claims. (Cl. 128-218) This invention relates to a hypodermic. syringe de' signed to facilitate successive injections of a measured dosage of. the liquid in the barrel of the syringe. It is'an object of theinvention to provide relatively simple means setting the stem of the plunger so that it can be freely reciprocated through its entire stroke or so that its axial movement is definitely limited in either direction. ,For this purpose the stem is provided with two parallel plane faces joined by cylindrical surface portions so that the cross-sectional. contour has two straight parallel sidesand two arcuate sides. Notches are cut in the arcuate sides of the stem, those notches being at equal intervals and staggered. A pawl is provided to hold the plunger against axial movement in either direction when engaged in one of the notches. If the stem is turned 180 the pawl is then engagingan unnotched portion of the oppositearcuate side. The-stem can then be moved in or out .until thepawl enters another notch. Stop means are provided which limit the turning of the stem to 180 and the stops are arranged so that the pawl engages one or the other notched edge of the stem when the latter is turned to either extreme angular position. According to the invention, furthermore, when the stem is turned 90 from either extreme position, it is then free to move axially throughout its entire stroke.

For a more complete understanding of the invention reference may be had to the following description thereof, and to the drawing, of which- Figure l is a perspective view of a syringe embodying the invention;

Figure 2 is a fragmentary exploded perspective view of some of the parts shown in Figure l;

Figure 3 is an elevational view of the syringe, a portion being broken away to show in section;

Figure 4 is a fragmentary elevation of the syringe, a

portion being broken away to show in section in accordance with theline 44 of Figure 3;

Figure 5 is a fragmentary elevation of the syringe, viewed as in Figure 4, but with the stem turned to another angular position;

Figure 6 is a section on theline 66 of Figure 4,

on a larger scale;

Figure 7 is a section on the line 7-7 of Figure 5, on a larger scale; and

Figure 8 is a section similar to Figures 6 and 7, except that the stem is in its intermediate angular position.

The syringe illustrated on the drawing has the usual barrel 10 consisting of anouter housing 12 with a transparenttubular lining 14 of glass or equivalent material which shows throughelongated windows 16 in thehousing 12,end fittings 20 at one end by which ahollow needle 22 can be secured to the barrel, and end fittings at the other end through which thestem 26 of a plunger slidably extends as hereinafter described. The plunger has apiston 28 which fits closely in thetubular liner 14 of the barrel to expel liquid from the barrel through theneedle 22. Conversely, retraction of thepiston 28 when the end of the needle is immersed in a liquid causes liquid "ice to be sucked up into the barrel. The amountof liquid expelled or sucked in, according to the direction of movement of the piston, is proportional to the distanceof movement of the piston within the barrel. In the treatment of diseases it is often important that an accurate dosage of medicinal liquid be injected. It is also often,

desirable to draw into the barrel an exact predetermined quantity of liquid. According to the present invention,

these objects can conveniently be attained by suitablenotches in the stemcooperating with the structure ofthe end fitting through which the stem slides. This end fitting comprises athimble 30 which is screwleasably in the bore of thethimble 30 but can rotate freely therein.

cross-sectional shape of thestem 26, hereinafter described.

Thethimble 30 has a pair ofradial wings 42 project-- ing therefrom to serve as finger pieces when the syringe is in use. Fixed on one of these wings is acasing 44 which houses a spring pressedpawl 46. The pawl projects over thedisk portion 38 of thesleeve member 34 and prevents accidental withdrawal thereof: from .the bore of thethimble 30. The pawl'46 is cylindrical except for one fiat side which engages a corresponding face in the bore,

48 of thecasing 44 to prevent the pawl from turning on its axis. At the outer end of the pawl'is anose 50 with two parallel faces in planes perpendicular to the axis of thestem 26. This nose is adapted to enter any one of a number ofnotches 52 in the stem, each notch having twoparallelshoulders 54 between which thenose 50 of the pawl enters. Thus when the pawl engages in any one of thenotches 52, the stem is locked against movement in either direction.

The cross-sectional shape of thestem 26 is similar to the contour of theaperture 40 in thesleeve member 34, both being non-round so that the stem and sleeve will necessarily rotate together. Many suitable shapes are possible. The one illustrated is bounded by two straight parallel sides and two arcuate sides, the stem itself thus being a cylinder modified by flattening twoopposite sides 56 into parallel planes connected byarcuate surfaces 58 which may be called edges of the stem. Thenotches 52 are cut in bothedges 58 of the stern, thus forming two series of notches which are uniformly spaced and stagered as indicated in Figure 1.Stop elements 60 are mounted on thesleeve member 34 to limit the angle of rotation of the sleeve member and hence of thestem 26. The stop elements illustrated on the drawing are the horns of asemi-circular plate 62 mounted on or integral with thesleeve member 34. These horns hit against thecasing 44 when the sleeve and stem are turned one way or the other and are arranged to limit such turning movements to 180. When either limit of turn is reached, one or the other of theedges 58 of the stem is presented to thepawl 46. If however the stem is turned from either limiting position, aflat side 56 is presented to the pawl which cannot then enter any of thenotches 52. The stem is then free to be reciprocated over its entire stroke. The spacing between successive notches on the stem is so related to the bore of thelining 14 of the barrel that any movement of the stem through the distance necessary to bring the nextsuccessive notch 52 to thepawl 46 will result in the displacement of a volume in the barrel of a predetermined magnitude, e. g., 2 cc.

Thesleeve member 34 also has ,a disk,portion 38 through which is a non-round aperture '40. having a contour similar to and slightly larger than the 3 A thumb piece is mounted on the outer end of thestein 26. As shown, this may take the form of ahollow cylinder 66 which may be used to store a supply ofneedles 22. Aremovable plug 68 may be screwed into an end of the cylinder and ventilation memo may be provided. In operating the syringe, the stem is turned to the 'mid position shown in Figure 8, freeing the stem for recipro cation. The stem is moved in as far as it will go and is,

then retracted after the end of theneedle 22 has been immersed in the liquid to be used. This fills the barrel with the liquid. The stem is then turned to the limiting position shown, for example, in Figure 6, which will bring anotch 52 opposite thenose 50 of the pawl. When the nose enters the notch, the stem is locked against axial movement. The needle can then be thrust in for an injection without danger of a premature discharge of liquid from the barrel. As soon as the needle is in, the stem is rotated 180 to its other limiting position, thus presenting an 'unnotched portion of theopposite edge 58 of the stem to thepawl 46. The thumb piece is then pushed to cause the plunger to expel liquid through theneedle 22 until thenose 50 of the pawl enters thenext notch 52 which comes to it (Figure 7). By this time a measured amount of liquid has been expelled from the barrel and the stem is locked against further axial movement. As soon as the needle is inserted for the next injection, the stem is turned back 180 to the first position and the plunger is pushed in until thenext notch 52 reaches thepawl 46. In this way a succession of accurately metered doses may be injected by simply turning the stem 180 between each two inoculations.

I claim:

1. In a hypodermic syringe having a barrel and a plunger reciprocable therein, means operable to limit the axial movements of said plunger to predetermined dist tances, said means comprising a member with a nonround aperture therethrough mounted at one end of the barrel for rotation but held against axial movement relative to the barrel, said plunger having a stem slidably fitted in said member and rotatable therewith, said stem having two series of spaced lateral notches, the notches of the two series being staggered, a spring pressed pawl mounted on said barrel to press against said stem and to enter any one of said notches presented thereto, and stop elements on said member arranged to limit the rotation of said member and stem in both directions, said elements being so located that when said stem is in either limiting position of rotation, the notches of one of said series are in line with said pawl.

2. Apparatus as in claim 1, said stem having a crosssectional shape with two straight parallel sides and two arcuate sides.

3. Apparatus as in claim 1, the notches in said stem il EVlllg parallel sides whereby axial movement of said stem in either direction is prevented by the engagement of said pawl in one of said notches.

4. Apparatus as in claim 3, said apertured member comprising a sleeve extending into an end of said barrel.

5. Apparatus as in claim 4, said pawl being disposed in a housing mounted at the end of said barrel.

6. Apparatus as inclaim 5, said stop elements consisting of portions of a semicircular disk mounted on said sleeve to turn therewith, said pawl housing being arranged to be touched by said stop elements when the stem and sleeve are turned to their limiting positions.

References Cited in the file of this patent UNITED STATES PATENTS 2,409,656 Austin Oct. 22, 1946 2,457,859 Austin Jan. 4, 1949 2,502,639 Blake Apr. 4, 1950 2,695,023 Brown Nov. 23, 1954

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