Safety syringe abstract
A safety syringe includes a means for retracting a used needle
within the syringe, sealing the syringe and locking the plunger
in a retracted position requiring only conventional syringe manipulation.
Accidental contact with a used needle or syringe contents is thereby
prevented such that the syringe can be safely discarded in a conventional
manner. A needle clamp augmentation to the front surface of the
syringe plunger is engageable with the needle head portion of a
hollow needle releasingly mounted to the syringe. A sealant cavity
formed proximate to the needle end of the syringe contains a sealing
compound. A sealant cavity cover prevents migration of the sealing
compound into the syringe cylinder. Fully depressing the plunger
causes the needle clamp to engage the needle head portion. Retracting
the plunger dislodges and retracts the needle, drawing a sealing
means about the gap left by the retracted needle and preventing
fluid leakage. A locking clamp preferably extending from the inner
surface of the syringe engages a sufficiently retracted plunger
thereby preventing subsequent plunger depression.
Safety syringe claims
I claim:
1. A safety syringe with self-sealing needle retraction and retracted
member lock comprising:
a syringe cylinder having a plunger end, a needle end, an outer
surface and an inner surface, also having an integral cylinder portion
extending from the plunger end to a cover point and an integral
tapered portion extending from the cover point to the needle end,
the needle end of the syringe cylinder defining a syringe needle
slot for aligning a partially inserted needle along a longitudinal
axis within the syringe cylinder;
a securing ring affixed to the needle end of the syringe cylinder,
the securing ring defining a ring needle slot sized and aligned
commensurate with the syringe needle slot for releasingly securing
and aligning a partially inserted needle along a longitudinal axis
within the syringe cylinder;
a tubular needle means for transferring fluids between a patient
and the syringe cylinder comprising an integral shank abutting an
integral enlarged needle head, the needle means being partially
inserted into the syringe cylinder such that the needle head extends
within the cylinder portion of the syringe cylinder and the shank
extends outwardly from the securing ring, to which the needle means
is releasingly affixed, during such transfer of fluid;
a plunger reciproactively held in the syringe cylinder for boosting
a fluid medicine in the syringe cylinder to be injected into and
drawing fluid from a patient through the needle means, the plunger
having a front surface, the front surface defining a needle clamp
securingly engageable with the needle head such that full depression
of the plunger causes such engagement and subsequent retraction
of the plunger further causes dislodging and retraction of the needle
means;
a locking clamp affixed proximate to the plunger end of the inner
surface of the cylinder portion of the syringe cylinder for engaging
and restraining a sufficiently retracted plunger from subsequent
depression; and
a sealing means comprising a cover shaped to essentially conform
with the front surface of the plunger and secured about its circumference
to the inner surface of the syringe cylinder proximate to the cover
point, the cover and the inner surface of the tapered portion of
the syringe cylinder defining a sealant cavity containing a conventional
liquid repelling sealing compound, the cover further defining a
cover needle slot sized and aligned commensurate with the syringe
needle slot, such that the sealing compound is drawn into a needle
cavity defined by a retracting needle while mixture of the sealing
compound with fluid within the syringe cylinder is prevented.
2. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the needle means extends
along the center longitudinal axis of the syringe cylinder.
3. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the needle head of the
needle means has an essentially flat lower surface extending transversely
from the shank of the needle means such that the plunger is more
reliably engageable with the needle means.
4. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the needle clamp defined
by the front surface of the plunger comprises a plurality of flexible
jaws and shelves, such that full depression of the plunger forces
the needle head through the jaws of the needle clamp, thereby securing
the needle head on the shelves.
5. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claims 1 or 4 wherein the needle clamp
of the front surface of the plunger is defined by an outwardly extending
augmentation of the front surface of the plunger.
6. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the locking clamp comprises
a plurality of clamping means protruding from the inner surface
of the syringe cylinder.
7. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 or claim 6 wherein the locking
clamp has a plurality of flexible angular jaws and locking shelves
for providing more reliable retracted plunger locking as with a
conventional barrel type clamp.
8. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the locking clamp comprises
a plurality of slot type recesses defined by the inner surface of
the syringe cylinder.
9. The safety syringe with self-sealing needle retraction and retracted
member lock as defined in claim 1 wherein the cover needle slot
defined by the cover of the sealing means is shaped as an elongated
tube for more reliably preventing the sealing compound from mixing
with and thereby contaminating fluid in the cylinder of the syringe
cylinder.
10. A method of sealing fluid contained in a cylinder portion of
a syringe cylinder as a retractable needle is retracted into the
syringe cylinder, said method comprising the steps of: (a) forming
a sealing cavity proximate to a needle end of the syringe cylinder;
(b) extending and releasingly securing needle means through said
sealing cavity along a longitudinal axis of the syringe cylinder;
and (c) substantially filling the sealing cavity with a sealing
compound, thereby sealing said cavity and preventing escape of the
fluid contained in the cylinder portion after the retractable needle
is removed from the sealing cavity.
Safety syringe description
BACKGROUND OF THE INVENTION
1. Field of Invention
This invention relates generally to syringes, and more particularly,
to syringe assemblies wherein unintentional exposure is preempted
utilizing permanent needle retraction and cylinder sealing.
2. Description of Prior Art
The simple sealed cylinder, permanently-affixed needle and movable
plunger arrangement of a conventional syringe provides a number
of desirable qualities. In addition to reliability and low cost,
the tube is gripped, the needle maneuvered and the plunger depressed
utilizing a single, well established and non-distracting one-handed
motion. Such operation is critical in the often frantic health care
environment. However, used syringes pose a serious health risk due
to: (1) scraping or pricking of the skin by an exposed needle; (2)
accidental secondary injection (3) ingestion or often even mere
contact with residual chemicals and/or bodily fluids escaping from
a discarded syringe. Disposal of syringes therefore extends the
risk beyond the health care environment.
Simple screening type solutions, while retaining the simple syringe
mechanism, are plagued with inherent problems. Needle caps are subject
to loss, improper affixing and dislodging. Syringe disposal containers
add inordinate expense. In addition, both introduce additional attention-diverting,
unfamiliar, two-handed manipulation into a time/procedure critical
environment.
Attention has therefore shifted to modifying the syringe mechanism
itself; more specifically, to safety syringes wherein, following
syringe use, an augmented plunger dislodges the needle which is
then drawn into the cylinder. Hailer, U.S. Pat. No. 4026287 (snap-fit
and screwable plunger-to-needle head interfaces), McGary, U.S. Pat.
No. 5053010 Bin, U.S. Pat. No. 4955869 and Terrill, U.S. Pat.
No. 4978340 (pressure fit plunger to needle head or head assembly
interfaces), Haber, U.S. Pat. No. 4908022 (suction cup interface),
Chen, U.S. Pat. No. 5242402 (needle angularly engaged), DeChellis,
U.S. Pat. No. 4921486 (dislodge interface and needle spring mechanism),
Wallingford, U.S. Pat. No. 5098390 (reusable needle).
One disadvantage of these assemblies is that the needle remains
subject to further depression of the plunger, thereby again potentially
exposing the needle. Proposed solutions either fail to solve this
problem or create further problems. The angular needle retraction
proposed by Chen remains subject to foreseeable pressure on the
plunger, as does the "floating" catapulted needle of DeChellis.
A perforated, breakaway plunger "handle" proposed by Haber
et al, U.S. Pat. No. 4826484 presents reliability questions during
use and requires unconventional manipulation and disposal. Utilizing
the threaded plunger-to-cylinder-cavity locking mechanism disclosed
by Harris, U.S. Pat. No. 5222944 similarly requires added manipulation
that is distracting to immediate life-saving concerns.
A second disadvantage is the complexity of the proposed mechanisms,
which necessarily increases cost, compromises reliability and may
well impede acceptance by practitioners.
A third disadvantage is that these assemblies fail to address the
problem of sealing the cavity that remains after the needle is retracted.
The singular, molded plug mechanism posed by Chen is complex, subject
to failure and adds considerable expense to syringe manufacture.
In addition, offset needle positioning for special applications
denies sufficient space for such a method.
Thus there is a need for a safety syringe that reliably and inexpensively
retracts the needle, assures that the needle will remain retracted
and seals the needle cavity following syringe use; a safety syringe
that further accomplishes these goals through user manipulation
commensurate with that required for a conventional syringe.
SUMMARY OF THE INVENTION
The present invention, while providing a practical needle retraction
means, further provides practical means for sealing the cavity formerly
occupied by the needle and for locking the retracted needle in place
that can be used with this and other needle retraction means. Needle
retraction is accomplished by augmenting the needle and plunger
heads such that the plunger locks in a pressure fit manner to the
needle during conventional use. The needle cavity is sealed through
the use of a specially designed sealant cavity containing sealant
material at the needle end of the cylinder; thus operation is automatic
and independent of both needle positioning and the needle retraction
means utilized. Locking the retracted needle within the cylinder
is accomplished by augmenting the inner surface of the cylinder
with a needle or plunger head accepting clamp; thus only minimal,
non-distracting one-handed operation is required and, once again,
needle position and retraction means are inconsequential. In addition,
a minimum of perforations can be added to the exposed end of the
plunger for removing the plunger end without compromising reliability.
One object of the invention is therefore to provide a safety syringe
that utilizes a needle retraction method for automatically engaging
and retracting the needle following use.
A second object of the invention is to provide a means for retaining
the needle in a retracted position that is intuitive and requires
only minimal, non-distracting, one handed operation.
A third object of the invention is to provide such a syringe wherein
fluid within the syringe cannot escape through the cavity formerly
occupied by the retracted needle.
A fourth object of the invention is to provide retaining and sealing
means that are essentially independent of needle positioning and
needle retraction means utilized and that further provides for practical
implementation of plunger shaft removal and other supplemental protection
means.
These and other objects, advantages, features and benefits of the
present invention will become apparent from the drawings and specification
that follow.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a bottom perspective view of the Safety Syringe With
Self-Sealing Needle Retraction And Retracted Member Lock, showing
how the needle retraction, sealing and locking means are preferably
contained within a conventional syringe housing.
FIG. 2 is a partial schematic, longitudinal cross-sectional view
thereof, showing how the plunger defines an integral needle head
clamp engageable with the needle head merely by depressing the plunger
as with a conventional syringe.
FIG. 2a is an enlarged view taken from FIG. 2 and showing further
detail of the needle head clamp.
FIG. 3 is a partial schematic, longitudinal cross-sectional view
thereof showing how conventional plunger retraction acts to dislodge
and retract the now engaged needle.
FIG. 4 is a cross-sectional view thereof, showing how an integral
cover and the inner surface of the syringe define a cavity essentially
filled with a conventional non-toxic, fluid repelling resin.
FIG. 5 is a cross-sectional view, showing how the resin is drawn
into the needle cavity formed by the retracting needle due the pressure
created by the retracting needle, thereby sealing the cavity and
preventing fluid from escaping from the syringe cylinder.
FIGS. 6a is a cross-sectional view, showing how conventional retraction
of the plunger draws the plunger and an engaged needle toward a
plurality of integral locking clamps.
FIG. 6b is a cross-sectional view as in FIG. 6 showing how further
conventional retraction of the plunger engages the plunger with
the locking clamps, thereby preventing the plunger from subsequent
depression and the now fully engulfed needle from subsequent extension
from the syringe.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
FIG. 1 shows that the Safety Syringe With Self-Sealing Needle Retraction
And Retracted Member Lock (Syringe) 1 provides needle retraction
means 5 needle cavity sealing means 6 and needle retraction locking
means 7 within a conventional syringe configuration. Thus while
the risk of contact with an exposed needle or escaping fluid from
a used syringe are essentially removed, practitioner familiarity
and conventional syringe packaging, disposal, etc. are not compromised.
FIGS. 2 through 3 show that the needle retraction means 5 comprises
augmenting the needle side 41a of the plunger head 41 with a flexible
recess shaped as a needle head clamp 51 that is engageable with
the needle head 21a. To ensure reliability, the shape of the needle
head clamp 51 is commensurate with that of a conventional barrel
type clamp and the bottom surface of the needle head 21a is preferably
flattened. Thus ordinary depression of the plunger 4 easily forces
the needle head 21a through the flexible angular jaws 52 of the
flexible needle head clamp 51; recoiling the angular jaws 52 securingly
engaging the needle head 21a on the clamp shelves 53. Once so engaged,
withdrawing the exposed plunger end 42 retracts the needle 21 into
the syringe cylinder portion 32 of the syringe 1. A needle securing
ring 23 affixed to the outer surface of the needle end 34 of the
cylinder 3 adds further stability by securing the needle 21 during
Syringe 1 use, as with conventional syringes.
FIGS. 4 and 5 show that the inner surface 31 of the cylinder 3
forms a integral sealant cavity 61a containing a conventional non-toxic,
fluid-repelling, resin compound type sealant 62 at the tapered end
portion 33 of the cylinder 3. Thus pressure caused by retraction
of the needle 21 into the cylinder 3 draws the sealant 62 into the
needle cavity 63 remaining as the needle 21 is retracted. A molded
cavity cover 61 ensures that the sealant 62 remains in the sealant
cavity 61a for optimal sealing and to preempt the possibility of
contamination of syringe cylinder portion 32 contents during Syringe
1 use.
FIGS. 6a and 6b show that the retracted needle 21 and plunger head
41 combination is retained in a retracted position through the use
of a locking clamp 71 augmentation to the inner surface of the cylinder
3 proximate to the cylinder end opposite the unretracted needle
21. Once again, the locking clamp 71 design is preferably commensurate
with that of a conventional barrel clamp; the locking clamp 71 is
simply sized to be securingly engageable with the plunger head 41.
In addition to providing a simple, inexpensive and reliable locking
means, no further manipulation is required to lock the retracted
needle 21 in place other than to sufficiently withdraw the plunger
4.
While the above description contains many specificities, these
should not be construed as limitations on the scope of the invention,
but rather as an example of the preferred embodiment thereof. Many
other variations are possible within the spirit and scope of the
present invention.
For example, the locking clamp of the present invention can be
used to add permanency to other needle retraction means. While a
barrel type clamp is preferred as an optimally reliable design,
numerous shapes can be employed so long as the locking clamp is
sized and shaped to effectively engage the plunger head, a needle
head augmentation or both.
A second example is that the shape and plastic composition of the
locking clamp can be varied in numerous ways without affecting needle
locking reliability; rubber composition is just one example. In
addition, the locking clamp can be molded as one or more components
affixed to the inner cylinder surface or a plurality of grooves
defined by the inner cylinder surface in addition to the integral
clamp of the preferred embodiment. Further, the needle head clamp
and locking clamp, while preferably formed as described above, can
be effectively formed as recesses, surface augmentations and/or
appendages.
A third example is that the sealant cavity and sealant can also
be utilized with other needle retraction methods in a non-interfering
manner. A plurality of gaskets can further be affixed within the
sealant cavity and/or within the remaining cylinder cavity to further
prevent fluid contamination by the sealant itself. In addition,
the sides of the sealant cavity cover abutting the needle can be
formed to recoil as the needle is retracted, thereby providing improved
sealing capability; such recoiling, however, was not preferred due
to added resistance to plunger movement.
A fourth example is that needle placement along the central longitudinal
axis is utilized only for illustrative purposes. Shifted axial needle
placement for specific medical procedure applications is readily
accommodated by the present invention through a simple re-alignment
of the respective cavities, clamps and cylinder size and shape.
Such permutations merely demonstrate the anticipated adaptability
advantages of the present invention over prior art.
A fifth example is that the needle need only be retracted to the
extent that it no longer protrudes from the syringe and the sealing
compound acts to effectively seal the syringe. Lesser needle retraction
than that of the preferred embodiment advantageously requires lesser
user manipulation. However, engulfment of the needle within the
syringe cylinder is thought to preclude failure of the sealant due
to needle-sealant interaction considering available sealing compounds
and the variety of potential disposal site conditions.
There are, of course, other anticipated embodiments also within
the spirit and scope of the present invention. |