RU2284195C2 - Retractable single-use syringe with compulsorily held needle - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has chamber for holding needle. The chamber is set in motion with a handle does not allow the needle to be drawn-out from the syringe. The device has elongated hollow cylinder, retractable needle, movable pieces and compulsory-locking structural unit. The elongated hollow cylinder has frontal end and open rear part. The retractable needle is pulled-in by means of drawing-in structural unit mounted on the frontal syringe cylinder end. The needle is displaceable when being drawn-back. Movable parts have a handle attached to the chamber holding the needle. The movable parts are sealed, sliding and movable in the syringe cylinder by means of the handle going-out from the open rear syringe part. The chamber for holding needle has opening corked orifice in the frontal part for receiving the retractable needle. The needle is pullable into the chamber fro holding the needle when moving the chamber forward to the drawing-in structural unit as a response to handle displacement after finishing injection. The compulsory-locking structural unit is mounted inside the syringe cylinder and restricts return movement of the chamber holding the needle for preventing its being drawn-out from the syringe cylinder after its single use. The retractable needle is safely enclosed in the chamber for holding the needle inside the syringe not allowing its being drawn-out by operating the handle or by pulling the handle.

EFFECT: high safety level; impossible repeated application irrespectively of the needle being drawn-in or not.

34 cl, 19 dwg

Description

1. The technical field

The present invention relates to medical devices for liquids, and more particularly to retractable needle syringes that cannot be reused after injection.

2. The level of technology

The field of technology related to syringes has been developing rapidly in recent years as a result of the treatment of AIDS and other infectious diseases and the inevitability of accidental needle injections by medical personnel when using needles for infectious patients. Used syringes with protruding needles are dangerous for medical personnel, orderlies and others involved in disposal. The prior art describes many syringes and other medical devices with retractable needles, which are usually retracted into the cylinder or into the needle receiving chamber inside the syringe barrel. The most advanced retractable syringes are described by the applicant in US Pat. Nos. 5,385,551; 5,578,011; 5,632,733; 6015438; and 6090077, incorporated herein by reference in their entireties. The syringes described in the aforementioned patents are automatically retracted by continuing to advance the plunger handle after completion of the injection and are configured to use and retract the syringe with one hand so that the healthcare provider does not need to come into contact with the infected needle. The plunger-driven automatic retraction of these devices takes place before the needle is removed from the patient. Such retractable syringes are suitable for mass production at low cost and a high degree of reliability and repeatability. They are suitable for automated production of parts and automated assembly for many different cylinder sizes, needle sizes, and for various purposes.

Although the syringes and other retractable syringes described above eliminate or significantly reduce the problem of needle pricking, there is a need for disposable syringes that cannot be reused under any circumstances. Most, if not all, retractable syringes require the user to take certain actions to initiate retraction of the needle after the injection has been given. This leaves it possible to reuse retractable syringes if the user does not retract the needle after the first use of the syringe. A solution to this problem has been proposed in the case of non-retractable syringes using various devices that mechanically lock the piston handle after the first use of the syringe, but none of these devices has a retractable needle. Thus, the needle remains open and the possibility of a needle stick remains, even though the syringe cannot be reused since the piston cannot be removed again. Examples of syringes with locking piston arms but not retractable are described in US Pat. No. 5,000,737 to Free et al. Entitled "Single Use Disposable Syringe"; U.S. Patent No. 5,205,825 to Allison et al. entitled "Insertable Element for Preventing Reuse of Plastic Syringes"; US Patent No. 4,973,310 to Kosinski, entitled "Single-Use Syringe"; U.S. Patent No. 4,961,728 to Kosinski, entitled "Single-Use Syringe having Misuse Resistant Features"; U.S. Patent No. 5,531,691 to Shonfeld et al., entitled "Single Use Syringe Assembly"; and U.S. Patent No. 5,562,623 to Shonfeld et al., entitled "Single-Use Syringe Assembly including Spring Clip Lock and Plunger." The description of these patents is incorporated herein by reference in its entirety.

The disposable syringes mentioned above cannot be used after injection, but the infected needle still protrudes and needs to be closed, removed or otherwise removed in order for the syringe to become safe. Thus, there is a need for an improved disposable syringe with a needle that is retracted into the barrel of the syringe after use and which cannot be reused, whether the needle is retracted or not.

SUMMARY OF THE INVENTION

The present invention is a retractable disposable syringe having a handle-driven needle holding chamber that cannot be removed from the syringe barrel. The hallmark of retraction eliminates the danger associated with the protruding needle after the injection. Forced locking design ensures that the syringe is indeed a disposable syringe and cannot be reused. In various embodiments of the invention, the movable parts constituting the elements of the handle and the chamber for holding the needle are limited in return movement and are placed in the cylinder of the syringe after one return movement of the handle when filling the syringe with liquid and direct movement of the handle when removing the liquid from the syringe. The invention serves to eliminate the risk that the retractable syringe, which is intended to be retracted after one use, may possibly be reused, since the operator decided not to actuate the retractor mechanism, thereby leaving the needle open for second use. This cannot happen because the forced locking structure prevents the needle holding chamber from being pulled out by blocking its removal. The needle holding chamber remains in the cylinder regardless of whether the retracting mechanism is activated or not and whether the needle is retracted or not. This implies that this feature of the invention can also be applied in non-retractable syringes in which the needle is attached to the front end of the cylinder, and this can be considered as another aspect of the invention disclosed in the present description. In the case of a non-retractable syringe, the invention works in the same way, limiting or preventing the removal of the handle (plunger) from the cylinder. If the handle cannot be pulled back a second time, the syringe cannot be refilled with fluid.

An elongated hollow syringe barrel having a front end and an open rear side has a retractable needle mounted to retract on a retractor structure located at the front end of the syringe barrel and biased when retracted in the longitudinal reverse direction. Movable parts containing a handle attached to the needle holding chamber perform the function of a conventional syringe plunger in the cylinder. The front end part of the needle holding chamber has a piston mounted with sliding hermetic contact with the inside of the cylinder. The moving parts are moved by a handle extending from the open rear side of the cylinder. The rear end portion of the handle element has a stop for applying a thumb force to the handle. The needle retention chamber has a hermetically sealed opening in the front for receiving the retractable needle into the needle retention chamber when the retractor mechanism is actuated when the plunger is moved forward after the fluid has been withdrawn during the injection. The retraction of the needle into the needle retention chamber is initiated when the needle retention chamber is moved forward toward the retractor structure in response to the movement of the handle after completion of the injection.

A force-locking structure is located inside the syringe barrel, restricting movement of the needle retention chamber in the opposite direction and preventing it from being pulled out of the syringe barrel after one use. The force-locking structure is designed in such a way that it does not affect the reverse movement and one direct movement of the moving parts until the direct movement is complete, but subsequent movement of the needle holding chamber in the opposite direction is limited to hold said chamber inside the syringe barrel.

In a first embodiment of the invention, a force-locking structure is fixed inside the cylinder in a fixed position. The locking structure is an element having a cylinder diameter and forming a first stopper, while the needle holding chamber has a section with an increased diameter and forming a second stopper, and the second stopper can be moved past the first stopper in the forward direction by pressing the handle, but which does not allow movement in the opposite direction, when pulling the handle. The first embodiment of the invention additionally has a handle element that can be detachably connected to the needle holding chamber and detachable from it under the action of a force less than the force required to pass the second stopper past the first stopper in the opposite direction. Preferably, the handle is detached from the needle holding chamber by disengaging the detachable parts without destroying them.

The first embodiment of the invention preferably further includes a latch on the front end portion, which can pass past the first stopper by pressing the handle before the second stopper passes past the first stopper. Until the second stopper passes forward past the first stopper, the handle can be removed to fill the syringe. The latch on the front end of the needle holding chamber limits the amount of reverse movement of the moving parts, which determines the estimated maximum syringe fill volume. The latch comes in contact with the first stopper. However, when the plunger is pressed for injection, the second stopper on the rear side of the needle holding chamber, or in some other intermediate position in the needle holding chamber, passes by the first stopper and thereby provides the above distinguishing feature of the restriction, which leads to the separation of the two-element handle when pulling the handle in the opposite direction. After the handle is advanced so that all the stoppers are behind the first stopper in the cylinder, the syringe can be emptied and the retractor is actuated by continuously moving the handle forward.

A second embodiment of the invention has an elongated hollow syringe barrel, preferably having a retractable needle mounted to retract on a retractable structure at the front end of the syringe barrel and biased when retracted in the opposite direction. It has a movable handle on the cylinder of the syringe, having a front end part with a piston forming sliding tight contact with the inner part of the cylinder, a rear end part with a stop for applying the thumb force to the handle and a needle holding chamber in the front end part for receiving the retractable needle. In a second embodiment of the invention, the force-locking structure is also located inside the barrel of the syringe. This limits the movement of the handle in the opposite direction and prevents it from being removed from the syringe barrel after one use. However, in the second embodiment of the invention, the locking structure may move relative to the cylinder.

A locking structure is located on the handle, which can only move in one direction, from the first position near the rear of the handle to the second position, closer to the front of the handle. The locking structure is configured to force engagement with the syringe barrel and restricting movement of the needle holding chamber in the opposite direction after the locking structure is moved forward from the first position. The needle holding chamber is preferably located directly in front of the second position of the locking structure. Preferably, the handle has a set of stepped teeth, and the force-locking structure is preferably a clip having a tongue inclined inward relative to the stepped teeth, which allows the clip to move in the forward direction on the handle, but prevents the clip from moving in the opposite direction. The clamp has at least one outwardly pointed sharp tip that engages with the syringe barrel, preventing the handle from being removed. The sharp tips simply slide along the surface of the handle, since they are tilted back, but prevent the reverse movement, which leads to the fact that the sharp tips are embedded in the inner surface of the cylinder. Preferably, the clamp covers part, but not all of the stepped teeth of the rear end of the cylinder, having a shape slightly larger than a half ring.

A third embodiment of the invention includes features of all other syringes in the first and second embodiments, with the exception of various forcibly locking structures. In a third embodiment of the invention, a force-locking structure restricting the movement of the handle in the opposite direction is located inside the barrel of the syringe in a fixed position relative to the barrel. More specifically, this design is located inside the open rear of the cylinder. The structure located inside the open rear of the cylinder in a fixed position relative to the cylinder is preferably a spring clip having a sharp tip, one or more, inclined forward, which are insulated by a sliding sleeve located on the handle, from contact with the handle during the initial pulling of the handle, for introducing fluid into the cylinder. This allows one pull of the handle in the opposite direction from the initial front position relative to the cylinder without engaging the spring tips with the handle. When the plunger moves forward, the sliding cuff moves forward and does not come into contact with the sharp tips of the spring clip, whereby the spring clip engages with the handle, preventing it from being pulled out. In a third embodiment of the invention, the rear end portion of the handle has a set of stepped teeth similar to the second embodiment of the invention, on which a cuff located on the handle is placed. The sliding cuff has an inclined surface that allows the plunger handle to move in the opposite direction with respect to the cuff, but the cuff has a latch that engages the edge of the stepped tooth, which causes it to move forward with the handle from the spring clip. The spring clips simply pass over the stepped teeth without interaction when moving the handle forward, but when the handle moves backward, sharp tips enter the handle and prevent any movement of the handle backward. The locking surface on the back of the needle retention chamber can touch the cuff and prevents the handle from further extending after the handle has been pulled back as far as possible. The cuff is gripped in the cylinder.

Although the present invention is most effective in combination with a retractable needle mounted on a retractable structure in front of the syringe, the invention relates mainly to the single use aspect and, thus, can be used in syringes with fixed needles, as well as syringes with needles, mounted with the possibility of retraction.

Brief Description of the Drawings

Figure 1 is a longitudinal section of a first embodiment of the invention having a needle holding chamber and a detachable handle that is shown in a pre-filling position,

Figure 2 is a section along the line 2-2 in Figure 1 of the handle and stop for the thumb of the first embodiment of the invention,

Figure 3 is a longitudinal section of a first embodiment of Figure 1 with a plunger extending backward to the stopper to the maximum filling position,

Figure 4 is a longitudinal section of a syringe according to the previous figures after moving the handle to the end position of the injection,

Figure 5 is a longitudinal section of the syringe according to the previous figures, showing the release of the handle, in the event that the handle is pulled from the position of Figure 4 to the position of Figure 5, without initiating retraction,

Fig. 5A is an enlarged longitudinal section of the middle part of the first embodiment of Fig. 5, showing the needle holding chamber and the seal of the plunger in the position of Fig. 5 before being retracted,

Figv - stopper in the cylinder, visible along the line 5B-5B of Fig.5,

5C is an alternative embodiment of the stopper of FIG. 5B, showing that the stopper may be a set of one or more radial protrusions,

Fig.5D is an alternative arrangement of the stopper in Fig.5B and 5C, which may be useful for determining the stroke of the syringe,

6 is a longitudinal section of a syringe according to the previous figures with a needle pulled into the needle holding chamber and the handle in the maximum forward position with a thumb rest locked in the hole in the rear of the syringe barrel,

Fig.7 is a longitudinal section of Fig.6, showing the separation of the handle from the camera holding the needle in the syringe of Fig.6, if the handle is pulled back to retract the needle,

Fig. 8 is a longitudinal section of a second embodiment of the invention having a retractably mounted needle, a needle retention chamber, a step handle having a set of stepped teeth and a force-locking structure that includes a clip shown in a first position near the rear of the handle,

Fig.9 is a perspective view of an illustrative embodiment of the clamp of Fig.8-14,

Figure 10 is a longitudinal section of the syringe of Figure 8 with a handle elongated to draw fluid into the syringe, thereby moving the clamp to a second position closer to the front of the handle,

11 is a longitudinal section of a retractable disposable syringe of FIGS. 8 and 10 with a handle fully advanced forward to complete the injection,

12 is a longitudinal section of the disposable syringe of FIG. 11 with a handle maximally advanced forward beyond the full injection position, which leads to retraction of the needle into the needle holding chamber,

13 is a longitudinal sectional view of an alternative embodiment of the second embodiment of the invention, in which the handle is detachably attached to the rear of the needle holding chamber in a manner similar to the first embodiment of the invention, with the plunger in the fully completed injection position,

Fig. 14 shows the syringe of Fig. 13, in which the plunger was further advanced forward from the position of Fig. 13 for drawing the needle into the needle holding chamber,

FIG. 15 is a longitudinal section of a third embodiment of the invention having the same retractable needle and needle retention chamber as in the previous figures, but with another forcefully locking structure that allows the handle to be pulled back once to fill the syringe,

FIG. 16 is a perspective view of the spring clip of FIG. 15 showing a preferred set of spring sharp tips, FIG.

FIG. 17 is a longitudinal section showing a third embodiment of the invention of FIG. 15 after the handle is pulled into the position corresponding to FIG. 10,

Fig is a longitudinal section showing how the spring clip is released, engaging with the handle, if the handle begins to move forward when performing the injection, thereby preventing a noticeable movement of the handle back,

Fig. 19 is a longitudinal section of the syringe according to the third embodiment of Fig. 18, after the handle has been advanced forward to the end position of the injection.

DETAILED DESCRIPTION OF THE INVENTION

In the following description, like parts are denoted by like reference numerals. The parts shown in the drawings are preferably circular or cylindrical.

The retractable disposable syringe according to the first embodiment is disclosed in FIGS. 1-7 in connection with modifications of the retractable syringe in FIGS. 1-3 of US Pat. No. 5,632,733. Although details of a preferred retractable syringe embodiment can be found in the cited reference, as well as in other references cited in the present description when describing the prior art, its main attributes will be summarized in the present description in connection with the present invention. The present invention provides forcibly locking the plunger handle to prevent reuse, even if the syringe has not been retracted after first use. You must understand that the present invention is not limited to a specific retractor or design, and it can be used with other devices with a retractable needle, especially with driven advancement of the plunger handle after injection is completed. There are many devices that pull the needles in the opposite direction into the hole of the plunger. For example, US Patent No. 5,407,436 to Toft, or US Patent No. 5,713,952 to Pressly, can be improved using the present invention. In the latter case, although the plunger handle has an element that does not allow reuse, it only functions if the syringe is actually retracted.

The retractable disposable syringe of the present invention is generally indicated in FIG. 1 by the reference numeral 10. The syringe 10 has an elongated hollow syringe barrel 12 having a front end portion 14 and an open rear end portion 16. The retractable needle 18 is retractably mounted on the retractor structure 20. which includes an elongated needle holder 22 having a front flange that is located in the hole 24 in front of the front end portion 14, preventing forward movement. A small portion of the needle holder in FIG. 1 is visible protruding forward beyond the cylinder. The detachable locking element 26 is an annular structure engaged by friction to detach along the interface 28 with the elongated head 30 of the locking element 26. The interface is oriented in the direction of retraction. The locking element 26 together with the head 30 of the needle holder 20 is preferably tightly pressed against the inner side wall 32 of the front part 14, and thus they are held against the retracting force created by the compressed spring 34. The spring 34 has one end located on the protrusion in front of the part 14 and the rear the end is pressed against the inner side of the head 30 of the needle holder 22, not pressing against the removable locking element 26. The needle 18 is fixed in the needle holder 22 with adhesive 36.

The syringe is actuated by moving parts including a handle 38 that is detachably attached to the needle holding chamber 40 by means of a locking connection 42, preferably forming a snap connection on the front 44 of the handle 38 to the back of the needle holding chamber 40. The handle 38 preferably has a core 76 with guide ribs 78 and a thumb rest 70, as shown in FIG. The finger grippers 80 act in conjunction with the thumb rest 70, allowing one-handed operation. As can be seen in FIG. 7, the front portion 44 of the handle 38 has a groove 46 that mates to retract with one or more projections 48 on the rear of the needle holding chamber 40 to form a snap connection 42. The amount of force required to release the handle member 38 from element 40, less than the force required to pull the camera holding the needle by the stopper on the cylinder. The handle is detached from the needle holding chamber, leaving the needle holding chamber in the cylinder.

The movable parts 38, 40 jointly function as a movable plunger arranged for reciprocating movement in the cylinder 12 with a piston seal forming a tight sealing contact with the inside of the cylinder 12. The needle holding chamber 40 has a front portion 50 with a piston seal 52 located on it . The seal 52 forms a sliding tight contact with the inner surface 54 of the cylinder 12, thereby forming a variable fluid chamber 56 in front of the front end 50 of the needle holding chamber 40. The needle holding chamber has an opening at its front end that is closed by a removable stopper or other closure 60, which is preferably held in the hole by friction.

The needle holding chamber 40 has a holding region 58 for holding the retractable needle and a removable plug 60 covering the opening in the chamber 58 with the possibility of sliding movement. The extreme front part of the front end part 50 includes a tip 62, which serves to contact the locking element 26 and move it to the region 64 behind the needle holder head 30 in the front part 14. This is done automatically when the handle is moved forward from the "injection completion position" shown in Figure 4. Further forward advancement of the handle from the position of the moving parts of FIG. 4 moves the locking member having an annular shape and displaces the plug 60, thereby opening the holding region 58 and releasing the needle 18 to retract into the region 58, as shown in FIG. 6. The design described above provides a syringe with a retractable needle that prevents needle pricks and which cannot be reused easily since the parts are disconnected from each other after retraction and the thumb rest fits snugly into the open rear portion 16 of cylinder 12. The present invention is still further, making it impossible to contact with the needle or other parts if the syringe is retracted, and not allowing refilling if the syringe is not retracted.

More significantly, a forced-locking structure 66 is provided on the inner surface 54 of the syringe barrel 12, which includes an element or elements protruding radially inward to prevent the needle holding chamber 40 from moving in the opposite direction and to prevent it from being removed from the syringe barrel after one use . Preferably, the needle holding chamber 40 has an elongated rear end 68 that cooperates with a force-locking structure 66 on the inside of the syringe barrel. The gap between them is such that it can be advanced past the locking structure 66 in the forward direction under the action of the force of the thumb applied to the stop 70 for the thumb. However, after the handle of the syringe 38, 40 is advanced so that the rear end 68 of the needle holding chamber 40 passes by the structure 66, any attempt to reverse travel cannot be made since the handle member 38 is disconnected from the needle holding chamber member 40, as shown in 5 and 7.

Figure 1 shows the position of the syringe in a state of readiness for filling. The handle 38, 40 is advanced forward so as to bring into contact the back of the needle holding chamber with what will be called the first stopper 66, which includes a structure having a cylinder diameter in a fixed position inside the cylinder. The rear end 68 of the needle holding chamber 40 preferably includes what will be called a second stopper, which cooperates with the first stopper, preventing further movement of the moving parts forward without applying noticeable force. The second stopper is preferably an expansion in diameter of the cylindrical needle holding chamber with the most suitable arrangement shown in FIG. 1 on the rear of the needle holding chamber. However, if geometry requires it, diameter expansion can be moved forward from the back of the needle holding chamber. The reason for the different location of the expansion in diameter on the needle holding chamber may be the difference in pressure before filling to form different volumes of filling for different doses. The first and second stoppers 66, 68 constitute a force-locking structure. Although the variable fluid chamber 56 in the ready-to-fill position seems rather large, in reality, it only makes up a relatively small portion of the maximum volume of the syringe and is very small in absolute units for syringes with a volume of 1 cm ³ or S cm ³ . As will be shown, the position of the stopper 66 and the length and diameter of the chamber 40 and the cylinder 12 determine the filling volume. The needle holding chamber has such dimensions and is positioned so that the needle 18 is completely housed in it so that after retraction the sharp tip does not protrude outward.

Figure 3 shows the next stage in the filling process, when the user can freely pull the handle of the syringe back until the latch 72 on the front end of the needle holding chamber 40 engages in the first stopper 66. This provides the user with a tactile signal indicating that the syringe is full filled with liquid for injection.

Figure 4 illustrates the next step in working with a syringe when a needle is inserted into a patient (not shown) and the plunger is moved forward to the end position of the injection. In this case, the front end part of the needle holding chamber 40 is positioned so that the forward movement of the tip 62 can sequentially begin removing the plug 60 from the opening of the needle holding chamber 50 and shifting the locking element 26 from the head 30 of the needle holder 22 of the retractor assembly 20. This is achieved by pressing against the stop 70 for the thumb until the stop 70 for the thumb fits snugly into the hole 74 on the extended rear end 16 of the cylinder 12. This results in the position of the retractable needle of FIG. 6, where the retractable needle is retracted into the cam py hold the needle with the cork in front of her. The thumb rest 70 enters hole 74. In this position, the needle is retracted into a safe position and the handle is firmly inserted into the open rear of the syringe barrel, preventing reuse.

However, if the user refuses to retract the syringe after reaching the position in Figure 4, we proceed not to Figure 6, but to Figure 5. Figure 5 shows that an attempt to remove the movable parts by pulling the handle element 38 will only cause the second stopper 68, preferably located on the back of the needle holding chamber 40, to come into contact with the first stopper 66, after which it cannot move on. The handle element 38 is simply detached from the needle holding chamber 40 by disengaging the snap connection 42, leaving no access to the inside of the syringe. The groove 46 in the front portion 44 of the handle 38 disengages with the protrusion or protrusions 48. During the disengagement process, slight deformation of the parts can occur. As can be seen in FIGS. 4 and 5, even if the handle element 38 is reinserted into the rear of the cylinder, there will be an inadequate fill volume in the variable chamber when reusing the syringe.

Fig. 5A is an increase in the middle part of Fig. 5 between the tear lines shown in Fig. 5. In this case, the latch 72 is visible in more detail in the preferred form of an annular serrated radial protrusion on the front part 50. The rear part 68 of the needle holding chamber 40 may have an enlarged diameter surface 82 having edges protruding to the first stopper 66. The lug protrusions 48 are visible at the rear end needle retention chambers 40, which fit into groove 46, visible in FIG. 5 of the handle member 38 that has been removed. Fig. 5B is a cross-section showing that the stopper 66 may be a continuous structure along the inside diameter of the cylinder 12. Fig. 5C shows that the stopper 66 may be a set of extended regions or radially inwardly extending elements arranged so as to touch and fix the rear a portion 68 of the needle holding chamber 40, thereby preventing it from being pulled out by the handle 38. Similarly, if the stopper 66 is continuous, the rear end of the needle holding chamber 40 carrying the second stopper 68 may be discontinuous. One or the other must be continuous so that there is no angular position of the needle holding chamber, at which it can be pulled out of the cylinder with the help of a handle.

Fig. 5D illustrates that the rear end of the needle holding chamber 40 can be modified as the straight back portion 68 'in Fig. 5D, which is sized to allow passage through the hole formed by the stopper 66. Alternatively, the enlarged diameter portion 69 on the outer portion the needle holding chamber 40 may be located in various longitudinal positions, acting as an abutment for the force stopper 66. An enlarged diameter portion 69 may be considered as a second stopper cooperating with the first stopper 66, og anichivaya reverse movement of the needle retention chamber. The second stopper 69 works in exactly the same way as the enlarged rear end portion 68 of the needle holding chamber 40 of the previous figures, where it can be advanced through an opening in the structure 66 when moving forward under the force exerted on the thumb rest 70. If, after this, the user tries to pull the handle back, the enlarged diameter part 69 comes into contact with the structure 66 and requires an application of force exceeding that required to separate the handle 38 from the needle holding chamber 40. This is simply an alternative way of providing various movements of the handle relative to the cylinder, which may be useful in determining the stroke for a particular syringe to deliver the desired dose.

Figures 8-14 show a second embodiment of a retractable disposable syringe having the preferred retraction mechanism disclosed in the previous figures, for which the same reference numerals will be used. Modifications to the parts shown in the previous description will be indicated by strokes. The syringe of the second embodiment is generally indicated by 10 '. The retractable syringe 10 'has the exact same needle 18 mounted to retract and the retractor structure 20 as the first embodiment. It has a syringe barrel 12 ', which differs from the first embodiment in that it does not have the same forcefully locking structure and does not have an enlarged rear end portion 16. The syringe barrel 12' has a front end portion 14 and an open rear portion 84. The movable handle fixed with the possibility of reciprocating movement in the cylinder 12 'of the syringe and contains a camera 40' holding the needle, attached to the element 38 'of the handle. The front end portion 50 of the movable handle includes the same piston seal 52 and the plug 60 that can be removed by sliding movement, which have already been discussed for the first embodiment. The rear end portion of the movable handle has a tip element 86 forming a thumb rest on the rear end of the handle, through which the force of the thumb is applied to the handle. The needle holding chamber 40 ′ is either attached or detachably connected to the handle member 38 ′, but only for production purposes. If these two parts of the movable element are manufactured separately, they should be joined in a manner that does not allow them to be disconnected, such as welding, gluing, or another permanent joining method, or, preferably, should be made by molding as a single movable handle.

The second embodiment of the invention differs from the first embodiment in that the force-locking structure is preferably a metal clip 88 shown in FIG. 9. The clamp 88 has a tongue 90 on the main part 94 and one or more pairs of locking teeth 92. The tongue 90 is slightly inclined inward, interacting with a set of stepped teeth 96 located along the handle element of the moving parts behind the needle holding chamber 40 '.

Fig. 8 illustrates the initial position of the retractable disposable syringe according to the second embodiment. In the initial position, the movable handle is fully advanced forward in the syringe body, so that it slightly touches the retraction mechanism 20 without causing retraction. This can be easily done using the tactile sensations of the operator, who brings the plug 60 to the needle holder head 30. The force-locking structure 88 is located on the handle member 38 'and can be moved from the first position 98 of FIG. 8 to the second position 100. This is achieved by simply pulling the movable handle back relative to the syringe barrel. The force-locking structure including the clamp 88 can only move in one direction, from the first position near the rear of the handle to the second position closer to the front of the handle. The sharp tips 92 are adapted to engage with the inner surface 102 of the cylinder 12 'when trying to move the clamp in the opposite direction with the handle. Since the sharp tips 92 are directed back, they can freely slide on the inner surface 102 when moving the clamp in the cylinder forward. The tongue 90 extends over the edges of the teeth 96 when the handle moves backward relative to the clamp 88 so that when the handle is pulled back, the stepped teeth simply slip relative to the clamp and the clamp can be moved to the second position 100 of FIG. 10 from the first position 98 of FIG. 8 . Figure 10 illustrates the position of the handle relative to the clamp 88 after the maximum volume of fluid is introduced into the fluid chamber 56 through the needle 18. The needle holding chamber 40 ′ is located directly in front of the second position of the locking structure 88. Thus, it can be seen that the clip forms a locking structure.

11 shows the position of the movable handle in the position of completion of the injection after all the liquid has been withdrawn from the variable chamber 56. It can be seen that the inwardly flanged tongue 90 of the clamp 88 engages with the back edge of the tooth 96 and moves forward with the movable handle 38 ', 40 '. The sharp tips 92 tilted backward simply slide along the inner surface of the syringe barrel 12 'without interfering with the forward movement of the movable handle.

FIG. 12 illustrates how the syringe 10 ′ of the second embodiment retracts its needle by simply pressing the thumb stop 86 and moving the movable handle from the end position of the injection of FIG. 11 to the retract position of FIG. 12. It can be seen that the retractor mechanism ring 26 was removed from the head 30 of the needle holder 22 by the tip 62 to the region 64, and the needle holder with a compressed spring and the needle moved in the opposite direction after removing the plug from the front end of the needle holding chamber 40 'and were retracted into the chamber. and held therein by a spring 34. The parts are so large that the entire needle, including the tip, is hidden in the cylinder 12 '. The above is a locking structure located inside the cylinder that does not affect one reverse movement and one forward movement of the movable handle. Now, however, the forced locking structure 88 is located in the second position of FIG. Any reverse movement of the holding chamber in the opposite direction is limited by the clamp 88, since the slipping sharp tips 92 are now positioned so that they extend into the inner surface 102 of the cylinder 12 ', thereby preventing the handle from moving backward through the contact of the lower part of the clamp 88 with the rear end 104 of the camera 40 'needle retention. Since the clamp cannot move in the opposite direction and blocks the reverse movement of the needle holding chamber 40 ', it can be seen that the handle 30 cannot be removed from the cylinder after one application. Comparing the clamp positions in FIGS. 11 and 12, it can be understood that the movable handle cannot be removed regardless of whether the syringe is retracted or not. Thus, the handle is forcibly locked in the syringe after one use. It is also obvious that the volume to be filled can be adjusted depending on the initial position of the clamp 88 relative to the handle element 38 ′, as explained in US Pat. Nos. 5,531,691 and 5,562,623 to Shonfeld et al. Mentioned in the description of the prior art.

Figs. 13 and 14 correspond to Figs. 11 and 12. The syringe 10 "differs from the syringe 10 'in Figs. 11 and 12 only in that the handle 38" is connected to the needle holding chamber 40 "with the possibility of detachment by means of a detachable connection 106. Rear the end portion of the needle holding chamber 40 ″ has a groove 108, which is preferably an annular groove, and the front end of the grip member 38 ″ preferably has an annular radial protrusion 110 in the form of a protruding region fixed to the front end of the grip element 38 ″ that enters into the groove 108. By means of a detachable connection 106, the movable parts, including the handle element 38 and the needle holding chamber 40, form a two-element structure, which simplifies molding and assembly and allows one of the parts to be changed, while at the same time leaving the dimensions of the second detachable part standard. For example, the handle element may be made longer or shorter and used with the same needle holding chamber, or the needle holding chamber may have different lengths using the standard 38 "handle element. One reason for changing the needle holding chamber may be to use needles of different lengths. This is also another way to change the piston stroke to change the maximum dose.The length of the cylinder may vary, but the length of the cylinder is not important, because the clamp 88 works exactly the same as described above in connection with Figures 8-12 does not allow recovery of the handle 38 'and chamber 40' needle retention after the first injection. The handle can not be removed regardless of whether powered by a retracting mechanism 20 or not.

FIGS. 15-19 show a third embodiment of the invention, which will be referred to as syringe 11. The syringe 11 is preferably a retractable syringe of FIGS. 1-7 with certain exceptions listed below. Parts not shown in FIGS. 15-19 should be considered identical to those of the first embodiment up to and including the rear end of the needle holding chamber. The rear end portion 112 of the cylinder 12 is modified so that it accommodates the spring clip structure 114 shown in FIG. 16. The cylinder has an extended rear end behind the finger grippers 80, similar to the rear 16 of the first embodiment. It also has an opening 74, which completely includes the thumb rest 70 on the rear of the handle 116, but has a tapering dividing surface 118 immediately after the opening 74. The edge 118 forms a groove 120 around the enlarged rear end portion 112 of the cylinder 12, into which the spring clamp 114 in a fixed position relative to the cylinder. As will be seen, the spring clip 114 constitutes a structure located inside the cylinder that restricts the subsequent movement of the needle holding chamber in the reverse direction after the first use of the syringe.

The handle 116 is located behind the needle holding chamber 122 (FIG. 17) and has a set of stepped teeth 124 similar to the stepped teeth 96 of the second embodiment along its length. The slide element, preferably in the form of a cuff 126, is located on the handle 116. The slide element 126 includes a latch 128 adapted to engage the edge 130 of any stepped tooth 124. This may be a ring element or an annular element with a slit to facilitate placement of the sliding element on the handle. The emphasis for the thumb 70 can be put into place and fixed after installing the sliding element on the shaft of the handle 116 or the handle can be two-piece.

The spring clip 114 preferably has an annular main body 132 and a cut 134, which allows slightly compressing the annular main part, which allows it to be inserted into the groove 120 by sliding past the collar 118. The spring clip 114 has a set of spring teeth 136 that are first separated from the rear handle the end portion of the sliding sleeve 126, as seen in FIG. This is the starting position of the handle corresponding to the starting position of FIG. 1 or FIG. 8. The small structure 138 on the handle 12 prevents the cuff 126 from moving in the opposite direction when the handle 116 is pulled back to the position of FIG. 17, thereby introducing fluid into the variable fluid chamber 156 (not shown), as in FIG. 3. The teeth and latch in the drawings are slightly enlarged to illustrate, but allow you to easily pull the handle back to the ready position for injection of Fig.17. This is the first extension of the handle 116 and the needle holding chamber 122. The back of the needle holding chamber 122 has a locking surface 140 that fits close to the cuff 126 if the handle is fully extended as shown in FIG. 17, the collar 126 continues to hold the spring teeth 136 away from contact with the handle.

On Fig shows what happens when you start moving forward the handle 116 of the syringe 11, in response to the application of the thumb to the stop 70, from the position of FIG. 17 to the position of FIG. 18 and, ultimately, to the position of FIG. .19. The following occurs: the sliding element latch 128 or cuff 126 engages the edge 130 of the step tooth 124 and moves forward from the spring clip 114. This allows the spring teeth 136 to pass over the step teeth 124 while moving the handle 11 forward. This continues until it is reached. the position of Fig. 19.

Fig. 19 illustrates an injection completion position with the remaining parts corresponding to the position of Fig. 4 or Fig. 13. The front end of the needle chamber 50, as in FIG. 1, reaches the retraction mechanism 20 at the front of the syringe, and fluid is discharged through the needle 18. The spring teeth are located in the groove 142 on the rear end of the handle 116. However, it is also seen that, since the teeth 136 form an acute angle with the stepped teeth 124, it is impossible to pull the handle 116 back from the position of Fig. 18 or any intermediate position between the position of Fig. 15 and the position of Fig. 19, since the spring teeth are embedded in the nearest stepped tooth and clamp Handles in cylinder. Thus, the spring clip 114 forms a force-locking structure located inside the cylinder in a fixed position, configured to engage the moving parts, which does not affect one reverse movement and one direct movement of the moving parts (handles and needle holding cameras) until they are moved forward, but the subsequent movement of the needle holding chamber in the opposite direction is limited by the position of the specified chamber within the syringe barrel, since the handle cannot be pulled back into second time.

Finally, from the position of FIG. 19, the final push of the thumb stop 70 in the forward direction beyond the end position of the injection of FIG. 19 leads to the procedure of retracting the retractable parts by moving the handle, as shown in FIGS. 6, 12 and 14. The needle retracted into the needle holding chamber 122 and placed inside the cylinder. Thus, the plunger activates the retraction, and the retraction mechanism can be the same in all three embodiments of the invention with various forced locking structures provided to limit the reverse movement of the needle holding chamber.

In the best case, the parts are made of ordinary plastic processed by injection molding, usually polypropylene. The piston seal is conventional and the clamps are preferably metal.

Although illustrative embodiments of the present invention are set forth in the present description with reference to the accompanying drawings, it should be understood that the present invention is not limited solely to these embodiments, and that various other changes and modifications can be made by those skilled in the art without going beyond the boundaries the scope of the present invention.

Claims (34)

1. A retractable disposable syringe having a handle-driven needle retention chamber made without being able to retrieve a syringe from a cylinder, comprising an elongated hollow syringe barrel having a front end and an open back, a retractable needle mounted to retract on a retractor structure located on the front end of the syringe barrel and configured to bias when retracting in the opposite direction, movable parts comprising a handle attached to the holding chamber the needle, and hermetically mounted with the possibility of sliding and with the possibility of movement in the cylinder of the syringe with a handle extending from the open rear of the syringe, and the camera holding the needle has an opening clogged hole in the front for receiving the retractable needle, and the needle is made to retract into the camera holding the needle while moving the needle holding chamber forward to the retractor structure in response to moving the handle after completion of the injection, forcibly locking the structure, position female inside the syringe barrel to limit the movement of the needle retention chamber in the opposite direction and prevent it from being removed from the syringe barrel after one use, the retractable needle is configured to, after use, be safely placed in the needle retention chamber inside the syringe barrel without being able to be removed using the handle or pulling action handles. 2. The syringe according to claim 1, wherein the needle retention chamber is attached to the handle. 3. The syringe according to claim 1, wherein the needle retention chamber is detachably attached to the handle. 4. The syringe according to claim 1, in which the forcibly locking structure comprises a structure located inside the cylinder for engaging with moving parts, which is made without affecting one reverse movement and one forward movement of the moving parts until it moves forward, but the subsequent movement of the needle holding chamber in the opposite direction is limited by the location of the specified chamber within the cylinder of the syringe. 5. The syringe according to claim 4, in which the structure located inside the cylinder, limiting the specified subsequent movement of the chamber holding the needle in the opposite direction, remains in a fixed position relative to the cylinder during use of the syringe. 6. The syringe according to claim 5, in which the structure inside the cylinder, remaining in a fixed position relative to the cylinder, contains an element with a cylinder diameter forming a first stopper, while the needle holding chamber has a section with an increased diameter forming a second stopper, the second stopper being made with the possibility of advancing past the first stopper in the forward direction when the handle is pressed, but which is able to resist movement in the opposite direction when the handle is pulled. 7. The syringe according to claim 6, in which the handle is detachably connected to the needle holding chamber and is configured to separate from it under the action of a separation force less than the force required to move the second stopper past the first stopper in the opposite direction and therefore able to separate, leaving a needle retention chamber inside the cylinder. 8. The syringe according to claim 7, in which the handle is configured to separate from the needle retention chamber by disengaging the detachable parts without destroying them. 9. The syringe according to claim 8, in which the needle holding chamber has a front end portion on which a latch is located, which is arranged to advance past the first stopper when the handle is pressed, before the second stopper passes the first stopper, and the latch limits the amount reverse movement of moving parts, determining the maximum estimated volume of filling of the syringe. 10. The syringe according to claim 5, in which the structure located inside the cylinder, restricting the subsequent movement of the chamber holding the needle in the opposite direction, remaining in a fixed position, contains a structure mounted inside the open rear of the cylinder. 11. The syringe according to claim 5, in which the design contains a spring clip made with the possibility of forced engagement with the handle after the handle is advanced forward, until the injection is completed and thereby prevents the subsequent pulling of the handle in the opposite direction after the handle is engaged with the clip. 12. The syringe according to claim 11, in which the handle includes an emphasis for the thumb to advance the handle forward, and the emphasis for the thumb is configured to fit snugly into the open rear of the cylinder when the needle is retracted by fully moving the plunger forward. 13. The syringe according to claim 11, in which the handle protruding behind the needle holding chamber is covered with teeth along its length and includes a sliding element on the handle, which in the initial position is configured to isolate the spring clip from the handle for pulling back the plunger to fill the syringe with liquid and after that it is able to move forward while moving the handle forward to release the spring clip for contact with the handle. 14. The syringe according to claim 5, in which the specified design, located inside the cylinder, restricting the subsequent movement of the camera holding the needle in the opposite direction, contains a spring clip mounted inside the open rear of the cylinder in a fixed position, and a sliding element touching the handle, and the sliding the element is made with the possibility of holding the spring clip at a distance from the handle when pulling the handle in the opposite direction and releasing the spring clip for contact with the handle when moving forward with the handle when the handle moves forward in the cylinder. 15. The syringe according to claim 4, in which the structure located inside the cylinder, restricting the subsequent movement of the camera holding the needle in the opposite direction, is configured to change its position relative to the cylinder during use of the syringe. 16. The syringe according to claim 15, wherein said design comprises a spring clip configured to forcely engage the handle after the handle is advanced forward to complete the injection, thereby preventing subsequent pulling of the handle in the opposite direction after the handle is engaged with the clip. 17. The syringe according to clause 15, in which the handle includes a stop for the thumb to advance the handle forward, and the stop for the thumb is made with the possibility of tight fit into the open rear of the cylinder when pulling the needle by fully moving the plunger forward. 18. A disposable syringe having a syringe barrel having a needle for injecting liquid exiting from the front of the cylinder and a movable handle extending from the rear of the cylinder mounted for limited reciprocating movement in the cylinder, the movable handle including a front end portion having a piston that is in hermetic sliding contact with the inside of the cylinder, in which the piston forms a variable fluid chamber in the cylinder to accommodate the injection fluid, the bottom end of the handle, which has a thumb rest for applying the thumb force to the handle and forcibly locking the structure in the cylinder, restricting the second reverse movement of the handle after the first reverse movement of the handle to fill the fluid chamber with liquid for injection and the first direct movement of the handle to perform liquid injection, characterized in that the needle is retractable and mounted on a retractor structure in front of the cylinder with the front end part of the handle is designed to actuate the retractor structure for retracting the needle, the front end part having a needle holding chamber and said piston at the back of the variable fluid chamber for receiving the retractable needle , the needle retention chamber has a front end and a section with an increased diameter, a force-locking structure, is a stopper located to limit the reverse the movement of the needle retention chamber within the cylinder, in contact with the specified enlarged section of the needle retention chamber, the handle is a two-element handle having a rear end portion, and is configured to separate from the front end portion when trying to pull the needle retention chamber by the stopper, while pulling the rear the end of the handle, and moreover, the syringe is made without the possibility of reuse, even if the needle is not retracted after use. 19. The syringe according to claim 18, wherein said stopper is formed as a structure in the cylinder, allowing the front end of the handle and the needle holding chamber to move forward of the stopper by pressing the stop for the thumb, and if the needle holding chamber is pulled back, it touches the stopper when moving in the opposite direction and creates a resistance force exceeding the force required to separate the handle, thereby ensuring that the needle remains in the cylinder, preventing reuse of the syringe. 20. The syringe according to claim 19, in which the handle is configured to separate from the needle retention chamber by disengaging the detachable parts without destroying them. 21. The syringe according to claim 19, in which the rear end portion of the handle and the needle retention chamber are detachably connected with a snap connection. 22. The syringe according to claim 19, in which on the needle holding chamber there is a latch near the front end, which is arranged to advance past the stopper when the handle is pressed, the latch being arranged to come close to the stopper when pulling the handle back, determining the maximum size to be changed fluid chambers. 23. A retractable disposable syringe having a working handle, made without being able to retrieve a syringe from a cylinder, comprising an elongated hollow syringe barrel having a front end and an open back, a retractable needle mounted to retract on a retractor structure located at the front end of the syringe barrel and made with the possibility of bias when retracting in the opposite direction, a movable handle in the cylinder of the syringe having a front end portion having a piston located in the seal a sliding contact with the inside of the cylinder, a rear end of the handle having a thumb rest for applying a thumb force to the handle, and a needle holding chamber on the front end of the handle to receive the retractable needle, forcibly locking the structure located inside the syringe barrel to limit moving the handle in the opposite direction and preventing it from being removed from the syringe barrel after one use, the retractable needle is made possible after use without asno placed in the needle retention chamber within the syringe barrel without possibility of extraction by means of action with a handle or pulling the plunger. 24. The syringe according to claim 23, wherein the handle has a forcefully locking structure configured to move in only one direction from a first position near the rear of the handle to a second position closer to the front of the handle, the locking structure being configured to engage the syringe barrel and restricting movement of the needle holding chamber in the opposite direction after moving the locking structure forward from the first position. 25. The syringe according to paragraph 24, in which the camera holding the needle is located directly in front of the second position of the locking structure. 26. The syringe according A.25, in which the needle is made to retract when pressed with the thumb on the stop on the back of the plunger, after the plunger is fully advanced forward during the injection. 27. The syringe according to claim 25, wherein the rear end portion of the handle has a set of stepped teeth and the forced locking structure comprises a clip having a tongue inclined inward relative to the stepped teeth, allowing the clip to move forward, while preventing the clip from moving backward, the clip has at least one outwardly pointed sharp tip adapted to engage the syringe barrel to prevent the handle being removed. 28. The syringe according to item 27, in which the clamp covers part, but not all of the stepped teeth on the rear end of the handle. 29. The syringe according to item 23, in which a force-locking structure located inside the cylinder of the syringe, to limit the movement of the handle in the opposite direction, contains a structure mounted in a fixed position relative to the cylinder. 30. The syringe according to clause 29, in which the specified design is located inside the open rear of the cylinder. 31. The syringe according to claim 30, wherein the handle includes a thumb rest for advancing the arm forward, the thumb rest being able to fit snugly into the open rear of the cylinder when the needle is retracted by fully moving the plunger forward. 32. The syringe according to claim 30, wherein said structure mounted inside the open rear of the cylinder in a fixed position relative to the cylinder is a spring clip having one or more inclined sharp tips, insulated by a sliding sleeve located on the handle, from contact with the handle during the initial pulling of the handle to introduce fluid into the cylinder, allowing one pull of the handle in the opposite direction from the initial forward position relative to the cylinder, and zyaschaya cuff then is able to move forward without touching the spring clip when moving the plunger forward, performing injection, whereby a spring clip engaged with the handle is able to prevent its extraction. 33. The syringe according to claim 32, wherein the rear end portion of the handle has a set of stepped teeth, on top of which there is a sliding cuff located on the handle, the sliding cuff having an inclined surface that allows the plunger handle to move backward relative to the specified cuff, and the sliding cuff is able to move forward with the handle by engaging said surface with one of the teeth on the handle. 34. A disposable syringe comprising an elongated hollow syringe barrel having a front end portion and an open rear end, a needle mounted to be retractably mounted on the front end portion of the cylinder, a two-piece movable handle mounted reciprocatingly in the cylinder, the handle having an element heads in front, having a piston in a hermetic sliding contact with the inner surface of the cylinder, and a handle element detachably attached I to the head element, a stopper mounted on the cylinder, allowing the specified head element to pass the stopper when the head and handle elements are inserted into the specified open back, and the force is applied to the handle element in the forward direction, and the handle element is arranged to separate from the head element when pulling the handle element, after it has passed the stopper in the forward direction, and this separation occurs as a detachment of the handle element from the head element due to the resistance Ia stopper separated without destruction of parts.

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