RU2405574C2 - Medical injector with front loading and syringes to be applied with it - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment, namely to medical injectors with front loading and syringes, syringe interfaces, syringe plungers and adaptors for application with novel or existing medical injectors, in which syringe of special construction is made with possibility to be installed into injector and to be released from injector by means of split mechanism. Syringe for application with injector connects syringe-holding mechanism, which contains flexible ring. Syringe contains case, plunger, movably placed in case; at least one fastening element, connected with case. At least one fastening element interacts with flexible ring of syringe-holding mechanism for split fixation of syringe to injector. At least one releasing element is made with possibility to deform flexible ring in order to ensure syringe release from fastener to injector when syringe rotates around its axis with respect to injector. At least one releasing element is located in axial direction before at least one fastening element. Injector for injecting liquid from installed on it syringe contains case, drive element at least partly located in case and made with possibility of engagement with plunger, located inside syringe, and syringe-holding mechanism. Syringe-holding mechanism is connected with case and is made with possibility to intake syringe when it is moving axially backward with respect to syringe-holding mechanism irrespective of orientation of syringe around its axis. Syringe-holding mechanism in fact consists of flexible ring, held in fixed axial position in syringe-holding mechanism. In second version of injector implementation drive element contains flexible ring, located on it for engagement with plunger, located inside syringe. Flexible ring in first state is adapted for engagement with plunger and formation of connection with it, when plunger is turned around its axis into first position. Flexible ring, deformed to second state, is adapted for plunger release, when plunger is turned around its axis into second position. Syringe for application with injector, which contains syringe-holding mechanism. Syringe contains case, plunger, movably placed in case, and at least one fastening element, connected with case. At least one fastening element contains flexible ring, made with possibility of split fixation of syringe to injector.

EFFECT: invention allows to connect syringe with injector easily without taking into account specific orientation of syringe and/or syringe plunger.

16 cl, 7 dwg

Description

BACKGROUND OF THE INVENTION

The present invention relates to medical injectors, syringes, syringe interfaces, syringe adapters and syringe plungers for use with them. More specifically, the present invention relates to front-loading medical injectors and syringes, syringe interfaces, syringe plungers and adapters for use with new or existing medical injectors in which the syringe of a special design is adapted to be inserted into the injector and released from the injector by a detachable mechanism.

Medical injectors and syringes for injecting a contrast agent into a patient’s body for imaging biological structures are known. For example, in US patent No. 4677980 issued by D. M. Reilly et al. On July 7, 1987, under the name "Injector for angiography and a syringe for use with it", which is assigned to the applicant of this application, an angiographic injector device is disclosed. The device is intended for introducing a contrast medium into the vascular system of the animal, in which syringes are loaded from the back into the compressive membrane of the injector. More specifically, the device comprises a rotary turret on which a pair of compression shells is mounted and which is rotatable so that when one of the compression shells into which the syringe is inserted at the back is in the injection position, the second compression shell is in the position in which it can be inserted into the back of the appropriate syringe. Then, when the injection of the contrast medium from the first syringe is completed, the turret is rotated to put the first syringe into the unloading position, and the second compression sleeve and syringe are simultaneously moved to the injection position.

In the device described in the aforementioned patent, the actuator of the angiographic injector can be operatively connected or disconnected from the syringe plunger at any point on the trajectory of the syringe plunger with a detachable mechanism. However, for the detachable mechanism to work correctly, the syringe plunger must be correctly oriented, consistent with the injector piston. Further, during loading of the syringe into the injector, the syringe must be correctly aligned with the corresponding compressive sheath so that the syringe plunger and injector piston can connect and disconnect.

A device improved over the above is disclosed in US Pat. No. 5,383,858 to D. M. Reilly et al. January 24, 1995 under the name "Front-loading medical injector and syringe for use with it", which is also transferred to the applicant of this application. In the device described in this patent, the syringe is installed frontally, in at least one embodiment, into the injector that does not contain a compression shell, thereby eliminating the disadvantages of the injector according to patent No. 4677980.

The injector described in patent No. 5383858 has a first detachable mechanism for attaching and releasing the syringe from the injector. In addition, the device includes a second detachable mechanism that engages and disengages the injector piston and syringe plunger. By rotating the syringe, the syringe is attached to or disconnected from the injector and, at the same time, the plunger is attached to and disconnected from the piston. This design requires that the syringe be inserted into the injector in a specific orientation so that the syringe can engage with the injector with the possibility of separation and, at the same time, the plunger can engage with the piston with the possibility of separation. In addition, as in the syringe described in patent No. 4677980, during assembly, the plunger must be correctly oriented inside the syringe.

Another injector device is described in US Pat. No. 5,353,031 issued to C. Neer et al. April 4, 1994 under the name "Device for injecting fluid into animals and a disposable front-loading syringe for it." This patent describes different versions of the injector with a compressing shell, wherein the syringe is loaded into the compressive shell of the injector and removed from it through an opening made at the front end of the compressive shell. To hold the syringe in the compression shell, for example, during injection, the front end of the syringe is blocked at the front end of the compression shell. To properly connect the syringe to the compression shell, the syringe can be inserted into the compression shell in only one orientation.

In each of the above examples, the syringe must be connected to the injector in a specific orientation to ensure that the syringe is installed correctly. In order for the syringe to work correctly during the medical imaging procedure, it is necessary to carry out the correct adjustment. However, the required orientation interferes with the quick installation and replacement of the syringe. The required orientation can also lead to increased production costs and complexity of the syringe.

Accordingly, although the injector and syringe devices described above have proven effective, the need has arisen for a simpler front-loading injector. More specifically, to facilitate additional loading operations, a need has arisen for a syringe that can be easily connected to the injector without taking into account the specific orientation of the syringe and / or syringe plunger. In addition, to simplify the assembly of the components of the syringe, a need arose for a syringe with a plunger that does not require orientation to a specific position in the cylinder or base of the syringe. In addition, to minimize the time required to prepare the injector for the injection procedure, there was a need for injectors containing automation and / or advanced control functions.

SUMMARY OF THE INVENTION

The present invention provides medical injectors and syringes for use with them that meet the needs of a simplified injector and syringe system. More specifically, according to one aspect of the present invention, there is provided a syringe interface and a mating syringe that cooperate so that the syringe can be easily, quickly and firmly attached to a medical injector. The syringe does not require any specific orientation before connecting to the injector. In addition, the plunger does not require any specific orientation with respect to the syringe barrel. Both the syringe and the plunger are equipped with detachable mechanisms so that the syringe can be quickly inserted into the injector and removed from it and replaced with a new syringe.

According to one aspect of the present invention, there is provided a syringe for use with an injector comprising a syringe retention mechanism having a flexible ring. The syringe comprises a housing having a rear end and a front end, a plunger arranged to move in the housing, and at least one fastener associated with the housing. The fastener interacts with the flexible ring of the syringe retention mechanism for releasably securing the syringe to the injector. The syringe further comprises at least one release member associated with the housing. The release member is actuated to create deformation of the flexible ring to withdraw the syringe from the connection with the injector when the syringe is rotated about its axis relative to the injector. The release member is preferably located axially in front of the fastener.

The fastener may be connected to the rear end of the housing. The fastener, for example, may comprise a flange extending radially outward surrounding the entire perimeter of the syringe. In another embodiment, the fastener comprises a plurality of flanges extending radially outwardly located around the perimeter of the syringe. The mounting flange (or flanges) may also have a backward inclined surface to facilitate interaction with the flexible ring of the holding mechanism.

The release member, for example, may include a plurality of protruding elements extending radially outward that deform the flexible ring when the syringe rotates around its axis to the point of detachment. In one embodiment, the fastener comprises a flange extending radially outward, covering the entire perimeter of the syringe, and the protruding elements extend radially outward at least at the same distance as the fastener. The protruding elements can directly contact the flexible ring to deform the flexible ring.

According to another aspect of the present invention, there is provided an injector for injecting fluid from a frontally mounted syringe. The injector comprises a housing, a drive element at least partially located in the housing and adapted to engage with a plunger located inside the syringe, and a syringe retention mechanism connected to the housing. The holding mechanism of the syringe is arranged to grip the syringe when the syringe moves axially backward relative to the holding mechanism, regardless of the orientation of the syringe around its longitudinal axis. In one embodiment, the holding mechanism comprises a substantially flexible ring held in a fixed axial position in the syringe holding mechanism.

The present invention, its features and its inherent advantages will be better understood from the following detailed description with reference to the attached drawings.

Brief Description of the Drawings

Various embodiments of the present invention are described with reference to the attached drawings, where:

Figa is a side view of a variant of the injector system of the present invention in a disconnected state;

FIG. 1B is a perspective view of the syringe of the injector system of FIG. 1A in a position to fit into the interface of the syringe of the injector system; FIG.

Fig. 1C is a front view with hidden lines of the syringe of Fig. 1A, rotated about an axis for engagement with the flexible ring of the syringe interface after the syringe is seated axially backward in the syringe interface;

Fig.1D is a front view with hidden lines of the syringe of Fig.1A, rotated around an axis to go into position for disconnecting from the flexible ring of the syringe interface;

Figure 2 is a rear perspective view of the flexible ring of Figure 1A disconnected from the syringe interface housing;

Figure 3 is a rear perspective view of the flexible ring of Figure 1A in operative connection with the syringe interface housing;

Figure 4 is an exploded perspective view of a variant of the piston or drive element of the injector and the interacting assembly of the syringe plunger;

Figa is a side view in cross section and a top view with hidden lines of the assembly of the syringe and plunger, rotated around their common axis to the engagement position;

Figv is a side view in section and a top view with hidden lines of the assembly of the syringe and plunger, rotated around their common axis to the disengaged position;

Figa is a side view in cross section and a top view with hidden lines of the plunger assembly, rotated around its axis in the engaged position relative to the piston;

6B is a side view in cross section and a top view with hidden lines of a plunger assembly rotated about its axis in the disengaged position relative to the piston;

7A is a side view of a syringe and a connector or syringe interface, in which the syringe comprises a flexible ring for detachably attaching the syringe to the connector;

FIG. 7B shows the syringe and connector of FIG. 7A, in which the connector is shown in a cutout, and where the syringe is detachably connected to the connector, and

FIG. 7C is the syringe and connector of FIG. 7A, in which the connector is shown in a cutout, and where the syringe is rotated to put the flexible ring into tension to release the syringe from the connector.

DETAILED DESCRIPTION OF THE INVENTION

Other embodiments of the present invention are shown in FIGS. 1A-6B. On these drawings figa-3 show a variant of the interface / connector for the syringe, which detachably fastens the syringe to the body of the injector. Figures 4-6B show an embodiment of a system / interface assembly between the injector piston and the syringe plunger according to the present invention, which cooperate to axially move the plunger inside the syringe.

The injector system comprises a syringe interface spanning a connector 4010 ′ for connecting the syringe 4012 ′ to the injector 4014 ′. The syringe interface / connector 4010 'forms a mechanism by which the syringe 4012' can be quickly mounted relative to the injector 4014 ', without the need to orient or rotate the syringe 4012' around its longitudinal axis relative to the injector 4014 'during installation. 1A, for example, shows the syringe interface / connector 4010 '(hereinafter sometimes referred to as the "connector 4010') of the present invention, disconnected from the injector 4014 '. The rear surface 4016' of the connector 4010 'is attached to the front surface 4018' of the injector 4014 '. Alternatively, connector 4010' may be integrally configured with injector 4014.

The releasable connection mechanism of the connector body 4024 ′ can only have a substantially elliptical flexible ring 4026 ′ that is located in a fixed axial position in the connector 4010 ′ near the front end 4020 ′. Although the shape of the flexible ring 4026 'is referred to herein as substantially elliptical, it will be appreciated by those skilled in the art that the shape of the flexible ring 4026' need not accurately repeat the ellipse. The flexible ring 4026 'works to secure the syringe 4012' to it. However, in the embodiment of FIGS. 1A-3, other elements or components in the connector 4010 ′ intended to interact with the flexible ring 4026 ′ allowing release of the syringe 4012 ′ from the connection with the connector 4010 ′ are not required. Therefore, the flexible ring 4026 'and the syringe 4012' are configured to interact with each other (preferably without the use of additional elements or components), as described in more detail below, to allow the syringe 4012 'and the connector 4010' to be connected and disconnected (and, respectively , injector 4014 '). Thus, the syringe interface or connector 4010 ′ has a substantially simplified design. Syringe 4012 ', however, is also suitable for detachable connection with the interface of the injector known in the prior art.

The syringe 4012 'comprises a cylindrical body 4030' with a tapered portion 4032 'at the front end 4034'. The conical section 4032 'is integrally connected to the outlet end 4036'. The outlet end 4036 'is provided with a Luer tip 4038', which can be connected to a tube (not shown), which is ultimately connected to a patient (also not shown). Syringe 4012 'further comprises a flange 4039' configured to interact with the connector, as described in published patent application US No. 2002-0147429, filed February 20, 2002 and transferred to the applicant of the present invention, the contents of which are incorporated into this description by reference.

The syringe 4012 'may be made of any suitable material, for example, a polymeric material. At the rear end 4022 ', the syringe 4012' may include a flange 4042 ', which, when the syringe 4012' is connected to the connector 4010 ', helps to prevent the contrast agent flowing, for example, from the outlet end 4036' or the Luer tip 4038 ', into the connector 4010 '.

The crest or flange 4044 'is integrally formed on the syringe 4012' behind the flange 4042 ', closer to the trailing end 4022' of the syringe 4012 '. In the shown embodiment, the flange 4044 'is formed continuously around the perimeter of the syringe 4012'. Alternatively, the flange or flange, instead of being in the form of a single continuous element, can be divided into two or more sections. However, such sections in total should provide sufficient surface area and strength to hold the syringe 4012 'in the 4014' injector.

The ridge 4044 ′ comprises two parts — an inclined portion 4046 ′ and a shoulder portion 4048 ′ extending substantially perpendicular to the outer surface of the cylindrical body 4030 ′. Two or more protruding tongues or protrusions 4050 'are preferably located in front of the shoulder 4048' between the shoulder 4048 'and the flange 4042'. The tongues 4050 'interact with the elastic ring 4026' to release the syringe 4012 'from the connection with the connector 4010', as described below.

To install other types of syringes on the syringe connector or interface 4010 'of the present invention, an adapter can be manufactured comprising structural components (such as ridge 4044', tongues 4050 'and / or flange 4042') of the rear end 4022 'of syringe 4012' for installation on such a syringe for attachment to the injector of the present invention. In order to properly connect such a syringe, this adapter preferably contains structural components that are responsive with respect to the fasteners of the syringe.

As shown in FIGS. 1, 2 and 3, the front plate 4054 ′ includes an opening or opening 5058 ′ passing through it. An edge 4060 'extends around the periphery of the hole 4058' in the front plate 4054 '. In one preferred embodiment, when the syringe 4012 'interacts with the connector 4010', the flange 4042 'and the lip 4060' are mated to each other to minimize the ingress of any leaking contrast medium into the connector 4010 'through the hole 4058'. Alternatively, the syringe 4012 'may be designed so as not to contain a flange 4042', as is understood by those skilled in the art. Although it is desirable to minimize the penetration of the contrast medium into the connector 4010 ′, it is believed that the connector 4010 ′ will work even with the often inevitable contamination with some amount of contrast medium. However, the flange 4042 'can also perform the additional function of a mechanical stop when it engages with the front surface 4020' of the front plate 4054 ', ensuring the correct axial position of the syringe 4012 relative to the injector 4014'.

The flexible ring 4026 'may be made of an acetal copolymer or any other suitable material. As shown, for example, in FIG. 2, the flexible ring 4026 ′ may comprise on either side a linear or flat portion 4062 ′ integrally coupled to the two curved sections 4064 ′. As shown in the drawing, the flexible ring 4026 'comprises a through hole 4,068'. On the front side of the flexible ring 4026 ′, one or more tapered surfaces 4082 ′ can be provided to facilitate the installation of the rear end 4022 ′ and the ridge 4044 ′ of the syringe 4012 ′.

As shown, for example, in FIG. 3, the rear surface 4096 'of the front plate 4054' includes a depression or recess 4098 ', which has a shape similar to that of the flexible ring 4026'. Two recesses 4104 'are made in the rear surface 4096' of the front plate 4054 '. Lugs 4068 'of flexible ring 4026' are inserted in cutouts 4104 '. The recess 4098 'is shaped so that the recess is larger than the flexible ring 4026', and the distance between the cutouts 4104 'is greater than the distance between the protrusions 4068 when the flexible ring 4026' is not compressed. The cutouts 4104 'help prevent rotation of the flexible ring 4026' inside the housing 4024 ', while allowing the flexible ring 4026' to expand, as described below.

To connect the syringe 4012 'to the 4010' interface, the rear end 4022 'of the syringe 4012' is inserted into the connector body 4024 'through an opening or interface 4058' in the front plate 4054 '. The flexible ring 4026 'is held or fixed in a recess 4098' formed in the rear surface 4096 'of the front plate 4054' so that the protrusions 4068 'fit into the cutouts 4104'. When the inclined surface 4046 'of the ridge 4044' of the syringe 4012 'interacts with the bevels 4082' on the flexible ring 4026 ', the ridge 4044' transfers the flexible ring 4026 'from the unstressed state (see, for example, FIG. 1C) to stretched (or stressed) state (see, e.g., FIG. 10).

After the ridges 4044 'free the trailing edge of the flexible ring 4026' and the radially protruding protrusions or tongues 4050 'rotate, coming out of contact with the flexible ring 4026', as described below (see, for example, figs), the elastic nature of the flexible ring 4026 'will cause it to go into a relaxed state. When the flexible ring 4026 'can restore the unstressed state, the shoulder 4048' of the ridge 4044 'interacts with the trailing edge of the flexible ring 4026'. Due to this, the syringe 4012 'is held in place by the flexible ring 4026' and cannot be removed axially from the connector 4010 '. When the flexible ring 4026 'restores the unstressed state, an audible or other signal may be generated, as described above, indicating to the operator that the syringe 4012' is installed in the injector. An audio and / or other signal can be generated, for example, by mechanical or electronic means. In the embodiment of FIGS. 1A-3, the flexible ring 4026 ′ has a magnet 4027 ′ or another element attached to it in at least one of the substantially flat portions 4062 ′ (substantially corresponding to the long or main axis of the flexible member 4026 ′) which interacts with a proximity sensor 4059 '(for example, a Hall sensor) to determine whether the flexible ring 4026' has returned to an unstressed state, for example, after installing a syringe 4012 '. In this sense, when the flexible ring 4026 'is in an unstressed state, the magnet 4027' is in the vicinity of the sensor 4059 '. Conversely, when the flexible ring 4026 'is stretched, the magnet 4027' is retracted from the sensor 4059 '. Preferably, the sensor 4059 ′ is operatively connected to the injector control system to prevent the injector 4014 ′ from operating if the flexible ring is in a stretched state (indicating a 4012 ′ syringe is improperly or incompletely connected to the 4010 ′ interface or connector). The sensor 4059 'may also include an audible and / or other signal indicating that the syringe 4012' is correctly connected to the connector 4010 'or that the syringe 4012' is disconnected from the connector 4010 '.

After the syringe 4012 'is correctly connected to the connector 4010', the syringe 4012 'needs to be rotated approximately 1/4 turn or approximately 90 ° to remove the syringe from the connector 4010', as described below. This operation is shown, for example, in FIGS. 1C and 1D. Essentially, the protrusions 4050 'preferably extend radially outward at least at the same distance as the flange or flange 4044'. When the syringe 4012 'rotates around its axis in the position shown in fig.1D, the protrusions 4050' abut against the flexible ring 4026 'and stretch it. In this position, the syringe 4012 'can be moved axially forward relative to the connector 4010' so that the ridge 4044 'extends forward through the ring 4026' and the syringe 4012 'leaves the connection with the connector 4010'.

The syringe 4012 'is configured to fully fit into the connector 4010' (i.e., move to its rearmost axial position) regardless of the orientation or rotation of the syringe 4012 'around its axis relative to the connector 4010'. As described above, eliminating the exact orientation requirement for the front-loading syringe to fit fully into the interface or connector greatly simplifies the operation of connecting the syringes of the present invention to the interface or connector mechanisms of the present invention compared to conventional syringes in which, for example, mounting flanges need to be accurately combine with the cutouts formed in the interface for the syringe to fit the syringe backward.

When the syringe 4012 'is fully seated in the connector 4010' (or in the connector known in the art), the operator must make sure that the syringe 4012 'is rotated about its axis so that the protrusions 4050' out of contact with the flexible ring 4026 ', and flexible the ring 4026 'could return to the unstressed state, as shown, for example, in Fig. 1C. The need to rotate the syringe 4012 'to a predetermined position or to a predetermined range of positions after the syringe 4012' is fully seated backward into the connector 4010 'only minimally increases the time required for the operator to connect the syringe 4012' to the connector 4010 'compared to the interaction of the syringe and connector, known from the prior art. However, the use of protrusions 4050 'to release the syringe 4012' from the connection with the connector 4010 'can significantly simplify the connector 4010' in comparison with the known connector. As shown in FIG. 1C, the syringe 4012 'can be rotated so that the protrusions 4050' are in a position range varying within an angle θ of approximately 90 ° to hold the connection to the connector 4010 'or to a known connector. Similarly, as shown in FIG. 1D, the syringe 4012 ′ can be rotated so that the protrusions 4050 ′ are in a position range within an angle Φ of about 10 ° to release the syringe 4012 ′ from the connection with the connector 4010 ′ or a known connector.

Figures 4-6B show an embodiment of an interface assembly 7000 for interacting with the injector piston and the syringe plunger, for use, for example, in the injector 4014 '. In this embodiment, the piston 7100 comprises a substantially elliptical or oval elastic ring 7110, which is configured to detachably connect the injector piston 7100 to the plunger interface assembly 7000. Although the shape of the flexible ring 7110 is called here essentially elliptical, it will be understood by those skilled in the art that the shape of the flexible ring 7110 need not exactly follow the shape of the ellipse. As shown, for example, in FIG. 4, the piston 7100 comprises a first or rear member 7120 that has a seat 7130 for an elliptical flexible ring 7110. Preferably, the flexible ring 7110 contains one or more elements, for example, elements 7112 that extend radially inward, which prevent rotation of the flexible ring 7110 relative to the piston 7100 when the flexible ring 7110 is seated in the seat 7130. In the embodiment of FIG. 4, the seat 7130 comprises a substantially cylindrical outwardly extending member 7132 along which and around which the flexible ring extends 7110 until it stops in a substantially circular shelf 7134. In element 7132, a groove 7136 is made in which protrusions 7112 fit to prevent rotation of flexible ring 7110 relative to piston 7100. Piston 7100 may further comprise a second or front element 1740 that attaches to rear element 7120, as shown, for example, in FIGS. 4-6B.

When a substantially elliptical or oval flexible ring 7110 seats in the saddle 7130, as described above, and the flexible ring 7110 is in an unstressed state, a portion of the flexible ring 7110 in the main axis or at the widest portion of the flexible ring 7110 extends beyond the outer edge of the shelf 7134, as shown, for example, in FIG. 5A. When the syringe 4012 'moves axially backwards for installation in the connector 4010', the plunger interface assembly 7000 can be correctly positioned in the axial direction, and the syringe 4012 'and the piston 7100 take appropriate axial positions so that the corresponding backward movement of the plunger assembly 7000 with the backward movement of the syringe 4012 ', the piston 7100 was completely seated in the plunger assembly 7000, when the syringe 4012' was fully inserted into the connector 4010 '. Alternatively, the piston 7100 can be seated in the assembly 7000 separately from the installation of the syringe 4012 'in the connector 4010'. The relative orientation or rotation of the plunger assembly 7000 around its axis preferably does not affect the ability of the piston 7100 to fit into the plunger assembly 7000.

In the embodiments of FIGS. 4-6B, the plunger assembly comprises a base 7005 having a tapered surface 7010 at the rear end that deforms the flexible ring 7110 to an extended state (FIGS. 134B and 135B), which is necessary for the flexible ring 7110 to pass to the position in front of the shelf 7020 formed around the inner surface of the base of the plunger 7005. After the flexible ring 7110 is in front of the shelf 7020, the flexible ring 7110 returns to its unstressed state if the base 7005 of the plunger is rotated around its axis to the position shown in FIGS. 5A and 6A.

In this regard, in front of the shelf 7020, the substantially cylindrical inner wall of the plunger base 7005 comprises radially inward or flat sections 7030. When the plunger assembly 7000 is rotated about an axis so that the flat sections 7030 are substantially aligned with the long or main axis of the flexible ring 7110, the emphasis of the flat sections 7030 in the flexible ring 7110 puts this ring 7110 in a stress state, as shown in figv and 6B. In this state, the piston 7100 can axially move backward relative to the plunger assembly 7000 (or the plunger assembly 7000 can axially move forward relative to the piston 7100) so that the plunger assembly 7000 can be detached from the piston 7100. Conversely, when the flat portions 7030 are rotated approximately 1/4 turn or 90 ° from the alignment position with the long or main axis of the flexible ring 7110 (so that the flat sections are essentially aligned with the short or small axis of the flexible ring 7110), the flexible ring 7110 will be in 5A and 6A, and the back surface of the flexible ring 7110 abuts against the shelf 7020, and the backward movement of the piston 7100 will cause the plunger assembly 7000 to move backward in the syringe 4012 '(for example, to draw fluid into the syringe 4012').

Preferably, the plunger assembly 7000 is oriented or rotated around its axis in the syringe 4012 ′ such that the position of the planar or radially inwardly extending portions 7030 is substantially aligned with the radially outwardly extending portions 4050 ′ of the syringe 4012 ′, as shown in FIGS. 5A and 5B. The plunger assembly 7000 is also preferably located within the syringe 4012 'so that the plunger does not rotate about its axis relative to the syringe 4012'. Friction between the elastomeric coating 7040 of the plunger and the inner wall of the syringe barrel, for example, prevents rotation of the plunger assembly 7000 relative to the syringe 4012 '. Thus, after the syringe 4012 ′ is pushed back to fit into the connector 4010 ′, when the syringe 4012 ′ is rotated to the position described with reference to FIG. 1C for full engagement with the connector 4010 ′, the plunger assembly 7000 will rotate to fully engage with a piston 7100, as shown, for example, in FIG. 5A. Similarly, when the syringe 4012 'is turned 1/4 turn to disengage with the connector 4010', as shown, for example, in FIG. 5B, the flat sections 7030 of the base 7005 will essentially align with the long or main axis of the flexible ring 7110, as described above, and the piston 7100 can be disconnected from the plunger assembly 7000.

From the above description, it will be understood by those skilled in the art that the elliptical or oval flexible ring described above can also be installed inside the plunger assembly, and the piston may comprise an interacting seat in the injector piston to form a system / interface assembly for the syringe plunger. This option can work in the same way as the syringe 4012 'is connected to and disconnected from the connector 4010'.

Similarly, FIGS. 7A-7C show another embodiment of the interface / connector 4010 ″ for the syringe 4012 ″ (shown partially) that detaches the syringe 4012 ″ to the injector body (not shown in FIGS. 7A-7C), as in the case of the 4014 'injector body. The syringe 4012 ″ and the interface 4010 ″ interact in essentially the same way as the piston 7100 and the plunger assembly 7000 described above. In this sense, the syringe 4012 ″ comprises a flexible ring 4044 ″ inserted into a recess 4048 ″ formed at the back of the syringe 4012 ″. The rear portion 4046 ″ of the flexible ring 4044 ″ may be tilted or beveled to facilitate interaction with the 4010 ″ connector, as described below.

In this regard, to connect the syringe 4012 ″ to the connector 4010 ″, the syringe 4012 ″ is inserted into the opening or channel 4011 ″. The front end 4011 a ″ of the opening or channel 4011 ″ can be beveled or expanded to facilitate passage of the flexible ring 4044 '' into the opening 4011 ''. The syringe 4012 '' is slid back relative to the connector 4010 '' until the flexible ring 4044 '' extends beyond the shelf 4020 '' in the connector 4010 ''. The syringe 4012 '' may comprise a flange 4042 '' to limit, as described above, the flow of injected fluids into the injector and / or to assist in the correct axial position and syringe 4012 ''.

As in the design of the base of the plunger 7005, behind the shelf 4020 ″, the substantially cylindrical wall of the channel 4011 ″ comprises radially extending inward or flat portions 4030 ″. When the syringe 4012 ″ is rotated around its axis so that the flat portions 4030 ″ are substantially aligned with the long or main axis of the flexible ring 4044 ″, the stop of the flat sections 4030 ″ on the flexible ring 4044 ″ makes the flexible ring 4044 ″ stretch as shown in figs. In this state, the syringe 4012 ″ can be moved axially relative to the connector 4010 ″ so that the syringe 4012 ″ can be disconnected from the connector 4010 ″. Conversely, when the syringe 4012 ″ and the flexible ring 4044 ″ are rotated to a position approximately 1/4 of a turn or 90 ° from the above position, so that the flat portions 4030 ″ are substantially aligned with the short or small axis of the flexible ring 4044 ″ , the flexible ring 4044 ″ is in an unstressed state, as shown in FIG. 7B, and the front surface of the flexible ring 4044 ″ abuts against the shelf 4020 ″ and prevents forward axial movement and detachment of the syringe 4012 ″. The rotation of the flexible ring 4044 ″ relative to the syringe 4012 ″ is preferably prevented, for example, by the presence of stops 4049 ″ (see FIG. 7A) on the flexible ring 4044 ″ that impede such relative rotation. Such stops can, for example, work in the same way as the protruding elements 7112 of the flexible ring 7110.

The foregoing description and the accompanying drawings show currently preferred embodiments of the invention. Various modifications, additions and alternative designs, not beyond the scope of the disclosed invention, of course, will be clear to experts in the light of the above description. For example, the corresponding mating and disconnecting mechanisms on injectors and syringes described above can be used interchangeably. The scope of the invention is determined by the attached claims, and not by the above description. All changes and variations that fall within the meaning and range of equivalence of the claims should be included in its scope.

Claims (16)

1. A syringe for use with an injector comprising a syringe retention mechanism comprising a flexible ring, the syringe comprising:
a housing having a rear end and a front end;
a plunger movably placed in the housing;
at least one fastener associated with the housing, wherein this at least one fastener interacts with the flexible ring of the syringe retention mechanism for detachably securing the syringe to the injector; and
at least one release member associated with the housing, wherein at least one release member is configured to deform the flexible ring to allow the syringe to be released from the attachment to the injector while the syringe is rotated about its axis relative to the injector, at least one release member is axially positioned in front of the at least one fastener. 2. The syringe according to claim 1, in which at least one fastening element comprises a flange extending radially outward, covering the entire perimeter of the syringe. 3. The syringe according to claim 2, in which the outgoing flange has an inclined rear surface to facilitate interaction with the flexible ring of the holding mechanism. 4. The syringe according to claim 1, in which at least one fastener comprises a plurality of flanges extending radially outwardly located along the perimeter of the syringe. 5. The syringe according to claim 1, additionally containing a flange element connected to the housing and configured to contact the corresponding surface of the injector when the syringe is detachably connected to it, while the flange element is located in the axial direction in front of at least one release element . 6. The syringe according to claim 5, in which the flange element is configured to substantially prevent liquid from entering the injector. 7. The syringe according to claim 5, in which the contact of the flange element with the corresponding surface of the injector is an indication of the correct axial position of the syringe relative to the injector when the syringe is detachably engaged with the injector. 8. The syringe according to claim 1, in which at least one fastener is connected to the rear end of the housing. 9. The syringe according to claim 1, in which at least one release member comprises a plurality of protruding radially outwardly extending members that deform the flexible ring when the syringe is rotated about its axis to the disconnect position. 10. The syringe according to claim 9, in which at least one fastener comprises a flange extending radially outward surrounding the entire perimeter of the syringe, and the protruding elements protrude radially outward at least at the same distance as the fastener. 11. The syringe according to claim 9, in which the protruding elements are in direct contact with the flexible ring to deform the flexible ring. 12. The syringe according to claim 1, in which the plunger is detachably engaged with the injector drive element through a flexible ring. 13. An injector for injecting fluid from a syringe mounted on it, containing:
case
a drive element at least partially located in the housing and configured to engage with a plunger located inside the syringe; and
a syringe retention mechanism connected to the body and configured to receive the syringe when it is axially directed backward relative to the syringe retention mechanism regardless of the orientation of the syringe about its axis, the syringe retention mechanism essentially consisting of a flexible ring held in a fixed axial position in the mechanism holding the syringe. 14. An injector for injecting liquid from a syringe mounted on it, containing:
housing;
the drive element is at least partially located in the housing, while the drive element contains a flexible ring located on it for engagement with a plunger located inside the syringe, while the flexible ring in the first state is adapted to engage with the plunger and form a connection with it, when the plunger is rotated around its axis to the first position and the flexible ring deformed to the second state is adapted to release the plunger when the plunger is rotated around its axis to the second position; and
syringe retention mechanism connected to the housing. 15. A syringe for use with an injector comprising a syringe retention mechanism, wherein the syringe contains:
a housing having a rear end and a front end;
a plunger movably mounted in the housing; and
at least one fastener associated with the housing, while this at least one fastener comprises a flexible ring configured to detachably attach the syringe to the injector. 16. The syringe according to clause 15, in which the rotation of the syringe around its axis, when it is attached to the injector, causes deformation of the flexible ring, which allows the syringe to be disconnected from the injector.

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