奥地利专利AT516045A4 Safety pin arrangement for removing fluid from a body

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专利摘要:
The invention relates to a safety needle arrangement (1) comprising a base body (2), a cannula support (6), a cannula (10) which is held with its proximal end at a distal end (7) of the cannula support (6) Control element (15) which is arranged between the base body (2) and the cannula carrier (6), and a locking device (19) with a plurality of first and second interlocking locking elements (20, 21). The first locking elements (20) are arranged in the region of a proximal end (4) of the base body (2) and are formed by projections (22) arranged diametrically opposite one another. The second locking elements (21) are arranged in the region of a proximal end (8) of the cannula carrier (6) and formed by recesses (24) arranged diametrically opposite one another.
公开号:AT516045A4
申请号:T50500/2014
申请日:2014-07-18
公开日:2016-02-15
发明作者:Christian Ing Bauer；Franz Ing Ebetsberger；Franz Mag Kirchmeir；Andreas Mag Mayr；Melanie Christina Schimpl；Gerhard Ing Strasser
申请人:Greiner Bio One Gmbh；
IPC主号:

专利说明:

The invention relates to a safety pin arrangement and a method for removing liquid from a body, as described in claim 1 and claim 10.
US 2007/0016148 A1 describes a generic safety needle arrangement comprising a base body having a distal end and a proximal end, wherein a through opening extends between the distal end of the base body and the proximal end of the base body. Furthermore, the safety needle arrangement comprises a cannula carrier with a distal end and a proximal end, wherein a flow-through opening extends between the two ends of the cannula carrier. The cannula carrier is adjustably received in the passage opening of the base body in the axial direction. A cannula has a distal end and a proximal end, with a flow channel extending between the two ends of the cannula within it, and the proximal end of the cannula being held at the distal end of the cannula carrier. An actuating element is arranged to act between the base body and the cannula carrier, wherein the actuating element displaces the cannula carrier together with the cannula held thereon from a first position, in which the cannula protrudes beyond the distal end of the base body, into a second position, in which at least the distal end of the cannula is covered by the base body. A locking device has a plurality of first and second locking elements. As a result of the locking device, when the first and second locking elements are in mutual engagement, the first relative position of the cannula carrier together with the cannula is determined with respect to the base body. The first locking elements are arranged in the region of the proximal end of the base body and the second locking elements in the region of the proximal end of the cannula carrier. The disadvantage here is that after unlocking the locking device and the associated holding the cannula carrier from the actuator a compressive force in the axial direction is exerted on the base body and thereby the base body is pressed in the direction of the puncture site. This leads to an additional on the body exerted pain stimulus.
From EP 0 830 871 B1 and the US 5,928,199 A parallel thereto, a similarly constructed safety needle arrangement has become known, as has been described in detail above for US 2007/0016148 A1. By contrast, this safety needle arrangement does not have an automatically acting adjusting element for the return of the cannula to a position covering it. After unlocking the locking device arranged between the base body and the cannula carrier, the cannula carrier, together with the cannula, is to be passed by the operator through dog retraction into the second position covering the cannula.
The present invention has for its object to provide a recoverable after unlocking a locking device automatically in a protective position safety needle assembly in which the puncture or the puncture area in the body in the course of removal and subsequent removal of the safety needle assembly from the body no unnecessary additional pain stimulus is caused.
This object of the invention is solved by the features of claim 1. The advantages achieved by the features of claim 1 lie in the fact that the first locking elements formed by the projections are arranged in the region of the proximal end of the base body and can also be actuated thereon for the unlocking of the locking device. This can be unlocked with a simple one-hand operation after using the safety needle assembly and subsequently the used cannula are moved to the protective position. Thus, the unlocking of the engaged locking elements is deliberately triggered by an operator, the further adjustment in the protective position automatically arranged by the biased
Control element takes place. A further advantage consists in that the diametrically opposite first locking elements on the base body, for example, by the thumb and forefinger of the operator to operate simultaneously, thereby avoiding a lateral Wegdrücken and associated relative displacement of the cannula within the body becomes. By this central release and the subsequent automatic return of the cannula holder together with the cannula in the protective position no additional operating effort is no longer necessary. The fact that the base body remains stationary relative to the body, there is no additional pressure load after triggering the actuating element on the puncture site. It is merely the cannula in the protective position, namely in the covering position within the base body, relocated and thus achieved without any action by the operator a secure position, which stab wounds are prevented in the field of used cannula.
Also advantageous is a further embodiment according to claim 2, characterized in that a sufficient spring action can be exerted by the retaining arms on the respectively arranged there projections, so as to effect the insertion position of the cannula in a secure Verrastungsstellung the cooperating locking elements. Thus, thoughtless tripping of the locking device can be prevented.
It is also advantageous embodiment according to claim 3, characterized in that it can be achieved on both sides in the direction of the longitudinal axis directed release movement. As a result, the unlocking of the mutually engaging first and second locking elements can be achieved by a simple centric compression of the two retaining arms.
Due to the design according to claim 4, it is possible to ensure the locking or Ver-locking of the mutually engaged first and second locking elements until the operator takes the appropriate unlocking. By the respective Hininragen the projections in the recesses provided for this purpose but also an unwanted triggering of the locking device can be prevented.
According to another embodiment according to claim 5, the possibility is thus created to be able to arrange the support arms aligned in the axial direction together with the projections arranged thereon within the retaining lug, thus creating a protected locking area for the first and second locking elements engaged with each other.
Also advantageous is a development according to claim 6, as characterized a receiving space can be created for the actuator in its biased position. As a result, the control element can be safely protected in the use position from being manipulated from the outside. Thus, after the release of the locking device, an automated, automatic reset of the cannula carrier together with the cannula disposed thereon can always be achieved in the protective position within the base body.
In the embodiment according to claim 7, it is advantageous that after the use of the safety needle arrangement a renewed reuse can be reliably prevented. This not only unwanted puncture wounds can be prevented by the already used cannula, but also a possible transmission or infection starting from the used cannula can be avoided in a reuse.
Through the development according to claim 8 ensures that a better positional fixation of the entire safety needle assembly during normal use on the body can be achieved.
Finally, however, a training, as described in claim 9, possible because not only a sufficient fixation on the body can be created, but also a centric and oriented approximately parallel thereto triggering movement is set for the locking device.
The object of the invention is, however, independently of this also solved by a method for the removal of liquid, in particular blood, from a body or for the supply of liquid into the body according to the features specified in claim 10. The advantages arising from the combination of features of this claim he are that the first locking elements formed by the projections are arranged in the region of the proximal end of the base body and to operate on this for unlocking the locking device also. This can be unlocked with a simple one-hand operation after using the safety needle assembly and subsequently the used cannula are moved to the protective position. Thus, the unlocking of the interlocking locking elements is deliberately triggered by an operator, the further adjustment takes place automatically in the protective position by the biased arranged control element. A further advantage consists in that the diametrically opposite first locking elements on the base body, for example, by the thumb and forefinger of the operator to operate simultaneously, thereby avoiding a lateral Wegdrücken and associated relative displacement of the cannula within the body becomes. By this central release and the subsequent automatic return of the cannula holder together with the cannula in the protective position no additional operating effort is no longer necessary. The fact that the base body remains stationary relative to the body, there is no additional pressure load after triggering the actuating element on the puncture site. It is merely the cannula in the protective position, namely in the covering position within the base body, relocated and thus achieved without any action by the operator a secure position, which stab wounds are prevented in the field of used cannula.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
In each case, in a highly simplified, schematic representation:
1 shows a safety needle assembly in its operating position, in perspective view;
Fig. 2 shows the safety needle assembly of Figure 1, but in its protective position of the cannula, in perspective view, partially cut.
3 shows the safety pin arrangement according to FIGS. 1 and 2 in a kind of exploded view with individual components distanced from one another;
Fig. 4 shows the cannula carrier with cannula and Flalteansatz, in axial section.
By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
FIGS. 1 to 4 show a safety needle arrangement 1, which is used in medical technology. The safety pin arrangement 1 can be used, for example, for removing fluid, in particular blood, from a body or for supplying fluid into the body. Such a trained safety needle assembly 1 can also be referred to as a so-called "butterfly". Figs. 1 and 2 show the safety pin assembly 1 in their assembled state, but in mutually different positions of individual component components to each other.
In FIG. 3, the individual components or component components of the safety needle arrangement 1 are shown in a separate arrangement in order to be able to see their formation better. Thus, the safety needle assembly 1 may comprise a base body 2 having a distal end 3 and a proximal end 4. Preferably, the base body 2 is tubular, in particular cylindrically shaped, and has, in the direction of its axial extension, a passage opening 5 extending between the distal end 3 of the base body 2 and the proximal end 4 of the base body 2.
Furthermore, the safety needle arrangement 1 can also comprise a cannula carrier 6, which in turn has a distal end 7 and a proximal end 8 which is distanced in the axial direction. In cannula support 6 extends between the distal end 7 and the proximal end 8 a Durchströmöff-nung 9. Furthermore, the cannula support 6 is formed such that it is adjustably received in the through hole 5 of the base body 2 in the axial direction, in particular guided.
Furthermore, the safety needle arrangement 1 can also comprise a cannula 10, which in turn has a distal end 11 and a proximal end 12 which is distanced in the axial direction thereof. Within the cannula 10 extends between the distal end 11 and the proximal end 12, a flow channel 13. Furthermore, the proximal end 12 of the cannula 10 may be held at the distal end 7 of the cannula holder 6, in particular fixed thereto fixed.
The connection of the proximal end 12 of the cannula 10 to the cannula carrier 6 may be e.g. done by an at least airtight adhesive bond. It would be independent of it but also possible, instead of the adhesive bond or in addition to this, form a press fit. For this purpose, a corresponding dimensional difference between the end region of the cannula 10 and the receiving opening in the cannula carrier 6 is to be formed.
Thus, starting from the distal end 11 of the cannula 10, a flow of fluid through the flow channel 13 and further through the flow opening 9 in the cannula carrier 6 or also in the opposite direction can be achieved.
Furthermore, the cannula carrier 6 may also have an additional holding lug 14 in the region of its proximal end 8. The retaining lug 14 may either be formed by a separate component or else be an integral part of the cannula holder 6. If, for example, as in the present exemplary embodiment, each have their own components, the proximal end 8 of the cannula carrier 6 can extend into the holding lug 14 in the axial direction and is connected thereto. Again, the mutual support or connection between the proximal end 8 of the cannula carrier 6 and the retaining lug 14 may, for example, done by an at least airtight adhesive bond. It would also be possible, instead of the
Adhesive bond or in addition to this, form a press fit. For this purpose, a corresponding dimensional difference between the end region of the cannula carrier 6 and the retaining lug 14 is to be formed.
For automatic displacement of the cannula support 6 relative to the base body 2, the safety needle assembly 1 may also include its own control element 15, which is arranged in the installed state between the base body 2 and the cannula carrier 6 acting. In the present embodiment, the adjusting element 15 is formed by a helical compression spring, which is arranged extending on the outside of the cannula holder 6. A distal actuator end 16 facing the base body 2 is supported on the base body 2 in the area of the proximal end 4 of the base body 2. The adjusting element 15 may also extend in the axial direction over a partial length in the base body 2 inside.
In the present exemplary embodiment, the further proximal actuator end 17, which is distanced in the axial direction thereof, is supported on the holding lug 14. In order to have sufficient space in the collapsed insertion position or pretensioned position of the actuating element 15, it may be advantageous if the actuating element 15 can extend over a partial length on the side facing the base body 2 into the holding projection 14. For this purpose, in the holding lug 14 on its side facing the base body 2, a receiving opening 18 extending over a partial length between the cannula carrier 6 and the holding lug 14 for receiving the adjusting element 15 is arranged. The cross-sectional shape of the receiving opening 18 is to be adapted to the dimensions of the actuating element 15. In the present embodiment, the receiving opening 18 is for example tubular or hollow cylindrical.
In FIG. 1, the first relative position of the cannula carrier 6, together with the cannula 10 held thereon, is shown. In this first position, the cannula 10 protrudes beyond the distal end 3 of the base body 2.
In Fig. 2, the so-called protective position is shown, which is referred to here as the second position. In this second position, at least the distal end 11 of the cannula 10 is covered by the base body 2, so as to avoid puncture injuries by the used cannula. The displacement, in particular the axial adjustment, of the cannula holder 6 together with the cannula 10 held thereon is effected automatically by the previously described adjusting element 15.
In order to hold the cannula carrier 6 together with the cannula 10 held thereon in the first position relative to the base body 2 latched or locked, a separate locking device 19 is provided, which may also be part of the safety needle assembly 1. The locking device 19 comprises in this embodiment, a plurality of first locking elements 20 and a plurality of second locking elements 21. In the locking position of the locking device 19 is engaged by the first and second locking elements 20, 21, the first relative position of the cannula holder 6 together with the cannula 10 with respect to the base body 2 set.
The first locking elements 20 are formed in the present embodiment by diametrically oppositely arranged projections 22 and are arranged or formed in the region of the proximal end 4 of the base body 2 at this. Furthermore, the projections 22 may each be arranged on a radially adjustable holding arm 23.
The second locking elements 21 are formed in the present embodiment by recesses 24 which are also arranged diametrically opposite to allow engagement with the previously described first locking elements 20 of the locking device 19. The second locking elements 21 are arranged in the region of the proximal end 8 of the cannula carrier 6. In the present embodiment, the retaining projections 14, the second locking elements 21 forming recesses 24 are arranged or formed.
For holding the holding arms 23 in the first position cannula carrier 6, the holding lug 14 in the region of its base body 2 facing the distal end diametrically opposed insertion slots 25 have. Thus, the support arms 23 may protrude into this insertion slots 25 in the first position cannula carrier 6 and the projections 22 are in latching or locking engagement with the recesses 24.
In order to be able to displace the first locking elements 20 - in the present exemplary embodiment, the projections 22 - in the radial direction with respect to the longitudinal extent of the base body 2 relative thereto, the retaining arms 23 can each on the side facing away from the protrusions 22 arranged thereon at Anlenkungsabschnitten 26 with the base body 2 articulated, in particular resilient, be connected. The protrusions 22 may be arranged or formed on the support arms 23 such that they respectively protrude beyond the support arms 23 in the radial direction beyond the side facing away from the through opening 5 arranged in the base body 2. Furthermore, the support arms 23 can be arranged in their axial extension between their Anlenkungsabschnitten 26 and the projections 22 each spaced from the base body 2. This distancing of the holding arms 23 from the base body 2 can be done, for example, by the formation or arrangement of slots, which each end in the region of the articulation sections 26.
In order to be able to perform a better actuation of the retaining arms 23, an additional actuating projection 27 can be arranged or formed on the retaining arms 23, in each case between their articulation sections 26 and the projections 22. This facilitates the actuation of the support arms 23 in the radial direction on the longitudinal axis. Are, as in the present embodiment, the holding arms 23 arranged with the possibly arranged or formed thereon actuating lugs 27 diametrically opposite each other, an inadvertent release of the locking device 19 can be more easily prevented. To trigger a consciously carried out adjustment of both support arms 23 in the release position is necessary. Preferably, the triggering takes place almost simultaneously.
In order to avoid false triggering of the locking device 19, an outer dimension of the retaining lug 14 in the region of its side facing the base body 2 may correspond approximately to the outer dimension of the actuating lugs 27. Thus, an overhanging of the actuating lugs 27 on the holding lug 14 can be avoided.
By this radial displacement or displacement of the projections 22, these come out of engagement with the recesses 24, whereby the locking device 19 is disengaged. Once the engagement of the locking device 19 is released, the actuator 15 comes into action and automatically and automatically shifts the cannula support 6 and thus also the cannula 10 in its covered position.
In order to avoid a renewed use of the safety needle arrangement 1, the cannula support 6 can be held in its second relative position with respect to the base body 2 by means of a locking device arranged in the region of the proximal end 4 of the base body 2 in the axial direction relative to the base body. This locking device can be designed such that in the second position of the cannula carrier 6, viewed in the axial direction, this is prevented in both directions from renewed adjustment. This can be prevented that the cannula carrier 6 is released from the base body 2 and at the same time a new provision of the cannula holder 6 is prevented in the first position.
Furthermore, can be arranged or formed on the base body 2 of this radially projecting wings 28. The wings 28 may serve in an abutting position during the piercing operation for better support by the operator. If the safety needle assembly 1 is pierced with its cannula 10 for the removal of liquid from the body or for supplying liquids into the body, the entire safety needle assembly 1 with the wings 28 with an additional adhesive strip or other holding means on the surface of the body, not shown held or fixed.
Furthermore, the wings 28 may each protrude in the same direction from the base body 2, as the diametrically arranged on the holding arms 23 projections 22. Thus, a clear alignment of the first locking elements 20 relative to the surface, namely the skin of the body can be achieved ,
Since at the beginning of the adjusting movement the mostly strongly biased adjusting element 15 initiates the adjusting movement with full force and thus with high acceleration, the rapid automatic adjusting movement can lead to body fluid, in particular blood, being thrown off in droplet form. This can lead to an increased risk of infection.
In order to reduce the adjustment speed, namely the relative speed between the almost to completely stationary base body 2 and the cannula carrier 6, it is further simplified in FIGS. 2 to 4 that at least one braking element 31 designed as a projection or projection is provided on the surface of the preferably tubular cannula carrier 6 arranged or formed. The braking element or elements 31 serve to dampen the rapid acceleration. This braking or damping effect can also be achieved by increasing the friction between the base body 2 and the cannula carrier 6. Depending on the design, arrangement and / or number of brake elements 31, the brake or. Damping effect are set.
In the present embodiment, only a few brake elements 31 are arranged or formed in the region of the proximal end 8 of the cannula carrier 6, as has been shown simplified stylized. This counteracts the high acceleration at the beginning of the adjustment or the adjustment. The preferably projecting beyond the cannula support 6 brake elements 31 cooperate with the passage opening 5 in the base body 2, so that it thereby at least at the beginning of the adjustment to build a slight retention force and the adjustment of the control element 15 must overcome this retention force.
But it would also still possible, as shown in Fig. 2 is still shown in dashed lines, to arrange or form the brake elements 31 not only for the beginning of the adjustment of the cannula holder 6 at this, but to provide over the entire axial length. In this case, the number and / or the overall height and thus the projection of the cannula carrier 6 can also be influenced. Thus, with a smaller number and / or lower projection of the brake elements 31 than in those brake elements 31, which come into effect at the beginning of the adjustment, the braking effect during the adjustment can be reduced.
The removal of liquid, in particular blood, from the body or the supply of liquid into the body can be carried out by means of the previously described safety needle arrangement 1 with the subsequent steps. For this purpose, at the proximal end 8 of the cannula carrier 6 and / or the Flalteansatzes 14, a tube 30 may be arranged or attached with its first end. At the other end, not shown, the most diverse connections or devices can be attached or coupled with it.
It should be noted that the order of the steps listed is not mandatory to comply with, but the individual steps can also be performed in mutually different order.
The safety pin assembly 1 is usually packaged in a converted state in a sterile packaging and is removed from this by an operator from this. In this case, the cannula carrier 6 together with the cannula 10 held thereon is in the first position, in which the cannula 10 projects beyond the distal end 3 of the base body 2. In order to avoid a puncture injury in this state, an additional, preferably tubular, protective cover 29 is indicated in FIG. 1 in dotted lines. The protective cover 29 can be formed only by a tubular, open at both ends component, in which case the entire safety needle assembly 1 in an additional overpack, e.g. a blister shell, not shown, is packaged sterile until used as intended.
The protective cover 29 may also be formed in the region of its distal end remote from the base body 2 sealed, as shown here in the protective cover 29 shown in dashed lines. This can e.g. through a side wall. With such a design of the protective cover 29, this can also be referred to as a protective cap. This creates the possibility of being able to store at least the cannula 10 in a sterile manner when used for the first time as intended, and to be able to dispense with an otherwise usual overpack, for example in the form of a bacteria-proof blister wrapper. Thus, packaging material can be saved while still ensuring the sterility of the cannula 10 until it is used.
After removal of this protective cover 29 or the protective cap from the base body 2, the cannula 10 is exposed and can be inserted into the body at the puncture site provided for this purpose.
Subsequently, the proper location of the cannula 10 in the body can be determined. In a further step, the removal of the liquid, in particular blood, can take place from the body. Irrespective of this, it would also be possible to supply liquid into the body through the safety needle arrangement 1.
The removal of the cannula 10 from the puncture site of the body takes place in that the base body 2 of the safety needle assembly 1 is held stationary relative to the body. Subsequently, the engaged locking device 19 between the base body 2 and the cannula carrier 6 is disengaged. This is done by simultaneously adjusting the projections 22 of the locking device 19 arranged diametrically opposite one another on the base body in the direction of the longitudinal axis of the base body 2. In this case, the projections 22 are disengaged from the cannula support 6, in particular its retaining lug 14, arranged recesses 24. After unlocking the locking device 19 of the cannula carrier 6 is displaced together with the cannula 10 held there by means of the actuating element 15 automatically in the second position. In this case, the cannula 10 can be automatically pulled out of the puncture site and is subsequently moved to the second relative position described above. In this case, at least the distal end 11 of the cannula 10 is covered by the base body 2 in this second position. During this self-acting restoring process, which is to be triggered only by the operator, the base body 2 can remain unchanged in its position on the body. As a result, no unnecessary relative displacements of the safety needle arrangement 1 are performed while the cannula 10 is still located in the puncture site.
If the protective position is reached, the removal or removal of the entire safety needle assembly 1 can be carried out by the body. Subsequently, the used safety pin assembly 1 is disposed of according to the safety regulations, which also has to pay attention to a corresponding safe storage until disposal.
The embodiment shows a possible embodiment of the safety needle assembly 1, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible with each other and this variation possibility due to the teaching of technical action by objective invention in the skill of those skilled in this technical field.
Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.
The task underlying the independent inventive solutions can be taken from the description.
For the sake of order, it should finally be pointed out that, for a better understanding of the design of the safety pin arrangement 1, these or their components have been shown partially unevenly and / or enlarged and / or reduced in size.
DESCRIPTION OF SYMBOLS 1 safety pin arrangement 31 brake element 2 base body 3 distal end 4 proximal end 5 passage opening 6 cannula support 7 distal end 8 proximal end 9 flow-through opening 10 cannula 11 distal end 12 proximal end 13 flow channel 14 retention lug 15 control element 16 distal control element end 17 proximal control element end 18 receiving opening 19 locking device 20 first locking element 21 second locking element 22 projection 23 retaining arm 24 recess 25 insertion slot 26 articulation section 27 actuating lug 28 wing 29 protective cover 30 hose

权利要求:
Claims (10)
[1]
A safety pin assembly (1) comprising a base body (2) having a distal end (3) and a proximal end (4) extending between the distal end (3) of the base body (2) and the proximal end (4) of the Base body (2) in this one through hole (16) extends, a cannula support (6) having a distal end (7) and a proximal end (8), wherein between the distal end (7) of the cannula support (6) and the proximal end (8) of the cannula support (6) extends through a flow opening (9), and the cannula support (6) is adjustably received in the passage opening (5) of the base body (2) in the axial direction, a cannula (10) having a distal end (11). and a proximal end (12), wherein a flow channel (13) extends within the cannula (10) between the distal end (11) of the cannula (10) and the proximal end (12) of the cannula (10), and the proximal one End (12) of the cannula (10) at the distal end (7) of the Cannula support (6) is held, an actuating element (15) which is arranged between the base body (2) and the cannula carrier (6) acting, and the actuating element (15) the cannula carrier (6) together with the cannula (10) held by a first position, at which first position the cannula (10) protrudes beyond the distal end (3) of the base body (2), displaces automatically into a second position, at which second position at least the distal end (11) of the cannula (10) from Base body (2) is covered, a locking device (19) having a plurality of first and second locking elements (20, 21), which locking device (19) in a mutually engaged position of the first and second locking elements (20, 21) the first relative Position of the cannula holder (6) together with the cannula (10) with respect to the base body (2) determines, and the first locking elements (20) in the region of the proximal end (4) of the base body s (2) and the second locking elements (21) in the region of the proximal end (8) of the cannula support (6) are arranged, characterized in that the first locking elements (20) by diametrically opposed projections (22) are formed, which Projections (22) are each arranged on a radially adjustable holding arm (23), and the second locking elements (21) are formed by diametrically opposed recesses (24).
[2]
2. Safety pin arrangement (1) according to claim 1, characterized in that the holding arms (23) each on the side facing away from the protrusions (22) side facing Anlenkungsabschnitten (26) to the base body (2) are hingedly connected resiliently.
[3]
3. safety pin arrangement (1) according to claim 1 or 2, characterized in that the projections (22) respectively on the in the base body (2) arranged through opening (5) side facing away from the support arms (23) protrude in the radial direction and respectively the holding arms (23) in their axial extension between the Anlenkungsabschnitten (26) and the projections (22) are arranged distanced from the base body (2).
[4]
4. safety needle assembly (1) according to any one of the preceding claims, characterized in that the cannula support (6) in the region of its proximal end (8) a holding lug (14) is arranged or formed in which holding lug (14) which the second locking elements ( 21) forming recesses (24) are arranged.
[5]
5. safety needle assembly (1) according to claim 5, characterized in that the holding lug (14) in the region of its distal end diametrically opposed insertion slots (25), in which insertion slots (25) each have one of the support arms (23) in the protruding cannula carrier (6) protrudes into it.
[6]
6. safety needle assembly (1) according to any one of the preceding claims, characterized in that the proximal end (8) of the cannula carrier (6) in the axial direction into the holding lug (14) extends into and in the holding lug (14) on the base body (2 ) side facing a part length between the cannula support (6) and the holding lug (14) is arranged in particular a tubular receiving opening (18) for the adjusting element (15).
[7]
7. Safety pin arrangement (1) according to one of the preceding claims, characterized in that the cannula support (6) in its second relative position with respect to the base body (2) by means of a in the region of the proximal end (4) of the base body (2) arranged in locking device Axial direction relative to the base body (2) locked held on this.
[8]
8. Safety pin arrangement (1) according to one of the preceding claims, characterized in that on the base body (2) of this radially projecting wings (28) are arranged.
[9]
9. safety needle assembly (1) according to claim 9, characterized in that the wings (28) respectively in the same direction from the base body (2) protrude than the diametrically to each other on the support arms (23) arranged projections (22).
[10]
10. A method (22) for removing liquid, in particular blood, from a body or for supplying liquid into the body, characterized in that a safety needle arrangement (1) according to one of claims 1 to 9 is used and the following steps are performed Inserting a cannula (10) at a puncture site into the body, the cannula (10) being attached to a cannula support (6) and the cannula (10) together with the cannula support (6) in a first relative position relative to a base body (2) at which first position the cannula (10) projects beyond a distal end (3) of the base body (2), - removing the fluid from the body or supplying fluid into the body, - removing the cannula (10) the puncture site of the body, wherein the base body (2) of the safety needle assembly (1) is held stationary relative to the body and an engaged Verriegelu ngsvorrichtung (19) between the base body (2) and the cannula carrier (6) is disengaged by simultaneously diametrically opposite to the base body (2) arranged projections (22) of the locking device (19) in the direction of a longitudinal axis of the base body (2 ) and thereby the protrusions (22) out of engagement with in the cannula support (6) arranged recesses (24) are brought, and after unlocking the locking device (19) of the cannula carrier (6) together with the cannula (10) held thereon by means of a Adjustment element (15) is automatically displaced to a second position at which second position, the cannula (10) has been pulled out of the puncture site and at least the distal end (11) of the cannula (10) from the base body (2) is covered, - Remove the safety needle assembly (1) from the body.

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EP3106193B1|2018-12-26|Syringe body

EP2667804B1|2015-09-16|Suprapubic safety cannula

WO2002081012A2|2002-10-17|Infusion set

CH695926A5|2006-10-31|Device for automatically injecting an active ingredient.

EP2080532B1|2010-12-01|Cartridge for an autoinjector and system made up of such a cartridge and an autoinjector

EP1549215A1|2005-07-06|Receiving device comprising an adjustable covering element

EP2678054A1|2014-01-01|Syringe head, ejector unit, and syringe formed from same

WO2005009525A1|2005-02-03|Insertion device for inserting an injection needle

EP3352817B1|2021-03-24|Injection device, in particular an auto-injector

EP3411099B1|2020-02-19|Injection device

DE102006041808B4|2018-04-05|Needle protection device with releasably blocked needle guard

DE102008027147A1|2009-12-03|Discharge device for media

EP2173411A1|2010-04-14|Device for administering a cannula

CH709930A2|2016-01-29|Insertion device for an infusion.

EP2168533A2|2010-03-31|Injection, particularly for veterinary applications

WO2009046560A2|2009-04-16|Safety arrangement for the cannula of an invasive instrument

EP3824928A1|2021-05-26|Safety cannula unit, method for its operation and usage

WO2010003829A1|2010-01-14|Cannula protector and single-use syringe system

EP2925393B1|2017-01-11|Safety assembly for medical technology

同族专利:

公开号 | 公开日

ES2699700T3|2019-02-12|

EP3169387B1|2018-08-29|

WO2016007981A1|2016-01-21|

CN108025146A|2018-05-11|

US20170203050A1|2017-07-20|

CN108025146B|2021-01-12|

AT516045B1|2016-02-15|

EP3169387A1|2017-05-24|

US10258772B2|2019-04-16|

BR112017000823A2|2017-12-05|

引用文献:

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US20030078540A1|2001-10-24|2003-04-24|Becton, Dickinson And Company|Retractable needle assembly|

WO2009021263A1|2007-08-13|2009-02-19|Noble House Group Pty. Ltd.|Single use retractable infusion or transfusion needle|

DE102009052962A1|2009-11-12|2011-06-01|B. Braun Melsungen Ag|catheter introducer|

JP3134920B2|1996-09-20|2001-02-13|株式会社ニッショー|Indwelling needle with wing|

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JP5007793B2|2006-09-21|2012-08-22|ニプロ株式会社|Indwelling needle|

US8162882B2|2010-06-23|2012-04-24|Sta-Med, Llc|Automatic-locking safety needle covers and methods of use and manufacture|AT424879T|2005-07-06|2009-03-15|Vascular Pathways Inc|DEVICE FOR INTRAVENOUS CATHETER INTRODUCTION AND USE METHOD|

AT548972T|2007-05-07|2012-03-15|Vascular Pathways Inc|INTRAVENOUS CATHETER INTRODUCTION AND BLOOD SPECIMENS|

US10384039B2|2010-05-14|2019-08-20|C. R. Bard, Inc.|Catheter insertion device including top-mounted advancement components|

US8932258B2|2010-05-14|2015-01-13|C. R. Bard, Inc.|Catheter placement device and method|

US9950139B2|2010-05-14|2018-04-24|C. R. Bard, Inc.|Catheter placement device including guidewire and catheter control elements|

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ES2750035T3|2011-02-25|2020-03-24|Bard Inc C R|Medical component insertion device including a retractable needle|

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US10493262B2|2016-09-12|2019-12-03|C. R. Bard, Inc.|Blood control for a catheter insertion device|

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AT523598A1|2020-03-09|2021-09-15|Greiner Bio One Gmbh|Cannula arrangement, in particular for withdrawing liquid from a body|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50500/2014A|AT516045B1|2014-07-18|2014-07-18|Safety pin arrangement for removing fluid from a body|ATA50500/2014A| AT516045B1|2014-07-18|2014-07-18|Safety pin arrangement for removing fluid from a body|

US15/326,884| US10258772B2|2014-07-18|2015-07-16|Safety needle arrangement for drawing fluid from a body|

BR112017000823-8A| BR112017000823B1|2014-07-18|2015-07-16|SAFETY NEEDLE ARRANGEMENT AS WELL AS A METHOD FOR COLLECTION OF FLUID FROM A BODY|

EP15756812.2A| EP3169387B1|2014-07-18|2015-07-16|Safety needle arrangement for drawing liquid from a body|

PCT/AT2015/050169| WO2016007981A1|2014-07-18|2015-07-16|Safety needle arrangement and method for drawing liquid from a body|

CN201580038722.9A| CN108025146B|2014-07-18|2015-07-16|Safety needle assembly for withdrawing fluid from the body|

ES15756812T| ES2699700T3|2014-07-18|2015-07-16|Safety needle arrangement for extracting liquid from a body|

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