Source: https://patents.google.com/patent/DE10351594A1/en
Timestamp: 2020-08-13 06:51:28
Document Index: 290952929

Matched Legal Cases: ['art 5', 'art 7', 'art 7', 'art 7', 'art 7', 'art 5']

DE10351594A1 - Device for the administration of an injectable product - Google Patents
Device for the administration of an injectable product
DE10351594A1
DE10351594A1 DE2003151594 DE10351594A DE10351594A1 DE 10351594 A1 DE10351594 A1 DE 10351594A1 DE 2003151594 DE2003151594 DE 2003151594 DE 10351594 A DE10351594 A DE 10351594A DE 10351594 A1 DE10351594 A1 DE 10351594A1
DE2003151594
2003-11-05 Priority to DE2003151594 priority Critical patent/DE10351594A1/en
2005-06-16 Publication of DE10351594A1 publication Critical patent/DE10351594A1/en
229940025708 Injectable Product Drugs 0.000 title claims abstract description 6
239000000047 products Substances 0.000 claims abstract description 27
239000011265 semifinished products Substances 0.000 claims description 2
A device for the administration of an injectable product, comprising: DOLLAR A a) a housing (1, 10), DOLLAR A b) a product container (2) accommodated by the housing (1, 10), in which a piston (3 ) is received movably in a driving direction (V) to discharge product, DOLLAR A c) acting in the direction of advance (V) on the piston (3) piston rod (16) DOLLAR A d) and one in the direction of advance (V) the piston rod (16) acting spring (15), DOLLAR A e) wherein the piston rod (16) against the force of the spring (15) is releasably held in a holding position in a holding engagement, DOLLAR A characterized in that DOLLAR A f) the Spring (15) in the holding position in the container (2) protrudes.
The The invention relates to a device for administration of an injectable Product. The device may in particular be an injection device, preferably an auto-injector.
Injection devices, as the invention relates to them, are for example from the DE 198 22 031 B and U.S. Patent 4,031,893. Both documents describe auto-injectors. In the case of the auto-injector DE 198 22 031 A1 is provided by means of a mechanical sequence control that after triggering of the device in a first phase, the injection cannula pierced to the desired depth through the skin and only in a subsequent second phase, the product to be injected is distributed and administered. The injection device of US Pat. No. 4,031,893 does not have such a sequence control. Rather, a drive device pushes by pressure on a piston, which is arranged in a container filled with the product, on the static friction both the container and thus together the puncture cannula and the piston in the container in a forward drive direction. The processes of grooving and pouring therefore do not run exactly sequentially, but partly at the same time.
The propulsion of the piston is effected in the respective injection devices by means of a piston rod and a spring acting in the advancing direction of the piston on the piston rod. In the devices of DE 198 22 031 A1 the spring is received in a drive pot and pushes the pot against a proximal end of the piston rod. In the simplified version of US-PS 4,031,893, the spring immediately surrounds the piston rod and pushes in the forward drive direction against a radially outwardly projecting shoulder of the piston rod. The piston rod is either directly fixed to the piston or an integral with the piston adapter connected, which serves as an adapter for adaptation to different Behältnisfüllgrade.
to Improvement of handiness exists in devices for administration Injectable products, the desire for a compact design, in particular according to a measured in the direction of advance of the piston preferably short length. This desire exists in particular with autoinjectors, since autoinjectors across from usual injection equipment including simple syringes in general are therefore already longer, because the puncture cannula relative to a housing of the respective device in advance direction additionally around the for the injection desired Puncture depth must be moved.
It is therefore an object of the invention, for shortening the direction of advance of the piston measured length contribute to the administration of injectable products.
The The invention relates to a device for administering an injectable Products made up of a housing, one from the case stored container for the Product with a piston, a piston rod and one on the piston rod includes acting spring. By moving the piston in one Propulsion direction, the product is released from the container. The Spring acts accordingly in the direction of advance on the piston rod. The piston rod and the spring are components of a drive unit for the Piston or form such a drive unit alone. The device can also a puncture cannula have, which points in the advancing direction.
In an initial state of the device, for example, immediately before product administration, the device is "sharp", i.e. the spring is cocked, and the piston rod is tensioned against the force of Spring held in a holding position in a holding engagement. Of the Holding engagement may be directly between the housing and the piston rod or, more preferably, between these two components only via a or more transmission elements be effected. The holding engagement is releasable.
To invention, the spring extends into the container, and not only while the distribution movement, but already in an initial state of the device before release the drive unit. Usually includes the piston with the re the propulsion direction rear edge of the container is not flat, so that between the piston back and the rear edge of the container a room remains. This space is used according to the invention, at least about the spring a part of their extending in the direction of advance, axial Length record. Across from Therefore, the known devices, the axial length of the Device by that length shortened be with the spring already in the holding position of the piston rod over the rear edge of the container protrudes into the container in the direction of advance. If the Piston with the rear edge of the container completes plan, it follows that the piston forms a cavity into which the spring and accordingly protrude the piston rod.
The device can in particular an Injek tion device, preferably a Injektionspen. Since the spring acts on the piston rod in the advancing direction, a user of the device does not have to perform the dispensing movement, ie the advancing movement of the piston rod and the piston, on its own. He only has to trigger the drive unit, which then drives the piston automatically in the forward drive direction.
In preferred embodiments The device is an auto-injector that automatically triggers not just the dispensing movement, but also a pointing in the direction of advance piercing one with the product container connected piercing cannula performs. However, the injector does not necessarily have to have a puncture cannula. The product administration is also conceivable by way of a so-called Pressure injection. If the autoinjector is a puncture cannula for preferably Having a subcutaneous injection, the drive unit can a include further spring, the puncturing the pricking the puncture cannula causes while said spring only fulfills the function of a discharge spring which controls the delivery movement, d. H. the propulsion of the piston in the container causes. In simple, also preferred embodiments is said spring piercing and Ausschüttfeder in one.
The Device is preferably used in the self-administration of products uses. Preferred applications are for example the diabetes therapy, Osteoporosis therapy and treatment with growth hormones. The injectable product is therefore for example insulin, an osteoporosis preparation or a growth hormone.
The Piston rod can be firmly connected to the piston. Preferably presses However, they only loose against the back of the piston. At least in this preferred execution It includes a stamp, with which they are in the dispensing movement against the piston back presses and thereby moving the piston in the advancing direction. At the back of the stamp preferably the spring from. To save axial length, the should Stamp to form the front end of the piston rod and advantageously be thin with a thickness of preferably less than 2 mm. The spring is supported preferably immediately from the back of the stamp, so that their front end only by the thickness of the punch from the piston back is spaced when the punch presses against the piston back. Preferably the stamp contacted the piston back already in the holding position the piston rod.
Preferably leads the Piston rod the spring axially. Hereby, the spring can surround the piston rod. Preferred versions however, it does correspond that the piston rod surrounds the spring. The piston rod is in such versions a sleeve, which may in particular be circular-cylindrical, with a sleeve casing, which may be broken, but preferably smooth throughout is. Preferably protrudes at a front end of the sleeve from the sleeve jacket one shoulder radially inward, where the spring is supported in the direction of advance and which preferably also forms said stamp. The shoulder should accordingly form the front end of the sleeve sheath. The shoulder can form a bottom of the pot-shaped sleeve in this case. She can, however instead be formed as a circumferential annular shoulder. she can even be formed only as a radially inwardly projecting web in such a training preferably more of the shoulders from the sleeve jacket radially inward stick out to the spring over the sleeve circumference preferably evenly support.
For the holding intervention the piston rod preferably has a retaining shoulder, the with a counter-shoulder of the case or preferably one disposed between the housing and the piston rod Bearing structure is formed in the holding engagement. The shoulder can in the forward drive direction directly in abutting contact against be the counter-shoulder or only via a transmission device, for example a ball or a cylinder pin or several such bodies. By the triggering the device is caused by the stop contact blocking solved the piston rod, so that the piston rod by the force of the spring in the advancing direction is driven.
The Retaining shoulder is preferably formed by a conical widening of the piston rod. Preferably runs the piston rod at its rear end in the widening out. If the piston rod is a sleeve as preferred, it will travel to form the widening advantageously funnel-shaped from, d. H. it forms at its rear edge an axially short opening funnel.
In particularly preferred embodiment the piston rod is therefore a sleeve whose front end is a inward protruding shoulder preferably in the form of a closed bottom or an annular shoulder forms. To the piston rod against the force To be able to hold the spring in a holding position is the piston rod in preferred developments further, as already mentioned, with provided at least one retaining shoulder, which preferably rotates. Possibly can but also distributed over several individual retaining shoulders over the circumference of the sleeve be provided. Such an education of the piston rod is already advantageous even without the inventive feature that the spring already protrudes into the holding position of the piston rod in the container.
In an alternative embodiment, in the likewise a sleeve forms the piston rod, which projects the support of the spring and preferably Also serving as a punch shoulder outward on the shaft portion of the Sleeve in front. In such an execution the spring surrounds the sleeve. The retaining shoulder, if provided, can in such an execution at the opposite At the end of the sleeve radially inward over the sleeve shank protrude to the holding engagement with a projecting into the sleeve Form counter-shoulder, with the holding engagement between the shoulders as with the stronger preferred version of the spring surrounding sleeve may be formed.
The Applicant retains it also claims by way of a divisional application claims directed to an administering device having a sleeve formed Piston rod includes, but not necessarily the feature, after the spring into the product container stands out, although the combination is particularly preferred.
The as a sleeve formed piston rod can in particular in one piece from a be made of metallic material. It is preferred from a Semifinished product obtained by forming. For example, semis are suitable Pipes by means of a separation process to pieces of pipe the for the Piston rod required length cut become. The shoulder on which the spring is supported, and, if present, The retaining shoulder is or will be by forming a pipe piece end or both pipe ends shaped. A radially outward and also a radially inward over the sleeve shank projecting shoulder can by means of a bending deformation by means of a Form are obtained. Furthermore, it is suitable as a forming process also thermoforming, using as semi-finished a semi-finished sheet becomes. By deep drawing, in particular a cup-shaped piston rod be formed with the shoulder at the open end of the pot.
preferred Features of the invention are also in the subclaims and their combinations are described. The ones described there and the ones above complement features described each other in an advantageous manner.
embodiments The invention will be explained below with reference to figures. At the embodiments Obviously emerging features form each individually and in each combination of features the objects the claims and also the embodiments described above advantageous further. Show it:
1 an auto-injector in an initial state in which a drive unit of the injector is tensioned and secured,
2 the auto-injector with a tensioned but unlocked drive unit,
3 the unlocked autoinjector placed on a puncture site immediately before piercing a puncture cannula,
4 the autoinjector immediately after insertion of the puncture cannula and immediately before dispensing the product,
5 the autoinjector with pierced cannula after pouring out the product,
6 the auto-injector after use and
7 a proximal part of a modified autoinjector.
1 shows an autoinjector in a longitudinal section plane, which contains a central axis of symmetry L of the injector, which is referred to as the longitudinal axis L below.
An envelope structure 1 forms a major part of a housing of the injector. The envelope structure 1 is used for gripping the injector and storing its components. The envelope structure 1 is a circular cylindrical sleeve with the longitudinal axis L as the axis of symmetry. In the shell structure 1 is a bearing structure along the longitudinal axis L relative to the enveloping structure 1 movably received. The bearing structure is in two parts and consists of a distal part 5 and a proximal part 7 which are axially immovable relative to each other. The storage structure 5 . 7 is a total of hollow cylindrical, circular cylindrical in the embodiment. In the warehouse structure 5 . 7 is a container filled with injectable product 2 axially relative to the bearing structure 5 . 7 movably received in a propulsion direction V. The container 2 is an ampoule. The product is in the container 2 between an outlet, the container 2 at a front with respect to the direction of advance V, ie distal end, and a piston 3 in the container 2 axially slidably received, stored. At the front end of the container 2 is a puncture cannula 4 attached in the direction of advance V pointing. By a distributing movement of the piston 3 in the advancing direction V, the product from the container 2 displaced and then through the puncture cannula 4 distributed.
The delivery movement of the piston 3 is effected by means of a drive unit. The drive unit consists of a mechanical spring 15 and a piston rod 16 , The piston rod 16 forms on its front face a stamp 17 , with which they are in the direction of advance V against the piston 3 suppressed. Beyond the pressure contact exists between the piston rod 16 and the piston 3 no connection.
In the in 1 shown state takes the piston rod 16 an axial holding position, in which they act against the force acting in the advancing direction V force of the tensioned spring 15 is held. This is the piston rod 16 in a retaining engagement with the bearing structure 5 . 7 , The storage structure 5 . 7 is in turn by positive engagement on a movement in the advancing direction V relative to the enveloping structure 1 prevented. The positive connection exists between a front edge of the proximal part 7 and a shoulder extending from a shell inner surface of the enveloping structure 1 protrudes inwards. A feather 22 pushes the bearing structure 5 . 7 in this contact with the envelope structure 1 ,
The holding engagement of the piston rod 16 exists between a holding shoulder 18 the piston rod 16 and immediately a counter-shoulder 8a of the proximal part 7 the bearing structure 5 . 7 , The piston rod 16 runs at its proximal end in a holding shoulder 18 forming widening conical. The sleeve-shaped proximal part 7 is axially slotted, so that tongue-like holding elements 8th each formed with a free proximal end. The holding elements 8th are elastically bendable. Each of the retaining elements 8th forms at its free proximal end one of the opposite shoulders 8a for the retaining shoulder 18 , The back shoulders 8a lie the retaining shoulder facing in the direction of drive opposite. The shoulder 18 has with the counter-shoulders 8a direct stop contact.
In the holding position, the holding elements 8th by a blocking device 10 blocked in the holding engagement. The blocking device 10 is with the hull structure 1 axially immovably connected. In the exemplary embodiment, it is through the open proximal end of the enveloping structure 1 in the envelope structure 1 used and with the envelope structure 1 locked. The blocking device 10 is a sleeve body and surrounds the retaining elements 8th and blocks the retaining elements 8th in the holding engagement, by preventing the holding elements 8th under the spring 15 over the retaining shoulder 18 Dodge applied pressure radially outward. The holding elements 8th are radially outwardly thickened at their free proximal ends, so that they against a radially facing opposite blocking surface of the blocking device 10 pushing radially inwardly bent into the retaining engagement. The blocking surface is a shell inner surface of the blocking device 10 ,
In the stop position is the spring 15 , In the exemplary embodiment, a coil spring, axially between a proximal spring support 9 and the stamp 17 , which thus forms a distal spring support, tensioned on pressure.
The feather 15 extends in the holding position of the proximal spring support 9 in the proximal open container 2 into and almost protrudes to the piston 3 , Its distal end is from the back of the piston 3 only about the thickness of the stamp 17 axially spaced. The Stamp 17 in turn forms a thin, radially to the longitudinal axis L facing, flat bottom of the piston rod 16 , The feather 15 is therefore brought as close as possible to the piston to obtain a drive unit and ultimately an injector with the shortest possible axial length. The Stamp 17 ideally has just such a thickness as it does for the support of the tensioned spring 15 is required. The lower limit for the thickness of the stamp 17 formed spring support is thus determined only by the inevitably required strength and a required addition for safety reasons.
Especially for slim containers 2 with a correspondingly small hollow cross section, it is advantageous if the piston rod 16 a metal sleeve is. Metal sleeves have greater strength with less wall thickness compared to plastic parts. The thicker on the sleeve shaft of the piston rod 16 fitting and guided by the sleeve shaft spring 15 be executed. The spring stiffness and thus the spring force exerted during the advance can advantageously be greater than with thicker-walled sleeves. For a given hollow cross-section of the container 2 Therefore, the piston rod 16 forming sleeves with low wall thickness preferred. With increasing hollow cross section of the container 2 can the piston rod 16 be designed with a correspondingly enlarged outer circumference. Exceeds the hollow cross-section of the container 2 a certain size, the piston rod can 16 be made in the preferred embodiment as a sleeve as a plastic sleeve.
The piston rod 16 is a deep-drawn from semi-finished sheet metal sleeve. It extends axially from the piston 3 almost to the spring support 9 , taking it from the spring support 9 only for the backing of the counter-shoulder 8a required axial distance is removed. In the tensioned state of the spring 15 assign the spring 15 and the piston rod 16 thus substantially the same axial length. The spring support formed as a sleeve bottom 9 forms the end of the bearing structure 5 . 7 ,
A security element 13 , in the exemplary embodiment, a safety cap, that concludes from the shell structure 1 and the blocking device 10 formed housing of the injector. The fuse element 13 is at the blocking device 10 releasably secured by latching engagement. It can be removed by the user by hand to unlock the injector and thereby "spice it up" for product administration 1 illustrated initial state extends an axially projecting web 14 of the fuse element 13 the blocking surface of the blocking device 10 in the proximal direction.
2 shows the auto-injector after removing the fuse element 13 in the unlocked and thus "sharp" state. By removing the fuse element 13 becomes a depression 11 the blocking device 10 exposed. The depression 11 is in axial extension proximally of the blocking surface of the blocking device 10 educated. The blocking device 10 widens against the advancing direction V of its blocking surface over a shoulder 12 into the depression 11 , The shoulder 12 forms an abrupt transition from a distal portion forming the blocking surface to one the depression 11 forming proximal portion of the blocking device 10 , The jetty 14 of the fuse element 13 is accordingly a ring land, which in the mounted state of the depression 11 forming section of the blocking device 10 fills to the radial height of the blocking surface.
In the unlocked state, the bearing structure 5 . 7 in the whole relative to the envelope structure 1 and in particular the blocking device 10 be moved against the advancing direction V, so that the holding elements 8th with their free proximal ends behind the shoulder 12 into the depression 11 reach and there can be moved radially outward from the retaining engagement. The required path length 1 the backward movement is by a pointing in the direction of advance V stop surface of the blocking device 10 and an axially facing, against the advancing direction V facing abutment counter surface of the Proximalteils 7 specified.
At the distal end of the enveloping structure 1 protrudes a needle protection sleeve 21 into the likewise open shell structure 1 , The envelope structure 1 stores the needle protection sleeve 21 axially movable. The feather 22 on the one hand, on the envelope structure 1 and on the other hand on the needle protection sleeve 21 is supported, biases the needle guard in a distal position relative to the enveloping structure 1 , The spring pushes 22 the needle guard 21 against one of the bearing structure 5 . 7 formed stop. The storage structure 5 . 7 has in its distal region an outwardly bendable blocking element 6 on, that of the distal part 5 is formed in one piece in the on a tongue which projects in the advancing direction V. The blocking element 6 after product administration, serve the needle guard 21 in their protective position, ie in their respect to the envelope structure 1 distal position, thereby blocking the user from the puncture cannula 4 to protect.
On the distal end of the container 2 and via the puncture cannula 4 is a cannula sleeve 20 placed. The cannula shell 20 placed on the one hand the container 2 in the warehouse structure 5 . 7 and has a required axial stiffness. She holds the puncture cannula 4 furthermore sterile. On the other hand, however, their axial rigidity is not so great as to increase the propulsion of the container 2 in the warehouse structure 5 . 7 obstructed or even prevented after triggering the injector. The needle cover 20 For example, it may be an axially compliant rubber hose or a bellows.
Of the Use of the auto-injector of the embodiment will be described below explained.
The injector will be in the in 1 shown output state, the delivery state, delivered to the user. The container 2 is pre-filled with a quantity of product intended for exactly one injection. The drive unit is charged, ie the piston rod 16 is in holding engagement and the spring 15 is curious.
By loosening the fuse element 13 from the blocking device 10 the user unlocks the injector, which then, as in 2 shown in the unlocked state.
In the unlocked state, the injector with the needle protection sleeve 20 placed on the desired piercing point perpendicular to the skin and pressed against the skin. The envelope structure 1 serves as a handle. Due to increasing pressure, the needle protection sleeve moves in a first phase of pressing 21 against the force of the spring 22 deeper into the envelope structure 1 one. Once by pressing the bearing structure 5 . 7 with its proximal end in contact with the skin, in a subsequent, second phase by further pressing the needle protection sleeve 21 and the bearing structure 5 . 7 relative to the enveloping structure 1 moved together against the advancing direction V. In the course of this relative movement, the holding elements slide 8th at the blocking surface of the blocking device 10 along in the proximal direction and finally reach the area of the depression 11 , The relative movement is achieved by abutment of the bearing structure 5 . 7 at the blocking device 10 limited. Shortly before the stop, but at the latest at the moment of the stop soft the retaining elements 8th under the action of the spring 15 over the retaining shoulder 18 applied force radially outward into the recess 11 out, so that the holding engagement dissolves. The evasive movement of the holding elements 8th is by their egg supported elastic restoring forces. The shoulder 18 and / or the opposite shoulders 8a are inclined to the longitudinal axis L, so that they can slide off each other as soon as the holding elements 8th into the depression 11 can dodge. At least, by an inclined course of the retaining shoulder 18 and / or the opposite shoulders 8a prevents jamming.
3 shows the injector in the state immediately after the release of the retaining engagement and before the onset of the advancing movement of the piston rod 16 , From this transition state goes the piston rod 16 under the pressure of the spring 15 Immediately in the propulsion movement over. The storage structure 5 . 7 is achieved by pressing the injector against the skin in its proximal position relative to the sheath structure 1 held. The piston rod moving in the advancing direction 16 presses with her stamp 17 against the piston 3 , Due to the stiction between the piston 3 and the container 2 becomes the container 2 in the warehouse structure 5 . 7 moved in the advancing direction V. The puncture cannula 4 guides the movement together with the container 2 and punctures in the course of this puncture the cannula shell 20 in order subsequently to penetrate into the skin and preferably subcutaneously into the tissue. In the course of the piercing movement the container overshoots 2 the blocking element 6 and bends it outward. Furthermore, the cannula shell 20 compressed. The cannula shell 20 limits the puncturing movement and thus determines the penetration depth of the puncture cannula 4 With.
4 shows the injector after performing the piercing, but before the product distribution. The piercing movement of the piston rod 16 is at the latest after execution of the piercing of the puncture cannula 4 in the discharge movement, in the course of which the product is distributed. Ideally, the piercing movement of the puncture cannula 4 completed before the dumping movement of the piston 3 starts. The piston rod 16 causes both movements by means of their own propulsion movement. The feather 15 forms in this sense a piercing and Ausschüttfeder.
5 shows the injector after the complete emptying of the container 2 , ie after completion of the distribution, but before pulling out the puncture cannula 4 from the tissue. Will now the puncture cannula 4 pulled out of the tissue, the needle guard moves 21 due to the force of the spring 22 relative to the enveloping structure 1 in the advancing direction V. In the course of this movement, the needle protection sleeve passes 21 with a stop shoulder in the direction of advance V again in front of the blocking element 6 , The blocking element 6 and the respective stop shoulder of the needle guard 21 then lie axially opposite, so that the blocking element 6 a renewed retraction of the needle guard 21 prevents and the needle protection sleeve 21 blocked in its protective position.
6 shows the injector after use with blocked needle guard 21 , The injector is designed as a disposable device and is disposed of after a single use.
7 shows the proximal portion of a modified autoinjector extending from the autoinjector of the 1 to 6 only in relation to the plunger of the piston rod 16 and the retaining engagement between the piston rod 16 and the storage structure 5 . 7 different. The Stamp 17 ' of the modified embodiment is of the sleeve shank of the piston rod 16 not formed as a continuous floor, but as encircling annular shoulder. The piston rod 16 of the modified embodiment is again a metal sleeve. However, it is formed by forming a piece of pipe. The sleeve shaft corresponds to the undeformed pipe section. The Stamp 17 ' and the retaining shoulder 18 are each formed by bending deformation, the stamp 17 ' by pressing a mold and the retaining shoulder 18 by pressing against a widening shape.
In the modified embodiment, the retaining engagement is not directly between the retaining shoulder 18 and the storage structure 5 . 7 but is via one or in the embodiment, a plurality of transmission elements 19 causes. The transmission elements 19 For example, balls or dowel pins may be from the spring 15 over the retaining shoulder 18 in the advancing direction V against a counter shoulder of the bearing structure 5 . 7 be pressed. The release of the retaining engagement takes place in the same way as in the case of the auto-injector 1 to 6 with the only difference being that not one of the bearing structure 5 . 7 formed retaining element 8th but the transmission elements 19 into the depression 11 the blocking device 10 dodge.
Apparatus for administering an injectable product, comprising: a) a housing ( 1 . 10 ) b) one of the housing ( 1 . 10 ), movably mounted product container ( 2 ), in which a piston ( 3 ) is movably received in a direction of advance (V) in order to discharge product, c) in the advancing direction (V) on the piston ( 3 ) acting piston rod ( 16 ) d) and one in the direction of advance (V) on the piston rod ( 16 ) acting spring ( 15 ), e) the piston rod ( 16 ) against the force of the spring ( 15 ) is releasably held in a holding position in a holding engagement, characterized in that f) the spring ( 15 ) in the holding position in the container ( 2 protrudes.
Device according to claim 1, characterized in that the piston rod ( 16 ) a stamp ( 17 ; 17 ' ) for releasing the product in the advancing direction (V) against the piston ( 3 ) presses.
Device according to the preceding claim, characterized in that the stamp ( 17 ; 17 ' ) in the advancing direction (V) foremost end face of the piston rod ( 16 ).
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) the feather ( 15 ) surrounds.
Device according to the preceding claim, characterized in that the piston rod ( 16 ) is a sleeve and the spring ( 15 ) is supported on a shoulder which projects inwards in a direction of advance (V) front end of the sleeve and preferably the foremost end face of the piston rod ( 16 ).
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) a retaining shoulder ( 18 ) and the retaining shoulder ( 18 ) to the advancing direction (V) is preferably inclined with a direction component parallel and a direction component perpendicular to the advancing direction (V).
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) is a sleeve structure obtained by plastic deformation, preferably cold deformation, from a semi-finished product.
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) is molded in one piece.
Device according to one of the preceding claims, characterized in that a metallic material, the piston rod ( 16 ).
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) is a deep-drawn part.
Device according to one of claims 1 to 9, characterized in that the piston rod ( 16 ) was obtained from a pipe section by forming at least one axial end, preferably both ends, of the pipe section.
Device according to one of the preceding claims, further comprising a bearing structure ( 5 . 7 ) containing the product container ( 2 ) movably supports in the advancing direction (V).
Device according to the preceding claim, characterized in that the bearing structure ( 5 . 7 ) a support ( 9 ) for the spring ( 15 ).
Device according to one of the two preceding claims, characterized in that the housing ( 1 . 10 ) the bearing structure ( 5 . 7 ) movably supports against the advancing direction (V).
Device according to one of the three preceding claims, characterized in that the piston rod ( 16 ) with the bearing structure ( 5 . 7 ) is in the holding engagement.
Device according to one of the preceding claims, characterized in that the piston rod ( 16 ) a retaining shoulder ( 18 ) that a counter-shoulder ( 8a ; 8a ' ) is provided which, at least in the holding position of the piston rod ( 16 ) on the housing ( 1 . 10 ) is fixed in the advancing direction (V) is not movable or is formed by the housing, and that the retaining shoulder ( 18 ) and the counter-shoulder ( 8a ; 8a ' ) are in the holding engagement.
Device according to the preceding claim, characterized in that the retaining shoulder ( 18 ) and the counter-shoulder ( 8a ; 8a ' ) are in direct contact with each other in the holding engagement or a transmission device ( 19 ) the holding engagement between the engaging shoulder ( 18 ) and the counter-shoulder ( 8a ; 8a ' ) causes.
Device according to the preceding claim, characterized in that a blocking device ( 10 ) is provided, the one from holding shoulder ( 18 ) and counter-shoulder ( 8a ) is blocked in the holding engagement.
DE2003151594 2003-11-05 2003-11-05 Device for the administration of an injectable product Withdrawn DE10351594A1 (en)
DE2003151594 DE10351594A1 (en) 2003-11-05 2003-11-05 Device for the administration of an injectable product
AU2004286732A AU2004286732B2 (en) 2003-11-05 2004-10-28 Device for the administration of an injectable product
EP04789818A EP1684830A1 (en) 2003-11-05 2004-10-28 Device for the administration of an injectable product
CN 200480032781 CN1878587A (en) 2003-11-05 2004-10-28 Device for the administration of an injectable product
PCT/CH2004/000645 WO2005044344A1 (en) 2003-11-05 2004-10-28 Device for the administration of an injectable product
JP2006537028A JP2007509657A (en) 2003-11-05 2004-10-28 Administration device for administering injectable preparations
US11/417,518 US8591465B2 (en) 2003-11-05 2006-05-04 Device for administering an injectable product
DE10351594A1 true DE10351594A1 (en) 2005-06-16
ID=34559341
DE2003151594 Withdrawn DE10351594A1 (en) 2003-11-05 2003-11-05 Device for the administration of an injectable product
US (1) US8591465B2 (en)
EP (1) EP1684830A1 (en)
JP (1) JP2007509657A (en)
CN (1) CN1878587A (en)
AU (1) AU2004286732B2 (en)
DE (1) DE10351594A1 (en)
WO (1) WO2005044344A1 (en)
US10646655B2 (en) * 2015-07-30 2020-05-12 F+K Innovationen Gmbh & Co. Kg Syringe
JP2018534080A (en) * 2015-11-19 2018-11-22 ノボ・ノルデイスク・エー／エス Shielded needle cannula
DE19822031A1 (en) * 1998-05-15 1999-11-18 Disetronic Licensing Ag Auto injection device
US2784773A (en) 1953-11-23 1957-03-12 David L Rowland Weatherproof cushion
DE3916454C2 (en) 1989-05-20 1992-04-09 Gerhard 3441 Berkatal De Kuehnemuth
2003-11-05 DE DE2003151594 patent/DE10351594A1/en not_active Withdrawn
2004-10-28 WO PCT/CH2004/000645 patent/WO2005044344A1/en active Application Filing
2004-10-28 CN CN 200480032781 patent/CN1878587A/en not_active Application Discontinuation
2004-10-28 AU AU2004286732A patent/AU2004286732B2/en not_active Ceased
2004-10-28 JP JP2006537028A patent/JP2007509657A/en not_active Ceased
2004-10-28 EP EP04789818A patent/EP1684830A1/en not_active Withdrawn
2006-05-04 US US11/417,518 patent/US8591465B2/en active Active
US8591465B2 (en) 2013-11-26
CN1878587A (en) 2006-12-13
AU2004286732A1 (en) 2005-05-19
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