NO884571L - SUSPECTIVE SUSPENSION SPRAY. - Google Patents

Abstract

! In a disposable syringe, a continuous, axial, cylindrical passage (15) is arranged in a piston (3), in which a cylindrical plug (16) is movably arranged with such a fit in friction that the plug at the end of the injection. or possibly by attempting to subsequently squeeze liquid in front of the piston to move it back. I. i will be moved out of the passage (15), i which thus provides free connection between. the two sides of the piston (3).

Description

The invention relates to an injection syringe device for single use, comprising a cylinder, a piston and a piston rod which is preferably connected to the piston via means which allow the piston rod to retract the piston for the suction of liquid to be injected, but release the piston from the piston rod when this pushes the piston forward against the resistance exerted during the injection, so that the piston cannot be withdrawn for renewed filling of the syringe with liquid.

Such a syringe is known from Norwegian patent document 157 085. Mot

this syringe, the objection has been raised that the syringe can be refilled by injecting the liquid that is desired to be injected into the front of the piston and thereby pushing it backwards, after which the liquid can be injected in the same way as the first time, as the piston can be pushed forward of the piston rod, even if the connection between these parts is broken. The objection is not particularly weighty, as such an injection of liquid on the front of the piston will require the use of another syringe which can then just as easily be used for the injection. Nevertheless, it may be desirable to clear the aforementioned objection from the road, and this is the purpose of the present invention.

According to the invention, there is arranged in the piston a continuous, axial passage which, upon injection of the sucked-in liquid, is kept closed by organs which are affected by the resistance of the injection in such a way that they are brought towards a state where the passage is opened. It is not necessary that the aforementioned organs have had time to open the passage at the end of the injection of the absorbed liquid. It is sufficient that the aforementioned organs have reached a state where only a short additional pressure will open the passage. Such pressure can e.g. be the pressure with which a liquid must be injected in front of the piston to move it backwards and refill the syringe. But even if it should be possible to refill the syringe as a result of the connection between piston and piston rod not being broken, an attempt to carry out a new injection will in any case cause the passage to open, and experience with this behavior will result in such a syringe being unlikely to be used more than once.

According to a preferred embodiment, the aforementioned organs can be made up of a cylindrical plug which is movably arranged in a cylindrical passage, with such adjusted friction that the plug will have traveled most of the length of the passage when the injection of the absorbed liquid is finished.

When constructing the piston rod and its connection with the piston, care should be taken that the piston rod must not prevent the plug from moving out of the passage. To further prevent the channel opening from being blocked again from the outside, the passage and the spray tip are offset in relation to each other.

Further features and advantages of the invention will be apparent from the following description of two exemplary embodiments with reference to the drawing.

Fig. 1 shows, partially in section, a schematic drawing of an injection syringe with a device according to the invention, and

fig. 2 shows a section of a corresponding drawing of another embodiment where the connection between piston and piston rod is fixed.

In fig. 1 denotes 1 a cylinder with a syringe tip (cannula) 2, while 3 denotes a piston with a piston rod 4 and a ring gasket 5 for sealing against the cylinder wall. The rear end of the cylinder 1 is sealed with an end wall 6 which projects outside the peripheral walls of the cylinder 1 in the usual way. The piston rod 4 naturally protrudes through the end wall 6 and is provided with a handle 7 at the end.

At the front end, the piston rod 4 also carries a ring 8 via step 8'. The ring 8 carries one or more hooks 9 which engage with the back 10 of a collar 11 on the piston 3. The collar 11 sits at the end of a short cylindrical part 12, which via a conical part 13 is connected to the part of the piston 3 which lies against the cylinder wall.

The connection between the hooks 9 and the collar 11 is of such a nature that it is canceled when the piston rod 4 is pushed forward towards the piston 3, as the hooks 9 will be broken or deformed by the inclined plane action from the conical part 13. When the syringe is filled by withdrawing the piston 3 and then emptied by injection of the sucked-in liquid against the resistance exerted during the injection, the connection between the piston 3 and the piston rod 4 will thus be broken, so that the piston 3 cannot be withdrawn by the piston rod 4 for renewed suction of liquid.

So far, the described injection syringe is in principle of the same design as that described in Norwegian patent document 157 085, to which reference is made for further details. According to the shown embodiment of the invention, however, the piston 3 also has a continuous, axial, cylindrical passage 15 which is closed by a cylindrical plug 16. This plug sits completely at the front end of the passage 15 when the syringe is put into use. The plug 16 has a matched and significant friction against the walls of the passage 15. It will therefore not move when the piston 3 is pulled back by the piston rod 4 to draw liquid into the syringe. When the sucked-in liquid is injected, on the other hand, the relatively high pressure on the front of the piston 3 will push the plug 16 backwards in the passage 15, e.g. to the position shown dashed at 16', or even slightly further back. If one then tries to fill the syringe again by injecting liquid into the front of the piston 3, the pressure will push the stopper 16 further backwards and completely out of the piston 13, whereby the liquid will flow down into the syringe cylinder. Even if it were to succeed in filling the syringe without the plug 16 being pushed out completely, it will quickly be pushed out when trying to inject the pressed-in liquid.

It will thus be understood that one has obtained an injection syringe which not only prevents the suction of liquid after the injection has been performed, but also prevents filling of the syringe by pressing liquid onto the front of the piston, or at least prevents such liquid from being able to any significant extent is injected. When the piston 3 is pressed in, the ring 8 on the piston rod 4 will rest against the end surface 14 of the piston 3, but still keep the rear opening of the passage 15 free, so that the plug 16 is free to move out of the piston.

It will also be seen that the opening for the cannula 2 is arranged eccentrically and thus does not line up with the centrically arranged passage 15. This has been done to prevent it being possible to seal the passage 15 through the opening for the cannula 2. It will it is understood that it is naturally possible to arrange the spray opening centrally and instead to arrange the passage 15 offset in relation to the center line.

Other modifications of the invention will also be readily apparent to those skilled in the art, thus the stopper 16 will not necessarily have to be pushed completely out of the piston 3 to open the passage 15, as it may be sufficient for the stopper to be pushed down into an extended part of the passage 15.

Finally, it should be mentioned that the invention is not bound to the connection between the piston 3 and the piston rod 4 being broken during the injection, so that the piston cannot be withdrawn. It will also be possible to rely solely on the described opening of a passage in the piston to prevent repeated use of the syringe. This is shown in the embodiment of fig. 2, where the piston 3 has neither a collar 11 nor a conical part 13, but where the ring 8 is firmly connected to the piston 3. The connection between the ring 8 and the piston rod 4 is still constituted by step 8' which keeps the end of the piston rod at a distance from the rear end of the passage 15 so that the plug 16 is not prevented from being pushed out of the passage. When using such an embodiment of the syringe, the piston, if the plug 16 is not pushed completely out of the passage 15 during the first injection, can be withdrawn for renewed filling of the syringe. When an injection begins, however, the plug 16 will quickly be pushed out the last bit and further use of the syringe will be made impossible. Under these circumstances, the syringe is unlikely to be used more than once.

Claims (5)

1. Device for injection syringe for single use, comprising a cylinder (1), a piston (3) and a piston rod (4) which is preferably connected to the piston (3) via means (9) which allow the piston rod to retract the piston for suction of liquid to be injected, but releases the piston (3) from the piston rod (4) when this pushes the piston forward against the resistance exerted during the injection, so that the piston cannot be withdrawn for renewed filling of the syringe with liquid, characterized in that there in the piston (3) a continuous axial passage (15) is arranged which, upon injection of the absorbed liquid, is kept closed by organs (16) which are affected by the resistance of the injection in such a way that they are brought towards the state where the passage (15) is opened. 2. Device as stated in claim 1, characterized in that the said organs (16) are arranged so that, upon completion of the injection of the sucked-in liquid, they are in a state where the pressure with which a liquid must be injected in front of the piston in order to move it backwards and refilling the syringe will open the passage. 3. Device as stated in claim 2, characterized in that the said 'organs are made up of a cylindrical plug (16) which is movably arranged in a cylindrical passage (15) with such adjusted friction that the plug (16) will have traveled most of the passage's length at the end of the injection of the aspirated liquid. 4. Device as stated in claim 3, characterized in that the piston rod (4) is designed so that it allows the plug (16) to move out of the passage (15), 5. Device as stated in one of the preceding claims, characterized in that the syringe tip (2) and the passage (15) are offset in relation to each other.