Abstract:
The invention describes an ampoule-syringe comprising a single, substantially cylindrical body, divided by a central narrow neck portion in two compartments, constituting the ampoule and the syringe respectively, the narrow neck portion forming the housing for the needle. In order to detach the syringe from the ampoule it is sufficient to break the cylindrical shell at the narrow neck portion.

Description:
FIELD AND BACKGROUND OF THE INVENTION 
     The present invention relates to an ampoule-syringe consisting substantially of a cylindrical body, preferably made of glass, divided in two compartments by a narrow neck portion. 
     One compartment of the invention which is closed at one end, constitutes the ampoule filled with liquid, and the other compartment forms a syringe in which a piston is inserted, and which is sealed at the open end by a movable capsule, capable of keeping an inner sterile condition. The ampoule-syringe according to the invention is characterized by a special arrangement of its parts, which makes the use thereof extremely handy and easy if compared to other known devices. 
     Both for practical and sanitary reasons, it is often advisable to store injection products in the form of and ampoule-syringe, namely by directly inserting a product in the container that will form the syringe This both simplifies the various injection operations by avoiding handlings that could lead to mistakes in the medicine dosage, and maintains a hygiene condition. 
     In the thus made ampoule-syringes the piston rod that ejects the product cannot enter the syringe completely but protrudes from the syringe to a certain extent; this causes difficulties, also due to the need of securing the rod in this position during packaging and transport. Furthermore, other problems are caused by the necessity of providing suitable needle protecting means, to be removed before use. 
     SUMMARY OF THE INVENTION 
     The present invention provides an ampoule-syringe that is less bulky and cheaper than the known devices, consisting substantially of a single body divided to a central narrow neck, into two parts, one of them forming the real ampoule, and the other the syringe body. 
     The needle support, housed inside the ampoule, is fixedly secured to the narrow neck portion. 
     At the side where the piston is inserted, the syringe is closed by a capsule that provides hermetical sealing and sterile conditions. 
     In this way both the needle and the piston rod are sheltered by the same shell of which the ampoule-syringe consists, the latter thus resulting much handier to use and of less cumbersome size; further, many problems can be solved, connected with the packaging and/or handling of products. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The present invention will be now described in detail, with special reference to the attached drawings, in which: 
     FIG. 1 is an exploded view of the ampoule-syringe according to the invention; and 
     FIG. 2 in the ampoule-syringe according to the invention, assembled and ready to be filled with the pharmaceutical solution. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The ampoule-syringe according to the invention is made up of a cylindrical element 1 (see FIG. 1), made of glass or other suitable matter, opportunely shaped so as to have a first narrow neck portion 2 in the middle (see FIG. 2) and a second narrow neck portion 3 at one flared or V-shaped end 9. 
     At the side opposite narrow neck 3, cylinder 1 is shaped into an annular edge or rim 4. 
     The portion comprised between the narrow neck portions 2 and 3 is intended to form ampoule 14, and the portion comprised between the narrow neck portion 2 and rim 4 is intended to form syringe 15. 
     The ampoule-syringe is then completed by a needle 5 and a piston 7 provided with a rod 8. Needle 5 is secured to a support 6 that would either snap-fit--e.g. by resilient deformation of the matter which it consists of--or stand firmly blocked in position during the making of the narrow neck portion 2. 
     In the embodiment shown by FIGS. 1 and 2, support 6 of needle 5 consists of a substantially spherical body provided with a truncated cone-like projecting element, to the purpose of preventing said support from being pushed out of its seat by the pressure of the liquid being injected. 
     To the free end of rod 8 there is applied a substantially flat, round finger-rest or disc 10, which can be moved to first suck up the liquid form the ampoule-syringe, and then to exert a pressure on the piston during injection. The diameter of element 10 is slightly greater than the outer diameter of annular edge 4. 
     In between finger-rest 10 and rim 4 of the syringe an annular gasket 11 is inserted; the syringe is closed by a capsule or cover 12. 
     As evident from FIG. 2, the length of piston 7 with its rod 8, is less than the length of the syringe portion of the cylindrical element from the first narrow neck portion 2 to the rim 4, so that when the piston 7 is seated in its deepest position in the syringe, the disc 10 can seal the interior of the syringe by pressing against the gasket 11 and rim 4. 
     A sheath 13 provided with holes, made of flexible material, is arranged around the cylindrical body, in correspondence with the narrow neck portion 2 that separates the ampoule from the real syringe. As it will appear more clearly hereinafter, the perforated sheath 13 is for avoiding any possible fall of the ampoule after the user has broken up the ampoule-syringe making the suction of the ampoule content in the syringe easier and preventing the user from hurting himself with some fragments of glass. 
     The preparation and assembly of the components of the ampoule-syringe according to the invention are carried out by first shaping cylinder 1 so as to make therein narrow neck portions 2 and 3, and to form the V-shaped portion 9 and rim 4. 
     Then needle 5 is positioned by elastically inserting support 6 in the narrow neck portion 2. Alternatively, support 6 is clamped in position during the making of the narrow neck portion 2. 
     At this stage piston 7 is inserted in the syringe, that is hermetically sealed by capsule 12, after gasket 11 has been placed between finger-rest 10 and rim 4. After covering the central part with the perforated sheath 13, the ampoule-syringe is ready to be filled with the pharmaceutical solution. After filling, the V-shaped portion 9 is given the shape of the mouthpiece of a flute, closing thus ampoule 14. 
     The ampoule-syringe is now ready to use. 
     To this end, it is sufficient to remove capsule 12, break up the ampoule-syringe at the narrow neck portion 2 in order to detach the syringe from the ampoule and to suck up the liquid contained therein. 
     The advantages provided by the invention will appear from the above description. More specifically, it should be noted that all the ampoule-syringe components are perfectly protected during transport, as they are held inside the glass shell, while gasket 11 and capsule 12 provide a perfect sealing, and therefore a sterile ambient. 
     Of course the sizes, as well as the employed materials, can very in function of the various requirements of use.