SU1710067A1 - Syringe - Google Patents

Abstract

The invention makes it possible to completely remove the drug liquid and simplify the resetting of the syringe. For this purpose, a floating piston 5 is mounted in cylinder 1, the middle part of which is rigidly connected to the membrane 8, which ensures the return of the piston to its initial position. 5 ill. If ^ > &

Description

The invention relates to medicine, in particular to devices for administering drugs to the human body.

The aim of the invention is to provide the possibility of completely removing the drug liquid and simplifying the resetting of the syringe.

Figure 1 shows the proposed syringe; Fig. 2 shows the same embodiment; fig. 3 shows the syringe after the injection; figure 4 is a syringe with an inclined needle holder; Fig. 5 shows a syringe with a perpendicular needle holder.

The syringe includes a body in the form of a cylinder 1 made of glass or polymeric material (for example, vinyl chloride, polyethylene, capron, etc.), together with the tip 2, needle holder 3, injection needle 4, floating piston 5, cover 6c cannula 7 for gas supply and the membrane 8, rigidly fixed on the housing 1 and its middle part on the middle part of the piston 5 with glue, vulcanization or screw 9. The lid 6 can be mounted on the cylinder with the help of the lock 10 or thread 11, or tight fitting in disposable syringes . The diameter of the barrel 1 of the housing is longer than the length of the barrel, which reduces the bending force per needle.

The needle holder 3 can be positioned obliquely, in particular perpendicularly, to the longitudinal axis of the housing. The end face 12 of the tip 2 protrudes beyond the needle holder 3, which allows the body to rest against the body during the injection. This provides additional support for the syringe due to friction forces, and this reduces needle bending. A cannula 7 for supplying gas is connected through a sleeve 13 and a choke 14c with a pressurized source (not shown).

The syringe works as follows.

To fill the syringe with medicine, the sleeve 13 is supplied through the cannula 7 through the pressurized gas, which presses against the membrane 8, it bends and

displaces the piston 5 down to the tip 2. Then the sleeve 13 communicates with the atmosphere and the membrane 8 due to elastic internal forces tends to return to its original position, while the piston 5 moves to

the cap 6 and the medicine fills the syringe.

When the medication is injected, the thickness of the subcutaneous fat is compressed by squeezing the puncture site with two fingers and divided into two, thereby determining the length of the needle, which is inserted all the way into the end of the 12 syringe. Then, the increased pressure of the gas is again supplied to the sleeve 13 and the diaphragm 8 bends and displaces the piston 5, with which the medicine is squeezed out. The sleeve 13 is equipped with a throttle 14, which allows you to adjust the speed of movement of the piston 5.

Such a syringe design allows the use of existing gas cylinders in hospitals (carbon dioxide or oxygen

or others.).

Claims (2)

Claim 1. A syringe comprising a housing in which a membrane is fixed and one end of which is provided with a needle holder for needle and the other end is equipped with a cannula cover for the supply of gas, characterized in that, in order to ensure the possibility of complete removal of the medicinal fluid and to simplify bringing The syringe is reset to its initial state. A floating piston is inserted into the body between the membrane and the end of the body with the needle holder, the middle part of which is rigidly connected to the membrane. 2. A syringe according to claim 1, of which the needle holder is inclined to the longitudinal axis of the body.