SU982697A1 - Hydraulic needle free injector - Google Patents

Description

(54) HYDRAULIC NO-PEED INJECTOR

one

The invention relates to medical technology, in particular to devices for the introduction of medicinal substances, in particular to needle-type injectors of the hydraulic type.

A hydraulic needleless injector is known, comprising a housing inside which a working cylinder is placed, a channel for supplying and discharging working fluid interconnected by a check valve, a charging device and a power spring 1.

The disadvantage of this injector is low reliability of operation due to the presence of a relatively large number of valves, excessive design complexity and its cumbersome due to the presence of an additional hydraulic cylinder with pressure gauge.

The closest to the proposed is a hydraulic needleless injector. containing a spring-loaded piston placed in the housing, a container for the drug, a handle with a channel for the working fluid and a non-return valve placed inside it, a charging device including a casing with a piston with a spring-loaded plunger placed inside it, a piston with p (KOY li pedal gear wheel interacting with the specified rail | 2 |.

A disadvantage of the known injector is the insufficient amount of injection volume of the injected vine. Drug of the drug due to the fact that it is charged from one roll of the pedal.

The purpose of the invention is to expand the range of the volume of the dosage of the drug used at one time.

Claims (2)

The goal is achieved by the fact that in a hydraulic needleless injector containing a spring-loaded piston located in the housing, a container for medication, a handle with a channel for the working fluid and a reverse valve inside it, a charging device including a casing with a spring-loaded plunger placed inside it, a piston with the rail and the pedal with the gear wheel interacting with the rail, the charging device contains two interacting gear coupling halves, one of which is integral with the gear wheel, and the other at between posleanim and pedal, the pedal at the end on the casing protrusions semiring charger are mounted, have bevels interacting que. FIG. 1 shows a needleless injector with a remote element, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. one; in fig. 4 - remote element of the charging device. The needleless injector contains a medicament tank 1 installed on the housing 2, piston 3, return spring 4, working cylinder 5, channel 6 for supplying and discharging working fluid, check valve 7 connected to the pusher 8, trigger 9, cavity 10 of the reverse valve 7, channel 11 communicating through valve 12 a container 1 with a cavity 13 of variable volume, valve 14 closing the cavity 13 from the nozzle 15, and the pressing spring 16. The injector charging device has a power spring 17 installed in the housing 18, cylinder 19, piston with rail 20, interaction guide the plunger 21, a return spring 22, gear wheel 23 with the toothed coupling half 24 mounted on the shaft 25 and in meshing engagement with the rack piston 20, the return spring 26, polu.muftu gear 27 mounted on. pedals 28, mounted on axis 25, gland spring 29, bevel clutch 30 bends, half-ring height 31 of pedal 28, half-ring protrusion 32 of case 18, return spring 33 cooperating with pedal 28. Channel 6 connects the subvalvate non-return valve 7 with the working cylinder 5, filled with the working fluid, and the over-valve cavity — with a supply and discharge line 34 and with a charging device cavity. The injector works as follows. In the initial position, the pressure of the working fluid in the cavity of the charging device and the working cylinder 5 is equal to atmospheric and the check valve 7 is closed. The piston rod 20 is in the extreme right position and rests with its end on the housing 18. The injector piston 3 is in the extreme left position, and cavity 13 has a minimum constant volume, with valve 12 open and valve 14 under the action of spring 16 closed. When force is applied to the pedal 28 and rotated on the axis 25, the protrusions 31 and 32 of the firing clutch cooperate along their bevels 30, as a result of which the pedal 28 is pressed by the lugs of the coupling along axis 25 and moves to the coupling half 27 of the clutch, compressing the spring 29. The coupling half 27, compress the spring 26, moves toward the half coupling 24, which is the gear wheel 23 engaged with the piston rack 20. Due to the corresponding inclination of the teeth of the coupling half 24 and 27, they become rigidly coupled, as a result of which the gear wheel 23 rotates on the axis 25 and movesPorschen with the rail 20 to the left, compressing the power spring 17 by some value. At the same time, the spring 22 moves the plunger 21 to the left, and a pressure below the atmospheric pressure is created in the sub-plunger space of the cylinder 19 of the line 34 and the sub-valve cavity 10. Under the action of the pressure drop across the valve 7, it opens and the working fluid from the working cylinder 5 of the injector flows through channel 6 through the cavity 10, valve 7 and line 34 to the above-plunger space of the cylinder 19. Under the action of the return spring 4, the piston 3 moves to the right by some constant value and the volume of cavity 13 is increased by some constant value, and as a result of the discharge created in it, some constant value of the drug flows into the cavity 13 through valve 12 and channel 11 from the container STI 1. After pressure equalization in the pump chamber 19 of the cylinder and the working cylinder injector 5, the valve 7 is closed under the action of its spring. When the force is removed from the pedal 28, the force spring 17 acts on the piston with the rack 20, moving it all the way to the end of the casing 18, and it simultaneously interacts with the plunger 21, moving it to the right and thereby increasing the pressure of the atmosphere in the overplunger space of the cylinder 19, the main lines 34 and the sub-valve cavity 10. At the same time, the spring 33 returns the pedal 28 and the gear half coupling 27 to the initial position. In this case, when rotating the toothed coupling half 27 with the pedal 28 on the axis 25, the teeth of the coupling half 24 and 27 of the clutch under the force of the spring 29 slide, until the lugs 31 and 32 of the firing clutch interact along the bevels 30. After the lugs 31 and 32 interact with the bevels 30 under the action the springs 26 disengage the couplings 24 and 27. Thus, one pedal roll is performed, which provides for the injection of a limited dose of the drug. To inject a larger dose of the drug, an additional required amount of strokes of the pedal 28 is produced, the processes accompanying them occurring in the cycle described above. For each subsequent roll of the pedal 28, the volume of the cavity 13 increases by an amount equal to the product of the initial increase of its volume by the number of strokes. When you press the trigger 9, the pusher 8 moves to the right, while opening the check valve 7. The working fluid from under the plunger space of the cylinder 19 under pressure of the spring 17 moves in m, main lines 34 into the valve cavity 7. and the working cylinder 5 moves the piston 3 to the left until it stops. Under the action of increasing pressure in the cavity 13, the valve 12 is closed, and the valve 14 is opened and the drug flows through the nozzle 15. After the drug expires, the valve 14 is closed by the action of the spring 16, and the valve 12 opens and the device returns to its original position. The proposed injector allows the dose range to be expanded from one to several ml due to discrete doses, the value of which is set by one roll of the pedal 28 without increasing the size of the charger. Claims of invention The hydraulic needleless injector containing a spring-loaded piston placed in the housing, a container for the medicine, a handle with a channel for the working fluid and a non-return valve placed inside it, a charging device including a housing with a spring-loaded plunger placed inside it, a rail with the rail and a pedal a gear wheel interacting with the rail, characterized in that, in order to expand the range of the volume of the dose to be injected, the charging device comprises two interacting gears coupling halves, one of which is integral with the gear wheel and the other is disposed between the latter and the pedal, the pedal and at the end on the casing of the charger mounted semiring protrusions having cooperating bevels. Sources of information taken into account in the examination 1. US Patent No. 3515130, cl. 128-173, 1968. 2. USSR author's certificate number 727200, cl. A 61 M 5/30, 1978. 2b didb 28