RU2169584C1 - Injector - Google Patents

Abstract

FIELD: medical equipment, in particular, devices for individual injections of medicinal preparations. SUBSTANCE: the device has a body of the working module with a protective cap, fixed cup with an adjustable stop, movable holder of the reservoir with medicine (penfilo- holder), reservoir with medicine (penfil), needle holder with a needle and a protective cap, penfiloholder return spring, stop spring, body, cup of the injector automatic control device, plunger, working spring and dosing device spring. EFFECT: automated process of puncture and injection of medicinal preparation. 1 dwg

Description

 The invention relates to medical equipment, in particular to devices for individual injection of drugs.

 Known injector (P. N 2007193 C1, A 61 M 5/178), consisting of a housing, a removable capsule with a needle and a plug of the pusher with a spring-loaded inner rod.

 However, such a device, due to the lack of a dosing system, does not have the ability to provide multiple doses of a drug in small doses, for example, patients with diabetes mellitus.

 The closest technical solution is an injector for semi-automatic injection of insulin (P. 2121372 C1, A 61 M 5/20), consisting of two modules connected together, an ampoule with insulin inserted into a transparent container, a start button, a digital indicator, a metering button, needles with a protective cap screwed onto the module-tank, and an adjustable stop for adjusting the required injection depth.

 A disadvantage of the known device is that it does not automatically enter the needle and drug into the patient’s body.

 The objective of the invention is to automate the process of introducing a needle and a drug into the patient's body.

 The problem is solved due to the fact that the foam holder is movable relative to the housing, and the injector automatic control device consists of a housing, a cup, a plunger, a working spring and a metering spring, the inner surface of the stationary cup of the working module and the outer surface of the foam holder being made in a stepped form, and the mutual the location of the steps and their fixing elements, for example collars, provides a limitation of the axial movement of the movable foam holder in a predetermined position and installation of a return spring to move the foam holder to the initial position after injection, and the axial movement of the foam holder "A" under the action of the movable cup and the working spring of the automatic control device of the injector is a constant value and corresponds to the value of the axial movement of the plunger before contacting the penfile, while subsequent movement of the plunger relative to the stopped glass of the device under the action of the working spring depends on the required volume of injection and is determined by adjusting the dosing injector system.

 The invention is illustrated in the drawing, which shows a longitudinal section of a module tank.

 The device consists of a collapsible housing 1, a working module with a removable external safety cap 2, a fixed cup 3 with an adjustable spring stop 4, a movable insulin reservoir module with a graduated window (penfilo holder) 5, a reservoir with medicine (penfil) 6, a needle holder 7 with interchangeable double-edged needle 8 and a protective cap 9, the return spring of the foam holder 10, the spring of the stop 11, the housing 12, the cup 13 of the automatic control device of the injector, the plunger 14, the working spring 15 with digital calibration doses and metering buttons (not shown in the drawing), axially spring-loaded by means of the metering spring 10 and fixed from spontaneous activation by means of a safety device (not shown in the drawing).

 The device operates as follows.

 Penfil 6 is inserted into the movable holder 5 and fixed with a needle holder 7 and a needle 8. Immediately before injection, the required depth of injection is set by changing the position of the stop 4 relative to the housing 1. To perform the injection, remove the protective cap 9 of the needle holder 7, install the injector in the desired location on the patient’s body and turn on the injector by pressing the start button. In this case, the glass 13, moving in the housing 12 under the action of the working spring of the automatic control device of the injector 15, moves the movable reservoir with the drug 5 by the value "A", compressing the return spring 10, making an injection. When moving the glass 13 with the foam holder 5, the pusher of the metering system 14 additionally moves relative to the glass and the foam holder in contact with the penfil 6 plunger at the moment the contact surfaces of the glass 3 and the foam holder 5 come in contact and the latter stops. When the locking elements - "collars" "a" of the movable foam holder 5 and "b" of the fixed glass 3 of the working module are in contact, the movement of the needle 8 stops. The plunger 14, continuing its movement under the action of the spring of the dispenser 16 by a predetermined amount, injects a pre-set dose of the drug.

 Thus, the task has been achieved through the use of a device in the injector design that provides automated injection and drug injection.

Claims (1)

 An injector comprising a collapsible case, including a working module with a removable external safety cap, a fixed cup with an adjustable spring-loaded stop, an insulin module-tank with a graduated window (penfiloderzhatel), a removable medicine reservoir (penfil) mounted on a penfilojet, needle holder with interchangeable double-edged a needle and a protective cap, a digital dose indicator and a metering button, axially spring-loaded and fixed from spontaneous switching on with a fuse, which means that the foam holder is movable relative to the housing, and the injector automatic control device consists of a housing, a cup, a plunger, a working spring and a dispenser spring, the inner surface of the fixed cup of the working module and the outer surface of the pen holder being made in a stepped form, and the relative position of the steps and their fixing elements, for example, collars, provides a limitation of the axial movement of the movable foam holder in a given position and the installation of return dinners for moving the foam holder to the initial position after the injection, and the axial movement of the foam holder "A" under the action of the movable cup and the working spring of the automatic control device of the injector is constant and corresponds to the value of the axial movement of the plunger until it contacts the penfil, while the size of the subsequent movement of the plunger relative to the stopped glass of the device under the action of the working spring of the dispenser depends on the required volume of injection and is determined by us three injector dosing system.