DE1058222B - Injection syringe - Google Patents

Description

GERMAN

PATENT OFFICE

kl. 30 k 3/02

INTERNAT. KL. A 61 St.

L 17449 VIIId / 30 k

REGISTRATION DATE: DECEMBER 16, 1953

NOTICE OER REGISTRATION DND ISSUE OF EDITORIAL: MAY 27, 1959

The invention relates to an injection syringe with a housing containing a pump, the one with the pump cylinder communicating small outlet opening for the liquid medicament. at Injection syringes of this type are intended for the pump located in the housing to deliver the medicament to be injected subcutaneously Press with considerable pressure through the small outlet opening so that the drug hits the skin of the patient is pierced and penetrates the underlying tissue. That way, the usage the otherwise usual hollow needle is superfluous for the injection.

In the case of the known injection syringes of the type described, which work without a hollow needle, or outlet valves are required to keep the pump in the correct liquid drug to be injected Way and can deliver the drug with the necessary pressure through the small outlet opening exit. The invention is based on the object of improving and providing such an injection syringe simplify the fact that valves are no longer required.

Two embodiments of a hypodermic syringe working without a hollow needle have become known, where a pump operating at a relatively high frequency to deliver the liquid drug and is provided to generate the necessary high pressure. In the pump cylinder that communicates with the small outlet opening for the liquid medicament to be injected, becomes a The piston moves back and forth at a correspondingly high frequency, which during this back and forth movement causes the liquid medicament alternately sucked from a storage container into the pump cylinder and under pressure pushes out again through the small outlet opening.

In the first embodiment of the previously known injection syringe, the pump is connected to that of one Electric motor set in rapid reciprocating motion, stationary and separate from the actual piston Injection syringe formed. The injection syringe is connected to the cylinder of the pump by a longer flexible line connected. There is also an inlet port in the jacket of the pump cylinder provided for the liquid medicament, which is in communication with the storage container. In a special valve is not provided for this inlet opening.

In contrast, there is a spring-loaded outlet valve in the actual injection syringe, which is the small one Normally keeps the outlet opening for the liquid medicament closed and only releases when the pressure of the liquid medication inside the ■ injection syringe as the Piston in the pump cylinder exceeds a certain value that can be set at the outlet valve.

Injection syringe

Applicant:

Laboratoire d'Hygiene Scientifique Hygiscient,

Paris -

Representative: Dipl.-Ing. R. Müller-Börner, patent attorney, Berlin-Dahlem, Podbielskiallee 68

Without this outlet valve, the injection syringe cannot work or cannot work properly. On the return path of the plunger, so much air would be sucked into the connection line to the pump cylinder through the small outlet opening of the injection syringe that the plunger would not be able to suck in any or not enough medication after the opening of the inlet opening for the medication from the storage container. because there is insufficient negative pressure in the cylinder space. This known embodiment of the injection syringe can only work if a certain negative pressure arises in the cylinder space on the return path of the piston, that is, on its suction stroke. For this, however, the outlet valve in the injection syringe, which ^{closes the small outlet opening during the suction stroke of the piston ver J} , is absolutely necessary.

In the second embodiment of the injection syringe described above, the one to be injected liquid drug-conveying pump arranged directly in the housing of the injection syringe. Of the The piston of this pump is hydraulic due to the pressure fluctuations generated by a second pump moved back and forth.

In this embodiment, an outlet valve at the small outlet opening is not necessary and not provided because the inlet opening in the cylinder wall of the pump comes from the

909 528/20

advisable balls for the liquid drug with a Inlet valve is provided which prevents the liquid medicament from flowing back into the reservoir during the pressure stroke of the piston prevented. Without this inlet valve, the drug would flow back from the pump cylinder into the reservoir because the inlet opening is larger Must have cross-section than the outlet opening of the injection syringe if there is no Exhaust valve is present.

As a result of the invention, it has now been possible for the first time to have an injection syringe with a pump that holds a pump Housing which has a small outlet opening in communication with the pump cylinder for the liquid The drug has to be developed without any special parts. According to the invention, this is achieved in that the l'umpciizylindcr consists of two different chambers Diameter consists, such that the larger diameter chamber the pump piston mil surrounds a gap and has an inlet opening for the 1-lcilniittcl, while the with the smaller diameter chamber connected to the outlet opening surrounds the piston without clearance, and that means are arranged in the housing which cause a reciprocating movement of the piston, the piston being arranged to move through the chamber during its 11 reciprocating motion larger diameter in the chamber of smaller diameter alternately enters and exits.

The invention therefore consists in the particular Design of the pump cylinder and the division of the inner space of the pump cylinder into two axially one behind the other chambers of different diameters. One is attached to the outlet opening in the Injection syringe adjoining chamber of smaller diameter surrounds the cylindrical plunger of the Pump without significant play, so that the piston can move axially in this chamber without hindrance can, but no significant amounts of liquid pass between the piston and the chamber wall can.

This chamber of smaller diameter is followed by a larger diameter chamber, which the Has inlet opening for the drug. The diameter of this larger chamber is such that Substantial liquids may be located between the piston and the chamber wall. The piston is so arranged and moved that it moves the chamber with the smaller diameter alternately completely or almost completely and completely leaves it again.

As soon as the piston leaves the chamber with the smaller diameter and As the piston end moves in the chamber with the larger diameter, the drug is transported through the Inlet port sucked from the reservoir, as there is the space that the piston in the chamber with occupies the larger diameter, constantly decreased. During the forward movement, i.e. the pressure stroke of the piston, the liquid can flow from the chamber with the larger diameter into the Chamber with the smaller diameter flow until the end of the piston into the chamber with the smaller diameter begins to occur. From that moment on, the piston pushes the one in the chamber liquid with the smaller diameter through the small outlet opening into the skin of the Patient.

Iu further development of the injection syringe according to the invention it is proposed that an electromagnetic device be installed directly in the housing of the injection syringe To arrange oscillating device that causes the reciprocating movement of the piston. With such a electromagnetic oscillating device, frequency and stroke height of the piston can be the easiest set to a desired or specified value. _

Further details of the design and mode of operation c the injection syringe according to the invention go

ίο from the description of the drawing below emerged. In the drawing are an embodiment and three modifications of the electromagnetic Drive of the pump shown. It shows

Fig. 1 is an axial "longitudinal section of an elcktromagnetisch powered injection syringe according to the invention and

2, 3 and 4 schematically three other possible embodiments of the electromagnetic drive. The injection syringe shown in Fig. 1 consists from a housing 1, in which the items are mounted, and an injection head 2, which is in the Body 1 is screwed in and on which a nipple 3 is seated. The nipple 3 is by means of a flexible pipe or a tube 4 connected to an external dosing vessel, such as the syringe 5.

The nipple 3 is by means of a line 6 with an axial cylindrical chamber 7 in connection, the in turn with a likewise cylindrical and axially arranged supply chamber 8 in connection which, however, has a smaller diameter than

- Chamber 7 and its outer end to a very small sized opening 9 leads through the injection the fluid takes place in the patient's tissues. To make the disassembly easier and the To make different chambers and lines accessible, the head 2 consists of three screwed into one another Parts manufactured. The outlet opening 9 is in a conical shape to be placed on the patient's skin Part 10 attached.

11 with a piston member is referred to, which sucks the liquid from the vessel 5 when it is moved from left to right (referring to Fig. 1), and this liquid into the chamber 8 and from there pushes through the precisely dimensioned outlet opening 9 when it is in the opposite direction emotional. The piston 11 is guided in an axial bore provided in the head 2 and has a head 37, which is constantly pressed against a rod 39 by a spring 38. An armature 12 of an electromagnet 28 is fastened to the threaded part 14 of this rod 39 by means of a nut 13. Further two washers 15 and 16 are fixed on the rod 39: they are on threaded parts 17 and 18 of the rod 39 screwed. These threads have the same pitch in opposite directions. The two disks 15 and 16 are also guided on the rods 19. Two opposite each other Springs 20 and 21 press with their outer ends against the discs 15 and 16 and with their inner ends against the corresponding surfaces of an annular intermediate flange 22. The annular flange 22 is held on the one hand by a smooth rod 23 on which it can glciten freely, and on the other hand by a threaded rod 24 which is screwed into an internally threaded hole of the annular flange 22. The threaded one Rod 24 can be adjusted from the outside by means of its countersunk head 25 and in each setting by means of a clamping screw 26 are secured. The rod 39 can be very similar from the outside by means of its

slotted end 27 can be set. The setting the threaded rod 24 allows the neutral position of the annular flange to be changed and thus the air gap between the armature 12 and the electromagnetic core 28. The adjustment the left-hand and right-hand threaded parts 17 and 18 on the rod 39 allow a change the distance between the two disks 15-16 against the intermediate flange 22 and thus the tension of compression springs 20-21.

In the example shown in FIG. 1, the electromagnet 28, which consists of the armature 12, the rod 39 and the elastic system 20-21 actuates existing vibrating device with a cylindrical core with Ε-shape in axial section and equipped with an armature 12, which is in a parallel translational Movement swings back and forth.

In the modified embodiment according to FIG. 2, the electromagnet 28a is provided with an L-shaped armature 12a provided, which is pivotable at 29, and the shorter leg of this anchor is constantly through the elastic device pressed into its central position, wherein the elastic device consists of two opposing Compression springs 38 a and 21 a is made. Adjusting the tension of these two springs and thus the air gap is ensured in this example by a knurled nut 30, which is rigid with a threaded rod 39a attached to magnetic core 28a cooperates. The head 37 of the piston 11 of the pump, which is installed in the injection head 2, its connection nipple 3 in this Figure is shown schematically at 3, is constantly frictional against by the action of the spring 38 pressed the short leg of the armature 12a.

. Tn the modified embodiment of Figure 3, the electromagnet 28 has a U-shaped core b, and its armature 12 b is freely suspended between two springs 38 and 21 b; the air gap b in the manner adjustable as in the embodiment according to Fig. 2, by means of a knurled nut 30 b cooperate with the threaded end of the rigidly secured to the magnetic core 28 and rod 39. In this embodiment, the anchor lays down 12 b. when the electromagnet 28 b is excited, first with its lower part against the core of the electromagnet and then oscillates about its support point.

Finally, in the embodiment according to FIG. 4, the electromagnet has an E-shaped core, and the armature is suspended between the springs 21c and 38c as in FIG Action of the electromagnet, and not, as in Fig. 3, takes place by the return spring. The adjustment of the air gap is carried out in the same way as in the previous example by means of a knurled nut 30c which cooperates with a threaded rod 39c which is rigidly fastened to the magnetic core 28c.

In the embodiment of FIG. 1, the subcutaneous Injector constructed in the form of a pistol, the handle 33 of which contains a switch 34, which by a trigger-like part 35 is actuated. The electromagnet 28 is through the switch 34 of the Pins 36, onto which the connector sleeve can be attached, energized.

It is particularly noteworthy that the pump device built into the injection head 2 does not have a closure member needs, neither for suction nor for delivery. If the. tapered The nozzle is placed on the skin, it closes it the precisely dimensioned opening 9 and thus serves as an outlet valve or flap. In addition, occurs during of the delivery stroke the outer end of the piston 11 into the pressure chamber 8, and from that moment on the volume of the piston contained in the storage chamber 7 no longer changes, so that the liquid does not endeavor to be pushed back through the line 6 to the vessel 5. An outlet - valve can consequently also be dispensed with.

In addition, suction is effective even when the injector is not on the patient's skin is set, due to the small diameter of the opening 9, which is a sufficient Pressure loss caused to act as a suction valve.

Of course, the invention is not limited to the illustrated and / or described embodiments or design features; she

Many changes, familiar to those skilled in the art, can undergo depending on the intended application. In particular the shape and number of electromagnets that operate the pump, the construction of the Oscillating system, which with this or the electromagnet cooperates, the parts for the supply of the liquid, the adjustment and control parts can change within wide limits.

The device described is operated with alternating current. Of course, if desired, the usual means for operation with direct current are provided.

The cylinder could possibly be connected to the storage chamber through provided in its wall Openings are connected. In this case, the piston would have the openings in a suitable position Strokes close or open to get the liquid into the cylinder at the right moment permit.

Claims (4)

Patent claims: 1. Injection syringe with a housing containing a pump, one with the pump cylinder communicating small outlet opening for the liquid medicament, thereby characterized in that the pump cylinder consists of two chambers of different diameters, such that the larger diameter chamber (7) the pump piston (11) with a gap surrounds and has an inlet opening for the therapeutic agent, while that with the outlet opening (9) connected chamber of smaller diameter (8) surrounds the piston without clearance, and that in the housing (1) means are arranged which allow a reciprocating movement of the piston (11) cause the piston (11) is arranged such that it during its back and forth Movement through the larger diameter chamber into the smaller diameter chamber alternately entering and exiting. 2. Injection syringe according to claim 1, characterized in that the reciprocating Movement of the piston (11) causing means from an electromagnetic built into the housing (1) Vibrating device (12, 15, 16, 20, 21) exist. 3. Injection syringe according to claim 2, characterized by a rod (24) for setting of the air gap between the electromagnetic 7 8 Contains oscillating device and the electromagnet (15 and 16) on which the piston is directly ten (28). bar is attached. 4. Injection syringe according to claim 2, characterized characterized in that the vibrating device is a Considered publications: resilient and adjustable oscillating link 5 British patent specification No. 693 505. 1 sheet of drawings © 909 528/20 5. 59