RU2104042C1 - Medical suction apparatus - Google Patents

Abstract

FIELD: medical equipment, in particular, ophthalmic surgery. SUBSTANCE: suction apparatus has syringe formed as piston with stem positioned in cylindrical reservoir with needle receiving union in its closed end and plug arranged at opposite end and provided with central piston receiving opening. Stem end extending from plug has additional piston positioned in cylindrical sleeve, which is connected in sealing relation to plug. Plug is provided with passage for supplying compressed gas or liquid from outer pressure source into sleeve cavity to provide movement of additional piston. EFFECT: increased efficiency and enhanced reliability in operation. 3 cl, 2 dwg

Description

 The invention relates to medical equipment, specifically to devices for aspirating liquids, especially highly viscous.

 Known medical suction device containing a syringe in the form of a piston with a rod, placed in a cylindrical tank with a nozzle for the needle on the closed end, and installed on the opposite end of the tube with a Central hole for the said rod [1].

 The efficiency and reliability of the known device is significantly reduced by the possibility of a breakthrough of the suction medium in a vacuum chamber. The known device does not allow to suck a highly viscous liquid medium from the operated cavity.

 The present invention solves the complex task of creating a highly efficient and reliable medical suction device, which at the same time would be simple, cheap and easy to handle. The expected technical result is to increase the efficiency and reliability of the medical suction device.

 The technical problem is solved due to the fact that in a medical suction device containing a syringe in the form of a piston with a rod, placed in a cylindrical tank with a nozzle for a needle on a closed end, and a tube installed from the opposite end with a central hole for said rod, according to the invention, from the cork, the end of the rod is equipped with an additional piston placed in a cylindrical glass, which is hermetically connected to the cork, and therein a channel for supplying compressed gas or dkosti from an external pressure source in the nozzle cavity to enable movement of the auxiliary piston. Between the end of the glass and the cork, a sealing ring gasket can also be placed, designed to deform when the clamping ring enclosing the glass is screwed with a flange provided on the cork. The syringe reservoir and the beaker may be made of resiliently deformable plastic.

 In FIG. 1 shows a General view of the proposed device in prepared condition; in FIG. 2 - the same after the operation is completed.

 The proposed medical device contains a syringe in the form of a piston 1 with a rod 2, placed in a cylindrical tank 3. At its closed end 3a there is a nozzle 3b for a needle, and a plug 4 with a central hole for the said rod 2 is inserted into the tank from the opposite end. its movement in the cork is achieved by means of a rubber ring 5 held by a threaded sleeve 6 screwed into the cork. The end of the rod 2 emerging from the cork is provided with an additional piston 7 located in a cylindrical cup 8 (8 'in the other constructive variant), which is tightly pressed to one of the ends of the cork through the sealing ring gasket 9. Its proper deformation is achieved by screwing the collar (shank) 4a of the cork with the ring part (clamping ring) 10 surrounding the glass (10'- in another design variant) , which acts on the glass in the axial direction due to the clamping collar 10a (8'a - in another structural embodiment) provided on the ring (on the glass, respectively).

 Mentioned additional piston 7 is designed to move the piston 1, which is achieved towards the needle fitting by pressing the piston 7 from the side of the outer free (open) end of the cup, and in the opposite direction by supplying compressed gas from an external source to the cup cavity, under the piston 7. C for this purpose, in channel 4, a channel 4b is provided, threaded for installing a gas pipeline. Returning to the pistons 1 and 7, we indicate that in the preferred embodiment they are the same elastic (e.g. rubber) caps with sealing belts 1a and 1b tightly worn on the centering part 11, into the body of which the threaded end of the shaft 2 is screwed, fixed with a nut 12.

The described device operates as follows. Before performing a medical operation, the device is set to the position shown in FIG. 1, namely by pressing on the element 7 from the side of the free end of the glass 8 (8 '), the rod 2 is pulled inward until the piston 1 contacts the cover 3a; then channel 4b is connected (via a tube) to a source of compressed gas, adjusting it to the required pressure (of the order of 1.5 - 2.0 kgf / cm ² gage, or 150 - 200 kPa gage), and a needle is inserted (not shown in Fig.) into the operation zone (into the cavity with the medium to be removed). Then, the gas supply to the device is opened, and it enters through the channel 4b into the space under the piston 7, moving it together with the rod 2 and the piston 1 until it stops in the plug 4; the piston 7 occupies a position at the end of the free end of the cylinder 8 (8 ') - figure 2. In this case, space A is filled with gas with a pressure above atmospheric pressure, and a vacuum is created in space B, which leads to the suction of the contents from the operated cavity into space B.

 After the medical operation is completed, the needle is removed from the operation area and the device is disconnected from the source of compressed gas. In this case, the overpressure in cavity A is vented through channel 4b. Then the reservoir 3 is disconnected from the plug 4, freed from its contents and sent to the reservoir for sterilization, or (in the preferred embodiment) the reservoir is discarded with the expectation of using a new one.

 The described specific device does not exhaust all of its possible structural options within the essence of the invention. However, this particular device seems to be the simplest and most convenient to use in constructive design of the hermetic connection of the glass 8 (8 ') with the stopper 4. It is preferable to make the syringe reservoir 3 from elastically deformable plastic, which makes it possible to use the reservoir of a standard disposable medical syringe by cutting it off from the open end to the desired size. In a similar way, a beaker 8 (8 ') can be made from another disposable syringe by cutting it off on one or both sides. In this case, identical disposable syringes can be used for the manufacture of parts 3 and 8 (8 '), which makes it possible to unify the pistons 1 and 7. The ability to easily manufacture the body parts of the proposed device from the reservoir of a standard disposable syringe greatly simplifies and reduces the cost of production of the proposed device. In the case of using parts 3 and 8 (8 ') of plastic, its elasticity also provides high build quality, the device is easily disassembled and reassembled, it is very convenient to use. Note also that shown in FIG. 1 and 2, the design of the pistons provides high tightness of the device, without requiring much effort to move the rod. However, another design of the pistons is also possible. A similar remark applies to the design of plug 4: for example, a fitting may be provided for connecting a compressed gas tube (instead of the internal threaded channel shown in Figs. 1 and 2), etc.

 As follows from the foregoing, the proposed device solves the technical problem and provides the expected technical result. The device can be connected to a compressed gas system in the clinic, as well as to any other source of pressure: for example, a portable cylinder, a plumbing system. The compressed gas supply system for operating the device preferably includes an adjustable pressure reducer and a flow valve equipped with a foot control (pedal). In this case, the hands of the doctor-operator are completely free to manipulate in the area of the operation, and the operation itself does not require physical effort from the doctor and is completely under his control.

 Currently, a microsurgical operation to suck out highly viscous silicone fluid from the eye is performed in Russia with a conventional syringe, which requires a lot of muscular effort from an ophthalmologist; Under these conditions, extraordinary abilities are required from the operator, and he quickly gets tired. So eye surgery is the primary field of application of our invention.

Claims (3)

 1. A medical suction device containing a syringe in the form of a piston with a rod, placed in a cylindrical tank with a nozzle for the needle on the closed end, and a stopper installed from the opposite end with a central hole for the said rod, characterized in that the stem end coming out of the stopper is provided with an additional a piston placed in a cylindrical glass, which is hermetically connected to the tube, and it has a channel for supplying compressed gas or liquid from an external pressure source into the glass cavity for I provide the ability to move the additional piston.  2. The device according to claim 1, characterized in that a sealing ring gasket is placed between the end of the glass and the stopper, designed to deform when the clamping ring covering the glass is screwed up with a shoulder provided on the stopper.  3. The device according to paragraphs. 1 and 2, characterized in that the syringe reservoir and the glass are made of resiliently plastic.

Images