FR2793531A1 - Aspirator for medical waste in surgery has injector operating from compressed gas supply - Google Patents

Abstract

The aspirator has a body (12) with an axial space (16) having at one end a connection (18) to a pressure source. An injector mixer (10) is mounted to slide in this space which contains a gas feed channel (36) with openings and an exit channel (44). A connector (48) entering from the side and connected to the assembly acts as a suction feed. A spring (52), between the assembly and the body keeps the openings (38) blanked off by the body.

Description

The present invention relates to a device for suction of a fluid using a motor gas.

The invention relates to a device of the type in which a motor gas is used which passes through a nozzle or venturi so as to create a low-pressure zone, this low-pressure zone being used to suck up the fluid, most often a gas, of which it is desired to control or cause the circulation.

There are several types of motor gas aspirators used in the medical field for aspirating organic waste, for example in treatment rooms or operating rooms or in industry for suction cup applications for example. These devices generally operate according to the principle of venturi as explained above. A motor gas is passed through an injector constituted by a venturi associated with a diffuser mixer. The interspace between these two components is a vacuum zone whose pressure is a function of the pressure of the engine gas and the choice of the coupling dimensions of the two elements defining the vacuum chamber.

The present invention relates essentially but not exclusively to devices of this type intended primarily to be connected to medical gas networks (for example for the distribution of medical oxygen in hospitals) or to be connected to regulators for gas cylinders under high pressure.

Generally, the medical suction devices are equipped with an opening and closing valve which also serves to adjust the delivered gas flow rate. This adjustment is generally difficult and requires practitioners a time of implementation sometimes too long to adjust the best possible suction which, in some medical procedures, must be performed very quickly.

An object of the present invention is to provide a motor gas suction device which comprises in particular means for opening and closing and flow control which maneuver is very easy and very fast.

To achieve this object, according to the invention, the device for extracting a fluid using a motor gas comprises a body provided with an axial recess having a first end of connection to a source of engine gas and a second open end, an injector-mixer assembly slidably mounted in said axial recess of the body further comprising a motor gas supply channel having at least one opening opening into a first end of said assembly close to the first end of the body, a outlet channel for mixing fluids protruding from the second end of said body and a fluid supply connection secured to said assembly and arranged radially relative to the axis of said assembly and freely passing through said body, return means interposed between said assembly and said body tending to bring said assembly back to a first position where the opening of the cana 1 supply is closed by said body, and control wheel means rotatably mounted around said body, said flywheel means comprising mechanical means cooperating with said tip to transform the rotational movement of the flywheel means in a translation movement said injector-mixer assembly for bringing said assembly into a second position by compressing said return means, in which position the opening of the shutter channel is no longer closed by said body.

It is understood that, thanks to the characteristics of the invention, the suction device has a very compact shape since its elements are arranged inside the control wheel opening and closing or adjusting the suction device and that, moreover, this control means is very easily manoeuvrable.

According to a preferred embodiment of the invention, the control wheel means extend beyond the second ends of said body and said injector-mixer assembly to form an outlet chamber of said fluid, into which the outlet channel of said fluid opens. injector-mixer assembly, said chamber being closed by a shutter secured to said flywheel means and provided with orifices for allowing said mixture of fluids to exit.

This arrangement which provides for the exit of the mixture of fluids through openings formed between the steering wheel and the shutter plate of the steering wheel associated with the presence of a relatively large chamber, allows to considerably reduce the noise made by the device. suction when exiting the fluid mixture.

According to another preferred feature, said feed nozzle is rigid and rigidly connected to said injector-mixer assembly, the mechanical means for transforming the movement comprise a slot formed in the flywheel means traversed by said nozzle, said slot having the shape of a helix portion of which the axis is that of said body, whereby the rotation of the flywheel means causes the displacement in translation of said tip and therefore said injector-mixer assembly from its first to its second position. It will be understood that, according to this preferred embodiment, since the slot in which the fluid supply nozzle is engaged is inclined with respect to the longitudinal axis of the device, the rotation of the flywheel causes an axial displacement of this device. nozzle and, consequently, an overall displacement of the assembly constituted by the injector and the mixer, this displacement itself making it possible to control the input flow rate of the driving fluid in the injector and thus to adjust the output flow rate fluid.

Another object of the invention is to provide different uses of the device defined above.

Other features and advantages of the invention will appear better on reading the following description of a preferred embodiment of the invention given by way of non-limiting example. The description refers to the appended figures, in which - Figure 1 is an external view of the suction device of a gas engine fluid; and - Figure 2 is a vertical sectional view of the device shown in Figure 1.

The suction device consists essentially of three parts moving relative to each other. These three parts comprise an injector-mixer assembly 10, a body 12 and an external control wheel 14, these three elements preferably having cylindrical general shapes of revolution about the longitudinal common axis XX. If we first consider the body 12 of the device, it consists of a part having substantially a symmetry of revolution and defining an axial recess 16 which extends between a first end 18 which has on its outer face a mounting thread 20 of a gas supply pipe (not shown in the figure) and a second open end 22. The axial housing 16 of the body 12 has from its end 18 a portion of enlarged diameter 24, then a portion of reduced diameter 26 and finally a zone of greater diameter 28 near the second open end 22. The portion 24 is connected to the portion 26 by a first shoulder 30 and the portion 26 is connected to the portion 28 of the axial recess by a second shoulder 32.

If we now consider the injector-mixer assembly, it consists of a first injector part 10a and a second part 10b forming a mixer. The injector 10a has a first end 34 and a second end 35, the first end 34 being close to the end 18 of the body. The injector 10a is equipped with an axial feed channel 36 connected to two openings 38 which open into the cylindrical side face 40 of the injector. It could of course be a different number of openings 38. This channel 36 is connected at its second end to a venturi 41 whose outlet opens into the suction chamber 42. This suction chamber is defined by the particular form of the injection part 10a and the mixer part 10b. The suction chamber 42 is connected to an outlet pipe 44. In addition, a connecting piece 48 has a fluid inlet pipe which is to be circulated is rigidly mounted on the piece 12b, this nozzle having an axis YY which is radial with respect to the part 10b. The tip 48 passes through the body 12 by an oblong recess 50 so that the tip 48 can move freely in the axial direction relative to the body 12 of a suitable length that will be defined later. It should be added that a return spring 52 is interposed between the shoulder 32 internal to the axial recess of the body 12 and a shoulder 54 of the part 10. This spring tends to move the injector-mixer assembly 14 to the left of Figure 2. This movement is limited by the cooperation of the shoulder 30 of the axial recess of the body with a projecting portion 56 provided at the end. 34 of the injector 10a. In addition, annular seals 60 and 62 engaged in annular grooves of the part 10a on either side of the openings 38 provide a dynamic seal between the part 10a and the body 12.

As already indicated schematically, the suction device also comprises an external control flywheel 14. This surrounds the body 12 over substantially its entire length and is held axially stationary, in particular by a shoulder 64 cooperating with the shoulder 32 provided in the body 12. The flywheel 14 is rotatably mounted around the body 12. This flywheel forms an extension 68 which extends beyond the end 22 of the body 12 and beyond the end of the outlet pipe 44. The extension 68 of the steering wheel is closed by a plug 70 which is sealingly attached to the extension 68 of the steering wheel. Thus, inside the flywheel 14 is defined an internal outlet chamber 72 into which the outlet pipe 44 opens. In order to allow the outlet to the ambient environment of the gas of the fluid and the engine gas, suitable stops 74 or any other type of orifices are made between the flywheel itself and the plug 70. The rigid end piece 48 secured to the injector-mixer assembly 10 passes through the body of the steering wheel 14 by a slot 76 whose general direction ZZ is at a lower angle α at 90 relative to the axis XX of the system. More specifically, preferably, the mean line of the slot 76 is a helical portion whose axis is the axis XX '. The width h of the slot 76 is slightly greater than the diameter d of the tip 48 so that the tip 48 can move in the slot 78, but with a reduced clearance. The operation of the suction device shown in Figures 1 and 2 is the following at rest, the return spring 52 tends to move the injector-mixer assembly to the left of the figure, so that the openings 38 of the channel supply of the injector are closed by the inner wall of the axial recess of the body 12. Accordingly, there is no connection between the engine gas supply pipe connected to the end 18 of the body and the supply channel 36 of the injector. There is therefore no flow of fluid. If the steering wheel 14 is rotated about the axis XX in the direction of clockwise, the cooperation between the endpiece 48 and the edges of the slot 76 causes an axial displacement to the right of the Figure of the nozzle 48 and therefore of the injector-mixer assembly by compressing the spring 52. When the displacement is sufficient, the openings 38 of the supply channel of the injector penetrate little by little in the zone 24 of the axial recess of the body of greater diameter. As this displacement increases, the passage section for the engine gas increases, which makes it possible to adjust the vacuum in the vacuum chamber 42 of the injector-mixer assembly and thus to adjust the flow rate of the fluid that will be delivered. by the orifices provided between the extension 68 of the steering wheel and the stopper 70.

Such a device can be used with different engine gases. This motor gas may advantageously be air, nitrogen, oxygen or a mixture of nitrogen and oxygen.

The device described above can be used for many applications, preferably in the medical and hospital field.

In particular, the suction device can be used for the evacuation by suction of organic waste or medical waste, especially when the waste is small and suspended in a gas or a liquid. The suction device is particularly well adapted to the aspiration of organic liquids in a hospital environment.

The suction device can also serve as a suction system, including air, in a hospital building. <B> It </ B> can be used to equip including a treatment room or operating room.

Claims (10)

A device for aspirating a fluid with a motor gas comprising a body (12) having an axial recess (16) having a first end (18) for connection to a source of the engine gas and an open second end (22), an injector-mixer assembly (10) slidably mounted in said axial recess of the body further comprising a motor gas supply channel (36) having at least one opening (38) opening into a first end of said assembly near the first end of the body, an outlet channel (44) for mixing fluids protruding from the second end of said body and a nozzle (48) for supplying suction fluid integral with said radially arranged assembly relative to the axis XX of said assembly and freely passing through said body, return means (52) interposed between said assembly (10) and said body (12) tending to bring said assembly into a first positi where the opening (38) of the supply channel is closed by said body, and control wheel means (14) rotatably mounted around said body, said flywheel means comprising mechanical means (76) cooperating with said endpiece (48) for transforming the rotational movement of the flywheel means into a translational movement of said injector-mixer assembly to bring said assembly into a second position by compressing said return means, wherein the opening (38) of the supply is no longer blocked by said body. 2. Device according to claim 1, characterized in that the control wheel means (14) extend beyond the second ends of said body (12) and said injector-mixer assembly (10) to form an outlet chamber ( 72) of said fluid into which the outlet channel (44) of said injector-mixer assembly opens, said chamber being closed by a shutter (70) integral with said flywheel means and provided with orifices (74) to allow the exit of said mixture of fluids. 3. Device according to any one of claims 1 and 2, characterized in that said feed nozzle (48) is rigid and rigidly connected to said injector-mixer assembly (10) and in that the mechanical means of transformation of the movement comprise a slot (76) formed in the flywheel means (14) traversed by said tip, said slot having the shape of a helical portion whose axis is that of said body, whereby the rotation of the flywheel means causes the displacement in translation of said tip and thus of said injector-mixer assembly from its first to its second position. 4. Device according to any one of claims 1 to 3, characterized in that said injector-mixer assembly (10) comprises a venturi (41) whose input is connected to said supply channel (36) and whose output opens into a mixing chamber (42), said fluid supply nozzle (48) opening into said chamber, said chamber being connected to the outlet channel (44) of the fluid mixture. 5. Device according to any one of claims 1 to 4, characterized in that the first end (34) of the injector-mixer assembly (10) has a cylindrical outer face adapted to cooperate with a cylindrical portion of the recess. (16) of said body (12), said recess of said body terminating at its first end by a portion (24) of larger diameter, in that said opening (38) of the feed channel (36) opens into the face cylindrical outer portion of the first end of said injector-mixer assembly (10), in the first position of said injector-mixer assembly, said opening (38) being closed by the inner wall of the body recess and in the second position of said injector assembly -mixer, said opening (38) being opposite said portion (24) of said diameter recess increases. 6. Device according to any one of claims 1 to 5, characterized in that said injector-mixer assembly (10) further comprises first (60) and second (62) sealing means between the cylindrical outer face of the injector-mixer assembly (10) and the inner face of the recess (16) of said body (12), said sealing means being disposed on either side of said opening (38). 7. Device according to any one of claims 1 to 6, characterized in that said supply channel (36) of said injector-mixer assembly (10) comprises a plurality of openings (38) all opening into the cylindrical outer face. the first end (18) of the injector-mixer assembly (10). 8. Use of the device according to any one of claims 1 to 7, characterized in that said motor gas is selected from the group consisting of air, nitrogen, oxygen or a mixture of nitrogen and oxygen 9. Use of the device according to any one of claims 1 to 7, for suctioning organic or medical waste and in particular organic liquids. 10. Use of the device according to any one of claims 1 to 7 for suction in a hospital building, including a treatment room or operating room.