FI64895B - Bronchoscopy-BEDOEVNINGSANORDNING - Google Patents

Description

• ^, 1 Γοΐ ANNOUNCEMENT, Λ λ (1) UTLÄCGNI NGSSKRI FT 6 4 895 (45) Patc.; Tr;.: Ddclst ^ ^ ^ (51) K ».ik.3 / Ir» t.ci.3 A 61 M 16/00 * 15/00 FINLAND — FINLAND W) Patent application - Petentans5knlng 7 8ll69 (22) Hakemlspllv · - Anrtknlngtdag 18.0 4. 7 8 (23) Alkupllvl— · Glttlghetsdag 18.04.78 (41) Become Public - Bllvlt offentllg] _ <j jg totottl- |. r.kl «.rlh.llltu. N · * · * ™, r · .- „

Patent · och regiitentyrelMn 'Aiaekan utlagd och utl.ikrtftan publlc »rvJ JJ- * XU · Oj (32) (33) (31) Requested privilege — Begird priority (71) (72) Taisto Häkkinen, Kaarlonkatu 25» 13210 Hämeenlinna 21,

Suomi-Finland (FI) (74) Forssen & Salomaa Oy (54) Bronchoscopy-anesthesia device - Bronkoskopi-bedovningsanordning

The invention relates to a bronchoscopy anesthesia device for my anesthetic syringe! for oral administration to a patient's lungs, the bronchoscopy anesthetic device comprising a drug nebulizer, a supply source connected to the drug nebulizer for conducting air or oxygen, an injector connected to the drug nebulizer, and control valves for controlling nebulizer performance and respiratory pressure, respectively.

Various respiratory devices have been known for bronchoscopy anesthesia to inject anesthetic fluid through the patient's mouth into the lungs. The known solutions are fixed respirators, which are very expensive to purchase. In addition, these known solutions do not allow flexible modification possibilities to change the device set according to different patients and conditions.

It is an object of the invention to provide a bronchoscopy anesthetic device which can be formed in a simple and rapid manner from a modular system of standard components for respiratory care devices suitable for various applications. Other objects and advantages of the invention will be apparent from the description of the invention.

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The objects of the invention are achieved by a bronchoscopy anesthetic device, which is mainly characterized in that the bronchoscopy anesthetic device consists of a modular system comprising (a) a basic unit consisting of a medicine nebulizer and a and provided with an inlet for supplying air or oxygen to the control valve, and (b) a tubular joint connectable at one end to the inlet of the control valve and at the other end to a connection connected to a supply pressure source, and that said modular system is connected to (c) a breathing pressure control valve (6); ) connected by a conical connection or the like to the control valve (5) of said modular system drug nebulizer, (d) an injector (9) connected to the drug nebulizer (3) of said modular system, and (e) a tubular connection (8) at one end Connected to said breathing pressure control valve (6) and at one end to said injector (9).

The invention will be explained in detail with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows a side view of a modular system from which a bronchoscopy anesthetic device according to the invention can be formed by connecting the necessary additional components to the modular system.

Fig. 2 shows a schematic side view of the way in which the modular system according to Fig. 1 can be supplemented with a bronchoscopy anesthetic device according to the invention.

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Figure 3 shows a side view of an embodiment of a bronchoscopy anesthetic device according to the invention.

Figure 4 shows a side view of another embodiment of a bronchoscopy anesthetic device according to the invention.

Figure 5 shows an alternative detail in the bronchoscopy anesthetic device of Figure 4.

The modular system shown in Fig. 1 comprises a basic unit consisting of a medicine nebulizer 3 and a medicine nebulizer control valve 5 connected to it, e.g. with a suitable conical connector, by means of which the flow of air or oxygen flowing to the medicine nebulizer 3 can be adjusted. A mouthpiece 1 known per se is connected to the medicament nebulizer 5. The medicament nebulizer control valve 5 is further provided with an inlet connection 13 for supplying air or oxygen to the control valve 5. The medicament nebulizer liquid cup is indicated by reference numeral 4.

The second component of the modular system comprises a pressure hose 10, which at one end can be connected to the inlet connection 13 of the control valve 5 and at the other end to a source of compressed air or oxygen. According to Fig. 2, the supply pressure of the medicine nebulizer 3 can be taken from the connection 16a, which is an oxygen cylinder pressure control valve or a compressor. Alternatively, connection 16b, which is the wall contact of the hospital's oxygen or compressed air network, can be used. In an emergency, it is possible to use, for example, the car's spare tire valve 16c, from which the supply pressure to the medicine nebulizer 3 is obtained.

In addition, the pressure hose 10 is preferably provided with a loop 11, which, when compressed together, prevents the flow of air or oxygen to the medicine nebulizer 3 during the patient's exhalation. This allows a 50% saving in drug and oxygen consumption because no air or oxygen is introduced into the nebulizer 3 during the patient's exhalation, which would force the drug to flow out of the nebulizer 3 during the exhalation phase. Said loop 11 is preferably provided with a sleeve 12 adapted to slide around the loop 11 in order to increase and decrease the loop 11, respectively, and to completely close the loop 11. In this case, the flow of oxygen up the pressure hose 10 to the medicine nebulizer 3 can be blocked quickly and easily by moving the sleeve 12 so that the loop 11 closes completely.

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Figure 2 shows the supplementation of the modular system according to Figure 1 as a bronchoscopy anesthetic device according to the invention. A breathing pressure control valve 6 is connected to the nebulizer control valve 5. The breathing pressure control valve 6 is provided with a pressure gauge 7. An injector 9 is connected to one end of the medicament nebulizer 3. The breathing pressure control valve 6 is connected to the injector 9 by an injector pressure hose 8.

Figure 3 shows a bronchoscopy anesthetic device according to the invention supplemented in the manner shown in Figure 2.

Figure 4 shows an embodiment of a bronchoscopy anesthetic device according to the invention. This embodiment differs from the embodiment according to Fig. 3 only in that an exhalation valve 2 is arranged between the mouthpiece 1 and the medicament nebulizer 3, by means of which the back pressure of the exhalation flow can be infinitely adjusted. As such, the device according to Figure 4 is also suitable as a breathing device.

In some cases, it is advantageous to connect the exhalation valve 2 to the nebulizer 3 by means of a patient hose 18, whereby the patient can be located at a certain distance from the bronchoscopy anesthesia device according to the invention, which is generally fixed so that the device itself cannot be moved. The solution according to Figure 5 comes into question especially when the patient has already been premedicated in some way before bronchoscopy anesthesia. The embodiment according to Figure 5 also makes it possible for the mouthpiece 1 attached to one of the tubular exhalation valves 2 at the end 18 to be easily and precisely guided into the patient's mouth.

The bronchoscopy anesthetic device according to Figure 4 can also be used as such as a breathing device, in which case the operation of the breathing device is as follows.

When the ventilator is intended for hospital use, the supply pressure to the medicine nebulizer 3 is taken through the connection 16b. By means of the medicine sprayer control valve 5, the spraying power of the medicine sprayer 3 is adjusted to the desired one. The breathing pressure, in turn, is adjusted as desired by means of the breathing pressure control valve 6. The oxygen content of the breathing air can be read from the table accompanying the ventilator, knowing the current control position of the nebulizer control valve 5 and the respiration pressure, which can be read directly from the pressure gauge 7. The back pressure of the patient's exhalation flow is controlled by the exhalation valve. 2. As such an exhalation valve 2, it is preferable to use an exhalation valve provided with a control ring, which is a two-part center-opening valve in which a diaphragm is interposed between said two parts. A force is applied to the membrane from the axial direction, i.e. from the direction of the drug nebulizer 3, whereby the wedge-shaped part of the membrane opens. When the flow stops, the wedge-shaped part closes accordingly. Exhalation can occur through an opening in the front of the valve. Thus, by means of the adjusting ring, the back pressure of the exhalation flow can be adjusted steplessly.

Some preferred embodiments of the invention have been described above and it will be apparent to those skilled in the art that modifications may be made to them within the scope of the inventive idea set out in the appended claims.

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Claims (10)

6 64895 A bronchoscopy anesthetic device for injecting anesthetic fluid orally into the lungs of a patient, the bronchoscopy anesthetic device comprising a drug nebulizer (3), a supply source connected to the drug nebulizer (3) for conducting air or oxygen, an injector (9) connected to the drug nebulizer, and control valves ( 5,6) for controlling the spraying power and respiratory pressure of a medicated nebulizer (3), characterized in that the bronchoscopy anesthetic device consists of a modular system comprising (a) a basic unit consisting of a medicated nebulizer (3) and a control valve connected thereto ( 5) by means of which the flow of air or oxygen flowing into the nebulizer (3) is adjustable and provided with an inlet connection (13) for supplying air or oxygen to the control valve (5), and (b) a first tubular joint (10) connectable at one end to the control valve (5) to the input terminal (13) and at the other end to the terminal (16) connected to the sy to said supply module, and that said modular system is connected to (c) a respiratory pressure control valve (6) connected by a conical connection or the like to a medical nebulizer control valve (5) of said modular system, (d) an injector (9) connected to said modular system (3) (e) a second tubular assembly (8) connected at one end to said breathing pressure control valve (6) and at the other end to said injector (9). A bronchoscopy anesthetic device according to claim 1, characterized in that the mouthpiece (1) is attached directly to the drug nebulizer (3). A bronchoscopy anesthetic device according to claim 1, characterized in that an exhalation valve (2), by means of which the back pressure of the exhalation flow can be infinitely adjusted, is arranged between the mouthpiece (1) and the medicament nebulizer (3). A bronchoscopy anesthetic device according to claim 1, characterized in that an exhalation valve (2) attached to the mouthpiece (1), by means of which the back pressure of the exhalation flow is infinitely adjustable, is connected via a third tubular one (18) to the nebulizer (3). Bronchoscopy anesthetic device according to one of Claims 1 to A, characterized in that the first tubular unit (10) is provided with a loop (11) which, when compressed, prevents the flow of air or oxygen into the nebulizer (3) during the patient's exhalation. Bronchoscopy anesthesia device according to claim 5, characterized in that said loop (11) is provided with a sleeve (12) adapted to slide around said loop (11) to enlarge and respectively reduce and close said loop (11). that the flow of air or oxygen up to said first hose connection (10) is blocked. A bronchoscopy anesthetic device according to any one of claims 1 to 6, characterized in that said first tubular unit (10) is connected at one end to an oxygen cylinder pressure control valve or compressor (16a). A bronchoscopy anesthetic device according to any one of claims 1 to 6, characterized in that said first tubular unit (10) is connected at one end to a connection (16b) of a hospital oxygen or compressed air network. A bronchoscopy anesthetic device according to any one of claims 1 to 6, characterized in that said first tubular unit (10) is connected at one end to a car spare tire valve (16c). 64895