FI67178B - RESPIRATOR SOM AER AVSEDD FOER LUNGSJUKA ILLAMAOENDE ELLER MEDVETSLOESA MAENSKOR OCH DESS ANVAENDNING SOM EN SPRAYANORDNING - Google Patents

Description

1 67178

Breathing apparatus for lung diseases, infirm or unconscious People and its use as a nebulizer Respirator is not intended for use as a respirator, for the protection of the environment, or for the use of sprays or sprays.

The present invention relates to a respirator for pulmonary congestion, malaise or the unconscious. and which respirator is formed of a modular system comprising a base unit consisting of a nebulizer and a control valve connected thereto for controlling the flow of air or oxygen flowing into the nebulizer, and provided with an inlet for supplying air or oxygen to the control valve and a first tubular joint , which at one end can be connected to the inlet connection of the control valve and at the other end to the connection connected to the supply pressure source, and an injector connected to said module is connected to the molded module system. a sys-15 themed nebulizer, a second tubing assembly connected at one end to said airway pressure control valve and at the other end to said injector, and an exhalation valve disposed between the mouthpiece and the medicament nebulizer, by means of which the out-of-breath counterflow control bale is stepless.

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The purpose of breathing apparatus is to help lung patients with impaired breathing. Inhalation pads are usually equipped with drug nebulizers, whereby the nebulizers go deep into the smallest bronchi by means of inhaled compressed air. The applicant's earlier Finnish patent No. 53,927 discloses a breathing device in which the counterpart of the exhalation is infinitely adjustable. This known respirator is suitable for a number of different applications, such as hospital, home, gaming vehicle, beach, indoor swimming pool and various vehicle applications.

However, this breathing device is formed by one and the same set of devices, which can be converted to uses other than a breathing device. The same drawback also occurs in automatic breathing apparatus commonly used in hospitals. In addition, such fixed automatic breathing pads are relatively expensive to purchase.

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U.S. Patent No. 2,677,178 η: ο 4,276,876 discloses a ventilator that is formed from a modular system in a simple and rapid manner into a ventilator suitable for a variety of applications. This known solution uses a modular system comprising a basic unit consisting of a nebulizer and a control valve connected thereto, by means of which the flow of air or oxygen flowing into the nebulizer is adjustable and provided with an inlet for supplying air or oxygen to the control valve. The modular system further includes a first tubular unit connectable at one end to the inlet-10 port of the control valve and at the other end to a port connected to a supply pressure source. Connected to such a modular system is a breathing pressure control valve which is connected by a conical connection or the like to a medicine nebulizer control valve. In addition, an injector is connected to the modular system, which is connected to a drug nebulizer, and a second tubular unit is connected at one end to the breathing pressure control valve and at the other end to the injector. In addition, an exhalation valve is connected to the module system, which is placed between the mouthpiece and the medicament nebulizer, by means of which the back pressure of the exhalation flow can be infinitely adjusted.

Numerous advantages are achieved with the modular ventilator of U.S. Patent No. 4,276,876. The breathing device is very inexpensive in terms of acquisition and operating costs, but this known modular breathing device is, however, a bit complicated in construction and is not suitable as a flexible device, e.g.

It is an object of the invention to provide an improvement to the breathing apparatus of U.S. Patent No. 4,276,876. It is a more detailed object of the invention to provide a new modular breathing device which is even simpler in construction and which can also be easily converted into a nebulizer.

The objects of the invention are achieved by a breathing device which is mainly characterized in that the breathing pressure control valve is located in the branch line between the tubular connections, that the first tubular connection is connected to through the brick.

According to claim 2, the solenoid valve control device 5 comprises a first timer device for adjusting the period of operation of the ventilator according to the patient's respiratory rhythm and correspondingly a second timer device for adjusting the rest period of the ventilator according to the patient's respiratory rhythm.

Some preferred applications of the breathing device according to the invention are set out in claims 4 and 5.

The invention will be explained in detail with reference to a preferred embodiment 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 schematic side view of a preferred embodiment of a breathing device according to the invention.

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Fig. 2 shows a flow chart of the ventilator according to Fig. 1 with adjustments and control units.

In the embodiment according to Figures 1 and 2, the respirator according to the invention is generally indicated by reference numeral 10. The respirator 10 has a modular structure and comprises a basic unit consisting of a nebulizer 13 and a nebulizer control valve 15 connected to it, e.g. oxygen flow is adjustable. A mouthpiece 11 is connected to the medicament nebulizer 13 30 and an exhalation valve is located between the mouthpiece 11 and the medicament nebulizer 13. By means of the exhalation valve 12, the back pressure of the exhalation flow can be infinitely adjusted. The liquid cups of the nebulizer 13 are indicated by the reference number 14.

The second component of the modular system comprises a pressure hose 18 which can be connected at one end to the inlet 19 of the control valve 15 and at the other end to a connection 20 which communicates with a supply pressure source.

4 67178

Connected to the above-described modular system described in U.S. Patent No. 4,276,876 is an injector 21 connected to a drug nebulizer 13. In addition, a second tubular connection 22 is connected to the modular system, which is connected at one end e.g. by a conical connection 23 to the injector 5 21 and at the other end to the connection 24 through which the tubular connection 22 communicates with the breathing pressure control valve 16. The structure described above is heretofore completely identical and disclosed in U.S. Patent No. 4,276,876.

According to the basic idea of the invention, the breathing pressure control valve 16 10 is located in the branch line 35 between the tubular connections 18 and 22 and the first tubular connection 18 is connected to the supply pressure line 26 via an electrically controlled solenoid valve 36 and the breathing pressure control valve 16 is also connected to the supply line 26.

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In Fig. 1, the control panel of the ventilator 10 is indicated by reference numeral 25. The control panel is supplied with a supply pressure line 26 and an electric cable 27. Reference numeral 16a denotes the control knob of the respiratory pressure control valve 16 and reference numeral 17 denotes a pressure gauge indicating respiratory pressure.

In this embodiment, the control device 37 of the solenoid valve 36 comprises a first timer device 30 for adjusting the period of operation of the ventilator 10 according to the patient's respiratory rhythm and a second timer device 31 for adjusting the rest period of the ventilator 10 according to the patient's respiratory rhythm. The panel 25 has a pressure switch 32 for starting and stopping the automatic operation of the ventilator 10 and a pressure switch 33 for manual adjustment of the ventilator 10. In addition, the control panel 25 has an indicator light 34.

In certain special applications of the breathing apparatus 10 according to the invention, a pressure regulator 28 with a pressure gauge 29 mounted on a supply pressure line 26 from a pressure source is used.

The operation of the breathing device 10 according to the invention is as follows. When the ventilator 10 is used as an overpressure treatment device, the timer device 30 adjusts the inhalation period suitable for the patient and the timer device 31 adjusts the respiration interval suitable for it. Medicine spray 13 cover

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The control valve 15 fixed to 5 67178 is adjusted on a scale to a flow position which ensures a suitable spraying power. Likewise, the air intake ports 21a of the injector 21 are throttled or opened on a scale to adjust the flow rate suitable for the patient. Before connecting the ventilator 10 to the patient, the ventilator 10 is actuated by pressing the pushbutton 33 and at the same time monitoring the pressure gauge 17 by adjusting the adjustment knob 16a by turning the appropriate respiratory pressure. The automatic switch pushbutton 32 is then pressed. The ventilator 10 then automatically performs the breathing operation according to a set rhythm.

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When it is desired to use the respirator 10 according to the invention only as a nebulizer, the procedure according to the first alternative embodiment is as follows. A mask is attached to the mouthpiece 13 in place of the mouthpiece 11 or the mouthpiece 11 is left in place.

The control valve 15 is detached from the cover of the medicine nebulizer 13 and from the tubular connection 18, and the tubular connection 18 is connected directly by the connection 19 to the cover of the medicine sprayer 13. Next, the breathing pressure control valve 16 is closed by means of the control knob 16a.

The respirator 10 according to the invention can also be used as a spray device only in the following manner. The control valve 15 is removed from the cover of the nebulizer 13 and a second tubular connection 22 is attached to the cover of the nebulizer 13, from which the injector 21 is first removed, i.e. a second tubular connection 22 is attached to the cover of the nebulizer 13 directly via a conical connection 23. Next, the connection 20 of the first hose-like joint 18 is closed, e.g. with a suitable plastic plug. The spray power is then adjusted by means of the adjustment knob 16a 30 of the control valve 16. Thus, in this embodiment, no pressure regulator 28 with a pressure gauge 29 is required at all, but the components in the basic structure of the breathing apparatus 10 according to the invention are sufficient to achieve a modified operation.

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

Claims (5)

67178 A respirator for lung disease, malaise or unconscious people, the respirator (10) comprising a drug nebulizer (13), a supply pressure source connected to the drug nebulizer (13) for conducting air or oxygen, an injector (21) in communication with - 5 to the medicament nebulizer (13), and control valves (15, 16) for controlling the nebulizing power and respiratory pressure of the nebulizer (13), respectively, and said respirator (10) is formed of a modular system comprising a basic unit consisting of a nebulizer (13) and an associated control valve (15), by means of which the flow of air or oxygen flowing 10 'to the medicine nebulizer (13) is adjustable, and which is provided with an inlet connection (19) for supplying air or oxygen to the control valve (15), and a first tubular one (18) connectable to the inlet port (19) of the control valve (15) and at the other end to the port (20) connected to the supply pressure source, and said connected to the modular system is an injector (21) connected to a medicament nebulizer (13) of said modular system, a second tubular assembly (22) connected at one end to said breathing pressure control valve (16) and at the other end to said injector (21), and an exhalation valve (12) arranged between the mouthpiece (11) and the medicament-20 nebulizer (13), by means of which the back pressure of the exhalation flow can be infinitely adjusted, characterized in that the exhalation pressure control valve (16) is arranged at the hose connections (18,22 ) that the first tubular unit (18) communicates with the supply pressure line (26) via an electrically controlled solenoid valve 25 (36), and that the breath pressure control valve (16) communicates with the supply pressure line (26) via the electrically controlled solenoid valve (36). Breathing device according to claim 1, characterized in that the solenoid valve (36) control device (37) comprises a first timer device (30) for adjusting the respiratory cycle (10) according to the patient's respiratory rhythm and a second timer device (31) for adjusting the respiratory device (10) rest period. line. 7 67178 Breathing device according to claim 1, characterized in that the breathing device (10) has a push button (33) by means of which the operation of the breathing device (10) can be rhythmically adapted to the patient by pressing the push button (33) with a finger. 3 Use of a respirator according to claim 2 or 3, characterized in that the respirator (10) is used as a nebulizer by removing the control valve (15) of the nebulizer (13) from the nebulizer (13) and the first tubular connection (18), 10 by connecting the tubular connection (18). directly to the nebuliser (13), by closing the breathing pressure control valve (16), adjusting the operating time and rest period of the nebulizer (13) by timers (30,31) or by pressing the push button (33) according to the patient's breathing rhythm and adjusting the nebulizer (13) by means of a pressure regulator (28) with a pressure gauge (29) located in the supply pressure line (26). Use of a respirator according to claim 2 or 3, characterized in that the respirator (10) is used as a nebulizer by removing the control valve (15) of the nebulizer (13) from the nebulizer (13), attaching a second tubular unit (22) from which the injector (21) first removed, directly to the nebulizer (13), by closing the first tubular connection (20) leading to one (18) pressure line (26), adjusting the period of operation of the nebulizer (13) and 25 rest periods by timers (30,31) or by pressing the push button ( 33) according to a breathing rhythm suitable for the patient and by adjusting the spraying power of the medicated nebulizer (13) by means of a control valve (16). TT ------ 8 67178