![]() Breathing appliance
专利摘要:
A respiration therapy apparatus used as a drug atomizer means and/or as a so-called respirator and/or as an oxygen dispensing means. In the apparatus of the invention, administration to the patient of oxygen or air is discontinued, at the latest, when the exhalation phase starts. This has been implemented in the apparatus of the invention by employing a pressure pick-up (22) observing the differential pressure of the flow and which further provides control of an electromagnetic valve (23) which has been disposed to close and to open a pressure line (16). At commencement of the inspiration phase, the differential pressure is transmitted over a signal connection (99) to the pressure pick-up (22). The pressure pick-up (22) further controls the electromagnetic valve (23), opening the pressure line (16). The pressure pick-up (22) measuring differential pressure has been connected, as taught by the invention, over a signal connection (19, 39, 59 or 99) either to an oxygen mask, to oxygen whiskers (30), to an atomizing means (50) or to a respirator (80). 公开号:SU1745104A3 申请号:SU874028906 申请日:1987-01-22 公开日:1992-06-30 发明作者:Хяккинен Таисто 申请人:Этеля Хямеен Кеухковаммаихдистюс Р.И. (Фирма); IPC主号:
专利说明:
The invention relates to a medical technique, intended for respiratory therapy of persons suffering from diseases of the respiratory system. Breathing therapy devices are known for persons suffering from respiratory diseases, persons suffering from ailments, or unconscious persons, and the respiratory therapy apparatus comprises a device for spraying drugs, a pressure source that communicates with a device for spraying drugs to supply air or oxygen, an injector in communication with a device for spraying drugs, and separate control valves us to control the rate of spraying the sprayable drugs in accordance with the pressure respiration. In medicinal sprayers Xi Jb with but ABOUT four S preparations at a known level, technically, the rate of flow of air or oxygen is controlled. Adjusting valves are known in this art through which air or oxygen can flow. By means of electromagnetic valves or control means with a magnetic valve, the working period of the respiratory therapy apparatus can be controlled in accordance with the patient's breathing rhythm ;. similarly, using separate time-measuring devices, it is possible to regulate the rest of the period of the respiratory therapy apparatus to match the breathing pattern of the patient. A prior art respiratory therapy apparatus can be controlled by push buttons or something equivalent so that the respirator's pace of work is appropriate for the patient, for example, a characteristic button press. A respiratory therapy apparatus is known in which spraying start time control is provided in order to select a preferred spraying start time for each individual patient at the beginning of the inhalation period and to control the flow rate during inhalation to set the desired flow rate value for inhalation preferred by each individual patient. The prior art apparatus cannot be used as a spray apparatus or respirator. Oxygen in known devices comes during expiration, causing unnecessary irritation of the patient's nostrils. The patient is worried about the continuous flow of oxygen, and it is also clear that the harmful effect of this continuous flow of oxygen or air is the very high useless flow rate. Le- the drug is also wasted uselessly and the environment surrounding the patient is polluted. The purpose of the invention is to increase the economy by synchronizing the respiratory cycle and the spraying period of drugs. The purpose of the invention is achieved in that a respiratory therapy apparatus, including a control unit, a respirator installed in the control unit, a valve for regulating the supply of oxygen or air from an air source, and a line connected to the respirator atomizer are inserted into the control unit a pressure sensor connecting the nebulizer and a control unit, a connector for transferring discharge from the respirator to the pressure sensor and timekeeping means installed in the control unit connected between the pressure sensor and the control input of the valve to regulate the supply of oxygen or air to the atomizer while 0 means are made with the possibility of switching on the patient at the beginning of inhalation and with the possibility of pre-emergency adjustment of the valve opening period for spraying the medicine. in addition, the control unit is additionally made with a second valve, predominantly representing an electromagnetic valve connected to the oxygen or air line, the pressure sensor being installed with the possibility of either directly, or through an electronic circuit, preferably by means of time-measuring means controlling the second valve; the sprayer is designed with a conical connector shaped injector connected to 5 connector; the sensor connector with the atomizer is adapted to be connected either to the atomizer injector or to the mouthpiece or to the atomizer in the vicinity of the mouthpiece; a pressure sensor is installed in the oxygen flow or air introduced to the patient and is electrically connected to the solenoid valve through the control unit; has a computer controlling the respiratory therapy device connected to a data line (or data lines) connected directly to the control unit; and a computer configured to control one or another valve that connects the pressure line to a corresponding flow connector. The design of the respiratory therapy apparatus of the invention eliminates all the mentioned disadvantages. It is possible to escape from 5 by providing a respirator according to the invention with a pressure sensor and, because the pressure sensor has a connection for transmitting a signal. The signal transfer connection is then removed from the adjusting means via a connector. This sensor, which indicates the flow pressure during breathing, is additionally used to control the control valve, which regulates 5 The flow of oxygen or air to the patient. The sensor monitors the pressure applied through the connection to transmit the signal and monitors the moment the patient begins to inhale. Then the sensor affects the control valve and opens a channel for the flow of oxygen or air. Similarly, the sensor monitors the signal for the onset of the expiration phase made by the patient through the signal connection, at which time the pressure sensor acts on said control valve, with the valve closing 1 the passage for oxygen or air to pass. With this arrangement, the device can avoid supplying oxygen, air, or drugs to the patient during the expiration phase performed by the patient. The invention is mainly characterized in that the respiratory therapy apparatus comprises a pressure sensor and a separate connection to the pressure sensor installed to close and open the air or oxygen supply line under pressure, which through the valve communicates with the oxygen or air line. that when the patient inhales, the pressure sensor monitors the change in air pressure during inhalation caused by the onset of this inhalation, with a print sensor mounted so as to open the valve; similarly, at the beginning of the exhalation done by the patient, the pressure sensor is installed so as to control the kapan so that the air or oxygen line under pressure closes. The design of the apparatus according to the invention, which can definitely be used as spraying means, means of using oxygen or as a respirator, can operate at various pressure levels. This is precisely what allows the connection for signal transmission according to the invention to be removed from the control unit and transferred to various targets. This makes it feasible to use this apparatus design as a multi-purpose tool when operating at low and high pressure levels. FIG. Figure 1 shows the apparatus for respiratory therapy, provided with a pressure transducer and a connection for signal transmission and used as a spray; in fig. 2 is a respiratory therapy device that is used as a respirator (IPPB), presented with a vertical view; in fig. 3 shows the apparatus according to FIG. 2, showing another embodiment of the location of the other end of the connection for signal transmission; in fig. 4 — connecting the computer to the respiratory therapist and a design is presented in which two valves are used. The respiratory therapy device contains a control unit, a respirator 2, a valve 3 installed in the control unit 1 for controlling the supply of oxygen or air from an air source, a line 4 connected to the sprayer 5, a respirator 2, a pressure sensor 6 installed in the unit 0 control 1, connecting sprayer 5 and control unit 1 connector 7 for transferring the discharge from sprayer 2 to pressure sensor 6 and time-keeping devices installed in control unit 1 5 to 8, connected between the pressure sensor 6 and the control inlet of the valve for regulating the supply of oxygen or air 3 to the atomizer 5, while the timing means 8 are adapted to 0 switching on at the beginning of the patient's inhalation and with the possibility of presetting the opening period of the valve 3 for spraying drugs. FIG. Figure 1 shows schematically the use of a respiratory therapy device as a spray from a drug dispenser. Reference numeral 2 denotes a means for spraying drugs. TO 0 a device 4 for pressure supply is connected to the device 5 for spraying drugs. Spraying speed is controlled through valve 9. Position 10 denotes a connection 5 going to the pressure sensor 6. The sensor 6 in turn controls the solenoid valve 3, its opening and closing. Through this valve 3, oxygen or air is supplied via a pressurized supply line 4. 0 A conical connection connector 11 for signal transmission is attached to the device 5 for spraying drugs. Line 12 supplying air or oxygen under pressure passes to valve 3. In this 5 line 12, a pressure supply valve 13 is built in and interconnected with a pressure gauge 14 to measure the applied pressure. A device 5 for spraying drugs is provided with a mouthpiece 15, through which the flow enters the patient. A signal connection 10, going to a pressure sensor, is connected to a conical connector 11 on a device 5 for spraying medicinal preparations. The operation of the unit is such that when the patient inhales through the mouthpiece 15, there is a flow through the conical connector 11, while the pressure in the connector 11 drops. This pressure drop is monitored by pressure sensor 6 and transmitted through connection 10 for transmitting a signal to sensor 6. The connection for transmitting the signal corresponds to the length of the plastic tube. The sensor 6 transmits information, controls the solenoid valve 3, and opens the connection from the pressure line 12 to the pressure supply line 4 going to the device 15 for spraying drugs. Thereby, the spray of the sprayed drug during the inhalation done by the patient will be mixed with air entering through the conical connector 11, while said spray spray formed by the air or oxygen flow going to the device 5 for spraying drugs takes place along the line 4 for pressure supply. The control unit 1 may also contain means by which the maximum spraying time of the drugs is controlled. If the inhalation phase exceeds this maximum time, then the maximum time monitoring device cuts off communication from pressure line 12 to pressure supply line 4 and the spraying process is interrupted. When the patient begins to exhale through the mouthpiece 15, the pressure in connection 10 increases and this increase in pressure is monitored by pressure sensor b, which then, controlled by the solenoid valve 3, cuts off the connection between inlet channel 12 and line 4 to supply pressure, and the process immediately stops . FIG. 2 shows in vertical form the use of a respiratory therapy apparatus precisely as a respirator. The respirator, designated 2, contains the mouthpiece 16, the exhalation valve 17, the spray device 18-. From control unit 1, line 19 for supplying air or oxygen under pressure passes through connector 20 to spraying device 18, Pressure supply line 19 through connector 22 is connected to control unit 1. Flow connector 22 is connected to control unit 1 through connector 23 connector 24 with injector 25, i.e. with injector nozzle 26. In addition, the injector 25 is connected to the housing of the spraying device 18. The control circuit according to the invention further comprises a pressure sensor 6. suitably located in the control unit 1. From the pressure sensor 6 and from the control unit 1, a connection 7 for transmitting the signal goes to the mouthpiece 16, either to spray means 18, and this case accordingly to the conical connector. In addition, the control unit 1 contains timekeeping means 8 for setting the time of operation of the spraying device and the breathing pressure regulator — the proper control valve 27; The control unit 1 further comprises a pressure gauge 28 indicating the pressure of the breath. A pressure gauge 28 showing the pressure of the breath is connected as shown in FIG. 3 to the flow connector 22. The breathing pressure control valve 27 may either be connected directly to the flow connector 22, 5 or to the line leading to said connector 22. When the patient is inhaled, the pressure sensor 6, via the signal transmission connection 7, monitors the pressure change and controls the electromagnetic 0 by valve 3, as in the embodiment of FIG. 1. When the patient begins to exhale, the pressure in connector 7 for signal transmission rises. Pressure sensor 6 monitors this change and 5 controls the solenoid valve 3, the pressure line compartment. The connector 7 for transmitting the signal can be connected either to the conic connector 25 of the spraying device 18, or directly to the mouthpiece 16, going to the patient. The pressure sensor 6 can also be installed in such a way that it is located directly in the stream of oxygen or air going to the patient. In that 5, an electrical signal is supplied from the pressure sensor 6 via the connection 1 to transmit the signal to the control unit 1 p further to the solenoid valve 3. However, it is most acceptable that The 0 signal transmission was a flexible tube, and the pressure sensor was located so as to be located exactly in control unit 1. Then the pressure change is transmitted along the hollow tube to the sensor 5 pressure 6. Air and oxygen lines or connectors are the corresponding pieces of plastic tubes, consisting of a certain plastic material. 0 FIG. Figure 4 shows a design in which, in addition to valve 3, another valve 29 is also used, this valve being a corresponding solenoid valve. Valve 29 5 is located in the flow connector 22 or in the control unit 1 in such a way that it communicates with the line 22. The pressure sensor 6 controls the valve 29 either directly or through timekeeping means 8, the latter properly contain timekeeping tools. In this case, it becomes possible to set the desired and favorable with the therapeutic point of view the communication time of the line 22 and the line 19 with the pressure line 12. FIG. 4 also shows the connection of a computer with a respiratory therapy apparatus according to the invention. A computer or something equivalent is indicated with 30. The computer is connected via one or more cables to a respiratory therapy device according to the invention. This signal path between the computer and the respiratory therapy device is generally designated 31. The computer is installed in order to activate or stop the respiratory therapy device using its program. Computer 30 may simultaneously control one or more respiratory therapy devices. In the latter case, one person can program therapeutic regimens separately for each patient. A computer can equally well be programmed to operate a respiratory therapy apparatus according to the invention in such a way that the program stored in a computer memory manages various therapy options through a respiratory therapy apparatus, for example breathing pressure, drug spraying and .d Data lines or data lines, properly routed from the computer and generally designated 31, are connected to control unit 14. The figures show computer 30 connected via a data line or data line 31 to a respiratory therapy device 2 according to the invention. Computer 30 may be installed to control valve 29, which is the corresponding solenoid valve. Computer 30 can be installed to control either separately each valve 3 and 29, or to control both valves and dependencies on each other, as defined in each case in the program program. The computer 30 may be configured to control the valve 29 through the block 8 and the appropriate timing means. The computer 30 is mounted so as to control the valve 29 and / or valve 3 so that the connection opens from the pressure line 12 to the flow connector 22 and / or to the connector 19.
权利要求:
Claims (5) [1] Claims 1. Apparatus for respiratory therapy, containing a control unit and a respirator; a valve installed in the control unit for regulating the supply of oxygen or air from an air source; associated with a respirator dispenser, characterized in that, in order to improve efficiency by synchronizing the respiratory cycle and the spraying period of the drugs, it It has a pressure sensor installed in the control unit, which connects the atomizer and the control unit, a connector for transferring discharge from the respirator to the pressure sensor and timed means installed in the control unit connected between the pressure sensor and the control input of the valve to regulate the supply of oxygen or air to the atomizer while clocking the means are made with the possibility of switching on at the beginning of inhalation and with the possibility of preliminary adjustment of the valve opening period for spraying drugs. [2] 2. The apparatus according to claim 1, characterized in that a second valve is inserted into the control unit, which is made electromagnetic and is installed on an additional line supply of oxygen or air, connected to the line of supplying oxygen or air through a control valve, while the control input of the second valve is directly or via time-keeping means connected to a pressure sensor additional line is connected through an additional connector with a spray. [3] 3. The apparatus according to claim 1, characterized in that the sprayer is provided with an injector, conical and connected to a connector. [4] 4. The apparatus according to claim 1, characterized in that the connector for connecting the pressure sensor to the respirator is made with the ability to connect through the spray hole near the mouthpiece or to the spray nozzle. [5] 5. The apparatus according to claim 1, characterized in that the sensitive element of the sensor pressure is installed in the oxygen or air supply line and is connected via a second connector to a pressure sensor installed in the control unit. Yu Sch / 2 2025 // K N H u about 28 -2 / Shg.Z
类似技术:
公开号 | 公开日 | 专利标题 SU1745104A3|1992-06-30|Breathing appliance US6606989B1|2003-08-19|Precise administration of a medicated aerosol via the lungs FI76929B|1988-09-30|INHALATIONSDOSERINGSANORDNING, SOM AER AVSEDD FOER NOGRANN DOSERING AV DISPONERANDE LAEKEMEDEL SOM GES AOT ANDNINGSSJUKA I UNDERSOEKNINGSSKEDET OCH / ELLER LAEKEMEDEL SOM GES SOM SPRAY UNDER BEHANDLINGEN. EP1581291B1|2009-01-14|Drug delivery apparatus US6076519A|2000-06-20|Passive inspiratory nebulizer system US9022027B2|2015-05-05|Nebulizer with intra-oral vibrating mesh US8607786B2|2013-12-17|Inhalation method and apparatus US8196573B2|2012-06-12|Methods and systems for operating an aerosol generator US4041943A|1977-08-16|Control apparatus for variable regulation of lung inflation hold time US20030168062A1|2003-09-11|Pulmonary dosing system and method GB2316323A|1998-02-25|Product dispensing system and nebuliser JP2001054574A|2001-02-27|Nebulizer for medical use WO2014179083A1|2014-11-06|Nebulizer with intra-oral vibrating mesh SE459394B|1989-07-03|CONTROL FOR THE RESPIRATOR EP0519742A1|1992-12-23|Medical nebulizer control system SU1321422A1|1987-07-07|Aerosol inhaler JPH11267216A|1999-10-05|Respirator JPH11267221A|1999-10-05|Respirator
同族专利:
公开号 | 公开日 SE8700227L|1987-01-21| JPS63500151A|1988-01-21| FI81500C|1990-11-12| GB8630510D0|1987-01-28| WO1986006969A1|1986-12-04| SE8700227D0|1987-01-21| FI852073A0|1985-05-23| GB2189706B|1988-12-21| GB2189706A|1987-11-04| US4986269A|1991-01-22| DE3690291T1|1987-05-14| FI852073L|1986-11-24| FI81500B|1990-07-31|
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申请号 | 申请日 | 专利标题 FI852073A|FI81500C|1985-05-23|1985-05-23|Respiratory Treatment Unit| 相关专利
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