WO2022019868A1 - New generation mobile (portable) and bag type intubated respirator device - Google Patents

Abstract

New Generation Mobile (Portable) and Bag Type Intubated Respirator Device The invention relates to a new generation mobile (portable) and bag type intubated respirator device is designed to be used in hospitals, ambulances, organizations in the health sector such as AFAD, UMKE and providing services to these sectors, areas and vehicles stipulated by the Ministry of Health.

Description

New Generation Mobile (Portable) and Bag Type Intubated Respirator Device

Technical Field Of Invention

The invention relates to a new generation mobile (portable) and bag type intubated respirator device is designed to be used in hospitals, ambulances, organizations in the health sector such as AFAD, UMKE and providing services to these sectors, areas and vehicles stipulated by the Ministry of Health.

State of the Art

Existing systems can only be used in intensive care units and operating rooms. For this reason, in case of need outside of the specified areas, it cannot provide service and patients lose their lives.

Considering the old systems, respirators and intubation devices work with human power in vehicles and with the city network in fixed stations, and a product cannot perform both respiration and intubation. The respiratory distress that started at the scene, the patient's transfer to the transport vehicle, the emergency response area, and the constant replacement of respirators during the transport to the operating room, and the manual operations of the health personnel during the first referral unfortunately cause the death of the patient (lungs burst, not getting enough oxygen).

These problems are eliminated with our model.

With the new mobile method and software we applied, a similar breathing/intubation device could not be seen within the framework of our research.

The Purpose Of The Invention

Our invention is the manual artificial respiration of the health personnel working in the fields we mentioned before, the "Mobile (Portable) and Bag Type intubated respirator device" that we have produced, by measuring the oxygen amount in the blood in accordance with the standards set by the World Health Organization, and providing the appropriate respiration and oxygen pressure with our own algorithm integrated into the system the software is applied to the patient.

The Mobile (Portable) and Bag Type intubated respirator device we have produced is equipped with 220V AC mains, 12V DC (in-vehicle use), 12V DC 6Ah battery and multiple feeding and mobile use solutions at the same time. It also has the feature of manual operation in case of an unexpected usage error. In this way, oxygen can be supplemented from the moment it is applied to the patient until the end of the operation without the need for another breathing/intubation device.

Figures to Help Explain the Invention

Figure 1- New generation Mobile (Portable) and Bag Type intubated respirator device

Reference Numbers in the Figure

1- Air Hose

2- Air Balloon

3-Pressure Arm

4-Engine

5-Upper Chassis

6-Hinge

7 -Lower Chassis

8- Air Pressure Sensor Input

9 -Air Flow Sensor

10- Pulse Oximeter Sensor

11- Control Cards

12- Control Panel

13- On/off 14 -Battery

15- External Energy Input Detailed Description of the Invention

The invention relates to a new generation mobile (portable) and bag type intubated respirator device is designed to be used in hospitals, ambulances, organizations in the health sector such as AFAD, UMKE and providing services to these sectors, areas and vehicles stipulated by the Ministry of Health.

The invention is characterized by, air hose (1 ), air balloon (2), pressure arm (3), engine (4), upper chassis (5), hinge (6), lower chassis (7), air pressure sensor input (8), air flow sensor (9), pulse oximeter sensor (10), control cards (11 ), control panel (12), on/off (13), battery (14), external energy input (15).

The air hose (1) is the connecting equipment that allows the patient to breathe. It provides the delivery of oxygen from the air balloon (2) to the patient's lungs.

The air balloon (2) is the intermediate element that produces the oxygen. It produces oxygen from the air it takes from outside with the pressure provided by the pressure arm (3).

The pressure arm (3) is the equipment that applies pressure to the air balloon (2) with the power it receives from the engine (4).

The engine (4) is the equipment that moves the pressure arm (3) with 12V DC 60nm power.

The upper chassis (5) is a part that enables the engine (4) and pressure arm (3) to work and connects to the main chassis with hinges (6), which can be opened for manual use when necessary. The upper chassis (5) is closed and connected to the main chassis with 2 bolts.

The hinge (6) is a support part that connects the upper chassis (5) and the lower chassis (7) and provides the opportunity for manual use and maintenance when necessary. The lower chassis(7) is a part that contains equipment’s of control cards (11 ), batteries (14), sensors (9,10), air balloon (2) and is the main center of the power to which the upper chassis (5) is connected.

The air pressure sensor (8) is an electromechanical equipment that measures the pressure of the amount of oxygen applied to the lungs and transmits this value to the control card (11).

The air flow sensor (9) is an electromechanical equipment that measures the oxygen/carbon dioxide (breathing/exhaling) limits that enter and exit the lungs during the patient's breathing, and transmits these data to the control card (11) and mediates the sending of the amount of oxygen to be sent.

The pulse oximeter sensor (pulse and oxygen meter) (10) is an electromechanical equipment that measures the oxygen level in the patient's blood and transmits this data to the control card (11), and informs the control card (11) of the amount of oxygen to be applied. In general, it serves to quickly measure the heart rate and oxygen level in the blood during the minute.

The control cards (11) are electronic cards that enable the engine (4) driver card to work by interpreting the data received from the pulse oximetry sensor (10), air pressure sensor (8), air flow sensor (9) equipment in accordance with the parameters determined by the World Health Organization, in our own software.

The control panel (12) is an electromechanical equipment with control buttons, to start and stop the mobile (portable) and bag type intubation/respiratory device and the pressure amounts are displayed.

The On/Off (13) is the electromechanical equipment that enables the opening and closing of the mobile (portable) and bag type intubated/respiratory device.

The battery (14) is the accumulator equipment that provides the energy that may be needed (approximately 4 hours) during the transfer of the patient to the intervention area in an environment where the Mobile (portable) and Bag Type Intubation / Respiratory Device does not have electrical energy as mobile (e.g., incident scene that needs to be reached on foot).

External energy input (15), vehicle cigarette lighter connection input, 12V DC input, 220V AC input with 3 different energy intakes, which charge the battery (14) on the Mobile (Portable) and Bag Type intubated respirator device and the battery ( 14) is an electronic connection equipment that is fed from an external source by cutting the charge when it reaches full charge (approximately 1 hour).

The mobile (portable) and bag type intubation/respiratory device; converting the fixed breathing/intubation device in operating rooms and intensive care units to mobile has brought innovation. In addition, the weight (70kg) and size (160cm) of the fixed stations are above the portable dimensions in today's conditions. The Mobile (Portable) and Bag Type intubation/respirator device we have produced is portable (32^*25^*21 cm) and light (1 .5kg), so it will be among the first response equipment of the emergency medical teams, saving the lives of thousands of people every year, It is a product that will make the lives of doctors and doctors easier.

In these days when we are fighting against COVID-19, the biggest problem we are fighting as the world is unfortunately the respiratory problems of the patients. Every day, hundreds of patients with respiratory distress are intubated and referred to intensive care units, and the majority of these patients die due to device failure. We anticipate that there will be a serious decrease in the number of patients who are intubated and taken to intensive care due to respiratory distress, thanks to our product, which is completely domestic and national production, thanks to the Mobile (Portable) and Bag Type intubation / breathing device that we have produced.

Our invention has been focused on improving the existing system and reducing the respiratory problem seriously. We still have new design products that we are working on in the R&D environment. However, the new designs we have developed will not show similar features with the current product.

Our invention covers the production of electronic, software and mechanical elements by reaching fixed values with engineering and R&D studies. Production stages; selection, test and calibration of connection equipment, determination of software elements, integration with World Health Organization parameters, prototype production, tests and calibrations, industrial designs and chassis production, assembly and final tests.

Virtually operating the products we will use in Mobile (Portable) and Bag Type Intubation / Respiratory Devices by simulating industrial design and electronic design software, supply of preferred electronic, electromechanical and mechanical products, production of sterile products required for the chassis, coding and assembly.

The biggest innovation of our Mobile (Portable) and Bag Type Intubation/Respiratory Device; being able to work mobile in areas where fixed stations of 70 kg and 160 cm connected to 220v city network cannot be used, providing the oxygen pressure needed with digital data other than personal feelings (health personnel's prediction), and being able to be operated without separating from the patient from the beginning to the end of the intervention. ) and Bag Type usage are innovations.

Application of the Invention to Industry

Our invention is related to a new generation Mobile (Portable) and Bag Type intubated respirator designed to be used in hospitals, ambulances, AFAD, UMKE, institutions in the health sector and serving these sectors, in the areas and vehicles prescribed by the Ministry of Health, and it serves the health sector. It can be used in areas and vehicles permitted by the Ministry of Health. It is preferred because it is completely domestic and national and with other advantages.

Claims

1. The invention is a mobile (portable) and bag type intubated respirator device which is designed to be used in hospitals, ambulances, AFAD, UMKE, institutions in the health sector and serving these sectors, areas and vehicles prescribed by the Ministry of Health characterized in that ;

- the air hose (1 ) that provides the patient's breathing and transmits the oxygen coming out of the air balloon (2) to the patient's lung,

- an air balloon (2) that produces oxygen with the pressure provided by the pressure arm (3),

- the pressure arm (3), which applies pressure to the air balloon (2) with the power it receives from the engine (4),

- the engine (4) that moves the pressure arm (3) with 12v dc 60nm power,

- the upper chassis (5), which enables the engine (4) and the pressure arm (3) to operate and provides connection to the main chassis thanks to the hinges (6), can be opened for manual use when necessary, and is closed and connected to the lower chassis (7) with bolts.

- the hinge (6), which connects the upper chassis (5) and the lower chassis (7), and provides the opportunity for manual use and maintenance when necessary,

- the lower chassis (7), which contains the control cards (11), battery (14), sensors (9,10), air balloon (2) equipment and is the main center of the power to which the upper chassis (5) is connected,

- air pressure sensor input (8), which is one of the electromechanical equipment that measures the pressure of the amount of oxygen applied to the lungs and transmits this value to the control card (11),

- the air flow sensor (9), which is one of the electromechanical equipment that measures the oxygen/carbon dioxide

(breathing/exhaling) limits that enter and exit the lungs during the patient's breathing, and transmits these data to the control card (11) and mediates the sending of the amount of oxygen to be sent, - pulse oximeter sensor (10), which is one of the electromechanical equipment that measures the oxygen level in the patient's blood and transmits this data to the control card (11 ) and notifies the control card (11 ) about the amount of oxygen to be applied,

- electronic cards (11 ) that ensure the operation of the engine (4) driver card by transferring the data received from the pulse oximeter sensor (10), air pressure sensor and air flow sensor (9) equipment,

- control panel (12), which is one of the electromechanical equipments, where the Mobile (Portable) and Bag Type intubated respirator device is started and stopped, the pressure amounts are displayed and control buttons are located,

- On/off (13), which is one of the electromechanical equipment that enables the opening and closing of the Mobile (Portable) and Bag type intubated respirator device.

- the battery (14) that provides the energy that may be needed during the transfer of the patient to the intervention area in the environment where the mobile (portable) and bag type intubated respirator device does not have electrical energy (e.g., the scene where there is no electrical energy to be reached on foot)

- the external energy input (15) which is connected vehicle cigarette lighter connection input, 12V DC input, 220V AC input with 3 different energy intakes, which charge the battery (14) on the Mobile (Portable) and Bag Type intubated respirator device and the battery ( 14) is an electronic connection equipment that is fed from an external source by cutting the charge when it reaches full charge (approximately 1 hour) and

- mobile (mobile) and bag type, which can be used in areas where fixed standard stations operating connected to the city network cannot be used, and can be used manually when necessary,

- includes software with an integrated algorithm in the system, which measures the amount of oxygen in the blood and ensures that the appropriate respiration and oxygen pressure are applied to the patient, - oxygen supplementation can be made by providing the oxygen pressure needed with digital data,

- it is a new generation mobile (portable) and bag type intubated breathing device that is operated without separating from the patient from the beginning to the end of the intervention and does not require another breathing / intubation device from the moment it is applied to the patient until the end of the operation.