RU188158U1 - ENDOTRAKHEAL TUBE INPUT VISUALIZATION DEVICE - Google Patents

Abstract

The proposed technical solution relates to the field of medicine and can be used in case of complex intubation for patients with various anatomical features with the lower jaw and larynx. The technical result is to ensure timely connection of the patient to the artificial respiration apparatus in cases of complex intubation without injuring the pharynx and larynx. Technical result achieved due to the modified design of the blade (the blade is a video image transmitter), the use of a video camera, boxing with electric an electronic circuit for transmitting video over a 2.4 GHz radio channel to a 2.4 GHz radio monitor located above the blade-to-handle mounting connector, while the blade has the ability to operate with a laryngoscope handle with a battery, configured to be connected to an external radio monitor receiving a signal at a frequency of 2.4 GHz, and a box with an electronic circuit is installed above the connector for attachment to the handle with a rotary latch. The most rational area of application of the proposed technology eskogo solutions are medical health care institutions.

Description

The proposed technical solution relates to the field of medicine and can be used in case of complex intubation for patients with various anatomical features with the lower jaw and larynx.

From the existing level of medical technology, a laryngoscope for complex intubation is known (patent RU2400125 C1, publ. September 27, 2010), which contains a hollow handle detachably connected to a curved blade on which a light source is mounted, and curved in the same direction pivotally connected to the blade, as the blade, and longer than it, a narrow plate having a lever for removing the plate from the blade. The plate has a mirror surface, or, opposite the light source, a mirror element is mounted on it.

A disadvantage of the known device is that it is necessary to look at the pharynx and larynx through the mirror surface, which can lead to inaccuracies and mechanical damage to the pharynx and larynx when placing the endotracheal tube in the trachea.

It is also known the technical device "Wireless control of laryngoscope system" (patent US 20120169481 A1, publ. 05.07.2012), which includes a blade and contains a box with an electronic circuit for transmitting video images over the air and a video camera with a lighting LED located at the distal end blade.

The disadvantages of the known technical device (patent US 20120169481 A1, publ. 05.07.2012) include the following:

- on the handle of the laryngoscope there is an all-in-one wire for transmitting power to the laryngoscope and transmitting video images (there is the possibility of wireless data transfer), if the electronic part located in the laryngoscope fails, most of the components in the device located in the laryngoscope itself will need to be replaced, which leads to to additional costs and inconveniences in operation;

- the device operates only with the display as part of the device, which limits the ability of the display means capable of displaying an image of intubation, there is no data on the applied radio channel,

- in the device, signals are transmitted through the cord (cable), the cord (cable) is always present in the device,

- the blade is not an image transmitter,

- the blade cannot be placed on the standard handle of a laryngoscope.

As the closest analogue, the technical device for visualizing the input of the enodracheal tube D1 (US 2017300623 A1, publ. 05.07.2012) is adopted, including a handle, blade, video camera with a lighting LED located at the distal end of the blade, while the blade is supplemented with a box with an electronic video transmission scheme for radio channel at a frequency of 2.4 GHz and is a non-separable design with a blade, while the blade itself has become a video image transmitter and has the ability to function with a standard laryngoscope handle from the battery said secondary battery capable of connection to any external radiomonitoru, receiving a signal at a frequency of 2.4 GHz.

The task, which is aimed by the claimed technical device, is to ensure timely connection of the patient to the artificial respiration apparatus in cases of complex intubation without injuring the pharynx and larynx, as well as minimizing the number of components of the device and the possibility of using the standard blade as amended, used in public health institutions , which is combined with a standard holder of a laryngoscope, as well as the developed solution can transmit ideosignal radiomonitor for receiving on the licensed frequency band of 2.4 GHz.

This problem is solved by making changes to the existing design of the blade of a standard laryngoscope, on the blade of which instead of a bulb (LED) there is a video camera with a lighting LED and a sealed box with an electronic circuit that allows you to transmit an image via a radio channel to a radio monitor that receives a video signal at a licensed frequency of 2.4 GHz It is important that the design remains collapsible, which allows you to change the size of the blade and sterilize it separately from the handle of a standard laryngoscope, while it contains a minimum number of components of the device. The modified blade is a transmitter of intubation video.

The technical result provided by the given set of features is to ensure timely connection of the patient to the artificial respiration apparatus in cases of complex intubation without injuring the pharynx and larynx.

The technical result is achieved due to the changed design of the blade (the blade is a video image transmitter), the use of a video camera, a box with an electronic circuit for transmitting video images via a 2.4 GHz radio channel to a radio monitor operating at a frequency of 2.4 GHz, which is located above the blade mounting connector to the handle, in this case, the blade has the ability to function with the handle of a laryngoscope with a battery, that is, the ability to connect to an external radio monitor that receives a signal at a frequency of 2.4 GHz, and the box with an electric The circuit diagram is mounted above the connector for attachment to the handle with a rotary latch.

The device is illustrated in the figure, which shows the structural diagram of the device for visualizing the input of the endotracheal tube, where 1 is a video camera, 2 is a blade, 3 is a sealed box with an electronic circuit for transmitting video images over a radio channel at a frequency of 2.4 GHz, 4 is a laryngoscope handle, 5 is a radio monitor, capable of receiving video on a 2.4 GHz radio channel.

The endotracheal tube input visualization device includes a blade of a modified design (2), which is a video image transmitter, on which a sealed box (3) with an electronic circuit for transmitting video images over a radio channel at a frequency of 2.4 GHz and a video camera (1) is located above the handle mounting connector with a rotary latch with built-in light-emitting diode, fixed at the attachment point that does not interfere with the use of the stylet together with the endotracheal tube, the handle of the laryngoscope with a rotary latch (4), radio monito (5) operating at a frequency of 2.4 GHz.

The visualization device input endotracheal tube works as follows. A redesigned blade is connected to the handle in which the battery - battery is located, through a connector with a rotary latch, on which there is a sealed box with an electronic circuit for transmitting video images over a radio channel at a frequency of 2.4 GHz and a video camera with a lighting LED. After connecting the handle and blade, the device is powered through the spring-loaded contact of the handle of the laryngoscope, a video camera with a lighting LED and an electronic circuit located in an airtight box that can transmit video images to any existing 2.4 GHz radio monitor in which can be provided using the control buttons for recording cases of complex intubation on the SD memory card and there is an analog video output and a USB slave interface.

The most rational area of application of the proposed technical solution is medical healthcare facilities.

Claims (1)

An endotracheal tube input visualization device, including a handle, a blade, which is inextricably connected to the box with an electronic video transmission scheme for a video channel at a frequency of 2.4 GHz, a video camera with a light-emitting diode located on the distal end of the blade, while the blade has the ability to operate with the handle of a laryngoscope with battery, made with the possibility of connecting to an external radio monitor receiving a signal at a frequency of 2.4 GHz, characterized in that the box with an electronic circuit is installed flax over the connector for attachment to the handle with a rotary latch.

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