SU980716A1 - Device for control of artificial ventilation of lungs - Google Patents

Description

The invention relates to medical equipment and relates to mechanical ventilation devices.

A device for controlling a ventilator, comprising a base, vo ⁵ Dilo increment chest volume increment sensor chest volume, and means fixing the device on the patient in the form ΐ1J belt. ''

However, the known device is difficult to maintain due to the need for individual adjustment and calibration of the sensor for each patient, and also does not provide the ability to determine the beginning and end of inspiration and exhalation directly, without additional conversion of the analog signal, which drastically reduces the accuracy of monitoring the appearance of inspiration and expiration, and therefore and precision control of a ventilator.

The purpose of the invention is to improve the accuracy of controlling the appearance of the moment ’the beginning of inspiration and expiration and simplification.

This goal is achieved by the fact that in the device for controlling the artificial lung ventilation apparatus containing a base, a carrier for incrementing the volume of the chest, a sensor | for incrementing the volume of the chest and means for fixing the device on the patient in the form of a belt, the increment sensor is located on the base made with guide grooves for the carrier-increment and pivotally connected to one end of the belt and connected by a spring to the other end of the belt, and is made in the form of a proximity switch and a rotary two-shouldered lever, n and on one shoulder of which there is a magnet connected with an increment carrier made of a magnetically conductive material located in a directional view. lightweight 2 with '' 3 grooves of the base and pivotally connected to the end of the belt, connected by a spring to the base.

The drawing shows a device for controlling a ventilator, a general device for controlling a ventilator contains a base 1, a carrier for increasing the volume of the chest, a sensor for incrementing the volume of the chest, made in the form of a proximity switch 3 and [rotary two shoulders lever 4, and located on the basis of 1, made with guide grooves A for the carrier 2 of attachment ¹ and pivotally connected to one end of the device fixation means on the patient in the form of a belt 5 and soy, a spring another 6 with the other end of the belt 5, and / on one shoulder of the two-shoulder lever 4 there is a magnet 7 connected to the increment carrier 2 made of a magnetically conductive material located in the guide grooves A of the base 1 and pivotally connected to the end of the belt 5, connected by a spring 6 1, while the device leveling screws 8.

Device way.

Device patient body

During the patient’s breathing, the increment carrier 2 is moved using the pivotally end of the belt 5 in the guide grooves A of the base 1 by a value proportional to the change in the chest volume with the patient’s breathing rate. When inhaling, the increment carrier 2 interacts with the magnet 7, and the base is installed; it adjusts to the next one and is tightly fixed to the belt 5.

980716 4 of the response sensitivity of the switch 3. In the exhale, the end of the belt 5, connected to the base 1 by the springs 6, moves the associated 2 articulated carrier 2 increments in the opposite direction. The carrier 2 increments, in turn, interacts with the magnet 7 of the lever 4, moves the movable part of the switch 3 from the point of operation, thereby, the shaping of the output signal stops for the expiration time. Thus, the constant signal generated by the switch 3 at the moment of the start of inspiration and remaining throughout the entire time corresponding to the inspiration of the patient enters the control circuit of the artificial lung ventilation apparatus, which provides the supply of kis30, loroda to the patient, synchronously with the patient's independent breathing.

The use of the device in combination with an artificial lung ventilation apparatus provides high accuracy of control of the phases of respiration, reliability and ease of maintenance, and allows for artificial lung ventilation in patients after lung surgery, which is. an important factor in the prevention and treatment of acute respiratory failure, hypoventilation and pelvic.

Claims (1)

(5) DEVICE FOR CONTROLLING THE DEVICE OF ARTIFICIAL VENTILATION OF THE LUNGS The invention relates to medical technology and relates to artificial lung ventilators. A device for controlling a ventilator of the lung, comprising a base, has been known for incrementing the volume of the chest, a sensor for increasing the volume of the chest, and means for fixing the device on the patient in the form of a belt C 1. However, the known device is difficult to maintain due to the need for individual fitting sensor calibration for each patient, and also does not provide the ability to determine the beginning and end of inspiration and distance, without additional conversion of the analog signal, which is reduces the accuracy of monitoring the occurrence moment of inhalation and exhalation, and consequently the accuracy of the control apparatus of an artificial pulmonary ventilation. The purpose of the invention is to improve the accuracy of control of the onset of inhalation and expiration and simplify maintenance. The goal is achieved by the fact that in the device for controlling the ventilator, containing the base, the chest volume increment sensor, chest volume increment sensor and fixation device device on the patient in the form of a belt, the increment sensor is located on a base made with guide grooves for the carrier increment and pivotally connected to one end of the belt and connect spring with the other end of the belt, and made in the form of a contactless switch and a rotary two-armed lever, on one arm of which there is a magnet connected to an incremental carrier made of magnetic conductive material located in the grooves of the base and pivotally connected the end of the belt connected by a spring with a base. The drawing shows a device for controlling a ventilator, general view. A device for controlling the pulmonary ventilation apparatus comprises a base 1, a carrier 2 increments the chest volume, a chest volume increment sensor made in the form of a contactless switch 3 and a rotary double lever, and located on the base 1, made with guides with grooves A for a carrier of 2 increments and connected with one end of the means of fixing the device on the patient in the form of a belt 5 and a connected spring 6 with the other end of the belt 5, and / on one shoulder of the two shoulders lever k magnet 7 connected to the increment carrier 2 made of a magnetic conductive material located in the guide grooves A of the base 1 and pivotally connected to the end of the belt 5 connected by a spring 6 with the base 1, the device having adjustment screws 8. The device works as follows. The device is fixed on the patient's body with the help of belt 5. When the patient is breathing, the carrier 2 increments is moved by means of a pivotally connected end of belt 5 in guide grooves A of base 1 by an amount proportional to the change in the chest volume with the patient's respiratory rate. When inhaling, the carrier 2 increments interacts with the magnet 7 mounted on one shoulder of the pivoting two shoulders lever 4 and carries it along with it, thereby turning the other arm of the lever C, which is the moving part of the contactless switch 3. At the same time, when the movable part of the switch 3 will override the switch trigger point, switch 3 generates a discrete output for the entire breath time. The beginning of the formation of the signal lags behind the beginning of inhalation by the value of uE, and the end of the formation of the signal from the end of inhalation by the value of Afj, and these values are determined by the zone 8 adjusted by screws 8 and the sensitivity of the switch 3 triggered. 1 by the springs 6 moves the pivotally connected carrier 2 increments in the opposite direction. The drive 2 increments, in turn, interacts with the magnet 7 of the lever C, moves the moving part of the switch 3 from the trigger point, thereby, the funding of the output signal is stopped for the duration of expiration. Thus, the constant signal generated by switch 3 at the time of inhalation and maintained throughout the entire time of the patient’s inhalation enters the control circuit of the ventilator, which delivers the oxygen to the patient synchronously with self-contained respiration. the patient. T | name of the device in conjunction with an artificial ventilation device | lung function, provides high accuracy of control of the respiratory phases, reliability and ease of maintenance, and allows artificial ventilation of the lungs in patients after lung surgery, which is an important factor in the prevention and treatment of acute respiratory failure, hypoventilation and atelectasis. Claims An apparatus for controlling a ventilator comprising a base, a carrier for increasing the volume of the chest, a sensor for incrementing the volume of the chest, and means for fixing the device to the patient in the form of a belt, In order to improve the accuracy of monitoring the moment of inhalation and expiration and simplify servicing, the priming sensor is located on a base made with guide grooves for the incremental carrier and pivotally connected to one end of the belt and connected spring with the other end of the belt, and is designed as a non-contact switch and a two-arm swing arm, on one arm of which there is a magnet connected to an increment carrier made of magnetic conductive material located in the guide grooves of the base and hinged to the end 5980716 tom belt connected by a spring with the OS-1- U Myshev RI e.uue "on the equipment for the study of physical and optical information. logical processes. M., Energy -, taken into account during examination 1969, p. 117-but. TTJV oxygen supply to the patient