RU2026006C1 - Device for measuring ventilation factors of lungs - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: mouthpiece 9 is mounted into union 7 of flange 3 for measuring discharge at forced exhalation. Under effect of exhalation the spring-loaded piston 11 moves along rod 10 and interacts with indicator 13 which is disposed in longitudinal slot 2 of case 1. In this case tape 16 of back valve which is disposed between strip 14 and case 1 is lifted above the slot under action of air flux. In order to measure forced inhalation, mouthpiece 9 is mounted into union 8 of flange 4. Air flux which passes through holes 20 creates rarefaction in case 1 when compressing tape 16 against slot 2. Piston 11 when moving shifts indicator 13. Value of discharge is determined by means of corresponding inhalation or exhalation scales 18 or 19. Indicator 13 returns into initial position by slider 17 which is located in slot 2. The slider embraces tape 16 of back valve and strip 14. EFFECT: improved precision of measurement. 3 dwg

Description

 The invention relates to medical equipment, in particular to equipment designed to determine the maximum air flow during forced inspiration and expiration.

 A device for measuring ventilation parameters of the lungs, comprising a cylindrical body with a longitudinal slot, flanges with through holes and a fitting for connecting the mouthpiece, a spring-loaded piston movably mounted on the rod, interacting with a pointer located in the housing slot. However, this design does not provide a measurement of air flow during forced inspiration.

 The aim of the invention is to expand the functionality of the device and increase the reliability of its operation.

 This goal is achieved by the fact that the device is equipped with an additional fitting for connecting the mouthpiece, a slider installed in the slot of the housing with the ability to interact with a pointer, a check valve and a strip with a slot fixedly mounted on the housing, while the cuts of the housing and strip are aligned, and the valve is made in in the form of a transparent tape installed in the gap between the strap and the body, with the possibility of overlapping the slots of the latter, and the slider is made with the possibility of free longitudinal movement Flax strips and valves.

 In FIG. 1 shows a longitudinal section of a device; in FIG. 2 is a section AA in FIG. 1 (the position of the tap of the non-return valve in the inspiratory mode; in Fig. 3 - section BB in Fig. 1 (the position of the tape in the exhalation mode).

 The device comprises a cylindrical body 1 with a longitudinal slot 2, exhalation flanges 3 and inspiration 4 with through holes 5 and 6. On the flanges are fittings 7 and 8 for connecting the mouthpiece 9. Inside the housing 1 between the flanges 3 and 4 there is a rod 10 with a movably mounted on it with a piston 11 and a spring 12. In the slot 2 there is a pointer 13 interacting with the piston 11. A strap 14 is installed on the housing with a slot 15 located above the slot 2 of the housing 1. The strap 14 is fixedly attached to the flanges 3 and 4 on both sides. In the gap between case 1 and strap 14 times the check valve 16 is made in the form of a transparent tape covering the slot of the housing. A slider 17 is installed in the slot 2 of the body, covering the bar 14 and the tape 16 with the possibility of free longitudinal movement relative to the valve bar 16 and ensuring the return of the pointer 13 to its original position. On the bar 14 are the scales of inspiration 18 and exhalation 19, and on the body (from the side of the flange 4) there are openings 20 connecting the inspiration cavity to the atmosphere.

 The operation of the device is as follows. To measure the air flow during forced expiration, the mouthpiece 9 is installed in the fitting 7 of the flange 3. The slider 17 is moved to the extreme right position and returned to the leftmost position (Fig. 1), while the pointer 13 is set to its original position, in contact with the piston 11. The mouthpiece is covered lips and forced expiration is performed, while under the influence of exhalation pressure, the piston 11 moves along the rod 10, stretching the spring 12 and moving the pointer 13. The tape 16 of the check valve rises above the housing 1, passing a stream of air. At the end of the exhalation, the spring 12 returns the piston 11 to its original position, and the pointer 13 remains in place, indicating the amount of flow during exhalation on a scale of 19. For repeated measurements of the flow, the pointer 13 is returned by the slider 17 to its original position. Visual observation of the pointer 13 is made through the slot 15 of the strap 14.

 To measure the flow rate during forced inspiration, the mouthpiece 9 is installed in the fitting 8 of the flange 4, is covered by the lips and forced inspiration is performed. The air flow passing through the holes 20 creates a vacuum in the internal cavity of the housing 1, while the check valve belt 16 closes the slot 2 of the housing 1, and the piston 11 moves along the rod, stretching the spring 12 and moving the pointer 13. The amount of flow during inspiration is determined by the scale eighteen.

Claims (1)

 DEVICE FOR MEASURING LIGHT VENTILATION INDICATORS, comprising a cylindrical body with a longitudinal slot, two flanges with through holes and a fitting for connecting the mouthpiece, a spring-loaded piston movably mounted on the rod, interacting with a pointer located in the housing slot, characterized in that, in order to expand the functional device capabilities by providing measurement of air flow during forced inspiration and increasing the reliability of the device, it is equipped with an additional w UTSER for connecting the mouthpiece, a slider installed in the slot of the housing with the possibility of interaction with the pointer, a check valve and a strip with a slot fixed to the housing, while the slot of the housing and the strip are aligned, and the valve is made in the form of a transparent tape installed in the gap between the strip and a body with the possibility of overlapping the slots of the latter, and the slider is made with the possibility of free longitudinal movement relative to the strap and valve.

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