CS263184B1 - Drain the valve mainly for measuring the arterial blood pressure by an indirect method - Google Patents

Abstract

The essence of the solution is the valve body, which is equipped with a cylindrical seat at one end and a shaped recess at the other end, in which a curved rim is formed on the control nut. The nut together with the throttling element closes a concentric hole into which a transverse hole extends. The solution can be used in devices for measuring blood pressure by the indirect method with a deformed or liquid pressure gauge.

Description

The solution relates to a discharge valve of devices for measuring arterial blood pressure by a direct method with a deformation pressure gauge.

The discharge valves of blood pressure measuring devices with a deformation pressure gauge are designed such that their control needle is its axis perpendicular to the imaginary axis of the inflating channel. The unscrewing needle is secured by a transverse suture system. Such a dispensing valve arrangement does not provide full functional reliability when ingested mainly because of the centricity of the control needle guide being difficult to maintain relative to the sealing surfaces in view of manufacturing technology. The perpendicular alignment of the discharge valve axis relative to the cuff inflation channel causes the remainder of the powder cuff separator, which is not enough to follow its perpendicular bend when discharged, and is inflated to the next functional part, to the inflation valve of the inflatable balloon, thereby jeopardizing its proper function and hence function of the whole device.

The drawbacks of the prior art are eliminated by the discharge valve to the blood pressure measuring apparatus made of a body provided with a regulating member perpendicular to the channel axis connected to the inflatable balloon. The essence of the solution is that the valve body is provided at one end with a cylindrical shoulder and at the other end with a shaped recess in which the rim formed on the actuating nut closing together with the throttle element is a concentric opening into which the transverse opening engages. The replacement of the regulating needle with the throttle element and the method of aligning the transverse bore with the concentric bore prevents direct contamination of the powder cuff separator and the inflation valve of the inflatable balloon, as well as the dispensing valve, since these contaminants have a direct path out of the device and thus do not adhere to its functional surfaces, which ensures reliability functions of the entire valve system. Protection of the control nut against spontaneous unscrewing into the recess makes the production more economical. An example of a drain valve solution is shown in the attached drawing.

The discharge valve forms a recess 11 in the control nut 6 with a free-fit throttle element 8 closing the concentric opening 5 in the valve body I extending at one end into the cylindrical shoulder 4 for connecting the sleeve and at the other end to the threaded portion 2. T ' fit into the recess 2 formed in the valve body 1. A transverse opening 10 connecting the concentric opening J3 with the inflatable balloon is formed in the apparatus body j). By acting on the inflatable balloon coupled by the transverse opening 10 and the concentric opening 5, the compressed air flows through the cylindrical shoulder 4 into the sleeve and on the other hand into the deformation pressure gauge when the throttle element 8 is seated on the corresponding part of the concentric opening 5.

In the arterial blood pressure measurement phase, the air from the cuff is discharged under the throttle element 8 through the recess 11 by releasing it by turning the control nut 6.

The discharge valve can be used with both blood pressure and liquid pressure gauges for indirect blood pressure measuring devices.

Claims (1)

Drain valve mainly for blood arterial pressure measuring devices, made of a body provided with a control member perpendicular to the axis of the channel connected to the inflatable balloon, characterized in that the valve body (1) is provided with a cylindrical shoulder (4) at one end and a recess (3), in which a bent rim (7) is formed on the control nut (6) closing together with the throttle element (8) a centered opening (5) into which the transverse opening (10) extends.