RU1800963C - Device for indirect measurement of blood pressure - Google Patents

Description

FIG. 2

The invention relates to medical equipment, in particular to diagnostic cardiological equipment and devices for the study of hemodynamics.

The purpose of the invention is to expand the scope of the device.

This goal is achieved by the fact that in the device for indirect determination of blood pressure, comprising a housing, a pellet pivotally mounted in the housing with the possibility of angular oscillations around the axis of the hinge, the transducer, the housing and the pelot are made in the form of an elastic plate with two HT-shaped grooves symmetrical with respect to the axis of the hinge the ends of the grooves facing each other and separating the body from the pellet, the elastic joint being formed by jumpers between the ends of the U-grooved grooves, in addition, the device is equipped with a rigid cover second, secured to the housing.

A set of features to expand the scope of the device, i.e. use of a device for measuring blood pressure in children is not found in prior art solutions.

In FIG. 1 shows an apparatus for indirectly determining blood pressure; figure 2 is a section aa of figure 1.

The inventive device (figure 2, figure 1) consists of a housing 1, a pilot 2 with a contact surface 3, made in the form of an elastic plate having two C-shaped grooves A and 5, separating the housing 1 from the pilot 2. U-shaped the grooves 4, 5 are facing each other with their ends, the jumpers 6 between the ends of the grooves form an elastic hinge that allows the pelot 2 to make an angular oscillation relative to the housing 1. 1 Similar grooves 4, 5 are symmetrical about the axis 7 of the hinge (a line passing through the jumpers 6). The transducer 8, for example, a piezosensitive element, with the help of struts 9 is rigidly connected at one end to the housing 1, the other to the pilot 2. The transducer is parallel to the contact surface 3 of the pilot 2, perpendicular to the hinge axis 7. It should be noted that the device may have not one, but several, for example two, converters located parallel to each other. In this case, the design of the device is similar to the design with one transducer. The proposed device is equipped with a thin-walled rigid cover 10, fastened to the housing 1 and closing the transducer 8,

The proposed device operates as follows.

A compression cuff is applied to the surface of the patient’s body with the artery and an apparatus for indirectly determining blood pressure is placed under it so that the contact surface 3 of the pelota 2 is facing the patient’s body and the lid 10 is facing the cuff. Wherein

the jumpers 6 between the U-shaped grooves 4, 5 are twisted, providing an angular oscillating movement of the pilot 2 relative to the housing 1. At the time when the pilot 2 is angled to the housing 1, due to the rigid fastening of the transducer 8 at one end on the pilot 2 and the other on the housing 1, transducer 8 bends to produce an electrical signal proportional to the amplitude of the oscillations.

A symmetrical arrangement of the U-shaped grooves in relation to the hinge axis 7 is necessary so that under pulsating pressure in the cuff or muscle contractions of the body under the cuff, the forces acting on the two surfaces of the pilot 2, separated by axis 7, are aligned and angular oscillations of the pilot do not occur 2.

The thickness of the elastic plate and the dimensions of the bridge 6 between the grooves 4. 5 are selected so that the movement of the pilot 2 in the direction perpendicular to the contact surface 3 of the pilot 2, as well as the bending of the pilot 2, does not occur.

Hard thin-walled cover 10,

fastened to the housing 1. closes the transducer 8 from the impact of the cuff and eliminates the bending of the housing 1.

Thus, the inventive device, due to the implementation of the body, pelota and ball

nira in the form of a sufficiently thin elastic plate, the proposed configuration, as well as the use of a thin-walled rigid cover that covers the transducer and gives rigidity to the body, allows, compared with the prototype, to reduce 1.5 ... 2 times the thickness of the device, the value of which does not exceed 2.5 mm.

That is, the proposed β-device can be used 50 to determine blood pressure in children, especially in infants.

Claims (2)

1. An apparatus for indirectly determining blood pressure, comprising a pellet articulated in a housing and cooperating with a transducer. characterized in that, in order to increase the sensitivity, the housing is provided with a contact plane, the hinge is made elastic and is a jumper in the plane formed by two U-shaped grooves, the ends of which facing each other, and the pelot and contact surface are made in the form of elastic plates. 2. The device pop 1. differs in that the case is equipped with a cover. ,1 1