SU665227A1 - Stand for measuring input impedance of human body - Google Patents

Description

 one

The invention relates to a technique of mechanical testing, in particular to the study of the dynamic characteristics of objects, namely, stands for measuring the input impedance of a human body under vibration effects. It can be used in various parts of the national economy, where a person undergoes vibration in the course of work and it is necessary to determine its dynamic characteristics in order to develop effective means of vibration isolation with their consideration.

Devices are known for measuring the mechanical impedance of objects containing an electrodynamic vibrator mounted in one unit, vibration and force-measuring transducers 1.

However, such devices cannot be used to measure the input impedance of the human body.

The closest to the invention is technically a stand for measuring the input impedance of a human body under a vibration effect, comprising a vibrator, oscillating along one of the orthogonal axes, a platform connected to it, which houses the person guiding the platform there is a vibration measuring transducer on it

speed, and load transducer.

When vibrating the plane dynamic system (human body) along one of the axes of the orthogonal coordinate system located in the plane of the system, a dynamic response occurs, which can be represented as a vector, the complex ratio of components to vibration velocity determines the components of the input impedance namely, the translational component with respect to the axis coinciding with the axis of the excitation, the translational component with respect to the axis, orthogonal to the axis of the vibration effect and rotation body component about an axis orthogonal to the coordinate plane.

The known bench allows to measure only the impedance component that coincides with the direction of the vibration effect.

The aim of the invention is to create a stand that would provide the ability to measure the translational component of the input impedance about an axis orthogonal to the axis of vibration.

The goal is achieved due to the fact that the platform is made of two installed in parallel planes of parts, the first part is connected to the vibrator and connected to the second part, which serves to accommodate the person, with a device that allows the second part to move relative to the first only in the direction orthogonal their planes, the vibration measuring transducer is mounted on the first part of the platform, and the load transducer is installed between its parts. The above mentioned possibility of moving the second part is achieved by the fact that parts of the platform are displaced one relative to the other along the axis of oscillation, and the device connecting them is made in the form of hinged-lever links forming a parallelogram mechanism with them.

The drawing schematically shows the described stand.

The stand contains a vibrator 1, generating oscillations along one of the orthogonal axes (horizontal), a platform consisting of a first part 2 connected to the vibrator 1, moving along the guides 3, and a second part 4 serving to accommodate a person, a device for connecting parts 2 and 4 platforms, made in the form of hinged link 5 and 6, forming with parts 2 and 4, which are installed in parallel planes and displaced one relative to the other along the axis of oscillation, a parallelogram mechanism, a vibration measuring transducer 7, mounted on the first platform part 2, and a load transducer 8, installed between platform parts 2 and 4, so that its sensitivity axis is oriented orthogonal to the vibration axis generated by the vibrator 1. The hard seat 9 serves to measuring posture.

The stand works as follows.

Vibrator 1 generates horizontal oscillations, the amplitude of which is the vibration velocity and the shift between the vibration velocity and the driving force are kept constant in a given frequency range. With this vibration effect on a person, a dynamic reaction occurs, one of the vector components of which is orthogonal to the excitation axis. Since the second part 4 of the platform on which the person is placed has the ability to move relative to the first part 2 only in the direction orthogonal to their planes, i.e. in the direction of the indicated component of the dynamic response vector, this component can be measured with a load transducer eight.

The use of the invention will contribute to the development of more efficient means of vibration isolation and thereby improving the occupational health of the person.

Claims (2)

1. A stand for measuring the input impedance of a person's body under a vibration effect, comprising a vibrator, generating oscillations along one of the orthogonal axes, a associated platform, guides for moving the platform, a vibro-measuring velocity transducer and a force-measuring transducer, characterized in that measuring the translational component of the input impedance relative to the axis orthogonal to the axis of the vibration effect, the platform is made of two parallel planes parts, the first part is connected to the vibrator and connected to the second part, which serves to accommodate the person, a device that allows the second part of the platform to move relative to the first only in the direction orthogonal to their planes, the vibration measuring transducer is installed on the first part of the platform, and the force-measuring the converter is between its parts. 2. A stand according to claim 1, characterized in that the platform parts are displaced one relative to the other along the axis of oscillation, and the device connecting them is made in the form of hinged-lever links forming a parallelogram mechanism with them. Sources of information taken into account in the examination 1. US patent number 3633403, cl. 73-67.1, publ. 1972.