SU1119063A1 - Device for simulating mechanical ijuries of objects of forensic medecine - Google Patents

Abstract

1. A DEVICE FOR MODELING MECHANICAL DAMAGES OF THE OBJECTS OF JUDICIAL MEDICINE, containing a device for reproducing forces, a sensor, characterized in that, in order to improve the accuracy of modeling mechanical damages of forensic medicine objects by eliminating the influence of subjective factors, the device for reproducing efforts is fixed on a lever, a fixture of reproduction of forces on a lever, a fixture of reproduction of forces on a lever, a tool of reproduction a traverse pivotally mounted on two vertical posts with the possibility of moving along them, the device being provided with a protractor, soy with traverse. 2. The device according to claim 1, characterized in that the force reproduction device is made in the form of a cylindrical body with an internal partition and is provided with a rod with a flange and a spring mounted on the rod. and fixed at one end in the annular recess of the housing partition, and the second - on the stem flange, and the brush is provided with a fixing head fixed at one end of it, and the second end of the stem is made with a hole. 3. The device according to claim 1, characterized in that I the sensor is made in the form of a photocell (L and a light source installed in the housing of the reproducing force from different sides of the longitudinal axis of the sltoch.

Description

The invention relates to experimental medicine and can be used in forensic medicine to study the mechanogenesis of damage.

Devices for studying mechanical damage are known, which are based on the conversion of mechanical energy of an impact into an electrical signal, as well as devices for causing damages of the type of dynamometry without such converters.

The closest in technical essence and the achieved positive effect to the invention, designed to simulate mechanical damage to forensic medicine objects, is a tensometric device such as a hammer, which contains a cylindrical body (percussion strength element) connected to the handle, one end of the body is closed by a lid, and the other is on the sliding fit of the hammer. A transducer of mechanical energy of impact into an electric signal — massdose 1 — is placed between the lid and the striker.

However, the design of this device is characterized by the impossibility of striking with predetermined physical parameters and the inability of the device to register shocks with small forces. In addition, the blows with a strain gauge device such as a hammer can be applied only by the experimenter’s hand, which does not allow for the reproduction of a series of metered shocks (blows with the same energy and speed) and thereby reduces the accuracy of the simulation.

The aim of the invention is to improve the accuracy of modeling mechanical damage to forensic medicine objects by eliminating subjective factors.

This goal is achieved by the fact that in a device for simulating mechanical damage to forensic medicine objects containing a device for reproducing forces, a sensor, a device for reproducing forces is mounted on a lever fixed on a traverse pivotally mounted on two vertical racks that can be moved along them goniometer connected to the crosshead.

The device for reproducing forces is made in the form of a cylindrical body with an internal partition and is equipped with a rod with a flange and a spring mounted on the rod and fixed at one end in the annular recess of the body partition, and the second on the stem flange, and the rod is provided with a fixing head mounted on one of its ends and the second end of the rod is made with a hole.

The sensor is made in the form of a photocell and a light source installed in the housing

adaptations for reproducing forces from different sides of the longitudinal axis of the rod.

Such an implementation of the proposed device makes it possible to eliminate the influence of subjective factors in the simulation of mechanical damage to forensic medicine objects.

FIG. 1 shows the device, a general view; in fig. 2 is a device for reproducing stresses.

J

A device for simulating mechanical damages of forensic medicine objects contains two vertical posts 1 with a cross bar 2 mounted on vertical stands 1 that can be moved along them, a protractor 3 mounted on the rack and connected to the cross bar 2, a handle 4 that is movably fixed on the cross bar 2 , a device for reproducing forces 5, mounted on one end of the handle 4.

The device for reproducing forces 5 consists of a cylindrical body 6 with an eye, in front of which a spring 7 with a stem 8 is placed, a universal head 9 fixed at one end of the rod 8, and at the second end of the rod a curtain 10 with a window 11, the light source 12 and a photocell 13 installed in the housing, 6 on opposite sides of the rod 8. A device for simulating mechanical damage to forensic medicine objects works as follows.

The body of the reproducing force is retracted from the equilibrium position to the given angles, which allows strikes with the same calculated force and energy. After the gun mounted in the fixing unit is set in motion with the help of the universal head 9, the latter strikes the struck object, and the force is transmitted from the gun

On the pin 8, compressing the spring 7. Due to the movement of the pin 8, the shutter 10 mixes and the light flux from the light source 12 begins to fall on the photocell 13, causing an electric signal in it that is detected by the device. Since the electrical signal produced by the photocell 13 is directly dependent on the magnitude of the luminous flux, the electrical signal will be proportional to

0 on the degree of compression of the spring 7 and, thus, on the strength of resistance of the tissues of the damaged object. The maximum value of the electrical signal is recorded by the device and is equivalent to the maximum value of the tissue resistance force. Before modeling, spring 7 is calibrated to a device for reproducing forces 5 to obtain figures equivalent to

the magnitude of the electrical signal with the construction of graphs, which is used to calculate the magnitude of the tissue resistance force. The design features of the device, if necessary, allow separating the body 6 from the handle 4 and use the device for reproducing forces 5 with a tool for applying mechanical damage by the hand of the experimenter.

The proposed device, unlike the prototype, allows strikes with pre-calculated physical quantities, as well as registering the strength of tissue resistance, which improves the accuracy of modeling mechanical damage to forensic medicine objects and eliminates the influence of subjective factors.

Srig.2

Claims (3)

1. DEVICE FOR SIMULATING MECHANICAL DAMAGE TO OBJECTS OF JUDICIAL MEDICINE, containing a device for howling ¹ product of effort, a sensor, characterized in that, in order to improve the accuracy of modeling mechanical damage to objects of forensic medicine by eliminating the influence of subjective factors, the device for reproducing efforts is mounted on the lever, mounted on a traverse pivotally mounted on two vertical uprights with the ability to move along them, and the device is equipped with an angle meter, nnym with cross. 2. The device according to π. 1, characterized in that the device for reproducing efforts is made in the form of a cylindrical body with an internal partition and is equipped with a rod with a flange and a spring mounted on the rod, and fixed at one end in the annular recess of the body partition, and the second on the rod flange, and the rod is equipped with a locking a head mounted on one of its ends, and the second end of the rod is made with a hole. 3. The device according to π. 1, characterized in that g the sensor is made in the form of a photocell ~ and a light source installed in the housing of the device for reproducing forces from different sides from the longitudinal axis of the rod. FIG. 1