RU2447836C1 - Diagnostic device for muscle tone condition - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment and aims at diagnosis of a muscle tone condition. A device comprises a body, a probe immersed in muscular tissue and movable in a bearing sleeve movable with respect to the body and provided with an end plate, a first spring placed inside the sleeve and setting against in its front face and in the probe; the sleeve is compressed when the probe moves inside the body while testing muscular tissue; also there is a second spring of greater compression setting against the body and a sleeve tail and compressed when the sleeve moves inside the body; the device also comprises an electromechanical probe immersion into electric signal. A converter represents an encoder with an optical disk rotatable by a mechanism with a drive toothed rack on the sleeve tail and carrier wheels. The converter is coupled with a recording electronic module actuated by a limit electric switch when the sleeve moves into its extreme position. What is provided is a PC electronic module interface.

EFFECT: use of the invention provides higher diagnostic accuracy in the muscle tone condition.

6 cl, 3 dwg

Description

The invention relates to medicine, specifically to the diagnosis of muscle tone.

A device for diagnosing muscle tone is known from US Pat. No. 5,879,312. An indicator of tonus here is the hardness of soft muscle tissue, determined by the depth of immersion in it of the probe when it is pressed. The known device is an analogue and prototype of the invention. The accuracy of this prototype device is insufficient for the following reasons: a) when the device uses contact surfaces to muscle tissue, they may skew relative to the tissue surface, b) the electromechanical converter of the probe immersion value into the electrical signal provided in the prototype device has a large error.

The invention is aimed at solving the problem of improving the accuracy of a device for diagnosing muscle tone.

The problem is solved in that in the device for diagnosing the state of muscle tone, including the body; a probe immersed in muscle tissue, placed with the possibility of movement in a support sleeve movable relative to the body; the first spring, compressed when the probe moves into the body during testing of muscle tissue; a second spring, compressed when the sleeve moves into the body during muscle tissue testing; an electromechanical converter for dipping the probe into an electrical signal; a recording electronic unit coupled to the converter, switched on from the limit electric switch when the sleeve is moved to the extreme position, according to the invention, the support sleeve is made with an end disk; the second spring is superior in elasticity to the first and placed with emphasis in the housing and in the shank of the sleeve, and a weaker first spring is placed inside the sleeve with emphasis on its inner end and in the probe; the electromechanical converter is made in the form of an encoder with an optical disk rotated by means of a mechanism with a drive gear rack on the sleeve shank and transmission gears; An interface is provided for connecting to an electronic unit of a personal computer.

In particular cases of the invention:

- the diameter of the probe is 9 ± 3 mm with a diameter of the end disk of the support sleeve 35 ± 5 mm;

- the ratio of the elasticities of the springs is in the range of numbers from 1.7 to 2.3;

- the electromechanical converter contains two gear gears to ensure the sensitivity of the electronic reader in increments of 25 ± 5 microns;

- the device is equipped with an additional end electric switch to control the return of the device to its original position after testing of muscle tissue;

- the recording electronic unit is located in the handle, which is equipped with a housing.

A technical result is expected from the implementation of the invention, which consists in increasing the accuracy of a device for diagnosing muscle tone.

The invention is illustrated by figures representing:

- Figure 1 - appearance of the proposed device for diagnosing the state of muscle tone;

- Figure 2 is a schematic longitudinal section of the proposed device in its original position, showing the main functional elements;

- Figure 3 - diagram of the device according to Figure 2 in the operating position, with the maximum immersion of the probe in the test muscle tissue.

Shown in figures 1, 2, 3, the device comprises an elongated housing 1, which is equipped with a handle 2 for using the device. In the housing there is a movable sleeve 3 with a shank 4, spring-loaded from the side of the handle. The corresponding compression spring 5 abuts against the shank and the rear end 1A of the housing, pressing the sleeve with its front radial protrusion 6 to the front housing baffle 7. The degree of movement of the sleeve in the opposite (right on the diagram) side is limited by the rear protrusion 8, pressed in this extreme position of the sleeve to the back case wall 9. The device faces the test fabric T with the front end 1B of the case, and the part of the sleeve protruding from it is provided with a disk 10 with a diameter D. A movable probe 11 with a diameter d is placed inside the sleeve in the back the end of which abuts the compression spring 12, weaker (less elastic) compared with the aforementioned spring 5.

The probe is held in place by a tail gear rack 13 attached to it, which is a link of the rack and pinion gear (not shown in the diagram). The gear of this transmission rotates the rotary optical disk 14 of the electromechanical converter 15, which is mounted on the shank of the sleeve. The electric signal generated by the converter, the value of which depends on the immersion depth of the probe in the test tissue, enters the recording electronic unit 16, equipped with a battery. To be able to connect to the electronic unit of a personal computer, an interface 17 is provided.

The principle of operation of the described device is illustrated by the diagram in figure 3. It is shown that when the device is pressed onto the muscle tissue, the springs 5 and 12 are compressed with the probe 11 and sleeve 3 moving towards the rear end of the body (to the right in the diagram). In this case, the tissue is squeezed by the disk 10 with the probe 11 penetrating into it to a depth at which the sleeve 3 is pressed by the protrusion 8 against the housing partition 9. At the moment of contact of these elements, the end electric switch 18 is activated, the signal from which is sent to the electronic unit 16, issuing a command to register the value of the angle of rotation (from the initial position) of the optical disk 14. Through the interface 17, the received data is sent to a personal computer, where it is processed according to a special program. As a result, the muscle tissue tone is determined directly through its hardness by applying standardized effort to the tissue.

Upon completion of testing, the tissue stops contacting the device with it, and its functional elements with springs 5 and 12 return to their original position according to Figure 2. To control this return, an additional end electric switch 19 may be provided, the signal from which enters the electronic unit 16. This switch shown in the device diagram is a particular feature of the invention, as is the placement of the recording electronic unit in the handle of the housing, in the presence of which it is convenient to use the device . Private are also the following features of the proposed device, increasing its accuracy:

- the diameter of the probe is 9 ± 3 mm with a diameter of the end disk of the support sleeve 35 ± 5 mm;

- the ratio of the elasticities of the springs is in the range of numbers from 1.7 to 2.3;

- the electromechanical converter contains two gear gears to ensure the sensitivity of the electronic reader in increments of 25 ± 5 microns.

In the framework of the invention, other specific implementations of the proposed device are possible, other than those shown in Figs. 1, 2, 3: for example, the housing 1 may have a cylindrical shape.

From the above description it is clear that the proposed device can be manufactured using industrially developed materials, technological processes and production equipment.

Tests of samples of the device made according to the invention showed that the proposed device is easy to use and provides a diagnosis of muscle tone with great accuracy, that is, the expected technical result is obtained.

Claims (6)

1. Device for diagnosing the state of muscle tone, including the body; a probe immersed in muscle tissue, placed with the possibility of movement in a support sleeve movable relative to the body; the first spring, compressed when the probe moves into the body during testing of muscle tissue; a second spring, compressed when the sleeve moves into the body during muscle tissue testing; an electromechanical converter for dipping the probe into an electrical signal; a registering electronic unit coupled to the converter, switched on from the end electric switch when the sleeve is moved to the extreme position, characterized in that the supporting sleeve is made with an end disk; the second spring is superior in elasticity to the first and placed with emphasis in the housing and in the shank of the sleeve, and a weaker first spring is placed inside the sleeve with emphasis on its inner end and in the probe; the electromechanical converter is made in the form of an encoder with an optical disk rotated by means of a mechanism with a drive gear rack on the sleeve shank and transmission gears; An interface is provided for connecting to an electronic unit of a personal computer. 2. The device according to claim 1, characterized in that the probe diameter is 9 ± 3 mm with a diameter of the end disk of the supporting sleeve 35 ± 5 mm. 3. The device according to claim 1, characterized in that the ratio of the elasticities of the springs is in the range of numbers from 1.7 to 2.3. 4. The device according to claim 1, characterized in that the electromechanical converter contains two gear gears to ensure the sensitivity of the electronic reader with a pitch of 25 ± 5 μm. 5. The device according to claim 1, characterized in that it is equipped with an additional end electric switch to control the return of the device to its original position after testing of muscle tissue. 6. The device according to claims 1-5, characterized in that the recording electronic unit is located in the handle, which is equipped with a housing.

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