RU2285446C2 - Diagnostic meter (versions) - Google Patents

Abstract

FIELD: medical instruments.

SUBSTANCE: diagnostic meter can be used in traumatology and orthopedics for finding oedemata in places of fractured extremities as well as for measuring characteristics of elasticity of biological tissues. According to the first version, diagnostic meter has guide with motionless base and with movable carriage provided with linear shift meter and with force meter which has indication board for showing readings. Force meter is made in form of elastic resistance-stain beam, which has to be a part of prod. Resistance-strain gauges of the beam are integrated into resistance-strain bridge; the gauges are connected to controller. According to the other version, meter has guide with motionless base and with two movable carriages, connected by elastic link. Carriage being closer to motionless base is provided with prod. Any carriage is provided with linear movement meter, digital panel for indication of linear size. Both meters can be used widely, they have low costs and high precision of measurement.

EFFECT: improved efficiency.

2 cl, 2 dwg

Description

The invention relates to medical equipment and can be used in traumatology and orthopedics to determine edema in the area of fractures of the extremities, as well as to determine the elasticity characteristics of biological tissues.

Known used to determine the magnitude of the change in tissue edema "Strain gauge dressing" - RF patent No. 115935 for a utility model adopted as a prototype. This strain gauge dressing contains a semi-rigid dressing, on which a strain gauge plate is placed, having strain gauges glued to it, combined into a bridge circuit with the possibility of connecting it to the controller.

A common essential feature with the proposed technical solution according to option 1 of the formula is the presence in the measuring device of a sensitive strain gauge element, the strain gauges of which are combined in the strain gage and connected to the controller.

Common for option 2 of the formula is only the purpose of the meter.

The disadvantages of the strain gauge dressing are the need for each patient to have an individual meter (or even several meters), the price of the sensitive element of which is very significant, as well as the low accuracy of measuring the absolute values of edema.

The technical problem to which the proposed technical solution for both options is directed is to create a mass medical instrument that has a low price and at the same time high measurement accuracy.

To achieve the named technical result:

- according to option 1, the diagnostic meter contains a guide with a fixed base and with a movable carriage, equipped with a linear displacement meter and a force meter with digital displays to indicate readings, while the force meter is made in the form of a probe of an elastic strain gauge beam, the strain gauges of which are combined into a strain gage and connected to the controller.

- according to option 2, the diagnostic meter contains a guide with a fixed base and with two movable carriages connected by an elastic connection, of which the closest to the fixed base is equipped with a probe, each carriage is equipped with a linear displacement meter, a digital display for indicating the linear size.

Distinctive features of the proposed technical solution from the prototype are:

- according to option 1 of the formula, the diagnostic meter contains a guide with a fixed base and with a movable carriage, equipped with a linear displacement meter and a force meter with digital displays to indicate readings, while the force meter is made in the form of a probe of an elastic strain gauge beam, the strain gauges of which are combined into a strain gage and connected to the controller.

according to option 2 of the formula, the diagnostic meter contains a guide with a fixed base and two movable carriages connected with an elastic connection, of which the closest to the fixed base is equipped with a probe, each carriage is equipped with a linear displacement meter and a digital display to indicate the linear size.

Thanks to these distinguishing features, the following technical result is achieved in both cases: a diagnostic device has been created that allows numerically controlling the amount of edema at the site of the lesion with the necessary accuracy, thereby obtaining accurate indirect information about the amount of blood flow. This device can be used on the principle - one device for all patients. In addition, with this device it is also possible to determine the elasticity of tissues with the necessary accuracy, which is also an indirect characteristic of the condition of a diseased organ, such as muscle.

As a result of a search by sources of patent and scientific and technical information, a set of features characterizing the proposed diagnostic meter was not found. Thus, the present invention meets the eligibility criterion of "new."

Based on a comparative analysis of the proposed technical solution with the prior art according to the sources of scientific, technical and patent literature, it can be argued that between the totality of signs, including distinctive, and the functions performed by them and the goals achieved, there is no obvious causal relationship. Based on the foregoing, we can conclude that the technical solution in the proposed device does not follow explicitly from the prior art, and, therefore, meets the eligibility criterion of "inventive step".

The proposed diagnostic meter can be used in medicine, namely in traumatology and orthopedics for blood flow control, for example, at the site of a limb fracture, as well as in endoscopy, for example, in the study of the elasticity of the cartilage of a joint. Thus, the present invention meets the eligibility criterion of "industrially applicable".

The invention is illustrated by drawings of figures 1 and 2.

Figure 1 shows the diagnostic meter according to option 1 of the formula.

Figure 2 shows the diagnostic meter according to option 2 of the formula.

The diagnostic meter shown in Fig. 1 contains a guide 1 with a fixed base 2 and with a movable carriage 3 equipped with a linear displacement meter 5 (made similar to a digital caliper meter - a quadrature stroke sensor, for example optical, magnetically resistive, etc.), a drive which is carried out from the wheel 10 connected to the carriage and in contact with the guide 1. The carriage 3 is also equipped with a force meter made in the form of an elastic strain gauge beam 7 which is part of the probe 4, the resistors 8 which are combined into a strain gage and connected to the controller (not shown in the drawing). At the same time, to visualize the measurements of object 11, the carriage is equipped with digital displays 6 - to indicate movement and 9 - to indicate force, as well as buttons 12 to reset the gauges.

The diagnostic meter shown in FIG. 2 contains a guide 1 with a fixed base 2 and with two elastic coupling 13 made in the form of a spring (for example, an elastic sleeve, etc.), movable carriages 3, of which the closest to the fixed base 2, the carriage 3 is equipped with a probe 4. In addition, each carriage 3 is equipped with a linear displacement meter 5, a digital display 6 for indicating the linear size, and buttons 12 for resetting the readings of the meters 5.

Both versions of the meter can determine both the stiffness of the sample and its size with a calibrated force.

The diagnostic meter shown in FIG. 1 operates as follows. By installing the measured sample 11 on the surface, a meter is installed next to the base 2. Rotating the actuator 10 brings the measuring probe 4 to the sample 11. At the moment of touching the probe 4 and sample 11, the readings on the force indicator 9 begin to change. You can reset the meters on the indicators 6 and 9 by pressing the reset button 12. As soon as the force readings reach a certain nominal value (calibrated force value), the carriage stops and the linear size indication is fixed. We have the value of the force ΔF and the linear displacement ΔL that caused it inside the sample. The stiffness is calculated as the ratio ΔF / ΔL. The linear size of the sample is determined without zeroing. To do this, the probe 4 is brought to the sample 11, following the readings of the force indicator 9, and when the calibrated force value is reached, the value of the linear size is noted.

The diagnostic meter shown in FIG. 2 operates as follows. To determine the stiffness of the sample, the readings of two linear displacement sensors 5 are used. In this case, the force value F is measured as the difference of the readings of two sensors 5 - L ₁ , L ₂ , multiplied by the stiffness C of the spring 12, which is previously calibrated, i.e. F = C × (L ₁ -L ₂ ).

Here, the difference in linear dimensions indicates the amount of compression of the spring, and the course of the first carriage 3 indicates the immersion of the probe 4 in the sample. In this case, as in the first case, it is necessary after the probe 4 is in contact with the sample to zero the readings of the meters 5 by pressing the zeroing button 6. The linear size of the sample 11 is counted using the indicator of the first carriage 3 (closest to sample 11) for a certain indicator 6 carriage 3, which is previously tared.

Thus, the proposed diagnostic meter allows you to determine both the readings of the magnitude of the edema (comparing the linear size of the damaged sample 11) and the stiffness of the sample 11, which carries information about the magnitude of its pathological softening.

The implementation of the meters is possible on the basis of well-known digital linear meters, for example, the CT 200 series digital caliper, which contains a carriage with a digital display and a “0” reset button, moved by the manual drive along the guide.

Claims (2)

1. Diagnostic meter, containing a movable and fixed part, a probe connected to a movable part equipped with a linear displacement meter and a force meter containing strain gauges combined in a strain gauge, with the ability to connect to the controller, characterized in that the fixed part is made in the form of a fixed base with a guide made with the possibility of installing a movable part in it in the form of a carriage, equipped with a digital display for visualizing the readings of the linear displacement meter and measure force, while the force meter is made in the form of being part of the probe of the elastic beam, on which strain gages are placed. 2. Diagnostic meter, comprising a movable and fixed part, a probe connected to a first movable part equipped with a linear displacement meter, characterized in that it is equipped with a second movable part, the fixed part is made in the form of a fixed base with a guide with the possibility of installing two movable parts on it parts made in the form of carriages connected by an elastic connection and each equipped with a digital display to indicate the linear size, while the second carriage is equipped with a linear displacement meter, and the first carriage with the dipstick is located closer to the fixed base.

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