RU2629718C1 - Liquid medical thermometer - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: thermometer consists of a cylinder with a thermometric fluid, a body, a measuring capillary with an extension at the top and a scale. Inside the lower part of the body a rectangular groove is located that divides the measuring capillary into two parts. One of the parts is connected to the cylinder, and the other is aligned with the scale located outside the body. In the rectangular groove, there is a slider with thickness equal to the rectangular groove depth, width equal to the rectangular groove width, and length equal to 0.6-0.7 of the rectangular groove length. The slider contains a vertical through hole with a diameter 1.2÷1.4 times exceeding the measuring capillary diameter. The slider also includes two pushers that extend outwards from the thermometer body. The slider, being in one extreme position in the rectangular groove, connects the upper and lower parts of the measuring capillary with its opening. Being in the other extreme position in the rectangular groove, it covers the gap between the upper and lower parts of the measuring capillary with its body.

EFFECT: simplified and improved reliability of design when implementing the function of maximum temperature recording.

2 cl, 2 dwg

Description

The invention relates to medical equipment and can be used to measure human temperature both in medical institutions and at home.

In medical practice, to date, a thermometer is widely used in measuring the temperature in humans, in which the thermometric fluid is mercury, for example, the mercury thermometer TVY-120 (manufactured by Amrus Interpraysis, USA). This is due to the fact that mercury has a very high density and this property of mercury makes it quite simple to solve the problem of creating a maximum thermometer, i.e. thermometer, which implements the operation of fixing the maximum temperature, and it is a determining function for a medical thermometer. The problem is solved constructively by creating a narrowing of the measuring capillary in its lower part and slightly above the cylinder where the mercury is located. When measuring the temperature, after its maximum value is reached, which is determined by the time of contact with the person, and when the contact of the cylinder with mercury with the person is stopped, the mercury in the cylinder begins to cool and the volume begins to decrease. A column of mercury in the measuring capillary breaks at the point of narrowing. That part of the mercury that was below the constriction goes into the container, and that part of the mercury that was above the constriction remains in the measuring capillary and for a while shows the recorded maximum temperature. The disadvantage of such thermometers is the very high toxicity of mercury. When the thermometer is destroyed, mercury is in the room and its vapors can cause significant harm to people in this room. Therefore, Russia has signed the Minamata Convention on Mercury, according to which instruments containing mercury, including mercury thermometers, may be banned for use. Another disadvantage of mercury when used as a thermometric liquid is the relatively small coefficient of volume expansion, which is (5-6) times less than the coefficient of volume expansion of alcohol.

There are medical thermometers that are a complete analogue of mercury, but which use an alloy of gallium, indium, and tin as the thermometric liquid, which has the property of a liquid in the temperature range in which medical thermometers are used. For example, a medical thermometer brand "MERIDIAN" (China). A thermometric liquid from the specified alloy also has a high density and allows us to solve the problem of fixing the maximum temperature in the same way as it is solved with mercury thermometers. The alloy of gallium, indium and tin is not toxic, but the elements of gallium and indium as rare earth elements are very expensive and extremely scarce. In addition, the liquid from this alloy has a small coefficient of volume expansion, close to the coefficient of volume expansion of mercury.

When measuring temperature, thermometers are widely used, in which alcohol or other liquids with a large coefficient of volume expansion are used as a thermometric liquid and do not pose a threat to humans when the thermometer is destroyed. For example, a glass alcohol thermometer TTZH M -35 ... + 50 ° C 163 mm (manufactured by JSC Steklopribor, Russia). This thermometer consists of a cylinder containing alcohol, a thermometer body, a measuring capillary with an extension at the top and a scale. However, such thermometers are not used in medical practice, as do not possess the property of fixing the maximum temperature.

The objective of the present invention is, on the basis of the known construction of an alcohol thermometer, the creation of a simple and reliable device that would allow to realize the function of fixing the maximum temperature.

The problem is solved due to the fact that a rectangular groove is made inside the lower part of the body, which divides the measuring capillary into two parts, one of which is connected to the cylinder, and the other is combined with a scale located outside the body, and in the rectangular groove there is a slider having a thickness equal to the depth of the rectangular groove, a width equal to the width of the rectangular groove, and a length equal to (0.6-0.7) of the length of the rectangular groove, a vertical through hole having a diameter greater than the diameter of the measuring capillary in (1.2 ÷ 1.4) times, and two pushers extending outward from the thermometer body, while the slider, being in one extreme position in a rectangular groove, connects the upper and lower parts of the measuring capillary with its hole, and being in the other extreme position in a rectangular groove, overlaps with his body the gap between the upper and lower parts of the measuring capillary.

The invention is illustrated by drawings, where in FIG. 1 is a front and side view of the thermometer, and in FIG. 2 is a top view of the slider.

The design of the thermometer consists of a housing 1, which is assembled from two identical parts 2 and 3, made of a transparent polymer, for example polypropylene. Each part 2 and 3 can be made by printing on a 3D printer or by pressing. Moreover, in each part 2 and 3 are formed: half of the measuring capillary 4; half of the cylinder 5, where the thermometric liquid should be; expansion half 6 in the upper part of the measuring capillary 4, which serves to compensate for the overheating of the thermometric liquid; half of the rectangular groove 7, where the slider 8 is placed before assembling the thermometer. When folding parts 2 and 3 when folded and locked, the following are formed: capillary 4; balloon 5; extension 6; a rectangular groove 7 having a height h, a width t and a length l, with a slider 8 embedded therein. A slider 8 made of a durable stainless material, such as stainless steel, may be coated, for example, with a fluoroplastic varnish to reduce friction when moving the slider 8, as well as to improve the fit of the surfaces of the slider 8 to the upper and lower sides of the rectangular groove 7 and prevent them from wetting with a thermometric liquid. Slider 8 should have a thickness h width t and a length (0.6 ÷ 0.7) l. Slider 8 has: a vertical through hole 9, the diameter of which is (1.2 ÷ 1.4) times larger than the diameter of the measuring capillary 4. Such dimensions of the slider 8 allow it to move in a rectangular groove 7 only in the longitudinal direction and do not allow it to “wobble” »Neither in the lateral, nor in the vertical directions. Reducing the length of the slider 8 to a value of (0.6 ÷ 0.7) from the length of the rectangular groove 7 allows the vertical through hole 9 in the slider 8 to either occupy a position coaxial with the measuring capillary 4 or completely shift to the side from the sectional plane of the measuring capillary 4 The increase in the diameter of the vertical through hole 9 in (1.2 ÷ 1.4) times greater than the diameter of the measuring capillary 4 does not allow, when moving the slider 8, partially overlap the cross-sectional area of the measuring capillary 4. The slider 8 has two pushers 10 and 11, which through the openings 12 and 13 in the housing 1 go out, and the end 14 of the pusher 10 is bent down, and the end 15 of the pusher 11 is bent up so that the position of the pushers can be tactilely determined. After the thermometer is completely assembled from parts 2 and 3 with the slider 8 inserted, the calculated amount of thermometric liquid, which is determined on the basis of the coefficient of volume expansion of the thermometric liquid and the diameter of the measuring capillary 4, is poured into the cylinder 5. In this case, the volume of the cylinder 5 is calculated so as to compensate for the increase in the thermometric volume liquids from changes in ambient temperature in the range of operating temperatures and from changes in temperature to the beginning of its measurement. Then, the cylinder 5 is sealed from below by a stopper 16, and a scale 17 is attached to the outer wide side of the housing 1 so that its divisions are visible through the housing 1.

Using a thermometer is as follows. Before measuring the temperature, check the position of the pushers 10 and 11. Press the pusher 10 and move the slider 8 along the groove 7 until the slider 8 rests against the end of the groove 7. In this position, the axis of the hole 9 of the slider 8 is aligned with the axis of the measuring capillary 4. The thermometer is ready for measurement. The cylinder 5 of the thermometer is placed, for example, the armpit of the patient, where it should be for the time specified by the manufacturer of the thermometer.

Before removing the thermometer balloon 5 from the armpit, the patient or personnel gropingly find the plunger 11, press it until the slider 8, when moving, rests on the other end of the groove 7. In this position, the body of the slider 8 clogs the upper part of the measuring capillary 4 below and does not allow the thermometric fluid that was in it to change its position. In this way, the maximum value of the measured temperature is recorded. The thermometer is removed from the armpit, and the measured temperature is read from it.

The measurement process is completed. To bring the thermometer to its initial state, press the pusher 10 and slide the slider 8 to the position where the axis of the hole 9 of the slider 8 coincides with the axis of the measuring capillary 4. In this case, as the balloon 5 cools with the thermometric liquid, the part of the thermometric liquid that was in the measuring capillary 4 , will be drawn into the cylinder 5.

Claims (2)

1. Medical liquid thermometer, consisting of a cylinder with thermometric liquid, a housing, a measuring capillary with an extension at the top and a scale, characterized in that a rectangular groove is made inside the lower part of the housing, which divides the measuring capillary into two parts, one of which is connected to the cylinder, and the other is aligned with the scale located outside the case, and in the rectangular groove is a slider having a thickness equal to the depth of the rectangular groove, a width equal to the width of the rectangular groove, and a length of 0.6-0.7 of d lengths of a rectangular groove, a vertical through hole having a diameter 1.2 to 1.4 times greater than the diameter of the measuring capillary, and two pushers extending outward from the thermometer body, while the slider, being in one extreme position in the rectangular groove, has its own hole It connects the upper and lower parts of the measuring capillary, and being in the other extreme position in a rectangular groove, it covers the gap between the upper and lower parts of the measuring capillary with its body. 2. The thermometer according to claim 1, characterized in that a recess is made in the housing on the outer wide part, in which the scale is located.

Images