RU214098U1 - THERMOMETER MEDICAL - Google Patents

Abstract

The utility model relates to medical equipment, namely to medical thermometers (hereinafter referred to as thermometer). The thermometer consists of a body, inside of which there is a measuring capillary, divided into two parts by a cylindrical extension, having a conical shape in the upper part. The upper part of the measuring capillary has an expansion, and the lower part of the measuring capillary is connected to the cylinder, which contains the thermometric liquid. A steel ball is placed in the cylindrical extension with a conical upper part, having a diameter that allows it to move freely in the cylindrical extension, enter its conical upper part and close the channel of the upper part of the measuring capillary from below. To protect against corrosion, a protective film is applied to the ball. Outside on the body of the thermometer, between two stops, there is a slider. The slider has the ability to move up and down the body from the top stop to the bottom stop manually. A permanent ring magnet is fixed on the bottom of the slider. The slider has a window through which the upper part of the measuring capillary and the scale are visible. The levels of location of the upper and lower stops on the body are made in such a way that the steel ball moves from the lower part of the cylindrical expansion to its upper conical part with the inner channel of the upper part of the measuring capillary blocked from below. When the slider is on the bottom stop, the steel ball is at the bottom of the expansion of the cylindrical shape with a conical top and does not prevent the thermometric liquid from passing from the bottom of the measuring capillary to the top through the expansion of the cylindrical shape with a conical top. When the slider is on the upper stop, the steel ball enters the conical part of the cylindrical expansion and closes the inner channel of the upper part of the measuring capillary from below. In this case, the thermometric liquid that has entered the upper part of the measuring capillary during temperature measurement does not change its position for a certain time, while maintaining the maximum value of the measured temperature. Such overlapping of the inner channel of the upper part of the measuring capillary ensures the tightness of the cavity with the thermometric liquid.

Description

The utility model relates to medical equipment and can be used to measure a person's temperature both in medical institutions and at home.

In medical practice, to date, when measuring temperature in humans, a thermometer is widely used, in which the thermometric liquid is mercury, for example, a mercury thermometer TVY-120 (manufactured by Amrus, Enterprises, USA). This is explained by the fact that mercury has a very high density and this property of mercury makes it quite easy to solve the problem of creating a maximum thermometer, i.e. thermometer, which implements the operation of fixing the maximum temperature, and it is the defining 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 mercury is located. When measuring temperature, after its maximum value is reached, which is determined by the time of contact with a person, and when the contact of a cylinder with mercury with a person is terminated, the mercury in the cylinder begins to cool and the volume begins to decrease. The column of mercury in the measuring capillary breaks in the place of its narrowing. That part of the mercury that was below the constriction goes into the cylinder, and that part of the mercury that was above the constriction remains in the measuring capillary and for some time shows the recorded maximum temperature.

The disadvantage of such thermometers is the very high toxicity of mercury. When the thermometer is destroyed, mercury enters the room and its vapors can cause significant harm to people in this room. Therefore, Russia has signed the Minamata Convention on Mercury, which may prohibit the use of devices containing mercury, including mercury thermometers.

Another disadvantage of mercury, when used as a thermometric liquid, is a relatively small coefficient of volumetric expansion, which is 5-6 times less than the coefficient of volumetric expansion of alcohol.

There are medical thermometers that are a complete analogue of mercury ones, but in which an alloy of gallium, indium and tin is used as a thermometric liquid, which has the properties of a liquid in the temperature range in which medical thermometers are used. For example, a medical thermometer brand "MERIDIAN" (PRC). The thermometric liquid made of this alloy also has a high density and makes it possible to solve the problem of fixing the maximum temperature in the same way as it is solved for mercury thermometers. An 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 of this alloy has a low volume expansion coefficient close to that of mercury.

A liquid medical thermometer is also known (RF patent No. 2629718), which contains a housing, a measuring capillary, divided into two parts by a groove in which a slider with a hole moves. The upper part of the measuring capillary has an extension at the top, and the lower part of the measuring capillary is connected by its lower end to a cylinder containing a thermometric liquid, such as alcohol. On the body of the thermometer, outside, parallel to the upper part of the measuring capillary, a scale is fixed. When the slider is installed in the groove in such a way that its hole is aligned with the internal channel of both parts of the measuring capillary, the thermometric liquid moves freely from the cylinder through the internal channels of the lower and upper parts of the measuring capillary. When the slider is set in such a way that its body separates the internal channels of both parts of the measuring capillary, then the thermometric liquid that has entered the upper part of the measuring capillary is locked in it. The slider is moved manually.

The specified thermometer is closest to the proposed and therefore taken as a prototype. The disadvantage of this design liquid medical thermometer is the lack of complete tightness of the cavity with thermometric liquid. Tightness is ensured by a tight fit of the body of the slider to the upper and lower walls of the groove, and during long-term operation this tightness can be broken. As a result, there may be a loss of thermometric liquid and, as a result, an increase in the error in temperature measurement.

The objective of this utility model is to change the method of separating the measuring capillary, which ensures absolute tightness of the cavity with thermometric liquid. This tightness cannot be broken during long-term operation.

The problem is solved due to the fact that the proposed medical thermometer, as well as the well-known liquid medical thermometer, contains a body, a measuring capillary, divided into two parts. The upper part of the measuring capillary has an extension at the top, and the lower part of the measuring capillary is connected by its lower end to a cylinder containing a thermometric liquid, such as alcohol. On the body of the thermometer, outside, parallel to the upper part of the measuring capillary, a scale is fixed. But unlike the known thermometer, the separation of the upper and lower parts of the measuring capillary is carried out by means of an expansion of a cylindrical shape with a conical upper part, in which a steel ball is placed, having a diameter that allows it to move freely in the expansion of a cylindrical shape, enter its conical upper part and close the channel of the upper part of the measuring capillary from below. On the outer surface of the thermometer housing there is a slider that tightly fits the outer surface of the thermometer housing and has a window that allows you to observe the upper part of the measuring capillary and the scale. A permanent ring magnet is fixed at the bottom of the slider.

The slider can be manually moved between the stops located on the outer part of the thermometer body. The level of the lower stop ensures the position of the permanent ring magnet, in which the steel ball entrained by it is in the lower part of the cylindrical expansion and, thereby, leaves the lower entrance to the inner channel of the upper part of the measuring capillary open. The level of the upper stop ensures the position of the permanent ring magnet, in which the steel ball entrained by it is in the upper conical part of the cylindrical expansion and closes the lower entrance to the inner channel of the upper part of the measuring capillary. Thus, when the slider is set on the lower stop, the thermometric liquid moves freely from the cylinder along the lower part of the measuring capillary, through the expansion of a cylindrical shape with a conical upper part, and along the upper part of the measuring capillary during temperature measurement. When the slider rests against the upper stop, the lower entrance of the internal channel of the upper part of the measuring capillary is closed and the thermometric liquid that entered the upper part of the measuring capillary during temperature measurement is locked in it.

The utility model is illustrated by the drawings of FIG. 1 and FIG. 2.

In FIG. 1 shows the position of the steel ball when the slider rests against the bottom stop, and FIG. 2 shows the position of the steel ball when the slider rests against the top stop.

The design of the thermometer consists of a body 1, inside which there is a measuring capillary, divided into the upper part 2 and the lower part 3. Between them there is an extension of a cylindrical shape with a conical upper part 4. The upper part of the measuring capillary 2 passes into the extension 5, and the lower part of the measuring capillary 3 is connected to a container 6, which contains a thermometric liquid 7. In the expansion of a cylindrical shape with a conical top 4 is a steel ball 8, which is covered with a protective film, such as silicone. A slider 9 is put on the body 1, which has a window through which there is a visual access to the upper part of the measuring capillary 2 and to the scale 10. A permanent ring magnet 11 is fixed in the lower part of the slider 9. The slider 9 moves up and down along the body 1 from the stop 12 to the stop 13 manually.

The operation of the thermometer is as follows.

The slider 9 is shifted down to contact with the bottom stop 12. In this case, the steel ball 8, entrained by the permanent ring magnet 11, is shifted to the lower part of the cylindrical expansion 4. In this case, both parts of the measuring capillary 2 and 3 are interconnected, and the lower part of the measuring capillary 3 connected to the cylinder 6, which contains the thermometric liquid 7. Part of the thermometer with the cylinder 6 is placed, for example, in the user's armpit. Upon contact with the human body, the balloon 6 and the thermometric liquid 7 in it are heated, the volume of the thermometric liquid 7 increases and it begins to sequentially fill first the lower part of the measuring capillary 3, then the expansion of the cylindrical shape with a conical upper part 4 and the upper part of the measuring capillary 2. Through for some time, when the temperature of the thermometric liquid 7 equals the temperature of the human body, its rise in the upper part of the measuring capillary 2 will stop. The level of thermometric liquid 7 in the measuring capillary 2 will record the maximum temperature of the human body. Before removing the thermometer from the armpit, the user shifts the slider 9 to the upper stop 13. In this case, the permanent annular magnet 11 occupies a position in which the steel ball 8, entrained by the magnetic field, enters the conical part of the expansion of the cylindrical shape 4 and closes the exit from the lower parts of the measuring capillary 2. The thermometric liquid 7 is locked in the measuring capillary 2 and keeps the indication of the maximum temperature for a long time. After the user gets acquainted with the temperature measurement result, he shifts the slider 9 to the lower stop 12. In this case, the permanent ring magnet 11 moves to the lower part of the cylindrical extension with a conical upper part 4 and drags the steel ball 8 with it. The steel ball 8 releases exit from the lower part of the measuring capillary 2 and the thermometric liquid spontaneously shifts into the balloon 6. The thermometer is ready for a new temperature measurement.

Claims (1)

A medical thermometer containing a housing with a scale, a measuring capillary divided into upper and lower parts, wherein its upper part has an extension at the top, and the lower part of the measuring capillary is connected to a cylinder with thermometric liquid, characterized in that the separation of the upper part of the measuring capillary from the lower part measuring capillary is carried out using a cylindrical expansion with a conical upper part, in which a steel ball is freely placed, having a diameter that allows it to move freely in the cylindrical expansion, enter its conical upper part and close the channel of the upper part of the measuring capillary from below, and on external part of the housing, between the two stops there is a slider, made with the possibility of moving up and down the body from the upper stop to the lower stop manually, with a permanent ring magnet fixed in its lower part and having a window through which the upper part of the measuring capillary and scale, and the level of the lower stop ensures the position of the permanent ring magnet, in which the steel ball entrained by it is in the lower part of the cylindrical expansion and, thereby, leaves the lower entrance to the internal channel of the upper part of the measuring capillary open, and the level of the upper stop ensures the position of the permanent ring magnet, in which the steel ball entrained by it is in the upper conical part of the cylindrical extension and closes the lower entrance to the inner channel of the upper part of the measuring capillary, while ensuring the tightness of the cavity with thermometric liquid.

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