RU85083U1 - INFRARED THERMOMETER - Google Patents

Abstract

1. An infrared thermometer containing an axially symmetrical housing consisting of several sections of different diameters, an input channel of the received radiation located at one end of the housing, a received radiation processing circuit located inside the housing, connected to the display, and a control element, characterized in that the diameter of the housing changes not more than 0.3 times in length. ! 2. An infrared thermometer according to claim 1, characterized in that the end of the housing, in which the input channel of the received radiation is located, is provided with a removable nozzle. ! 3. An infrared thermometer according to claim 1, characterized in that the display is located between the end of the housing, in which the input channel of the received radiation is located, and the control element. ! 4. An infrared thermometer according to claim 1, characterized in that the display is installed in a recess made in the housing.

Description

The utility model relates to non-contact infrared thermometers used in medical practice to measure the temperature of patients.

The main element of infrared thermometers is an infrared radiation sensor with a sensor located in the housing. The sensor through the processor is connected to the indicator - display, and the processor is connected to the element that regulates the operation of the thermometer, which is displayed on the case, most often a button type (start button).

Known designs of infrared thermometers are distinguished by schemes for receiving and processing infrared radiation emitted by the body, as well as the configuration and geometry of the housing.

A characteristic feature of the bodies of known thermometers is its implementation with two geometrically pronounced zones, one of which is essentially a probe, at the end of which an infrared sensor is installed, and the other performs the function of a holder (handle). In the cavity of the holder there is a circuit for processing the received signal and a power source, and on its outer surface there is a display window and a start button. In ear thermometers, the probe is installed at an angle to the part of the body on which the display and start button are displayed (for example, US 7380981 B2, 2008.10.14). In thermometers used to measure temperature in the axillary region, the probe has a very elongated shape and is oriented along the axis of the body, and its transverse size is much smaller than the transverse size of the rest of the body (for example, US 6045257 2000. 04.04).

It is known that the readings of infrared thermometers are affected by the humidity of the part of the body from which the readings are taken, therefore ear thermometers can not be used for pathologies of the auricles and do not give reliable data readings taken from the axillary regions. In addition, in medical practice, in some cases, it is necessary to take the temperature from other areas of the body, and locally specified, for example, from the area of the artery on the frontal part of the head.

Thermometers are known whose case does not have pronounced features that are tied to the specific purpose of the thermometer. These thermometers can be used not only to measure temperature in the auricle and axillary region, but also to measure temperature in other parts of the patient's body. Typically, the thermometer housing has a flattened or cylindrical shape with a relatively small probe, oriented along the housing (for example, WO 0022390 A1, 2000.04.20; US 6811306 B2, 2004.11.02).

As the closest analogue, an infrared thermometer is chosen, known according to US 6155712, 2000.12.05, the casing of which contains two cylindrical sections of different diameters, between which there is a section of a conical shape, the diameters of the cylindrical sections not less than two times different from each other. In the housing is a processing circuit for received radiation, connected to a display mounted on a cylindrical section of a larger diameter. A cylindrical section of a smaller diameter, performing the function of a probe and having an input channel of received radiation, is equipped with a waveguide connected to an infrared sensor. The control element - the button - is displayed on a section of a larger case and is located between the display and the conical section of the case.

The disadvantage of this thermometer, as well as the above ones, is that when measuring the temperature from a part of the human body that requires fixing the thermometer in this area, for example, in the selected frontal area, the position of the end of the thermometer with the sensor should not change, while the body of the device with a small input channel of the received radiation (in the probe region), it does not allow to reliably fix it in the required position during the measurement time. This not only reduces the usability of the thermometer, but also affects the accuracy of the measurements. In addition, the complex geometry of the case complicates its manufacture and increases the cost.

The technical result obtained by using the inventive utility model is to increase the reliability of fixing the thermometer in the required position during measurements. Changing the design of the thermometer improves the usability of the thermometer and the accuracy of measurements, as well as simplifies the thermometer and reduces its cost.

The technical result is achieved by the fact that in an infrared thermometer containing an axially symmetric case, consisting of several sections of different diameters, an input channel of received radiation located at one end of the case, a received radiation processing circuit located inside the case, connected to the display, and a control element, diameter hull varies in length no more than 0.3 times.

It is advisable to provide the end of the housing in which the input channel of the received radiation is located with a removable nozzle.

It is also advisable to position the display between the end of the housing in which the input channel of the received radiation is located and the control element.

It is advisable to install the display in the recess made in the housing.

The thermometer is shown in the attached figure.

The thermometer contains an axially symmetric housing 1 with an end 2, in which the input channel of the received radiation is installed, including a waveguide connected to the infrared sensor (not shown), and an end 3, which serves as the holder of the thermometer during the measurement process. A display 4 is displayed on the outer surface of the housing 1, as a recorder of the measured temperature, and an element 5, by which the operating mode of the thermometer is controlled. Element 5 can be made in the form of a button, by pressing which the thermometer is entered into the measurement mode and withdrawn from the measurement mode. Element 4 is located on the end 3 of the housing 1 acting as a holder, which increases the convenience of controlling the operation mode.

The end 2 of the housing 1 is equipped with a removable nozzle axially symmetric shape (not shown). The nozzle is made of chemically safe material that is allowed by sanitary requirements for contact with human skin and can be treated with disinfectants. The nozzle allows you to ensure compliance with sanitary requirements when using a thermometer during the examination of many patients and protect the input channel of the received radiation from damage.

To reduce the likelihood of damage to the display 3, it is installed in a recess made in the housing 1 - the plane of the display 3 is "recessed" in the housing 1.

The diameter of the housing 1 varies slightly along the length - no more than 0.3 times, i.e. the housing 1 has a geometry close to the cylinder. The diameter of the housing 1 is determined by the dimensions of the received radiation processing circuitry (not shown) located therein and the dimensions of the display 2 connected to the received radiation processing circuitry, as well as the convenience of holding the thermometer in hand. Thus, the end face of the end 2 of the thermometer has a sufficiently large aperture for receiving radiation and the deviation from the required position, involuntary during measurement, does not affect the readings of the thermometer. The use of the nozzle increases the reliability of fixing the thermometer in the required position when using the thermometer in domestic conditions, when the contact of the thermometer with the surface of the user's body is acceptable.

Claims (4)

1. An infrared thermometer containing an axially symmetric housing consisting of several sections of different diameters, an input radiation channel located at one end of the housing, a received radiation processing circuit located inside the housing, connected to the display, and a control element, characterized in that the diameter of the housing varies length not more than 0.3 times. 2. The infrared thermometer according to claim 1, characterized in that the end of the housing in which the input channel of the received radiation is located is equipped with a removable nozzle. 3. The infrared thermometer according to claim 1, characterized in that the display is located between the end of the housing in which the input channel of the received radiation is located, and the control element. 4. The infrared thermometer according to claim 1, characterized in that the display is installed in a recess made in the housing.