RU147425U1 - REMOVABLE NOZZLE FOR INFRARED THERMOMETER - Google Patents

Abstract

A detachable nozzle for an axially symmetric infrared thermometer located on the end of the thermometer body that carries the socket of the input channel of the received radiation and made of chemically safe material, characterized in that the nozzle is equipped with an insulated fiber optic cable, one end of which is made with the possibility of connection with the socket the input channel of the received radiation of the thermometer, at the other end of the cable there is an additional socket of the input channel of the received radiation, made in the form of a taut cylindrical body from which an uninsulated portion of a fiber optic cable protrudes.

Description

The proposed utility model relates to the field of medicine, namely to diagnostic devices and can be used in dentistry to detect initial pathological changes in the mucous membrane of the alveolar bone and alveolar part when planning orthopedic treatment.

An infrared thermometer is widespread, both in clinical practice and at home.

A characteristic feature of the known infrared thermometers is the speed of measurement (2-7 seconds), the accuracy of the measurements and the ability to measure temperature in a non-contact way. An infrared thermometer has two zones, one of which, in fact, is a probe, at the end of which an infrared sensor is installed, which takes infrared radiation data, 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. The infrared radiation coming from the surface of the human body is processed and displayed on a digital display in degrees familiar to us.

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 armpit, 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 short probe oriented along the housing (for example, WO 0022390 A1, 2000.04.20; US 6811306 B2, 2004.11.02).

For the prototype of the proposed utility model, a well-known detachable nozzle for an infrared thermometer of an axially symmetric shape located at the end of the housing that carries a socket of the input channel of the received radiation and is made of chemically safe polymeric material (RU Utility Model Patent No. 85083 of July 27, 2009) is selected. The infrared thermometer, to which the nozzle is designed, consists of a housing, inside of which there is a received radiation processing circuitry connected to the display. At one end of the housing there is an input channel of the received radiation. The thermometer also contains a control element. 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.

Known removable nozzle is designed to protect the input channel of the received radiation from damage, has a sufficiently large aperture for receiving radiation and involuntary deviation from the desired position during the measurement process. 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.

A disadvantage of the known removable nozzle is its sufficiently large size and the inability to conduct temperature measurements in local, small in volume and inaccessible places. When conducting temperature measurements, the large diameter of the removable nozzle covers a large area of biological tissue, and, therefore, less accuracy in determining the localization of the pathological process. In addition, the known removable nozzle made of a polymeric material has unsealed edges that can injure the mucous membrane of the oral cavity.

The technical result obtained by using the claimed utility model consists in increasing the accuracy of temperature measurement in the zones of the alveolar ridge and the alveolar part of the upper or lower jaw by providing the possibility of reliable fixation of the probe of the receiving radiation of the thermometer in the required position during measurements.

The technical result is achieved in that in a removable nozzle to an infrared thermometer, axially symmetrical in shape, located on the end of the thermometer body, which carries a socket for the input channel of the received radiation and made of chemically safe material, the nozzle is equipped with an insulated fiber optic cable one end of which is made with the possibility of connection with a socket of the input channel of the received radiation of the thermometer, at the other end of the cable there is an additional socket of the input channel of the received radiation, made in the form of a stepped cylindrical body from which an uninsulated portion of the fiber optic cable protrudes.

It is advisable to provide a removable nozzle with an insulated fiber optic cable.

It is advisable to make one end of the cable with the possibility of connection with the socket of the input channel of the received radiation of an infrared thermometer.

It is advisable to place an additional socket on the input channel of the received radiation at the other end of the optical fiber cable.

It is advisable to make an additional socket in the form of a stepped cylindrical body, from which an uninsulated portion of the optical fiber protrudes.

The essence of the utility model is illustrated by graphic material, the input channel of the received radiation

In FIG. 1 shows a proposed detachable nozzle for an infrared thermometer.

The detachable nozzle 1 for the infrared thermometer 2 has an axially symmetric shape and is located at the end of the thermometer body, which carries a socket 3 of the input channel of the received radiation. The removable nozzle is equipped with an insulated fiber optic cable 4, one end 5 of which is made with the possibility of connection with the socket 3 of the input channel of the received radiation of the thermometer. At the other end 6 of cable 4 there is an additional socket 7 of the input channel of the received radiation, made in the form of a stepped cylindrical body, from which an uninsulated portion of the optical fiber protrudes 8. The removable nozzle is made of chemically safe material, which allows to ensure compliance with sanitary requirements.

The technical result obtained by using the claimed utility model is to increase the accuracy of temperature measurement in the zones of the alveolar ridge and the alveolar part of the upper or lower jaw by providing the possibility of bringing the additional input channel of the received radiation directly to the point of interest and reliable fixation of the additional socket of the received radiation of the thermometer in the required position during measurements, increases the accuracy and reliability of temperature data in patolo matic focus. The flexibility of the optical fiber and its length allow, if necessary, to position the device at a distance from the patient and make it possible for the assistant to work for point and multiple temperature measurements. In addition, the sealed edges of the nozzle do not injure the mucous membrane of the oral cavity.

The proposed device operates as follows. Connect an infrared thermometer to the computer. At the end of the infrared thermometer, on which there is an input channel of the received radiation, put on a removable nozzle with an insulated fiber optic cable. Connect the end of the fiber optic cable to the input channel of the received radiation of the thermometer. Take with your hand a stepped cylindrical body from which an uninsulated portion of the optical fiber protrudes and measure the temperature by touching it perpendicular to the mucous membrane of the pathological focus. After the procedure for measuring the temperature in a patient, the proposed nozzle is disconnected and treated with a disinfectant.

Clinical example.

Using the proposed removable nozzle for an infrared thermometer, a patient T. was examined with signs of inflammatory periodontal diseases. Measurements were performed in the area of the teeth of the upper jaw from tooth 1.6 to tooth 2.6 and the teeth of the lower jaw from tooth 3.6 to tooth 4.6. Studies were conducted in the area of each tooth at three points: in the cervical, middle and apical third of the alveolar process.

Thermometry Results

Patient T (24 years old) Upper jaw Apical third 29.2 29.6 thirty 30.6 31 31.2 31.8 31.8 31.6 31 31 30.6 Apical third Middle third 29.2 29.6 29.6 30.6 31 31 31.8 31.8 31.6 31,2 31 30.8 Middle third Prichalnaya third 29.2 29.6 29.8 30,4 30.8 31 31.8 31.8 31.8 31,2 31 30.6 Prichalnaya third 6 5 four 3 2 one one 2 3 four 5 6 Prichalnaya third 28.6 28.6 28.6 28.8 28.8 29th 29.2 29.4 29.6 thirty 30,2 30,4 Prichalnaya third Middle third 28.6 28,4 28.6 28.8 29th 29th 29.2 29.2 29.6 thirty thirty 30,2 Middle third Apical third 28,4 28,4 28.6 28.6 29th 29th 29.2 29.4 29.6 29.8 thirty 30,2 Apical third Lower jaw

clinically visible focus of cyanosis

The patient’s temperature indices were increased compared to previously obtained standards when examining patients of this age group without signs of inflammatory periodontal diseases using the device (26.6-29.2 ° C ± 0.4 ° C). The average temperature values in patient T. amounted to 30.0 ° C, which indicates a prolonged process of inflammation. To confirm the presence of inflammatory periodontal disease, the patient underwent an index assessment of the diagnosis of periodontal tissues. When analyzing the index score, the presence of an inflammatory process in the left half of the upper jaw was noted, which was not determined visually during a clinical examination. The data of thermometric analysis in the indicated area were also characterized by higher readings of the thermometer (31.4 ° С - the right half of the upper jaw, 30.2 ° С - the left half). The difference between the individual indicators for symmetrical teeth was more than 1 ° C, which allowed us to talk about the presence of an acute process of inflammation in the area of elevated temperature. In the area of the visually determined focus of cyanosis and swelling of the gingival mucosa in the upper jaw, the temperature indicators were reduced compared with the average indicators of the upper jaw, which indicated the presence of a focus of venous stagnation and the process of chronic inflammation.

Claims (1)

A detachable nozzle for an axially symmetric infrared thermometer located on the end of the thermometer body that carries the socket of the input channel of the received radiation and made of chemically safe material, characterized in that the nozzle is equipped with an insulated fiber optic cable, one end of which is made with the possibility of connection with the socket the input channel of the received radiation of the thermometer, at the other end of the cable there is an additional socket of the input channel of the received radiation, made in the form of a taut cylindrical body from which an uninsulated portion of a fiber optic cable protrudes.

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