WO2013007011A1 - Temperature-sensing probe and ear thermometer - Google Patents

Abstract

A temperature-sensing probe (100) and an ear thermometer comprising same. The temperature-sensing probe (100) comprises a housing (1), a seat body (4), a conductive light-emitter (3) mounted on the seat body (4), and an infrared sensor (2) provided inside the housing, wherein a mounting end of the housing (1) of the temperature-sensing probe is connected to the seat body (4), and the light emitted by the conductive light-emitter (3) shines onto the front of a measuring end of the temperature-sensing probe. The ear thermometer comprising the temperature-sensing probe (100) has a main body (300) connected to the temperature-sensing probe (100); the infrared sensor (2) inside the temperature-sensing probe (100) is connected to a temperature-measuring module in the main body; the main body comprises a lighting circuit; the lighting circuit is connected to a power supply and includes an ON-OFF switch; and the conductive light-emitter is connected to the lighting circuit. The ear thermometer of the present invention improves the accuracy of measurements because a lighting source is provided for the user to observe the position of the portion to be measured in the dark.

Description

 Temperature sensor and ear thermometer

 The present invention relates to a temperature sensing head structure for picking up an infrared signal, and to a thermometer for measuring body temperature of a human body through an ear, and more particularly to a temperature sensing head and an ear thermometer using the temperature sensing head. Background technique

 Infrared temperature measurement technology is a mature temperature measurement technology. The ear thermometer made by infrared temperature measurement technology has also been widely used. It receives infrared rays radiated from the human cochlea through an infrared sensor, and is processed by a temperature measurement circuit module to obtain human body temperature. Compared with traditional mercury thermometers, ear thermometers are easy to measure, fast, and contain no mercury, which does not pollute the environment.

 However, the existing ear thermometer still has the following problems:

 1. When measuring the body temperature with the ear thermometer, it is necessary to accurately align the temperature sensor of the ear thermometer to the cochlea (as shown in Figure 4), in order to truly measure the true body temperature of the human body, if used, the temperature head and the cochlea If the relative position is not operated correctly, the amount of infrared radiation emitted by the cochlea picked up by the temperature sensor may be insufficient, resulting in distortion of the body temperature measured by the ear thermometer. The existing ear thermometer does not have a light source, and the ear temperature is used in an environment with poor lighting conditions, and the operation of correctly aligning the temperature sensing head to the cochlea is difficult;

 2. The correct use of the existing ear thermometer depends on the subjective judgment of the user and lacks objective judgment.

 Usually, the user observes through the mirror during measurement, and according to the personal feeling, the body temperature is measured when the temperature sensor is accurately pointed at the cochlea. Due to the lack of objective judgment of the temperature sensor on the cochlea, whether the temperature sensor is aligned with the cochlea is satisfied. The required measurement conditions are completely determined by the user's subjective judgment. Due to individual differences, some users can correctly align the temperature sensor head to the cochlea according to personal judgment, and meet the measurement conditions for the correct use of the ear thermometer. However, some use Because of the large judgment error, it is impossible to ensure that the temperature sensing head is correctly aligned with the cochlea, which brings the measurement error of the body temperature.

Summary of the invention

One of the technical problems to be solved by the present invention is to provide a temperature sensing head that overcomes the above-mentioned drawbacks of the existing ear thermometer and facilitates accurate use of the ear thermometer by the user. The second technical problem to be solved by the present invention is to provide an ear thermometer that overcomes the above-mentioned drawbacks of the existing ear thermometer and facilitates the accurate use of the ear thermometer by the user.

 The technical solution adopted by the present invention to solve one of the technical problems is: constructing a temperature sensing head, comprising a temperature sensing head housing, and an infrared sensor disposed in the temperature sensing head housing, wherein the utility model further comprises a seat body and an installation In the conductive illuminator on the base body, the mounting end of the temperature sensing head housing is connected to the base body, and the light emitted by the conductive illuminating body is irradiated in front of the measuring end of the temperature sensing head.

 In the temperature sensing head of the present invention, the conductive illuminator is mounted in a conductive illuminant mounting hole of the base outside the mounting end of the temperature sensing head housing.

 In the temperature sensing head of the present invention, the conductive illuminators are spaced apart along the outer side of the mounting end of the temperature sensing head housing.

 In the temperature sensing head of the present invention, the conductive illuminator is mounted on the seat body inside the mounting end of the temperature sensing head housing, and the temperature sensing head housing is a transparent housing.

 The technical solution adopted by the present invention to solve the second technical problem is: constructing an ear thermometer, comprising an ear thermometer body and a temperature sensing head connected to the ear thermometer body, wherein the temperature sensing head comprises a temperature sensing head shell The infrared sensor is disposed in the temperature sensing head housing, and the infrared sensor is connected to the temperature measuring circuit module of the ear thermometer body, wherein the ear thermometer body comprises a lighting circuit, and the lighting circuit is connected to the power source and includes the The temperature sensing head further includes a base body and a conductive illuminator mounted on the base body, the conductive illuminant is connected to the illumination circuit, and the mounting end of the temperature sensing head housing is connected to the seat The light emitted by the conductive illuminator is irradiated in front of the measuring end of the temperature sensing head.

 In the ear thermometer of the present invention, the conductive illuminator is mounted in a conductive illuminant mounting hole of the seat outside the mounting end of the temperature sensing head housing.

 In the ear thermometer of the present invention, the conductive illuminators are spaced apart along the outer side of the mounting end of the temperature sensing head housing.

 In the ear thermometer of the present invention, the conductive illuminator is mounted on the seat body inside the mounting end of the temperature sensing head housing, and the temperature sensing head housing is a transparent housing.

 The temperature sensing head and the ear thermometer of the present invention are compared with the prior art, and the beneficial effects are as follows:

1. Set the illumination source to facilitate the user to observe the measurement operation position, and ensure that the measurer accurately aligns the temperature sensor to the cochlea for body temperature measurement; 2. When the conductive illuminator of the illumination source is disposed on the seat outside the mounting end of the temperature sensing head housing, the light source directly faces the front end of the temperature sensing head, and the user can accurately determine the position of the temperature sensing head to the cochlea according to the irradiation position of the light source. To provide the user with an objective basis for judging the temperature sensor head to the cochlea, to ensure that the user accurately aligns the temperature sensor head to the cochlea for body temperature measurement, and improves the reliability of the measurement;

 3. Simple structure and easy to use.

DRAWINGS

 The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

 BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a cross-sectional view showing an embodiment of a temperature sensing head of the present invention.

 Figure 2 is a cross-sectional view showing another embodiment of the temperature sensing head of the present invention.

 Figure 3 is a left side elevational view of the embodiment of Figure 2.

 Figure 4 is a cross-sectional view showing an embodiment of the ear thermometer of the present invention.

 Figure 5 is a cross-sectional view showing another embodiment of the ear thermometer of the present invention.

detailed description

 As shown in Figs. 1 and 2, the temperature sensing head 100 of the present invention comprises a temperature sensing head housing 1, an infrared sensor 2, a housing 4 and a conductive illuminator 3. The infrared sensor 2 is disposed in the temperature sensing head housing 1, and the conductive light body 3 is mounted on the base 4, and the mounting end of the temperature sensing head housing 1 is connected to the base 4. It is ensured that the light emitted by the conductive illuminator 3 is irradiated in front of the measuring end of the temperature sensing head 100, so that the user can accurately align the temperature sensing head 100 to the cochlea 200 under the illumination of the conductive illuminator 3 by using the ear temperature timer (as shown in FIG. 4). Show).

 The conductive illuminator 3 can include, but is not limited to, a bulb, a light emitting diode, and the like.

 In the embodiment of FIG. 1, the conductive illuminator 3 can be mounted on the seat 4 on the inner side of the mounting end of the temperature sensing head housing 1. In this case, a transparent temperature sensing head housing is required to make the conductive illuminant The light emitted by 3 can be irradiated to the front of the measuring end of the temperature sensing head 100. The transparent temperature sensing head housing may be transparent as a whole structure, or the light transmitting portion of the conductive illuminator 3 may have a transparent structure.

 In the embodiment of Fig. 2, the conductive illuminator 3 can be mounted in the conductive illuminant mounting hole of the housing 4 on the outer side of the mounting end of the temperature sensing head housing 1.

As shown in FIG. 3, the conductive illuminators 3 are spaced apart along the outer side of the mounting end of the temperature sensing head housing 1. Conductive hair The number of the light bodies 3 is determined as needed, and for example, four, three, two, or one may be used. As shown in FIGS. 4 and 5, the ear thermometer of the present invention includes an ear thermometer body 300 and a temperature sensing head 100 coupled to the ear thermometer body 300.

 The temperature sensing head adopts the above temperature sensing head, and includes a temperature sensing head housing 1, an infrared sensor 2, a base 4 and a conductive illuminator 3, an infrared sensor 2 and a temperature measuring circuit module of the ear thermometer body (not shown) connection.

 The ear thermometer body includes a lighting circuit (not shown) connected to the power source (which may be a battery or an external transformer power supply) and includes a switch that controls the conductive light emitter 3 to be turned on and off. The conductive illuminator 3 is connected to the illumination circuit to realize illuminating illumination and switching control. The mounting end of the temperature sensing head housing 1 is connected to the base 4, and the light emitted from the conductive illuminator 3 is irradiated in front of the measuring end of the temperature sensing head 100.

 The structure of the temperature sensing head and its changes are as described above, and will not be described again here.

Claims

Claim A temperature sensing head, comprising a temperature sensing head housing, and an infrared sensor disposed in the temperature sensing head housing, further comprising a base body and a conductive illuminator mounted on the base body, the temperature sensing The mounting end of the head housing is coupled to the base body, and the light emitted by the conductive illuminator is illuminated in front of the measuring end of the temperature sensing head.  The temperature sensing head according to claim 1, wherein the conductive illuminator is mounted in a conductive illuminant mounting hole of the base outside the mounting end of the temperature sensing head housing.  The temperature sensing head according to claim 2, wherein the conductive illuminants are spaced apart along the outer side of the mounting end of the temperature sensing head housing.  4. The temperature sensing head according to claim 1, wherein: the conductive illuminator is mounted on the seat body inside the mounting end of the temperature sensing head housing, and the temperature sensing head housing is transparent. case.  5 . An ear thermometer comprising an ear thermometer body and a temperature sensing head connected to the ear thermometer body, the temperature sensing head comprising a temperature sensing head housing and an infrared sensor disposed in the temperature sensing head housing, The infrared sensor is connected to the temperature measuring circuit module of the ear thermometer body, wherein the ear thermometer body comprises a lighting circuit, the lighting circuit is connected to the power source and includes an on/off switch; the temperature sensing head further comprises a seat body and a conductive illuminator mounted on the base, the conductive illuminator being connected to the illumination circuit, the mounting end of the temperature sensing head housing being coupled to the base, the light emitted by the conductive illuminator being illuminated The front of the temperature measuring head is measured.  The ear thermometer according to claim 5, wherein the conductive illuminator is mounted in a conductive illuminant mounting hole of the base outside the mounting end of the temperature sensing head housing.  The ear thermometer according to claim 6, wherein the conductive illuminators are spaced apart along the outer side of the mounting end of the temperature sensing head housing.  The ear thermometer according to claim 5, wherein: the conductive illuminator is mounted on the seat body inside the mounting end of the temperature sensing head housing, and the temperature sensing head housing is transparent. case.