Probe sleeve for ear thermometer and grouping method of probe sleeve for ear thermometer

A technology of probe cover and ear temperature gun, which is applied in the direction of radiation pyrometry, measuring devices, instruments, etc., and can solve the problems affecting the accuracy of ear temperature and infrared penetration rate

Inactive Publication Date: 2021-05-28
KUNSHAN REYING PHOTOELECTRICITY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When the earmuffs are injection molded, the thickness of the top will affect the infrared penetration rate, which in turn will affect the accuracy of the ear temperature measured by the ear thermometer

Method used

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  • Probe sleeve for ear thermometer and grouping method of probe sleeve for ear thermometer
  • Probe sleeve for ear thermometer and grouping method of probe sleeve for ear thermometer
  • Probe sleeve for ear thermometer and grouping method of probe sleeve for ear thermometer

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no. 1 example

[0064] Such as Figure 5 to Figure 7 As shown, the specific features of the detection position 30 of the probe cover U on the flange 3 provided by the first embodiment of the present invention will be further described below. In this embodiment, the number of detection locations 30 is set to two, and the number of detection combinations is set to three. The two detection positions 30 are divided into a first detection position 301 and a second detection position 302 , and the three detection combinations are divided into a first detection combination, a second detection combination and a third detection combination. In addition, it should be noted that since each detection position 30 can have two possibilities of positive detection pattern 3a or negative detection pattern 3b, the two detection positions 30 in this embodiment can have at most 4 detection combinations. However, in practice, the number of detection combinations used can be adjusted according to user requiremen...

no. 2 example

[0070] Such as Figure 8 to Figure 12 As shown, the specific features of the detection position 30 of the probe cover U on the flange 3 provided by the second embodiment of the present invention will be further described below. In this embodiment, the number of detection locations 30 is set to three, and the number of detection combinations is set to five. The three detection positions 30 are divided into the first detection position 301, the second detection position 302 and the third detection position 303, and the five detection combinations are divided into the first detection combination, the second detection combination, the third detection combination A detection combination, a fourth detection combination and a fifth detection combination. In addition, it should be noted that since each detection position 30 can have two possibilities of positive detection pattern 3a or negative detection pattern 3b, the three detection positions 30 in this embodiment can have at most...

no. 3 example

[0078] Such as Figure 13 As shown, the present invention provides a method for grouping probe covers U for ear thermometer T, which can group mass-produced probe covers U according to their respective infrared penetration rates. It should be noted that the grouping method of the probe cover U for the ear thermometer T provided by the present invention is implemented by the probe cover U for the ear thermometer T of the above-mentioned first embodiment and the second embodiment. Therefore, in this embodiment, please also refer to the first embodiment and the second embodiment and the description about the probe cover U for the ear thermometer T. Figure 1 to Figure 12, the relevant structural features of the probe cover U for the ear thermometer T mentioned in this embodiment will not be repeated. However, the grouping method of the probe cover U for the ear thermometer T of the present invention is not limited to the implementation of the probe cover U for the ear thermomete...

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Abstract

The invention discloses a probe sleeve for an ear thermometer and a grouping method of the probe sleeve for the ear thermometer. The probe sleeve for the ear thermometer comprises a conical body, an annular elastic body and a flange. The conical body has a closed end and an open end. Infrared rays penetrate through the closed end. The closed end has different infrared ray penetration rates according to the change of the thickness of the closed end. The annular elastic body is located between the conical body and the flange. The flange is provided with a plurality of detection positions, and each detection position comprises a positive detection pattern or a negative detection pattern, so that the plurality of detection positions are arranged and combined to form a plurality of different detection combinations. The plurality of different detection combinations respectively correspond to a plurality of different infrared ray penetration rates, and two infrared ray penetration rates corresponding to any two detection combinations in the plurality of different detection combinations are different from each other. The ear thermometer sleeved with the probe sleeve can rapidly recognize the infrared ray penetration rate of the probe sleeve, calculation and adjustment are carried out according to the numerical value of the infrared ray penetration rate, and the accurate human body temperature is further measured.

Description

technical field [0001] The present invention relates to a grouping method of a probe cover for an ear thermometer and a probe cover for an ear thermometer, in particular to a grouping method for a probe cover for an ear thermometer and a probe cover for an ear thermometer method. Background technique [0002] Most of the existing devices for measuring body temperature can use ear thermometers or forehead thermometers to sense the body temperature. However, with the improvement of health and safety awareness, a replaceable earmuff is usually placed on the probe of the ear thermometer before measuring the ear temperature. The earmuff itself has an infrared transmittance. Generally speaking, the infrared penetration rate of the earmuffs is related to the thickness of the top of the earmuffs. When the earmuffs are injection molded, the thickness of the top will affect the infrared penetration rate, thereby affecting the accuracy of the ear temperature measured by the ear ther...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J5/00G01J5/02
CPCG01J5/0011G01J5/021
Inventor 张永昌林增隆何禺辰顾丁洁臧永刚
Owner KUNSHAN REYING PHOTOELECTRICITY CO LTD
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