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Temperature measuring device capable of automatically switching temperature control and combustor

A technology of automatic switching and temperature measuring device, which is applied to burners, measuring devices, gas fuel burners, etc., to achieve the effect of simple structure, solving the problem of automatic flameout due to malfunction, and improving user experience

Pending Publication Date: 2021-11-26
VATTI CORP LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention aims at at least to a certain extent to solve one of the problems existing in the existing related technologies. Therefore, the present invention proposes a temperature measuring device capable of automatically switching temperature control, which has a simple structure and can automatically switch temperature control states , which solves the problem of automatic flameout of the anti-dry gas stove when the user uses a sharp pot, and improves the user experience

Method used

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  • Temperature measuring device capable of automatically switching temperature control and combustor
  • Temperature measuring device capable of automatically switching temperature control and combustor
  • Temperature measuring device capable of automatically switching temperature control and combustor

Examples

Experimental program
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Effect test

Embodiment 1

[0029] refer to Figure 1-2 , this embodiment provides a temperature measuring device capable of automatic switching and temperature control, which is applied to a burner. The temperature measuring device includes a probe bracket 1 , a temperature probe 2 and an induction component 3 . The probe bracket 1 has a mounting hole 101 . The temperature probe 2 is passed through the installation hole 101 , and the temperature probe 2 can be switched between a temperature monitoring state and a temperature monitoring failure state. The sensing component 3 is arranged below or above the probe holder 1 . In this embodiment, the sensing component 3 is set under the probe bracket 1 as an example. When the temperature probe 2 moves downward and contacts the sensing component 3, the temperature probe 2 is switched to the temperature monitoring failure state, or the temperature probe 2 moves downward. And when the sensing component 3 is not in contact, the temperature probe 2 is switched to...

Embodiment 2

[0044] refer to Figure 4-5 The difference between this embodiment and Embodiment 1 is that the structure and installation position of the induction component 3 are different. Specifically, the induction assembly 3 includes an inductor 31 and a support base 34, the support base 34 is arranged on the outside of the support rod 22 and is located between the bottom of the outer cover 23 and the top of the probe holder 1, and the inductor 31 is arranged on the support base 34 and is located on the outer cover 23. Below, there is a distance H between the inductor 31 and the bottom of the casing 23 . It can be seen that the sensor 31 is installed between the bottom of the jacket 23 and the top of the probe bracket 1 through the support seat 34, so that automatic switching and temperature control can be carried out according to the different downstrokes of the jacket 23 when it sits on a sharp pot or a frying pan. , to ensure that the jacket 23 does not touch the sensor 31 when the ...

Embodiment 3

[0048] refer to Figure 6-7 , The difference between this embodiment and Embodiment 2 lies in the structure of the induction component 3 . Specifically, the induction component 3 includes an inductor 31 and an elastic member 33 , the inductor 31 is disposed between the bottom of the casing 23 and the top of the probe holder 1 , and a distance H is left between the inductor 31 and the bottom of the casing 23 . The elastic member 33 is sheathed on the outer surface of the support rod 22 , and opposite ends of the elastic member 33 are respectively connected to the inductor 31 and the probe holder 1 . Therefore, by connecting the opposite ends of the elastic member 33 to the inductor 31 and the probe holder 1 respectively, the support seat 34 can be omitted, so that the overall structure of the induction component 3 is simpler and the cost is lower.

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Abstract

The invention discloses a temperature measuring device capable of automatically switching temperature control and a combustor. The temperature control system comprises a probe support, a temperature probe and a sensing assembly; the probe support is provided with a mounting hole; the temperature probe is arranged in the mounting hole in a penetrating manner, and the temperature probe can be switched between a temperature monitoring state and a temperature monitoring failure state; and the sensing assembly is arranged below or above the probe support, when the temperature probe moves downwards and makes contact with the sensing assembly, the temperature probe is switched to be in the temperature monitoring failure state, or when the temperature probe moves downwards and does not make contact with the sensing assembly, the temperature probe is switched to be in the temperature monitoring state. According to the temperature measuring device, the structure is simple, the temperature control state can be automatically switched, the problem of automatic flameout due to misoperation of a dry-burning-resistant gas stove when a user uses a sharp pot is solved, and the use experience of the user is improved.

Description

technical field [0001] The invention relates to the technical field of burners, in particular to a temperature measuring device capable of automatic switching and temperature control and a burner. Background technique [0002] At present, the middle of the burner head of the anti-dry burning gas stoves on the market is mostly a through hole, and the temperature sensor is fixed on the burner head through the through hole to avoid dry burning. When the pan sits on the pan, the temperature sensing cap of the temperature sensor has a large contact area with the bottom of the pan, and the temperature detection accuracy of the bottom of the pan is high. However, when the pointed pot sits on the pot, because the bottom of the pot is arc-shaped, the temperature sensing cap of the temperature sensor and the bottom of the pot have a small release area, and the temperature detection error of the bottom of the pot is large. The dry-burning gas stove malfunctions and automatically turns...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F23D14/72F24C3/08F24C3/12G01K13/00G01K1/14
Inventor 刘华荣潘叶江
Owner VATTI CORP LTD