CN103439016A - Induction cooker non-contact type temperature measuring device - Google Patents

Abstract

The invention provides an induction cooker non-contact type temperature measuring device. The service life of the temperature measurement device is effectively prolonged. The temperature measurement device is composed of a microcrystal pot lining, thermal insulation materials and a temperature measurement probe, wherein the thermal insulation materials wrap the outer portion of the microcrystal pot lining, the thickness of the thermal insulation materials is larger than the height of the portion, exposed out of the microcrystal pot lining, of the temperature measurement probe, and the thermal materials only need to cover the temperature measurement probe. According to the induction cooker non-contact type temperature measuring device, the thermal insulation materials wraps the outer portion of the microcrystal pot lining, therefore, the microcrystal pot lining can completely absorb radiant heat emitted by a pot, and the temperature of the pot can be effectively measured. Meanwhile, due to the existence of the thermal insulation materials, the temperature measurement probe does not make direct contact with the pot, and the temperature measurement probe is guaranteed not to be damaged when the pot is freely moved.

Description

A kind of electromagnetic stove non-contact temperature measuring device

Technical field

The present invention relates to electromagnetic stove, be specifically related to a kind of electromagnetic stove non-contact temperature measuring device.

Background technology

In the last few years, the electromagnetic stove performance unique with it more and more applied in many places, and it adopts electric power is the energy, there is no naked light, can not produce toxic emission, can significantly reduce greenhouse effect, and simultaneously, electromagnetic stove has the fast advantage of the rate of heat addition.

Be equipped with temperature measuring equipment in electromagnetic stove, adopt during existing electromagnetic stove temperature measuring equipment thermometric as shown in Figure 1 the outside temperature probe of outstanding pot lining is set at pot lining place, when pan is placed on electromagnetic stove, by temperature probe and pan, contact to measure temperature.Although this thermometric mode is more accurate to the measurement of temperature, because the Long contact time friction of pan and temperature probe can make temperature probe very easily produce damage.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, a kind of electromagnetic stove non-contact temperature measuring device is provided, effectively extend the serviceable life of temperature measuring equipment.

The present invention solves above technical matters by the following technical solutions:

A kind of electromagnetic stove non-contact temperature measuring device, be comprised of microcrystalline boiler lining, insulation material, temperature probe.

Described insulation material is wrapped in the outside of microcrystalline boiler lining, and its thickness, higher than the height of the outstanding microcrystalline boiler lining of temperature probe, covers the crystallite probe to get final product.

The present invention adopts insulation material to be wrapped in the outside of microcrystalline boiler lining, guarantees that the microcrystalline boiler lining can absorb the radiation heat that pan distributes fully, can effectively measure the temperature of pan; Due to the existence of insulation material, make between temperature probe and pan not occur direct contact simultaneously, guaranteed that pan does not damage temperature probe when moving freely.

The accompanying drawing explanation

The schematic diagram that Fig. 1 is existing thermometric mode.

Fig. 2 is schematic diagram of the present invention.

In figure, 1, microcrystalline boiler lining, 2, insulation material, 3, temperature probe, 4, pan.

Embodiment

Below in conjunction with accompanying drawing, the present invention is further described.

A kind of electromagnetic stove non-contact temperature measuring device as shown in Figure 2, be comprised of microcrystalline boiler lining 1, insulation material 2, temperature probe 3.

Described insulation material 2 is wrapped in the outside of microcrystalline boiler lining 1, and its thickness, higher than the height of the outstanding microcrystalline boiler lining 1 of temperature probe 3, covers crystallite probe 3 to get final product.

During use, insulation material 2 can absorb the radiation heat that pan 4 is emitted fully, has guaranteed thermometric accuracy.

Temperature probe 3 is fixed on microcrystalline boiler lining 1, and insulation material 2 coats, so temperature probe 3 does not directly contact with pan 4, has improved the serviceable life of temperature probe 3.

Above-described embodiment is only a kind of form of expression of the present invention; not scope of the present invention is limited; design under the prerequisite of spirit not breaking away from the present invention; various distortion and improvement that the common engineering technical personnel in this area make technical scheme of the present invention, all should fall in the definite protection domain of claims of the present invention.

Claims (2)

1. an electromagnetic stove non-contact temperature measuring device, by microcrystalline boiler lining (1), insulation material (2), temperature probe (3), formed, it is characterized by: described insulation material (2) is wrapped in the outside of microcrystalline boiler lining (1), its thickness is higher than the height of the outstanding microcrystalline boiler lining of temperature probe (3) (1), and by the crystallite probe, (30 coverings get final product.

2. a kind of electromagnetic stove non-contact temperature measuring device according to claim 1, it is characterized by: described temperature probe (3) is fixed on microcrystalline boiler lining (1), insulation material (2) coats, and described temperature probe (3) does not directly contact with pan (4).

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