CN216792085U - Energy-conserving efficiency test device of infrared energy-conserving material - Google Patents

Energy-conserving efficiency test device of infrared energy-conserving material Download PDF

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Publication number
CN216792085U
CN216792085U CN202122434424.7U CN202122434424U CN216792085U CN 216792085 U CN216792085 U CN 216792085U CN 202122434424 U CN202122434424 U CN 202122434424U CN 216792085 U CN216792085 U CN 216792085U
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China
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energy
heating
saving
heating container
infrared
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CN202122434424.7U
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Inventor
尹利华
谢闯
童鹏
赵邦传
王萌
魏仁怀
鲁文建
罗轩
杨杰
宋文海
吕红艳
吴莹
陶兴东
蔺帅
黄亚楠
白金
胡令
钟晓康
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Luan Institute of Anhui Institute of Industrial Technology Innovation
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Luan Institute of Anhui Institute of Industrial Technology Innovation
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Abstract

The utility model discloses an energy-saving efficiency testing device for an infrared energy-saving material. The energy-saving efficiency testing device for the infrared energy-saving material with the optimized design has the advantages of simple structure and low cost, and the energy-saving efficiency of the energy-saving coating is obtained by testing the temperature rise time of the heating medium before and after the energy-saving material coating is coated on the heating container.

Description

Energy-conserving efficiency testing arrangement of infrared energy-conserving material
Technical Field
The utility model relates to the technical field of energy-saving efficiency testing, in particular to an energy-saving efficiency testing device for an infrared energy-saving material.
Background
The infrared emissivity of metal materials is generally low, and the absorption of infrared is selective, so that when some metal substrates (such as cookers, boilers and the like) are directly heated, the heating efficiency is low, and the heat loss is large. If the metal substrate is heated after being coated with the high-emissivity infrared coating material, the high-emissivity infrared coating material has strong infrared absorption capacity, so that part of heat absorbed by the high-emissivity infrared coating material can be transferred to the metal substrate through heat conduction, the metal substrate and internal materials are heated, and the other part of heat can flow to a space in an infrared radiation and heat convection mode.
In the research process of the infrared high-emissivity coating material, the energy-saving efficiency of the material needs to be tested, so that the research and development results are subjected to preset evaluation.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problems in the background art, the utility model provides an energy-saving efficiency testing device for an infrared energy-saving material.
The utility model provides an energy-saving efficiency testing device for an infrared energy-saving material, which comprises: the device comprises a heating mechanism, a test heating container, a first thermometer and a timer;
the surface of the test heating container is provided with an energy-saving material coating area, a heating medium is contained in the test heating container, an infrared radiation area is arranged on the heating mechanism, the heating mechanism is located on one side of the energy-saving material coating area of the test heating container and heats the test heating container through the infrared radiation area, the first thermometer is used for detecting the temperature of the heating medium, and the timer is connected with the first thermometer and used for timing the time when the heating medium rises to the preset temperature.
Preferably, the heating mechanism adopts a gas stove, the test heating container is positioned on the gas stove, and the energy-saving material coating area is positioned at the bottom of the test heating container.
Preferably, the energy saving material coating region has a horizontally arranged coating face.
Preferably, the test heating device further comprises a comparison heating container and a second thermometer, a first infrared radiation area corresponding to the test heating container and a second infrared radiation area corresponding to the comparison heating container are arranged on the heating mechanism, a heating medium which is the same as the test heating container in quantity and is contained in the comparison heating container, and the second thermometer is used for detecting the temperature of the heating medium in the comparison heating container.
Preferably, the heating medium is water.
Preferably, the test heating vessel is made of a metallic material.
According to the energy-saving efficiency testing device for the infrared energy-saving material, the surface of the testing heating container is provided with an energy-saving material coating area, the heating medium is contained in the testing heating container, the heating mechanism heats the testing heating container through infrared radiation, the first thermometer is used for detecting the temperature of the heating medium in the heating container, and the timer is connected with the first thermometer and used for timing the time of the heating medium for rising the preset temperature. The energy-saving efficiency testing device for the infrared energy-saving material with the optimized design has the advantages of simple structure and low cost, and the energy-saving efficiency of the energy-saving coating is obtained by testing the temperature rise time of the heating medium before and after the energy-saving material coating is coated on the heating container.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of an energy-saving efficiency testing device for an infrared energy-saving material according to the present invention.
Fig. 2 is a schematic structural diagram of another embodiment of an energy-saving efficiency testing device for an infrared energy-saving material according to the present invention.
Detailed Description
As shown in fig. 1 and 2, fig. 1 is a schematic structural diagram of an embodiment of an energy-saving efficiency testing apparatus for an infrared energy-saving material according to the present invention, and fig. 2 is a schematic structural diagram of another embodiment of an energy-saving efficiency testing apparatus for an infrared energy-saving material according to the present invention.
Referring to fig. 1, the energy-saving efficiency testing device for infrared energy-saving material provided by the utility model comprises: a heating mechanism 1, a test heating container 2, a first thermometer 3 and a timer 4;
the surface of the test heating container 2 is provided with an energy-saving material coating area 21, a heating medium is contained in the test heating container 2, an infrared radiation area is arranged on the heating mechanism 1, the heating mechanism 1 is located on one side of the energy-saving material coating area 21 of the test heating container 2 and heats the test heating container 2 through the infrared radiation area, the first thermometer 3 is used for detecting the temperature of the heating medium, and the timer 4 is connected with the first thermometer 3 and used for timing the time when the heating medium rises to the preset temperature.
In the specific working process of the infrared energy-saving material energy-saving efficiency testing device of the embodiment, a testing heating container which is not coated with an energy-saving material coating is heated through a heating mechanism, the temperature of a heating medium in the heating container is increased, when a first thermometer detects the increased preset temperature of the heating medium, a timer counts to obtain a contrast temperature rise time, then, an energy-saving material to be tested is coated on an energy-saving material coating area of the testing heating container, the testing heating container coated with the energy-saving material coating is heated through the heating mechanism, when the first thermometer detects the increased preset temperature of the heating medium, the timer counts to obtain a testing temperature rise time, and the ratio of the testing temperature rise time to the contrast temperature rise time is the energy-saving efficiency of the energy-saving material coating. The energy-saving efficiency of the material can be simply and accurately tested by taking the heating medium as a testing medium.
In the selection of the heating container, the heating container is made of metal materials, and high heat conductivity is guaranteed.
In the selection of the heating medium, the heating medium is water, the specific heat capacity of the water is high, and the testing precision of the energy-saving efficiency is improved. When measuring temperature, the detection end of the thermometer can be inserted into the heating medium. In a specific test, water can be heated from normal temperature to boiling at 100 degrees, and used as a reference value of a preset temperature.
In this embodiment, the proposed device for testing energy-saving efficiency of infrared energy-saving material has an energy-saving material coating area on the surface of a test heating container, a heating medium is contained in the test heating container, a heating mechanism heats the test heating container through infrared radiation, a first thermometer is used for detecting the temperature of the heating medium in the heating container, and a timer is connected with the first thermometer and is used for timing the time when the heating medium is raised to a preset temperature. The energy-saving efficiency testing device for the infrared energy-saving material with the optimized design has the advantages of simple structure and low cost, and the energy-saving efficiency of the energy-saving coating is obtained by testing the temperature rise time of the heating medium before and after the energy-saving material coating is coated on the heating container.
In a specific embodiment, the heating mechanism 1 can adopt a gas stove or other infrared heating electric furnace, the test heating container 2 is positioned on the gas stove or other infrared heating electric furnace, and the energy-saving material coating area 21 is positioned at the bottom of the test heating container 2; the heating area of the energy-saving material coating and the infrared heat source is increased, and the energy-saving effect is improved.
Specifically, the energy saving material coating region 21 has a horizontally arranged coating face.
Referring to fig. 2, in another embodiment, the present embodiment further includes a comparison heating container 5 and a second thermometer 6, the heating mechanism 1 is provided with a first infrared radiation region corresponding to the test heating container 2 and a second infrared radiation region corresponding to the comparison heating container 5, the comparison heating container 5 contains a heating medium of the same amount as the test heating container 2, and the second thermometer 6 is used for detecting the temperature of the heating medium in the comparison heating container 5.
In the specific test of the embodiment, the same amount of heating media of the same kind are filled in the test heating container 2 and the comparison heating container 5, the test heating container coated with the energy-saving material coating and the comparison heating container not coated with the energy-saving material coating are simultaneously heated by the heating mechanism, the heating media in the test heating container and the comparison heating container are respectively measured by the first thermometer 3 and the second thermometer 6, the boiling time of the heating media in the test heating container and the boiling time of the heating media in the comparison heating container are respectively recorded by the timer 4, and the heating efficiency of the energy-saving material can be obtained.
In addition, according to actual test requirements, the energy-saving efficiency testing device for the infrared energy-saving material can be used for testing the energy-saving efficiency of energy-saving coatings with different thicknesses, different heating areas and different materials.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides an energy-conserving efficiency test device of infrared energy-conserving material which characterized in that includes: the device comprises a heating mechanism (1), a test heating container (2), a first thermometer (3) and a timer (4);
the surface of the test heating container (2) is provided with an energy-saving material coating area (21), a heating medium is contained in the test heating container (2), an infrared radiation area is arranged on the heating mechanism (1), the heating mechanism (1) is located on the test heating container (2), one side of the energy-saving material coating area (21) heats the test heating container (2) through the infrared radiation area, the first thermometer (3) is used for detecting the temperature of the heating medium, and the timer (4) is connected with the first thermometer (3) and used for timing the time that the heating medium raises the preset temperature.
2. The energy-saving efficiency testing device for infrared energy-saving materials as claimed in claim 1, characterized in that the heating mechanism (1) is a gas stove, the testing heating container (2) is positioned on the gas stove, and the energy-saving material coating area (21) is positioned at the bottom of the testing heating container (2).
3. The infrared energy-saving material energy-saving efficiency testing device as claimed in claim 2, characterized in that the energy-saving material coating area (21) has a coating face arranged horizontally.
4. The energy-saving efficiency testing device for the infrared energy-saving material as claimed in claim 1, further comprising a comparison heating container (5) and a second thermometer (6), wherein the heating mechanism (1) is provided with a first infrared radiation area corresponding to the testing heating container (2) and a second infrared radiation area corresponding to the comparison heating container (5), the comparison heating container (5) contains the same amount of heating medium as the testing heating container (2), and the second thermometer (6) is used for detecting the temperature of the heating medium in the comparison heating container (5).
5. The energy-saving efficiency testing device for infrared energy-saving materials as claimed in claim 1, wherein the heating medium is water.
6. The energy-saving efficiency testing device for infrared energy-saving materials as claimed in claim 1, characterized in that the testing heating container (2) is made of metal material.
CN202122434424.7U 2021-10-09 2021-10-09 Energy-conserving efficiency test device of infrared energy-conserving material Active CN216792085U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122434424.7U CN216792085U (en) 2021-10-09 2021-10-09 Energy-conserving efficiency test device of infrared energy-conserving material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122434424.7U CN216792085U (en) 2021-10-09 2021-10-09 Energy-conserving efficiency test device of infrared energy-conserving material

Publications (1)

Publication Number Publication Date
CN216792085U true CN216792085U (en) 2022-06-21

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ID=81999252

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122434424.7U Active CN216792085U (en) 2021-10-09 2021-10-09 Energy-conserving efficiency test device of infrared energy-conserving material

Country Status (1)

Country Link
CN (1) CN216792085U (en)

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