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Nanoporous vacuum heat insulation device for high-temperature-resistant kiln

A nano-microporous, vacuum insulation technology, which is applied in the directions of heat preservation, heat exchange equipment, and pipeline protection through thermal insulation, can solve the problem of lack of convenient installation mechanism of nano-microporous plate.

Pending Publication Date: 2021-09-10
英索来欣(苏州)新材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In order to make up for the deficiencies of the existing technology and solve the problem that there are certain defects in the vacuum insulation device currently used, and the lack of a convenient installation mechanism for the nano-microporous plate makes it inconvenient to disassemble and maintain the nano-microporous plate, the present invention proposes a high temperature resistant Nano microporous vacuum insulation device for kiln

Method used

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  • Nanoporous vacuum heat insulation device for high-temperature-resistant kiln
  • Nanoporous vacuum heat insulation device for high-temperature-resistant kiln
  • Nanoporous vacuum heat insulation device for high-temperature-resistant kiln

Examples

Experimental program
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Effect test

Embodiment 1

[0029] see Figure 1-4 As shown, a nano-microporous vacuum insulation device for a high-temperature-resistant kiln includes a nano-microporous plate 1, a vacuum plate 2, a vacuum plate 2 3 and a connecting mechanism; the vacuum plate 1 2 is provided with three, and the three vacuum plates The vacuum plate 12 forms a U-shaped area, and two vacuum plates 23 are symmetrically installed inside the U-shaped area. The vacuum plate 12 is far away from the end of the vacuum plate 23 and the outside of the vacuum plate 23 is equipped with a nano-microporous plate. 1;

[0030] The connection mechanism includes a rectangular rod 4 and a T-shaped round rod 5. A rectangular groove is provided at one end of the vacuum plate 2 near the vacuum plate 2 3, and rectangular rods are fixedly installed at the left and right ends and the rear end of the vacuum plate 2 3. 4. The rectangular rod 4 is installed inside the rectangular groove, the top of the vacuum plate 2 is equipped with a T-shaped ro...

Embodiment 2

[0041] see Figure 5 As shown in Comparative Example 1, as another embodiment of the present invention, a U-shaped bar 17 is slidably installed on one end of the oval block 12, and one end of the U-shaped bar 17 passes through the oval block 12 and two clamps are fixedly installed. Block 18, one end of the nano-microporous plate 1 is symmetrically provided with two draw-in grooves, one end of the block 18 extends to the inside of the draw-in groove, an adjusting bolt 20 is installed on the annular side of the U-shaped bar 17, and one end of the adjusting bolt 20 Pass through the U-shaped bar 17 and rotate it on the ellipse block 12, the annular side of the adjusting bolt 20 is provided with a nut, and the outer side of the nut is fixedly installed inside the U-shaped bar 17; during work, the nano-microporous plate 1 is installed on the On the elliptical rod 11, the elliptical block 12 is reversely twisted, and the rotation of the elliptical block 12 drives the rotating pin 13 ...

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Abstract

The invention belongs to the field of vacuum heat insulation, and particularly relates to a nanoporous vacuum heat insulation device for a high-temperature-resistant kiln. The nanoporous vacuum heat insulation device comprises a nanoporous plate, a first vacuum plate, a second vacuum plate, a rectangular rod, a T-shaped round rod, an L-shaped groove, a sliding block, a flat head bolt, a first spring, a square block, an elliptical rod, an elliptical block, a rotating pin, a torsional spring, a first magnetic block, a second magnetic block, a U-shaped rod, a clamping block, a second spring and an adjusting bolt. The second vacuum plate is installed in the U-shaped area, the rectangular rod is installed in a rectangular groove, a circular through hole in the rectangular rod is aligned with a cylindrical groove in the rectangular groove, the T-shaped round rod is inserted into the first vacuum plate, the bottom end of the T-shaped round rod penetrates through the circular through hole to enter the cylindrical groove, and the bottom end of the T-shaped round rod enters the cylindrical groove, so that the sliding block moves along the vertical groove of the L-shaped groove, and when the sliding block moves to the end of the vertical groove, a user rotates the T-shaped round rod, so that the sliding block moves into a transverse groove of the L-shaped groove, and then one end of the T-shaped round rod is clamped into a cylindrical groove.

Description

technical field [0001] The invention relates to the field of vacuum heat insulation, in particular to a nano-microporous vacuum heat insulation device for a high-temperature-resistant kiln. Background technique [0002] Vacuum insulation panel, vacuum insulation panel (VIP panel) is a kind of vacuum insulation material. It is composed of filling core material and vacuum protection surface layer. It can effectively avoid heat transfer caused by air convection, so the thermal conductivity can be greatly improved. reduce. [0003] Vacuum insulation devices can effectively reduce heat transfer, adding nano-microporous plates on the outside of the vacuum panel can further increase the heat insulation effect of the vacuum insulation device, but nano-microporous plates are generally fixed on the vacuum insulation board by bolts, which is inconvenient to disassemble. Install maintenance. [0004] The vacuum insulation device currently used has certain defects, such as the lack of ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16L59/02F16L59/065F16L59/04F16B5/00
CPCF16L59/028F16L59/029F16L59/065F16L59/04F16B5/0092F16B5/00
Inventor 李焕勇马汝军柳永忠
Owner 英索来欣(苏州)新材料科技有限公司