CN212107492U - High-temperature-resistant ceramic fiber blanket for heat-insulating pipeline - Google Patents

Abstract

The utility model discloses a high temperature resistant ceramic fiber blanket for heat preservation pipeline, which comprises a fiber blanket body, one side of the fiber blanket body is provided with a first connecting cloth, the bottom of the first connecting cloth is sewn with a third magic tape, the other side of the fiber blanket body is provided with a second connecting cloth, the ceramic fiber blanket can be quickly fixed on a heat preservation pipe through a magnet and a magic tape, the phenomenon of falling off during installation can not occur, the ceramic fiber blanket can be quickly fixed on the heat preservation pipe, the connection between the ceramic fiber blanket and the heat preservation pipe is tighter, the heat preservation performance is improved, the sealing performance between the heat preservation pipe and the ceramic fiber blanket is enhanced through a fixing cloth, the stability of the installation of the ceramic fiber blanket is improved, the operation is simple and convenient, the installation efficiency is improved, the time is saved, and the inside of the ceramic fiber blanket is fixed by overlapping a ceramic substrate, a heat preservation cotton, a ceramic fiber pad and a glass fiber cloth, not only prolongs the service life of the ceramic fiber blanket, but also can increase the heat preservation performance.

Description

High-temperature-resistant ceramic fiber blanket for heat-insulating pipeline

Technical Field

The utility model relates to a ceramic fibre blanket field specifically is a high temperature resistant ceramic fibre blanket for insulating tube.

Background

The ceramic fiber blanket is also called as aluminum silicate fiber blanket, because one of the main components is alumina, and alumina is the main component of porcelain. The ceramic fiber blanket mainly comprises a ceramic fiber blowing blanket and a ceramic fiber throwing blanket, and the ceramic fiber throwing blanket is superior to the ceramic fiber blowing blanket in heat preservation performance due to the fact that the ceramic fiber is long in fiber and small in heat conductivity coefficient. Most of heat preservation pipeline construction multipurpose ceramic fibre gets rid of silk blanket. The ceramic fiber blanket is used very extensively, especially the application on the heat preservation pipeline, current ceramic fiber blanket function singleness, be exactly a simple blanket, carry out the cladding to the insulating tube, then fix the ceramic fiber blanket again, the operation is very loaded down with trivial details complicacy, inconvenient use, and current ceramic fiber blanket is longer, in the time of cladding insulating tube, the easy trip drops, inconvenient quick fixation is on the insulating tube, can not let the more firm stable fixing on the insulating tube of ceramic fiber blanket, current ceramic fiber blanket thermal insulation performance is poor, short service life, the wholeness can be poor, inconvenient long-term use is on the insulating tube.

Disclosure of Invention

The utility model aims at the defect of prior art, provide a high temperature resistant ceramic fiber blanket for insulating tube to solve the problem that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: a high-temperature resistant ceramic fiber blanket for a heat preservation pipeline comprises a fiber blanket body, wherein a first connecting cloth is arranged on one side of the fiber blanket body, a third magic tape is sewn at the bottom of the first connecting cloth, a second connecting cloth is arranged on the other side of the fiber blanket body, a third magic tape is sewn at the top of the second connecting cloth, a plurality of first fixing cloth connectors and second fixing cloth connectors are sewn on the top surface of the fiber blanket body, first fixing cloth is sewn on the first fixing cloth connectors, a first magic tape is sewn at the bottom of the first fixing cloth, a first magic tape is sewn at one side of the first fixing cloth connectors, a second fixing cloth is sewn on the second fixing cloth connectors, a second magic tape is sewn at the bottom of the second fixing cloth, and a second magic tape is sewn at one side of the second fixing cloth connectors, evenly install first magnetite, second magnetite and third magnetite between first fixed cloth connector and the fixed cloth connector of second, the inside of fibre blanket body is equipped with ceramic substrate, ceramic substrate's top is equipped with first heat preservation cotton, first heat preservation cotton's top is equipped with first ceramic fibre pad, the top of first ceramic fibre pad is equipped with first glass fiber cloth, ceramic substrate's bottom is equipped with second heat preservation cotton, the cotton bottom of second heat preservation is equipped with second ceramic fibre pad, the bottom of second ceramic fibre pad is equipped with second glass fiber cloth.

As an optimal technical scheme of the utility model, first glass fiber cloth, first ceramic fiber pad, first heat preservation cotton, ceramic substrate, second heat preservation cotton, second ceramic fiber pad and second glass fiber cloth are all through the hot melt adhesive suppression hot melt synthesis.

As an optimal technical scheme of the utility model, the width of fibre blanket body is the same with the girth of pipeline, first magnetite, second magnetite and the equal pre-buried sewing of third magnetite are between first ceramic fibre pad and first glass fiber cloth.

As an optimal technical scheme of the utility model, first fixed cloth is pasted through first magic and is pasted the female subsides of first magic and link to each other with the bonding of fibre blanket body.

As an optimal technical scheme of the utility model, the fixed cloth of second is pasted through second magic and is pasted female the pasting and link to each other with the bonding of fibre blanket body with second magic.

As a preferred technical scheme of the utility model, first connection cloth is connected cloth through third magic subsides son and female subsides of third magic subsides and second and is bonded continuously.

The utility model has the advantages that: this ceramic fiber blanket passes through magnetite and magic subsides can fix fast on the insulating tube, the phenomenon that can not go on a journey and drop in the installation, and can fix the ceramic fiber blanket on the insulating tube fast, let the connection between ceramic fiber blanket and the insulating tube inseparabler, improve thermal insulation performance, and still strengthen the leakproofness between insulating tube and the ceramic fiber blanket through fixed cloth, improve the stability ability of ceramic fiber blanket installation, easy operation is convenient, the installation effectiveness is improved, time saving, and this ceramic fiber blanket is inside to pass through ceramic substrate, it is cotton to keep warm, ceramic fiber pad and glass fiber cloth stack are fixed, not only improve the life of ceramic fiber blanket, but also can increase thermal insulation performance.

Drawings

Fig. 1 is a schematic front structural view of the present invention;

fig. 2 is a schematic view of the back structure of the present invention;

fig. 3 is a cross-sectional view of the fiber blanket of the present invention.

In the figure: 1. the fiber blanket body, 2, female subsides of first magic subsides, 3, first fixed cloth connector, 4, first fixed cloth, 5, first magic subsides, 6, female subsides of second magic subsides, 7, the fixed cloth connector of second, 8, the fixed cloth of second, 9, first connecting cloth, 10, first magnetite, 11, the second magnetite, 12, the third magnetite, 13, the second connecting cloth, 14, the female subsides of third magic subsides, 15, the subsides of third magic subsides, 16, the subsides of second magic subsides, 17, ceramic substrate, 18, first heat preservation cotton, 19, first ceramic fiber pad, 20, first glass fiber cloth, 21, the second keeps warm cotton, 22, second ceramic fiber pad, 23, second glass fiber cloth.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the protection scope of the present invention can be clearly and clearly defined.

Example (b): referring to fig. 1-3, the present invention provides a technical solution: a high-temperature resistant ceramic fiber blanket for a heat preservation pipeline comprises a fiber blanket body 1, wherein one side of the fiber blanket body 1 is provided with a first connecting cloth 9, the bottom of the first connecting cloth 9 is sewn with a third magic tape 15, the other side of the fiber blanket body 1 is provided with a second connecting cloth 13, the top of the second connecting cloth 13 is sewn with a third magic tape 14, the top surface of the fiber blanket body 1 is sewn with a plurality of first fixing cloth connectors 3 and second fixing cloth connectors 7, the first fixing cloth connectors 3 are sewn with first fixing cloth 4, the bottom of the first fixing cloth 4 is sewn with a first magic tape 5, one side of the first fixing cloth connectors 3 is sewn with a first magic tape 2, the second fixing cloth connectors 7 are sewn with second fixing cloth 8, the bottom of the second fixing cloth 8 is sewn with a second magic tape 16, one side of the second fixing cloth 7 is sewn with a second magic tape 6, evenly install first magnetite 10 between first fixed cloth connector 3 and the fixed cloth connector 7 of second, second magnetite 11 and third magnetite 12, the inside of fibre blanket body 1 is equipped with ceramic substrate 17, ceramic substrate 17's top is equipped with first heat preservation cotton 18, first heat preservation cotton 18's top is equipped with first ceramic fibre pad 19, first ceramic fibre pad 19's top is equipped with first glass fiber cloth 20, ceramic substrate 17's bottom is equipped with second heat preservation cotton 21, second heat preservation cotton 21's bottom is equipped with second ceramic fibre pad 22, second ceramic fibre pad 22's bottom is equipped with second glass fibre cloth 23.

The first glass fiber cloth 20, the first ceramic fiber mat 19, the first heat-insulating cotton 18, the ceramic substrate 17, the second heat-insulating cotton 21, the second ceramic fiber mat 22 and the second glass fiber cloth 23 are all formed by pressing and hot melting through hot melt adhesives.

The width of the fiber blanket body 1 is the same as the perimeter of the pipeline, and the first magnet 10, the second magnet 11 and the third magnet 12 are all pre-buried and sewn between the first ceramic fiber mat 19 and the first glass fiber cloth 20.

First fixed cloth 4 pastes 5 and female subsides 2 of first magic subsides and fibre blanket body 1 bonding through first magic and links to each other.

The second fixing cloth 8 is connected with the fiber blanket body 1 through the second magic tape 16 and the second magic tape female tape 6.

The first connection cloth 9 is adhered and connected with the second connection cloth 13 through a third hook and loop fastener 15 and a third hook and loop fastener 14.

The working principle is as follows: a high temperature resistant ceramic fiber blanket for heat preservation pipelines comprises a fiber blanket body 1, a first magic tape female tape 2, a first fixing cloth connector 3, a first fixing cloth 4, a first magic tape female tape 5, a second magic tape female tape 6, a second fixing cloth connector 7, a second fixing cloth 8, a first connecting cloth 9, a first magnet 10, a second magnet 11, a third magnet 12, a second connecting cloth 13, a third magic tape female tape 14, a third magic tape male tape 15, a second magic tape male tape 16, a ceramic substrate 17, a first heat preservation cotton 18, a first ceramic fiber blanket 19, a first glass fiber cloth 20, a second heat preservation cotton 21, a second ceramic fiber blanket 22 and a second glass fiber cloth 23, wherein when in use, the fiber blanket is placed on a heat preservation pipe, the first magnet 10, the second magnet 11 and the third magnet 12 on the fiber blanket are quickly fixed on the heat preservation pipe so as to coat the fiber blanket on the heat preservation pipe, then the third magic tape 15 at the bottom of the first connecting cloth 9 and the third magic tape 14 at the top of the second connecting cloth 13 are bonded with each other, so that the fiber blanket is quickly coated on the heat preservation pipe, and then the first magic tape 5 at the bottom of the first fixing cloth 4 is bonded with the first magic tape 2, so that the tightness between the fiber blanket and the heat preservation pipe is reinforced by the first fixing cloth 4, and then the second magic tape 16 at the bottom of the second fixing cloth 8 is bonded on the second magic tape 6, so that the stability of connection is improved again, the first glass fiber cloth 20, the first ceramic fiber pad 19, the first heat preservation cotton 18, the ceramic substrate 17, the second heat preservation cotton 21, the second ceramic fiber pad 22 and the second glass fiber cloth 23 are fused by pressing and heat, so that the service life is prolonged, and the heat preservation performance is also improved, simple structure and convenient popularization.

This ceramic fiber blanket passes through magnetite and magic subsides can fix fast on the insulating tube, the phenomenon that can not go on a journey and drop in the installation, and can fix the ceramic fiber blanket on the insulating tube fast, let the connection between ceramic fiber blanket and the insulating tube inseparabler, improve thermal insulation performance, and still strengthen the leakproofness between insulating tube and the ceramic fiber blanket through fixed cloth, improve the stability ability of ceramic fiber blanket installation, easy operation is convenient, the installation effectiveness is improved, time saving, and this ceramic fiber blanket is inside to pass through ceramic substrate, it is cotton to keep warm, ceramic fiber pad and glass fiber cloth stack are fixed, not only improve the life of ceramic fiber blanket, but also can increase thermal insulation performance.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (6)

1. The utility model provides a high temperature resistant ceramic fiber blanket for insulating tube, includes fibre blanket body (1), its characterized in that: one side of the fiber blanket body (1) is provided with a first connecting cloth (9), the bottom of the first connecting cloth (9) is sewn with a third magic tape (15), the other side of the fiber blanket body (1) is provided with a second connecting cloth (13), the top of the second connecting cloth (13) is sewn with a third magic tape female tape (14), the top surface of the fiber blanket body (1) is sewn with a plurality of first fixed cloth connectors (3) and second fixed cloth connectors (7), the first fixed cloth connectors (3) are sewn with a first fixed cloth (4), the bottom of the first fixed cloth (4) is sewn with a first magic tape (5), one side of the first fixed cloth connectors (3) is sewn with a first magic tape female tape (2), the second fixed cloth connectors (7) are sewn with a second fixed cloth (8), the bottom of the second fixing cloth (8) is sewn with a second magic tape (16), one side of the second fixing cloth connector (7) is sewn with a second magic tape female tape (6), a first magnet (10), a second magnet (11) and a third magnet (12) are uniformly arranged between the first fixing cloth connector (3) and the second fixing cloth connector (7), a ceramic substrate (17) is arranged inside the fiber blanket body (1), first heat-insulating cotton (18) is arranged at the top of the ceramic substrate (17), a first ceramic fiber pad (19) is arranged at the top of the first heat-insulating cotton (18), first glass fiber cloth (20) is arranged at the top of the first ceramic fiber pad (19), second heat-insulating cotton (21) is arranged at the bottom of the ceramic substrate (17), and a second ceramic fiber pad (22) is arranged at the bottom of the second heat-insulating cotton (21), and a second glass fiber cloth (23) is arranged at the bottom of the second ceramic fiber mat (22).

2. The high temperature resistant ceramic fiber blanket for thermal insulation pipeline as claimed in claim 1, wherein: the first glass fiber cloth (20), the first ceramic fiber pad (19), the first heat-preservation cotton (18), the ceramic base material (17), the second heat-preservation cotton (21), the second ceramic fiber pad (22) and the second glass fiber cloth (23) are all pressed and thermally fused through hot melt adhesives.

3. The high temperature resistant ceramic fiber blanket for thermal insulation pipeline as claimed in claim 1, wherein: the width of the fiber blanket body (1) is the same as the circumference of the pipeline, and the first magnet (10), the second magnet (11) and the third magnet (12) are all pre-buried and sewn between the first ceramic fiber mat (19) and the first glass fiber cloth (20).

4. The high temperature resistant ceramic fiber blanket for thermal insulation pipeline as claimed in claim 1, wherein: the first fixing cloth (4) is bonded and connected with the fiber blanket body (1) through a first magic tape (5) and a first magic tape female tape (2).

5. The high temperature resistant ceramic fiber blanket for thermal insulation pipeline as claimed in claim 1, wherein: the second fixing cloth (8) is connected with the fiber blanket body (1) in a bonding mode through a second magic tape (16) and a second magic tape female tape (6).

6. The high temperature resistant ceramic fiber blanket for thermal insulation pipeline as claimed in claim 1, wherein: the first connecting cloth (9) is bonded and connected with the second connecting cloth (13) through a third magic tape (15) and a third magic tape female tape (14).

Images