CN2577153Y

CN2577153Y - Lining pad

Info

Publication number: CN2577153Y
Application number: CN02264035U
Authority: CN
Inventors: 糜强
Original assignee: Individual
Current assignee: Individual
Priority date: 2002-08-27
Filing date: 2002-08-27
Publication date: 2003-10-01
Anticipated expiration: 2012-08-27
Also published as: KR100494639B1; KR20040018904A

Abstract

The utility model relates to a high temperature-resistant insulating pad, which is provided with a flexible main casing tube made from glass fibers and an elastic netted tube-shaped framework made of stainless steel, wherein, the elastic netted tube-shaped framework made of the stainless steel is arranged in the main casing tube. The utility model has simple structure; the elastic netted tube-shaped framework made of the stainless steel has favorable elasticity; the flexible casing tube made from the glass fibers has favorable insulating performance; the elastic netted tube-shaped framework made of the stainless steel and the flexible casing tube made from the glass fibers are combined into an ideal pad, ensuring that an oven (box) door using the pad has favorable sealing performance; both the stainless steel and the glass fibers have high temperature resistance, and thus both the framework made of the stainless steel and the casing tube made from the glass fibers can endure high temperature. When practically produced, the utility model is usually made into a long strip band shape, then the utility model can be sheared as required, and thus the pad can be used no matter the specification of the pad is standard or not. The utility model has the advantages of convenient installation and convenient replacement, and the utility model can be stuck in a groove of a door frame, and can also be hung on the door frame via a hook, particularly the latter.

Description

Liner

Technical field

The utility model relates to a kind of liner.

Background technology

This class of food oven (case) utilizes heat object to be processed the utensil of processing, for improving heat-insulating property, prevent that heat energy from leaking, require the utensil door closed tight, if the utensil that normal temperature uses down, can take seal is set on the utensil door is liner, but because the Men Wen of food oven (case) is very high, rubber (moulding) liner is difficult to bear high temperature like this, asbestos lining does not meet environmental requirement, the high hot utensil of this class does not adopt door gasket at present, adopts spring structure as baking box, relies on the pulling force of spring itself to guarantee that door tightly is posted on the casing.

The utility model content

The purpose of this utility model is to propose a kind of high-temperature insulation liner.

For achieving the above object, this liner has flexible main sleeve pipe of glass fibre and stainless steel elasticity net form skeleton, and skeleton is arranged in the main sleeve pipe.

Above-mentioned liner has the stainless steel hook, and hook is connected on the main sleeve pipe at interval.

The outer surface of main sleeve pipe is provided with nontoxic high-temperature resistant coating layer.

This liner has glass fibre flexible secondary sleeve pipe, and secondary sleeve pipe is connected side by side with main sleeve pipe, is provided with auxiliary skeleton in the secondary sleeve pipe.

Auxiliary skeleton can be a glass cord, also can be stainless steel elasticity net form skeleton.

The institute of liner has the stainless steel hook, can be connected main sleeve pipe at interval, also can be connected at interval on the secondary sleeve pipe.

Be equipped with nontoxic high-temperature resistant coating layer on the outer surface of main sleeve pipe and secondary sleeve pipe.

The utility model is simple in structure, the tubular skeleton of being made by stainless steel of elastic network(s) has better elastic, the flexible sleeve of being made by glass fibre has the good insulation performance performance, and both are combined into comparatively ideal liner, has guaranteed to use the favorable sealing property of stove (case) door of this liner; And because stainless steel and glass fibre all are resistant to elevated temperatures, so tubular skeleton of elastic network(s) and the flexible sleeve of being made by above-mentioned material can both bear high temperature respectively; The utility model is made generally in bar-shape when actual fabrication, can shear as required, so no matter the specification of liner is standard or off-gauge, can both use; The utility model is easy for installation, can hang on the doorframe by hook, also can be bonded in the groove of doorframe, and especially the latter has more and changes advantage easily.

Description of drawings

Fig. 1 is embodiment 1 diagrammatic sketch;

Fig. 2 is the side view of Fig. 1;

Fig. 3 is embodiment 2 diagrammatic sketch;

Fig. 4 is the side view of Fig. 3;

Fig. 5 is a kind of hook diagrammatic sketch;

Fig. 6 is the vertical view of Fig. 5;

Fig. 7 is another kind of hook diagrammatic sketch;

Fig. 8 is the vertical view of Fig. 7.

The specific embodiment

Embodiment 1

Fig. 1～embodiment 1 shown in Figure 2 has the flexible main sleeve pipe 1 of glass fibre, stainless steel elasticity net form skeleton 2 and stainless steel hook 5.The flexible main sleeve pipe 1 of glass fibre is formed by the glass fiber braiding; Stainless steel elasticity net form skeleton 2 forms by the braiding of 0.13～0.15mm stainless steel wire and through heat treatment, and external diameter is generally between 6～30mm.Elasticity net form skeleton 2 has certain rigidity and elasticity, and door is not having under the stressed situation when opening, and elasticity net form skeleton 2 struts, and after door is shut, is pressed into offset flat shape; Stainless steel hook 5 has hook head 5-1 and hook pin 5-2, and hook head 5-1 and hook pin 5-2 shape arbitrarily (are seen Fig. 5～Fig. 8).Elasticity net form skeleton 2 is arranged in the main sleeve pipe 1, and hook 5 is connected on the main sleeve pipe 1 at interval, take to link up with pin 5-2 pass main sleeve pipe 1 and be in main sleeve pipe 1 and elasticity net form skeleton 2 between.Above-mentioned main sleeve pipe 1, the tubular skeleton 2 of elastic network(s), hook 5 threes' connection is finished in main sleeve pipe 1 braiding process.The outer surface of main sleeve pipe 1 is provided with nontoxic high-temperature resistant coating layer 6, and being provided with of dope layer 6 mainly is for apparent needs, adopts nontoxic high-temperature resistant coating, goes for food oven (case).The prescription of dope layer 6 is inorganic matters such as graphite, molybdenum bisuphide, high temperature resistant colloid, and being provided with of dope layer 6 can be adopted in main sleeve pipe 1 outer surface brushing, also can flood.Present embodiment is taked to be hung on the hanging column of doorframe by hook.

Embodiment 2

Fig. 3 and embodiment 2 shown in Figure 4 have the flexible main sleeve pipe 1 of glass fibre, stainless steel elasticity net form skeleton 2, glass fibre flexible secondary sleeve pipe 3 and glass cord 4.Flexible main sleeve pipe 1 of glass fibre and glass fibre flexible secondary sleeve pipe 3 are one, on a big glass fibre flexible sleeve, axially seize center line and an integral cannula is divided into two sleeve pipes that are connected by suture 7, wherein a sleeve pipe is main sleeve pipe 1, another sleeve pipe is secondary sleeve pipe 3, in the flexible main sleeve pipe 1 of glass fibre the tubular skeleton 2 of stainless steel elastic network(s) is set, be provided with glass cord 4 in the glass fibre flexible secondary sleeve pipe 3, the setting of glass cord 4 is to be convenient to glass fibre flexible secondary sleeve pipe 3 embed in the groove of doorframe.Flexible main sleeve pipe 1 of glass fibre and glass fibre flexible secondary sleeve pipe 3 outer surfaces are provided with nontoxic high-temperature resistant coating layer 6.

Embodiment 3

Accompanying drawing omits, be provided with the tubular skeleton 2 of stainless steel elastic network(s) in the flexible main sleeve pipe 1 of the glass fibre of embodiment 3, be provided with the tubular skeleton 4 of stainless steel elastic network(s) in the glass fibre flexible secondary sleeve pipe 3, the tubular skeleton 2 of stainless steel elastic network(s) can be not plant specification with the tubular skeleton 4 of stainless steel elastic network(s), and connects stainless steel hook 5 at interval on the flexible main sleeve pipe 1 of glass fibre.

Claims

1, a kind of liner is characterized in that: this liner has flexible main sleeve pipe (1) of glass fibre and stainless steel elasticity net form skeleton (2), and skeleton (2) is arranged in the main sleeve pipe (1).

2, liner according to claim 1 is characterized in that: above-mentioned liner has stainless steel hook (5), and hook (5) is connected on the main sleeve pipe (1) at interval.

3, liner according to claim 1 and 2 is characterized in that: the outer surface of main sleeve pipe (1) is provided with nontoxic high-temperature resistant coating layer (6).

4, liner according to claim 1 is characterized in that: this liner has glass fibre flexible secondary sleeve pipe (3), and secondary sleeve pipe (3) is connected side by side with main sleeve pipe (1), is provided with auxiliary skeleton (4) in the secondary sleeve pipe (3).

5, liner according to claim 4 is characterized in that: auxiliary skeleton (4) can be a glass cord, also can be stainless steel elasticity net form skeleton.

6, liner according to claim 4 is characterized in that: the institute of liner has stainless steel hook (5), can be connected main sleeve pipe (1) at interval, also can be connected at interval on the secondary sleeve pipe (1).

7, according to claim 4 or 6 described liners, it is characterized in that: be equipped with nontoxic high-temperature resistant coating layer (6) on the outer surface of main sleeve pipe (1) and secondary sleeve pipe (1).