CN212226435U - Flexible heat-preservation detachable energy-saving shell of compensator - Google Patents

Abstract

The utility model provides a detachable energy-conserving shell of flexible heat preservation of compensator, shell layer structure includes inlayer, heat preservation, skin from inside to outside, inlayer and skin are glass fiber rubber coated cloth, the heat preservation is aluminium silicate and ceramic fiber composite blanket, flexible shell is cylindrical sleeve casing, and is a rectangle after expanding, cylindrical sleeve both ends opening is equipped with nylon fastener tape and magic subsides at cylindrical sleeve, inlayer, heat preservation, skin are made up through the glass fiber sewing thread; the utility model has the characteristics of simple structure, convenient to use, reliable, the maintenance nature of the compensator insulation construction of being convenient for makes things convenient for the heat preservation to dismantle installation etc.

Description

Flexible heat-preservation detachable energy-saving shell of compensator

Technical Field

The utility model relates to a flexible detachable energy-conserving shell that keeps warm of compensator belongs to industrial equipment technical field.

Background

Compensators are also conventionally called expansion joints, or expansion joints. It is composed of bellows (an elastic element) and its working body, end pipe, support, flange and guide pipe. Belongs to a compensating element. The effective telescopic deformation of the working body corrugated pipe is utilized to absorb the dimensional change of pipelines, conduits, containers and the like caused by expansion and contraction due to heat and the like or compensate the axial, transverse and angular displacement of the pipelines, the conduits, the containers and the like. And can also be used for noise reduction and vibration reduction. Has wide application in modern industry. In order to prevent the pipeline from deforming or breaking due to thermal elongation or temperature stress when the heating pipeline is heated, a compensator is required to be arranged on the pipeline to compensate the thermal elongation of the pipeline, so that the stress of the pipeline wall and the acting force acting on the valve member or the bracket structure are reduced.

In order to save energy, the existing compensator pipeline usually adopts a heat preservation pipe sleeve to preserve heat of the compensator pipeline, so that the loss of heat of hot fluid from the pipeline to the outside is reduced, and the purpose of saving energy is achieved. But the bellows appearance structure of its work main part of compensator pipeline is complicated relatively, if make the bellows cover specially, increase preparation and use cost relatively, and because the bellows are not of uniform size, in case can't be used for the bellows of other specifications after dismantling, sometimes have to abandon, cause the waste, if adopt soft heat preservation to wrap up, because there is the protruding ring of ripple in the centre, there is certain degree of difficulty in the fixed mode after the parcel, usually adopt the sticky tape to tie up, but the compensator pipeline needs frequent maintenance, this kind of sticky tape parcel just has the maintenance inconvenient, install and remove the trouble, and cause the damage of heat preservation easily, increase installation and use cost.

Disclosure of Invention

An object of the utility model is to overcome the not enough of prior art existence, and provide a simple structure, convenient to use, reliable, the compensator insulation system's of being convenient for maintenance nature makes things convenient for the heat preservation to dismantle the compensator insulation cover of installation.

The utility model aims at accomplishing through following technical scheme, a detachable energy-conserving shell of flexible heat preservation of compensator, including outer shell structure, outer shell structure is by interior to exterior including inlayer, heat preservation, skin, inlayer and skin are glass fiber rubber coating cloth, the heat preservation adds ceramic fiber composite blanket for the aluminium silicate, outer shell structure is flexible shell, flexible shell is cylindrical sleeve casing, is a rectangle after the expansion, cylindrical sleeve both ends opening is equipped with nylon fastener and magic subsides at cylindrical sleeve, inlayer, heat preservation, skin are made up through the glass fiber sewing thread.

The thickness of the shell of the outer shell structure is 30 mm-50 mm.

The heat conductivity coefficient of the aluminum silicate and ceramic fiber composite blanket is 0.030-0.040W/M.K.

The utility model has the characteristics of simple structure, convenient to use, reliable, the maintenance nature of the compensator insulation construction of being convenient for makes things convenient for the heat preservation to dismantle installation etc.

Drawings

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

fig. 2 is a schematic structural diagram of a flexible insulating layer of the shell.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

as shown in fig. 1 and 2, the detachable energy-saving flexible thermal-insulation shell of the compensator of the present invention comprises a shell structure, wherein the shell structure comprises an inner layer 4, a thermal-insulation layer 5 and an outer layer 6 from inside to outside, the inner layer and the outer layer are both made of glass fiber rubberized fabric, the thermal-insulation layer is an aluminum silicate and ceramic fiber composite blanket, and the inner layer, the thermal-insulation layer and the outer layer are sewn by glass fiber sewing threads;

the outer shell layer structure is a flexible shell which is a cylindrical sleeve shell and is rectangular after being unfolded, two ends of the cylindrical sleeve 1 are open, the cylindrical sleeve 1 is provided with a nylon fastener tape 2 and a magic tape 3,

the thickness of the shell of the outer shell structure is 30 mm-50 mm.

The heat conductivity coefficient of the aluminum silicate and ceramic fiber composite blanket is 0.030-0.040W/M.K.

The utility model provides a detachable energy-conserving shell installation procedure of flexible heat preservation of compensator is simple and convenient, specifically as follows: step 1, cleaning the surface of a compensator to be installed;

and 2, winding the cylindrical sleeve 1 on the surface of the compensator in an orientation alignment manner, and adjusting the position.

And 3, sequentially tensioning and bonding the nylon agraffe 2 and the magic tape 3.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (3)

1. The utility model provides a detachable energy-conserving shell of flexible heat preservation of compensator, includes outer shell structure, outer shell structure is by interior inlayer (4), heat preservation (5), outer (6) of including to outer, inlayer and skin are glass fiber rubber coating cloth, the heat preservation is aluminium silicate and adds ceramic fiber composite blanket, outer shell structure is flexible shell, its characterized in that, flexible shell is cylindrical sleeve casing, is a rectangle after the expansion, cylindrical sleeve (1) both ends opening is equipped with nylon fastener tape (2) and magic subsides (3) on cylindrical sleeve (1), inlayer, heat preservation, skin are made up through the glass fiber sewing thread.

2. The flexible thermal insulation detachable energy-saving shell of the compensator according to claim 1, wherein the shell thickness of the shell layer structure is 30mm to 50 mm.

3. The flexible heat-preservation detachable energy-saving shell of the compensator as claimed in claim 1, wherein the thermal conductivity coefficient of the aluminum silicate and ceramic fiber composite blanket is 0.030-0.040W/M.K.

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