RU11555U1 - FORMING CONSTRUCTION - Google Patents

Abstract

ABSTRACT form-forming.,. Construction

The utility model relates to many fields of technology: including the construction and thermal insulation of equipment and pipelines.

The task of creating a utility model, giving the product a variety of forms, reducing its cost while improving its heat-insulating properties and reducing weight.

This problem is solved due to the fact that in

it is formed; it has a structure containing a fabric shell filled with granular insulation (for example expanded clay) one or more fixing layers are applied to the fabric membrane. The fixing layer may be made of polyurethane foam or cement mortar. A waterproofing coating may be applied over these layers.

1 sec P. f-ly, 4 head. point 3, ill.

Description

SHAPE SKINNY DESIGN

The utility model can be used in many sectors of the national economy: in construction for the manufacture of products of complex changing shapes, for hardening structures, and also as a supporting structure for low-rise utility structures, in the agricultural sector, for thermal insulation of aggregates and pipelines and in any other cases when the speed of the construction of the premises, the burning heat and soundproofing properties of the walls and the low cost of work are required.

Known multilayer carrier insulating sheath by A. St. USSR No. 657 771, whose fill is made of cellular concrete, and the protective sheath - and: 1 fiberglass. The whole structure is enclosed between two metal sheets.

This design is very complex, non-technological, has a high cost. In addition, it has a high cost due to the complexity of the design and use of non-ferrous metals - aluminum.

The specific gravity of such shells is quite large and is mainly determined by the density of the filling-cellular concrete and ranges from 0.4 to 0.6 t cubic meters. m

Known shells for thermal insulation made of finely porous and lightweight material - polyurethane foam, for example, according to A. St. USSR No. 884 881 and 1,527,447. They have good thermal insulation properties, but have a great cost.

The closest in technical essence to the claimed utility model is the design according to A.S. USSR No. 1 249 120 prototype,

According to this certificate of authorship, the heat-insulating carpet includes separate, interconnected flexible shells, mainly made of fabric, sprinkled with dust

 E 04 B1 62 .. F16

insulation. These individual elements are enclosed in a common shell.

The design of such a heat-insulating carpet is quite satisfactory due to the presence of two shells. To ensure the tightness of the outer shell is quite difficult. The thermal conductivity of the structure depends only on the type of filler, and if you use cheap and non-deficient expanded clay, then it turns out:

 0.04. "0.09 kcal sq. m hour WITH.

A significant disadvantage of the prototype is that it cannot be used as an independent supporting structure or as a rigid structure of complex shape, for example, with double curvature. The scope of the nrototype is very limited: thermal insulation of structures and pipelines. In addition, the task is to use the forming structure, in contrast to the prototype, without additional fittings, steel or aluminum casings, which, despite the fact that they do not appear in the description of a. St. 1 249 120, must be used for thermal insulation of pipelines.

The tasks of creating a utility model are the manufacture of products of complex, changing shape, reducing their cost while improving their thermal properties and weight.

These tasks are achieved due to the fact that expanded clay is used as a heater in a forming structure containing a fabric shell filled with insulation.

One or more fixing layers may be applied to the fabric sheath. The fixing layers are preferably made of polyurethane foam and or cement mortar. A waterproofing coating can be applied over the fixing layers. And zakryshgshy and waterproofing layers at the same time play the role of a frame that gives the structure a shape, rigidity and making it self-supporting. Distinctive features of the useful mode.g1i were not found in other objects of technology, therefore, the proposed technical solution has novelty. The proposed design is also industrially applicable "i.e. Suitable for mass production. At the Keramzit OJSC, the production of such products is planned, onl samples are made, advertising is being conducted. The essence of the utility model is illustrated in the drawings of FIG. 1 ... 5, where: in FIG. 1 shows the main embodiment, 1sh of FIG. 2 a variant with a single layer coating, in FIG. 3 is a variant with a two-layer coating, in FIG. 4 is a variant with a waterproofing coating, in FIG. 5 is a side view of the construction. The mold construction of FIG. 1 contains a fabric or any other flexible sheath: mesh, fiberglass, asbestos fabric, fabric made of polymeric materials, as well as carbon or steel threads for very high tera te r. Flexible shell 1 is filled with expanded clay 2. It is also possible to use other granular heaters of crumb of polyurethane foam, cellular concrete, slag, etc. V The forming structure of FIG. 1 is flexible and can take the form of an insulated aggregate, including one having a complex shape or double curvature. One or more fixing layers 3 of FIG. May be applied to the surface of the forming structure. 2. The winterizing layer 3 can be formed from any material that is liquid in the initial state and solidifies after a certain time, for example, from polyurethane foam, cement, gypsum or plaster. maybe

the use of epoxy, thermoplastic or thermosetting resins and T41

Preferably, the first fixing layer is made of polyurethane foam or cement mortar.

The mold-forming constructions of FIGL contain a fixing layer of polyurethane foam 3 and a fixing layer of cement mortar 4.

The mold construction of FIG. 4 contains one fixing layer 3 or several layers, for example two - 3 and a waterproofing coating 5.

The fabric sheath 1 of FIG. 5 can, for example, be made of two pieces of fabric 6 and 7, connected to each other with seams around the perimeter - 8 on three sides of the perimeter and dividing seams-9, designed to divide the entire structure into interconnected elements. On one side of the fabric sheath 1, holes 10 are formed for filling expanded clay 2. Instead of seams 8 and 9, the joining of pieces of fabric 6 and 7 can be made with glue, staples, heat seams and any other known means.

There are two options for working with form-forming design.

The fabric sheath 1 with expanded clay 2 of FIG. 1 manufacturer supplies to the consumer. He covers the walls of the unit or pipeline, which is easy to implement, because the design in this state is flexible and easily changes shape. On the shell 1 carry one or more fixing layers 3.

At the factory, one or more fixing layers 3 are applied to the fabric sheath 1. As a result, a design corresponding to FIG. 2 or FIG. 3, but the form may be more complex.

If appropriate, a waterproofing coating 5 of FIG. 4

FIRST

SECOND

11 Consumer. 1st delivery, ready-made form-forming structure, for example, a wall panel for low-rise buildings, cottages, warehouses, etc.

The application of the utility model allowed: 1. Manufacturing. 11 to publish. complex, changing shape. 2. To reduce the cost of the structure due to the fact that more than 90% of its volume is cheap expanded clay material.

Z. Ul to make it thermo-electrical. 71 laconic, as well as sound-insulating properties through the use of additionally excellent heat-insulating properties of polyurethane foam 91 0.026 kcal sq. m hour WITH . 4. To expand the scope of the construction both in construction. And in the energy sector, in transport, in agriculture, for example, as mulch and drainage layers and in fish farming.

Director of KER OJSC

Authors:

tanotin

/ A.Stanotnn

.. N.S. TRONIN //

Claims (6)

1. A mold-forming structure containing a fabric shell filled with insulation, characterized in that expanded clay is used as insulation.  2. The forming structure according to claim 1, characterized in that one or more fixing layers are applied to the fabric sheath.  3. The forming structure according to claim 1, characterized in that the fixing layer is made of polyurethane foam.  4. The forming structure according to claim 1, characterized in that the fixing layer is made of cement mortar.  5. The forming structure according to claim 1, characterized in that a layer of cement mortar is applied to a layer made of polyurethane foam. 6. The forming structure according to claim 1, or 2, or 3, or 4, or 5, characterized in that the fastening layers are applied waterproofing coating.