SU1138633A1 - Heat-insulating guarding structure - Google Patents

Abstract

1. HEAT-INSULATING PROTECTION- CONSTRUCTION, containing a rigid metal frame with inclined draft attached at one end to the vertical posts of the frame, and the other to the horizontal beam of the frame, and the overlap, from separate heat-insulating elements, differing from the fact that In order to improve the heat-shielding properties and the hermeticity of the structure, it is provided with cantilever holders attached to the bottom of the uprights, the rods are rigidly attached to the metal frame, and the overlap is made in the form of and arch supports, while the bearing surface of the arch supports is made parallel to the radius of the arch. SO x Ed: with e.

Description

2. The design of claim 1, which is tl and so that the inclined rods are made with the profile, which repeats the profile of the arches, and are attached to

vertical stand

3, Design on PP. I and 2, characterized in that the riddles are connected to the upright by means of a hinge,

4. The construction according to claim 1, 1, so that the heat insulating elements of the blocking method 8633

Yen in Lorma wedge with the angle of the side faces equal to the radius of the arch.

5, Construction according to claim 1, characterized in that the heat insulating elements are made in the form of rectangles and installed with a gap, the gap being filled with a heat insulating solution, the strength of which after hardening is 1.2-1.8 strengths of the heat insulating elements ,

The invention relates to the industry of building materials and can be used in the construction of thermal units, the devices of which provide for one-time or permanent movement of their overlap.

The heat shield structure is known, comprising a supporting metal sheet and mineral wool. heat insulating plates, combined in packages, having a through hole for longitudinal tg and hanging on metal plates to the supporting sheet ij.

The closest in technical essence and the achieved result to the invention is the thermal insulating enclosing structure of a tunnel kiln containing a rigid metal frame with inclined bars attached at one end to the vertical posts of the frame and the other to the horizontal beam of the frame 2J elements.

A disadvantage of the known constructions is the presence of reinforcement inside the heat insulating overlaps, which are cold bridges, drastically reducing the heat-shielding characteristics of the structures. In addition, the reinforcement breaks the integrity of the heat insulating material, as a result of which the tightness of the structure as a whole is disrupted. Assembling known heat-shielding structures is a relatively time-consuming process due to the significant KOJ7H4ecTBa reinforcement.

The purpose of the invention is to increase. thermal properties and tightness of the structure.

This goal is achieved by the fact that the heat insulating enclosing structure containing a rigid metal frame with inclined drafts attached at one end to the vertical uprights of the frame and the other to the horizontal beam of the frame is provided with cantilever subframes attached to the lower part of the vertical posts, the rods are rigidly attached to the metal frame, and the overlap is made in the form of arches supported on the sub-frames, while the supporting surface of the sub-plates is made up of arch-parallel to the radius of curvature.

In addition, it is advisable to carry out inclined rods with a profile that repeats the profile of the arches, and attach them to the vertical stand through the supports,

It is advisable to connect the caps with a vertical stand by means of a hinge.

Thermal insulation elements of the ceiling should be made in the form of a wedge with the angle of inclination of the side faces equal to the radius of the arch

If necessary, the heat insulating elements can be made in the form of rectangles and be installed with a gap, and the gap should be filled with heat insulating solution, the strength of which after curing should be

3

1.2 - 1.8 strength of heat insulating elements.

Fig. 1 shows the proposed thermal insulating enclosing structure J in Fig. 2 — the hinged attachment of the padding pads to the vertical frame pillar.

The heat insulating fencing structure contains an arch 1, assembled from separate heat insulating elements, resting on console cantilevers 2, fixed on the lower part of vertical posts of a rigid metal frame 3, located above the arch,

As heat insulating materials, any known heat insulating materials with a strength of at least 0.2-0.4 MPa can be used, for example, heat insulating materials based on expanded perlite or vermiculite, kaolin wool, and heat resistant heat insulating concretes.

The metal frame can be made from rolled products: channels, I-beams, angles, and so on, the dimensions of which are selected in. in each case in accordance with the loads, i.e. according to the arch span

The angle of the sloping pads is determined from the condition of their parallelism to the radius of the arch,

In order to increase stability, the structure provides for the presence of heat-insulated elements tg laid over the profile of the arch and rigidly fastened to the frame and liners directly or through braces. Such a structure can work not top-level in a horizontal position, but with a significant inclination (up to 45 °) in any direction. .

A variant that takes into account the linear expansion of thermal insulation materials when heated during operation, provides for a hinge connection of the support materials with the frame. This option is expedient if heat insulating materials with a significant coefficient of linear thermal expansion are used.

Fencing involves the use of heat insulating elements, which have a wedge.

86334

section across with an angle corresponding to the radius of rounding. The assembly of the construction of this variant is characterized by the least amount of labor.

In order to increase the strength and tightness of the building envelope, it is envisaged to use the rectangular heat insulating elements in the arch assembly to fill the resulting wedge grooves with an insulating solution, the strength of which after curing is 1.2 to 1.8 strengths of the heat insulating products themselves.

Example. The design is tested when a removable overlap of a reconstructed ring furnace is installed. Vermiculitophosphate products in the form of blocks with dimensions of 130-250-550 mm are used as thermal insulation elements 1. Vermiculite phosphate products with bulk May

5 ce 400 kg / m are characterized by durability of 0.4-0.5 MPa and high heat insulating properties. For the assembly of the arch, a wooden shaper is used on which the blocks are laid, Dpina, the width and deflection of the shaper are equal to the length, width and deflection of the assembled arch. The blocks at the length of the structure are supported on metal supports 2, cantilever-mounted at the bottom of frame 3, Frame 3 is made, and channel No. 16 with braces 4 is from a corner, mm. In the resulting wedge joints, a heat-insulating mortar with a strength of 0.8-1.1 MPa is poured on the basis of Portland cement, sorbitol and expanded vermiculite, taken in a ratio of 1: 0.1: 1 (by volume).

After hardening of the solution (after 1 day | the structure is removed from the shaper. Its overall dimensions: length 4200 mm, width 2000 mm, height 700 mm, arch deflection height 300 mm. The assembled structure is tested under industrial conditions with a removable roof of a reconstructed ring furnace firing of red brick. The temperature inside the furnace is 1050 ° C, 5 A on the surface of the heat insulation 65 - 75 ° C. After three turns of the furnace, a leakage of the structure or a decrease in heat shield S11386336

no telephones are observed. In comparison, higher heat-proofing displays with known technical solutions with bodies, greater airtightness, and the proposed design is less labor-intensive during assembly.

Claims (5)

1. HEAT-INSULATING FENCING 'DESIGN, containing a rigid metal frame with inclined rods attached at one end to the vertical struts of the frame and the other to the horizontal beam of the frame, and overlapping of separate heat-insulating elements, distinguishing me with the fact that, for the purpose of increase heat-shielding properties and tightness of the structure, it is equipped with cantilever thrust bearings attached to the bottom of the vertical struts, rods are attached firmly to the metal frame, and the overlap is made in the form of resting on the heels iki arches, the thrust bearings of the bearing surface is parallel to the radius of curvature of the arch. SU, .1138633 2. The construction by π. 1, which is characterized in that the inclined rods are made with a profile that repeats the profile of the arches, and are attached to the vertical strut through the thrust bearings. 3. The construction according to paragraphs. 1 and 2, characterized in that the thrust bearings are connected to a vertical column by a hinge. 4. Design by π. 1, due to the fact that the heat-insulating overlapping elements are made in the form of a wedge with an angle of inclination of the side faces ¹ equal to the radius of curvature of the arch. 5. The construction by π. 1, wherein the heat-insulating elements are made in the form of rectangles and are installed with a gap, the gap being filled with a heat-insulating solution, the strength of which after hardening is 1.2-1.8 times the strength of the heat-insulating elements,