RU35407U1 - Thermal insulation - Google Patents

Description

The invention relates to thermal insulation of pipes, in particular channel-free heat pipelines, and can be used for laying pipelines of hot heat supply.

Thermal insulation structures of pipelines consist of the following elements: a main insulating layer designed to reduce heat loss to the environment and a cover layer that protects the main layer of thermal insulation from mechanical damage, atmospheric precipitation and corrosive environments. A device for thermal insulation of pipes and pipelines that conduct hot steam or water, consisting of soft insulation and cover protective elements made of various materials, such as fiberglass, aluminum foil, steel sheets, nets, layer of plaster (Grushman R.P. "Reference heat insulator, M. Stroyizdat, 1965, p. 70). Such thermal insulation is insufficiently effective and durable, since the coating layer passes water, which reduces the thermal insulation properties and destroys the coating layers when freezing.

The closest of the analogues in terms of the set of essential features adopted for the prototype is a non-channel heat conduit according to as No. 579491 published in the Bulletin of inventions. No. 41 dated 05.11.77. According to this invention, a heat-insulating coating and an outer sheath of a waterproof material are applied to the pipe. An air gap is provided between the coating and the casing. Such a device is inefficient due to insufficiently low thermal conductivity of the air in the gap and does not allow identification of the working fluid in the pipeline.

r 7 0 0

Thermal insulation.

F16L 59/14 The essence of the proposed technical solution is that in

Unlike known thermal insulation designs, including mineral wool mats, heat-insulating plastic mass and a PCB shell, the claimed thermal insulation contains basalt fiber mats as a mineral wool filler, and additionally includes an outer layer of elastomeric coating, and the color of the outer elastomeric coating is selected based on the purpose of the insulated heat pipe.

This design significantly increases its durability and efficiency due to the improved characteristics of the materials used, and also extends the technological capabilities, allowing the functional purpose of the pipeline to be determined by the color of the thermal insulation.

In FIG. shows the design of thermal insulation in a layered section.

Mineral wool mats 2 made of basalt fiber are fixed on the insulated pipe 1. The use of basalt fiber reduces the mass by a factor of 5–6 and improves thermal insulation due to the lower thermal conductivity coefficient compared to glass wool. Mats made of basalt fiber are several times more durable than glass wool, do not lose their properties from vibration, are technological (easily cut with a knife). On top of the mats laid asbestos cement plaster 3, reinforced with a steel mesh. Outside is a textolite shell 4 in the form of a gauze layer according to GOST 8412, impregnated with a binder, for example, Kuzbass varnish 577 according to TU 5775-005-52979973-2000, which improves its characteristics. The thermal insulation on top has an elastomeric coating 5 in the form of a colored putty, for example, “AKROTEX is a one-component elastomeric coating based on acrylic dispersion, which has high strength and elasticity. The coating is weatherproof and highly resistant to water. The color of the coating is selected based on the technological purpose of the insulated

2

pipelines, for example, the steam pipe is covered with yellow putty, and the hot water pipeline is green.

The claimed device is used as follows. When a coolant is supplied through the pipe (steam, hot water, etc.), the pipe 1 heats up. Some of the heat passes through the basalt mats 2 and is reflected from the asbestos-cement plaster 3, rising to the pipe. Mineral wool aggregate 2 and plastic heat-insulating mass 3 are protected from destruction by a layer of textolite 4. The elastomeric coating 5 does not allow moisture to penetrate deep into the insulation, the color of which can easily determine the nature of the coolant.

Thus, the proposed design of thermal insulation significantly increases its durability and efficiency due to the enhanced characteristics of the materials used, and also extends technological capabilities, allowing the functional purpose of the pipeline to be determined by the color of the thermal insulation.

Claims (3)

1. Thermal insulation, mainly of channelless heat pipes, including aggregate made of mineral fibers, plastic heat-insulating mass and a shell made of textolite, characterized in that basalt fiber mats are used as filler. 2. Thermal insulation according to claim 1, characterized in that it further comprises a layer of mastic on the outer surface. 3. Thermal insulation according to claim 2, characterized in that the color of the mastic is determined by the purpose of the heat pipe.