RU3478U1 - CONVECTOR HEATING - Google Patents

Abstract

A heating convector comprising a pipe with a coolant and an external fin for radiating heat, characterized in that it is equipped with a detachable casing with means for assembling and connecting its parts around the pipe with a coolant, the fin is rigidly connected to the detachable casing, and the total perimeter of the inner surface of the detachable casing is not more than 0.99 of the outer perimeter of the pipeline with a coolant.

Description

CONVECTOR HEAVY DUTY HEAVY DUTY, Dismountable

The utility model relates to the field of creating heating appliances and is intended for use in water heating systems of residential, public and industrial buildings with a coolant temperature of up to 150 ° C and operating overpressure

up to I MPa (1C kgf / cm).

An analogue of the utility model is a heating convector, which consists of a gas and water pipe for the coolant and steel plates tightly strung on it. (Berzhidsky G.A., Sasin V.I., Trebuhov S.P., Shveiov B.V. New heating appliances Kommersant of Higher School of Economics, 1978)

The closest analogue of the utility model is the MK bimetal heating convector, consisting of a steel water and gas pipe for the coolant and cast aluminum fins. The contact of the fins plates with the entire surface is ensured by casting. S A.S. 879187 Heating device Authors: Kur G., Zaltsman L.E., Sasin V.I. and others. Claimed 1.11.79g, published in BI i981r fc 41, MKM G Ј4НЗ / 06).

Common features of the analogue and the claimed utility model is that the heat is taken from the pipe with the coolant due to the tight contact of the fins with the surface of the pipe.

The disadvantages of this analogue include the fact that heat can be removed from the central heating system only when the heating convector is constantly connected to

Authors: Rudenko A.M. Abashin A.G.

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- the existing heating system and through it the circulation of the coolant is ensured.

To increase the heat flux, it is necessary to install an additional stationary convector or radiator in the heating system, which is practically impossible to do in the conditions of central heating due to the need to completely shut off the entire existing heating system.

The increase in heat flow in the room without turning off the heating system is possible when using the inventive utility model. Its application provides the ability to select additional heat from the supply of hot water to a stationary heating device and passing through the room.

Structurally, the utility model consists of detachable parts and fasteners. Each detachable part is a single spruce. Its outer surface is ribbed, the inner one is solid. At the ends, along the length of each of the detachable parts, there are bosses with holes for assembly and connection of a utility model on the pipeline with a coolant.

The contour of the ribcage is arbitrary C round, rectangular, across the length of the convector, along the length of the convector).

The configuration of the inner surface of each part of the utility module corresponds to the configuration of the outer surface of the pipeline with a coolant.

To ensure a tight fit of the inner surface of the utility model to the outer surface of the pipeline and efficient heat removal, the total perimeter of the inner surface of the detachable parts of the utility model is not more than 0.99 of the outer perimeter of the pipeline with a coolant.

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The utility model is mounted by assembling and connecting its parts around the pipeline with a coolant. In this case, the heat is removed without any shutdown of the heating system and the connection of additional stationary heating devices to it.

The length of the utility model is limited by the technological conditions of its production. Of fundamental importance in this case is the possibility of using US $ for the selection of heat, if necessary, of the entire length of the heating pipes; ub (risers) of the heating system.

The transverse dimensions of the utility model are limited by the conditions of its assembly, for example, the distance from the wall of the room to the pipeline (riser) with a coolant.

The production of a utility model can be carried out by all known methods of casting, forging, machining, and also liquid stamping.

For its manufacture, materials with high heat conductivity and heat capacity, for example, aluminum, can be used.

The use of the utility model is possible as an addition to the installed stationary heating devices or as an independent heating device.

Thus, the use of the utility model provides the ability to maintain optimal thermal conditions in the room without shutting down the heating system and connecting stationary heating devices by fixing it to the pipeline with the coolant in the required amount.

On ig. 1 shows the design of one of the detachable parts of the utility model.

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The outer surface consists of ribs i.l and the inner part 1.4. There are bosses 1.2 along the length at both ends, in which holes 1.3 are made for assembling detachable parts with bolts 2.2.

In Fig. 2, the utility model is shown in the assembled and fixed state on the pipeline L.

To test the effectiveness of the utility model, five prototypes were made of aluminum.

Each sample consisted of two detachable parts. The length of the finned part was xb mm. The total length of the utility model is 190 mm. The outer diameter of the fins is 70 mm. The total internal perimeter of two detachable parts of the utility model was 0.97 of the external perimeter of the pipeline with a coolant (riser).

The utility model was fixed in a residential building, on a vertical riser supplying hot water to a stationary heating convector.

After fixing the utility model on the riser for 6 min, its surface was heated to a temperature close to the temperature of the outer surface of the riser.

In total, five samples of the utility model were fixed on the riser. After fixing them, the selection of additional heat in the room increased by about 20%

Since December 1994 mass production of these products has begun.

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Claims (1)

A heating convector comprising a pipe with a coolant and an external fin for radiating heat, characterized in that it is equipped with a detachable casing with means for assembling and connecting its parts around the pipe with a coolant, the fin is rigidly connected to the detachable casing, and the total perimeter of the inner surface of the detachable casing is not more than 0.99 of the outer perimeter of the pipeline with a coolant.