RU41842U1 - HEATING CONVECTOR - Google Patents

Abstract

Usage: in industrial thermal energy, in particular in heating systems of residential and public buildings. The essence of the utility model: The heating convector contains U-shaped plates 1 with flanged holes and pipes for circulation of the heat carrier 2, made of aluminum, connected to the pipelines of the heating system 3 using couplings 4 made of stainless steel, rigidly attached to the ring elements 5, internal the diameter of which is equal to the outer diameter of the pipeline of the heating system 3, and the outer to the inner diameter of the convector pipe for circulating the coolant 2, rigidly attached to the convector pipe for circulating heat transfer medium, and the couplings 4 are connected to the pipes of the heating system 3 by means of a threaded connection 7. U-shaped plates 1 form convector sections, and the adjacent sides of the U-shaped plates 1 adjoin each other with the formation of flat springs 8. If necessary the strength of the connection of the piping of the heating system 3 with the coupling 4 can be strengthened with a lock nut 6.

Description

The proposed technical solution relates to structural elements for general use for heat transfer and heat transfer devices, in particular for heating convectors.

The prior art heating convector (see USSR AS No. 1241049, IPC F 28 D 7/00) publ. 1986, containing at least one steel pipe for circulation of the coolant, on which is installed a package of aluminum plate ribs, equipped in the area of their connection with the pipe protrusions in the form of truncated cones.

A significant drawback of the described convector is the low heat flow due to the loose fit of the protrusions of the plates to the pipe.

The closest in technical essence and the achieved result to the claimed technical solution is a heating convector (see RF Patent No. 2079063, IPC ⁶ F 24 N 3/00, publ. 1997), including plates arranged with equal pitch and equipped with holes with flanging in the form of a truncated cone, and pipes for the circulation of coolant, brought into the aforementioned holes of the plates, as well as liners placed between the flanging of the holes and the pipe, while the pipes are installed in the holes with

the formation of a gap, the liners are made shorter than the length of the flanging with the outer surface in the form of a truncated cone, the length of the arc of each base of which is less than half the circumference of this truncated cone, and with an inner surface in the form of a cylinder with a radius equal to the radius of the outer surface of the pipe, and placed at least two in the flanging zone of each hole in said gap.

However, the presence of inserts between the convector plates and the steel pipe increases the heat transfer resistance from the pipe through which the coolant flows to the plates.

The task to which the proposed technical solution is directed is to reduce the overall dimensions of the heating appliances, increase the overhaul period and reduce the cost of manufacturing and installing the convector.

The technical result achieved by the implementation of the proposed technical solution is to reduce the resistance to heat transfer from the coolant to the air in the room.

The specified technical result is achieved by the fact that in the heating convector containing plates with flanged holes and pipes for circulating the coolant, the pipes of the convector heating for circulating the coolant are made of aluminum and are connected to the pipelines of the heating system using couplings made of stainless steel, rigidly attached to the ring elements, inner diameter

which is equal to the outer diameter of the heating system pipeline, and the outer to the inner diameter of the convector pipe for the coolant circulation, rigidly attached to the convector pipe for the coolant circulation, the plates are U-shaped, and the adjacent sides of the plates forming the sections adjoin each other with the formation of flat springs.

Figure 1 presents a General view of the heating convector, the Heating convector contains a U-shaped plate 1 with holes and pipes for the circulation of the coolant 2, made of aluminum, connected to the pipelines of the heating system 3 using couplings 4 made of stainless steel, rigidly attached to ring elements 5, the inner diameter of which is equal to the outer diameter of the pipeline of the heating system 3, and the outer to the inner diameter of the convector pipe for circulating the coolant 2, rigidly attached to the convection pipe torus for circulation of the coolant, while the coupling 4, are connected to the piping of the heating system 3 using a threaded connection 7. U-shaped plates 1 form sections of the convector, and the adjacent sides of the U-shaped plates 1 are adjacent to each other with the formation of flat springs 8. In if necessary, the strength of the connection of the piping of the heating system 3 with the coupling 4 can be strengthened with a lock nut 6.

The heating convector works as follows:

The heat carrier - hot water - enters the heating convector through the pipeline of the heating system 3, washing the inner surface of the convector pipe for circulation of the heat carrier 2. There is a heat exchange process: The heat of hot water is transferred through the wall of the convector pipe to circulate the coolant 2 and the U-shaped plates 1 to the heated the room.

Due to the fact that in the heating convector constructed in this way, the contact resistance to heat transfer is significantly reduced due to a tighter contact between the convector pipe for the circulation of the coolant and the U-shaped plates forming the convector sections, the heat transfer coefficient from the coolant to the air of the heated room increases significantly, and the use stainless steel couplings increases the durability of the heating convector.

Claims (1)

Heating convector containing plates with flanged openings and pipes for the circulation of coolant, characterized in that the pipes of the convector heating for circulation of the coolant are made of aluminum and connected to the pipelines of the heating system using couplings made of stainless steel, rigidly attached to the ring elements, inner diameter which is equal to the outer diameter of the heating system pipeline, and the outer to the inner diameter of the convector pipe for the circulation of the coolant, Captured convector to the pipe for circulation of the coolant, the plates are made in U-shape, wherein adjacent side plates forming sections adjacent to each other to form leaf springs.