CZ4385U1 - Tubular heating body - Google Patents

Description

Heating register

Technical field

The technical solution relates to heating registers where aluminum lamellas are threaded on a system of parallel steel or copper or copper-containing alloys serving as a surface for heat transfer through hot water or steam in a system of hot-water or low-pressure steam distribution. The heating registers are housed in metal cabinets with a top permeable exhalation grille for warm air and thus form radiators that are suspended from the wall of the heated space or are heating benches standing on the floor of the heated space. The heating registers can also be stored in floor ducts or window sills. Air heating by means of heating registers takes place on the principle of spontaneous air flow through the heating register lamellas. BACKGROUND OF THE INVENTION

The current situation in the production of heating registers is based on various principles. One of these is threading the lamellae onto the overlapping tubes, i.e. by pressing where the tubes are of iron or copper.

In another way, the lamellas are threaded onto the tubes without overlap and the heating register is then pressurized to such an extent that the tubes are expanded and the lamellas are in contact. In this method, the tubes are usually copper. The tubes on which the slats are threaded are then joined at both ends by chambers of different shapes, manufactured as weldments or castings. The size of the inlet and outlet chambers on one side and the size of the mixing chamber on the other side of the heating register are given by the number of pipes on which the slats are threaded and also by their division into the number of pipes chamber and mixing chamber and the number of pipes between the mixing chamber and the discharge chamber. The production of chambers is expensive in the case of stamping and welding, and also castings are expensive in the production of a small number of pieces.

The essence of the technical solution

The essence of the technical solution is that the least inflow, resp. least mixing, respectively. at least the outflow chamber, including all other elements such as different connection elbows, different fittings and different adapters and extensions, are made of tubes with a cross-sectional cross-section. All pipes between the inlet and outlet, ie between the inlet and outlet fittings, are welded and / or brazed between each other, or a combination of welding and soldering technology is used. Whether tubular chambers are used to connect the parallel pipe system of the inlet and outlet heating registers or the individual parallel pipe systems are connected by means of connecting elbows depends on the size of the heating register and the number of pipes on which the lamellas are threaded.

This solution eliminates the costly production of pressed, welded or cast chambers easily and very effectively.

-1GB 4385 U1

Overview of the drawings

The technical solution is illustrated schematically in the accompanying drawing, in which FIG. 1 is a top view of a single-row heating register consisting of a set of four parallel pipes on which lamellas are threaded and which have an inlet chamber, a mixing chamber and an outlet chamber. the inlet chamber is provided with an inlet fitting and an outlet chamber with an outlet fitting, which serves to connect the heating register to the heating system, and FIG. 2 shows a top view of a single-row heating register different from the heating register according to FIG. the inlet pair of tubes is connected to the outlet pair of tubes by means of connecting elbows. Examples of technical solution

Aluminum lamellas 3 are threaded onto a set of parallel pipes 4 of the heating register 10. Two inlet parallel pipes 4 are supplied with an inlet chamber 5 and two outlet parallel pipes 4 with an outlet chamber 7. At the opposite end of the heating register 10 there are four parallel pipes 4. 6. All said chambers are made of tubes of cross-sectional cross-section.

The inlet chamber 5 is provided with an inlet fitting at the inlet

1. The discharge chamber 7 is provided with an outlet fitting at the outlet

2. The mixing chamber 6 is provided with a vent valve χ. All the elements used between the inlet fitting 1 and the outlet fitting 2 of the heating register 10 according to FIG. Preferably, the inlet fittings 4 and the outlet fittings 2 are also made of copper tubes or copper alloy tubes having an annulus-shaped cross-section. In the direction of the first arrow 11 the heating medium flows into the inlet pair of parallel pipes 4 and in the direction of the second arrow 12 the heating medium is discharged from the outlet pair of parallel pipes 4 of the heating register 10.

The embodiment of the heating register 10 according to FIG. 2 differs from the embodiment according to FIG. 1 only in that the mixing chamber 6 is replaced by connecting butts 9 having a cross section also in the form of an annulus.

In an alternative embodiment (not shown), the inlet chamber 5 or the outlet chamber 7 can be replaced by the connection elbow 9 or the connection elbows 9. The various reducers and extensions for the heating register 10 used are preferably also made of tubes having annular cross-section.

Claims (3)

FOR PROTECTION 1. A heat register, as a heating element in a hot-water system or a low-pressure steam heating system, with a heat exchanger function implemented on aluminum lamellas strung on a set of parallel steel or copper pipes, provided with an inlet chamber with inlet a mixing chamber, optionally characterized in that at least one element selected from the group consisting of an inlet chamber (5), an outlet chamber (7) and a mixing chamber (6) is provided between the inlet chamber and the outlet chamber in a set of parallel steel or copper tubes. ) is a tube with a cross-section in the form of an annulus. Heating register according to claim 1, characterized in that the inlet fitting (1) is connected to the inlet chamber (5), including the reducer, adapter, connection nipple (9) and / or the outlet fitting (2) is connected to the outlet chamber (7). including the adapter, adapter, connecting elbow (9) and / or the mixing chamber (6) the adapter, adapter, connecting elbow (9) connected from the tube is in the shape of an annulus. Heating register according to claim 1 or 2, characterized in that the individual elements are welded and / or soldered together and with a set of parallel steel or copper tubes (4) of the heating register (10).