ITBO20100463A1 - PROCESS OF PRODUCTION OF PIPES FOR HEAT EXCHANGER, AND SO-PRODUCED TUBES - Google Patents

Description

DESCRIPTION of the industrial invention entitled: â € œProcedure for the production of tubes for heat exchanger, and tubes produced in this wayâ €

The present invention relates to the production of tubes for heat exchangers.

The heat exchangers according to the present invention are used in boilers and comprise a bundle of tubes within which, in use, a fluid (normally water) flows which is heated by a hotter gas or fluid which flows outside the tubes. To promote heat exchange, the pipes are generally made of copper.

The shapes of the heat exchanger tubes can be different, ranging from simple uniformly circular sections or, more often, oval, to more complex sections, for example of the type that resembles a cross. The latter configuration is adopted in boilers in which two fluids to be heated circulate: the cross-section tube, within which a first heating fluid circulates, is inserted inside an oval tube whose inner wall forms, with the outer wall of the cross-section tube, a series of channels within which a second heating fluid flows. At their ends, the cross tubes have short areas of round or oval shape, which connect to head manifolds for feeding and collecting the fluid inside the tubes.

The tubes for heat exchanger of the type indicated above are normally manufactured starting from a long extruded tube, for example of circular or oval section, which is cut to the desired length. To obtain pipes with a particular section, for example with the cross profile mentioned above, two pins or cores are inserted into the two ends of the cut pipe, the outer surface of which copies the shape you want to give to the finished pipe, both along the length of the pipe and in correspondence with the two inlets at the ends of the tube. By means of press means, with the possible help of external molds, the tube is then deformed or crushed onto the internal cores from the outside, so that the tube acquires the desired final shape. It is also known to produce shaped tubes by extrusion, but this process is very expensive as it is carried out with multiple passes since there are no continuous production plants.

In heat exchangers, the cost of the copper from which the tubes are made is one of the most important cost items. The recent significant increases in the price of copper on the market have led to a corresponding increase in the cost of tubes for heat exchangers, with negative consequences on the price of the heat exchanger, which uses a considerable extension of tubes and therefore a considerable amount of copper. The need has therefore arisen to reduce the cost for the procurement of raw materials in the manufacture of tubes for heat exchangers.

In the known art, the extruded tubes from which the heat exchanger tubes are made generally have a thickness of between 0.8 and 1.0 mm. Starting from this known technique, an obvious solution to reduce the cost of the raw material would be to start from extruded tubes having a thickness lower than that indicated above. However, the production technology of extruded tubes foresees that the tubes of small thickness are obtained by means of a double extrusion, or in any case with processes that mean that on the market the cost of a finished tube of small thickness, lower than that of the known tubes. above, exceed the cost of a thicker extruded tube.

In the known art, another significant cost item is given by the long production times of the individual tubes for heat exchanger. The process of introducing the cores into the two ends of the tubes for their subsequent cold deformation is a long and expensive process.

An object of the present invention is to provide a process for reducing the costs of heat exchanger tubes. Another object of the invention is to provide a process for obtaining tubes for heat exchangers having a reduced thickness, lower than that of the tubes of the known art. Another object of the invention is to provide a process for producing tubes for heat exchangers which is faster and cheaper than known processes. A further object of the present invention is to obtain tubes for heat exchanger which are cheaper, but at least as resistant and reliable as those of the known art. Another purpose of the invention is to provide a production process that can start from raw material easily available on the market, and for which there can be a wide variety of choice of producers and suppliers, in order to optimize the purchase of raw material with the aim of reducing supply costs.

In order to achieve the objects indicated above, the present invention relates to a process for manufacturing heat exchanger tubes having the characteristics indicated in the following claims. The invention also relates to a heat exchanger tube obtained by means of such a process.

The process of the present invention provides the important advantage of tubes for heat exchangers with a remarkably uniform thickness over the entire section and length of the tubes, with the consequent improvement of the performance of the exchanger with the elimination of non-uniform areas of fluid heating. flowing into the tube.

Further characteristics and advantages of the present invention will emerge from the detailed description of a preferred embodiment, with reference to the attached drawings, given purely by way of non-limiting example, in which figures 1 to 5 schematically represent successive stages of production of a tube for heat exchanger, in accordance with the present invention.

With reference now to the figures, a process for the production of tubes for heat exchangers according to the present invention provides for starting from a metal foil or strip 10, preferably of copper or the like, having a thickness preferably less than about 0.7 mm or about 0.8 mm and in practice preferably greater than about 0.3 mm. The metal strip 10 is produced by lamination according to generally known techniques, which allow to obtain a reduced, very uniform thickness, at relatively low costs. The metal strip 10, preferably collected in a reel, is normally very long, for example several tens of meters, and has a width preferably equal to the perimeter of the pipe section which is desirable to produce by the process of the present invention.

The metal strip 10 is fed into a bending and welding station which, as shown schematically in Figure 2, bends the metal strip 10 until it assumes the closed form of a tubular duct 11, preferably but not limited to a section circular or oval. The opposite edges 12, 14 of the metal strip 10 touch and are welded, preferably inside the tubular hole 13, by means of a welding head or torch 15 of a known type, which forms a continuous or substantially continuous welding seam 16. By welding the edges 12, 14 inside the tubular hole 13 a resistant tubular duct 11 is obtained, externally smooth.

If it is desired to make oval or circular cross-section heat exchanger tubes, the tubular duct 11 is cut to size in a cutting station. The ducts thus obtained have a constant section and a reduced and uniform thickness along their entire length.

If it is desired to make pipes of the cross type, for example, the tubular duct 11 is made to pass continuously, as shown schematically in Figure 3, through a forming station which provides for example a group of forming rollers or wheels 18 which crush the lateral walls of the tubular duct 11 in four opposite zones so as to form the shaped duct 20 with the desired cross section.

The shaped duct 20 is then cut to size in a cutting station, similar to the one mentioned above in relation to the cutting of the tubular duct 11, to obtain a series of shaped tubes 22 one of which is visible in figure 4.

To allow the shaped tubes 22 to be fixed to the inlets provided in the heads of a known heat exchanger, it is possible to send the shaped tubes 22 to a subsequent finishing station in which the ends 24, 26 of each shaped tube 22 are widened, to example by means of shaped end caps, pins or similar tools (not shown in the figure).

The tubes for heat exchanger made according to the present invention are lighter and therefore less expensive than those of the known art, while guaranteeing excellent sealing and reliability. The thicknesses of the tubes, determined by the thickness of the base metal strip, are very calibrated and uniform.

According to a variant of the invention, the production process of shaped tubes takes place starting from tubes formed, for example with a circular section, already collected in coils. The tube can be formed starting from strip, or with the more traditional drawing or extrusion processes. Such a tube is unwound from the reel and treated according to the steps of the process described above, with reference to Figure 3 and subsequent ones. In particular, the formed tube unwound from the reel is passed into a forming station which provides for example the group of forming rollers or wheels 18 which crush the side walls of the formed tube in four opposite zones so as to form the shaped duct 20. with the desired cross section. The subsequent production steps are similar to what has been described above with reference to the previous variant

The forming processes of the present invention to obtain a shaped profile, for example cross or lanceolate, can be carried out almost completely continuously, instead of on single lengths of extruded tube as occurs for the processes of the known art. This characteristic determines a high productivity of the process, with a consequent cost saving.

Naturally, the principle of the invention remaining the same, the details of construction and the characteristics of the present invention may widely vary with respect to those described and illustrated, without thereby departing from the scope of the present invention.

Claims (10)

CLAIMS 1. A process for producing heat exchanger tubes, comprising the following steps: - prepare a metal band (10) to be progressively unwound, - progressively bend the metal strip (10) by bringing the side flaps (12, 14) together to obtain a tubular duct (11), - continuously weld (15) the side flaps (12, 14), - cut the tubular duct (11) to a predetermined size. 2. Process for manufacturing pipes according to claim 1, wherein in the step of continuous welding, the side flaps (12, 14) are welded from the inside of the tubular hole (13) of the tubular duct (11). Process for manufacturing pipes according to claim 1 or 2, wherein the tubular duct (11) has a circular or oval section. 4. Process for manufacturing pipes according to claim 3, further comprising the intermediate step, before cutting the tubular duct (11), of further shaping the tubular duct (11) to obtain a section different from the circular or oval section. 5. Process for manufacturing pipes according to claim 4, wherein the section obtained by further shaping the tubular duct (11) is a substantially cross or lanceolate section. 6. Process for manufacturing pipes according to claim 5, comprising a further step, after cutting the further shaped tubular duct (20), of modifying the sectional shape of the ends (24, 26) of the further shaped tubular duct cut ( 22). 7. Heat exchanger tube produced from bent, shaped and cut metal strip (10), with a substantially continuous weld (16) extending longitudinally for substantially its entire length. Heat exchanger tube according to claim 7, wherein the substantially continuous weld (16) is internal to the tube. 9. Tube for heat exchanger according to claim 7 or 8, having a section of substantially uniform thickness and less than 0.8 mm. 10. Production process of heat exchanger tubes, and tubes thus produced, as described and illustrated and for the specified purposes.