CS197190A2 - Heat exchanger - Google Patents

Abstract

In order to achieve a pressure-tight mounting between the tube plate (1) and the plastic tubes (2), each tube (2) is provided for the purpose of mounting on the tube plate (1) at the respective end with a flange ring (2a), which is formed in one piece from the tube end, bears against an annular support surface (1b) surrounding the respective bore (1a) in the tube plate (1), and is held by an elastic mounting element (3). A sealing ring (4) can be arranged, if desired, between the tube (2) and tube plate (1). <IMAGE>

Description

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BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a heat exchanger having at least one metal tube plate and a plurality of plastic tubes, in particular polyetrafluoroethylene, disposed in the openings of the tube sheet, which are pressure-tight in the tube to separate the two media. heat is exchanged. In the production of heat exchangers for corrosive media, it seeks to replace the metal material, especially pipes, with a suitable plastic material, for example polytetrafluoroethylene, since such plastics are cheaper than anti-corrosive metal materials. Heat exchangers of this type with plastic pipes have recently been used more and more frequently in transverse devices that utilize the heat contained in the flue gases. Tubing. They also have the advantage that cooling of the flue gases can also take place below the dew point of the flue gas, since the plastic pipes are also corrosion-resistant in this case.

The plastics used to make the heat exchanger tubes, which are preferably saturated fluoroplastics, are characterized by, in addition to significant creep at elevated temperatures, approximately 10 times higher thermal expansion compared to metal. That is to say, in the case of a bundle of plastic tubes, the relative displacement of the tubes relative to the metal walls surrounding them is of considerable value, so that from a structural point of view it must be ensured that, due to the large relative movements, the clamping and displacement of the tubes cannot be ensured. against their attachment and against the heat exchanger bodies.

Another problem in the production of heat exchangers using a plastic tube is the pressure-tight attachment of the plastic tube ends to the respective tube sheet. In particular, when the tube sheet is made of a metal material, the pressure-tightness between the tube sheet and the tube must be ensured, despite the flow of the plastic tubes and despite their length change during the start-up and shut-down of the heat exchanger. SUMMARY OF THE INVENTION It is an object of the present invention to provide an inexpensive and easy-to-repair and pressure-tight fixing of plastic tubes in flat or bent tube sheets, especially made of metal, but which can also be made of plastic. ....... 1 - ---------------. -----... ----.— ------

This object is achieved by a heat exchanger having at least one metal tube plate and a plurality of plastic tubes, in particular polytetrafluoroethylene, arranged in the openings of the tube sheet, which are fixed in the tube sheet in a pressure-tight manner to separate the two heat exchange media. according to the invention, the principle of which is that each tube is fixed to one end of a tube which is supported by an annular bearing surface of one piece of the tube. the opening in the tube sheet and which is held by the elastic fastening element.

According to the invention, a simple and cost-effective pressure-tight fixing of the plastic tubes of the heat exchanger in the respective tube sheets, which also allows for the repair or replacement of the individual tubes, is obtained. The one-piece back-end ring at the end of the pipe can be produced in a simple manner by deforming the pipe by applying heat. *

The seat surface required for the flange ring of the respective hole in the tube sheet is easily made by the additional recess of the tube plate, which can be carried out simultaneously in one operation with a through hole bore. The elastic fastening element used to secure the end of the tube in the tube sheet is an inexpensive, common, commercially available structural element that is simple to install.

In order to increase the sealing effect, a sealing ring may be provided between the tube plate and each tube according to a further feature of the invention. In a preferred embodiment of the invention, the fastening element is formed by a retaining ring in the form of a disk spring, with its outer edge abutting on the recess wall provided for providing a bearing surface for the flange ring, which part of its end face abuts the flange ring.

Such holding is the tube flange ring 6

It is also reliably pressed against the annular bearing surface of the tube, so that even when changing during the repair and operation of the exchanger, pressure-tightness is ensured. hermetic sealing with intermediate tube and tube plate.

While in the normal case it is sufficient to provide a flanged ring as a straight ring at the end of the tube, an annular ring arranged at right angles to the tube axis, 90% of the flanged ring may be provided on the flange ring at higher pressure requirements. up to 180 with a U-shaped cross section. This will in particular increase the shape stability of the flange ring. In addition, a sealing ring can be provided between the flange ring within the U-shaped cross-section and the contact surface formed in the tube plate.

The invention is further described with reference to the accompanying drawings, wherein various examples of exchanger heat exchanger are shown with the attachment of a plastic pipe end. FIG. 1 shows a longitudinal section through a first exemplary embodiment of the tube end and a section through the respective tube section; FIG. 2 shows the embodiment corresponding to FIG. , a third exemplary embodiment corresponding to FIG. 1 and 2.

In all three figures, a portion of the tubes of the heat exchanger (not shown) is shown.

This tube sheet 7 is provided with through holes 1a, in which a plastic tube 2, in particular polytetrafluoroethylene, is always inserted. This tube 2 is provided at its end of the tube in the tube plate 1 with a flange ring 2 formed from one end of the tube 2. This flange ring 2a is perpendicular to the longitudinal axis of the tube 2 &apos;

In order to provide a contact surface 1b for the flange ring 2a in the tube 1, the opening 1a is provided with a larger diameter 1c so that the space required for the flange ring 2a is thereby obtained. An elastic fastening element is inserted into the space formed by the recess 1c, which reliably presses the flange ring 2a onto the bearing surface 1b of the tube 1. The fastening element in the exemplary embodiments is formed by a retaining ring 3 in the form of a plate spring.

As can be seen from all the figures, the retaining ring 2 rests with its outer edge on the wall of the recess 1c of the bearing surface 1b and the part of its front surface extending from the inner edge to the flange ring 2a of the pipe 2. on the flange ring 2a of the tube 2, which reliably presses it against the contact surface 1b of the tube sheet 2 and forms a pressure-tight connection between the tube 2 and the tube plate 2;

In order to further increase the pressure-tightness of this connection, a sealing ring 4 can be inserted between the tube 2 and the tube plate 2. In order to accommodate this sealing ring, which can be, for example, an O-ring, the required 1 '' is formed. the space either with a bevel (as in the left of Fig. 2) or with a stepped recess (as in the right of Fig. 2). Finally, Fig. 3 illustrates another possible embodiment. In this embodiment, the pipe 2 made of plastic is provided at its end with a flange ring 2a of a cross section U which is formed by a flange of 180 ° and at the same time the end of the pipe 2t is widened. the surface 1b is of the collar type ld which is provided inside the recess 4. In this construction, the sealing ring 4 is arranged inside the U-shaped cross-section of the flange ring 2a between it and the abutment surface 1b formed in the tube plate 11. In all exemplary embodiments, the retaining ring 2 in the form of a disc spring assures that even when changing the temperature of the presses, the flange ring 2a of the pipe 2 to the contact surface 1b in the tube sheet 2 is reliably pressed to achieve the required pressure-tight connection. In the above examples, the heat exchange occurs, for example, between the liquid flowing through the tubes 2 and the gas flowing around the outside of the tubes. 2_. If it is necessary to replace the heat exchangers or the collecting tanks of the individual tubes 2 (for example due to their damage), it is possible to do so without having to remove the respective retaining rings 2 ^, remove the tubes and replace them with new tubes. 2, and the respective retaining rings 2 are then reinserted.

It is also possible to perform a short-term closure of the defective tubes 2 without interrupting the operation of the heat exchanger in a simple 10 way by inserting a closure cap into the respective recess 1c in the tube 1.

Claims (5)

PATENT CLAIMS What is claimed is: 1. A heat exchanger having at least one metal tube and a plurality of plastic tubes, in particular polytetrafluoroethylene, arranged in apertures of the tube which are pressure-tightly mounted in the tube compartment to separate the heat exchange media; each tube (2) is provided with a flange ring (2a) formed in one piece from the end of the tube (2) which fits on the annular abutment surface (1b) surrounding the ot-vor (1a) for mounting in the tube plate (1). ) in the tube plate (1) and which is held by the elastic fastening element. 2. A heat exchanger according to claim 1, wherein a sealing ring (4) is provided between the tube plate (1) and each tube (2). 3. A heat exchanger according to claim 1 or 2, characterized in that the fastening element is formed by a retaining ring (3) in the form of a disk spring which abuts with its outer edge on the wall of the recess (1c) provided for the abutment. the surface (1b) for the flange ring (2a), and which abuts against the flange ring (2a) through a portion of its end face. 4. A heat exchanger according to one of claims 1 to 3, characterized in that the flange ring (2a) is formed by a U-shaped cross-section in the form of a flange of 90 to 180. > 5. A heat exchanger according to claim 4, characterized in that the sealing ring (4) in the U-shape of the flange ring (2a) is arranged between it and the seating surface (1b) formed in the tube plate (1). / X