SE450600B - HEAT EXCHANGER WITH FLANGED ROWS ORGANIZED CONCENTRICLY CLAMPED AND SERIAL COVER - Google Patents

Abstract

A heat exchanger has a central carrier tube 1 which supports a partially-finned heat exchange tube by means of retaining devices 2 and 3. The heat exchange tube has a plurality of straight tubes 42 provided with axially-extending fins 6, the finned tubes being interconnected by tubular connectors 4. Each tubular connector 4 has a V-shaped portion which extends substantially at right-angles to straight portions 41 which are contiguous with the ends of the V- shaped portion. The straight portions 41 of a given tubular connector 4 are connected to the adjacent ends of a respective pair of finned tubes 42. The V-shaped portions of the tubular connectors are clamped to the retaining devices 2 and 3. The finned tubes 42 are symmetrically disposed about the central carrier tube 1, so that they form together with the tubular connectors 4 a self-supporting tubular cage.

Description

15 25 30 40 450 600 arranged fixedly while the other, on the other hand, is displaceable on the central support device so that the pipes can freely form the flanges formed as separate elements clampable on the pipes, a number of the U- or V- The curved pipe sections have such long ends that they directly form the pipe sections to be provided with flanges. This saves widening and tightening. About half of the pipe welds are screwed together or other tight pipe connections.

The invention will be described in more detail below in connection with the drawings in the form of an exemplary embodiment of the object of the invention in the form of an evaporator. Fig. 1 shows in perspective the lower half of an upper fastening device with a part of the evaporator, Fig. 2 the same part with a covered fastening device seen from the side partly in section, Fig. 3 a side view of the evaporator on a smaller scale and Fig. 4 the evaporator in fig. 3 seen from above and fig 5-7 different pipe sections separately. Fig. 8 shows a fastening device which is axially displaceable on a central support device, Fig. 9 shows the evaporator with another device of the flanged pipes. Fig. 10 schematically shows the evaporator which can be disassembled for transport in separate parts.

In all figures, corresponding parts have been given corresponding reference numerals. The extruder has a central carrier or beam 1 in the form of a tube with a foot 11. On this central beam or support device a fastening device Z and at the bottom a fastening device 5 are arranged.

The upper fastening device Z is rigidly attached to the support tube 1 while the lower fastening device J is displaceable on the tube 1. The fastening device consists of two circular, plate-shaped discs 21, 22. In the upright edge of these discs, the cross-section is semicircular. radially extending grooves 23 are milled, the diameter of which corresponds to the pipe diameter. The lower disc 23 is welded at 24 to the central support tube 1. The support tube is closed at its upper end by means of a disc 12. A support loop 14 screwed into the disc 12 presses the two crevices 21, 22 against each other by means of a cup-shaped part 15 and holds the U- or V-shaped pipe section for the pipe connections 4 in the desired positions (Fig. 2). The lower fastening device 3 in accordance with Fig. 8 is constructed in a similar manner. The two plate-shaped discs are here connected to the devices 21, 22 by means of screws 31 running parallel to the tube 1 so that the ring is displaceable on the tube 1. Between the two halves 7 of the fastening device _ five pipe connections 4 are clamped with a 30 40 UI 450 600 downwardly directed end 41.

In the upper fastening device 2 there are five, in the lower fastening device four such pipe connections are clamped with upwardly directed end 41. Between the downwardly and upwardly directed ends 41 straight pipe pieces 42 with heat exchanger flanges 6 are arranged and for example connected by means of a weld joint 51 with the respective pipe ends 41. Since the pipe connections at the top and bottom are each arranged offset by a distribution, a series connection of the pipes provided with the flanges is obtained. Inlet and outlet 81, 82 are located at the lower end of the heat exchanger (Fig. 3). When the flanges 6 are subsequently separated on elements already mounted on the pipe sections already mounted, the number of connections 51 can be reduced. Namely, the ends S1 can be made so long that they replace the straight pipe sections 41 which are to be provided with flanges so that half of the connecting points 51 are omitted. At the evaporator in accordance with Figs. 3 and 4 with ten flanged pipes 6, then, for example, U- or V-shaped bent pipe connections 4 with long, parallel ends 41 'parallel to the support pipe, four pipe connections 4 with short ends 41 are required (see Fig. 5) . Instead, nine pipe connections 4 can also be used, each of which has a long end 41 "and a short end 41 (Fig. 6). A further straight flanged pipe leads to inlet or outlet 81, 82.

Figs. 3 and 4 show an evaporator of the type described, with a central supporting tube 1 with hot air fan 7 attached to the base 11. The two, longitudinally flanged tubes serving for heat exchange, the tubes 6 are arranged in a circular concentric arrangement around the central carrier pipe 1. The evaporator serves, for example, to transfer liquid carbon dioxide or oxygen to a gaseous state. The hot air fan 7 blows the preheated air into the interior of the central support pipe 1, which is provided at the pipe wall through holes 15, of which the hot air is distributed over the entire length over the heat exchange flanges 6.

The pipe connections 4 and the pipes 42 consist, for example, of stainless steel, copper or aluminum and the axial cooling cooling fins 6 are preferably made of aluminum and can be clamped on the pipes already mounted. If a user uses pipe 42 in accordance with Fig. 7 with fixed flanges 61 arranged thereon perpendicular to pipe lengths, the straight pipe sections 42 must of course be connected to each other both at the bottom and at the top by means of pipe connections 4 with short ends 41. '450 600 4 Fig. 9 shows a heat exchanger similar to Figs. 3 and 4, in which, however, the fastening devices 1i are not round but polygonal.

Fig. 10 shows in simplified form the separate parts prepared for dispatch for the production of an inverter with ten heat exchanger tubes in accordance with Figs. 3 and 4.

The consignment comprises: 1 central support pipe 1, 10 pipe sections (according to Fig. 5), 10 Z0 half-bowls with flanges 6, Z complete fastening devices 2,3, 1 foot 11, 1 fan 7, 2 end pieces 81, 82. Are the pipe connections provided with a well-sealing screwing allows the entire evaporator to be assembled without a weld, as shown in Fig. 10, these are relatively small separate parts which are well suited for transmission.

Claims (7)

s 45Û 600 P a t e n t k r a v 1. Väfmeväxlaïe t.6X. The active parts of the wolf for the Värxne transfer preferably consist of straight pipe sections provided with flanges which are arranged regularly geometrically around a central carrier and are connected to each other by means of non-flanged pipe sections, characterized in that each pipe connection (4) comprises a V-shaped bent pipe section, the ends (41) of which are bent perpendicular to the plane in which the U- or V-shaped bend lies, that the U- or V-shaped bent parts of the pipe connections (4) are clamped in at the central the fastening devices (2, 3) arranged, the carrier (1), the perpendicularly bent ends (41) of the pipe connections (4) clamped in the upper fastening device (2) being directed downwards and the perpendicularly bent ends (41) ) for the pipe connections (4) clamped in the lower fastening device (3) are each displaced a pipe division so that they connect the flanged pipe sections (42, 42 ', 4Z ") from the inlet (81) to the outlet (82) i seri e with each other and together form a self-supporting pipe basket. Heat exchanger or evaporator according to claim 1, characterized in that the fastening devices (2, 3) each comprise two clamping plates (21, ZZ), in the edge of which grooves (23) are arranged, and that a fastening device (Z) is fixed while the second fastening device (3) is axially displaceably connected to the central support (U. Heat exchanger or evaporator according to claim 1, characterized in that a number of pipe connections (4) corresponding to half of the flanged pipes have long, perpendicularly bent ends (41 '), the lengths correspond to the pipes to be provided with flanges, while the other pipe connections (4) have short bent ends (41) and the flanges are subsequently clampable on these long ends (41 '). Heat exchanger or evaporator according to claim 1, characterized in that all pipe connections (4) have a short perpendicularly bent end (41) and a long perpendicularly bent end (41 "), the length of which corresponds to the pipes to be provided with flanges and that the flanges are subsequently clampable on these long ends. Heat exchanger or evaporator according to claim 1, characterized in that all pipe connections (4) have two short ends (41) and that the pipe sections (42) provided with flanges (61) are straight. 450 600 6 Heat exchanger or evaporator according to claim 1, characterized in that the central support device (I) is a tube, in the wall of which holes (IS) are arranged, through which a cooling or heating medium flow is directed at those with flanges (6). ) fitted pipes (42). Heat exchanger according to claim 5, characterized in that a fan (7) is arranged at the central support tube (1), which blows hot air into the interior of the support tube (1).