DE1452409C - Rotary and feed drive on a device for the helical winding of strip-shaped heat exchange bodies on metal pipes - Google Patents

Description

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The invention relates generally to a front or trapezoidal cross-section, which consists of directions for the manufacture of heat exchangers, relatively thin and soft wire immediately in front of which is made of a metallic tube and a screw-shaped for the purpose of feeding to the tube surface continuously enlargement of the exchange surface. Ribbon-shaped tubes wound with such wire coils on edge-to-edge position must consist of a disproportionately larger Ge heat exchange body. With such a precision both in the rotational as well as in the axial direction reports can be moved away with a stationary feeder, and its drive must, especially for the body to be wound, adapt carefully to the feed speed of the wire the tube to be wound relative to the stationary helix because this, in contrast to the feeding device, is constantly rotating around its axis of resistance to tensile and compressive stresses, corresponding to the desired pitch of the capable rivet band, both on tensile and on helically wound bodies, axially pushing forward compressive stresses extraordinarily strong and '. mostly reacts adversely '. To a wire helix in the invention relates in particular to the exact screw turns with a uniform drive for the pipe to be wound and is based on a 15 pitch to apply a pipe so that the from a rotary and feed drive on a pre-helix with each turn For a good direction for the helical winding of the heat transfer necessary good contact with the band-shaped heat exchange body on the metal pipe surface, the wire helix may namely pipes with pipes distributed around the pipe axis, on which are in no way exposed to thrust forces, and the pipe-permeable driven spindle head Exercise of tension is only desired insofar as supported feed rollers and with a threaded ring arranged centrally around the pipe axis under the influence of elastic tension, in the tension of which the thread is followed by at least one wire helix wound around the pipe with a feed roller via a solder metal interlayer Soften bound gear engages. of the solder metal until it comes into contact with the pipe wall. A known tubular drive of this type is used to sink into the solder metal. Furthermore, the tube winding from previously between a wedge-shaped drive should be in the simplest possible way, in particular without a gap forming roller surfaces for a screw exchange of any device parts, on the helically formed metal strip. With him are the winding of pipes with wide limits ver-feed rollers with smooth Uinfangsflächen under different diameters and can be switched, spring pressure on the pipe to be wound, the 30 because the wire coils to be wound in the counter-bearing of these roles, from the Pressure set zii preformed tape spirals on tubes. spring loaded swivel arms are non-adjustable and can be rolled up to any diameter,
a driven, rotatable about the pipe axis roll in as engaging in the threaded ring and engages with and when turning the ring disk that engages the feed rollers with their teeth, the gears attacking the pipe, around the pipe axis that forms the threaded ring with a gear at right angles to it which is in engagement and rotatable about its axis pipe axis and drivable rotates, consists of one of the feed rollers with an annular disc with a flat thread uhd that the spacing surrounding fixed cylindrical bearings of the feed rollers on the spindle head radially verBüchse whose axis lies in the pipe axis and which are adjustable.

on its inside with a screw thread. The teeth of the pipe wall can be seen directly. . attacking gears ensure an absolutely safe This drive device is only for pipes with 45 driving of the pipe in both drive directions within small tolerances of the same outer diameter - even against stronger resistances, especially when knife usable, the storage of the feed rollers the tooth tips of the gears to spring-loaded in the circumferential direction Swivel arms are set in the running cutting edge are sharpened. The unusually large play between the 50 toothed wheels, which at the same time formed the feed rollers and engaged with the threaded ring, was driven by a flat-threaded toothed wheel. The entrainment of the pipe is drivable. The ring disc allows a stepless radial in the direction of rotation and feed only by adjusting the feed rollers and enables frictional engagement with the necessary small contact surfaces, so that the contact surfaces of the rollers can be easily and quickly adjusted to be unsafe and lead to drive on pipes with a wide range of slippage from one another, even if the pipe movements in the 55 different diameters as well as a sensitive one or the other direction, relatively low counter-adjustment of the contact pressure of the gears,
The inventive design of the pipe dimension of the feed positive drive given to the pipe also allows the feed rollers depending on the rotational speed of the supporting spindle head and the one with the flat spindle head with the feed rollers around the Tube-threaded ring washer independently of the axis, based on one tube revolution but one below the other, advantageously via continuously variable drives. The purpose of the invention is to adapt a, on the one hand, the rotary drive without reverse rotation and feed drive for pipes to the pre-effects on the slope of the applied directions for the manufacture of heat exchangers, 65 helix determining pipe feed carefully on those of the Heat to be wound on the pipe - the feed speed of the wire coil to be exchanged not from a metal band, but rather, as well as any desired tension on the coil, to be controlled very sensitively from a wire coil with an elongated rectangular shape, but also from the

To change the pipe feed per revolution for the purpose of changing the helix pitch within wide limits. the Dispensing with resilient support of the feed roller bearings and their rectilinear adjustability allow the feed wheels to run in the flat thread of the drive pulley with almost no play precise execution of these mutually engaging device parts.

It is sufficient for the spindle head if it can only be driven in one direction, since it is used for heat exchangers It is irrelevant whether the wire helix is wound in right-hand or left-hand screw turns is. The gear for the ring disk, however, should be set up so that the ring disk can be driven in both directions from a standstill.

So that not only the tubular drive is carefully adapted to the feed speed of the wire helix, but the adjustment once created is reliably maintained even during a longer period of operation remains, the rotary drives for the spindle head and for the Flachgewiiulescheibe are advantageous via their continuously variable transmission from. Drive the winding device derived from the pipe tapered helix-produced. In this way, the structure of the entire device becomes essential at the same time simplified, since only a single power drive is required.

An embodiment of the rotary and feed drive forming the subject of the invention is shown schematically in the figures. It shows

Fig. 1 shows a complete machine for the production of heat exchangers of the type mentioned with a rotary and feed drive corresponding to the invention for the pipe to be wound,

F i g. 2 the rotary and feed drive in a side view, partly in a long section,

F i g. 3 ilen drive according to fig. 2 in front view with the cover removed,

F i g. 4 one of the gears of the drive according to FIGS. 2 and 3 in engagement with one to be driven Tube, seen in the direction of the tube axis.

The one according to FIG. 1 on the machine frame 1 next to the winding device producing the wire coil 10 9 with the housing 4 of the associated gear attached rotary and feed drive 2 for the tube 3 consists essentially of a tube 3 permeable spindle head 11, which is in the Spindle head housing 13 rotatable about the pipe axis and drivable in both directions via gear 12 is supported and independent of this can be driven via a gear 14. In the manner of the jaws of a three-jaw chuck around the Bearing pieces 15 distributed around the pipe axis and radially adjustable in the spindle head 11 is a gear wheel 16 each rotatably mounted in one axis plane. The gears 16 engage in a flat thread 17 on the inside an annular disk 18 screwed to the housing 13, which is at the same time an end cover of the housing 13 forms. The heads of the gear teeth are - as shown in FIG. 4 can be seen - compared to the rest Part of the tooth body offset on one side by the dimension 19 and thereby as well as by a bevel on the other side formed into cutting edges with which they can be pressed into the circumferential surfaces of the tube 3 are.

If the spindle head 11 is set in rotation with respect to the stationary housing 13, take it the gears 16 with the pipe in the direction of rotation; but at the same time the gears 16 as a result of their Engagement in the flat thread 17 of the stationary housing cover 18 in rotation about their axes, whereby, depending on the course of the flat thread, they axially move the pipe in one direction or the other shift. By rotating the housing 13 with the cover 18 in one or the other direction of rotation can be achieved be that the gears 16 are slower

ίο or faster in any direction around their axes turn, stand still or reverse their direction of rotation. The tube 3 can therefore without affecting his Circumferential speed with speed that can be selected within wide limits in both directions axially be moved.

In order to achieve a tube feed that is as vibration-free as possible, it is recommended to use the division of the gears 16 to choose so that the difference between the tip radius and the distance of the Connection of two adjacent tooth tips from the gear axis in. Range of the penetration depth of the tooth cutting edges located. However, even if the difference exceeds the penetration depth, this results Vibrations of the tube, which, however, have no influence on the winding process, within the The elasticity of conventional pipe materials is, if necessary, between the feed drive and The changing area would be easy to calm down by known means.

On the housing 4, which does not belong to the invention and is therefore not shown, steplessly variable gears are according to FIG. 1 switches 5 and 6 for switching the on and off of the gear wheels 10 and 12 acting gears as well as handles 7 and 8 for setting the gear ratios intended.

Claims (4)

Patent claims: I. Rotary and feed drive on a device for helical winding from ribbon-shaped heat exchange bodies to metal pipes with distributed around the pipe axis • a driven spindle head that allows the pipe to pass through and is supported by feed rollers a threaded ring arranged centrally around the pipe axis, in which at least one with a Gear wheel connected to the feed roller engages, characterized in that the feed rollers than gears engaging in the threaded ring and engaging the pipe with their teeth are designed that the threaded ring one at right angles to the pipe axis um.dies rotatably arranged drivable ring disc with is a flat thread and that the bearings of the feed rollers on the spindle head. radially adjustable are. 2. Apparatus according to claim 1, characterized in that the tooth tips of the gears (14) are sharpened to form cutting edges running in the circumferential direction. 3. Device according to claims 1 and 2, characterized in that the spindle head (9) and the annular disk (16) provided with the flat thread (15) independently of one another continuously variable transmissions (7, 8) are drivable. 4. Device according to claims 1 to 3, characterized in that the drives of the with the bottle thread provided washer (16) and the spindle head (9) from a common power source, preferably from the drive of a the wire coil generating winding device (9) are derived. 1 sheet of drawings