EP0166713B1 - Reel - Google Patents

Description

The invention relates to a reel with an expanding mandrel, which consists of a hollow reel shaft, radially adjustable, heatable spreading segments and a spreading device arranged in the hollow reel shaft for the expanding segments, with thermal insulation between the heatable part of the expanding mandrel and the reel shaft and cooling is provided.

If the strips coiled on a reel mandrel are heated from the inside by the reel mandrel serving as a heating element, not only can scale-related scaling be largely excluded, but also greater heat losses can be avoided. However, there is a need for the reel construction to protect the reel shaft and the spreader from an impermissibly high thermal load. For this purpose, it is known (AT-PS 370777) to divide the expansion segments in height and to separate the two parts from one another by thermal insulation, so that the outer part of the expansion segments can be heated and the inner part can be cooled. The heat transferred despite the thermal insulation can thus be dissipated via the cooling of the inner part of the expansion segments. The spreading device and the reel shaft are therefore protected against an impermissibly high thermal load. However, it must be accepted that a thermal bridge is formed over the strip-shaped pressure transmission pieces arranged between the outer and inner parts of the spreading segments, which run over the length of the spreading segment, and the tensioning screws spanning the two parts of a spreading segment, over which a non-negligible amount of heat is formed can flow away, which is therefore not available to warm up the wound tape.

The invention is therefore based on the object of improving a reel of the type described at the outset such that the outflow of heat via the cooling can be reduced to a minimum using simple constructional means.

The invention solves this problem in that sleeve-like pressure pieces with axes radial to the reel shaft are arranged between the spreading device and the expansion segments, that the wall thickness of the sleeve-like pressure pieces increases towards the expansion segments, and that cooling is provided between the sleeve-like pressure pieces and the spreading device.

The sleeve-like pressure pieces between the spreading device and the spreading segments offer only a small heat transfer area and still ensure the necessary power transmission. The wall thickness of the sleeve-like pressure pieces, which increases towards the expansion segments, ensures a sufficient contact surface for the expansion segments, the wall thickness decreasing towards the expansion device hindering the flow of heat over the pressure pieces, so that due to the temperature gradient along the sleeve-like pressure pieces, the material stress over the length of the pressure piece is at least approximated can be kept constant. A higher temperature load requires a correspondingly larger load-bearing cross-section.

The comparatively small amount of heat that is derived from the heated expansion segments via the specially shaped pressure pieces is dissipated via the cooling between the pressure pieces and the spreading device, which ensures effective heat shielding of the spreading device. Since heat can only be transferred outside the pressure pieces as a result of the heat radiation, appropriate heat insulation of the reel shaft and cooling provided between the reel shaft and the heat insulation can reliably protect the reel shaft against inadmissible thermal stresses without having to remove excessive amounts of heat from the heated spreading segments.

Particularly simple constructional relationships result if the pressure pieces associated with each expansion segment are arranged on a common base plate which is connected to the expansion device and has coolant channels. This base plate simplifies the cooling between the sleeve-like pressure pieces and the spreading device, because the coolant connections do not have to be routed to each pressure piece. In addition, this cooled pressure plate shields the reel shaft from the thermal radiation of the heated spreading segments. So that no larger portion of the radiant heat can be dissipated via the cooled base plate, the base plate can be covered by thermal insulation with respect to the expansion segments.

The only heat conduction between the heated spreading segments and the reel shaft or the spreading device takes place via the pressure pieces, which are designed like a sleeve to minimize the heat flow and have a different wall thickness along their length, taking into account the temperature gradient. These pressure pieces therefore also radiate heat. In order to prevent such heat radiation from the reel shaft or the spreading device, the wall of the sleeve-like pressure pieces can have heat insulation at least inside and outside in the region of the end facing the spreading device.

Since there is a large temperature difference between the heated expansion segments and the reel shaft, the thermal expansion of the expansion segments must be taken into account in the design. For this purpose, the sleeve-like pressure pieces can be slidably supported on the expansion segments in the longitudinal direction of the expansion segments, so that the thermal expansion of the expansion segments through the pressure pieces, which are fixed, for example, in the base plate, not be hindered. The slidable contact of the pressure pieces on the expansion segments also facilitates the replacement of the expansion segments because no connection has to be made or made between the expansion segments and the pressure pieces.

Because of the lack of a connection between the pressure pieces and the expansion segments, the pressure pieces can be lifted off the expansion segments. In order to prevent such lifting, the pressure pieces can be supported on the spreading device by means of a compression spring.

• Fig. 1 den Haspeldorn eines erfindungsgemässen Haspels in einer zum Teil aufgeschnittenen Seitenansicht und
• Fig. 2 diesen Haspeldorn in einem Axialschnitt nach der Linie 11-11 der Fig. 1 in einem grösseren Massstab.

The subject matter of the invention is shown in the drawing, for example. Show it

• Fig. 1 the reel mandrel of a reel according to the invention in a partially cut side view
• Fig. 2 this reel mandrel in an axial section along the line 11-11 of Fig. 1 on a larger scale.

According to the exemplary embodiment shown, the reel mandrel 1 of a reel essentially consists of a hollow reel shaft 2, on which radially adjustable spreading segments 3 are mounted, and a spreading device 4 for the spreading segments. This spreading device has in the usual way a non-rotatably but axially displaceably guided expansion rod 5 in the hollow reel shaft 2, which forms wedge surfaces 6 for adjusting expansion wedges 7 guided radially in the reel shaft 2. The transfer of the expansion forces to the expansion segments 3 takes place via sleeve-like pressure pieces 8 which are held in a base plate 9 carried by the expansion wedges 7 and have a wall thickness which increases towards the expansion segments 3, as can be seen in particular from FIG. 2 . Due to this special design of the sleeve-like pressure pieces 8, a greater heat flow from the expansion segments through the pressure pieces 8 is prevented without impairing the strength. In the pressure pieces 8, the heat flow is impeded by the cross section tapering towards the spreading device 4, so that a temperature gradient occurs within the pressure pieces 8, the load-bearing cross section of the pressure pieces 8 being smaller in the area of lower temperatures than in the area of higher temperatures. The material stress on the pressure pieces 8 consequently remains the same at least over a large part of the pressure piece length.

In order to dissipate the amount of heat dissipated via the pressure pieces 8, coolant channels 10 are provided in the base plates 9 and are connected to a coolant circuit, not shown, via corresponding lines 11 (FIG. 1). In order that the reel shaft 2 can be protected from the heat radiation of the spreading segments that can be heated by an external heating device, the parts of the reel shaft 2 not covered by the base plate 9 are covered by thermal insulation 12, between which and the reel shaft an additional cooling 13 connected to the coolant circuit is arranged. This cooling 13 consists of corresponding lines for the coolant.

The base plate 9 is also provided with thermal insulation 14 in order to avoid unnecessary heat losses. For the same reason, the walls of the pressure pieces 8 are covered on the inside and outside by heat insulation, the outer insulation being able to be provided by the heat insulation 14 of the base plate 9 and the inner insulation by heat insulation 15 filling the inner cavity of the sleeve-like pressure pieces 8.

When the expansion segments 3 are retracted into their starting position, which occurs when the expansion rod 5 is adjusted via the returns 16 and 17, it can happen that the pressure pieces 8, which are only in contact with the expansion segments 3, lift off from the expansion segments 3. In order to avoid such lifting, which does not in itself impair the functionality of the reel mandrel, the pressure pieces 8 can be supported on the spreading device 4 via a compression spring 18. According to the exemplary embodiment, the compression springs 18 act on the base plate 9 via a stamp 19, so that if there is play, this is compensated for by the compression springs 18. If the spreading force exceeds the force of the compression springs 18 when spreading the coiler mandrel, these springs are compressed until the expansion wedges 7 strike the base plates 9, which are then adjusted radially outwards by the expansion wedges 7 with the pressure pieces 8 and the expansion segments 3.

The slidable support of the expansion segments 3 on the pressure pieces 8 allows free thermal expansion of the expansion segments 3 when they are heated, whereby these expansion segments 3 can be fixed at one end with respect to the reel shaft 2.

The cross-sectional shape of the pressure pieces does not have to be circular, as in the exemplary embodiment. The cross-sectional shape of the sleeve-like pressure pieces can rather be selected according to the respective requirements and, for example, be oval or rectangular. In addition, the wall thickness of the pressure pieces against the expansion segments can increase towards a closed sleeve base, so that the sleeve-like pressure pieces are only open towards the expansion device.

Claims (6)

1. A coiler comprising an expansible mandrel, which comprises a hollow coiler shaft (2), heatable expansible segments (3), which are mounted to be radially adjustable, and spreading means (4) which are disposed in the hollow coiler shaft (2) and serve to expand the expansible segments (3), wherein heat-insulating means (14) and cooling means (13) are provided between the heatable portion of the expanding mandrel and the coiler shaft (2), characterized in that sleevelike pressure-applying members having axes which are radial with respect to the coiler shaft are provided between the spreading means (4) and the expansible segments (3), the wall thickness of the sleevelike pressure-applying members (8), increases toward the expansible segments (3), and cooling means are provided between the sleevelike pressure-applying members (8) and the spreading means (4).

2. Acoiler according to claim 1, characterized in that the pressure-applying members (8) are associated with respective expansible segments (3) and are mounted on a common baseplate (9), which is connected to the spreading means and has coolant passages (10).

3. A coiler according to claim 2, characterized in that the baseplates (9) are covered by heat-insulating means (14) towards the expansible segments (3).

4. A coiler according to any of claims 1 to 3, characterized in that the wall of the sleevelike pressure-applying members (8) is provided with heat-insulating means (14, 15) on the inside and outside at least adjacent to that end which faces the spreading means (4).

5. A coiler according to any of claims 1 to 4, characterized in that the sleevelike pressure-applying members (8) are supported on the expansible segments (3) so as to be slidable along the expansible segments (3).

6. A coiler according to claim 4, characterized in that the pressure-applying members (8) are supported on the spreading means (4) by means of a compression spring (18).

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