FI58762B - SPA HOOKS FOER PAPPERS- PLASTFOLIE- EL DYL RULLARS CENTRALAXEL - Google Patents

Description

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Patent and Registration Office / 44) Date of issue and date of issue. -

Patent · och registrstyrelsen '' AntfMun utlagd och utl.akrtfun publkerad 31.12.80 (32) (33) (31) FyydMty MuoikMi — Begird priority 13.06.75 2U.03.76 Federal Republic of Germany-Förbunds-republiken Tyskland (DE) P 2526U97.5 , P 2612375.I Proof-Styrkt (Tl) A. Ahlström Development GmbH, Kalixtenbergstrasse 28, 7315 Weilheim-Teck, Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) (72) Walter Dörfel, Weilheim-Teck, Bernd Görner, Weilheim-Teck Federal Republic of Germany-Förbundsrepubliken Tyskland (DE), Seppo Valtanen,

Kauttua, Suomi-Finland (FI) (7 * 0 Leitzinger Oy (5 * 0 Clamping head for cores for paper, plastic films, etc. coils -Spännhuvud för pappers-, plastfolie- el.dyl. Rullars centralaxel

The invention relates to a clamping head arranged at the end of the shaft to be used, on which the end of a paper, plastic film or coil core tube can be pulled and by means of which the coil can be clamped without axial pressure, the clamping end comprising an inner part and a circumferentially split segment sleeve, pressure element which rest against the inner body and act against the inner sides of the segments and, when the segment sleeve is rotated in the circumferential direction, raise them radially outwards.

Such a clamping head is known from DE-A-22 11 518. The Si insert has a rectangular cross-section. The pressure elements are formed as cylindrical rollers resting against the sides of the rectangle and the undersides of the segments, which, as the inner body rotates relative to the segments, roll towards the corners of the rectangular cross-section and thus extend a greater distance from the axis of rotation.

However, this known clamping head has the disadvantage that it receives both the load caused by the weight of the roller and the reception of torque at one and the same point in the sleeve head. Since the segments have to carry the weight of the roll at the same time, a strong stress is most often applied to the ends of the core tubes made of cardboard during rotation, which reduces their service life and interferes with the smooth rotation of the coil and also with the track.

When the weight of the entire roll rests on the clamping segments, tightening of the clamping head in the core tube is usually also prevented, as this must take place against the weight of the coil.

U.S. Pat. Nos. 2,903,200 and 3,097,808 also disclose a clamping head consisting of two substantially coaxial, axially adjacent and interconnected parts connected to each other and to the shaft end, the first part being intended to support the inner surface of the core tube and the second part comprising an inner cap. pale, segment sleeve and pressure elements. As a result, it is achieved that the weight of the coil does not rest solely on the tensioning device, which can thus be tightened without obstruction. However, the clamping means of these two known embodiments are different from those of the present invention, namely elastic members which can be expanded radially outwards by means of internal pressure (U.S. Pat. No. 3,097,808) or by axial compression (U.S. Pat. No. 2,903,200).

However, in the case of, as in the invention, a device in which the segment sleeve is tightened by twisting in the circumferential direction, the dichotomy of the clamping head is considerably more difficult because the core part rests on the first part.

The object of the invention is to provide a clamping head of the type mentioned at the beginning, which makes it possible to reduce the stress on the ends of the core tubes while improving the adhesion of the clamping segments.

This object is achieved according to the invention in that the tensioning head comprises, as is known per se, two substantially coaxial, axially adjacent and mutually fixed parts, the first part forming a support for the inner surface of the core tube, the support sleeve rotatably mounted on the first part and the second part comprising an inner part , segment sleeve and pressure elements.

58762 3 As a result, it is achieved that the rotation of the core tube and the segment sleeve is not hindered by the non-rotating first part of the clamping head, on which the core tube is also located, but on the contrary facilitates it. The rotating support sleeve thus cooperates with the segment sleeve to be rotated in order to facilitate the use of the latter and to provide a tightening of the core tube without the disadvantage caused by the weight of the roller.

Most preferably, a plain bearing sleeve or a roller bearing is arranged in the radial direction to bear the support sleeve.

It is preferred that the first part is arranged on the shaft end side.

This has the advantage that the load caused by the weight of the roller is transferred to the shaft via a short torque arm.

The bearing of the support sleeve in the axial direction can take place in such a way that the support sleeve has an outwardly directed edge flange at the shaft end and an axially oriented shoulder surface as the edge flange support surface and a wear plate of low friction material or axial pressure

Embodiments of the invention are shown in the accompanying drawings, in which Figure 1 shows a longitudinal section of a first embodiment of the invention.

Fig. 2 shows an end view of the end of the clamping head according to Fig. 1 fitted to the core tube without the cover plate.

Figure 3 shows a cross-section taken along line III-III in Figure 1 on a reduced scale.

The clamping head 10 according to the first embodiment of the invention shown in Figs. 1 and 2 is arranged on the shaft end 1. The clamping head 10 is coaxial with the shaft end 1 and protrudes therefrom. It is intended to grip the core tube 9 and tighten against it.

4 5 8762

The clamping head 10 comprises a cylindrical part 2, which on the shaft side is delimited by a shoulder surface 1 'projecting from the shaft, which has a larger diameter than the cylindrical part 2 and which acts as a wear surface. Attached to the other end of the cylindrical part 2 is an inner body 13 which is in the shape of an equilateral hexagon in cross section. The side surfaces of the inner body 13 are indicated by reference numeral 16.

A support sleeve 6 is arranged around the cylindrical part 2 on the plain bearing sleeve 4. The support sleeve 6 acts to receive the load caused by the weight applied by the coil to the core tube 9 with the end of the core tube 9 pulled over the support sleeve 6. The support sleeve may also be provided with axial slots. The plain bearing sleeve 4 consists of a low-friction material. The support sleeve has an edge flange 6 'which abuts a shoulder surface 1' via a wear plate 4 'of low friction material, which forms a support surface for the edge flange 6'. The edge flange 6 'is provided with cuts 6 "on the side of the communication tube 9 for adhesion with the end surface of the core tube 9.

An axially parallel roller 17 is arranged on each surface 16 of the hexagon formed by the inner body 13. The inner body 13 is coaxial with the shaft 1. The rollers 17 are mounted in pairs in recesses in the inner surface of each tightening segment 18.

Each clamping segment 18 always covers two adjacent surfaces 16 of the polygon and together the clamping segments form a segment sleeve indicated by reference numeral 19 (Fig. 2). Since each clamping segment 18 covers two adjacent polygon surfaces and one roller 17 is arranged on each polygon surface, the clamping segments 18 cannot be tilted in the circumferential direction, so they always accurately form a cylindrical clamping surface adhering to the inner surface of the core tube 9. The clamping segments 18 are held together by a spring ring 21 which acts to pull the clamping segments 18 radially together, in addition to which the clamping segments are limited against exceeding the maximum expansion by receiving recesses 32 and 29, 29 'at the ends of the rollers 17. A spring plate 28 is arranged between the adjacent tightening segments 18 to cover the seams in a dust-tight manner.

At the end opposite the axis i, the support sleeve 6 has an inwardly directed edge flange 8 which engages over the end of the cylindrical part 2 and protrudes towards the inner body 13. The edge flange 8 is provided with recesses 29 for receiving the roll ends, of which 5 58762 the second recess 29 'is larger, cf. Figure 3.

A cover plate 31 is attached to the free end of the inner body 13 by screws 30. The cover plate 31 has a recess 32 for receiving the ends of the rollers 17. The width of the recesses 32 corresponds to the distance of the tips of the larger recesses 29 'from the corresponding surfaces 16 of the inner body 13.

The clamping head 10 is thus divided into two parts 11, 12, of which the part 11 with its support sleeves 6, the plain bearing sleeves 4 and the cylinder part 12 acts to receive the load caused by the weight of the coil, while the part 12 with its inner pieces 13, rollers 17 and clamping segments 18 receives torque.

Claims (4)

58762 A clamping head (10) arranged at the end of the shaft (1) to be used, on which the end of the core tube (9) of a paper, plastic film or similar spool can be pulled and by means of which the spool can be clamped without axes, the clamping head (10) comprising an inner body (13) and surrounding a multi-point axially split segment sleeve (19) and pressure elements (17) which abut against the inner body and act against the inner sides of the segments and raise them radially outwards when rotated in the circumferential direction of the segment, characterized in that the clamping head (10) comprises, as is known per se, two substantially coaxial, axially adjacent and mutually adjacent parts (11, 12), the first part (11) of which forms a support for the inner surface of the core tube (9) so that the support sleeve (6) is mounted rotating to the first part (11) and that the second part (12) comprises an inner body (13), a segment sleeve (19) and pressure elements (17). Clamping head according to Claim 1, characterized in that a plain bearing sleeve (4) or a roller bearing is provided for bearing the support sleeve (6) in the radial direction. Clamping head according to Claim 1 or 2, characterized in that the first part (11) is arranged on the shaft end (1) side. Clamping head according to one of Claims 1 to 3, characterized in that the support sleeve (6) has an outwardly directed edge flange (6 ') at the shaft end (1) and an axially oriented shoulder surface (1) at the shaft end (1). as a support surface and that a wear plate (41) of low friction material or an axial thrust roller bearing is arranged between the shoulder surface (1 ') and the edge flange (6').