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Pipe Milling Machine - Directional Stability

20170320148 · 2017-11-09

    Inventors

    Cpc classification

    International classification

    Abstract

    A pipe milling machine for separating and/or cutting a pipe to length is disclosed. In an embodiment, the pipe milling machine includes a drive unit configured to generate a feed force to the pipe and a holding device configured to hold the pipe, wherein the holding device is mountable around the pipe, wherein the drive unit engages in or touches down on the holding device, wherein the feed force is transferred to the holding device in a location, which contacts the pipe or which is adjacent to a location which contacts the pipe, and/or wherein the drive unit is guided by the holding device.

    Claims

    1. A pipe milling machine for separating a pipe to length, the pipe milling machine comprising: first means for generating a feed force; and second means for holding the pipe, wherein the second means is mountable around the pipe, wherein the first means for generating the feed force engages in or touches down on the second means, wherein the feed force is transferred to the second means in a location, which contacts the pipe or which is adjacent to a location which contacts the pipe, and/or wherein the first means is guided by the second means.

    2. The pipe milling machine according to claim 1, wherein the first means is a roller.

    3. The pipe milling machine according to claim 1, wherein the first means is a chainwheel.

    4. The pipe milling machine according to claim 1, wherein the second means is a band.

    5. The pipe milling machine according to claim 1, wherein the second means is a roller chain.

    6. The pipe milling machine according to claim 1, wherein the second means is a guiding chain.

    7. The pipe milling machine according to claim 1, wherein the second means is implemented at least 2-fold.

    8. The pipe milling machine according to claim 1, wherein the second means is redirected within the pipe milling machine.

    9. The pipe milling machine according claim 1, further comprising a cantilever arm for positioning the first means adjacent to the pipe.

    10. The pipe milling machine according claim 1, further comprising a guide slide for positioning the first means adjacent to the pipe.

    11. A system for separating a pipe, the system comprising: the pipe milling machine according to claim 6; and a band or a guiding chain, wherein the band or the guiding chain is arranged on the pipe, and wherein the band or the guiding chain is configured to guide a roller or a chainwheel.

    12. The system according to claim 11, wherein the system comprises at least two bands or guiding chains, wherein the roller or the chainwheel is guided between two bands or two guiding chains, or wherein a first band or a first guiding chain guides a first roller or a first chainwheel and a second roller or a second guiding chain guides a second roller or a second chainwheel.

    13. A pipe milling machine for separating a pipe to length, the pipe milling machine comprising: a drive unit configured to generate a feed force to the pipe; and a holding device configured to hold the pipe, wherein the holding device is mountable around the pipe, wherein the drive unit engages in or touches down on the holding device, wherein the feed force is transferred to the holding device in a location, which contacts the pipe or which is adjacent to a location which contacts the pipe, and/or wherein the drive unit is guided by the holding device.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0020] For a more complete understanding of the present invention, and the advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, in which:

    [0021] FIG. 1 a pipe milling machine of the prior art;

    [0022] FIG. 2 a first inventive embodiment having a special routing of the chains;

    [0023] FIG. 3 a second inventive embodiment having a cantilever arm;

    [0024] FIG. 4 a third inventive embodiment having tensioning bands; and

    [0025] FIG. 5 a fourth inventive embodiment having a chain for forced tracking.

    DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

    [0026] FIG. 1 shows a pipe milling machine of the prior art having two chains 4, which are placed around a pipe 3 which is to be milled. The chains 4 serve as support of the pipe milling machine and for generating a feed force, by which the pipe milling machine can rotate automatically around the pipe 3. A milling tool/milling wheel 2 is used for cutting through the pipe wall of the pipe 3. After one complete rotation around the pipe 3 separation of the pipe 3 is achieved. In the prior art a guiding force 4 is transferred into the chain 4 and/or the band in a location, which is not in contact with the pipe 3 to be processed. The guiding force is transferred into the chain 4 by chainwheels 20, 21 into the chain 4. The chainwheels 20, 21 are “hanging in the air.” Thereby the risk, that a slanted position results, is increased. A correct directional stability cannot be ensured in this way. Unclean, not straight cuts of the pipe 3 may result.

    [0027] FIG. 2 shows a first inventive embodiment of a pipe milling machine. The pipe milling machine is mounted by means of tensioning chains 4 onto the pipe 3, which is to be processed. The tensioning chains 4 may alternatively be formed as bands. The pipe milling machine is characterized by a special routing of the tensioning chains 4. The tensioning chains 4 are redirected within the pipe milling machine. Thereby can be ensured, that the chainwheels 5, 6 applying force are contacting the pipe 3. High static friction between the pipe milling machine and the pipe 3 can thereby be achieved. A stable position and clamping of the pipe milling machine results, by which clean, straight cuts of the pipe 3 are ensured. A precise guiding of the pipe milling machine is ensured.

    [0028] Because of the optimal clamping of the pipe milling machine, even bumps cannot impair the directional stability of the pipe milling machine. An optimal clamping of the chain 4 on the pipe 3 can be achieved by the tensioning unit 7. The tensioning unit 7 may be formed as a further chainwheel, which leads by means of a translational shift to a tensioning of the corresponding chain 4. Preferably two chains 4 are used, in order to achieve a stable mounting of the pipe milling machine. In an alternative embodiment only one chain or 3, 4 or any number of chain may be used.

    [0029] FIG. 3 shows a second inventive embodiment of a pipe milling machine having a cantilever arm/guide slide 9. The pipe milling machine is tensioned to the pipe 3 by tensioning chains/tensioning bands 4. On the guide slide 9 chainwheels 8 are arranged, which engage in the tensioning chain/tensioning bands 4. The guide slide 9 can be arranged in a manner reaching so far out, that a chainwheel/gear/wheel 8 of the guide slide 9 exerts a force on the pipe 3. This ensures high friction between the chainwheel 8 and/or the band 4 onto the pipe 3. The high static friction leads to an exact directional stability of the pipe milling machine. The chainwheels 8 generate a feed force, by which a movement of the pipe milling machine around the pipe 3 is achieved. In an alternative embodiment the pipe milling machine can be equipped with only one tensioning chain or with three, four, five, six or any number of tensioning chains. By means of a long form of the guide slide 9 a greater lever can be generated, so that even with low force exerted by the chainwheels 8 exact directional stability can be achieved.

    [0030] FIG. 4 shows another alternative embodiment having tensioning bands 10, which can be used for exact guiding of the pipe milling machine. Wheels or rollers 12 in combination with tensioning bands 10 ensure the exact guiding of the pipe milling machine. The tensioning bands 10 in this case act like rails or guides for the wheels of a train. This makes the pipe milling machine have forced tracking. The tensioning bands 10 may in particular be arranged on the inside of the wheels/rollers 12 (with respect to the center of the pipe milling machine). The tensioning bands 10 may be mounted by means of a tension buckle 11 on the pipe 3, which is to be processed. This enables a fast mounting of the tensioning bands 10 on the pipe 3. A requirement for straight, clean separation of the pipe 3 is the exact positioning of the tensioning bands 10. In particular by means of a laser, the positioning of the tensioning bands 10 can be checked and corrected if necessary. The tensioning bands 10 may in particular be made of steel. The bands 10 may form a groove for the rollers 12 or the bands 10 form an edge along each of which a roller 12 may run. Any possibility of movement along the longitudinal axis of the pipe may thus be eliminated or at least reduced.

    [0031] FIG. 5 a further alternative embodiment having roller chains/guiding chains 13, 14 for guiding the pipe milling machine. The guiding chains 13, 14 are tensioned around the circumference of the pipe 3, which is to be processed. The additional guiding chains 13, 14 serve for exact guiding of the pipe milling machine. In particular two guiding chains 13, 14 may be arranged, which are spaced apart from one another by a spacer, in particular a sheet metal spacer 15. By double application of guiding chains 13, 14 a very high stiffness can be achieved. In addition, static friction with the pipe 3 is increased. Thus a clean, straight tracking of the pipe milling machine and with it clean, straight, level cuts can be ensured. The guiding chains 13, 14 may each be held in place on the pipe 3 by tensioning elements 18. Advantageously the tensioning elements 18 are formed such, that the pipe milling machine 18 may run or be guided over by the tensioning elements 18. The guiding chains 13, 14 may be arranged laterally next to the pipe milling machine. In an alternative embodiment only one guiding chain is used.

    [0032] It should be noted that the term “comprising” does not exclude further elements or process steps, as the term “one” and “a” does not exclude several elements and steps.

    [0033] The reference numerals used are merely for the purpose of increasing the intelligibility and should in no way be considered as limiting, the scope of the invention being reproduced by the claims.

    [0034] While this invention has been described with reference to illustrative embodiments, this description is not intended to be construed in a limiting sense. Various modifications and combinations of the illustrative embodiments, as well as other embodiments of the invention, will be apparent to persons skilled in the art upon reference to the description. It is therefore intended that the appended claims encompass any such modifications or embodiments.

    LIST OF REFERENCE NUMERALS

    [0035] 1 electric motor [0036] 2 cut-off wheel/milling wheel [0037] 3 pipe [0038] 4 roller chain/tensioning chain/chain [0039] 5 gear/chainwheel [0040] 6 gear/chainwheel [0041] 7 tensioning unit [0042] 8 gear/gear/chainwheel [0043] 9 cantilever arm/guide slide [0044] 10 tension band [0045] 11 tension buckle [0046] 12 wheel/roller [0047] 13 roller chain/guiding chain [0048] 14 roller chain/guiding chain [0049] 15 spacer/sheet metal spacer [0050] 16 tension band [0051] 17 chainwheel [0052] 18 tensioning element [0053] 19 chainwheel