This application is a national stage entry under 35 U.S.C. § 371 of PCT Application No. PCT/NL2013/050513, filed Jul. 8, 2013, which claims the benefit of NL Application No. 2009141, filed Jul. 6, 2012 and NL Application No. 2009340, filed Aug. 22, 2012. The entire content of each of PCT Application No. PCT/NL2013/050513, NL Application No. 2009141 and NL Application No. 2009340 are incorporated herein by reference.
The invention relates to a tool for shaping a material, in particular for bending plate material, comprising a mounting part configured to be at least partially received in a receiving space of an apparatus and a shaping part extending from the mounting part. Such a tool is known, for instance from the earlier European patent 1 864 752 of applicant.
In this older patent two variants of the known bending tool are shown, an upper tool and a lower tool. The known upper tool comprises an upward directed mounting part configured for clamped suspension in an upper beam of a bending apparatus, such as a press brake. The upper tool further has a downward directed shaping part in the form of a bending edge. The known lower tool has a downward directed mounting part configured for placing and, if desired, clamping in a lower beam of the apparatus. In addition, it has an upward directed shaping part which co-acts with the downward directed shaping part of the upper tool. This shaping part takes the form of a groove into which the bending edge can be pressed. The positions of the upper tool and lower tool can otherwise also be switched so that the bending edge is pressed into the groove from the underside.
The tool as described in this older patent is used mainly to shape relatively thin plate material with a maximum plate thickness of 10 mm. The tool can then also take a relatively small and light form and can be handled by a user without a great deal of effort. When a tool has to be replaced, the user can place the tool in or remove it from the apparatus manually.
Larger and heavier tools are however required for shaping greater plate thicknesses. Tools suitable for bending plate thicknesses of for instance 20 mm thus weigh in the order of 200 kg per meter of length. Although considerably shorter tools are often applied, weights of between 50 and 100 kg are then still no exception. Such tools can no longer be handled properly by a user. Different systems have therefore already been proposed for placing heavy tools in or removing them from an apparatus.
The Japanese patent publication 57199523 thus describes an upper beam for attaching in an apparatus a tool in which is formed a receiving space of cross-shaped cross-section. The receiving space is formed by a vertically running main space and two side spaces on either side of the main space. In this older system the tool is mounted on a slide with a vertical part extending in the main space and two horizontally protruding parts extending in the side spaces. Arranged in the bottoms of the two side spaces are rollers over which the horizontal parts of the slide can travel. A slide with a tool mounted thereon can in this way be carried from the side into the upper beam.
In another known system which is described in the U.S. Pat. No. 5,146,774 a lower beam of an apparatus is provided with rollers in the bottom of the receiving space for the tool. These rollers can be moved upward until they protrude above the bottom surface, following which a tool can be moved thereover.
The known constructions have the drawback that they are relatively large and complicated. The beam is moreover weakened at the position of the recesses in which the rollers have to be bearing-mounted, this entailing the risk of local deformation of the clamping beams. This could in turn result in a non-uniform shaping of the material.
The invention therefore has for its object to provide a solution for the problems outlined above. This is achieved according to the invention by providing a tool of the above described type with means for displacing the mounting part in longitudinal direction through the receiving space. The longitudinal direction is understood here to mean the direction parallel to the bending edge and groove of the tools. Using such displacing means the tool can be placed at a desired position in the apparatus or taken out of the apparatus with little effort. The tool can thus also be placed in or removed from a storage area in simple manner. Because the displacing means form part of the tool itself, no modifications of the apparatus or the storage area are necessary for this purpose.
The displacing means preferably comprise at least one member protruding from the tool. Such a displacing member can support on a surface of the apparatus and move thereover.
When the at least one displacing member protrudes from the mounting part, it can move along a surface in the receiving space.
In an embodiment of the tool the mounting part has two side surfaces and the at least one displacing member protrudes outside at least one of the side surfaces.
At least one displacing member then preferably protrudes outside each side surface. A stable movement of the tool is thus ensured. An upper tool can be as it were suspended here from the displacing members during its movement through the receiving space in the upper beam. A structurally simple embodiment is achieved in this case when the tool is provided with a single displacing member running through the mounting part.
The at least one displacing member is preferably retractable into the mounting part. The displacing member can thus simultaneously serve as safety catch which prevents the tool falling out of the apparatus when the clamping is released. The tool can be provided here with an operating member, for instance a pushbutton, which is connected to the at least one displacing member and with which the displacing member is retracted. Biasing means, for instance in the form of a spring, can ensure that the displacing member is always urged toward its protruded position.
It is on the other hand also readily possible to envisage the mounting part having an end surface where the at least one displacing member protrudes. A lower tool can thus be moved through the receiving space in the lower beam while resting on its displacing member. In the case of an upper tool, it can be suspended from its displacing members when the displacing member additionally protrudes outside the side surfaces of the tool. This can for instance be envisaged in the case of so-called American style tooling.
In this case the at least one displacing member can be movable in the shaping direction relative to the tool. The displacing member can thus as desired be brought into contact with a wall part of the receiving space so as to be displaced therealong or, conversely, be held clear of the wall part when the tool has reached a desired position and is there clamped.
It is also possible to envisage the at least one displacing member protruding from the shaping part. The displacing member can then be moved along an outer surface of the apparatus, while its dimensions are in this case not limited by the dimensions of the receiving space in the apparatus. The displacing member can hereby take a more robust form.
In a preferred embodiment the tool according to the invention is provided with at least one displacing member protruding from the mounting part and at least one displacing member protruding from the shaping part. This combination provides for smooth running with little friction.
For a stable support thereof, the tool preferably has a number of protruding displacing members distributed in longitudinal direction of the tool.
In order to minimize the resistance during the movement of the tool, the at least one displacing member can be mounted rotatably in the tool. The displacing member can thus be embodied as roller or wheel.
The at least one displacing member can thus comprise a rod received in a bore in the tool via an external bearing. This is a compact and structurally simple solution which is particularly suitable for an upper tool.
It is on the other hand also possible to envisage the at least one displacing member comprising a roller arranged rotatably on a shaft via an internal bearing.
The at least one displacing member is preferably rotatable here about an axis extending in transverse direction of the tool and transversely of the shaping direction of the tool. The displacing member(s) can thus roll in longitudinal direction through the receiving space while rotating about a lying axis.
It is on the other hand also possible to envisage the at least one displacing member being rotatable about an axis extending in the shaping direction of the tool, thus a standing axis. The displacing member(s) can then roll along a vertical wall part of the receiving space.
A very good guiding of the movement of the tool along mutually perpendicular wall parts of the receiving space is achieved when the tool is provided with at least two displacing members, one of which is rotatable about an axis extending in transverse direction of the tool and transversely of the shaping direction of the tool and another of which is rotatable about an axis extending in the shaping direction of the tool.
The invention further relates to a combination of an apparatus and a tool as described above, wherein the apparatus has a receiving space in which the mounting part of the tool is received. The invention has for its object to provide such a combination in which the tool can be moved in simple manner. This is achieved according to the invention in that the receiving space comprises a wall part on which the displacing means engage.
In order to prevent the displacing means being loaded when the tool is clamped, it is recommended that the apparatus and the tool are configured to hold the displacing means clear of the wall part during shaping.
The wall part and the displacing means can for this purpose be movable relative to each other between a rest position, in which they lie spaced apart, and an operative position in which the displacing means engage on the wall part.
The displacing means are then preferably received in stationary manner in the tool and the wall part is movable in the apparatus between the rest position and the operative position. The tool, which is small and requires a small investment compared to the apparatus, can thus take a relatively simple form.
A drive can be provided for the purpose of moving the wall part between the rest position and the operative position. This movement can thus be effected quickly and effortlessly. The drive can be of pneumatic, hydraulic or mechanical nature.
Finally, the invention relates to a method for positioning in an apparatus a tool comprising a mounting part and a shaping part extending from the mounting part by at least partially receiving the mounting part in a receiving space of the apparatus and moving the tool in longitudinal direction to a desired position. Such a method is known—in any case implicitly—from some of the above stated documents.
The method according to the invention is distinguished from the known methods in that, before being received, the tool is provided with displacing means and the mounting part is moved in longitudinal direction through the receiving space by means of the displacing means.
Preferably applied variants of the method according to the invention are described in the dependent claims.
The invention will now be elucidated on the basis of a number of embodiments, wherein reference is made to the accompanying drawing in which corresponding components are designated with reference numerals increased in each case by 100, and in which:
In an apparatus (not shown here) for shaping a material, in particular for bending plate material, use is made of an upper tool 1 (
Upper tool 1 comprises a mounting part 5 configured to be received in a receiving space 6 of upper beam. 3 (
In the shown embodiment lower tool 2 comprises two mounting parts 11 configured to be received in a receiving space 12 in lower beam 4 of the apparatus (
The apparatus and tools 1, 2 are particularly intended for the purpose of shaping relatively thick metal plate with a material thickness in the order of 10 mm or more. This results in tools 1, 2 taking a relatively large and heavy form. Tools which are suitable for bending such thick metal plates often weigh in the order of 200 kg per running meter. These bending tools are generally supplied in different length sizes for the purpose of shaping materials with varying dimensions. A plurality of tools can for instance be placed adjacently of each other here in the press brake. However, even relatively short tools of for instance 50 cm already have a weight of about 100 kg and cannot therefore be handled by a user without auxiliary means.
The invention therefore provides displacing means with which tools 1, 2 can be displaced in the respective receiving spaces 6, 12. The displacement is envisaged here in the longitudinal direction of receiving spaces 6, 12, so parallel to the bending edge 8 and groove 14 of tools 1, 2. In the shown embodiment the displacing means comprise displacing members 18, 32 protruding from the mounting part 5, 11 of the associated upper or lower tool 1, 2. In the shown embodiment these displacing members 18, 32 are each mounted rotatably in the corresponding mounting part 5, 11 and thus form rollers or wheels which engage on a wall part 45, 37 in the associated receiving space 6, 12.
Displacing members 18 of upper tool 1 are formed here by the outer ends of a rod 24 which is received in a through-bore 22 in mounting part 5 (
In the shown embodiment upper tool 1 is provided with two sets of displacing members 18 arranged close to the outer ends (
As stated, displacing members 18 protrude outside side walls 46 of mounting part 5 of upper tool 1, between shoulders 9 and recesses 20 to be discussed below. In order to accommodate these displacing members 18 the receiving space 6 is provided with two side chambers 19, likewise extending over the length of upper beam 3. When tool 1 has to be displaced in upper beam 3, displacing members 18 move over bottoms 45 of side chambers 19 on either side of main recess 6. The height of side chambers 19 is greater than the diameter of displacing members 18, while the depth of side chambers 19 is greater than the distance the displacing members 18 protrude from side walls 46 of mounting part 5. There is thus sufficient space to hold displacing members 18 clear of bottom 45 when tool 1 is used to perform a bending operation. This prevents displacing members 18, which are relatively vulnerable, being loaded during this operation.
When tool 1 has been moved to a desired position in longitudinal direction of upper beam 3, tool 1 is fixed in the upper beam. Use is made for this purpose of a per se known clamping mechanism arranged in upper beam 3. Mounting part 5 of tool 1 is provided on either side with a recess 20 with inclining surfaces into which a clamping member 21 of the apparatus engages. When clamping member 21 protrudes into recess 20 in one of the side walls 46, it presses mounting part 5 obliquely upward in receiving space 6 (
As noted, lower tool 2 has two mounting parts 11 arranged spaced apart in longitudinal direction. In the shown embodiment the mounting parts 11 are connected releasably to shaping part 13 by means of bolts 30 running through holes 31. Each mounting part 11 is provided here with two displacing members 32 which are likewise arranged spaced apart in longitudinal direction. Each displacing member 32 takes the form of a roller arranged rotatably on a shaft 34 via a bearing 33. Displacing members 32 are received in recesses 35 in mounting part 11 and each protrude to some extent below the bottom surface 36 thereof.
When tool 2 has to be displaced in lower beam 4, displacing members 32 move over the bottom 37 of recess 12. In order to prevent displacing members 32 being loaded when lower tool 2 is clamped in lower beam 4 and is used to deform plate material, bottom 37 of recess 12 is movable such that it comes to lie clear of displacing members 32.
In the shown embodiment the movable bottom 37 rests via a coupling part 38 on a sealing strip 39 functioning as piston. This sealing strip 39 is accommodated movably in an opening 40 in the upper side of an elongate pneumatic reservoir 41 which is arranged in a recess 42 in lower beam 4. The movement of sealing strip 39 is bounded by the dimensions of another recess 44 in lower beam 4. Activation of a pneumatic system enables pressure to be applied to reservoir 41, whereby sealing strip 39 is urged upward and bottom 37 is moved upward until it comes into engagement with displacing members 32 (
The above described upper tool 1 is of the type known as a “Wila style” tool, the protruding mounting part 5 of which has a specific form which ensures that the tool can be positioned and clamped quickly and easily. The invention can however also be applied in other types of tool.
In a variant of this “American style” upper tool 901 a rod 979 protrudes from an end surface 977 of mounting part 905 (
In yet another embodiment of upper tool 301 according to the invention the mounting part 305 is provided with two types of displacing member 318A, 318B protruding on mutually opposite sides from side walls 346 (
The two displacing members 318A are arranged here between groove 320 and the “shoulder” 309 of tool 301, while the single displacing member 318B is placed close to end surface 377 of mounting part 305. In this embodiment of upper tool 301, which is referred to as “head-supporting”, the “shoulders” 309 do not engage with lower surfaces 310 of upper beam 303 during the clamping. Tool 301 instead supports in the clamped situation with its end surface 377 against an upper surface 378 of receiving space 306. Displacing members 318A are once again received in two through-bores 332 and mounting part 305, while the single displacing member 318B is received in an elongate recess 350 in mounting part 305. This displacing member 318B is rotatable around a shaft stub 351 placed in a bore 352 in the end surface of mounting part 305.
The two displacing members 318A rotatable about horizontal axes A are again intended to roll over bottom 345 of a side chamber 319 of receiving space 306. Displacing member 318B rotatable about vertical axis B is on the other hand intended to roll along a side wall 353 of receiving space 306 (
This variant, wherein two different types of displacing member are combined, could also be readily applied in tools with other types of clamping, such as for instance the “European style” upper tool 201 as shown in
In yet another variant of this embodiment shown in
Guide member 457 has a narrow shank which protrudes through an opening 462 and a widened head which cannot pass through this opening and functions as stop. This widened head is slidable in a bore 459 lying opposite recess 455. Slide 454 with displacing member 418A is biased to its protruding position by means of a biasing member 460 received in a chamber 461.
Pressing operating member 458 (
Displacing member 418A thus functions simultaneously as safety catch which prevents tool 401 from unintentionally falling out of the apparatus when the clamping is released. In order to remove tool 401 from recess 406 the operating member 458 has to be pressed once again, whereby the associated displacing member 418A is retracted again into mounting part 405.
It has been stated above that for displacement of the lower tool in the lower beam use can be made of displacing members protruding from the end surface of the mounting parts and rolling over a bottom of a recess in the lower beam. So as not to load these displacing members when the lower tool is used for the purpose of shaping plate material, these members must come to lie clear of the bottom of the recess following the displacement. According to an alternative embodiment of lower tool 502, the mounting parts 511 in which displacing members 532 are mounted are for this purpose movable in the shaping direction relative to the rest of lower tool 502 (
Mounting part 511 is slidable in the shaping direction in groove 516 on the underside of lower tool 502. Formed in shaping part 513 of tool 502 is a bore 563 which extends from the bottom 564 of V-shaped groove 514 to groove 516. Received in this bore 563 is a control pin 530 with a head 565 on which a tool, for instance a socket wrench or a screwdriver, can engage and which has a narrowed threaded end 566. This threaded end 566 protrudes into hole 531 in mounting part 511 which is provided with internal screw thread. Mounting part 511 and shaping part 513 are further also provided with blind bores 568, 569 which lie mutually in line and in which a guide pin 567 is received.
By rotating the control pin 530 the mounting part 511 is pressed further out of groove 516 relative to shaping part 513 or, conversely, retracted therein again. Displacing members 532 can hereby as desired be brought into engagement with the bottom of the recess of the lower clamping beam (not shown here) or, conversely, be held clear thereof again.
Because it is not always readily possible in practice, and moreover unsafe, to perform operations with a screwdriver or socket wrench in a hole in the bottom 564 of V-shaped groove 514, an alternative embodiment of lower tool 602 is provided with an operating mechanism which is accessible from the side of the tool (
In this embodiment two stepped bores 668 are formed in each mounting part 611 which lie in line with blind bores 669 in shaping part 613 of lower tool 602. Arranged in these bores are guide pins 667 which are screwed with their threaded ends into bores 669. These guide pins 667 have a thickened head which is movable through the widened part of bore 668 and which encloses a biasing member 672, for instance a helical spring. A bore 663 in which a control pin 630 is slidably received is further formed in shaping part 613 between bores 669. An outer end of this control pin 630 engages on the upper side of mounting part 611 while the other outer end is in engagement with a narrowed and eccentric middle part 671 of a horizontal operating rod 673.
This rod 673 is received in a bore 670 extending from the one side to the other of lower tool 602 and provided on either side with a head 665 on which a tool such as a socket wrench or screwdriver can engage. Rotation of operating rod 673 displaces the narrowed and eccentric middle part 671 in bore 670, whereby pin 630 is pressed out of lower tool 602 or, conversely, space is created to retract this pin 630 into the lower tool. This retracting movement takes place under the influence of biasing members 672 as soon as operating rod 673 is rotated so far that space is created for pin 630 to move upward in bore 663. Displacing members 632 are in this way once again brought into contact with the bottom of the recess in the lower beam or held clear thereof as desired.
A pneumatic or a hydraulic operation could of course also be envisaged instead of the mechanical operation shown and described here for extending and retracting the displacing members.
Although in the embodiments of the upper tool shown up to this point the displacing members have been bearing-mounted in the mounting part, this is not essential. In an alternative embodiment of upper tool 701 the mounting part 705 can thus be provided with one or more protruding displacing members 718A, while one or more displacing members 718B are additionally arranged on shaping part 707 of tool 701 (
Where displacing members 718A, which are bearing-mounted in mounting part 705, once again engage in side chambers 719 of receiving space 706 of upper beam 703 of the apparatus, displacing members 718B engage on support surface 710 on the underside of upper beam 703. As in previous embodiments, these outer displacing members 718B, which can take a considerably larger form than the internal displacing members 718A, serve to compensate the moment occurring as a result of the eccentric location of the centre of gravity of tool 701. The external displacing members 718B are thus arranged for this purpose on the other side of tool 701, opposite the internal displacing members 718A, which in fact define rotation points when tool 701 is placed in receiving space 706 of upper beam 703. Each external displacing member 718B comprises a relatively large roller 774 which is rotatable about a strong shaft 775.
The external displacing member 818B can also be received in a protruding part 876 of upper tool 801. This member is hereby better protected from ambient influences, whereby a smooth running with little friction is guaranteed under any conditions.
A similar solution could also be used in a lower tool, where one or more displacing members could be arranged in the shoulder(s) adjacently of the protruding mounting part, or even on the sides of the tool.
The invention thus makes it possible with relatively simple means to clamp large and heavy tools, which are used to shape relatively thick metal plate, at a desired position in an apparatus or to remove them therefrom.
Although the invention has been elucidated above on the basis of different embodiments, it will be apparent that it is not limited thereto. Depending on the dimensions and the weight of the tool, a greater or smaller number of displacing members could thus be applied than shown and described here. It is further possible to envisage use being made, instead of rolling displacing members, of displacing members which slide through or along the upper and lower beam. The displacing members and/or the receiving spaces and/or the outer surfaces of the upper and lower beam would have to be covered for this purpose with a material with exceptionally low sliding resistance, such as for instance PTFE.
The scope of the invention is therefore defined solely by the following claims.
Number | Date | Country | Kind |
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2009141 | Jul 2012 | NL | national |
2009340 | Aug 2012 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NL2013/050513 | 7/8/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/007640 | 1/9/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5146774 | Smith | Sep 1992 | A |
5174015 | Okamoto | Dec 1992 | A |
5245854 | Bruggink et al. | Sep 1993 | A |
6467327 | Runk | Oct 2002 | B1 |
7168286 | Pelech | Jan 2007 | B1 |
7634935 | Mazzocchi | Dec 2009 | B2 |
8141408 | McCauley | Mar 2012 | B2 |
20050132772 | Harrington et al. | Jun 2005 | A1 |
Number | Date | Country |
---|---|---|
1529571 | May 2005 | EP |
1762310 | Mar 2007 | EP |
53132457 | Nov 1978 | JP |
57199523 | Dec 1982 | JP |
0491833 | Mar 1992 | JP |
04294822 | Oct 1992 | JP |
2002134973 | May 2002 | JP |
Entry |
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Office Action, and translation thereof, from counterpart Japanese Application No. 2015-520097, dated Jan. 31, 2017, 11 pp. |
International Preliminary Report on Patentability for corresponding PCT Application No. PCT/NL2013/050513, dated Jan. 6, 2015 (6 pgs.). |
International Search Report for corresponding PCT Application No. PCT/NL2013/050513, dated Oct. 17, 2013 (4 pgs.). |
Written Opinion for corresponding PCT Application No. PCT/NL2013/050513, dated Oct. 17, 2013 (5 pgs.). |
Written Argument, and translation thereof, from counterpart Japanese Patent Application No. 2015/520097, filed on Jul. 28, 2017, 14 pp. |
Decision of Refusal, and translation thereof, from counterpart Japanese Patent Application No. 2015/520097, dated Nov. 17, 2017, 11 pp. |
Number | Date | Country | |
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20150165506 A1 | Jun 2015 | US |