法国专利FR3025128A1 MILLING INSTALLATION FOR ALUMINUM BRUSHES

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优先权

专利摘要:
The milling plant for aluminum slabs (30) comprises a milling station (3) for milling the aluminum slabs (30) and a transport device for transporting the aluminum slabs (30). It is characterized in that the transport device comprises one or more pallets (20) displaceable relative to the milling station (3), which are provided for receiving the aluminum slabs (30) to be milled and for transport of these through the milling station (3).
公开号:FR3025128A1
申请号:FR1501786
申请日:2015-08-27
公开日:2016-03-04
发明作者:Ulrich Riepling；Karl Dittrich
申请人:SMS Meer GmbH；
IPC主号:

专利说明:

[0001] TECHNICAL FIELD The invention relates to a milling installation for aluminum slabs comprising at least one milling station for milling the aluminum slabs and a transport device for transporting the aluminum slabs. through the milling station, as well as a method for milling such slabs.
[0002] BACKGROUND OF THE INVENTION Hot and cold rolling of aluminum slabs is known. For example, prior to rolling deformation, it is necessary to subject the aluminum slabs to a milling procedure, for example to remove mold crust and / or alloy inclusions. Milling installations here typically have a very high material removal capacity, for example 150 to 200 cc / kW / min. They perform high speed milling.
[0003] Usually, the aluminum slabs are moved on roller trains in the milling plants. Single-sided milling cutters that machine both sides of the slabs one after the other require slab roll-over between the two machining steps. The performance capacity of such installations are limited firstly by the sequential procedure, therefore the milling of both sides one after the other, and secondly by the interaction of the slabs with the roller trains. Concretely: because of the geometry of the slabs, they come to a stop during transport against the transport rollers. An increase in the transport speed therefore results in a high load on the rollers and bearings, and of course also on aluminum slabs. To avoid damage to them, we can not increase the speed in any way, among other things for this reason.
[0004] An object of the invention is to provide a milling installation 5 for aluminum slabs, and a method for milling such slabs, which allows milling with increased efficiency and / or better quality and / or lower loading of the milling system.
[0005] This object is achieved with a milling installation of the type indicated in the introduction, characterized in that the transport device comprises one or more pallets displaceable with respect to the milling station, which are intended for receiving the milling aluminum slabs. and for transporting them through the milling station, as well as with a method using this milling facility and characterized in that the aluminum slabs are clamped on one of the pallets prior to milling, and are transported by the pallet through the milling station. Advantageous developments of the invention result from the presentation of the invention as follows, as well as from the description of the preferred embodiments. The braking system according to the invention comprises at least one milling station for milling aluminum slabs, and a transport device for transporting aluminum slabs. Under the term "slab" is meant in the first line parallelepiped-shaped or block-shaped structures, but in fact in general all the geometries which allow milling and preferably successive rolling are included. In addition to the milling station, other stations can be provided, for example for measuring, for straightening, for quality control and / or for turning aluminum slabs. The transport device serves to transport the aluminum slabs through the various stations, which are preferably stationary. The transport device comprises one or more pallets displaceable with respect to the milling station, and where appropriate with respect to other stations. For this reason, the pallets are provided so that they can be moved in rolling or sliding. Their training can take place in a passive or active manner. Preferably, the pallets are driven in a passive manner, that is to say that the pallets do not themselves comprise any onboard drive, but that they are driven from the outside, for example by means of one or more rolls. In this regard, preferred embodiments will be described in the following more specifically. Nevertheless, the drive of the pallets can also take place actively, for example by means of an electric motor provided on each pallet, in addition to other means of transport. The pallets are provided for the reception of aluminum slabs. Preferably, a pallet carries a respective slab. Thus, before the milling station (seen in the direction of transport), the aluminum slabs are clamped on the pallets, fixed on them, immobilized or retained by the pallets in another way. Then, the pallets with the slabs clamped on themselves pass through the milling station, at which one or more surfaces of the aluminum slabs are milled, irrespective of other possible stations. The cutter can be made for example in the form of a block cutter with a large milling head and a high material removal capacity. The cutter may be equipped with means for sucking or otherwise removing the chips. Preferably, the milling station comprises a machine bed on which is provided, in a displaceable manner, a shuttle which receives the pallet concerned with the aluminum slabs clamped on it, and which attacks the pallet hydraulically. In this case, the shuttle 25 is preferably designed for high speed ranges. With the pallet concept presented above, it is possible to increase the capacity of the milling plant since it is possible to achieve exceptionally high transport speeds. If the milling cutter is designed as a one-sided milling cutter, processing capacities can be attained, which until now were only possible with a two-sided milling cutter. In addition, a high quality of the milled surfaces is obtained since the edges of the aluminum slabs are no longer damaged by marks left by the rollers. As a variant in combination, the potential for increasing processing capacities can also be exploited to reduce the power consumed by the installation.
[0006] The pallets preferably travel on rollers. The rollers can be rotatably mounted on the pallets and run on a transport path and / or it is possible to provide the rollers in the transport path, so that in this case the vanes are in contact with the running surfaces of the conveyors. rolls. In the latter case, the transport path is in some way in the form of a "roll train" and the rollers are not part of the pallets or are not fixed thereon. In comparison with a conventional roll train on which the slabs flow directly, i.e. without pallets, it is possible to arrange the rollers at much greater distances. On the whole, thanks to this, it is possible to work with much higher transport speeds and this effect can be further enhanced by optimizing the traffic lanes and / or the guidance systems.
[0007] Preferably, the milling installation comprises a turning station for rotating the aluminum slabs. The turning station is preferably equipped with a gripper which grips the slabs and rotates them. Preferably, the milling installation 20 further comprises other stations, for example a measuring station, provided before the milling station, and / or a station for straightening the slabs. In a particularly preferred manner, the milling plant is designed for simultaneous transport and / or simultaneous processing, and this means milling, turning, measuring, straightening, controlling, etc., of several slabs of aluminum. The aim is to be able to carry out in parallel various working operations in association or in the milling environment. Otherwise expressed: with a milling cutter with which it is not possible to machine simultaneously all the sides to be milled, when one seeks to machine the various sides of the slab one after the other, the slabs must be turned over, and if necessary also to measure them again and / or again to straighten them. These actions are here reported in a parallel cycle. As a result, the downtime is reduced, with the exception of the return path of strawberry transport. With such parallel treatments, milling times can be reduced, in spite of sequential milling, at times that could otherwise only be achieved with a two-sided milling cutter. In this regard, parallel processing here presented simulates a bilateral strawberry. Precisely for such systems with recirculation, the pallet concept shown here will be particularly suitable, since the pallets can on the one hand be moved with a very high speed, and this leads to a shortening of the return times, and that pallets also ensure a gentle transport. When the pallets can be driven individually, that is to say that their speeds can be regulated individually, at least 10 sections per section, it is also possible to elegantly compensate for differences in performance of various stations by means of transport system. For this purpose, it is possible to provide alternatively or additionally one or more delivery stations and / or buffer stations in the transport path, which receive and make a temporary storage of one or more pallets. Preferably, the milling station is preceded by a transfer station and it can be located before the measuring station or be integrated therein. Preferably, the pallets comprise conical supports on which the aluminum slabs are to be clamped. The clamping takes place for example in a centered situation, in order to ensure a reliable transport. Preferably, each pallet comprises an autonomous system for obtaining the clamping force, whereby a reliable fixation is achieved during transport through the various stations of the milling plant. Particularly preferably, the pallets are equipped with an identification system for the automatic tracking of the pallets in the installation. The identification systems may respectively include a memory for storing various information, for example material properties, dimensions, and other properties that relate to the tight slabs. The identification system can for example be read by the stations of the installation and / or by a central control. Thus, it is possible to follow up and if necessary also to an individual order of the pallets in the installation.
[0008] When a plant for machining aluminum slabs is equipped with both a milling plant and a rolling plant for rolling the milled aluminum slabs by means of the milling plant. , rolling is performed after milling. The pallet concept presented here is particularly suitable for such rolling mills with preliminary milling.
[0009] Although the present invention may be particularly preferably used in the technical field of rolling aluminum slab machining, the invention may optionally be imported into other sectors. In addition, other advantages and features of the present invention will become apparent from the following description of preferred embodiments. The features described therein may be used alone or in combination with one or more of the features mentioned above, provided that these characteristics do not contradict each other. The following description of the preferred embodiments will be made with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE FIGURES FIG. 1 schematically shows a milling installation with several stations; and Figure 2 shows schematically a pallet with the aluminum slabs clamped on itself.
[0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following, preferred embodiments will be described with reference to the figures. In these, identical, similar or like-effect elements are provided with the same reference numerals in the various figures and the description of these elements will be partially omitted to avoid redundancies. FIG. 1 schematically shows a milling installation with a receiving station 1, a measuring station 2, a milling station 3, a station 4 and a turning station 5. The 3025128 7 stations 1, 2, 3 , 4, 5 are located along a recirculating transport path, which is equipped with corresponding transport means, here rollers 10, for transporting pallets 20. It is apparent from Figure 1 that several pallets 20 can simultaneously in recirculation, so that it is possible to proceed to a parallel treatment slabs (not shown in Figure 1) carried by the pallets 20. A slab 30 is shown by way of example in Figure 2, the latter schematically and in three dimensions a pallet 20 with a slab 30 clamped thereon.
[0011] At the level of the receiving station 1, on the one hand, the slabs 30 are delivered, for example by means of a crane or a forklift truck, not shown here. On the other hand, an empty pallet 20 is brought to the receiving station 1 and put into recirculation. The slabs 30 are centered in the middle and are lifted by a transport system not shown and deposited on the pallet 20. A transverse transport brings the pallet 20 to the measuring station 2. It is possible to possibly provide delivery stations, which are not designated in a special way, in front of or following the individual stations 1, 2, 3, 4, 5, these stations being able for example to take back one or more pallets 20 and to make a buffer storage, and then the return to the next machining operation. Preferably, a reset station is disposed before the milling station 3, and this delivery station can also be located before the measuring station 2 or even be integrated therewith. It is also possible to integrate the station and the machining station for other operations (quality control, straightening, etc.).
[0012] In measuring station 2 slabs 30 are measured. For example, the surface structure of slabs 30 is measured and in particular the deepest point in the surface is determined, after which the amount of slab is determined. material that will need to be removed by milling.
[0013] After a short transport, the milling station 3 follows the measuring station 2. This milling station may comprise a block cutter with a shuttle. The block cutter includes a large milling head with high material removal performance, as well as means for removing (eg sucking) chips. On the machine base of the milling station 3, designated in FIG. 1 by the reference numeral 6, moves a shuttle 7 which receives the pallet 20 and which clamps it hydraulically. The shuttle 7 is designed for a high speed range.
[0014] As a result of the milling station 3 it is also possible to find again a delivery station (as described above). Such a delivery station after the milling station 3 receives the pallet 20 with the milled slab 30 and makes it possible to control the milled surface (s) by an operator or by an automatic quality control system. In the case of a release by the system, it is proceeded either to a continuation of the transport for the milling of a second side (following) or to a repetition of the milling of the first side, or still the slab 30 is addressed to the station discount 4.
[0015] FIG. 1 shows by way of example a transverse transport of the pallet 20 to the refitting station 4. At the refueling station 4, the finished milled slab 30 is raised from the pallet 20 and, if necessary providing another transport system for transfer to a slab storage, rolling plant, or other system. In this case, the empty pallet 20 is removed from the recirculation and will be made available again to the receiving station 1 at a later time. In fact it is also conceivable that the further processing of the slabs 30, after the milling operation is completed, that is to say the treatment following a delivery by the discount station 4, also takes place at medium of the pallet transport system presented here. In other words, the rolling plant, the slab storage and / or other systems, which are arranged after the braking installation or before it, can also carry a slab transport. 30 In this case, it is not necessary that a gathering or separation of the slabs with the pallets 20 occurs at the receiving station 1 and the station. 4. On the contrary, the receiving station 1 and the transfer station 4 serve in this case to the entry and exit of the pallets 20 with the slabs 30 in the milling installation and out of it.
[0016] If the slab 30 remains in recirculation after milling, for example to re-mill a surface that has not been sufficiently milled, or to mill the second side (usually another side), the pallet corresponding therethrough 20 then passes through the turning station 5. The turning station 5 returns the slab 30 if necessary by means of a slab turning pliers. For this purpose, the turning station 5 is equipped, if necessary, with an actuating device for the pallet clamping system 20.
[0017] Following the turning station 5 the pallet 20 with the slab 30 clamped thereon is brought to a new machining operation. The milling installation shown here is distinguished among other things by the fact that the transport system is designed as a recirculating system. The slabs 30 are moved on pallets 20. Thanks to this, in addition to the actual milling, it is possible to carry out "in time masked" complementary operations, for example straightening, measuring, quality control, etc. ., that is to say, in a parallel manner. In this way, performance can be achieved which would otherwise be achievable only with a bilateral bur. A detail view of a pallet 20 with a slab 30 clamped thereon is shown in Figure 2. The slab 30 rests on supports 24, which are preferably made in conical form. Fastening of the slab 30 takes place by means of clamping devices 23. In addition, the pallet 20 has moving surfaces 20 which serve to guide and transport the pallets 20 perfectly along the transport path. In addition, it is possible to provide means 21 for receiving pallets 35 into the system, for stabilization, for assisting in training, for holding pallets 20, or the like.
[0018] The pallet 20 provides clamping of the slab 30 preferably in a central position. The pallet 20 is equipped, if necessary, with an autonomous device for applying pressure to obtain the clamping force, in order to be able to hold the slab 30 always in a safe and reliable manner. This device can be controlled externally at the receiving station 1, the delivery station 4, as well as the turning station 5. Preferably, each pallet 20 is equipped with an identification code, which is managed in the material tracking system.
[0019] Thus, it is possible to track material and slab data 30. All of the individual features that have been illustrated in the embodiments may, to the extent possible, be combined and / or interchanged, without departing from scope of the invention.

权利要求:
Claims (12)
[0001]
REVENDICATIONS1. Milling installation for aluminum slabs (30) comprising at least one milling station (3) for milling the aluminum slabs (30) and a transport device for conveying the slabs of aluminum (30), characterized in that the transport device comprises one or more pallets (20) displaceable relative to the milling station (3), which are provided for receiving the aluminum slabs (30) to be milled and for transporting them to through the milling station (3).
[0002]
2. milling installation according to claim 1, characterized in that the pallets (20) move on rollers (10). 15
[0003]
Milling installation according to claim 2, characterized in that the transport device comprises a transport path which is equipped with the rollers (10) and, during transport through the transport path, the pallets (20) are in position. contact with moving surfaces of the rollers (10), and the driving of the pallets (20) takes place via one or more of the rollers (20).
[0004]
4. milling installation according to one of the preceding claims, characterized in that it comprises a turning station 25 (5) for rotating the aluminum slabs (30).
[0005]
5. milling installation according to one of the preceding claims, characterized in that it comprises a measuring station (2), which is provided before the milling station (3). 30
[0006]
6. milling installation according to one of the preceding claims, characterized in that the transport device is designed for the simultaneous transport and / or parallel of several aluminum slabs (30). 35 3025128 13
[0007]
Milling installation according to one of the preceding claims, characterized in that it is designed as a recirculating system for parallel processing of several slabs (30) and for multiple processing, preferably for multiple milling, 5 of a slab (30).
[0008]
Milling installation according to one of the preceding claims, characterized in that one or more of the vanes (20) comprise (s) conical supports (24) on which the aluminum slabs (30) 10 must be clamped. .
[0009]
Milling installation according to one of the preceding claims, characterized in that one or more of the pallets (20) is / are equipped with identification means for the automatic tracking of the pallets (20) in installation.
[0010]
10. milling installation according to one of the preceding claims, characterized in that one or more of the pallets (20) comprises (s) an autonomous system to obtain the clamping force.
[0011]
11. Installation for the treatment of aluminum slabs (30) characterized in that it comprises a milling installation according to one of the preceding claims, and a rolling installation for rolling aluminum slabs (30). milled with the milling installation.
[0012]
12. Method for milling an aluminum slab (30) by means of a milling installation according to one of claims 1 to 10, characterized in that the aluminum slabs (30) are clamped on one of the pallets (20) before milling, and are transported by the pallet (20) through the milling station (3).

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3245144A|1959-03-10|1966-04-12|Hughes Aircraft Co|Tool changer production line|

US4309600A|1967-12-15|1982-01-05|Cincinnati Milacron Inc.|Machine tool|

US3530571A|1967-12-15|1970-09-29|Cincinnati Milacron Inc|Manufacturing system|

US3543392A|1967-12-15|1970-12-01|Cincinnati Milacron Inc|Machine tools having conveyor means extending therebetween and carrying pallet means which are selectively connectable to the machine tools|

JPS5142280B2|1972-08-01|1976-11-15|

DE2342390C3|1973-08-20|1978-11-23|Werner Dr.-Ing. 5800 Hagen Helling|Application of a method for milling aluminum rolling ingots on the machining of thin-walled aluminum castings|

IT1010667B|1974-03-13|1977-01-20|Corali B|PROCEDURE FOR EXECUTION OF DEEP MILLING ON THE EDGES OF SLATS MACHINE FOR ITS IMPLEMENTATION AND PRODUCT SO OBTAINED|

US3954044A|1975-01-13|1976-05-04|The Ingersoll Milling Machine Company|Over and under milling machine|

JPH0211381B2|1980-04-03|1990-03-14|Toshiba Machine Co Ltd|

DE3431349A1|1984-08-25|1986-03-06|Robert Bosch Gmbh, 7000 Stuttgart|Apparatus on NC cutting machines for feeding and removing workpieces|

AT404803B|1993-10-20|1999-03-25|Andritz Patentverwaltung|METHOD FOR PROCESSING MOLDED METAL PRODUCTS|

JP3101802B2|1995-09-06|2000-10-23|本田技研工業株式会社|Clamping device|

DE19607782C2|1996-03-01|2001-12-13|Chiron Werke Gmbh|Machine center|

JP3401143B2|1996-07-30|2003-04-28|新日本製鐵株式会社|Slab supply method|

JP2001328045A|2000-05-23|2001-11-27|Matsushita Electric Works Ltd|Work carrying method|

KR200296088Y1|2002-08-08|2002-11-23|주식회사 신진에스엠|Milling machine havig magnetic belt conveyor for steel plates processing|

US20050095087A1|2003-10-30|2005-05-05|Sullivan Robert P.|Automated material handling system|

CN101505917B|2006-09-04|2012-05-30|株式会社牧野铣床制作所|Machine tool, and pallet standby station|

JP4867789B2|2007-05-24|2012-02-01|Ｊｆｅスチール株式会社|Hot slab surface layer care method and hot rolled steel manufacturing method|

US8651918B1|2008-12-12|2014-02-18|Robert Richard Quinn|Pallet/flip unit/gantry system|

JP2012046315A|2010-08-26|2012-03-08|Niigata Machine Techno Co Ltd|Workpiece reversing device|

JP5798994B2|2012-09-12|2015-10-21|株式会社アステック入江|Cutting and polishing equipment for slab samples|

CN203156434U|2013-03-04|2013-08-28|盐城市朗力机械有限公司|Automatic transfer line for engine cylinder body|

JP3185311U|2013-05-31|2013-08-08|新日本工機株式会社|Aluminum slab processing system|CN108555600B|2018-04-26|2020-04-14|东北大学|Uncoiling and milling integrated machine|

CN109015353A|2018-09-12|2018-12-18|芜湖中驰机床制造有限公司|A kind of feeding mechanism of self-feeding form grinder|

CN110834198B|2019-10-29|2020-10-02|江苏华宏科技股份有限公司|Full-automatic steel rail shearing machine and shearing method thereof|

CN111215695B|2020-03-04|2020-08-11|佛山市法比澳挤压机械科技有限公司|Automatic aluminum bar cutting, stacking and unstacking production line|

DE102020001963B4|2020-03-27|2021-12-30|Günther Zimmer|Manufacturing cell with workpiece return and operating procedures for this|

CN111331184A|2020-04-16|2020-06-26|安徽中嘉环保建材科技有限公司|Multi-station adjustable groove milling equipment|

CN111633459B|2020-05-26|2021-11-12|嘉兴鼎尚信息科技有限公司|Mechanical part processing equal-dividing conveying device|

法律状态:
2016-08-22| PLFP| Fee payment|Year of fee payment: 2 |

2017-08-22| PLFP| Fee payment|Year of fee payment: 3 |

2018-03-09| PLSC| Search report ready|Effective date: 20180309 |

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优先权:

申请号 | 申请日 | 专利标题

DE102014217157.1A|DE102014217157A1|2014-08-28|2014-08-28|Milling plant for aluminum ingots|

DE102014217157.1|2014-08-28|

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