EP3672741A1

EP3672741A1 - Drive system and profiling module for a profiling system

Info

Publication number: EP3672741A1
Application number: EP19783032.6A
Authority: EP
Inventors: Manfred Roth
Original assignee: Profilmetall Engineering GmbH
Current assignee: Profilmetall Engineering GmbH
Priority date: 2018-10-22
Filing date: 2019-10-08
Publication date: 2020-07-01
Anticipated expiration: 2039-10-08
Also published as: EP3643420A1; PL3672741T3; ES2887955T3; EP3672741B1; WO2020083635A1

Abstract

Drive system (1) for a profiling system for longitudinally shaping a metal strip or a starting profile into a profile or tube by means of a plurality of roller forming tools (17), wherein the upper rollers and the lower rollers are in each case driven jointly. At least one upper roller module (5, 5') and at least one lower roller module (6, 6') are provided with an elongated cuboidal housing (8), with drive means (18) located therein for jointly driving the upper rollers and lower rollers by transmission output shafts (7, 7'), which are respectively mounted in the at least one upper roller module (5, 5') and the at least one lower roller module (6, 6') and protrude out of a longitudinal side (12) of the housing. On the longitudinal side (13) of the housing opposite from the upper rollers and lower rollers there is a transmission input shaft (15), wherein the at least one upper roller module (5, 5') and the at least one lower roller module (6, 6') can be arranged in each case as a unit one on top of the other and can be releasably connected. A profiling module (20) has such a drive system (1) and is suitable for extending or reducing a profiling system as desired.

Description

Drive system and profiling module for a profiling system

description

The present invention relates to a drive system for a profiling system for the longitudinal shaping of a metal strip or an initial profile into a profile or tube by means of a plurality of roller forming tools in the form of top rollers and bottom rollers, the top rollers being driven together and the bottom rollers being worn together. The invention also relates to a Profiliermo ul with such a drive system.

Such drive systems are known for profiling systems and are designed in different lengths depending on the length and type of deformation of the objects to be deformed. As a rule, the jointly driven top rollers and bottom rollers are driven by a motor and a common gearbox, so that if the profit changes, complex adjustments are made. In addition, such systems are not easily extendable or shortenable in length. The present invention is therefore based on the object of proposing a drive system which is suitable for a profiling system and in particular can be integrated in a profiling module and can be varied in a simple manner with regard to the length or the drive, as required by the user, whereby by the integration into a profiling module a profiling system of any length can be created depending on the choice.

This object is achieved according to the invention by a drive system with the features of claim 1 and a system module with the features of claim 6. Further advantageous refinements can be found in the respective subordinate claims.

Thereafter, the drive system has transmission output shafts for upper rollers and lower rollers, which are each mounted in an upper roller module or a lower roller module with an elongated cuboid housing. In the respective roller module, with which the upper roller module and the lower roller module are jointly referred to below, there are drive means for jointly driving the transmission output shafts for the roller forming tools mounted in the roller module. The drive means in the cuboid housing can be designed in various ways, for example via a drive shaft with gearwheels for driving the individual transmission output shafts for the roller forming tools, or preferably via a chain of gearwheels directly on the gear output shaft for the roller forming tools. The roller modules thus have transmission output shafts protruding from the housing on one long side of the cuboid housing and openings for at least one transmission input shaft on the opposite side. This gearbox input shaft can already be firmly integrated in the housing and protrude from the housing, or it can also be inserted into the corresponding opening when the motor drive is connected. The roller modules can each be arranged one above the other and releasably connected and can be arranged on top of each other (top roller module and bottom roller module) and next to each other (bottom roller module next to bottom roller module or top roller module next to top roller module). The drive of one or more upper roller modules can be separated from the drive of one or more by means of corresponding couplings, which are either fitted on the outside of the transmission input shaft or have an independent transmission input shaft having an opening in the housing several sub-roller modules can be realized. This makes it possible to easily configure the drive unit, depending on requirements, and to provide it with only one drive or with a separate drive for the top rollers or the bottom rollers, which gives the possibility of optimally coordinating the roller forming tools.

According to a preferred embodiment, the respective role modules, i.e. all top roller modules and all bottom roller modules are each connected to a module connecting element which can be arranged outside the respective roller module. This can be more than two role modules. Depending on the application, this means that in a profiling system or preferably only in one profiling module! and wish of the user with differently long roller modules or different roller modules with different distances for the Roilenumformwerkzeuge. For this purpose, the roller modules have connecting shafts that protrude from the housing or are contained in the module connecting element and are inserted into openings provided for this purpose in the housing. For example, roller modules can be provided in a profiling module that correspond to approximately half the width of the profiling module, so that the profiling module can be operated either with only one upper roller module and one lower roller module or with two upper roller modules and two lower roller modules. In general, it is also possible to arrange more than two roller modules one above the other. By means of the module connecting element and the connecting shafts, a further roller module can thus be connected in terms of drive by the upper roller module or lower roller module lying on one level in a simple manner. A correspondingly equipped gear is located in the module connection element. The distance between the gearbox output shafts for the upper rollers and the gearbox output shafts for the lower rollers can be variably adjusted by introducing spacer elements.

In the connection element described above, the connection from top roller module to top roller module or bottom roller module to Unterrol lenmodul. With his preferred training can by a corresponding configured bare module connection unit outside the respective housing of the roller module, an upper roller module can be connected on the drive side to a lower roller module. This is also done in such a way that it can either be plugged into the opening of the module housing from the outside, provided with corresponding connecting shaft shafts, or, conversely, can be plugged onto connecting shafts protruding from the openings. Such a module connection unit is required if the top roller modules and the bottom roller modules are to be driven with only one drive unit and not separately from one another. When using only one upper roller module and one lower roller module, the module connecting element can be used as a module connecting unit. This structure also enables the drive system to be easily configured according to the wishes of the user.

Basically, with this configuration, only two different roller modules are required, the upper roller module with the transmission input shaft also being able to be used as a lower roller module and the upper roller module without a transmission input shaft also being able to be used as a lower roller module. According to a particularly preferred embodiment, the individual roller modules are of identical design, so that an upper roller module can be operated as a lower roller module and vice versa. For this purpose, each roller module contains at least one opening to insert a transmission input shaft or already has a transmission input shaft. All roller modules are thus identical in construction and differ only in that the corresponding opening in the housing on the side facing the drive is either closed or has transmission input shafts. It is the same with connecting shafts between the roller modules. This considerably simplifies production and reduces the costs for such a system.

The roller modules are expediently connectable and fixable to one another via plug-in connections. This can be done, for example, by means of openings provided in the housing and arranged on the top and bottom through which connecting rods can be pushed to which the roller modules can be screwed via corresponding threads provided on the connecting rods.

This profiling module according to the invention for a profiling system is characterized by a drive system described above and is adapted to be able to implement a profiling system which can be adapted depending on the application, in particular in terms of length and also with respect to the roll forming tools, by stringing together a plurality of such profiling modules.

According to a particularly preferred embodiment, there are two upper roller modules arranged in one plane and two lower roller modules arranged in one plane below the upper roller module, which are each provided with a module connecting element for the drive connection of the two upper roller modules and the two lower roller modules. On the one hand, this enables a roll module size to be realized that is suitable for a profiling module that can be transported with a normal truck. On the other hand, the use of two roller modules allows the removal of an upper roller module and a lower roller module if required, if the roller forming tool distances need to be shortened or changed. In addition, the resulting roll module size enables a modular system to be provided for any number of profiling modules.

In a preferred embodiment of the profiling module, the upper roller module and the lower roller module can be increased with the aid of spacing units, and thus the vertical distance between the transmission output shafts between the upper roller module and the lower roller module can be individually increased.

In the profiling module, the upper roller module and the lower roller module are advantageously motor-driven and controllable separately from one another, so that the needs of the profiling material can be optimally addressed. With the invention it is thus possible to provide a modular drive system and a modular profiling system made of appropriately designed profiling modules, which enables adaptation to the needs of the user in a simple and inexpensive manner. The features and combinations of features mentioned above in the description, as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures, can be used not only in the combination indicated in each case, but also in other combinations or in isolation. Not all features of claim 1 or claim 6 have to be realized in order to carry out the invention. Individual features of the independent or subordinate claims can also be replaced by other disclosed features or combinations of features. All of the features and / or advantages resulting from the claims, the description or the drawing, including structural details, spatial arrangements and procedural steps, can be essential to the invention both individually and in various combinations. In the figures, identical or similar components are identified with the same or similar reference symbols. FIG. 1 shows the perspective view of a drive system:

FIG. 2 shows the perspective view of the roller modules with module connecting elements;

FIG. 3 shows a top view of a Rolien module (FIG. 3A), a side view with a view of the gear output shafts for the Rolienumfor tools (FIG. 3B), a sectional illustration in longitudinal section along the line FF from FIG. 3A (FIG. 3C) and a cross-sectional illustration along the line GG of Figure 3B (Figure 3D); FIG. 4 shows the perspective view of a module connection unit, greatly enlarged in relation to FIG. 2;

Figure 5 is a perspective view of two profile system modules; and

Figure 6 is a schematic cross-sectional representation of a profiling module.

FIG. 1 shows the drive system 1 with two servomotors 2, 2 'in the embodiment, which drive roller assemblies 5, 5', 6, 6 'via a motor gear 3, 3' and a clutch 4, 4 ' the upper roller modules 5, 5 'are driven by the motor 2 and the lower roller modules 6, 6' by the motor 2 '. For illustration purposes, the upper roller module 5 'is shown removed from its operating position in this illustration. The roller modules 5, 5 ', 6, 6' are explained further below in connection with FIGS. 2 and 3. The roller modules 5, 5 ', 6, 6' have an elongated housing 8 in which the drive means shown in Figure 3 are housed. The longitudinal side 13 of the housing on the drive side has invisible openings, from which, in this exemplary embodiment, the transmission input shaft 15 protrude for plugging onto the coupling 4, 4 ′. Furthermore, the housing 8 has on the opposite longitudinal side 12 of the transmission output shafts 7, which can be non-positively connected in a conventional manner to the corresponding roller forming tools, which are also not shown, by means of intermediate pieces which are not shown. In the area of an end face of the housing 8, a connecting shaft 16 protrudes from the housing 8 and is arranged in an extension of the corresponding transmission output shaft 7. The connecting shaft 16 can also be the transmission output shaft 7 at the same time. The connecting shaft 16 is used for coupling a module connecting element 9, 9 'in order to connect the upper roller modules 5, 5' and the lower roller modules 6, 6 to one another in terms of drive. In the exemplary embodiment, the connecting shaft 16 protrudes from the housing 8 and is inserted into a corresponding opening 29 in the respective module connecting element 9, 9 '. However, it can just as well be the other way round, so that the connecting shaft 16 is arranged in the module connecting element 9, 9 ' 1, the upper roller modules 5, 5 ¹ are connected with the lower roller modules 6, 6 'via connecting pins 10, which are provided through openings 11 in the housings 8 of the roller modules 5, 5', 6, 6 ' firmly connected via screw connections.

FIG. 2 shows the roller modules 5, 5 ', 6, 6' already explained above and the module connecting elements 9, 9 '. The figures show the housing 8 with the housing tops 14 and the openings 11 for the connecting pins 10, which can be pushed through the housing 8. Furthermore, the transmission input shaft 15 protruding from the housing 8 and the connecting shaft 16 in the upper roller module 5 and the lower roller module 6 can be seen. In this exemplary embodiment, the upper roller module 5 'and the lower roller module 6' only have the connecting shaft 16 for coupling to the corresponding appropriate driven upper roller module 5 or lower roller module 6. In this embodiment there are therefore two different roller modules, the upper roller module with the lower roller module 6 and the upper roller module 5 ′ with the lower roller module 6 ′ being easily exchangeable. This enables great flexibility in the manufacture of such a system. The roller modules 5, 5 ', 6, 6' are fundamentally completely identical in construction, and are either closed by closing the respective opening provided in the longitudinal side 13 of the housing or by inserting transmission input shafts 15 or connecting shaft 16 with regard to the use of the respective roller module 5, 5 ', 6, 6'. The module connecting elements 9, 9 'have gearwheels, not shown, for transmitting the driving forces between the upper roller modules 5, 5' or lower roller modules 6, 6 '.

FIG. 3 shows in FIGS. 3A to 3D the elements already described above in detail once again a roller module 5, 6 (in this embodiment, for example) as it can also be used for the roller modules 5 ', 6'. The transmission output shafts 7 are rotated via gear wheels 18 arranged in the housing 8 next to one another on the transmission output shafts 7, with only one gear wheel 18 ′ being driven via the transmission input shaft 15. will. By introducing spacer elements, not shown, between the upper roller modules 5, 5 'and lower roller modules 6, 6', the distance between the transmission output shafts 15 for the upper rollers and the transmission output shafts 15 for the lower rollers can be variably adjusted.

The drive system in Figure 1 uses two motors 2, 2 '. In principle, it is also possible to operate the drive system with only one drive motor, with the arrangement as shown in FIG. 1 or in FIG. 2, on the connecting shafts 16, a modular connection unit 19 shown in FIG. 4 with four openings 30 with one arranged therein Connection gear is plugged on, so that the drive in this exemplary embodiment according to FIG. 1 takes place only with the motor 2 via the upper roller module 5 for all other roller modules 5, 6, 6 ', provided that only one upper roller module 5 and one lower roller module 6 or one lower roller module 6' are used for one Drive with the motor 2 is used, a module connection element 9, 9 'can be used instead of the module connection unit 19.

Figure 5 shows in perspective two profiling modules 20, 20 ', in which such a drive system, as shown in Figures 1 to 4, is integrated and which are constructed identically. As can be seen from FIG. 6, each profiling module 20, 20 'has a covering hood 21, via which the transmission output shafts for coupling schematically illustrated roller forming tools 17 and the area in which the forming takes place are accessible. The cover 21 serves to cover a work / production area 22 and is anchored to a housing 33 enclosing the drive area 23. Arranged behind it from the operator's side is the drive area 23, in which the motors 2, 2 ', motor gears 3, 3' and clutch 4, 4 'and the drive system 1 are accommodated. The roller modules 5, 5 'and 6, 6' are located in the drive area 23 and the roller forming tools 17 which can be connected to the roller modules are located in the work / production area 22 and are separated from one another by the partition wall 35 via intermediate pieces 34 Transmission output shafts 7 of the roiler modules 5, 5 'and 6, 6' are driven. The professional module 20 also has, under the work / production area 22 and the drive area 23, a supply area 24 for the laying of cables with structured duct systems for separate line laying and hoses. In front of it is a storage area 25 for additional accessories such as lubricant devices in the form of a lubricant pan 27, computer system for measurement data acquisition, etc. Underneath there is an installation and transport area 31. In the exemplary embodiment, a drawer 28 and also a folding compartment 32 are provided in this area as tool storage. On the front side 26, the profiling modules 20, which are independent operational units, can be connected to a system control (not shown) and can be selected via a program, can be connected on both sides to other profiling modules 20 and inserted into the profiling system or without any further problems this can be removed.

Claims

Drive system (1) for a profiling system for longitudinally shaping a metal strip or an initial professional into a profile or tube by means of a plurality of rollers for tools (17) in the form of top rollers and bottom rollers, the top rollers being driven together and the bottom rollers are driven together, characterized by at least one top roller module (5, 5 ') and at least one bottom roller module (6, 6') with an elongated cuboid housing (8) with drive means (18) therein for a common drive of the top rollers or lower rollers through gearbox output shafts (7, 7 ') for the upper rollers or lower rollers, which are each mounted in the at least one upper roller module (5, 5') and the at least one lower roller module (6, 6 ') and protrude from a housing longitudinal side (12), and which has a transmission input shaft (15) on the housing longitudinal side (13) opposite the upper rollers or lower rollers, the at least one upper roller module (5, 5 ') and the at least one lower roller module (6, 6) can each be arranged one above the other and detachably connected as a unit, and the transmission output shafts (7, 7') for the upper rollers and the lower rollers via a coupling (4) a common gear (3) with a drive motor (2) or separately from each other with an associated coupling (4, 4), gear (3, 3 ') and drive motor (2, 2') can be driven.

2. Drive system (1) according to claim 1, characterized by a module connecting element (9, 9 ') which can be arranged outside the respective roller module (5, 5'; 6, 6 ') and with which the respective transmission output shafts (7' ) of a first upper roller module (5) or lower roller module (6) can be connected on the drive side to the transmission outlet parts (7 ') of a further upper roller module (5 ¹ ) or lower roller module (6').

3. Drive system (1) according to claim 1 or claim 2, characterized by a module connection unit (19) which can be arranged outside the respective roller module (5, 5 '; 6, 6') and which has at least one top roller module (5, 5 ') Lower roller module (6, 6 ') can be connected on the drive side.

4. Drive system (1) according to one of the preceding claims, characterized in that the at least one upper roller module (5, 5 ') and the at least one lower roller module (6, 6 ^l ) are constructed identically from the structure and the housing (8).

5. Drive system (1) according to one of the preceding claims, characterized in that the at least one upper roller module (5, 5 ') and the at least one lower roller module! (6, 6 ') can be connected to one another and fastened to one another via plug connections (10).

6. Profiling module (20) for a profiling system for the longitudinal shaping of a metal strip or an initial profile into a profile or tube by means of a plurality of tube forming tools (17) in the form of top rollers and bottom rollers, the top rollers being driven together and the bottom rollers together are driven, characterized by a drive system (1) according to one of the preceding claims.

7. Profiling module (20) according to claim 6, characterized in that two top roller modules 85, 5 ') arranged in one plane and two in Lower roller modules (6, 6 ') arranged one level below the upper roller modules (5, 5'), each with a module connecting element (9, 9 ') for the drive connection of the two upper roller modules (5, 5') and the two lower roller modules ( 6, 6 ') are provided.

8. Profiling module (20) according to claim 7, characterized in that the upper roller modules (5, 5 ') and the lower roller modules (6, 6 ") are motor-driven and controllable separately from one another.

9. Profiling module (20) according to one of the preceding claims 6 to 8, characterized in that the upper roller modules (5, 5 ') and the lower roller modules (6, 6) can be increased with the aid of spacing units.