DE102007053814A1 - Machine tool for machining connecting rods useful in internal combustion engine of motor vehicle, has chamfering device with fiber laser and laser nozzle, guiding device, controller, breaker, drilling- and/or milling device, and conveyor - Google Patents

Abstract

The machine tool (9) for machining connecting rods (10) useful in an internal combustion engine of a motor vehicle, comprises a chamfering device (66) having a fiber laser (67) and a laser nozzle for mounting a notch (19) in the connecting rod, so that the connecting rod is breakable in the area of the notch, a device for guiding the laser nozzle and/or the connecting rod relative to the laser nozzle, a controller for controlling the guiding device in such a way that the guiding device guides the laser nozzle only uniquely over a notch region for mounting the notch, and a breaker. The machine tool (9) for machining connecting rods (10) useful in an internal combustion engine of a motor vehicle, comprises a chamfering device (66) having a fiber laser (67) and a laser nozzle for mounting a notch (19) in the connecting rod, so that the connecting rod is breakable in the area of the notch, a device for guiding the laser nozzle and/or the connecting rod relative to the laser nozzle, a controller for controlling the guiding device in such a way that the guiding device guides the laser nozzle only uniquely over a notch region for mounting the notch, a breaker for breaking the connecting rods in the area of the notch, a drilling device and/or a milling device for drilling and/or milling the connecting rods, and a conveyor for conveying the connecting rods in and/or out of the working area of the chamfering device. A laser beam exits from the laser nozzle for notching the connecting rod. The laser nozzle forms a component of a laser nozzle arrangement with two laser nozzles for simultaneously mounting the two notches. The controller is arranged to an adjustment of a movement speed of the guiding device during mounting the notch in dependence of an adjustable actual notch depth and/or a performance of the fiber laser, has a regulator for adjusting the movement speed of the guiding device, and adjusts the movement speed of 50 watt at 40-70 mm per seconds with the performance of the fiber laser. An output-side working capacity of the fiber laser is 10-200 watt. The fiber laser has a working capacity of 40-100 watt and a pulse frequency of 40-60 kHz. An independent claim is included for a method for machining connecting rods with a chamfering device having a laser for mounting a notch in the connecting rod.

Description

The The invention relates to a machine tool for machining connecting rods with a laser having notch device for mounting at least one notch on a connecting rod, so that the connecting rod in the region of at least one notch is breakable.

pleuel or connecting rods for Internal combustion engines, for. For example Motor vehicles, are usually made of alloyed steel powder as Sintered forged or made of alloyed tempered steel. in the The framework of a fracture technique will initially be one-piece connecting rods with a predetermined breaking point, namely a notch provided. Then it is possible to have a connecting rod cover of a big one break away respective connecting rod, for example hydraulically to blow off or to crack. The resulting characteristic grained fracture surface is individual for a respective connecting rod. For a precise one The seat of the connecting rod cap on the big end is attached to the respective one wegspengte connecting rod cover again at the assigned big end.

to Making the score becomes common used a laser notching process. For example, it would be possible to have one CO2 laser to use. But it is advantageous to use a laser a fiber optic cable conductive To use laser beam. Usually are called Nd: YAG lasers (= neodymium-doped yttrium aluminum garnet laser) used, the laser beam with a fiber optic cable transferable is.

adversely with these lasers, however, it is that the notches are not optimal are. For example, must relatively strong Laser pulses are generated, so that sufficient material removal per laser pulse can be realized. This in turn leads to a so-called backsplash the material removed from the notch, so that protective glasses, nozzles and heavily contaminate other devices of the machine tool. The quality the notches is not optimal.

It is therefore the object of the present invention, a machine tool to provide, at a higher quality of notches on connecting rods is achievable.

at a machine tool of the type mentioned is to solve the Task provided that the laser comprises a fiber laser.

Of the Fiber laser is characterized by the fact that significantly higher pulse frequencies as are achievable with lasers, which are a flash lamp for pumping the Lasers have. As a result, the material removal per pulse in the Notch much lower, which also reduces the back splash. Contamination of protective glass, Nozzles and other components of the machine tool, especially in the field a laser exit, is thereby reduced. The quality of the notches is high.

By the use of diodes to generate the laser are the service lives of the fiber laser much higher as with conventional Lasers. Even with an annual working time of 20 hours per day and a year round Operation is expected to have a lifetime in the range of 20 years. The maintenance effort is thereby significantly smaller.

The Notching device has expediently a laser nozzle, from the at least one laser beam for notching the connecting rod emerges. The laser nozzle is expediently cooled with compressed air. Accordingly, at the laser nozzle expediently a connection to Connection of a compressed air line available.

The Machine tool has expediently a leadership facility, relative to the laser nozzle is movable to the connecting rod. Alternatively, it would also be possible to Connecting rod relative to the laser nozzle to move. It is further possible, both the connecting rod and the laser nozzle move around the laser beam along a desired Notch position.

Advantageous the machine tool has a control for driving the guide device such, that the leadership device the laser nozzle respectively only once over a notch area for attaching the at least one notch leads.

The Control is expediently for setting a travel speed of the guide device when attaching the at least one notch depending on a particular adjustable nominal kerf depth and / or depending on a power of the Fiber laser designed. Thus, an optimum travel speed can be set in each case which depends on the power of the fiber laser. An advantage is also a Control that regulates the travel speed of the guide device.

In The practice has a travel speed of 40 to 70 mm exposed per second when the fiber laser has about 50 watts.

It is understood that the fiber laser can also have other power ranges, for. B. a range of 10 to 100 watts. As the output side optimum performance of the fiber laser, a power of about 40 to 60, especially 50 watts has been found in connecting rods for car engines. For connecting rods for truck engines areas up to or around 200 watts are also advantageous.

A Pulse frequency of the fiber laser is advantageously in the range of several Kilohertz. In a conventional laser, for example, the beginning Nd: YAG laser is only in the range of 80 to 120 Hertz. By the higher Pulse frequency in the range of kilohertz is the respective material removal per Laser pulse much lower, allowing the material to be re-injected the connecting rod is reduced in the direction of, for example, the outlet nozzle.

Advantageous the machine tool also has other components for further processing a respective connecting rod, for example a drilling device, a milling device, a screw device and the like more.

Advantageous It is also when the machine tool an integrated conveyor to promote from connecting rods or into a working area of the notching device having.

following Be exemplary embodiments of Invention explained with reference to the drawing.

1 a partially schematic representation of a machine tool with a fiber laser,

2 a plan view of a connecting rod,

3 a schematic plan view of the machine tool according to 1 in which further workstations are shown, and

4 a laser nozzle assembly with two laser nozzles for simultaneously attaching two notches.

With a machine tool 9 are connecting rods 10 editable. The machine tool 9 has, for example, a drilling station 50 with a milling or drilling device 86 for attaching a big and a small eye 11 . 12 on the connecting rods 10 , Optionally, the two eyes 11 . 12 at the drilling station 50 nachgebohrt and gefast front and back.

At a drilling station 51 lowers a drilling device 52 initially screw head supports 15 for screws 16 and then drills mounting holes 17 for the screws 16 by lateral projections 18 along the connecting rods 10 run. Further, at the drilling station 51 a thread cutting device 53 present, the threads 23 in lower sections of the mounting holes 17 to cut. In the thread 23 be the screws 16 screwed in later.

To the drilling station 51 closes a laser station 54 on, by means of a laser 55 notch 19 and 20 in the area of the big eye 11 be attached. The scores 19 . 20 run along a line 24 that is, transverse to the direction of the sheep 13 ,

Then it promotes a conveyor 60 For example, a robot, the connecting rod 10 to a breaking station 57 where a crushing device 58 a lid 25 from a big end 26 the connecting rod 10 aborts. This creates one along the notches 19 . 20 running fault line. Then the connecting rods 10 immediately reassembled, taking on a respective big end 26 the associated lid 25 by means of two screws 16 is attached.

A conveyor 59 , z. B. a conveyor belt, serves to convey the connecting rods 10 to the machine tool 9 or away from it. A robot 61 bring the connecting rods 10 in a working area of the machine tool 9 ,

The conveyor 60 the machine tool 9 contains, for example, a robot, a conveyor belt or a round table, the pallets 62 for holding one connecting rod each 10 from one of the stations 50 . 51 . 54 . 57 promotes to the next. The connecting rods 10 for example, of holding jaws 63 a holding arrangement 64 a pallet 62 held.

With the help of the conveyor 60 are the connecting rods 10 into a workspace 65 a notching device 66 the laser station 54 brought or from the work area 65 again ausförderbar.

The notching device 66 includes a fiber laser 67 for generating a laser beam 68 , A fiber optic cable 69 guides the laser beam 68 to a laser nozzle 70 with an exit tip 71 from which the laser beam 68 for attaching the two notches 19 and 20 exit.

The fiber laser 67 has a diode arrangement 72 with several diodes for generating the laser beam 68 , The diode arrangement 72 operates pulsed in a working range of beispielswei se 10 to 100 kilohertz. This high pulse rate is advantageous because then the individual laser pulses for attaching the notches 19 . 20 must have a relatively low energy. That of the diode arrangement 72 generated light is transformed into a fiber block 73 fed, which has one or more doped glass fibers.

Inside the laser nozzle 70 Optionally optical components can be arranged, for. B. a mirror 74 for deflecting the laser beam 68 that at a connection 75 for the fiber optic cable 69 into the lasers jet 70 penetrates. Furthermore, the beam quality of the laser beam 68 be optimized in the laser nozzle, for example by a lens arrangement 76 with a dissipation lens 77 and a condenser lens 78 for scattering and bundling or focusing the laser beam 68 , see, for. B. 4 ,

For cooling and keeping the exit tip clear 71 it is advantageous if compressed air from a compressed air source 79 at a compressed air inlet 80 is fed and in the area of the exit tip 71 from the laser nozzle 70 exit.

A leadership facility 81 coming from a controller 82 is controlled, the laser nozzle leads 70 at notch areas 21 . 22 along where the notches 19 . 20 should arise. The guiding device 81 For example, a linear guide, and / or as in the embodiment, articulated arms 83 . 84 contain.

The control 82 controls the management device 81 such that the laser nozzle 70 only once over the two notch areas 21 . 22 to be led. The traversing speed is adjusted so that the notch depth of the two notches 19 . 20 for later breaking at the breaking station 57 is sufficient. If the fiber laser 67 has a higher power, the travel speed can be higher. At lower power, the traversing speed of the laser nozzle 70 reduced accordingly.

By the high-frequency pulsing of the laser beam 68 even at higher speeds continuous notches occur. In practice, it has been found that the one-time driving over the notches 19 . 20 good results, while with repeated driving over the notch areas 21 . 22 gnawed and only slightly shallow notches arise.

The control 82 also contains a regulatory module 85 for regulating the travel speed of the guide device 81 when attaching the two notches 19 . 20 ,

Advantageous embodiments are readily possible. For example, has a laser nozzle assembly 90 a first and a second laser nozzle 70a . 70b for simultaneously attaching two opposing notches, for. The notches 19 . 20 ,

Claims (16)

Machine tool for machining connecting rods ( 10 ) with a notch having a laser device ( 66 ) for attaching at least one notch ( 19 . 20 ) on a connecting rod ( 10 ), so that the connecting rod ( 10 ) in the region of the at least one notch ( 19 . 20 ) is breakable, characterized in that the laser is a fiber laser ( 67 ). Machine tool according to claim 1, characterized in that the notching device ( 66 ) a laser nozzle ( 70 ; 70a . 70b ), from which at least one laser beam ( 68 ) to the notches ( 19 . 20 ) of the connecting rod ( 10 ) exit. Machine tool according to claim 1 or 2, characterized in that it comprises a guide device ( 81 ) for guiding the laser nozzle ( 70 ; 70a . 70b ) relative to the connecting rod ( 10 ) and / or for guiding the connecting rod ( 10 ) relative to the laser nozzle ( 70 ; 70a . 70b ) having. Machine tool according to claim 3, characterized in that the laser nozzle ( 70a . 70b ) a component of a laser nozzle assembly ( 90 ) with at least two laser nozzles ( 70a . 70b ) for simultaneous attachment of at least two notches ( 19 . 20 ). Machine tool according to claim 3 or 4, characterized in that it has a control ( 82 ) for driving the guide device ( 81 ) such that the guide device ( 81 ) the laser nozzle ( 70 ; 70a . 70b ) only once over a notch area ( 21 . 22 ) for attaching the at least one notch ( 19 . 20 ) leads. Machine tool according to claim 5, characterized in that the controller ( 82 ) to a setting of a travel speed of the guide device ( 81 ) when attaching the at least one notch ( 19 . 20 ) as a function of a particular adjustable nominal notch depth and / or a power of the fiber laser ( 67 ) is configured. Machine tool according to claim 5 or 6, characterized in that the controller ( 82 ) a regulation ( 85 ) for adjusting the travel speed of the guide device ( 81 ) having. Machine tool according to one of claims 5 to 7, characterized in that the control ( 82 ) the Verfahrge speed at a power of the fiber laser ( 67 ) from about 50 watts to 40 to 70 mm per second. Machine tool according to one of the preceding claims, characterized in that an output-side working power of the fiber laser ( 67 ) is in a range of 10 to 200 watts. Machine tool according to claim 9, characterized in that the working power of the fiber laser ( 67 ) in the range of 40 watts to 100 watts lies. Machine tool according to one of the preceding claims, characterized in that the fiber laser ( 67 ) has a pulse rate in the range of several kilohertz. Machine tool according to one of the preceding claims, characterized in that the fiber laser ( 67 ) has a pulse frequency of 20 kHz-100 kHz, in particular 40 kHz-60 kHz. Machine tool according to one of the preceding claims, characterized in that it comprises a breaking device ( 58 ) for breaking the connecting rod ( 10 ) in the region of the at least one notch ( 19 . 20 ) having. Machine tool according to one of the preceding claims, characterized in that at least one drilling device ( 52 ) and / or at least one milling device ( 86 ) for drilling or milling of connecting rods ( 10 ) having. Machine tool according to one of the preceding claims, characterized in that it comprises a conveyor ( 60 ) for conveying connecting rods ( 10 ) into a workspace ( 65 ) of the notching device ( 66 ) into and / or out of the workspace ( 65 ) of the notching device ( 66 ) out. Method for machining connecting rods ( 10 ) with a notch having a laser device ( 66 ) for attaching at least one notch ( 19 . 20 ) on a connecting rod ( 10 ), so that the connecting rod ( 10 ) in the region of the at least one notch ( 19 . 20 ) is breakable, characterized in that a fiber laser ( 67 ) is used.