DE559976C - Mechanical drive for machine tools with reciprocating tool z. B. riveting machines u. like - Google Patents

Description

Mechanical drive for machine tools with reciprocating Tool. z. B. riveting machines, etc. The invention relates to a mechanical Drive for machine tools with reciprocating tools, e.g. B. riveting machines, Cutting devices with reciprocating knives, hammers, chisels, slotting machines, Tamping hoes, scale knockers and the like. Machines have the disadvantage that the reaction pressure that is exerted on the tool while working on the Drive organs and, above all, the whole of the machine is transmitted. this on the one hand has a very detrimental effect on the drive and on the other hand has a disruptive effect and tiresome.

Attempts have been made to mitigate this disadvantage by including the The drive has switched on elastic links. These alleviate the reaction shock, however, do not turn it off so that it is still there and its detrimental Expresses effects. The elastic pontics are also easily broken and cracked a complication of the device. According to the invention with the known Facilities associated disadvantages avoided. According to the invention is used for recording of the reaction shock has a weight in the direction in which the reaction shock is exerted on it, is resiliently, for example slidingly, mounted. This Weight is set in rotation at the same time, and the drive to and fro walking tool is derived from this weight. Has rotating weight here the further function of an ordinary centrifugal mass, which acts as an energy store brings about a compensation of the degree of non-uniformity. Particularly useful is .es, the weight designed as a flywheel with inclined discs or To provide rings that are arranged axially to the flywheel and on the one hand serve to turn the rotating movement of the flywheel into the reciprocating To convert the movement of the tool, and on the other hand that of the tool Reaction pressure is transmitted axially to the flywheel, the latter on a rotating one Shaft is axially displaceable.

The flywheel slides under the effect of the reaction pressure the rotating drive shaft, so that the rotating drive shaft and all the rest Parts of the machine, in particular the housing and the drive motor, of the Reaction impacts of the tool are completely relieved. Rather, these are from added to the axially displaceable centrifugal mass.

The invention is illustrated in the drawing, for example, namely Fig. i shows the subject matter of the invention partly in view, partly in section while Fig. 2 shows the subject of the invention in full section. In In the figures, i denotes the machine housing. In the lower end of the case r is the tool 2 mounted, which is attached to a tool holder 3, the seated on an axially guided rod 4. Two bars 15, 6 are attached to the rod 4 connected, which are of unequal length and are arranged in a U-shape to one another. At the ends of the legs are pairs of rollers 7, 8, 9, i o are provided. Furthermore, the Legs 5, 6 are provided with projections i i, 12 which engage in guides 13, 14, which latter are fixed in the housing i.

The rollers 7-1o are frustoconical in their effective part. Between every two rollers 7, 8 and 9, i o which form a pair with one another, grip obliquely arranged- ring disks 15, 16, which sit on a sleeve-shaped part 17, the is firmly connected to a flywheel 18, which is designed as a flywheel. The parts 17, 18 are fastened in their lower end by one in the housing i Pin i9 out, which is provided with a collar 2o on which the lower The end of the sleeve 17 touches down in the rest position of the machine. From above protrudes into a hole of the flywheel 18 and the sleeve 17, the drive shaft 21 into it, which on a is mounted in the housing i attached eye 22. The shaft 21 has a long wedge23 provided, which engages in a corresponding groove of the flywheel 18 and the sleeve 17. The parts 17, 18 are thus longitudinally displaceable on the drive shaft 21. The wave 21 is provided at its upper end with a bevel gear 24 with a corresponding Bevel gear 25 is engaged. The latter is of a shaft 26, which with a Motor or the like. Connected, set in rotation. The shaft 21 can also represent a direct extension of a motor arranged axially in the housing.

The operation of the device described is as follows: As soon as the shaft ai is set in rotation, the flywheel 18 and the sleeve 17 with the annular disks 15, 16 are also set in rotation about their common axis. Due to the inclined position of the disks 15, 16, the legs 5, 6 with the rod 4 and the tool 2 are set in an up and down axial movement. A rotation of the parts 4, 5, 6 about their axis is prevented by the guides 13, 14. The reaction shock emanating from the tool 2 is transferred directly to the sleeve 17 and the flywheel 18 by the rollers 7, 8 or 9, io and the disks 15, 16. carry suffering an axial displacement on the shaft 21 ER- under the action of shocks. This axial displacement is, however, insignificant if the size of the mass 18 is suitably dimensioned. The arrangement of the two legs 5, 6 on both sides of the sleeve 17 ensures a symmetrical transmission of the reaction forces to the flywheel 18. .

However, the flywheel 18 not only takes the reaction shocks of the Tool and keeps it from the rest of the drive, in particular from the parts 21, 22, 24, 25, 26, and the housing i remote, but the flywheel 18 acts simultaneously in the usual way as, flywheel to compensate for the degree of irregularity, the otherwise as a result of the non-uniform power required to drive the tool 2 is, would occur.

Claims (3)

PATENT CLAIMS: i. Mechanical drive for machine tools with reciprocating tool, e.g. B. riveting machines and the like, characterized in that that a rotating weight (18), which with the reciprocating tool is compliant in the direction of the reaction pressure emanating from the tool, in particular sliding, is mounted, so that the weight by its inertia acts both as a flywheel and also absorbs the reaction pressure of the tool. 2. Mechanical drive for machine tools according to claim i, characterized in that that .an the weight (18) rings (15, 16) are attached which are inclined to the axis of rotation are inclined and on the one hand the reciprocating motion during their rotation of the tool holder (3, 4) and, on the other hand, the one emanating from the tool Transfer the reaction pressure to the weight (18). 3. Mechanical drive for machine tools according to claim 2, characterized in that two oppositely inclined annular disks (15, 16) are provided on which those associated with the tool Attack force transmission elements (5, 6) on opposite sides, so that the reaction shocks are transmitted centrally to the flywheel (18).