DE10040882A1 - Machine for a file/chisel, to work the surface of a workpiece, has a push rod drive with a drive eccentric and a compensation eccentric keyed to the drive shaft in a robust structure which absorbs any imbalance - Google Patents

Abstract

The machine for finishing workpiece surfaces, e.g. with a file or chisel, has a push rod (38) with a linear reciprocating movement to move the tool. The push rod drive has a drive eccentric (21) and compensation eccentric (31) which are pushed on to the drive shaft (3). The compensation eccentric is keyed to the drive shaft by a parallel pin (22) inserted into a collar (19) of the drive shaft. A second and parallel pin (32), inserted into the drive shaft collar, keys the drive eccentric.

Description

The invention relates to a processing machine in the preamble of Claim 1 mentioned type.

Such a processing machine is in the form of a saw through the US-A-1 648 008. The drive eccentric is directly with the saw blade couples while the balancing eccentric is coupled to the balancing mass is.

From DE-C-25 34 626 is a device for mass balance with tels crank drive driven machines known in the two ge one into the other stored eccentrics are provided, which is a complicated and expensive lever Control the boom with leveling compound. This lever linkage is not suitable for a handy device for surface treatment.  

Furthermore, EP-B1-0 136 716 is a processing machine at the beginning known type known in the drive eccentric and the balancing eccentric are integrally connected to the drive shaft. The highly stressed in operation Eccentrics are made by turning off the drive shaft. A disadvantage is that the whole drive shaft with the two eccentrics made of high quality Material must exist.

The object of the invention is to provide a processing machine in Generic type mentioned to create that are manufactured more cost-effectively can.

This object is achieved with the features of claim 1.

So the drive shaft itself can be made from cheap steel, while only the eccentrics have to be made from more expensive special steel.

According to a further embodiment of the invention, the non-rotatable arrangement the compensating eccentric on the drive shaft through one of these parallel, first pin executed, which is inserted into a collar of the drive shaft. because the installation of the balancing eccentric on the drive shaft is special simple.

According to a further embodiment of the invention, the non-rotatable arrangement the drive eccentric on the drive shaft through one of these parallel, second pin, which is inserted in the compensation eccentric. Thereby the drive eccentric is particularly easy to install.  

According to a further embodiment of the invention, the drive eccentric and the compensating eccentric is provided with lubrication channels. Therefore is a lubricant links of the periphery of these eccentrics possible.

The invention will now be explained in more detail using an exemplary embodiment. It demonstrate:

Fig. 1 shows a section through the machine according to the invention He,

FIG. 2 shows a section along the line II-II in FIG. 1.

The processing machine for processing surfaces on workpieces be essentially consists of a drive head 1 , which also serves as a handle. The drive head 1 has an approximately cylindrical housing 2 , in which a drive shaft 3 is provided coaxially, which is rotatably supported in bearings 4 , 5 near its two ends. These bearings are designed as needle bearings. The upper bearing 4 is held by a disc-shaped bearing holder 6 , which has a peripheral threaded section 7 for screwing into a corresponding internal thread at the upper end of the housing 2 , a peripheral threaded section 8 for screwing on a curved, provided with a corresponding internal thread cap 9 and radially Has holes 10 .

A fan wheel 11 is fastened to the upper end of the drive shaft 3 by means of a hollow screw 12 . The cap 9 has radial ventilation slots 13 at the level of the fan wheel 11 and a lubrication hole 14 centrally.

The bearing 5 near the lower end of the housing 2 is held against longitudinal displacement by an annular shoulder 15 of the housing 2 and by a screwable into the lower end of the housing 2 sleeve 16 . The sleeve 16 receives a flexible shaft, not shown, connected to a drive motor, which can be connected to the lower end of the drive shaft 3 via a transmission element (not described in more detail ) . The lower end of the housing 2 also has radially distributed ventilation bores 17 .

The drive shaft is composed of an upper, thin shaft section 18 , an adjoining collar 19 and an adjoining, lower, thick shaft section 20 . On the shaft section 18 , a cylindrical compensation eccentric 21 is pushed up to the collar 19 . In the compensating eccentric 21 , a first pin 22 is attached, which is parallel to the axis of the drive shaft 3 and is inserted into a hole in the collar 19 ge. A needle bearing 23 is arranged on the compensating eccentric 21 , onto which a bushing 24 is slid, which can thus be rotated about the compensating eccentric 21 . The bush 24 is mounted in an annular balancing mass 25 which is provided with an elongated hole 26 . The smallest diameter of this elongated hole corresponds approximately to the outer diameter of the bush 24 .

As shown in FIG. 2 in particular, the balancing mass 25 is secured against shifting in the longitudinal direction by two guide rods 27 , 28 which engage in transverse grooves of the balancing mass 25 . These guide rods are fixed in a cylindrical balancing mass holder 29 which is fixed on the one hand in the housing 2 by an annular shoulder 30 and on the other hand by the bearing holder 6 .

The drive eccentric 31 is pushed onto the shaft section 18 to connect to the compensating eccentric 21 . The most extensive areas of the two eccentrics 21 , 31 are shifted by 180 ° relative to one another. In the drive eccentric 31 , a second pin 32 is fastened, which is parallel to the axis of the drive shaft 3 and is inserted into a hole in the compensating eccentric 21 . On the drive eccentric 31 a needle bearing 33 is arranged, on which an annular drive eye 34 is pushed. The drive eye 34 is provided with a laterally from standing stud 35 .

At the level of the threaded bolt 35 , the housing 2 has a connecting piece 36 , which is provided with an internal thread. A sleeve 37 can be screwed into this internal thread, in which a bumper 38 is mounted, which opens into a tool holder 39 . The threaded bolt 35 can be connected to the bumper 38 via transmission members which are not further described here and which also comprise an attenuator. For free implementation of these transmission members, the balancing mass holder 29 is provided with a corresponding cutout.

The drive shaft 3 and the eccentrics 21 , 31 are also provided with lubrication channels for lubricating the various needle bearings 4 , 5 , 23 , 33 . The compensation eccentric 21 has a lubrication channel 40 and the drive eccentric 31 has a lubrication channel 41 . The lubrication takes place via the lubrication hole 14 .

A further ventilation wheel can also be arranged on the shaft section 20 , as is not shown here.

In the above description of the embodiment, the drive eye is as Outer ring of the needle bearing formed. Under needle bearings is in the narrower sense understood a needle wreath. As processing tools, for example a file or chisel may be inserted in the tool holder.

The advantages of the processing machine described are summarized accordingly:

• - A robust construction with a hand-made housing is achieved;
• - The superimposed eccentrics are fixed to the drive shaft hold, coupled by pins;
• - The unbalance of the linear bumper movements are determined by a li near moving balancing mass absorbed and absorbed;
• - The balancing mass is in the form of an annular body by two Guide rods guided;
• - A balance holder for holding the guide rods is so on ordered that the movements of the balancing mass and the shock rod parallel;
• - A threaded bolt is attached to the drive eye;
• - The needle bearings are ventilated.

As an alternative to the embodiment described above, the guide rods for guiding the leveling compound are also attached directly to the housing his.

Claims (4)

1. Processing machine for the surface treatment of workpieces with a linearly reciprocable bumper ( 38 ) connected to a processing tool, which is set in motion by an eccentric drive ( 31 , 33-35 ) which can be driven by a drive, and with one by a compensating eccentric ( 21 ) opposite linearly reciprocating, balancing mass ( 25 ) compensating for the unbalance of the eccentric drive, the drive eccentric ( 21 ) and the eccentric eccentric ( 31 ) being of the same size and rotated by 180 ° on a drive shaft ( 3 ), characterized in that the drive eccentric ( 21 ) and the compensation eccentric ( 31 ) are designed as parts which can be pushed onto the drive shaft ( 3 ). 2. Processing machine according to claim 1, characterized in that the rotationally fixed arrangement of the compensating eccentric ( 31 ) on the drive shaft ( 3 ) is guided by one of these parallel, first pin ( 22 ), which in a collar ( 19 ) of the drive shaft ( 3rd ) is inserted. 3. Processing machine according to claim 2, characterized in that the rotationally fixed arrangement of the drive eccentric ( 21 ) on the drive shaft ( 3 ) is carried out by one of these parallel, second pin ( 32 ) which is inserted into the compensating eccentric ( 25 ). 4. Processing machine according to one of claims 1 to 3, characterized in that the drive eccentric ( 21 ) and the compensation eccentric ( 31 ) are provided with lubrication channels ( 40 , 41 ).