DE284189C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a portable drill with liquid or air pressure drive, in particular one used for the purpose of drilling holes in The drill spindle has nooks and crannies at one end, while the one in the same Housing housed piston machine drives the drilling spindle through a transmission gear.

ίο With such machines there is the Difficulty in housing an effective speed reducer. Worm gears and ratchet wheels with pawls have been proposed for this purpose, but their purpose is insufficient fulfill.

According to the invention, the difficulties are overcome in that a differential gear is used, which consists of only two gears, one of which is seated on a driven shaft Eccentric encloses. The idea of a differential gear for translation in a drilling machine to be used is not new, but can only be found at. Machines with a central drilling spindle, which means that space is limited does not play the same role, and also in a different form, as except the eccentric still requires two pairs of gears, compared to only one pair the drill according to the invention.

The simple and space-saving device of the transmission gear according to the invention is achieved by coupling the gear wheel sitting on the eccentric to one end of a lever, the other end of which is guided on the housing so that the gear wheel revolves with the eccentric, but can only swing within small angles and not rotate. .

The drawings illustrate an embodiment of the new drilling machine, and although is

Fig. Ι a vertical longitudinal section,

Fig. 2 is a plan, partly in view, partly in section,

Fig. 3 is a section along the broken line 3-3 of Fig. 1, seen in the direction of the arrow,

4 is a side view, seen from the drive side,

Fig. 5 is a section along the line 5-5 of Fig. 1,

6 is a view of the differential gear lever,

FIG. 7 shows a section along line 7-7 in FIG. 6.

The prime mover can be implemented in any known manner, e.g. B. how accepted in the drawing; it is not intended to be the subject of the invention. However, should It should be noted that although these machines are preferred as air pressure motors be trained, yes. another pressure medium can also be used.

The drill shown has a main housing part i, most of the parts of the Receives drilling machine, such that the front end is set up to support the drilling spindle is. At the rear end of the main housing, a smaller housing 3 is attached by means of screw bolts 2, which of

the two cylinders 4 of the compressed air machine, the valve body 5 and the inlet port 6 * for the pressure medium is formed. In a known manner, the two double-acting pistons 7 perform a reciprocating movement in the cylinders 4, being controlled by the slides 8 sliding into the valve body 5, which are moved by the eccentrics 15 seated on the crankshaft. For this purpose, the pistons each carry a piston rod 9 on the front side, which is fastened at its end in the cross head 10; the cross heads have their slideways in the tubular extension 11 of the cylinder cover. _t

The crankshaft 12 has two cranks offset by 90 °, to which the connecting rods 13 attack, the rear ends of which are articulated by bolts 14 to the cross heads are. Sitting between the two cranks, the eccentric 15 on the shaft by means of the eccentric rods 16 control the slide, so that the machine in known Way works double acting. The lower end of the crankshaft rests in the roller bearing 17, which is housed in the bottom of the housing 1 in a corresponding socket is. Similarly, the upper end of the crankshaft is in the roller bearing 19 and the socket 20 stored, the latter forming part of a cover 21, the is connected to the housing 1 by the screws 22.

In front of the crankshaft and parallel to it, a countershaft 23 is arranged, which their Rotary motion obtained from the crankshaft through the intermediary of gears 24, 25; both Gear wheels are advantageously made from one piece with their shafts. The top end the countershaft is mounted in the cover 21 of the housing, which is in the socket 27 Ball bearing 26 receives the lower end in a very similar manner with the help of the ball bearing 28 and the socket 29 in the bottom of the housing.

The countershaft is equipped with an eccentric near its lower end, which appropriately forms one piece with the shaft. With the interposition of one serving as a warehouse With a ring of rollers 32, the differential gear 31 is wrapped around this eccentric. This gear is located inside an eye 34 of the lever 33, which also still has two eyes 35 and 36 (Figs. 5, 6 and 7).

The eye 34 has inwardly protruding teeth that the teeth 37 of the differential gear 31 correspond and are in engagement with these, with gear and lever keep their mutual position, but can be taken apart. The middle one Eye 35 of lever 33 only has the purpose of letting the crankshaft through and also bypassing bearing 17 without closing it touch. The third eye 36 comprises a roller 38 which rotates about a bolt 39 can, which is stuck in the housing wall; the bolt 39 holds the roller through its head on the housing wall, while this engages with a flange over the eye and the Lever 33 leads. Eye 36 is elongated to allow lever 33 to move back and forth can perform while swinging at the same time.

The differential gear 31 extends into another differential gear 40 above the lever 33 into it with the internal toothing 41, which in the illustrated embodiment consists of a Piece with a sleeve 42, which rotates around the countershaft and in its middle part sprocket teeth 43 carries. The upper end of this sleeve rests in ball bearing 44 inside the ring of the gear 25. The roller bearing 45 (Fig. 1) is between the middle Part of the countershaft and the interior of the sleeve.

The driving differential gear 31 has a Movement that is eccentric to that of the driven differential gear, namely depending on the eccentricity of the countershaft. With the circling and swinging Movement of the driving differential gear 31 are its teeth with the teeth of the driven Differential wheel 41 in engagement, but also coupled to the lever 33 at the same time, which only allows a circular movement around the center of the countershaft by having the teeth of the wheel 31 always returns to the same place, so that no rotation of this Wheel comes about. With the circling movement, however, they gradually come together Teeth of the wheel 31 meshed with the teeth of the wheel 41, and there this more Has teeth, the wheel 41 increases by so many with each revolution of the countershaft Twisted teeth than the difference in the number of teeth on the two wheels. One The appropriate number for the teeth of the wheel 41 is 26, if the driving wheel has 24 teeth Has.

The chain 47 lies over the sprocket teeth 43 as well as over the teeth 48 of the Drilling spindle and serves as a transmission medium for the rotary movement of the driven differential gear 41 on the spindle.

The drill spindle can be stored in any suitable way, advantageously so, as shown in the drawing. The lower end of the spindle is rotatably mounted in the sleeve 49, which receives a stuffing box 50 with the packing 51 and the Roller bearing 52. The upper end of the spindle is supported in the ball bearing 53 and against

a thrust bearing is supported, which consists of the thrust ring 54, the balls 55 and the abutment 56 consists; the latter is secured against rotation in the housing. A screw 57 in the Abutment 56 serves as a means for advancing the spindle.

Claims (1)

Patent claim: Drilling machine with liquid or air pressure drive and position of the drilling spindle at one end of the housing, the spindle being through the intermediary of a differential gear is driven, the driving gear (31) loosely rotatable but is mounted eccentrically on the driving shaft (23), characterized in that this gear wheel (31) is in engagement with an inside that rotates the drilling spindle toothed wreath (41) and also with one only vibrating and limited circular movement executing member (33) is connected, which prevents the gear, to turn. For this purpose 2 sheets of drawings.