DE3543655A1 - Auxiliary attachment for portable drills - Google Patents

Abstract

Auxiliary attachment for portable drills, where the auxiliary attachment consists of a pressure device (1, 2) which can be actuated via a piston/cylinder unit (4, 5) and has a pneumatic power supply for producing the feed force during drilling, a guide slide (1) is connected at one end to the piston (4) and at the other end to an angular abutment (2) for reaching behind the workpiece (3), and the pneumatic cylinder (5) can be put under pressure via a control valve (15) in the feed line (19, 20) to the pneumatic cylinder (5), characterised in that a further piston/cylinder unit (6, 7) is provided which is in operative connection on the one hand with the guide slide (1) and on the other hand with the housing (21) of the auxiliary attachment, and a fluid is used as working medium, and in that a brake valve (14) is provided which can be actuated together with the pneumatic control valve and is connected via one line (17, 18) each to the two working spaces of the further cylinder unit (5). <IMAGE>

Description

The invention relates to an attachable device for hand drills according to the preamble of claim 1.

Such an additional device has become known from DE-OS 31 33 509. In practice, this additional device has proven itself extremely well when drilling workpieces that are not too thin-walled.
When drilling relatively thin-walled workpieces such as sheets and tubes, in particular thin multi-walled workpieces, it has been shown that the drill catches easily when it passes through the workpiece and can even break under certain circumstances. The reason for this can be seen in the fact that the pressing device is under full working pressure even when passing through the thin-walled workpiece, and accordingly an excessive feed can result.

From DE-OS 31 33 509 it is already known to adjust the contact pressure and thus the feed rate when drilling in full on the drill diameter and / or the material of the workpiece (paragraph 2, page 5). For this purpose, a pressure reducing valve is provided with which the conditions mentioned can be met. Via this pressure reducing valve, however, the pressure can only be set so that optimum conditions exist for the respective drill / workpiece combination when drilling in the full workpiece.
However, once the pressure has been set, the above-mentioned problem arises when drilling thin-walled workpieces, because only the pressure, ie the force of the pressure device, but not its speed, as is necessary for drilling thin-walled workpieces, is set via the pressure reducing valve can.

The invention is therefore based on the object, the known additional device to improve in that the drilling relatively thin-walled and also Multi-walled workpieces can be done without any problems, without the risk of Drill break exists.

This object is achieved with the characterizing features of claim 1.

Through the additional piston / cylinder unit in connection with the brake valve the possibility is created of the brake cylinder - and thus the Pneumatic piston and the guide slide - with a defined advance speed move.  

Since the brake valve is actuated together with the pneumatic valve, simple operation is possible on the one hand, but on the other hand a very sensitive adjustment of the feed speed during drilling is also possible. The feed rate can thus be optimally adapted to the prevailing conditions, which prevents the workpiece from catching and / or a drill break, particularly when drilling thin-walled workpieces.
With the measure according to claim 2 it is achieved that the different operating conditions can be set in a simple manner.
With the measure according to claim 3 it is achieved that a maximum speed is reached when loosening the pressure device, that is, the counter bearing can be moved back unhindered, further ensures that the brake valve can be set to maximum opening when drilling in full, which means a correspondingly high Feed speed can be achieved.
The measure according to claim 4 ensures that the movements of the pneumatic piston, guide slide and brake cylinder are coupled to one another in a simple manner.
With the measure according to claim 5 and claim 6, the advantage is achieved that the return stroke of the counter bearing can be limited, which is particularly advantageous when drilling several workpieces of equal strength.
With the design according to claim 7, it is possible to limit the working stroke of the pneumatic piston, thereby avoiding an unnecessary empty stroke of the counter bearing after the workpiece has been drilled through.
The measure according to claim 9 ensures that temperature changes and leakage losses can be compensated for.

An embodiment of the invention is explained in more detail with reference to the drawing.

The additional device consists of a housing ( 21 ) which has a bore ( 23 ) with a clamping device with which it can be clamped on the hand drill neck.
The housing ( 21 ) has a cylindrical guide ( 12 ) parallel to the drill axis, in which a guide slide ( 1 ) is mounted.

At the same time, a cylinder ( 5 ) is incorporated into the housing ( 21 ) which receives a piston ( 4 ) acting on both sides, the two working spaces of which can be supplied with compressed air via lines ( 19, 20 ) and a pneumatic valve ( 15 ).

A further piston / cylinder unit ( 6, 7 ) is arranged parallel to the guide ( 12 ) and the pneumatic cylinder ( 5 ), the two working spaces of which are connected to a brake valve ( 14 ) via lines ( 17, 18 ). The piston ( 6 ) is fixed with its piston rod ( 24 ) in the housing ( 21 ), while the cylinder ( 7 ) is fixed in a carrier ( 8 ).
The piston rod ( 22 ) of the pneumatic piston ( 4 ) is also axially adjustable in the carrier ( 8 ) via an adjusting nut ( 9 ). The guide slide ( 1 ) is also fixed in the carrier ( 8 ) via a clamping device ( 25 ). So that the pneumatic piston ( 4 ) cannot rotate in the cylinder ( 5 ), it is secured in the carrier ( 8 ) by means of an anti-rotation device ( 10 ). A manually operated hand lever ( 13 ) is provided to actuate the two valves ( 14, 15 ).

The additional device works as follows:
The housing ( 21 ) is placed on the neck ( 23 ) of the hand drill and clamped. Then the pneumatic cylinder ( 5 ) is connected to a compressed air source ( 26 ). The brake cylinder ( 7 ), the lines ( 17, 18 ) and the expansion tank ( 16 ) are constantly filled with liquid. The stroke of the guide slide ( 1 ) and the counter bearing ( 2 ) can be adjusted to the respective workpiece thickness by the stop ring ( 11 ), so that no excessive idle stroke has to be traversed. The pneumatic piston ( 4 ) can be adjusted to the respective working position of the drill and workpiece ( 3 ) using the adjusting nut ( 9 ). The brake cylinder ( 7 ) can also be adjusted in the carrier ( 8 ).

When drilling a workpiece, the various feed speeds on the workpiece are regulated via the switch ( 13 ), which acts together on the valves ( 14, 15 ).

In the released position of the switch ( 13 ), the brake valve ( 14 ) has no effect, ie it does not throttle the oil circuit of the brake cylinder; the pneumatic cylinder can be extended unhindered until the guide slide is blocked by the stop ring ( 1 ).

If the switch ( 13 ) is now pressed somewhat, the brake valve ( 14 ) is actuated so far that the oil passage through the valve is blocked, and thus also the brake cylinder ( 7 ) and thus also the pneumatic piston ( 4 ) and the guide slide ( 1 ).
At the same time, however, the pneumatic valve ( 15 ) is opened so far that the pneumatic cylinder is pressurized.
When the switch ( 13 ) is actuated further, the passage through the valve ( 14 ) is opened further and further until finally, in the end position, an unimpeded passage of liquid is ensured.
The maximum feed speed can be reached in this position. When drilling sheet metal, it can be achieved that the feed rate, particularly when the drill passes through a thin sheet, can be controlled very sensitively, which largely prevents the drill from catching.
This is particularly advantageous when drilling pipes or multi-wall sheet metal parts.

Claims (9)

1. Attachable additional device for hand drills, the additional device consisting of a pressing device ( 1, 2 ) which can be actuated via a piston / cylinder unit ( 4, 5 ) and has a pneumatic energy supply for generating the feed force during drilling, with a guide slide ( 1 ) at one end with the piston ( 4 ) and at the other end is connected to an angular counter bearing ( 2 ) for engaging behind the workpiece ( 3 ) and whereby a switching valve ( 15 ) in the supply line ( 19, 20 ) to the pneumatic cylinder ( 5 ) can be pressurized thereby characterized in that a further piston / cylinder unit ( 6, 7 ) is provided, which is on the one hand in operative connection with the guide slide ( 1 ) and on the other hand with the housing ( 21 ) of the additional device and a liquid is used as the working fluid that a with the pneumatics - Switching valve jointly operable brake valve ( 14 ) is provided, each with a line ( 17, 18 ) with the two en work spaces of the further cylinder unit ( 5 ) is connected. 2. Additional device according to claim 1, characterized in that the brake valve ( 14 ) has three switching positions with different flow resistances, the passage being unrestricted in the first switching position, the passage being blocked in the second switching position and the passage variable resistance in the third switching position having. 3. Additional device according to claim 1 and claim 2, characterized in that the pneumatic valve ( 15 ) and the brake valve ( 14 ) are coupled in their actuation so that in the first switching position of the brake valve ( 14 ) (unthrottled passage), the pneumatic valve in the switching position for "releasing" the pressure device ( 2 ), in the second switching position of the brake valve ( 14 ) (blocked passage) the pneumatic valve ( 15 ) is in an intermediate position and in the third switching position of the brake valve ( 14 ) the pneumatic valve ( 15 ) is in the switch position for "pressing". 4. Additional device according to claim 1, characterized in that the piston rod ( 22 ) of the pneumatic piston ( 4 ), the guide slide ( 1 ) and the brake cylinder ( 7 ) are each axially adjustable in a common carrier ( 8 ). In that an axially adjustable stop ring (11) is provided for limiting the stroke of the pilot valve (1) 5. Additional device according to claim 1 and claim 4, characterized in that on the guide slide (1). 6. Additional device according to claim 5, characterized in that the stop ring ( 11 ) sits between the carrier ( 8 ) and housing ( 21 ). 7. Additional device according to claim 1 and claim 4, characterized in that the piston rod ( 22 ) of the pneumatic piston ( 4 ) via an in the common carrier ( 8 ) held adjusting nut ( 9 ) relative to the carrier ( 8 ) is axially adjustable. 8. Additional device according to claim 7, characterized in that the piston rod ( 22 ) of the pneumatic piston ( 4 ) has an anti-rotation device ( 10 ). 9. Additional device according to claim 1 to claim 3, characterized in that in one of the lines ( 17, 18 ) between the brake cylinder ( 7 ) and brake valve ( 14 ) a liquid expansion tank ( 16 ) is arranged.