EP0747180A1 - Drilling support with feeding arrangement for hand-held drilling machine - Google Patents

Abstract

The stand has a length-adjustable support of two telescopic bars (2,4), and a carrier (10) for a drill (30), which is axially moveable on one bar towards the drilling location, via a lockable adjusting device (40). An advance pressure spring (50) is located between carrier and adjuster. An advance pressure spring is located between carrier and adjuster. When a drill clamped in the carrier comes into contact with the drilling point, the spring is compressed and an advance force is applied to the carrier via the adjusting device. The spring is a helical spring arranged around the bar. The adjusting device has a threaded ring, which is adjustable on a threaded section of the bar.

Description

The invention relates to a drill stand with an automatic feed device for a drilling machine, in particular for producing boreholes in concrete ceilings or the like.

Concrete ceilings are usually drilled from the bottom up so that the drilling dust can fall freely out of the borehole due to gravity. The drilling work requires a lot of effort, since the drilling machine has to be pushed upwards manually. At the same time, the worker is exposed to the drilling dust falling out of the borehole. The work is not harmless as a result of the long drill tending to vibrate and damage to health through inhalation of the dust can also occur.

Drilling stands with automatic, hydraulic feed devices are already known to press the drilling machine against the concrete ceiling. Such hydraulic feed devices are structurally complex and accordingly expensive to buy. They are therefore only suitable for relatively large, heavy drilling machines for the production of large diameter concrete openings. Hydraulic feed devices have not previously been used in connection with hand drills for drilling smaller holes in concrete ceilings.

It is also already known to provide a drill stand with a pivotable lever in order to press a drill from below against a concrete ceiling. Although this allows easier work, the worker is still exposed to the dust falling out of the borehole.

The object of the invention is to provide a portable, simple and light drill stand with an automatic feed device for a hand drill, so that concrete breakthroughs can be made without manual effort and without dust pollution while avoiding the disadvantages mentioned above.

To achieve this object of the invention, the invention provides a drill stand with a length-adjustable support consisting of two telescopically adjustable rods, with a support device for a drill, which is axially displaceably guided on one of the two rods, and an axially movable, lockable adjustment unit for advancing the support device in Direction to the drilling point via a feed pressure spring arranged between the support device and the adjustment unit, wherein when a drill clamped in the drilling machine is applied to the drilling point, a feed force is to be exerted on the support device by compressing the feed pressure spring via the adjustment unit.

To drill a concrete hole, the drill stand is set up between the floor and the concrete ceiling and adjusted to the height of the room by changing the length and finally firmly clamped between the floor and the ceiling. Then, by actuating the adjustment unit, the carrying device with the drill is moved upwards via the feed pressure spring until the drill touches the ceiling. The adjustment unit is then moved further upwards, which compresses the spring until it presses the drill against the ceiling with the required feed force. The drill stand is now set up and the drill can be switched on via a remote control. After the ceiling has been pierced, the drill is switched off again via the remote control and the adjusting unit is moved down again to relax the feed spring and remove the drill from the drilling point. Concrete piercing can therefore be done without manual effort and free of Dust pollution can be carried out with a simple drill stand.

Commercially available, length-adjustable supports can be used as drill stands, such as those used to set up formwork. These supports usually consist of a lower standpipe or a lower rod in which an upper rod is slidably received. In addition, these known supports have a device for changing the length of the support. It is only necessary to provide the support device for the drilling machine, the adjustment unit and the feed compression spring on the upper rod. The feed compression spring can be a helical spring which is arranged around the boring bar.

In order to lift the carrying device with the drilling machine and to compress the feed compression spring, the adjusting unit can have a threaded ring on the upper rod, which is seated on a threaded section of the upper rod. The threaded ring can be locked on the upper rod after lifting the carrying device with the drill and compressing the feed pressure spring.

However, the adjustment unit preferably has a first adjustment head which can be displaced on the rod and in which a rotatable friction roller is mounted, which can be wedged self-locking between a running surface of the rod and inclined surfaces of the adjustment head under the load of the feed compression spring and is spring-loaded in the direction of the wedge point is, by driving the friction roller from the outside to move the adjustment head on the rod to advance the support device to the drilling point and to compress the feed compression spring and the friction roller against the spring load is movable away from the wedge point to the feed compression spring by displacement to relax on the rod in the opposite direction of the adjustment head and to move the carrying device away from the drilling point. Here The friction roller can be mounted in longitudinal holes arranged obliquely to the longitudinal axis of the support and can be gripped on both sides of the adjustment head by a guide element which is provided with a handle, the inclined surfaces being formed by side surfaces of the longitudinal holes which converge in the feed direction towards the running surface of the rod and a spring is arranged between the guide member and the adjustment head, which presses the friction roller towards the wedge point.

The device for changing the length of the support can consist of a friction drive with a second adjustment head which is integrally formed on the lower rod. An adjustment head with a friction drive for a length-adjustable support is described for example in DE-PS 26 30 446. In the second adjustment head, a rotatable friction roller is mounted which, under the action of the load through the upper rod, can be locked in a self-locking manner between a running surface of the upper rod and inclined surfaces of the adjustment head and is spring-loaded in the direction of the wedge point. The support is extended by driving the friction roller by extending the upper rod from the lower rod and to shorten the length of the support, the friction roller is moved away from the wedge point against the spring load, after which the upper rod can simply be pushed back into the lower rod .

Instead of this second adjustment head with friction drive, it is also possible to provide a screw connection between the two rods and to adjust the rods to the required length by rotation with respect to one another and then to lock them with a pin or the like. Finally, it would also be conceivable to provide a rod with two diametrically opposite bores and to install a row of axially spaced boreholes in the other rod and to set the support to the required length by a pin through one another through the aligned holes of the two rods. In this case, the support must be clamped between the floor and the ceiling using wheel chocks or the like.

The first adjustment head for the support device of the drilling machine and the second adjustment head for changing the length of the support are essentially identical in construction, with the exception that the first adjustment head can be moved on one rod (the inner, upper rod) and the second adjustment head on the other rod (the outer, lower rod) molded, z. B. is welded. In addition, the oblique wedge surfaces of the first adjustment head converge towards the tread of the inner rod in the upward direction toward the feed compression spring, while the oblique wedge surfaces of the second adjustment head converge in the opposite direction towards the tread of the inner rod. The two adjustment heads are thus rotated by 180 ° with respect to one another.

• Figur 1 eine Darstellung des Bohrständers gemäss der Erfindung mit einer in der Trageinrichtung eingespannten Bohrmaschine.
• Figur 2 eine vergrösserte Darstellung der Verstellköpfe zur Längenveränderung der Stütze und zum Anheben der Trageinrichtung und Vorspannen der Vorschub-Druckfeder.
• Figur 3 eine Schnittdarstellung längs der Linie 3-3 nach Figur 2.

An embodiment of the invention is shown in the drawings and is described in more detail below, showing:

• Figure 1 is an illustration of the drill stand according to the invention with a drill clamped in the support device.
• Figure 2 is an enlarged view of the adjustment heads for changing the length of the support and for lifting the support device and biasing the feed compression spring.
• Figure 3 is a sectional view taken along line 3-3 of Figure 2.

As shown in FIG. 1, the drill stand has a lower outer hollow rod 2 and an upper inner hollow rod 4, which is received telescopically in the lower inner rod 2. To change the length of the support, the rods 2 and 4 are displaced in the longitudinal direction relative to one another. The lower rod 2 has on her lower end a widened foot part 2a and the upper rod has a widened head part 4a at its upper end.

A support device 10 with a chuck 20 for a drilling machine 30 is slidably arranged on the upper rod 4. The carrying device 10 has a sleeve 12 which is adapted in its cross-sectional shape to the cross-sectional shape of the rod 4. Preferably, both rods 2, 4 have a square shape, other shapes, such as. B. circular rods are also conceivable. For precise adjustment of the drilling machine 30, the chuck 20 can be adjustable in the radial and circumferential directions with respect to the support. An adjustment unit 40 is provided below the support device 10 on the upper rod 4 and can be blocked on the rod 4. A feed compression spring 50 is arranged on the upper rod 4 between the adjustment unit 40 and the carrying device 10. A first spring seat ring 52 is located between the upper end of the spring 50 and the support device 10 and a second spring seat ring 54 is located between the lower end of the spring 50 and the adjustment unit 40. By moving the adjustment unit 40 upwards on the rod 4, the spring becomes 50 together with the carrying device 10 and the drilling machine 30 are raised until a drill 22 clamped in the drilling machine touches the ceiling D at the point to be drilled and then the spring 50 is compressed by further pressing the lower end of the spring 50 via the adjustment unit 40 to press the drill against the ceiling D with the required feed force.

The adjustment unit 40 will now be described in more detail with reference to FIGS. 2 and 3. The adjustment unit 40 has a first adjustment head 100 with a friction drive. The friction drive has a friction roller 102, which in longitudinal holes 104 in the front wall 106 and in the rear wall 108 of the adjustment head 100 is stored. The longitudinal holes 104 are arranged at an acute angle α to the longitudinal axis xx of the support, the angular tip being directed towards the head part 4a of the upper inner rod 4. The friction roller 102 has a central part 102a which bears against the tread 4 'of the inner upper rod 4. The friction roller 102 has end parts 102b of larger diameter on both sides of the central part 102a, which overlap opposite side surfaces of the upper inner rod 4 and are slidably received and guided in the longitudinal holes 104. By the feed compression spring 50, the adjustment head 100 is pressed down and over the oblique wedge surfaces 104 'of the longitudinal holes 104, which converge upwards towards the tread 4' of the upper rod 4, the friction roller 102 between the tread 4 'of the upper inner Rod 4 and the wedge surfaces 104 'of the longitudinal holes 104 facing and opposing the tread 4' are wedged or blocked.

A guide member 130 is mounted on the adjustment head 100 by means of a pivot pin 132 on lugs 134 about a horizontal axis y-y. The guide member 130 is U-shaped with two legs 130a, 130b, which overlap the front wall 106 and the rear wall 108 of the adjusting head 100 and are provided at their free end with semicircular cutouts 134a, in which the end parts 102b of the friction roller 102 are received are. In Figures 1 and 2, the front leg 130a is shown broken or broken away. A handle 136 is provided on the web 130c of the U-shaped guide member 130. A coil spring 138 sits on the pivot pin 132 and presses the guide member 130 clockwise and accordingly the friction roller 102 in the longitudinal holes 104 upwards towards the wedge point between the tread 4 'and the wedge surfaces 104'.

A hand crank 140 is pivotally received in a transverse bore of the friction roller 102. By rotating the hand crank 140 clockwise over the Friction roller 102, the adjustment head 100 on the inner rod 4 moves upwards to raise the drilling machine 30 and compress the feed spring 50. By pressing the handle 136 in the direction of the upper rod 4, the friction roller 102 in the longitudinal holes 104 is moved downward away from the wedge point moved and the adjusting head 100 can be freely moved down on the upper rod to relax the feed spring 50 and lower the drilling machine 30. The adjusting head 100 has an extension sleeve 142 which is adapted in its cross-sectional shape to the upper rod 4 and is non-rotatably guided thereon. The lower spring seat ring 54 lies on the upper end of the extension sleeve 142.

To change the length of the support, a second adjustment head 100 ', see FIGS. 1 and 2, is provided with a friction drive, which essentially corresponds to the first adjustment head 100 for lifting the carrying device 10 and compressing the spring 50, with the exception that the second adjustment head 100' is rotated by 180 degrees with respect to the first adjustment head 100, i. H. the apex of the angle α 'between the longitudinal axis x-x of the support and the longitudinal axis of the longitudinal holes 104' is directed towards the lower end of the lower rod 2. In addition, the second adjustment head 100 'cannot be moved on the upper rod 4, but is welded to the lower rod 2. All other components of the second adjustment head 100 'are identical to the components of the first adjustment head 100, so that a further description of these components is unnecessary here.

It should only be mentioned that under the load the friction roller 102 'of the second lower adjustment head 100' is self-lockingly wedged between the tread 4 'of the upper rod 4 and opposite wedge surfaces of the longitudinal holes 104'. The helical spring 138 'presses the friction roller 102' downward towards the clamping point via the guide member 130 '. To extend the support, the friction roller 102 'is turned clockwise by means of the hand lever 140 'rotated. By pressing the hand lever 136 'in the direction of the lower rod 2 against the spring 138', the friction roller 102 'is moved upward away from the clamping point, so that the upper rod 4 can be pushed into the lower rod 2 to shorten the strut .

The stand can also be used to drill holes down into the floor and can also be used horizontally to drill holes in vertical walls.

Claims (8)

Drill stand with a length-adjustable support consisting of two telescopically adjustable rods, with a support device for a drill, which is axially displaceably guided on one of the two rods, and an adjustment unit which can be axially moved and locked on the rod for advancing the support device in the direction of the drilling point via a between the support device and the feed compression spring arranged in the adjustment, a feed force being exerted on the support device when a drill clamped in the drilling machine is in contact with the drilling point by compressing the feed compression spring via the adjustment unit. The drill stand according to claim 1, wherein the feed compression spring is a coil spring arranged around the rod. Drill stand according to claim 1 or 2, wherein the adjusting unit comprises a threaded ring which is adjustable on a threaded portion of the rod. Drill stand according to claim 1 or 2, wherein the adjusting unit has an adjusting head which is displaceable on the rod, in which a rotatable friction roller is mounted, which can be wedged under the load by the feed compression spring between a running surface of the rod and inclined surfaces of the adjusting head and in the direction is spring-loaded on the wedge point, the adjustment head being moved from the outside to the rod by driving the friction roller for advancing the carrying device to the drilling point and for compressing the feed compression spring and the friction roller being movable away from the wedge point counter to the spring load in order to advance the feed - compression spring by displacement in the opposite direction of the Relax the adjustment head on the rod and move the support device away from the drilling point. A drill stand according to claim 4, wherein the friction roller is mounted in longitudinal holes arranged obliquely to the longitudinal axis of the support and is gripped on both sides of the adjustment head by a guide element which is provided with a handle, the inclined surfaces being formed by side surfaces of the longitudinal holes which extend in the feed direction Converge tread of the rod and a spring is arranged between the guide member and the adjustment head, which presses the friction roller towards the wedge point. Drill stand according to one of claims 1 to 5, with an adjustable screw connection between the rods for changing the length of the support. Drill stand according to one of claims 1 to 5, wherein one of the rods aligned cross bores and the other rod has a series of axially spaced bores and a pin is provided for adjusting the length of the support, which is aligned by the cross bores of the one rod and one Hole in the other rod. Drill stand according to one of claims 1 to 5, wherein for changing the length of the support one of the rods is provided with an adjustment head in which a rotatable friction roller is mounted, which is self-locking under the action of the load by the other rod between a tread of the other rod and inclined Surfaces of the adjustment head can be wedged and is spring-loaded in the direction of the wedge point, the support being extendable from the outside by driving the friction roller and the friction roller being movable away from the wedge point against the spring load to shorten the length of the support.

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