JACOBSSON WILHELM MATTIAS (SE)
ERIKSSON UIF MIKAEL (SE)
JACOBSSON WILHELM MATTIAS (SE)
| US4594030A | 1986-06-10 | |||
| US6343900B1 | 2002-02-05 | |||
| US4890962A | 1990-01-02 | |||
| US3679320A | 1972-07-25 | |||
| CN2850805Y | 2006-12-27 | |||
| GB515534A | 1939-12-07 | |||
| EP0060186A2 | 1982-09-15 |
| Claims 1. A Means for changing the drill shaft rotation velocity of a gearbox (3) in a drilling unit (12) , c h a r a c t e r i z e d in that • the gearbox (3) is provided with an output axle (5) and an input axle (6) , • a cassette (4) is provided comprising at least two meshed gearings (10, 11) with a certain gear ratio, • said cassette (4) having one input axle (7) and one output axle (8) each connected to one of the gearings (10, 11), • said cassette is detachable mounted on the outside of the gearbox (3) , • said cassette (4) further comprising interconnecting means, for connecting said input axle (7) and output axle (8) , to output axel (5) respectively input axle (6) of the gearbox (3) for adapting the total gear ratio of the said gearbox (3) to different unit applications . 2. A drilling unit (12) comprising a motor (1), a drilling shaft (2) , and a gearbox (3) coupling the motor (1) to the drilling shaft (2) , c h a r a c t e r i z e d in that • the gearbox (3) comprises an output axle (5) and a input axle (6) , • a gearing cassette (4) is mounted to the outside of the gearbox (3) , • said gearing cassette (4) comprises a gearing with a certain gear ratio and arranged to connect said output axel (5) to said input axle (6) , wherein • said gearing cassette (4) is one of a number exchangeable gearing cassettes (4) with different gear ratios for adapting the total gear ratio of the gearbox (3) to different unit applications. 3. Drilling unit according to claim 2, wherein the gearing of said cassette (4) comprises two gears (10, 11) one of which is connectable to said output axle (5) , whereas the other is connectable to said input axle (6) . 4. Drilling unit according to claim 3, wherein a quick coupling means is provided to facilitate connection of said two gears (10, 11) to" said output axle (5) and input axle (6) at change of gearing cassette (4) . |
Field of invention
The present invention relates to a drilling unit with automatic drill shaft feeding, and more precisely a method and means for changing the drill shaft feeding velocity in such a drilling unit.
Background of the Invention
These type of drilling units are used e.g. when drilling holes when building of aircraft fuselage. The drilling units are mounted in frames or boring jigs, which are moved between the different boring sites. Depending on the type of material that is processed, and also material thickness, there is a need for varying the automatic drill shaft feeding velocity. According to prior art, the drilling units have to be rebuilt in order to obtain different feeding velocities. One reason for this is that the drilling units have to be kept small because of the mostly narrow working space around an aircraft fuselage. Thus, a gearbox built into the unit would make it too large. There is a need for drilling units with variable automatic drill shaft feeding velocities.
Summary of the Invention
One object of the invention is thus to provide a method for changing the drill shaft feeding velocity in drilling units with automatic drill shaft feeding, which allows for a quick, secure and comfortable change of the feeding velocity.
Another object of the invention is to provide a means for performing the method according to the invention. A further object of the invention is a drilling unit with automatic drill shaft feeding being equipped with said means for performing the method according to the invention. These and other objects are achieved with the method according to the present invention, comprising providing a gearing cassette with a requested gear ratio; mounting of said cassette having one input axle and one output axle, each connected to a gear adapted to transform the rotational speed transferred to the input axle into a desired output rotational speed on the output axle, on a corresponding output axle on the drill shaft feeding gearbox and a corresponding input axle connected to a feeding mechanism for the drill shaft, respectively, said axles being fitted with suitable interconnection means. Preferably, a number of gearing cassettes having different, predetermined gear ratios are provided. The means for performing the method according to the invention being a gearing cassette comprising a housing, two mutually meshed gears provided in said housing providing a desired gear ratio, one gear being arranged to be coupled to an output axle on a gear box of the drilling unit, and the other gear being arranged to be coupled to an input axle on the drilling unit, which is connected to said drill shaft feeding mechanism.
A drilling unit with automatic drill shaft feeding according to the invention is adapted to be equipped with an exchangeable and detachable gearing cassette having a desired gear ratio, having an output axle from the gearbox to be coupled to one of the gears in said gearing cassette, and having an input axle to be coupled to the other of the gears in said gearing cassette, which input axle is coupled to the drill shaft feeding mechanism.
Brief description of Drawings
Further objects, advantages and features of the invention will be apparent from the following detailed description relating to one embodiment of the invention shown in the accompanying drawing, in which
Figure 1 shows a schematic view of a drilling unit with automatic drill shaft feeding, and
Figure 2 shows a schematic cross sectional view of a gearing cassette according to the invention.
Description of preferred embodiments
In Figure 1, a drilling unit is shown very schematically. A motor unit 1 drives a drilling shaft 2 through a gearbox 3, and said motor unit 1 also powers the automatic drill shaft feeding through the gearbox. As mentioned in the preamble of this specification, prior art drilling units have to be rebuilt in order to change the drill shaft feeding velocity. This means that the whole unit must be disassembled, gears must be exchanged, and the unit assembled once more.
In order to eliminate this problem and make quick and easy changes of the feeding velocity possible, the drilling unit is provided with an exchangeable gearing cassette 4, which is mounted on the outside of the drilling unit, and which is connected between an output axle 5 from the gearbox, and an input axle 6 connected to the drill shaft feeding mechanism.
A number of gearing cassettes 4 would normally be provided, each having a desired gear ratio for a certain application.
Any number of cassettes could be provided, covering a broad spectrum of gear ratios.
As shown in Figure 2 the gearing cassette comprises a housing 9, mutually meshed gears 10, 11 in the housing having axles 7, 8 to be coupled to the above mentioned axles on the drilling unit. In order to obtain a desired gear ratio, the gearing cassettes might comprise more than two gears .
The coupling between the gears in the gearing cassette and the axles on the drilling unit is not critical to the invention, and the man skilled in the art related to coupling of two rotary axles to each other is capable of designing a number of different equivalent solutions. In the schematic drawing is illustrated two axles sticking out of the gearbox of the drilling unit designed as male parts of coupling, to be inserted into female parts in the gearing cassette, not illustrated in the drawing. Of course, this can be made the other way around with axle parts sticking out of the gearing cassettes.
To make the mounting of the gearing cassettes easy and secure, a coupling involving splines might be used.
A great advantage achieved with the invention is that the suggested solution neither adds substantial weight nor volume to the drilling unit, together with the fact that the exchange of gearing cassettes is quick and simple.