The invention concerns a method for controlling a fluid operated percussive device according to the preamble claim 1 and a fluid operated percussive device. The invention also concerns a rock drilling machine including such a percussive device.
From WO2006/043866 (Atlas Copco Rock Drills AB) is previously known a valve controlled hydraulic percussive device which in principle works according to the following. When the percussive piston has performed a stroke, it is driven backwardly by hydraulic force supplied to a forward drive face. When the piston has moved a certain predetermined distance, the so called signal point is reached. A circumferentially extending groove in the percussive piston which has previously connected a high pressure channel with a signal conduit of a main valve at this point instead establishes a connection between the signal conduit and a draining conduit.
This result in that the spool of the main valve starts to switch and, as seen in the Figure in said document, move to the right, driven by a permanent, high pressure on the left driving surface of the valve spool. When the spool thereafter reaches a central position, the pressure thereby switches on the right side of the percussive piston from return pressure into high pressure, whereby the percussive piston is retarded in order to subsequently start a movement in the striking direction, to the left in the Figure of said document. When the groove in the piston again reaches the high pressure channel, the signal conduit on the main valve is again pressurized and the valve spool again starts to switch and thereby move to the left, as seen in the Figure.
The percussive device is dimensioned such that when the percussive piston hits the shank adapter, at the striking moment, the spool of the main valve has reached its central position and the high pressure on the right side of the percussive piston has again changed into return pressure (or low pressure), whereon a percussive cycle can be repeated.
This previously known percussive device works reliably and well, but has a limitation in theoretically reachable stroke frequency.
It is an aim of the present invention to provide a percussive device according to the above, which makes operation possible with higher striking frequency than with previous conventional percussive devices of this kind.
This aim is obtained in a method and a device according to the above through the features of the respective characterizing portions of the independent claims.
With the conventional technology according to the above, the spool switching time, which is the time period from signal to switched spool, has been made as short as possible. This time period is influenced by parameters such as drive surfaces, channel areas, spool weight, spool stroke length. Further, the percussive piston speed is also given. Considering these parameters, the smallest possible distance or the signal point from the striking position can be established. Since the signal point at spool switching, during the movement of the piston opposite to the striking direction, for geometrical reasons can not go below a minimal length and the spool switching time is given, the percussive device will be given a shortest stroke length and thereby the percussive device be given a maximal stroke frequency.
With the valve system according to the background art, it is therefore not possible, under given conditions, to increase the striking frequency.
Through the invention, wherein an auxiliary valve is included into the system, this limitation can be avoided, whereby a striking length can be reduced and the frequency increased.
By controlling the auxiliary valve in order to transmit fluid contact between at least one auxiliary channel means with a channel port in the cylinder room and the main valve via the signal portion for switching the main valve before the percussive piston has reached the respective end region, the switching signal to the main valve can be transmitted earlier without having to take into account the above mentioned constructional dimensioning of the percussive device. This results in several advantages which on the one hand generally concerns the benefit of a higher striking frequency in a percussive device of this type, on the other hand the possibility of dimensioning the percussive piston with less weight in respect of its function for achieving high striking frequencies.
It is preferred that the auxiliary valve is controlled by the pressure in said drive chamber, whereby it is ensured that the auxiliary valve is switched to the desired function when the percussive piston is driven in the driving direction for the respective driving chamber. In particular it is preferred that the auxiliary valve is controlled by the pressure in a rear drive chamber of the percussive piston being provided for driving the percussive piston in the striking direction. A counter-acting return chamber can hereby be permanently pressurized whereas the rear driving chamber in that case is pressurized intermittently.
In particularly it is preferred that the auxiliary valve is controlled in order to transmit said fluid contact for 5 switching the main valve for the movement of the percussive piston in the direction of the one as well as the other of said regions, which means that the fluid contact through the auxiliary valve is transmitted for, on the one hand, the movement in the striking direction, and on the other hand, the movement opposite to the striking direction. Hereby is given increased possibilities of minimizing the stroke length and thereby increasing the frequency.
Corresponding advantages are obtained through a fluid operated percussive device according to the invention and further inventive features are defined in the other dependent claims.
The invention will now be explained in greater detail by way of embodiment being illustrated on the annexed drawings, wherein:
Numeral 1 on
The percussive piston 1 is in a per se manner provided with a narrower signal portion 4, which functions as a valve spool, and which is arranged, in given position of the percussive piston, to transmit fluid conduit contact between different channels having openings into the cylinder room 3.
In the position shown in
An auxiliary valve 9 with an auxiliary valve spool 10 is actuated by the pressure in the rear driving chamber 7 through a channel 25, said pressure pressing the auxiliary valve spool 10 to the left, as seen in the Figure, such that the pressure conduit 21 and a first auxiliary channel means 13, which opens into the cylinder room, are in fluid communication with each other. In the shown position, the channel opening of the first auxiliary channel means 13 has just opened after this channel opening having been covered by a portion of the percussive piston 1.
A signal chamber 24 of the main valve 5 has previously, when the percussive piston 1 was positioned somewhat more to the right than what it is in the shown position, over a signal conduit 15 been into contact with a draining conduit 12, which has an opening in the cylinder room 3, for the evacuation of this signal chamber 24. This has resulted in that the main valve spool 6 has been able to move in the direction to the right, into the position which is shown in
In
The continued movement of the percussive piston 1 in the striking direction A is now with decreasing pressure in the rear pressure chamber and with a constant pressure in a forward driving chamber 8. The percussive device is dimensioned such that the high speed moving percussive piston 1 with unreduced speed is allowed to move all the way forward to the striking position, before it has experienced any retardation because of changed force relations onto the percussive device. This is possible because of the prevailing inertia in the system which has been mentioned above, viz the setting speed for the main valve spool 6, resistance in conduits and channels etc.
In the position shown in
In
In
The percussive piston 1 will continue to decelerate and switch into movement in the striking direction in order to again reach the position which is shown in
With reference to
Position 30 indicates the start of the sequence.
Position 31 indicates that the percussive piston 1 has reached the position in
Position 32 indicates that the percussive piston 1 has reached the position in
Position 33 indicates that the percussive piston 1 has reached the position in
Position 34 indicates that the percussive piston 1 has reached the position in
Position 35 indicates that the percussive piston 1 has reached the position in
Position 36 indicates the end of the sequence.
The invention can be modified in the scope of the following claims. A solution can thus be envisaged where only one of the first and the second auxiliary channel means exist. It can also be envisaged that the percussive device is of the kind having intermittent pressurizing of a rear as well as of a forward driving chamber or having permanent pressurizing of the rear driving chamber and intermittent pressurizing of a forward driving chamber.
The arrangement for transmitting signals to the main spool can be different with signal channels to both sides of the main valve spool or signal transfer to the other side of the main valve spool. The arrangement with high pressure in conduit 11 and draining pressure in conduit 12 can be reversed.
Analogously with these variants and modifications, the auxiliary valve can be arranged otherwise and its output conduits be drawn differently and with the reverse function.
It is important to note that through the arrangement of the invention with an auxiliary valve, the switching signal to a main valve can be transmitted earlier than what is the case with the background part. This gives the possibility of having very short stroke lengths and thereby very high striking frequencies of a device according to the invention. As an example, at least a 50% frequency increase can be readily accomplished with simple means. Even greater frequency increases can be achieved.
Altogether, the signal for switching the main valve in the striking direction is thus lying closer to a rear end position for the percussive piston valve than is the case with a background art, whereas the signal for switching opposite to the striking direction is positioned closer to the striking position than what is the case of the background art.
Further, modifications can be had such as for example, which is per see known, to position a main valve spool coaxially with and surrounding a portion of the percussive piston.
Number | Date | Country | Kind |
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0700451-8 | Feb 2007 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2008/000054 | 1/23/2008 | WO | 00 | 7/16/2009 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2008/103095 | 8/28/2008 | WO | A |
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Number | Date | Country | |
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20090321100 A1 | Dec 2009 | US |