Percussion drill hammer
First Claim
1. A percussion drill hammer comprising:
- a casing;
handle means secured to said casing;
a cylinder within said casing;
said cylinder comprising a pressure chamber;
a hammer piston mounted for reciprocating movement within said cylinder;
said hammer piston having a first effective surface facing the pressure chamber and a second effective surface facing away from the pressure chamber;
means for feeding periodic pressure pulses of a pressure fluid at a predetermined pulse frequency to said pressure chamber;
said periodic pressure pulses impinging on said first effective surface of said hammer piston for causing the latter to perform percussion strokes;
means for constantly feeding a pressure fluid at a constant pressure acting on said second effective surface of said hammer piston for causing the latter to return against the percussion strokes;
spring means having a spring constant;
said casing having mounted therein a balance mass body having a mass and a further chamber located within said balance mass body and between positioned between said balance mass body and the hammer piston;
said further chamber having an end face facing said pressure chamber;
said balance mass body being displaceable within said casing in a direction parallel but opposite to the movement of said hammer piston with respect to the position of the pressure chamber and against the action of the spring means supported in said casing;
said periodic pressure pulses impinging on the end face of said further chamber in said balance mass body in a direction opposite to that for the hammer piston;
said balance mass body and said spring means together defining an oscillatory system having a characteristic cyclic oscillation frequency;
said characteristic cyclic oscillation frequency being defined by the mass of the balance mass body and by the spring constant of the spring means;
said characteristic cyclic oscillation frequency being in the range from one half to one third of said predetermined pulse frequency;
said second effective surface being smaller than said first effective surface at said hammer piston;
the area of said end face of said further chamber substantially corresponding to the difference between said first and said second effective surfaces at said hammer piston; and
whereby the casing does not suffer a shock-like recoil when each periodic pressure pulse impinges in one direction on the hammer piston.
1 Assignment
0 Petitions
Accused Products
Abstract
In a cylinder formed in a casing a hammer piston is mounted for reciprocating motion and is subjected to periodic pressure pulses from a pressure fluid. To prevent a reaction emanating from each pressure pulse from also acting as a shock on the casing, a balance or compensation mass body is provided in the casing which mass body is subjected to the pressure pulses in the direction opposite to that for the hammer piston and is displaceable parallel to the latter against the action of a spring supported in the casing. Together with the spring, the mass body forms an oscillator, the characteristic frequency of which is advantageously to be selected to be at most half, but preferably one third, of the frequency of the pressure pulses. In this way, the reaction shocks are smoothed out to a recoil force which fluctuates narrowly about a mean value and which can be kept lower than the weight of the casing, so that the casing is not subjected to any recoil accelerations.
35 Citations
4 Claims
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1. A percussion drill hammer comprising:
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a casing; handle means secured to said casing; a cylinder within said casing; said cylinder comprising a pressure chamber; a hammer piston mounted for reciprocating movement within said cylinder; said hammer piston having a first effective surface facing the pressure chamber and a second effective surface facing away from the pressure chamber; means for feeding periodic pressure pulses of a pressure fluid at a predetermined pulse frequency to said pressure chamber; said periodic pressure pulses impinging on said first effective surface of said hammer piston for causing the latter to perform percussion strokes; means for constantly feeding a pressure fluid at a constant pressure acting on said second effective surface of said hammer piston for causing the latter to return against the percussion strokes; spring means having a spring constant; said casing having mounted therein a balance mass body having a mass and a further chamber located within said balance mass body and between positioned between said balance mass body and the hammer piston; said further chamber having an end face facing said pressure chamber; said balance mass body being displaceable within said casing in a direction parallel but opposite to the movement of said hammer piston with respect to the position of the pressure chamber and against the action of the spring means supported in said casing; said periodic pressure pulses impinging on the end face of said further chamber in said balance mass body in a direction opposite to that for the hammer piston; said balance mass body and said spring means together defining an oscillatory system having a characteristic cyclic oscillation frequency; said characteristic cyclic oscillation frequency being defined by the mass of the balance mass body and by the spring constant of the spring means; said characteristic cyclic oscillation frequency being in the range from one half to one third of said predetermined pulse frequency; said second effective surface being smaller than said first effective surface at said hammer piston; the area of said end face of said further chamber substantially corresponding to the difference between said first and said second effective surfaces at said hammer piston; and whereby the casing does not suffer a shock-like recoil when each periodic pressure pulse impinges in one direction on the hammer piston. - View Dependent Claims (2, 3, 4)
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Specification