CH626823A5 - Hydraulic percussion apparatus - Google Patents

Description

The invention relates to a hydraulic hammer device, in particular for a hammer drill, which has a housing to which a tool can be fastened and in which a cylinder space in communication with a hydraulic fluid generator is formed for receiving an axially reciprocating piston which has a head and is concentrically surrounded by a sleeve-shaped, axially movable control valve which effects the reversal of direction, the cylindrical inner surface of which forms a cylindrical wall of the cylinder space surrounding the head.

Such a hydraulic impact device is known from GB-PS 1 125 725. In this apparatus, the piston is already directly surrounded by the control valve. This feature already achieves the advantage that the hydraulic quantity required to control the valve can be obtained much more easily from the front cylinder space, namely via a channel located on the piston, than in the known impact device according to DE-OS 1 703 753 is the case.

A further improvement of the striking apparatus known from the aforementioned GB-PS is aimed at in that the harmful effect of the wear of the striking end of the piston on the functioning of the striking apparatus and the difficulties in starting the apparatus are reduced. Furthermore, the construction should be able to be simplified. A striking apparatus is thus to be created, the function of which is insensitive to wear of the striking end of the piston and which can be started easily in any position of the piston and which is also simple in construction and reliable in operation.

The hydraulic impact device according to the invention is characterized in that on the front side of the head facing the impact side of the piston, the cylinder chamber has a front chamber which is separated from a control valve chamber accommodating the control valve by a shoulder formed in the housing and surrounding the head, and in that cylindrical surface of the head of the piston, there is at least one channel which delimits the height of the end of the stroke movement of the piston between the front chamber and that part of the control valve space which delimits the front end face of the control valve through the housing, the piston and the stroke side of the piston is a connection which is interrupted by the head near the end of the stroke movement of the piston.

The invention is explained in more detail below with reference to the accompanying drawing, which represents an exemplary embodiment.

Fig. 1 shows the striking apparatus according to the invention in partial section from the side, the piston being shown at the end of a work stroke.

Fig. 2 corresponds to Fig. 1, but here the piston is shown at the beginning of a work stroke.

In the following explanations, “down” and “under” are to be understood as the end on the tool side and “up” and “above” are the opposite ends of the apparatus. Furthermore, the word channel is used in the singular form, even if it is related to a channel network consisting of several channels.

A piston 27, which has a shaft 5, a flange 4 and an extension 18, is movably accommodated in a cylinder space of a housing 1, which space consists of a cylinder space below the flanges 4, i.e. a lower space 8, and a cylinder space above the flanges 4, i.e. an upper room 10. As the piston 27 moves back and forth, it strikes a tool 2. If the tool 2 is not there, the piston 27 is stopped in a damper chamber 21, which the flanges 4 closes in its outermost position, the pressure in the damper chamber rises high enough to stop the piston from moving. A cylinder chamber 17 provided for the extension 18 connects the upper chamber 10 to an inlet duct 9 via a channel 26 when the piston approaches its upper turning point. The striking apparatus is traversed by a flushing pipe 23, which guides the flushing agent into a hole in the tool 2. A pressure hose which supplies pressure fluid to the apparatus can be connected to a screw connection 24 and an outlet hose correspondingly to a screw connection 25. The inlet duct 9, which leads to the lower space 8 and the upper space 10 and to a pressure accumulator 19, begins at the screw connection 24 in the housing of the striking apparatus. The purpose of the accumulator is to balance the flow quantities and pressure deviations.

The inlet channel 9 is in continuous communication with the lower space 8 and via a control valve 7 with the upper space 10. In the piston 27, the constantly pressurized lower surface of the flanges is smaller than the surface, the pressure acting thereon by means of the control valve 7 can be turned off or triggered. When the upper space 10 is pressurized, the piston 27 moves down. In contrast, during the outlet from the upper space 10, the piston moves upwards.

The control valve 7 moves in a space 6 which immediately surrounds the part of the cylinder space 8, 10 in the housing 1 in which the piston flanges 4 move. A narrowing 28 is provided between the lower space 8 and the control valve space 6, the cylindrical inner surface of which forms part of the cylindrical wall of the cylinder space 8, 10 surrounding the piston flanges 4.

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A part of the space 6 located below the control valve 7 is connected to the lower space 8 by channels 13 arranged in the piston 27 after the piston 27 has moved down sufficiently. Openings 15 and 16 are also provided in the control valve 7 and are temporarily connected to an outlet duct IIa, IIb. If the control valve 7 is displaced sufficiently upwards, as in FIG. 1, the liquid can flow from the upper space 10 through the opening 15 formed in the control valve 7 into the outlet channel IIa. When the space 6 at the lower end of the control valve 7 communicates with the pressurized lower space 8 via channels 13 arranged in the piston, the pressure acting on the lower surface 14 of the control valve 7 presses the valve upwards. This is due to the fact that the upper surface 12 of the control valve is smaller than the lower surface 14 and that the pressure is the same on both sides. When the piston 27 has approximately reached its upper turning point, with the control valve 7 in its upper position, the channels 13 of the flanges 4 connect the control valve chamber 6 to the outlet channel IIb via the openings 16 provided in the control valve 7 Connection between the lower chamber 8 and the control valve chamber 6 is interrupted by means of the narrowing 28 located in the housing 1, which lies between the lower chamber 8 and the control valve chamber 6. When the control valve space 6 communicates with the exhaust port IIb, the pressure in the control valve space 6 decreases, while the inlet pressure acting on the upper surface 12 of the control valve 7 shifts the control valve 7 downward.

Fig. 1 shows a situation where the piston 27 begins its sweeping movement after striking the tool. The control valve 7 is stopped in its uppermost position in the damper. The pressure connection between the inlet duct 9 and the upper space 10 is completely interrupted, while the connection to the outlet duct IIa through the opening 15 is open. The pressure in the lower space 8 acts on the piston 27 and moves it upwards. The control valve chamber 6 is connected to the lower chamber 8 via the channels 13 in the piston 27.

After the piston has struck against tool 2, it begins its sweeping movement. Initially, the speed of the piston accelerates when the liquid flows through the channel IIa from the upper space 10 into the outlet channel 3. The acceleration decreases and finally the movement of the piston slows down when an edge of the piston begins to throttle the flow into the outlet channel IIa, the pressure in the upper space 10 increasing. So that the pressure in the upper room does not exceed the average pressure on the pressure side of the striking device by far626 823

rises, the edge of the extension 18 of the piston opens the connection 26 between the upper space 10 and the inlet channel 9 a little before the edge of the piston completely breaks the connection to the channel 1 la. When channel IIa is closed, the outlet to outlet channel 3 ceases and the piston continues to move at a decreasing speed. The liquid which the percussion piston removes during its movement flows through the channel 26 into the inlet channel 9 and is stored in the accumulator 19.

In Fig. 2, the piston 27 is about to start its stroke. The control valve 7 is stopped in its lower position in the damper. As the piston 27 moves downward, a little before its stroke it opens the connection between the lower space 8 and the control valve space 6 via the channels 13. In the control valve space 6, the pressure rises, as a result of which the control valve 7 is shifted upward. The connection between the inlet duct 9 and the upper space 10 is interrupted and the opening 15 leading to the outlet duct IIa is opened. The control valve 7 is stopped in the damper 20 in the position shown in FIG. 1.

The following advantages are achieved by the striking apparatus according to the invention:

The striker has a simple construction and has as few moving and wearing parts as possible.

The piston and the control valve are mutually controlled and the apparatus starts in any position of these parts. Additional parts that are necessary in the known constructions to improve the starting ability are unnecessary in this training.

The narrowness provided in the housing and the channels arranged in the piston flange can easily be dimensioned so that the wear of the striking end of the piston does not interfere with the function of the striking apparatus.

The impact device is not sensitive to changes in the pressure of the driving fluid.

The flow path of the liquid under pressure to the upper space of the cylinder is as short as possible because of the favorable position of the control valve, as a result of which the pressure losses are as small as possible.

The movements of the control valve are limited in both directions by stopping the valve in the vapors. In this way, wear caused by mechanical contact can be reduced.

The construction and the function of an impact device according to the invention are explained above using an exemplary embodiment. However, it is clear to a person skilled in the art that various embodiments of the invention are possible within the scope of the following patent claims.

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Claims (2)

626 823 2 PATENT CLAIMS 1. A hydraulic hammer, in particular for a hammer drill, which has a housing (1) to which a tool can be fastened and in which a cylinder space in communication with a hydraulic fluid generator is designed to receive an axially reciprocating piston (27). which has a head (4) and is concentrically surrounded by a sleeve-shaped, axially movable control valve (7) which reverses the direction, the cylindrical inner surface of which forms a cylindrical wall of the cylinder space surrounding the head (4), characterized in that on the The cylinder chamber has a front chamber (8) which faces the front of the head (4) of the piston (27) and which has a front chamber (8) surrounding the head (4) and formed in the housing (1) by a control valve (7 ) receiving control valve chamber (6) is separated, and that in the cylindrical surface of the head (4) of the piston (27) there is at least one channel (13) which at the end of the stroke of the piston (27) between the front chamber (8) and that part of the control valve chamber (6) which faces through the housing (1), the piston (27) and the striking side of the piston (27) front end face (14) of the control valve (7) is limited, establishes a connection which is interrupted by the head (4) near the end of the stroke movement of the piston (27). 2. Impact device according to claim 1, characterized in that the channel (13) in the piston head (4) is mounted such that it is delimited by the housing (1), the lower surface (14) of the control valve and the piston (27) Control valve chamber (6) through openings (16) in the control valve (7) with an outlet channel (IIb) connects when the control valve is in or near its uppermost position.