SE528040C2 - Hydraulic breaker - Google Patents

Abstract

Hydraulic breaker hammer comprising a housing ( 10 ) with a longitudinal bore ( 12 ), a cylinder sleeve ( 14 ) mounted in the bore ( 12 ), a hammer piston ( 15 ) sealing guided in the cylinder sleeve ( 14 ), a guide sleeve ( 21 ) located in the front end portion of the bore ( 12 ) for receiving a working implement, and a rear end cover ( 16 ) forming a closure for the rear end of the bore ( 12 ). The rear end cover ( 16 ) comprises a tubular neck portion ( 17 ) which is formed integral as a one piece member with the end cover and which extends into the bore ( 12 ). The neck portion ( 17 ) forms a guide means for the hammer piston ( 15 ), and the bore ( 12 ) having an axially facing annular shoulder ( 18 ), wherein the cylinder sleeve ( 14 ) is supported in a correct operating position between the shoulder ( 18 ) and the end cover neck portion ( 17 ).

Description

.28 040 P20-04801-050615 The hydraulic breaker illustrated in the drawing figures comprises a housing 10 formed with a rear mounting flange 11 for connection to a mechanical carrier such as an excavator arm. The housing 10 is provided with an elongate through-going bore 12 which in its rear part carries a cylinder sleeve 14 for sealing control of a percussion piston 15. At the rear end of the housing 10 a end piece 16 is screwed which serves as an end closure of the bore 12. This end piece 16 is formed in one piece with a tubular neck portion 17 extending in the bore 12 and abutting against the rear end of the cylinder sleeve 14. The latter is held clamped in position in the bore 12 between the neck portion 17 of the end piece and a shoulder 18 in the bore 12. The neck portion 17 also forms a guide means for the percussion piston 15 and carries a sealing ring 19 for co-operation with the rear end of the percussion piston 15.

At its front end, the bore 12 carries a tool guide sleeve 20 which is arranged to receive the rear end of a working tool (not shown). For lubrication of the inside of the guide sleeve 20, a supply channel 21 is arranged in the housing 10 for lubricant which, via radial openings 22 a, b in the guide sleeve 20, communicates the inside of the sleeve 20. Furthermore, the guide sleeve 20 is provided on its outside with four O-rings 23 a-d, the tasks of which are two, namely to keep the guide sleeve 20 in the bore 12 by frictional engagement with the bore 12, and to seal two annular spaces 24,25 between them. The openings 22 a, b in the guide sleeve 20 are located between the O-rings 23 a, b and 23 c, respectively, so that lubricant must pass through the spaces 24,25 to reach the radial openings 22 a, b and the inside of the guide sleeve 20.

See Fig. 3. The spaces 24,25 are thus filled with lubricant (grease), and thanks to the axial extent of the spaces 24,25 the lubricant is spread over a substantial part of the outside of the guide sleeve 20, whereby the guide sleeve 20 is prevented from getting stuck in the bore 12.

P20-04801-050615 The housing 10 has a pressure channel inlet 28 for supplying pressure medium to the cylinder sleeve 14 to thereby drive the percussion piston 15 in its reciprocating motion and deliver blows to the working tool inserted in the guide sleeve 20. The piston 15 has two mutually opposite drive surfaces 29, 30, of which the lower surface 30 is continuously connected to the source of pressure medium, while the upper surface 29 is intermittently pressurized via a distribution valve 31.

The distribution valve 31 has a media inlet 32 which communicates with the inlet channel 28, and a media outlet 33 which communicates with the upper drive surface 29 of the percussion piston 15.

Furthermore, the distribution valve 31 comprises a valve bore 35 and a valve element 34 which is erratically guided in the bore 35. The valve element 34 consists of a tubular guide portion 36 which is guided in the bore 35, and an end wall 37. In the end wall 37 there are through openings 38 for connecting the inside of the guide portion 36 and the media inlet 32 to the outer surface of the end wall 37. The end wall 37 has a reduced diameter actuating member 40 which extends coaxially in a direction opposite the guide portion 36 and is included in an intermittent pressurized actuating bore 41. The end wall 37 has a slightly larger cross-sectional area than the guide portion 36, and since the valve member 34 has open ends, the pressure medium will act constantly both on the surface formed by the guide portion 36 and, via the openings 38, on the outer surface of the end wall 37. In the position where the actuating bore 41 is connected to the tank, i.e. when no pressure acts on the actuating part 40, a closing force arises on the valve element 34 because the remaining part of the end wall 37 is smaller than the surface of the guide portion 36. Instead, when the actuating bore 41 is pressurized, the total surface of the end wall 37 and the actuating member 40 will generate a force which will dominate over the force generated by the action of the pressure medium 528 040 on the guide portion 36. This means that the valve element 34 is adjusted to its open position. (Not shown).

The valve element 34 is arranged to control the communication between the inlet 32 and the outlet 33, and for that purpose the valve element 34 is designed with a double sealing function, namely both a gap seal and a seat seal. The seat seal is the primary seal and is formed by an annular seat 45 at the end of the bore 35 in association with an annular contact surface 46 on the end wall 37. The gap seal is a secondary seal and is formed by a circumferential surface 44 of the end wall 37 in association with the valve bore 35, as illustrated by the closed position shown in Fig. 1. Through a combined gap seal and seat seal as described above, a high degree of sealing of the valve is achieved, and thereby a high efficiency of the percussion.

The percussion instrument shown in the drawing also comprises pressure nail absorbing accumulator 50 which consists partly of the percussion housing 10 and partly of a cover 51 mounted on the housing 10. The accumulator 50 comprises an expansion chamber 52 which is conventionally divided by a flexible membrane 53 in a pressure medium chamber 54 and a gas cushion chamber 55. The expansion chamber 52 is defined by an inner wall 57 and an outer wall 58, the outer wall 58 being formed by the lid 51.

The accumulator also comprises a movable diaphragm support 59 which consists of a stem part 61 and a diaphragm supporting head 62.

The latter is located in the pressure medium chamber 54, while the stem portion 61 is slidably guided in a bore in the inner wall 57. Apertures 64 are provided parallel to the stem portion 61 for communicating pressure medium into the expansion chamber 52, and the head 62 is arranged to cover these openings 64. at low pressure levels when the diaphragm 53 528 040 P20-04801-050615 is pressed against the inner wall 57. A spring 65 is arranged to exert an adjusting force on the diaphragm support 59 in the direction of the diaphragm 53. In order to limit the length of the guiding stem part 61 a stop means is arranged in in the form of a bulge 66 on the outer wall 58 of the expansion chamber. This bulge 66 is formed integrally with the lid 51. This limiting arrangement for the diaphragm support 59 is simple in its design as it does not contain any additional details. The spirit closure arrangement according to the invention means a simpler and less expensive installation of the cylinder sleeve in the housing, and by designing the piston guide as a simple two-part arrangement, ie. including the cylinder sleeve and the end piece with its neck portion, a significant cost reduction is achieved in both manufacture and service and maintenance. However, the embodiments of the invention are not limited to the described example but can be freely varied within the scope of the claims.

Claims (2)

528 040 P20-04801-050615 Batentkray. A hydraulic breaker comprising a housing (10) having a longitudinal bore (12), a cylinder sleeve (14) mounted in the bore (12), a percussion piston (15) sealingly guided in the cylinder sleeve (14), a guide sleeve (21) located in the front end of the bore (12) for receiving a work tool, and a rear end piece (16) forming an end closure for the bore (12), characterized in that said rear end piece (16) has a tubular neck portion (17) which is formed integrally in one piece with the end piece (16), in that said neck portion (17) extends into the bore (12) and forms a guide for the percussion piston (15), that the bore (12) has an annular shoulder (18), and that the cylinder sleeve (14) is axially fixed in its correct working position between said shoulder (18) and the neck portion (17) of the end piece. Breaking hammer according to claim 1, characterized in that the housing (10) at its rear end is formed with mounting means (11) for connection to a mechanical carrier.