CS249494B1 - Breaking hydraulic hammer - Google Patents

Abstract

The solution concerns a hydraulic breaker, in which the distribution of the working fluid is solved. The hydraulic breaker consists of a body in which the working tool and the piston are slidably mounted. The piston is provided with a differential pressure surface and its working face reaches the nitrogen chamber formed in the body. A slide is slidably mounted in the body centrally with the piston. The essence of the solution is that the slide, which has the shape of a diaphragm, is arranged between the differential pressure surface and a collar formed on the piston. The collar is located between the differential pressure surface and the working face of the piston, while its outer diameter is the same as the diameter of the piston chamber. The distance of the front surface of the collar facing the differential pressure surface is greater than the length of the slide. The length of the slide is equal to the distance between the opposite edges of the discharge and supply channels leading into the piston chamber and arranged so that the supply channel is closer to the differential pressure surface than the discharge channel.

Description

249494 1 2

BACKGROUND OF THE INVENTION The present invention relates to a hydraulic breaker which has a fluid distribution system.

Known is a hydraulic breaker in which a working fluid distribution is realized by a slide in a separate body attached to the hammer body. The disadvantage of such a transfer is the increase in the contour dimensions of the hammer. In a further known hydraulic hammer solution, the slide is implemented in a ring-shaped body around the working piston. The slider realized in this way uses throttling openings for its efficiency, thereby increasing volume losses and reducing efficiency. The slider solutions in question require a slider that is complex in shape and difficult to seal, requiring material and technological demands.

The aforementioned drawbacks are eliminated by the erosion hydraulic hammer formed by the body in which the working tool is disposed on the one hand and the piston provided with the differential pressure plate and which extends its non-working face into a nitrogen chamber formed in the body in which the slide according to the invention is slid centrally with the working piston. that the ring-shaped slider provided between the differential pressure surface by the collar formed on the piston between its differential pressure surface and the working face, the outer diameter equal to the diameter of the chamber, wherein the distance of the face of the differential pressure flat shoulder is greater than that of the slider which is is equal to the distance from the self-reversing edges of the drainage channel and to the water channel leading to the piston chamber and arranged so that the supply channel is closer to the differential pressure flat than the removal channel. channel. An advantage of the bursting hammer according to the invention is that the cushioning of the slider utilizes a working cylinder of one diameter common to the piston and the slider, which reduces the material and manufacturing demands as well as the contour dimensions of the hammer. Because the slider does not need throttle openings to operate, the leakage losses are also reduced and the hydraulic breaker volume efficiency is increased.

In the accompanying drawing, an exemplary embodiment of a breaker hydraulic hammer according to the invention is shown in longitudinal section.

The erosion hydraulic hammer comprises a body 1 in which a single-work tool 12 is displaceable and a piston 2 provided with a differential pressure surface 3 and engage in a non-working face in the nitrogen chamber 11 formed in the body 1. A slide 5 is slidably mounted in the body 1 with the piston 2, which is in the form of a ring and is located by the inter-differential pressure surface 3 and the collar 14 formed on the piston 2. The ring 4 is disposed between the differential pressure surface 3 and the working face of the piston 2, the collar 4 facing the differential pressure plate 2 is greater than the length of the slide 5. The diameter of the slide 5 is the same as the diameter of the piston 2 and the length is equal to the distance of the edges of the drain channel 10 and the channel 9 being opposite. The ducts 9, 10 open into the chamber 8 such that the inlet duct is positioned closer to the differential pressure flat 3 than the outlet duct 10. In the base position in which the piston 2 is in the lower position and the slider 5 is also in the lower position. flowing the working fluid through the inlet channel 9 into the piston chamber 2 and pulling the piston 2 upward against the gas pressure in the nitrogen chamber 11. In the upper position, the piston 2 starts with the collar 4 to slide the slider so that it closes with the edge of the first slider face 6 the feed channel 9 and the second side of the slider face 5 opens the drain channel 1g, thereby compressing the nitrogen gas chamber 11 to accelerate the piston 2 downwardly to the tool 12 and expel the fluid from the piston chamber 8. The plunger 2 strikes the work tool 12 and the pressure differential surface 3 as it moves downward moves the slide 5 so that the edge of the second face 8 of the slide 5 closes the drain channel 10 and the current edge the first channel 6 opens the inlet duct 9 whereby the working fluid flows into the chamber 8 of the piston 2.

Claims (1)

SUMMARY OF THE INVENTION The breaker hydraulic hammer formed by a body in which a single work tool is slidably mounted, and a piston provided with a differential pressure face and extending its workpiece to a nitrogen chamber formed in the body in which a slide is disposed centrally with the workpiece. that the ring-shaped shifter (5) is provided between the differential pressure surface (3) and the collar (4) formed by the piston (2) between the differential pressure surface (3) and the working face having an outer diameter equal to the chamber diameter (8) of the piston (2) wherein the distance of the shoulder end face (4) tapered to the differential face flat (3) is greater than the length of the transducer (5) which is equal to the distance from the self-facing edges of the discharge channel (10) and the feed channel (9) to the chamber (8) and a piston (2) and wherein the distance of the inlet duct (9) from the differential thrust the surface (3) finer than the distance of the drain channel (10) from the differential pressure surface (3). 1 drawing