DE1637800U - AIR HAMMER, IN PARTICULAR REMOVAL HAMMER. - Google Patents

Description

Jackhammer, in particular pick hammer.

In the case of demolition hammers, a retaining cap that is screwed onto the front part of the hammer body or in is otherwise releasably attached. The leadership of the Spitz iron is usually done by a cylindrical plug-in shaft located behind the pointed iron collar, which slides in a special sleeve that is mounted in the front part of the hammer body. The insertion end also serves to seal the front cylinder space. Instead of going into a bushing of the hammer body, the point iron has already been guided in the retaining cap alone. The collar of the insert tool was guided like a piston in the cylindrical bore of the retaining cap and the upstream cylindrical shaft part of the insert tool in the end bore of the retaining cap. In such excavation hammers, there has always been a truncated conical extension of about 12 to 19 mm in height behind the collar, by means of which the tip iron protrudes into the front cylinder bore. The rear face of this approach was acted upon by the piston of the hammer while working.

The innovation now suggests a jackhammer, in particular Pick-up hammer, to be designed with the insertion tool only guided in the retaining cap, that the collar of the insert tool forms its rear end. The one behind so far the collar of the insert tool that was still present, detached hood or. frustoconical Approach (not to be confused with a gate. Existing edge breaking or rounding the rear edge of the waistband) is therefore omitted.

The elimination of the offset frustoconical approach allows it, either the stroke length if the total length of the compressed air tool remains the same of the piston to increase the corresponding wetness and thereby the impact work and To increase the performance of the compressed air tool or with the same stroke length and Performance to reduce the overall length of the compressed air tool and thus also its weight. Both one and the other of these measures are particularly important in the case of demolition hammers essential where in the interests of making work easier the miner strives for the greatest possible impact work with the lowest possible weight will.

The elimination of the machining requiring truncated cone formal approach also brings a simplification and Cheaper production and domit a reduction of the production costs with it.

Another important advantage is evident from the following comparison between the known and the new compressed air tool: With the previously known compressed air tools with a stepped frustoconical attachment behind the pointed iron collar can, as has been shown, as a result of the constant loading by the piston Break out parts of the approach protruding from the collar. Every stroke of the piston the end face of the attachment that has become asymmetrical to the longitudinal axis of the hammer then generates eccentric forces in both the tip iron and the piston, which strive to "tilt" these parts of the hammer 44. h. in one through the To twist the longitudinal axis of the hammer).

These eccentric forces have a special effect on the piston Mass harmful when the point iron is in the fully retracted position and the frustoconical extension protrudes into the front cylinder bore, because then the front end of the piston is not guided in the front cylinder bore and the piston is therefore more easily exposed to tilting. Heavy piston and cylinder wear is then as a result of the appearance of eccentric forces and those caused by them Stresses inevitable.

In contrast, with the jackhammer according to the innovation due to the omission of the stepped frustoconical approach, the risk of parts breaking out of the acted upon surface is significantly reduced and practically even eliminated, because with him the collar is acted upon directly by the piston, i.e. a closed and Solid body made of homogeneous material, which is very resistant to stress on the sole plate. Eccentric forces will therefore hardly occur when the piston acts on the tip iron. When the piston hits the tip iron, the front end of the piston is also always guided in the front cylinder bore, i.e. even when the tip iron is in the fully retracted position (since there is no shoulder protruding into the cylinder bore). As a result of this guidance, tilting of the piston cannot occur, even if eccentric forces should exceptionally have been generated for some reason. The wear on the piston and in the cylinder bore will therefore always be within moderate limits s keep. In the drawing, the subject of the innovation is shown in an exemplary embodiment, namely illustrated they make a longitudinal section through the front part of a mining hammers with pointed iron. In the drawing mean (Stepped piston) 1 the hammer body, 2 the percussion piston with the retaining cap Thread 4, 5 the point iron with the collar 6. The collar 6 of the tip iron is in the cylindrical bore 7 of the Retaining cap 3 guided, while the shaft part 5 'of the tip is guided through the end bore 8 of the retaining cap.

The annular space 71 located in front of the collar 6 can of course also be used for Conviction of a compression pillow can be exploited. Protective application.

Claims (1)

Claim to protection. Jackhammer, especially a pick hammer, which does this with a Insertion tool (pointed iron) provided with collar can be released by the hammer body connected retaining cap held, the collar of the insertion tool like a piston in the cylindrical bore of the retaining cap and the door-mounted cylindrical shaft part of the insert tool is guided in the face bore of the retaining cap, characterized in that that the collar (6) of the insertion tool (5) forms its rear end.