SE534161C2 - Handheld demolition tool - Google Patents

Abstract

Hand-held demolition tool (1), comprising a cylinder (2) with one or more pistons (7), a pipe (3) and a flexible coupling (4) for connecting the cylinder (2) to the pipe (3). The flexibility of the coupling (4) is arranged to a limited extent only to allow the flexibility as a rotatability between the cylinder (2) and the tube (3) about a rigid theoretical shaft (9) -

Description

20 25 30 35 40 534 'H31 2 this movement. A major disadvantage is also that the rubber hose also allows large skew between the cylinder 2 and the pipe 3 when the operator applies working pressure to the front handle grip 5. This undesirable property of the visible coupling 4 causes particular problems when the rubber hose has softened or worn after a period of operation of the tool 1. An extreme consequence of the undesired property is that the inclination becomes so great that the hose folds and blocks the air supply to the cylinder 2, whereby the operation slows down. It is obvious that the operator experiences such a tool as sloppy and difficult to maneuver. The object of the present invention is, according to the claims, to obtain a hand-held demolition tool in which the above-mentioned disadvantage is overcome. The flexible coupling has a design that allows the operator to experience the tool as stable and easy to maneuver.

The invention will be described in more detail with the aid of the accompanying figures 2-4. Figure 2 shows a hand-held demolition tool according to the present invention, seen from the side. Figure 3 shows the tool from Figure 2, behind the river, in a sectioned view. Figure 4 shows parts of the tool from Figure 2 and its possible connection in a partially sectioned and enlarged view.

The hand-held demolition tool 1 in Figure 2 has in principle the same structure and function as the known tool in Figure 1. The further description concerns the innovative improvements that make the new tool 1 expedient. The hand-held demolition tool 1 in Figure 2 comprises a cylinder 2 with three pistons 7, a pipe 3, a flexible coupling 4, a valve housing 8 and a front 5 and rear 6 handle grip, respectively.

The flexibility of the coupling 4 is limited to allow only flexibility in the capacity of rotatability between the cylinder 2 and the tool 1 about a theoretical axis 9. It is best to arrange, as in Figure 2, the direction of the shaft 9 perpendicular to the reciprocating pistons 7 and coincident. with the longitudinal direction of extension of the pipe 3, just before its connection with the flexable coupling 4. The pipe 3 is provided with external threads at its two ends for the connection to the flexable coupling 4 and the valve housing 8, respectively.

As previously mentioned, the cylinder 2 is subjected to undesired vibration movements during the operation of the tool 1. The part of the vibration movements which consists of alternating torsional movements is effectively absorbed by the arrangement as they only result in the cylinder 2 making small turns back and forth around the theoretical axis 9 and relative to the tube. 3. It is important that the torsional movement around the shaft 9 takes place approximately frictionlessly and without elastic action. The latter to avoid self-oscillation problems. The visible coupling 4 is designed to meet these requirements and will be described in detail in Figure 4.

Figure 3 shows how the flexibility of the flexible coupling 4 is arranged to allow rotatability between the cylinder 2 and the tube 3 about a theoretical axis 9.

The rotatability of the cylinder 2 (shown in broken lines) relative to the tube 3 is limited to about 10 ° from a basic position of the cylinder 2.

(Shown with curved arrow and solid lines in the clock.) The limitation of the rotatability of the cylinder 2 means that the tool tips of the pistons 7 are always correctly oriented in relation to the surface to be demolished with the hand-held demolition tool 1. The arrangement of the restriction will be shown in Figure 4.

The visible coupling 4 in Figure 4 comprises a shaft pin 10 with a circular cross-section and a swivel 11. The shaft pin 10 is arranged with longitudinal extension along the theoretical shaft 9 and has an internal channel for conducting compressed air to the cylinder 2. At one end the shaft pin 10 has an internal thread for the connection to the pipe 3. The swivel 11 is arranged with a play fit on the shaft pin 10. The swivel 11 is integrally arranged in the cylinder 2, but it is also possible to design it as a single component with a threaded connection to the cylinder 2. It is it is also possible to instead integrate a shaft journal in the cylinder and arrange a swivel with connection for a pipe. The visible coupling 4 also comprises a ball groove 12A with associated balls 12B in steel. The ball groove 12A is arranged in an outer circumference of the shaft pin 10 and in the enclosing swivel 11.

The ball groove 12A and the balls 12B enable an approximately friction-free rotatability between the shaft pin 10 and the swivel 11 and have in principle the same modes of operation as corresponding components in a ball bearing. The balls 12B are passed through a channel to the ball groove 12A when the swivel 11 is mounted on the shaft pin 10 and thus provides an axial locking between the components.

The balls 12B are retained in the ball groove 12A by a cylindrical pin arranged to block the channel. It is also possible to arrange the coupling without ball grooves and steel balls and instead arrange a sliding bearing.

The locking can then be arranged with a seeger fuse or other component with a similar function.

The visible coupling 4 also comprises a locking pin 13 and a locking groove 14.

The locking pin 13 is driven into a suitable hole in the swivel 11 and runs with a small clearance in and along the locking groove 14, which is arranged in the shaft pin 10.

The locking groove 14 has a U-shaped cross section and extends in length along an arc of a circle around the shaft 9. The length of the locking groove is adapted so as to enable and limit the rotatability between the cylinder 2 and the tube 3 previously touched in connection with Figure 3. The limited rotatability obtained when the locking pin 13 abuts against the walls at the ends of the locking groove 14. 10 15 20 25 30 35 40 534 161 4 The components of the hand-held demolition tool 1 can be made of materials present in known tools. The cylinder 2, the tube 3 and the visible coupling 4 are consequently made of steel. The 4 bearing surfaces of the fl visible coupling are hardened. The valve housing 8 is made of steel cast iron. It is quite possible to use other materials with similar properties as well as other methods to optimize the bearing surfaces.

The front handle grip 5 is arranged with the same longitudinal extension direction as the tube 3. It is also possible to arrange the front handle grip 5 with angled or rectangularly oriented longitudinal extension direction towards a vertical plane, coinciding with the longitudinal extension direction of the rear handle grip 6.

Claims (1)

1 534 'H31 Patent claims: A hand-held demolition tool (1), comprising a cylinder (2) with one or more pistons (7), a tube (3) and a flexible coupling (4) for connecting the cylinder (2) to the tube (3), characterized by that the flexibility of the coupling (4) is limited to allow only i flexibility as a rotatability between the cylinder (2) and the tube (3) about a theoretical axis (9). Hand-held demolition tool (1) according to Claim 1, characterized in that the theoretical shaft (9) is perpendicular to one or more of the directions of movement of the pistons (7). . Hand-held demolition tool (1) according to Claim 1 or 2, characterized in that the direction of the theoretical axis (9) coincides with the longitudinal extension direction of the pipe (3), just before its connection with the coupling (4). Hand-held demolition tool (1) according to one of Claims 1 to 3, characterized in that the visible coupling (4) comprises a shaft pin (10), arranged with a longitudinal extension direction along the theoretical shaft (9), and a swivel (1 l), arranged with play fit on the shaft journal (10). . Hand-held demolition tool (1) according to claim 4, characterized in that the visible coupling (4) also comprises a ball groove (12A) with balls (12B) arranged to axially lock the swivel (1 1) on the shaft pin (10) and to enable approximate frictionless rotation between the shaft journal (10) and the swivel (1 1). Hand-held demolition tool (1) according to claim 4 or 5, characterized in that the visible coupling (4) also comprises a locking pin (13) and a corresponding locking groove (14) arranged to limit the rotatability between the cylinder (2) and the pipe (3).