SU1060460A1 - Percussive machine - Google Patents

Abstract

THE SHOCK-ACTION MACHINE, comprising a housing, a non-braking drive screw housed therein, pinched with a longitudinal groove of the hammer, connected to the BifflTOM by means of a cocking mechanism, made in the form of a hinged lever knob, and an anvil, securing a hinged lever. in order to increase the reliability and efficiency of the machine, it is equipped with a lock installed in the drummer and made in the form of a spring-loaded finger, with which a lever periodically interacts, having a screw surface at the free end for periodically interacting with the screw thread and a cam surface cam surface. (L

Description

About a 4 a The invention relates to the construction, in particular to mechanical percussion machines, which can be used for decaying concrete or stone materials, as well as for making holes in these materials. A spring mechanical hammer is known, comprising a cylindrical body, a spring-loaded drummer with a retainer, mounted in the body for movement in the axial direction and secured from turning around its axis, an engine trigger mechanism connecting the engine shaft with the drummer, and a mechanism for moving the drummer 1. The disadvantage of this The mechanism is high specific loads at the points of contact of the levers with screws of the screw, which causes increased wear of the screw and levers. In addition, due to the lack of synchronized elements, collisions of rods with screw turns are possible, which also reduces the efficiency and durability of the mechanism Closest to the invention in terms of technology, a percussion machine containing a body located in it is not self-braking; a screw, a longitudinal-spring-loaded drummer connected to the screw by means of a cocking mechanism, B1 1 filled in the form of a pivotally fixed lever stuck in the drummer, and an anvil 2. The disadvantage of this machine is that then prn; moving the hammer towards the anvil under the action of the spring, the disk after the HF Ho turns on the screw, braking the hammer. In this connection, the kinetic energy of the impactor is cleared, which leads to a decrease in the efficiency of the machine, and there is also an increased wear of the thread surfaces of the disk and screw. The purpose of the invention is to increase the reliability and efficiency of the machine. The goal is achieved by the fact that the impactor machine, comprising a case, a non-self-braking drive screw, is housed in it, a drummer spring-loaded with a longitudinal groove, removed from the screw by means of the sjBoaa mechanism made in the form of a hinged lever drummer, and an anvil provided with a lock mounted in a shock and made in the form of a spring-loaded finger, with which a lever periodically interacts, which has a screw surface at its free end for periodic interaction with the screw thread and a cam -hand surfaces and anvil configured to mate the cam surface; 02 FIG. Figure 1 shows schematically a percussion machine, longitudinal section; in fig. 2 shows a section A-A in FIG. see 3 is a sectional view BB in FIG. one; in fig. 4 shows a section B-B in FIG. ; in fig. 5 is a section of YYD in FIG. 1. The percussion machine comprises a housing 1, and non-braking is placed therein a drive screw 2, a hammer 3, a spring 4, a platoon mechanism 5 and an anvil 6. The drive screw 2 is connected to a motor (not shown) through a gearbox 7. On the screw 2 there is a movable stop 8. In the anvil 6, for example, there is a non-circular hole 9 for fitting the end of the screw 2 and the hole 10 for fastening the working tool (not shown). The cocking mechanism is designed as a lever 12 reinforced in the drummer 3 on the axis 11. The free end 13 of the lever 12 has a screw surface 14, the counter surface of the screw surface 15 of the screw thread 2. In the drummer 3 there is a latch 16, made in the form of a finger with a tapered end 17 that interacts with a recess 18, made on the lever 12, and with a cam surface 19 of the lever 12. The latch 16 is spring loaded 20. The drummer 3 is installed, for example, two screws 2, which are placed in rails 22 made in the housing 1. On the anvil 6 Kulachkov Pove The interface 23 interacting with the cam surface 19 of the lever 12. The impact machine operates as follows. After fixing the working tool in the hole 10 and installing the tool on the surface to be machined (not shown), the engine is turned on, and the rotation is transmitted through screw 1 to the screw 2 in the direction of the arrow and the anvil 6. As the screw 2 rotates, the hammer 3 moves from the anvil 6, compressing the spring 4. The indicated movement of the striker 3 is due to the impossibility of its rotation due to the movement of the screws 2 in the linear guides 22 of the housing 1 and the interaction of the screw surface 14 of the lever 12 with the screw surface 15 screws 2. The contact of surfaces 14 and 15 is due to the interaction of the end 17 of the clamp 16 with the surface 19 of the lever 12. The axial movement of the striker 3 by a predetermined amount due to the potential compression energy of the spring 4, the stop 8 interacts with the lever 12, while the screw surface 14 lever 12 out of engagement with the screw surface 15 of the screw 2, the end 17 of the clamp 16 is placed in the recess 18, fixing the position of the lever 12 securely. After that, the hammer 3 moves to the anvil 6 under the action of the spring 4,

there is a shock in which the energy of the striker 3 is transmitted through the anvil 6 to the working tool to destroy the rock. After impact, when the lever 12 is placed in the anvil 6 and the latter rotates, the surface 19 of the lever 12 interacts with the cam surface 23, as a result of which the screw surface 14 of the lever 12 comes into contact with the screw surface 15 of the screw 2, while the end 17 of the retainer 16 again interacts with the surface 19 of the lever 12, reliably fixing the position of the lever. As a result, the hammer 3 moves again from the anvil 6, compressing the spring 4, and the process continues in the sequence indicated. Periodic shocks continue as long as the engine is turned on. Due to the fact that the cam surface 23 is oriented relative to the lead-in portion of the screw surface 15 of the screw 2, when the lever 12 is engaged with the screw screw surface 15, there are no failures and additional collisions. Fixing the positions of the lever 12 using the clamp 16 ensures reliable contact of the surfaces 14 and 15 when the drummer 3 moves from the anvil 6 and the absence of additional impacts of the end 13 of the lever 12 with the turns of the screw surface 15 when the drummer 3 moves to the anvil 6.

The proposed machine can work in shock mode, when the working tool is fixed in the anvil with the possibility of relative rotation, or in shock-rotational mode, when the working tool is fixed in the anvil without the possibility of relative rotation.

The implementation of the impact pitch allows you to increase its efficiency due to a more reliable interaction of the hammer with the screw.

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Claims (1)

SHOCK ACTION MACHINE, comprising a housing, a non-self-locking drive screw placed therein, a hammer spring-loaded with a longitudinal groove connected to the screw by a cocking mechanism made in the form of a lever pivotally mounted in the groove of the hammer, and an anvil, characterized in that; in order to increase the reliability and efficiency of the machine, it is equipped with a latch mounted in the drummer and made in the form of a spring-loaded finger, with which a lever interacts periodically with a screw surface on the free end for periodic interaction with the screw thread and cam surface, and the anvil is made with a reciprocal cam surface. 1 1060460