SU740504A1 - Working member hold-down mechanism of rotary barking machine - Google Patents

Description

The invention relates to equipment of the forestry and woodworking industries, in particular to a mechanism for clamping the working body of a rotor debarking machine.

Known mechanisms for clamping working ^s organs of rotor-type debarking machines, comprising a rotary ring with a gear rim and connected to the levers of the working bodies of the spring, each of which is equipped with bushings mounted therein with an adjusting screw screwed into them, having a gear head interacting with the gear vena rotary lance "a [I].

There is also a known mechanism for clamping the working body of a rotor-type debarking machine, comprising a rotary ring, an adjusting screw pivotally connected to the rotary lever of the working body and the rotor of the machine, and a spring located coaxially with the adjusting screw (2)

Known pressure mechanisms do not provide the required quality of debarking due to the fact that when copying the surface of timber with a working body, large dynamic loads and friction forces arise as a result of the participation in the oscillations of large masses of the pressure mechanism and their movement in longitudinal guides.

The chain of the invention is the reduction of dynamic loads and the reduction of friction forces.

This goal is achieved by the fact that one of the spring thrust bushings is rigidly attached to the rotary ring and is made with a hole through which the adjusting screw is freely passed, and the other thrust bush is connected to the adjusting screw and pivotally attached to the rotor by means of an additional rotary lever. In this case, one of the pivoting levers can be equipped with a stop, and a limiter can be installed on the rotor to interact with this stop.

In FIG. 1 shows the clamping mechanism of the working body of a rotor-type debarker, general view | in FIG. 2 and

- Possible design options limiter. ₅

The clamp mechanism is installed on the rotor 1 of the machine and contains a rotary ring 2, a rotary lever 3 of the working body 4, an adjusting screw 5, a thrust sleeve 6, rigidly attached to the rotary shaft 2, a compression spring 7, a thrust sleeve 8 connected to the adjusting screw 5, freely passed through the hole of the stop sleeve 6 and pivotally connected to the rotary arm 15 of the step 3. The stop sleeve 8 is pivotally attached to the rotor 1 by means of an additional rotary lever 9 having a stop 10, and a limiter 11 is mounted on the rotor for interaction ystviya to 10 and the anvil 20 is secured to tension screw 12 .povorota ring 2.

The work of the clamp mechanism of the working body is as follows. 25

When the rotor 1 rotates, the working element interacts with the end face of the log 13 and is brought to its surface, and the pivoting lever 3 connected to the working body deviates by the same angle, interfering 30 with the adjusting screw 5, the stop sleeve 8 and the additional lever 9 with the stop 10. The spring 7 is compressed in the longitudinal direction, creating a working pressure of the working body 4 on 35 the surface of the log 13.

The limiter 11 and the rotary ring 2 through the thrust bushings 6 and 8 hold the spring 7 in a compressed state. In this case, the limiter 11 can ₄₀ individually adjust the compression force of the spring 7 and the position of the working body 4, and the rotary ring 2 using the tension screw 12 - simultaneous compression of the springs of all working 45 organs of the machine. The adjustment of the initial position of the working body 4 RSU-_ is made using the adjusting screw 5.

When copying irregularities of the processed logs, the maximum longitudinal and lateral deviations have rotary levers and adjusting screws in articulated joints, and massive springs and thrust bushings have minimal displacements in the absence of longitudinal guides, which minimizes friction forces and dynamic loads acting on the working organ. This improves the quality of debarking of timber and increases the reliability of the clamp mechanism.

Claims (2)

374 FIG. 1 shows the mechanism for clamping the working member of the debarking machine of the rotary type, a common BHAJ in FIG. 2 and 3 possible design options limiter. The clamping mechanism is installed on the rotor 1 of the machine and contains turnEfoe ring 2, swivel lever 3 of the working body 4, adjusting screw 5, thrust sleeve 6, rigidly attached to noBOpoTHCHviy wheel 2, compression spring 7, thrust sleeve 8 connected to the adjustment screw 5p freely passed through the opening of the pins 6 and pivotally connected to the pivot arm 3. The stop piping 8 is pivotally attached to the rotor 1 by means of an additional pivot arm 9 having an emphasis 10, and its mouth A limiter 11 is installed to interact with the stop 1O and the tension screw 12 dp of the ring 2 is fixed. The working mechanism of the working body pressing mechanism operates as follows. When the rotor 1 rotates, the working body 4 interacts with the end of the log 13 and is brought to its surface, and the swing arm 3 connected to the working body deflects by the same angle, moving the adjusting screw 5, the thrust sleeve 8 and the additional lever 9 with the abutment 10 The spring 7 is compressed in the longitudinal direction, creating the working pressure of the working body 4 on the surface of the log 13. The stopper 11 and the rotary ring 2 hold the spring 7 in a compressed state by means of the stop sleeves 6 and 8. In this case, the limiter 11 can be used to individually adjust the force of compression of the spring 7 and the position of the working body 4, and the rotary ring with the help of the tension screw 12 - single-belt compression of the springs of all the working bodies of the machine. Adjusting the initial position of the working body 4 Qcc is realized by adjusting BJoiTa 5. When copying the irregularities of the processed logs, maximal longitudinal and lateral deviations have pivot levers and adjusting screws in the hinge joints, and massive springs and thrust bushings have minimal displacements in the absence of longitudinal guides, due to which friction forces and dynamic loads acting on the working body are minimized. This improves the quality of the debarking of timber and increases the reliability of the operation of the pr1da: ima mechanism. Claim 1. Mechanism of working tool of rotary debarking machine containing rotary ring, adjusting screw pivotally connected to rotary work tool fbwaroM and machine rotor, and coaxially arranged with adjusting screw spring placed by mechanical shunt bushings, , in order to reduce dynamic loads and reduce frictional forces, one of the thrust bushings of the spring is rigidly attached to the rotary ring and is made with a hole through which the adjustments are freely passed screw, and the other abutment sleeve is connected with an adjusting screw and is pivotally attached to the rotor by means of an additional pivot arm. 2. A mechanism according to claim 1, characterized in that one of the pivotal ones. the levers are provided with an anvil, and a limiter is mounted on the rotor to interact with this anvil. Sources of information taken into account in the examination 1. USSR author's certificate number 436740, cl. In 27L 1/00, 1973. 2. USSR author's certificate No. 550282, Clo B 27 L 1/00, 1975 (prototype). eleven 12