SU1155676A1 - Side-milling working member - Google Patents

Abstract

DISCOFREZER WORKING ORGAN, including a disk cutter and its drive, made of a planetary gear drive located in a housing with a carrier, on which a disk cutter and satellite are freely mounted, and an epicyclic gear engaged with the satellite and connected with a carrier, different that, in order to expand the technological capabilities of the working body, the disk milling cutter is mounted on the eccentricity carrier with respect to the carrier, and the epicyclic wheel has a brake and is connected to the carrier by means of a clutch on Cheney. (L cd sd o5 about:

Description

The invention relates to construction, namely to working bodies rotating on an axis and intended for cutting gaps, mainly in frozen soils, concrete, stone and similar strong materials.

Known working body of the earthmoving machine, made of disk cutters mounted on the base machine with cutters fixed on them, the circumferences of which projections are displaced relative to the axis of the suspension and drive these cutters 1.

Such a working body develops the soil most economical large cleavage,.

The disadvantage of this working body is the uneven wear of the incisors along the contour of each cutter, since the cutters most distant from the center of rotation bear the main load. In addition, this design of the working body does not allow changing the value of the cutter suspension eccentricity.

The closest technical solution to the present invention is a working body including a disk mill and its drive made of a planetary gear drive placed in a housing with a planet carrier on which a disk mill and a satellite are freely mounted, and an epicyclic wheel introduced into engagement with the satellite and associated with the carrier 2.

The disadvantage of this device lies in the complexity of the design of a two-pass drive and the impossibility of changing the hodograph of the cutter movement.

The purpose of the invention is the expansion of the technological capabilities of the working body.

The goal is achieved by the fact that in a disk-milling working body, including a disk mill and its drive, made of a planetary gear drive placed in the body with a planet carrier, on which a disk mill and satellite are freely installed, and an epicyclic wheel, which is engaged with the satellite and the carrier connected with the carrier, the disk milling cutter is mounted on the carrier with an eccentricity in relation to the carrier, and the epicyclic wheel has a brake and is connected to the carrier by means of an actuating clutch.

The drawing shows a disofrezer working body with a drive for its rotation.

The disc milling tool includes a disk mill having a drive made of an planet-gear gear placed in a housing consisting of a drive driven from gear 2 and carrying a satellite 4 which is freely mounted on it and engaged with an epicyclic wheel 5 equipped with a brake 6 which locks onto the body. In addition, the epicyclic wheel 5 is connected with the planet carrier 3 by means of the turn-on clutch 7. On the carrier 3, it is free and eccentric with respect to the protrusions of its incisors placed interlocked with the satellite 4 of the disk Cutter 8. The operation of the proposed device can be carried out in the modes of fixed and sliding eccentricity. Moreover, the fixed eccentricity mode can be selected any within li + 1g., Where li and U are eccentricity respectively, drove (eccentric shaft) 3 and disc milling 8. In the particular case, when 1 12 has O j With open brake 6 and disengaged coupling 7, are

5 (manually) turning the milling cutter 8 and the kinematically associated elements 4 and 5. With the unidirectional displacements li and 10, the maximum eccentricity equal to li + 1 will be achieved. At the opposite direction of the indicated

0 offset settable eccentricity will be minimal.

After selecting the total eccentricity determined by the physicomechanical properties of the treated medium, and fixing

5 by means of the coupling 7, the device becomes prepared for the perception of the power flow transmitted to it, which from the gear 2 when the brake 6 is opened, will cause the carrier 3 and the elements 8 fastened to it to rotate,

0 4 and 5. In this case, for one revolution, the carrier 3, and, consequently, the cutters 8, the incisors of the latter, when exposed to the bottom, experience oscillations with a total fixed span of 2 / li -f U /. With li, there are no fluctuations. Any selected cutting mode with a fixed eccentricity (offset) is similar to the work of known cutters 1.

For the cutter to operate in the sliding eccentricity mode, the clutch 7 is turned off and the backside of the brake 6 is turned off. Then, when transmitting the rotation from gear 2 to the carrier 3, the satellite 4 together with the disk milling cutter 8 rotates about the axis of its suspension and simultaneously rolls around the inner surface of the stationary epicyclic

5 wheels 5, i.e., disk milling machine 8 makes planetary motion, during which at each moment satellite 4 and milling machine 8 have their own instant eccentricity.

Thus, the rolling eccentricity mode includes the entire continuously variable gamut of fixed eccentricities. In this mode of operation, its cutters receive the most intense vibrations.

Technical and economic efficiency

5 of the present invention is to simplify the design of the drive due to a single-threaded transmission of the force action from the engine to the mill; in opportunity 34

the use of regimes with several fic-tions when it is being set up in the pas mode with skimmed eccentricities, which is a special eccentricity, which is most important for carrying out the experiment, more preferable when

talny and test works; in the attainment of rock and materials of heterogeneous structure of an extended range of fluctuations in the work-life and strength.

1155676

Claims (1)

DISC-MILLING WORKING BODY, including a disk mill and its drive, made of a planetary-gear transmission with a carrier, freely mounted on the disk mill and satellite, and an epicyclic wheel engaged with the satellite and connected to the carrier, characterized in that , in order to expand the technological capabilities of the working body, the disk cutter is mounted on the carrier with an eccentricity with respect to the carrier, and the epicyclic wheel has a brake and is connected to the carrier with an inclusion clutch . SU ,,,, 1155676