SU1670134A1 - Stone-cutting machine - Google Patents

Abstract

The invention relates to the mining industry, namely to stone cutting machines (CM). The goal is to increase the reliability of work of the CM by reducing the loads on the working body when the position of the chassis changes in the transverse plane. For this, the CM includes a chassis 1, on the frame of which it is located in a plane perpendicular to the axis of the machine, a turntable / PC / with a body fixed on it. On the latter, a working member with a chain bar 6 is mounted for rotation in a vertical plane. A drive sprocket 5 bar 6 is mounted on the output shaft 7 of the gearbox and is kinematically connected with the hydraulic cylinder rod 21 / HZ / 20. The mechanism for turning is made in the form of HZ. In this case, the HZ for rotating the PC is pivotally connected to the chassis frame and the PC, and their working cavities are hydraulically connected to the pump station and the tank through the valve of the hydraulic distributor / GR / 12. The device for controlling the spool valve 12 is made in the form of a guide 15 placed inside the frame of the bar. One end of it is kinematically connected with the spool of the switch valve 12 and is spring-loaded with springs 17 on both sides of the bar frame. In the middle part, the guide 15 is pivotally connected to the frame of bar 6 and is installed with the possibility of rotation in the transverse plane relative to the frame of the bar. The longitudinal axis of symmetry of the guideline coincides with the longitudinal axis of symmetry of the bar frame 6. At the same time and coordinated work of the HZ, the housing and the PC are rotated to the right angle along the output shaft 7 of the reducer of the slide block 22 with the 6 bar frame. 1 hp f-ly, 4 ill.

Description

The invention relates to the mining industry and construction, in particular to machines for the development of frozen and rocky soils and machines for cutting large blocks of soft rocks of the limestone shell limestone type.

The purpose of the invention is to increase the reliability of work of a stone-cutting machine by reducing the loads on the working body when changing the positions of the chassis in the transverse plane.

FIG. 1 shows a stone-cutting machine; FIG. 2 is a section A-A in FIG. one; in fig. 3 is a view B in FIG. one; in fig. 4 - hydraulic scheme of the mechanism for rotation of the working body.

The stone-cutting machine contains a chassis 1, for example, in the form of a caterpillar tractor, on a frame of which it is located in a plane perpendicular to the longitudinal axis of the machine, and the rotary circle 2 is installed with the possibility of rotation with the body 3 fixed on it. The vertical plane of the working body 4 with a chain bar, the leading sprocket 5 of which is mounted on the frame 6 bar and is kinematically connected with the output shaft 7 of the gearbox (not shown). The mechanism for turning the working body 4 in a vertical plane can be performed, for example, in the form of a hydraulic cylinder 8, which is pivotally fixed at one end to the turntable 2 and the other to the bar frame 6. The hydraulic cylinders 9 and 10 are pivotally connected to rotate the turntable 2 frame chassis 1 and with a turntable 2, and their working cavity through the valve 11 of the hydraulic distributor 12 is hydraulically communicated with the pump station 13, which can be used as a crawler tractor pump station, and with the tank 14 for the working fluid STI. Fixture for

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controlling the spool 11 of the hydraulic distributor 12 is made in the form of a guide 15 placed inside the frame 6 of the bar, one end of which is kinematic. The valve is connected with the slide valve 11 of the hydraulic distributor 12 and is spring loaded with springs 17 from two sides relative to the frame 6 of the bar. In this case, the guide 15 in the middle part is connected via a hinge 18 to the frame 6 bar and is installed rotatably in a listed plane relative to the frame of bar 6, and the longitudinal axis of symmetry of the guide 15 coincides with the longitudinal axis of symmetry of the frame 6 bar. The guide 15 may have rollers 19 symmetrically mounted on its sides to interact with the walls of the slit bar. An additional hydraulic cylinder 20 is fixed on the housing 3, the working cavities of which are hydraulically communicated through the valve 11 of the hydraulic distributor 12 with the pump station 13 and with the tank 14 for the working fluid. The sprocket 5 bar is mounted on the output shaft 7 of the gearbox with the possibility of axial movement, for example, along the splines made on the shaft 7, and is kinematically connected with the stem 21 of the additional hydraulic cylinder 20. the form of a sleeve mounted on the housing 3, on which the slider 22 is connected with the frame 6 bar and the sprocket 5 with the bearing unit 23; the cutting chain 24 bar is kinematically connected with the drive sprocket 5 and installed the possibility of rotation at the lower end of the frame 6 by the support roller 25.

Stone cutting machine works as follows.

When switching on the power take-off of the chassis 1, rotation (not shown) is transmitted through the gearbox to the output shaft 7 and to the sprocket 5 bar. Then, using the hydraulic cylinder 8, the working body 4 is lowered with subsequent plunging (digging) into the array. This guide 15, supported by springs 17, occupies a position strictly along the axis of symmetry of the frame 6 of the bar and contacts the walls of the slotted slot (bottom) rollers 19, parallel to enters the face With the recess of the working body 4 into the array to a predetermined depth, the mechanism for moving the chassis 1 is turned on.

When the stone cutting machine moves along unevenness of the array, in particular when the right track hits an obstacle, the tilt 1 of the running gear 1 is inclined in the plane perpendicular to the machine's longitudinal axis. At the same time, the tool 4 also turns by angle a in relation to the slot being cut, and its suspension point O, moving along an arc in the said plane, will take the position of the SI, which causes the tool 4 to jam (jam) in the walls of the slotted slot. ah tenkami with kami 19. Szabo role does not change the position of relative sape slaughtering ie its relative POOO occur; from the opposite side of the frame of the bar to the angle (t around the hinge rail 19 Takz, the hydraulic distributor 12 is rigidly mounted on the ram 6 tons of 16; the guide 15 moves the spool 11; the control signal goes from the pump station 13 through the spool 11 hydraulic rasters 12 to the corresponding working cavities of hydraulic cylinders 9 and .O and an additional hydraulic cylinder 20 Hpti simultaneous and coordinated work of hydraulic cylinders 9 10, 20 along with moving to the right along the output shaft 7 of the slide of the slide 22 with a frame of 6 bar for X distance The rotation of the housing 3 together with the turntable 2 is clockwise at the desired angle. At the same time, the process takes place at the same time as the roll of the running gear 1. Possible changes in the depth of the cut slit are adjusted by the hydraulic index 8 In the same way, the working unit 4 is adapted another caterpillar of takip-ipaza working body 4 does not change its initial position relative to the walls of the slotted slot (slaughter) regardless of the width

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The first swing of the gacha 1 results in the prevention of jamming of the working body 4 in the slit when the worker is moving the machine over the uneven surface of the excavated stone mass, which increases the reliability of the stone-cutting machine

Claims (2)

1. A stone cutting machine, including a running gear, located in a plane perpendicular to the longitudinal axis of the machine, a turntable fixed on it by a casing, on which a working body with a chain bar, mounted on a frame of the bar and kinematically connected with the output shaft of the reducer, hydraulic cylinders for turning the turntable relative to the running gear, the working cavities of which through the valve of the hydraulic distributor are hydraulically communicated with the pump assembly and with a tank for working fluid, a mechanism for rotating the working member in a vertical plane and a device for controlling the control valve spool, characterized in that, in order to increase the reliability of its operation by reducing the loads on the working member when changing the position of the chassis in the transverse plane it is fitted with an additional hydraulic cylinder fixed to the body, the working cavities of which are hydraulically communicated through the valve of the hydraulic distributor with the pump station and with the tank for the working fluid and the device for controlling the valve of the hydraulic distributor is made in the form of a guide of one end of which is located inside the frame of the bar, which is kinematically connected with the slide valve of the hydro tracing / Elitech and is spring loaded on the sides of the frame of the bar, while the leading sprocket of the bar is set The gearbox can be axially displaced and is theoretically connected to the stem of the additional hydraulic cylinder, and the guide in the middle part is pivotally connected to the frame of the BGFL and mounted with the possibility of rotation echnoy plane relative to the frame bar and the longitudinal axis of symmetry of the guide coincides with the longitudinal about "uo symmetry bar frame 2. The machine according to claim 1, characterized in that the guide has symmetrically slanted rollers on its lateral sides for interaction with the walls of the projected gap. to h-n about / J 4