SU567788A1 - Work-performing member of cable-laying machine - Google Patents

Description

(54) WORKING ORGAN OF THE CABLEWORKER

Claims (2)

The invention relates to cable laying machines used for the construction of underground communication lines and power supply. Cable laying machines are known whose working body is AGC. An oscillatory motion .ij is transmitted to the plow from the tractor engine via a belt system, an angle gear reducer and an eccentric. Also known is the working body of the cable & stacker — a vibronoh, comprising a housing, a cable cassette, a blade hingedly mounted on the housing, and having a lever for interfacing it. Debalanced Camshaft, 2, The purpose of the invention is to pull out pulling force when laying the cable. For this, the housing is equipped with additional blades with levers and camshafts with unbalances, with the blades installed in steps along the height of the housing, and the cams with an angular step equal to where And is the number of cams. In addition, the amount of displacement of each blade along the height of the body is no more than twice its width, and each blade in the initial position is offset relative to the vertical passing through the axis of its attachment by the amount of travel in the direction opposite to the movement. Fig, 1 - schematically shows the proposed working body of the cable layer, a general view; in fig. 2 - section A-A of FIG. 1. The working body of the cable layer includes a housing 1, a cassette 2 for a cable 3, bearings 4 in which are hingedly mounted on the axles 5 of the blade 6 with the levers 7 and the rollers 8; bearings 9 and 1O, shafts 11c with cams 12, unbalances 13 and asterisks 14, united by a common chain 15. C-shaped gage elements 16-23 are attached to the rear sides of the blades 6. Housing 1 is suspended from a cable laying frame 24 connected to the tractor. When the chain rotates 15, the shafts 11 with unbalances 13 and cams 12 alternately through 2fc / I period (where h is the number of bunches) act on the rollers 8 with levers 7 and blades 6, which, in turn, act on the ground and develop a trench I of the required depth and width for laying the cable 3 on the cassettes 2. During one revolution of the shafts 11 each blade is successively informed by one oscillatory movement in the direction of the rear. The initial position of the blades is returned by the soil in the same sequence, then the cycle is repeated e, t, e. during the period k Each blade 6 is associated with a certain movement with the effort required to develop 1 / Ks trench depth, where n is the number of blades equal to the number of cams. If you take the required cutting force with one passive blade to the full depth of the trench beyond P, then it is equal to the proposed working body - P. The initial position of the lower cutting edge of each blade is located from the vertical OC9 of its suspension in the direction opposite to the movement, no less than in the ampoule of the course of this edge. To prevent stabbing of the trench, each blade is equipped with a C-shaped gage element, and to obtain | The most optimal cutting effort on the left side when laying the cable in soils of different density, the unbalances are made using the Varya set value of the disturbing force, you can increase or decrease the cutting force of any of the blades. The unbalanced mechanism can serve as an autonomous engine or power take off tractor that transports the cable structure. chick. Claim 1. The working device of the cable-laying machine, comprising a housing, a cable cassette, a blade pivotally mounted on the housing, and a lever for interacting with the camshaft with unbalance, characterized in that, in order to reduce traction, the housing is provided with additional blades levers and camshafts with unbalances, while the blades are installed stepwise along the height of the body. 2i The working body according to claim 1, characterized in that the cams are installed with an angular step equal to 2; / l, Where P is the number of cams. 3. Working body on PP. 1 and 2, characterized in that the amount of displacement of each blade along the height KOI of the rod is not greater than its double width. 4. Working body on PP. 1 - 3, about i, in that each blade in the initial position is displaced relative to the vertical passing through the axis of its attachment, by the magnitude of the stroke in the direction opposite to the movement. Sources of information taken into account in the examination: 1. US Patent No. 3747357, cl. 61-72.6 published in 1972 2. Certificate of Authority No. 375354,, class ,, Е 02 f 5/10, 1G71 g.