SU1036673A1 - Cable placing machine for cable drum with vertical axis - Google Patents

Abstract

CABLEWORK FOR A DRUM WITH A VERTICAL AXLE containing a chain drive with a drive sprocket the drum and having stops, the carriage and counterweights being adapted to move along the said guides, while the drive chain is open and connected to the ends of the carriage and the counterweight, and its middle It is equipped with two C-shaped links with a pitch larger than the outer diameter of the sprocket.

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Fig. 1 The invention relates to lifting devices, in particular for transmitting electrical power receivers, and is intended for multilayer winding of a cable on a drum or winch with a vertical axis of rotation. A cable stacker for a vertical axis drum containing a chain drive, the drive sprocket of which is kinematically connected to the drum, and a carriage guiding the cable to the drum CO are known. A disadvantage of the known cable layer is the complexity of the design, the complexity of the nematic transfer, the need for an additional transfer of force to the chain moving along the drum. The purpose of the invention is to simplify the construction of the cable layer. The goal is achieved by the fact that the cable layer for a drum with a vertical axis, containing (a repetitive drive, driving an asterisk is kinematically connected to the drum, and a carriage that guides the cable onto the drum, is provided with a counterweight and guides parallel to the axis of the drum and having stops the carriage and the counterweights are movable along said rails, the drive circuit is open and connected to the carriage and the counterweight by ends, and its middle part is equipped with two C-links in increments of more Figure 1 shows a cable-laying unit; FIG. 2 is the same, top view; FIG. 3 is a section A-A in FIG. 1. Four consecutive positions of the working section of the chain when engaged with an asterisk The cable layer for winding the cable onto the drum 1 of the mobile vehicle is mounted on a fixed frame and contains a carriage 2 with cable guide rollers and a counterweight 3- The carriage 2 and the counterweight 3 move along guide rods k and 5 with stops 6 and 7 and are connected between a flexible element 8, for example a chain that bends around The sprockets 9 and 10 and includes the working section of the chain 11 embedded in the flexible element 8 by means of C-shaped links 12 and 13, which are one-side chain links with a pitch greater than the outer diameter of the drive sprocket k mounted on the axis 15 drum frame 1 | in a block with a gear, the wheel 16, the latter engages with the gear 17, rigidly fixed on the axis 18 of the drum. The number of teeth of the wheel 16 and gear 17 are selected so that in one revolution of the drum 1 the stroke of the carriage 2 is equal to the diameter of the cable to be reeled. The sprockets 9 and 10, the guide rods i and 5 are located in the plane,. the sprocket 14 that passes through the axis of rotation. The sum of the length of the working section of the chain 11 and the diameter of the sprocket. And corresponds to the stroke of the carriage 2. The device works as follows. When the drum 1 rotates, the gear 17, through the wheel 1b, transmits movement to the sprocket, which is in engagement with the working section of the chain 11. The flexible element 8 moves back and forth, at the same time along the axis of the drum 1 the carriage 2 moves and puts the cable on drum 1. Counterweight 3 balances the carriage 2 with the cable and creates a constant tension in the system integrated by the flexible element 8, and therefore, reliable engagement of the chain 11 with the asterisk U .. When the asterisk 1 rotates in one direction the flexible element The ent 8 with the carriage 2 makes a reciprocating motion, for example, the asterisk Ik rotates counterclockwise and there is no chain 11 to the left (fig. 4a), the carriage 2 rises up. . With the passage of link 12, the asterisk C (Fig. 5), the counterweight 3 reaches the stop 7, the left branch of the flexible element 8 is weakened, the power closure of the system to the right of the asterisk 1 occurs under the weight of the carriage and the cable branch. Since the last link step is 12, the outer diameter of the sprocket is 1 hour, the latter freely passes under it. Thus, the chain is engaged with an asterisk I from the diaetral opposite side, and

the asterisk, rotating in the same direction, begins to pull the chain in the opposite direction, i.e. to the right ((. &). The carriage 2 then lowers and lays the next turn of the cable from the top 5 down.

When link 13 passes by star k (fig.Ag), carriage 2 reaches abutment 6 and the right branch of flexible element 8 is weakened, while the force short circuit of the system located to the left of the sprocket AND comes from the counterweight 3. Sprocket AND passes

under link 13. the chain returns to its original position and begins to move from the left (Fig.).

There is an automatic change in the direction of movement of the carriage 2 along the axis of the drum 1, necessary for multi-layered winding of the cable.

Performing a cable chain drive with a chain drive with changing the direction of carriage movement by using special chain links ensures high reliability of the device operation. .

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Claims (1)

CABLE LAYER FOR VERTICAL AXLE DRUM, containing a chain drive, the drive sprocket of which is kinematically connected to the drum ^ and a carriage guiding the cable to the drum, characterized in that, in order to simplify the construction of the cable layer, the latter is equipped with a counterweight and guides parallel to the axis of the drum and having stops, and the carriage and counterweights are made with the possibility of moving along the specified guides, while the drive chain is open and connected by the ends to the carriage and the counterweight, and its middle part is equipped with ene two C-shaped link with a pitch larger than the outer diameter of the sprocket. SU ,, 1036673