SU1239211A2 - Dragline bucket - Google Patents

Description

one

The invention relates to earthmoving machines, and more specifically to dragline excavators, and is an improvement to the device by author. No. 1167274.

The purpose of the invention is to increase productivity and reduce the solution of prophylactic fluid.

Figure 1 shows the bucket, side view; in fig. 2 - the same, front view; fig.Z - the same, in the unloading position; figure 4 - section aa in figure 2; on fig.Z - view B in figure 2,

The excavator bucket consists of a body containing the bottom, 1 ,, side walls 2, and the back wall 3, which form a container that is open from the front and from above. The side walls are connected by an arch 4 with a reservoir 5. Inside the arch 4 there is a spraying unit with lubricating (prophylactic) liquid on the inner surface of the bucket body.

The spray unit consists of portioners (cylinders) 6, ti gi 7, crosshead 8, elastic elements 9, fingers 10, forks 11 with grooves 12, finger 13 and sleeves 14. Th 7 ha are rigidly connected to finger 13, having the ability to move grooves, 12 forks 11. To 7 a holder 14 is attached to which the discharge cable 15 is attached. Elastic elements 9 are supported at one end of the cable 8 by 8, the other on the inner surface of the arch 4.

The portioner consists of a body 16, a cup 17, a piston 18, a rod 19, a retainer consisting of a body 20, a pin 21 and an elastic element 22. The cup 17 has a cap 23 in which a hole is made for the passage of the rod 19 and passage of fluid. In the side surface of the glass 17 is made a conical window 25. Lower, the surface of the piston 18 has a conical shape. The piston 18 has a throttle bore 26. The cup 17 in the housing 16 is able to move in the axial direction.

The housing 16 has openings 27 and 28 in which check valves 29 and 30 are embedded. Through the opening 28, the lubricating fluid from the portionion is supplied to the spray bar 31, having the nozzles 32. Through the opening 27, the liquid flows

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into the portioner 6 from the tank 5 of the arch 4. The housing 16 is attached to the inner lower surface of the arch 4. Above the beam 33 is located, on which an additional block 34 is placed, the Arch has a neck 35.

The bucket works as follows. Initial position. The bucket through the neck 35 of the tank 5 is filled

 About lubricating fluid.

To fill the portioner with fluid, the bucket is placed in a horizontal state. This is necessary so that in the discharge rope

 5 fork; axle force. In this position, the bucket (i.e., the unloading rope 15 acts on the pull 7, the yoke 8, the elastic elements 9) the rods 19 of the portioner, together with the pistons 18, move 20 seconds in the cups 17. When moving; then; The bore holes through the holes 26 throttles into the piston cavities. When focusing.porshn cover 23 glass

25 moves up. The pin 21 slides along the wall of the glass 17. As soon as the pin is aligned with the hole 25, under the action of the elastic element 22 it will go into the hole and fix.

30 glass

Due to the increase in the volume of the portioner from the action of the pressure of the liquid, the check valve 29 opens. W (the water line is filled by the portioner.

 To wet the (initial) coil: L is brought to a vertical position (Fig. 3). In the absence of load 3 of the discharge cable, elastic elements 9 operate. Elastic elements are cleaved, by means of traverse S re-rods the rods 19 with the pistons 18 Down in the glass 17. The fluid through the holes 26 throttles from the piston cavities into the rod ones, and then through the holes 24 in cavity 5 arch 4 (this is possible because of the different volume of the rod and piston cavities,). As a result of throttling deceleration, a delay occurs.

- About moving the glass 17. When the piston 18 is moved down, it is conical: with a pinch, it pushes the pin 21 and rests against the bottom of the glass 17. Since the surface of the hole 25 is made

 conical, when moving the glass down the pin 21 will come out of the hole and will not prevent the movement of the glass 17 down.

By moving the cup 17 down, the portionion volume decreases. Under the action of pressure, the check valves 30 are opened, and the liquid enters the spray line 31, and through nozzles 32 - onto the surface of the walls 2 and the bottom 1 of the bucket. Since the unloading cable 15 acts on the th 7 through the beam 33 and the block 34 mounted on it, bending loads and, consequently, splitting of the thrust rod 7 are excluded, which increases the reliability of the device.

Further operation of the bucket is carried out in accordance with the traditional operating cycle of the dragline excavator. The bucket is filled with soil. When filling the bucket and transfer it with the load to the place of unloading in the discharge cable 15 acts force. Going on

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filling the portioner with liquid. When unloading the bucket, and is transferred to the vertical position (Fig. 3). In this position, the load in the discharge rope 15 is absent. Under the action of elastic elements 9, the portionion is actuated. In this case, due to the fact that there is a delay in the supply of fluid in time at the beginning of the process

discharge, liquid is supplied to the surface of the bucket body after the soil has left the bucket.

The use of the proposed bucket provides an economical consumption of lubricating fluid, which increases

the time of productive work of the excavator by reducing the time for filling the bucket with liquid. The reliability of the device due to

elimination of bending loads in the mechanism for wetting the bucket body.

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Claims (1)

EXCAVATOR DRAGLINE BUCKET No. 1167274, due to the fact that, in order to increase productivity and reduce the consumption of prophylactic liquid, each cylinder of the spraying unit is equipped with a glass with a bottom and a stop cap installed inside its body, which together with the cylinder piston has throttling holes , and fixed to the housing by a latch with a spring-loaded pin, which is passed through a conical hole made in the lower part of the glass and is located with the possibility of interaction with the piston. SU _a „1239211 <A 2