RU169044U1 - Sapropel mining complex - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering land reclamation, namely, devices for excavating soil, and can be used to develop sapropels of ponds and other reservoirs. The essence of the technical solution is that the complex for extraction of sapropel from reservoirs containing an energy system with a hydraulic pump drive and lifting mechanism, a soil-intake body made in the form of a tank formed of rigidly interconnected bottoms, two side and rear walls and movably connected with the side walls the front wall, the cable block mechanism of movement associated with the soil-collecting organ, the capacity of the soil-collecting organ is additionally provided with a roof, part of which has a grate on the side of the rear wall, and has a part located at an angle to the front wall, from the rear wall on the axis, fixed in the side walls, a curtain is installed, with the possibility of its rotation in the direction of the above-mentioned lattice until it overlaps. On the part of the roof, located under the slope, a front wall retainer is installed when it is open, connected by a cable to the said curtain. On the outer side of the front of the side walls on the brackets-axes mounted sliders with the possibility of rotation and fixing along the side walls of the tank. The tank is equipped with mechanisms for communication with its load-lifting mechanism of the vehicle. One of them is made in the form of an arc connected with the side walls of the tank, and is designed to tip the tank when unloading soil. And the second mechanism is made in the form of two arcs, which at the same time can be associated with lifting

Description

The utility model relates to the field of hydrotechnical land reclamation, namely, devices for excavating soil, and can be used to develop sapropels and other bottom sediments of ponds and other water bodies.

A known complex for the extraction of sapropel according to the patent for the invention of the Russian Federation No. 2132908, containing a craft, a receiving device in the form of a metal box, as well as a device for gripping the sapropel in the form of a soil pump, suction and discharge pipelines for transporting sapropel mass, pontoons, a container for sapropel mass.

The disadvantage of this device is the impossibility of its use in the extraction of viscous sapropelic mass due to difficulties in its transportation through pipelines to the shore of a reservoir

A device for the extraction of sapropel according to.with. USSR No. 1812315, containing a power plant, floating equipment with a soil-collecting organ, connected with a cable block movement mechanism. In this device, the soil-collecting organ is made in the form of an elastic container with a cutting ring and guides and has a guide piston designed to unload the material accumulated in the container. At the same time, the elastic container is suspended by means of rods to two interconnected floating means, one of which has an anchor.

The disadvantage of this known device is its complexity due to the presence of floating equipment associated with the soil-collecting organ, the complexity of the soil-collecting organ, as well as its assembly and maintenance.

The simplest integrated device for the extraction of sapropel from water bodies according to the patent of the Russian Federation for utility model No. 163189 is known, which contains an energy system, a soil-collection organ made in the form of a tank, and a cable-block movement mechanism associated with a soil-collection organ. At the same time, the capacity of the soil-sampling organ is formed from rigidly interconnected bottoms, two side and rear walls and movably connected to the side walls of the front wall, a hydraulic pump drive of a vehicle with a load-lifting mechanism is used as the energy system, and the cable block movement mechanism contains four winches, three of which are located on the aforementioned vehicle and are energetically connected with it, and one of the winches is located on the opposite side of the reservoir and has independent the main drive, and the end of its cable is equipped with a ring designed to communicate with the soil intake body by means of a tooth mounted on the lower surface of the soil intake body. The device is simple to manufacture and operate.

The disadvantage of this device is that when soil is taken together with the soil, a large amount of water is taken in and when the filled soil-picking body is transported under water to the unloading place, soil is washed out of the tank, which leads to its liquefaction, reducing its quality. This is due to the fact that the capacity of the soil-collecting organ in the upper part is made completely open.

In addition, at the beginning of soil sampling, the bottom of the tank can crash into solid soil (clay) below the level of sapropel. In this connection, clay can get into sapropel, reducing also the quality of extracted sapropel.

The technical result of the proposed solution is to provide the opportunity to improve the quality of the extracted sapropel.

This technical result was achieved due to the fact that in the complex for the extraction of sapropel from ponds, containing an energy system that includes a hydraulic pump drive of a vehicle with a lifting mechanism, a soil pickup body and a cable block moving mechanism associated with the power system and with a pickup body made in in the form of a container containing a rigidly interconnected bottom, two side and rear walls and a front wall movably connected to the side walls,

- the tank is equipped with a roof rigidly connected with it, a part of which has a grate on the back wall side, and has a part located on a slope to the front wall, on the side of the front wall,

- from the side of the rear wall on the axis fixed in the side walls, a curtain is installed, with the possibility of its rotation in the direction of the above-mentioned grating until it overlaps, and

- on the part of the roof located under the slope, the front wall retainer is installed when it is open, connected by a cable to the said curtain,

- on the outer side of the front of the side walls on the brackets-axes mounted sliders with the possibility of rotation and fixing along the side walls of the tank,

- the tank is equipped with a hook to enable its connection with the lifting mechanism of the vehicle, made in the form of an arc, the ends of which are pivotally connected to the rear of the side walls of the container,

- the tank is equipped with two metal arcs connected with it, arranged with the possibility of their interaction with the lifting mechanism, the ends of one of the arcs fixed to the side walls of the container, and the ends of the second fixed on the inner side of the front wall and passed through the roof,

- the cable block movement mechanism contains two winches, one of which is located on the opposite side of the reservoir and has an independent drive, and the other is located on the shore of unloading sapropel and connected to the energy system of the vehicle.

An additional technical result is the ability to reduce resistance to movement of the tank due to the location of the rear and front walls of the tank at obtuse angles to the bottom.

In the drawings: FIG. 1 is a general view of the soil intake member, FIG. 2 - soil intake body with an open front wall, in FIG. 3 - a soil-picking body with a hook designed to connect it with the load-lifting mechanism of the vehicle, in FIG. 4 - a soil intake body with arcs designed to connect it with a load-lifting mechanism of a vehicle, in FIG. 5 - connection of the soil intake body with a return winch, in FIG. 6 - layout of the constituent elements of a complex for the extraction of sapropel, in FIG. 7 - soil intake body with traction cables, in FIG. 8 - soil intake body with installed sliders, in FIG. 9 is an example of a slider.

Soil-picking body is made in the form of a tank 1 (Fig. 1) containing a bottom 2, side walls 3 and 3 ', a rear wall 4 and a front wall 5, mounted with the possibility of its rotation on the axis 6. The tank 1 is equipped with a rigidly connected upper roof 7, a part of which has a grating 8 on the side of the rear wall 4, and has a section 9 on the side of the front wall 5, which is inclined toward this wall. From the side of the rear wall 4 on the axis 10, mounted in the side walls 3 and 3 ', a curtain 11 is installed, with the possibility of its rotation in the direction of the lattice 8 until it overlaps,

In the section 9 of the roof 7, located at a slope (angle α), a latch 12 (Fig. 2) of the front wall 5 is installed in its open position, connected via a cable 13 to the said shutter 11 (Fig. 2).

The tank is equipped with a hook 14 made in the form of an arc (Fig. 3), the ends of which are connected via hinges 15 to the rear of the side walls of the tank.

The tank is also equipped with two arcs 16 and 17 connected to it, while the ends of one of the arcs 16 are fixed on the side walls 3 and 3 ', and the ends of the second arc 17 are fixed on the inner side of the front wall 5 and passed through holes 18 in the roof 9.

As the energy system used hydraulic pump drive of a vehicle having a lifting mechanism (not shown in the drawings).

The hook 14 (Fig. 3) and arcs 16 and 17 (Fig. 4) are designed to communicate with the lifting mechanism 19 of the vehicle (not shown in the drawings).

The rear 4 and front 5 walls of the tank are located at obtuse angles β to the bottom 2 (Fig. 4) to reduce the resistance of the mass during movement of the tank.

The cable block movement mechanism includes a winch 20 (called a return winch) located on the opposite side of the reservoir and having an independent drive, for example, from an internal combustion engine (not shown in the drawings). The winch 20 (Fig. 5) has the ability to communicate with the soil-intake body 1 via a cable 21 with a ring 22 and a tooth 23, mounted on the bottom 2 of the tank 1.

The cable block movement mechanism (Fig. 6) contains a winch 24 (called a traction), connected by a cable 25 through branches 25 'and 25ʺ with the side walls 3 and 3' of the soil-collecting organ 1 (Fig. 7). This winch is located on the shore of unloading sapropel and is connected with the energy system of the vehicle (not shown in the drawings) and is designed to provide the possibility of soil collection by the soil-collecting body 1 and delivery to the destination (to the shore of unloading).

On the outer side of the front of the side walls 3 and 3 '(Fig. 8), sliders 26 are installed (the slider 26 on the wall 3' is not shown), in particular on the axle-brackets 27, and with the possibility of rotation along the side walls 3 and 3 ' capacity 1 and fixing with the help of latches 28. The position of the slider before the start of soil intake is vertical - position K (Fig. 8).

The sliders are made in the form of flat rails (Fig. 9), having the shape of a parallelepiped with sides A and B, and installed side B to the planes of the walls. These sliders are designed to limit the possibility of cutting the bottom 3 of the tank 1 into the soil located below the sapropel layer (in clay).

The operation of the device is as follows.

Free from soil, the soil sampling organ 1 is installed with a tooth 23 in the ring 22 of the cable 21 of the winch 20 (Fig. 5). When you turn on the winch 20, which has an independent drive (for example, an internal combustion engine), the soil-picking body 1, being connected by a tooth 23 with the ring 22 of the cable 21, moves to the shore of the beginning of soil intake. Under the action of the oncoming water, the front wall 5 opens and latches onto the latch 12 (Fig. 2).

With the location of the soil-intake body 1 at the stage of the beginning of the operation, the sliders 26 are in the position K hanging on the axis-brackets 27 (Fig. 8).

Under the action of the winch 24 (Fig. 6), connected by a cable 25 by means of branches 25 '25ʺ (Fig. 7) with the side walls 3 and 3', the container moves. In this case, the sliders 26, turning on the axle-brackets 27 from position K to position 26, slide along the ground mass, lifting the front of the bottom 2, not allowing it to crash into hard ground (clay). The filling of the tank with soil begins. At the same time, the soil-sampling organ 1 with its tooth 23 remains in engagement with the ring 22 of the cable 21.

As the tank 1 is filled with soil, water overflows through the grill 8, and the shutter 11, turning on the axis 10, gradually pulls the cable 13. As soon as the tank is full, the shutter overlaps the grill 8, and the latch 12 releases the front wall 5, which, lowering, closes capacity. The tank continues to move towards the shore of discharge.

The load lifting mechanism 19 of the vehicle (not shown in the drawings) by means of arcs 16 and 17 associated with the tank lifts the tank, moves it and sets it directly at the place of unloading. Moreover, due to the fact that the cable arc 17 is connected with the inner side of the front wall 5, the container remains closed.

Then, the load-lifting mechanism 19 is hooked to the hook 14 (Fig. 3) and the container 1 is lifted, which capsizes, the front wall is opened under the pressure of the soil, the container 1 is released from the soil, which is lowered to the shore and set with a tooth 23 on the ring 22 connected by a cable 21 with return winch 20 (Fig. 5). Next, the cycle of work is repeated.

Such a structural embodiment of the roof with a grill in the rear of the tank, as well as the presence of a shutter connected with the front wall, makes it possible to drain the trapped water during the period of soil collection, and after filling the tank with a thick mass, closing the shutter and the front wall does not allow washing the mass out of the tank into the period of transportation under water to the shore of unloading. The presence of sliders fixed on the side walls of the tank with the possibility of their rotation and sliding on the ground, prevents the lower edge of the tank bottom from cutting into the dense soil layer (clay), thereby excluding the ingress of clay into the sapropel. In this way, a sapropel mass that is dense and free from impurities is collected as indicators of the quality of the produced products.

Claims (1)

A complex for the extraction of sapropel from reservoirs, containing an energy system including a hydraulic pump drive of a vehicle with a lifting mechanism, a soil pickup body and a cable block moving mechanism associated with a power system and a ground pickup made in the form of a tank containing a rigidly interconnected bottom, two side and rear walls and a front wall movably connected to the side walls, characterized in that the tank is provided with a roof rigidly connected to it, part of which the torons of the rear wall have a grill, and on the side of the front wall there is a part located sloping to the front wall, a curtain is installed on the axis fixed to the side walls on the side of the rear wall, with the possibility of its rotation in the direction of the grille until it overlaps, and on the part of the roof, located under the slope, a front wall retainer is installed when it is open, connected by a cable to the said curtain, on the outer side of the front of the side walls on the axle brackets, sliders are fixed with the possibility their rotation and fixing along the side walls of the tank, the tank is equipped with a hook to enable its connection with the lifting mechanism of the vehicle, made in the form of an arc, the ends of which are pivotally connected to the rear of the side walls of the tank, the tank is equipped with two arcs connected with it their interaction with the lifting mechanism, while the ends of one of the arcs are fixed on the side walls of the tank, and the ends of the second are fixed on the inner side of the front wall and skipped of roof trosoblochny moving mechanism comprises two winches, one of which is located on the opposite side of the reservoir and has an independent drive, and the other is located on the unloading sapropel and connected to the vehicle power system.

Images