RU2723933C2 - Device for transportation of containers in liquid flow - Google Patents

Abstract

FIELD: pipelines.SUBSTANCE: invention relates to pipeline hydraulic transport and can be used for creation of more efficient devices for transportation of containers in liquid flow. Device for transporting containers in a liquid flow comprises an annular pipeline with liquid, pumps, which provide continuous circulation of liquid with containers inside a ring-shaped pipeline, loading and unloading stations made in form of bypasses fixed on corresponding sections of outer surface of annular pipeline with liquid in front and behind loading and unloading stations, and controlled by pumps, providing fluid supply to internal cavities of hydraulic shutters or fluid drain from internal cavities of hydraulic shutters, and containers made in the form of hollow balls located inside annular pipeline with liquid. Container is equipped with a partition fixed by its side edges on the corresponding sections of the inner surface of the empty ball and forming a closed cavity in the form of a spherical segment filled with a weight load.EFFECT: technical result achieved by invention consists in creation of stable in vertical direction position of hollow balls (containers) transported inside pipeline with liquid.1 cl, 5 dwg

Description

The proposed technical solution relates to the field of pipeline hydraulic transport and can be used to create more efficient devices for transporting containers in a fluid stream.

Similar technical solutions are known, see, for example, the description of the invention to the USSR copyright certificate No. 503798, which contains the following set of existing features:

- pipeline with liquid;

- traction means located in the corresponding section inside the pipeline with liquid;

- containers with goods, made in the form of hollow balls, mounted in grips with the possibility of rotation around horizontal from, placed inside the pipeline with liquid and connected in series with each other and traction means;

A pump that ensures the creation of a fluid flow through the pipeline, installed on the corresponding section inside the pipeline and connected with its one supply input to the zero wire of the AC voltage network - 220 V directly and its other supply input through the switch to the phase wire of the AC voltage network -220 V.

Common features of the proposed technical solutions for patenting and the above-described technical solutions are:

- pipeline with liquid;

- containers with goods made in the form of hollow balls placed inside the pipeline with liquid;

- pumps, ensuring the creation of a fluid flow through the pipeline, installed on the corresponding section inside the pipeline and connected with one of its supply input to the neutral wire of the AC voltage network - 220 V directly and its other supply input to the phase wire of the AC voltage network - 220 V through the switch.

A similar technical solution is also known, see the description of the invention for the USSR copyright certificate No. 1761644, which is selected as the closest analogue, prototype and which contains the following set of essential features:

- ring-shaped pipeline with liquid;

- pumps providing continuous circulation of liquid with containers inside an annular pipeline with liquid and connected by their own supply inputs to the neutral wire of the AC voltage network - 220 V directly and their other supply inputs through the corresponding switches to the phase wire of the AC voltage network - 220 V;

- loading and unloading stations, execution in the form of bypasses, equipped with conduits with windows and hatches and fixed on the corresponding sections of the outer surface of the annular pipeline with liquid;

- hydraulic dampers, made in the form of elastic waterproof tubes of a toroidal shape, installed inside an annular pipe with liquid, front and rear of the loading and unloading stations and connected by the internal cavities of their elastic waterproof tubes of a toroidal shape to the outlets of the respective pumps, providing fluid to the internal cavities of the elastic waterproof toroidal tubes or draining liquid from internal cavities of elastic toroidal watertight tubes and connected by their own supply inputs to the neutral wire of the AC voltage network - 220 V directly and their other supply inputs through the corresponding switches to the phase wire of the AC voltage network - 220 V;

- containers with grips intended for loading and unloading containers, each of which is made in the form of a hollow ball and is located in the inner cavity of the annular pipeline with liquid.

All of the above features of the prototype are common with the proposed technical solutions for patenting.

The technical result that cannot be achieved by one of the above-described technical solutions is to create a stable, in the vertical direction relative to the earth's surface, position of the hollow balls (containers) transported inside the pipeline with liquid.

The reason for the impossible achievement of the above technical result is that the issues of creating means to ensure a stable vertical position of the hollow balls (containers) that are transformed inside the pipeline with liquid and prevent inside the hollow balls (containers) failed to receive due attention.

Given the characteristics and analysis of known similar technical solutions, we can conclude that the task of creating more efficient devices for transporting containers in a fluid stream is relevant today.

The technical result indicated above is achieved by the fact that in the device for transporting containers in a fluid stream containing an annular pipeline with liquid, pumps providing continuous circulation of liquid with containers inside the annular pipeline with liquid, installed inside the annular pipeline with liquid, and connected with one of its supply inputs to the neutral wire of the AC voltage network - 220 V directly and their other supplying inputs through the corresponding switches to the phase wire of the AC voltage network - 220 V, loading and unloading stations, made in the form of bypasses, equipped with conduits, windows and hatches and fixed in the corresponding sections the outer surface of the annular pipeline with liquid, hydraulic dampers made in the form of elastic waterproof tubes of toroidal shape, installed inside the annular pipeline with liquid, front and rear loading and unloading of the loading stations and connected by the internal cavities of their elastic water-shaped tubes of a toroidal shape to the outputs of the respective pumps, which supply liquid to the internal cavities of the elastic watertight pipes of a toroidal shape or drain the liquid from the internal cavities of the elastic waterproof tubes of a toroidal shape and connected by their own supply inputs to the mains neutral wire AC voltage - 220 V directly and with its other supplying inputs through the corresponding switches to the phase wire of the AC voltage network - 220 V and containers with grips designed for loading and unloading containers, each of which is made in the form of a hollow ball and is located in the inner cavity of the annular pipeline with liquid, wherein each hollow ball of each container is provided with a partition located perpendicular to one of the corresponding central axes of the hollow ball, in its lower part, and fixed with its lateral edges on the corresponding sections of the inner surface of the hollow ball and forming a closed cavity in the form of a spherical segment filled with a heavy load.

The execution of each hollow ball, each container with a partition perpendicular to one of the corresponding central axes of the hollow ball, in its lower part, and fixed with its lateral edges on the corresponding sections of the inner surface of the hollow ball and forming a closed cavity in the form of a spherical segment filled with a heavy load, e.g. sand, concrete, metal shavings, etc. etc. allows, when you turn on the pumps, providing continuous circulation of fluid and transportation of containers made in the form of hollow balls, with goods located inside the annular pipeline with liquid, which upon arrival at the destination, one of the loading and unloading stations, due to the impact on the relevant hydraulic dampers located in front and behind the loading and unloading stations ensure delivery of the corresponding container, its unloading or loading and return of the container to the pipeline with liquid and to continue further transportation of containers inside the pipeline with liquid. Moreover, due to the presence inside each hollow ball, a closed cavity formed by a partition and filled with a heavy load, the hollow balls (containers) are almost always in a vertical position relative to the earth’s surface and the cargo inside the hollow balls due to transportation inside the pipeline with liquid the stable position of the hollow balls does not experience any damage and is delivered intact to the destination. What is the achievement of the above technical result.

The analysis of the known technical solutions showed that none of them contains both the totality of essential features and distinctive features, which allowed us to conclude that there are patentability criteria of "novelty" and "inventive step".

The proposed device for transporting containers in a fluid stream is illustrated by the following description and drawings, where in FIG. 1 shows an annular conduit with liquid, FIG. 2 shows the construction of the container, FIG. 3, a fragment is presented at the position of the beginning of the container supply to the loading and unloading hatch; FIG. 4, a fragment of a loading and unloading position of a container is shown, FIG. 5, a fragment is presented in the position of returning the container to the pipeline with liquid.

The proposed device for transporting containers in a fluid stream contains:

- ring-shaped pipeline - 1 with liquid;

- pumps - 2, 3, providing continuous circulation of liquid with containers inside the ring-shaped pipeline - 1 with liquid and connected by one of their supply inputs to the neutral wire of the alternating voltage network - 220 V and their other inputs through switches - 4, 5 to the phase wire of the alternating network voltage - 220 V;

- loading and unloading stations, made in the form of bypasses - 6, 7, equipped with water conduits - 8, 9, 10, 11 - windows - 12 and hatches - 13 and fixed on the corresponding sections of the outer surface of the ring-shaped pipeline - 1 with liquid;

- hydraulic dampers made in the form of elastic waterproof tubes - 14, 15, toroidal shape, installed inside the annular pipeline - 1 with liquid, front and rear loading and unloading stations and connected by the internal cavities of their elastic waterproof tube toroidal shape to the outputs of the respective pumps - 16 , 17, providing a fluid supply into the internal cavities of elastic waterproof tubes - 14, 15 of a toroidal shape, or providing liquid discharge from the internal cavities of elastic waterproof tubes - 14, 15 and connected by one of their supply inputs to the neutral wire of the AC voltage network - 220 V directly and their other power inputs through the corresponding switches - 18, 19, 20, 21 to the phase wire of the AC voltage network - 220 V (see, Fig. 3);

- containers - 22, 23, 24, 25, 26, 27, 28, 29, 30, 31 with grippers - 32, 33, designed for loading and unloading containers, each of which is located inside the ring-shaped pipeline - 1 with liquid and is made in in the form of a hollow ball with a hatch - 34 (see, Fig. 4), with a partition - 35 (see, Fig. 2), located perpendicular to one of the central axes of the hollow ball, in its lower part, and fixed with its lateral edges to the corresponding sections of the inner surface of the hollow ball and forming a closed inner cavity in the form of a spherical segment filled with a heavy load - 36 for example, sand, concrete, metal shavings, etc. etc.

The proposed device for transporting containers in a fluid stream.

In the inner cavity of the annular pipeline - 1 with a liquid, containers of a spherical shape with a load are installed for their subsequent transportation.

They turn on pumps - 2, 3 and provide continuous liquid circulation and the movement of containers with cargo to the respective destinations of the loading and unloading stations (for example, to the bypass - 7).

Before the direct arrival of any conveyor with cargo, for example, under the number - 30 (see, Fig. 3 and Fig. 5), designed for a specific loading and unloading station (turn on the switch - 20 of the pump -17) and supply liquid to the internal cavity of the elastic, waterproof tube is 15 toroidal in shape and fixes the receipt of the previous container with the load, for example, under number - 31 in the hole of the torus of the elastic waterproof tube - 15 and thus ensure the arrival of the container with the load at number - 30 to the hatch - 12 of the corresponding Bypass - 7 (loading and unloading station).

At the same time, they turn on the switch - 18 of the pump - 16, carry out the supply of liquid into the internal cavity of the elastic waterproof tube - 14 toroidal shape. And they fix the receipt of the next container with the cargo, for example, under the number - 29 (not shown in the drawings) in the hole of the torus of an elastic waterproof tube - 14.

In this section, the circulation of the fluid flow and the passage of containers with cargo in an annular pipe - 1 with liquid are temporarily suspended.

Open the hatch - 12 and carry out the lifting and transportation of the container at number - 30 to the storage room and close the hatch - 12.

After that, the circuit breakers - 18 and 20 pumps - 16, 17 are turned off and the circuit breakers - 19 and 21 pumps - 16, 17 are turned on, draining the liquid from the internal cavities of the flexible waterproof tubes - 14, 15 and again resuming the transportation process in the ring-shaped pipeline -1 s liquid containers with cargo.

It should be noted that the process of loading a container with cargo into some loading and unloading station (for example, in bypass - 7 is carried out as follows).

They turn on the switch - 18 of the pump - 16, supply liquid to the internal cavity of the elastic waterproof tube - 14 of a toroidal shape and fix it in the hole of the torus - 14, the incoming container with the load, which blocks the flow of liquid, for example, in the bypass - 7. Then open the hatch - 12 in the bypass - 7 and through the hole in the hatch - 12 feed the container with the cargo into the inner cavity of the ring-shaped pipeline - 1 with liquid. Close - the hatch, turn off the switch - 18 of the pump - 16, stopping the flow of liquid into the internal cavity of the elastic waterproof tube - 14 toroidal shape, turn on the switch - 20 of the pump - 17 and drain the liquid from the inner cavity of the elastic waterproof tube - 14 and again resuming the transportation process containers with goods in an annular pipeline - 1 with liquid.

Thus, the proposed device for transporting goods in a liquid stream, by introducing a partition into the inner cavity of each of the hollow balls (containers) and forming a closed cavity, in the form of a spherical segment filled with a weighty load, provides more efficient transportation of containers with cargo in the liquid stream.

Claims (1)

A device for transporting containers in a fluid stream, containing an annular pipeline with liquid, pumps that provide continuous circulation of liquid with containers inside an annular pipeline with liquid and connected with their own supply inputs to the neutral wire of the AC voltage network - 220 V directly and their other supply inputs through the corresponding switches to the phase wire of the alternating voltage network - 220 V, loading and unloading stations, made in the form of bypasses, equipped with water conduits, windows and hatches, and fixed on the corresponding sections of the outer surface of the ring-shaped pipeline with liquid, hydraulic dampers, made in the form of elastic, waterproof, toroidal tubes forms installed inside the annular pipeline with liquid, front and rear of the loading and unloading stations and connected by the internal cavities of their elastic waterproof tubes of a toroidal shape to the strokes of the respective pumps, which provide fluid to the internal cavities of the elastic waterproof tubes of the toroidal shape or provide drainage of the liquid from the internal cavities of the elastic waterproof tubes of the toroidal shape and connected by their own supply inputs to the zero wire of the AC voltage network - 220 V directly and their other supply inputs through the corresponding circuit breakers for a phase wire of an alternating voltage network - 220 V, and containers with grips intended for loading and unloading containers, each of which is made in the form of a hollow ball and is located in the inner cavity of an annular pipeline with liquid, characterized in that each hollow ball of each container equipped with a partition located perpendicular to one of the central axes of the hollow ball in its lower part and fixed with its lateral edges on the corresponding sections of the inner surface of the hollow ball, and forming a closed cavity in the form of a spherical segment filled with a heavy load.

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