SU931609A1 - Multistage hydraulic transport installation - Google Patents

Description

The invention relates to hydrotransport and may also be called, for example, in the mountain range. tees for transporting popee ss fossils and other bulk materials through the pipeline; 1y one distance.

A well-known multistage hydrotransport unit containing a pipeline connected to a feeder and a pipeline installed along its length at the places of loss of the igor transport pump station, ka Food from, includes a device for dividing the slurry into a solid and liquid components consisting of the connected with a transport piping and a rotatably mounted mechanism for receiving a hydro-: mix and a fixed perforated drum; a pump for feeding a liquid component whose inlet is communicated with the above device, and the output is provided, located coaxially with the nozzle chamber for receiving the solid component and the mixing chamber 1J.

A disadvantage of the known installation is that in the intermediate and pumping installations it is not the ISSUE that the clarification of the flow of water after the separation of the flow of hydro- is released. mixes. The last ({it happens in the pump itself, into the mixer K € U4epy and the flow of hydrostatic flow is separated from the total flow (if it is fed through a nozzle. This causes wear of the nozzle, a decrease in the flow rate of the flow). parts, which reduces the possibility of increasing the pressure in the main pipeline. Moreover, breaking the "mode of one of the installation steps causes irregularities of the modes of all installation steps, since the units are connected to the main line without interrupting the flow Transitional pumping facilities.

The purpose of the invention is to improve the efficiency of the work.

Claims (2)

The goal is achieved by the mechanism for receiving the slurry mounted inside the drum and consists of a shaft with a hollow shaft and mounted on the shaft between the vanes of the nozzles communicated with its hollow, and the nozzle is located inside the chamber for receiving the solid component, which is made with an auger, wherein each station is provided with containers located under a perforated drum for receiving liquid and solid components connected respectively to the pump inlet and a chamber for receiving solid Nafig component. 1 shows a multistep chat hydrotransport unit, general view; in FIG. i, node 1 in FIG. one; in fig. 3 is a section A-A in FIG. 1; FIG. 4 is a diagram of a multi-stage hydrotransport system; in fig. 5 is a plot of the distribution of the head developed by the pumps of each stage of a multi-stage installation; The multi-stage hydrotransport unit contains a pump 1 for supplying a liquid component which sucks clean water from a sump 2 through a suction pipe 3 and into a chamber 5 to receive a solid component through a nozzle 4 which is placed the screw b, mounted on the cylinder 7, having the possibility of rotation by means of bearings 8, the chamber 5 is supplied with solid bulk material from the feeder 9. The solid flow material and flow The dyes are mixed in the mixing chamber 10 and through the diffuser 11 are supplied to the transport pipeline 12 and to the pipe 13 of the device C; 10, the separation of the mixture of the mixture into the solid and liquid components at an intermediate pumping station. The latter includes a mechanism for separating the slurry into a solid and a liquid component. This mechanism consists of a screw shaft 14 with a hollow shaft and fixed on the shaft between the pastes the nozzles 15 communicated with its cavity. The screw 14 is mounted on bearings 16 inside a perforated drum 17 rigidly connected to the housing 18. In the lower part of the latter, chambers are reversed to receive turbid water in the tank 19 for receiving liquid and solid components, the upper part of which is connected to the inlet pipe of the pump pump 1 and 20 for receiving, a solid component that enters the hopper 21, gears with gears 2 and electric drives 23, -a for them are provided for rotating the augers on the head (PG) and pumping (PU) units. 1 gaoling on pumping installations from slurry - protective partitions 24, the formation of slurry occurs on the head installation (PG), from which the first pumping installation (1 PU), on which the slurry is separated into solid and liquid components, is placed at a distance of 2-j - in the place of complete loss of pressure developed by him. The second 2 PU from 1 PU and is placed at a distance of ei - in the place of complete loss of pressure developed from 1 PU, etc. (Fig, 5) -,. Since the number of stages of the slurry pumping unit is practically unlimited, the possibility of transporting the slurry over long distances is created. Multistage hydrotransport unit operates as follows. The high-pressure water pump 1 from the suction sump 2 through the suction pipe 3 sucks in clean water and pumps into the pipeline, at the end of which a nozzle 4 is fitted to supply the high-pressure jet to chamber 5. There the same screw b placed on the cylinder 7 that rotates around the pressure pipe on bearings 8, feeds from the feeder 9 solid bulk material. The formation of slurry occurs in the mixing chamber 10, from which it enters the diffuser II, in which the static head will be restored. From the latter, the slurry enters the pipeline 12 and into the pipe 13, where the loss of energy developed occurs completely. HEAD installation. On this pipe a screw 14 is fixed, which between the blades has nozzles 15 for discharging the slurry and rotates on bearings 16. The slurry enters a perforated drum 17 rigidly connected to the housing 18. In the latter, the liquid is separated from the solid. Water from the housing enters the tank 19, and from its upper part through the pipe 20 to the high-pressure water pump located on the pumping unit (Fig. 2.). The solid material in the wet state for further transportation is fed to the receiving bin 20, located on the first pumping unit - 1 PU. Rotation of the pipe 13 on the PU, as well as the screw on the PG occurs with gears 22 and a gearbox driven by an electric actuator 23. The space in which the gear, gearbox and electric actuator is placed is protected by the partition 24 from accidental ingress of water or pulp. . pumping PU (Fig, 2), in the device for separating the slurry into solid and liquid components (Fig. 3 separates the solid bulk material from the liquid medium - water, and then again the formation of the slurry with the same consistency that it had before into the pipeline 12. This is facilitated by the fact that for further transportation the water clarified in the note 19 is supplied to the high-pressure pump of the transfer station (Figure 2} The loading for this station is the bunker 21, where the screw 14 from the chamber to The body 18 is supplied with a solid bulk material in the wet state. The proposed installation allows transportation of slurries over short distances with the same - optimal consistency throughout the whole line. In addition, the possibility of full utilization of PG and PU, as well as using energy sources as high-pressure pumps reduces to a minimum the number of stages. The technical and economic effect achieved by the implementation of a multi-stage hydrotransport installation in actual conditions, depending on transporting the range of 0.5 - 2 ml. rub. in year. Claims of the Invention Multi-stage hydrotransport unit comprising a transport pipeline connected to the feeder and pressure transfer stations installed along its length in places of pressure loss, each of which includes a device for separating the slurry into a solid and a liquid component, consisting of one connected to a transport pipeline. the possibility of a vrgitzena mechanism for receiving the slurry and a fixed perforated drum, a pump for feeding the liquid component, the inlet to The output device is connected with the above device, and the output is provided with a nozzle, a chamber for receiving a solid component and a mixing chamber located coaxially with the nozzle, characterized in that, in order to increase the efficiency of operation, the mechanism for receiving the slurry is installed inside the drum and consists of a screw with a hollow head. and fixed on the shaft between the blades of nozzles communicated with its cavity, and the nozzle is located inside the chamber for receiving the solid component, which is made with an auger installed inside it, each station with abzhena placed under the perforated drum emkost5 {E for receiving the liquid and solid components, respectively coupled to the inlet of the pump and the chamber for receiving a solid component. Sources of information taken into account in the examination 1. USSR author's certificate in accordance with the application 2782057, cl. B 65 G 53/30, 1979 (prototype).