SU1027345A1 - Arrangement for working and conveying soil - Google Patents

Abstract

DEVICE FOR DEVELOPMENT AND TRANSPORTIRSVANIYA GRUNTSe comprising dirt pump connected vsasyvak 1y1m slurry pipeline with ejector camera installed therein a conical tip and discharge slurry pipeline from thickeners pulp and gidropulsatorom those reported trubsshrovod (Jf1 with ejector damask of t n and h and w m f e with the fact that, in order to increase the efficiency of soil excavation, the conical tip of the ejector chamber is made in the form of metal plates, the hinge is fixed on the walls of the ejector chamber on the side of the mouth, and nyh- plates ustanovlen- GOVERNMENTAL between the metal plates and connected thereto by their longitudinal sides.

Description

10 The invention is related to it and is intended for the development and transportation of soils. A soil-collecting device is known, including an ejector suction nozzle with a water collector and a hydrofluidpipe, while the water collector is made in the form of a vortex chamber 1. A disadvantage of this device is the low efficiency of the development and soil grit distribution. The closest in technical essence to the invention is a device for the development and transportation of soils, which includes a ground pump connected by a suction slurry line to an ejector chamber with a tip installed on it and to a HycHbJM slurry pipe with a pulp thickener and a hydro-pulsator communicated with a C2 ejector chamber A disadvantage of the known device is that the size of the gap between the walls of the ejector chamber and the cone tip remains constant during operation. that allows maximum; but use the energy of the flow, periodically withdrawn from the discharge slurry line to the ejector chamber. The purpose of the invention is to increase the effectiveness of excavation. This goal is achieved by the fact that, in the device, an immersion pump connected to the suction slurry line with an ejector chamber installed in a non-tapered tip and pressure slurry pipe with a pulp thickener and a hydropulsator communicated by a pipeline with an ejector chamber, the tapered tip of the ejector chamber is made in the form of metallic plaster pivotally mounted on the wall of the ejector chamber on the side of the mouth, and elastic plates installed between the metal plates and connected to them by their We are on the sides. FIG. 1 shows a device with a wide view, FIG. 2 - ejector chamber, paapesj in FIG. 3 is a view A of FIG. 2, The device includes a soil pump suction pulp 2 and pressure slurry 3. On the pressure slurry 3 a slurry thickener 4 is installed, in the upper part of which is located a pulsed pulse - th 5 with a drive 6, connected by pipe 7 with an ejector chamber 8, Inside the ejector chamber 8 is installed a conical tip 9, made in the form of metal plasters U, hinged 5 on the walls of the ejector chamber 8 on the side of the mouth, and elastic plates 11 mounted 1x between the metal plates Yu and connected to them along down sides. The device works as follows. From the ground pump 1, the water / soil mixture flows from the suction slurry line 2 to the pressure 3. At the moment when the hydropulsator 5 communicates the thickener 4 with the pipeline 7, the clarified part of the slurry rushes into the suction slurry line 2 through the ejection slot in the ejector chamber 8. At this moment, under the action of pressure in the slit, the inner surface of the slit formed by metal 10 and elastic 11 plates is compressed and the slit is widened. The portion of the liquid from pipeline 7 flows through the slit and pushes the slurry into the suction pipe toward the ground pumps. By increasing the gap gap, the overall hydraulic resistance of the line is reduced. - This contributes to an increase in the instantaneous flow rate of fluid discharged from the pressure slurry line, an increase in the energy transferred to the suction flow and a more dramatic drop in pressure in the pressure slurry line. At the next moment, when hydropulsator 5 begins to block the discharge from thickener 4, the flow of fluid into pipeline 7 decreases, the pressure in the ejection gap drops, the inner surface of the gap expands, and the size of the gap clearance decreases. Due to this, the total hydraulic resistance of the line increases. This contributes to the fastest increase in pressure in the pressure pipe to the nominal. With an increase in the immersion depth of the suction tip or the appearance of a layer of hard-to-break soil, the resistance to suction increases. This reduces the flow rate of the slurry sucked by the ground pump. The internal surface of the ejection slit, formed by metal 10 and elastic 11 plates, is compressed and the gap widens. Due to the presence of inertial lag, the pulp flow rate at the beginning of the pressure path 3 remains at the same level for some time. Accordingly, the size of the flow rate discharged by the CP of the pressure pulg-31O273454 is also maintained.

Filling through the pipe terminal 7 and the camera 8. is growing. The overall increase is also a result of an increase in the chip size ratio of the device.

of the ejector to the intake stream, the energy transmitted is transmitted, and the pulp flow absorbed by the ground pump is again

The proposed device allows to increase the efficiency of the development and hydrotransportation of soils.

Bi / dA

Claims (1)

DEVICE FOR DEVELOPMENT AND TRANSPORTATION OF SOILS,. including a soil pump connected by a suction pulp conduit to the ejector chamber with a conical tip installed in it and a pressure pulp conduit with a pulp thickener and a hydro pulsator connected by a pipeline to the ejector chamber, characterized in that, in order to improve soil development, the cone tip of the ejector chamber is made in the form metal plates pivotally mounted on the walls of the ejector chamber from the mouth side, and elastic plates installed between the metal plates and soy bent with them along their longitudinal sides. Fig / 1 1027345 2