SU1094910A1 - Sucktion intake of dredger - Google Patents

Abstract

1. VESSELING DEVICE OF THE PRE-SURFACE, including a suction tube with a nozzle, the mouth of which is made in the form of a hollow torus, different from the fact that, in order to increase the efficiency of the development of soils by reducing the pressure losses on the suction of the slurry into the tip due to the formation of ice on its surface by feeding in the heat carrier torus, the tip is provided with tubes placed on its outer surface, and the walls of the hollow torus have windows located in the diametral plane of the tip section, each of tubes is connected through a corresponding window torus cavity.

Description

2. The device according to claim 1, wherein the tubes are made of a material with a low hollow high heat conduction heat, the torus is made of a conduction material.

The invention relates to hydromechanization and is intended for the development of soils in underwater fences.

A priming device for a dredger is known, including a suction pipe and a conical suction tip of a socket type.

Such a dredger suction device is known, including a suction pipe with a nozzle, the mouth of which is made in the form of a hollow torus 2,

The disadvantage of these devices is a decrease in the suction capacity due to a significant loss of pressure at the entrance to the suction tip. Losses occur due to turbulence and separation of water streams when flowing around the input edges of the tip. This leads to a decrease in the performance of the dredger.

The aim of the invention is to increase the efficiency of the development of soils by reducing the pressure loss on the suction of the slurry into the tip due to the formation of ice on its surface by applying a heat carrier to the torus.

The goal is achieved by the fact that in the suction device of the dredger row, which includes a suction pipe with a nozzle, the mouth of which is made in the form of a hollow torus, the nozzle is equipped with tubes placed on its outer surface, and the walls of the hollow torus have windows located in the diameter plane of the nozzle section, wherein each of the tubes is connected through a corresponding window to the torus cavity.

In addition, the tubes are made of a material of low thermal conductivity, and a hollow torus is made of a material of high thermal conductivity.

FIG. 1 schematically shows the proposed device; in fig. 2, section A-A in FIG. one.

The device consists of a suction tube 1 with a conical tip 2 provided with an orifice in the form of a hollow torus 3. The torus 3 is made with windows 4 and 5 placed in the diametrical section of the tip 2. The tube 6 is joined to the window 4, and the tube 7 to the window 5. The flange connection 8 of the tip 2 is connected to the pipe. In the tubes 6 and 7 there are flexible inserts 9 and 10. Inside and outside the tip ice layers 11 and 12 are formed. The entrance part of tip 2 has the outlines of the working generatrix BCDEF. On the deck of the dredger, a cooling tank (not shown) is installed, to which the tube 6 of the lower forming tank is attached, and the tube 7 is attached to the upper forming tank.

The device works as follows.

The proposed device, but without layers of ice 11 and 12, is lowered into the water area of the bottom. The coolant is filled with coolant, which includes a cooling tank, tubes 6 and 7, and the cavity of torus 3. A fluid, such as kerosene, or gases, such as freon, can be used as the coolant. The cooling system can operate according to the scheme of forced circulation of the coolant in the summer and natural circulation of the coolant at negative air temperatures.

The cold coolant from the cooling tank flows through the tube 6, flows through the window 4 into the cavity of the torus 3 and flows along the torus, reaches the window 5, goes through it into the tube 7, rises through the tube 7 to the day surface where it pours into the cooling tank. When flowing in the cavity of the torus 3, the coolant removes heat from the walls of the torus 3. The outer forming torus 3 removes heat from the adjacent water layers, the water freezes. On a surface

Claims (2)

,1. The suction device of the earthing device, including a suction tube with a tip, the mouth of which is made in the form of a hollow torus, characterized in that, in order to increase the efficiency of soil development by reducing the pressure loss on the suction of the hydraulic mixture in the tip due to the formation of ice on its surface by feeding ice into the torus coolant, the tip is equipped with tubes located on its outer surface, and the walls of the hollow torus have windows located in the diametrical plane of the section of the tip, with each of the tubes oedinena through the corresponding window torus cavity. Figure 1 2. The device according to p. ^ Characterized in that the tubes are made of material of low thermal conductivity, and the hollow torus is made of material of high thermal conductivity.