SU1040057A1 - Soil intake device for suction dredge - Google Patents

Abstract

A GROUND CONSTRUCTION OF THE PRE-SURFACE, including a tip pivotally attached to the suction pipe, is so that, in order to increase the efficiency of developing unbound soil with interlayer layers, the tip is provided with a protective grid made of two symmetrical sections Each of the tail blades are made up and are installed perpendicular to the vertical plane of rotation, and the height of the blades is increased as they approach the tip axis. (L ate vi

Description

The invention relates to hydromechanization and is intended for the development of soils in underwater drilling. It is known that the soil digging device of the dredger incorporates a suction pipe with a nozzle. . The flow / water leaking to the mouth of the tip is carried out and soil is carried away to the tank. slope: soil (a position is considered to be advantageous when the mouth of the tip is parallel to the slope forming and the impossibility of developing interlinked soils by interlayers, since interlayers of cohesive soils are er It is also known to have a dredging device that includes a suction pipe placed on the frame and a tip 2 that is globally attached to it 3. A disadvantage of the device is the inability to develop non-connected soils with interlayers, because the layers of interconnected erosion erosion The ejection is not amenable to the invention. The aim of the invention is to increase the efficiency of the development of non-bonded soil with layers of bonding. The goal is achieved by the fact that in the soil collecting device of the projectile, which includes a tip hinged to the suction pipe, the latter is equipped with a protective grille, made of two symmetrical sections, each composed of two symmetric sections of each blade of the blade-cutting blades and installed Perpendak, the vertical plane is turned, and the height of the blades is assumed: increasing in proportion. approximation of their location to the tip axis. Figure 1 shows the device, the VIEW side; Fig. 2 shows a section A-A in fig; 1. The device consists of a suction pipe 2 placed on a frame 1, to which a suction tip 4 with a tide 5 is attached to a tide 5 by a hinge 6 the rod 7 of the hydraulic cylinder 8 is attached. The latter is mounted on the frame 1 with the help of the hinge 9. At the mouth of the suction tip 4, a protective grille is made. Of the two symmetrical sections. Each section consists of N 1-3 blades, which are mounted perpendicular to the plane passing through the axes of the tip 4, the hydraulic cylinder 8 with the rod 7 and the hinges 6 and 9. The blades N 1-3 are described in cross section along the line m of currents sucked into the tip of the water. The height of the blades is increasing as they approach their location to the axis 00 of the tip, i.e. h. However, lij take less than the depth of the erosion zone of the non-bonded soil of the limiting dimensions. The device works as follows. When the dredger is working, the tip is brought to the groundless ground, buried in it and papillating from left to right and from right to left develop soil. At the same time, the waste-cutting blades N 1-5 perform the role of a protective grid, blocking the entrance to the mouth of the tip 4 of the object of non-overall dimensions. When meeting with the layer of ground, the hydraulic cylinder 8 is put into operation. Due to the reciprocating movements of the rod 7. The hydraulic cylinder 8, the tip 4 rotates left and right. When turning to the left the blades N 1-3 of the left part of the lattice located in the VO area, the connecting ground is cut in the form of chips and forcibly enters the cavity of tip 4. At the tip 4, chips flow out of the stream through the gaps between blades 1-3 right side of the lattice, located on the site. When turning to the right, the bonded soil is cut by blades N 1-3 of the right part of the grid. At the same time tip 4 1} Gradually, we put the web into a layer of bonded soil. After passing through the puff of bonding soil, the hydraulic cylinder 8 is switched off from work and free absorption of the bonded soil from under the bonding layer is performed. The bonded soil hangs over the excavation, bends, crushes into a ball and is sucked into the tip 4. When developing a non-bonded soil with interlayers, coupling tip 4 plays the role of a swinging or machining baking powder and a suction tip at the same time, interconnected and inextricably (technologically. At the entrance of the Slurry to the suction tip, since blades N 1-3, due to their discharge through the line, form a flow in the suction zone without twists, the cutting of the bonded soil is ensured. and / V 1-3 without sticking them., since they are made with a curvilinear section, cutting of the soil is provided for chips of optimal thickness due to different heights of the blades N 1-3, the design is simple and feasible. For production by field workshops of construction organizations, like all the details in it are standard and the builders have it.

Ni

Claims (1)

(5 4) (5 7) EARTHQUAKE PRIMARY DEVICE, including a tip pivotally connected to the suction pipe, and with the aim of increasing the efficiency of developing incoherent soil with cohesive layers, the tip is equipped with a protective the lattice made of two symmetric sections made up of each of the blade-ripping blades and installed perpendicular. linearly to the vertical plane of rotation, and the height of the blades is accepted to increase as their location approaches the axis of the tip. mounted perpendicular to the plane passing through the axis of the tip 4, the hydraulic cylinder 8 with the rod Ί and "hinges 6 and 9. The blades N 1-3 are described in cross section along the lines of the currents sucked into the tip of water. The height of the blades is accepted to increase as their location approaches the axis 00 ^ of the tip, i.e. > Τι _Ί . However, they take I less than the depth of the eons of erosion of incoherent soil of maximum size.