RU2042014C1 - Excavating part of wheel excavator - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: excavating part of the wheel excavator has dippers, whose side walls carry detachable blades with a tooth. Detachable bits are mounted in slots made in the dipper bottom. The detachable bits are made in the form of a wedge, whose bases are sharpened at an angle of 20 to 35 deg. An edge is positioned on the base surface. The edge surface is stepped with the growth of the edge height in the direction from the nose towards the tail section, and the edge front and side walls are inclined towards the base at angle of 60 to 70 deg. Besides, intermediate bits are installed between the dippers, their side walls are furnished with detachable blade with a tooth. EFFECT: enhanced excavator capacity at excavation of firm and frozen grounds. 2 cl, 5 dwg

Description

 The invention relates to rotary excavators, namely to their working bodies.

 Known working body of a bucket wheel excavator [1] which bucket includes a housing, a visor with a front cutting edge and side branches with incisors. Lateral branches are made in the form of a broken line. The latter consists of alternating horizontal and associated inclined sections. Cutters are installed in the corners of the lateral branches.

 The disadvantage of this working body is that the process of cutting chips is carried out in several rows. This leads to over-crushing of the rock, which is not economically feasible. In addition, the bucket of this working body is practically unsuitable for the development of minerals lying in a thin layer.

 The closest technical solution to the invention is a working body with buckets [2] each of which includes side and middle cutting parts with straight cutting edges, with the middle cutting part of the bucket offset against the direction of rotation relative to the side cutting parts.

 The disadvantage of this technical solution is that it cannot be used to develop extra-strong rocks, including frozen ones.

 The objective of the invention is to increase the efficiency of bucket wheel excavators in the development of strong and frozen rocks.

This is achieved by the fact that the working body contains a bucket, including side walls and a bottom, equipped with removable cutting elements. On the side walls of each bucket, removable knives equipped with a protruding tooth are installed, and in the slots made in the bottom of the bucket, cutting elements are mounted that are based on the shape of a wedge with ^a front part that is sharpened at an angle of 20-25 ^{about the} surface, the surface of which is made stepped with increasing height ridge in the direction from the tip towards the tail, and the front and sides of the ridge are inclined to its base at an angle of 60-70 ^about .

 In addition, intermediate cutting elements are installed between the buckets, similar to the side cutting elements mounted on the buckets.

The indicated execution of the middle cutting part of the buckets allows for the development of frozen and strong rocks with a double action, first due to ^the front part of the cutting elements being sharpened at an angle of 20-35 ^{about the} front of the cutting elements, the bucket is introduced into the breed being developed (i.e., the process of cutting it), and then As you approach the crest cutting zone, energetically favorable rock chipping is carried out, facilitating the further advancement of buckets in the developed array.

 Equipping rotary excavators with the proposed working bodies will increase their efficiency and, if necessary, productivity without increasing the energy costs used for the excavation of rocks.

 In FIG. 1 shows a part of the working body (side view) with a sequential arrangement of buckets and intermediate cutting elements; in FIG. 2 is a front view of a bucket and an intermediate cutting element (view along arrow A in FIG. 1); in FIG. 3 and 4 cutting elements, respectively, side view and plan; in FIG. 5 a section BB in FIG. 3.

 The working body of a rotary excavator contains a bucket 2 mounted on the rotor 1 and intermediate cutting elements 3. On the side walls of each bucket and each intermediate cutting element, for example, removable knives 4 equipped with a forward tooth 5 are mounted by welding.

In the slots made in the bottom 6 of each bucket 2, removable cutting elements 7 are mounted, abutting against the rear plate 8 of the bucket, to which the chain elements 9 are attached, which function as the rear and movable parts of the bottom of the bucket. The number of removable cutting elements can be different and depends on the ratio of the thickness and width of the chips developed by the working body of the breed. The cutting elements 7 are, for example, a combination ^{of a} wedge and a ridge 10 pointed at an angle of 20-35 ° ^{about a} wedge and a ridge 10 (Fig. 3), the surface of which is made stepped with increasing height of the ridge in the direction from the tip towards the tail, moreover, the front and sides of the ridge are inclined to its base at an angle of 60-70 ^about . The fastening of the elements 7 on the bottom 6 of the bucket can be carried out using, for example, bolts, for which holes 11 are made in these parts.

 The working body works as follows. When the rotor rotates, the knives 4 of the intermediate cutting elements 3 cut two grooves of a given depth in the middle part of the face. This is facilitated by the fact that the knives are equipped in their front with a tooth 5, which facilitates their introduction into the breed. The next bucket 2 cuts two more grooves along the edges of the face.

 As a result of these actions, the removed chips turn out to be cut into three identical parts across the width, which facilitates the work of the cutting elements that come into effect after this 7. The latter, in turn, are introduced into the developed breed first with their sharp wedge-shaped part, and then with ridges 10, which expand already Slots cut in the rock (like a cleaver when chopping wood) and crushing cleaved rock into several large parts.

 The depth of grooving and the speed of rotation of the rotor are determined by the conditions for the effective process of separate cutting by large chips.

 The proposed design of the working body can be used with great efficiency and in the development of poorly bonded and thawed soils. For this, the intermediate cutting elements must be removable, which will also improve the fillability of the buckets.

Claims (2)

1. THE WORKING BODY OF THE ROTARY EXCAVATOR, including buckets mounted on the rotor wheel, the side walls and bottoms of which are equipped with removable cutting elements, characterized in that the removable cutting elements located on the side walls of the buckets are made in the form of knives with a tooth, and the bottoms of the buckets are made with slots in which removable mounted cutting elements made in the form of a pointed angled 20-35 ^o wedge base and ridge having a surface formed with a stepped ridge height increases in the direction from the tip a tail portion, wherein the front and lateral sides of the ridge set at an angle of 60-70 ^o to its base.  2. The working body according to claim 1, characterized in that it is equipped with intermediate cutting elements mounted on the rotor wheel between the buckets, the side walls of which are equipped with removable knives with a tooth.

Images