RU2070953C1 - Loader working equipment - Google Patents

Abstract

FIELD: materials handling; loaders with replaceable equipment. SUBSTANCE: working equipment has two sections. One is of constant length, the other is telescopic. Telescopic section has outer and inner telescoping parts. Through slot is made in outer part. Inner part has lug placed in slot of outer part and projecting outwards. Inner part telescoping hydraulic cylinder is arranged in inner part. Working member control hydraulic cylinder is connected by one end with lug, and by other end, with working member. Outer part of telescopic section has inner part extension limiter. EFFECT: enlarged operating capabilities. 9 dwg

Description

 The invention relates to loaders equipped with interchangeable working bodies, in particular buckets, hoists, hammers and other excavation equipment.

 Known working equipment for a single-bucket excavator, including a telescopic handle with a bucket and a handle extension mechanism (ed. St. USSR N 172248, class E 02 F 9/14, 1964).

 The disadvantage of this working equipment is that the handle extension mechanism is a cable-block system, which complicates this mechanism and makes it cumbersome.

 Known operating equipment of the loader, including the base machine, on which are fixed two articulated sections. One section is made of constant length, mounted on the base machine and pivotally connected to the telescopic section. A working body is fixed at the free end of the telescopic section. The telescopic section contains an outer and an inner part movably located in it. The working body is fixed directly to the outer end of the inner part. The inner part is moved relative to the outer hydraulic cylinder, which is located inside the latter. The telescopic section is rotated relative to the section fixed to the base machine by means of a second hydraulic cylinder (US patent N 3985248, class E 02 F 3/38, publ. 1976).

 A disadvantage of the known working equipment, taken as a prototype, is that the inner part of the telescopic section is made with a groove in which the hydraulic cylinder for moving the inner part relative to the outer one is located. This complicates the design of the telescopic section, as well as its assembly and maintenance.

 The basis of the invention is the simplification of the telescopic section, its assembly and maintenance.

 The specified technical result is achieved by the fact that the fixed part of this section is made from above with a continuous groove, and the movable part has an eye, which is rigidly attached to the movable part and protrudes outward from the fixed part through the groove. The hydraulic cylinder for moving the inner part relative to the outer one is located inside the inner part. At the end of the fixed part, closest to the working body, there is a limiter for the extension of the inner part, made in the form of a clamp, which tightens the outer part of the telescopic section, provides its rigidity.

 In FIG. 1 shows a General view of the telescopic section with a working body, side view; figure 2 is the same, a top view; figure 3 fixed part of the telescopic section, side view; figure 4 is the same, a top view; figure 5 is a movable part of the telescopic section, side view; Fig.6 is the same, a top view; in FIG. 7 section aa of figure 5; in Fig.8 section BB of Fig.5; Fig.9 is a section bb In Fig. 6.

 The loader’s working equipment includes a base machine, a fixed-length section fixed to it (not shown conventionally in the figures) and a telescopic section pivotally connected to this section, consisting of the outer 1 and the inner 2 parts relative to it. At one end of the outer part 1, fasteners 3 are made for connecting the hydraulic cylinder for turning the telescopic section relative to the section of constant length and 4 for articulating the sections together. On top, the outer part of the telescopic section is made with a continuous groove 5. The inner part 2 at one end is made with an eye 6, which is rigidly fixed on this part and protrudes outward through the groove 5. A working body 7 is fixed at the other end of the inner part 2. A control hydraulic cylinder 8 of the working body 7 is fixed at one end in the eye 6, and connected to the working body 7 through the lever system 9 and 10 at the other end. Inside the inner part 2 there is a hydraulic cylinder 11 for extending this part 2 . At the end of the outer part 1, closest to the working body 7, there is a limiter 12, made in the form of a clamp. The hydraulic cylinder 11 is fixed at one end on the outer part 1, and the other on the inner movable 2. The working body 7 is attached to the inner part 2 through the hole 13 made at the end of the part 2, and the lever 9 is attached to this part through the hole 14. The hole 15 in the inner part 2 is used for fastening one of the ends of the hydraulic cylinder 11. The other end of the hydraulic cylinder 11 is attached to the outer part 1 through the hole 16.

 The assembly and operation of the telescopic part is as follows.

 A hydraulic cylinder 11 is inserted into the inner part 2 and its end is fixed in the hole 15. Then, the inner part 2 together with the hydraulic cylinder 11 is inserted into the outer part 1, while the eye 6 is moved into the groove 5. The second end of the hydraulic cylinder 11 is fixed in the hole 16. The hydraulic cylinder 8 is fixed to the eye 6 and to the lever 10. After that, the limiter 12 is installed and the working body 7 is hung. The telescopic section is fixed to the section of constant length. The loader is ready for work, which is carried out by manipulating the hydraulic cylinders 8 and 11. If necessary, to increase the length of the telescopic part, the hydraulic cylinder 11 works, and to control the working body - the hydraulic cylinder 8. That is, the working equipment of the loader works similarly to similar equipment of known loaders. However, the design of the telescopic section, its assembly, and maintenance are greatly simplified.

Claims (1)

 The loader’s working equipment, including the base machine, a fixed-length section fixed on it and pivotally mounted on the last telescopic section, consisting of the outer and movable internal parts, the hydraulic cylinder for extending the internal part, one end fixed on the internal part, and the other on the external, working body, fixed on the outer end of the inner part, and the hydraulic cylinder for controlling the working body, one end connected to the last, characterized in that the outer part of the telescopic section is made on with a through groove, the end of the inner part of the telescopic section, opposite the end on which the working body is fixed, is made with an eye, which is placed in the through groove of the outer part, while the hydraulic cylinder for extending the inner section is located inside it, and the hydraulic cylinder for controlling the working body with the second end is mounted in the eye of the inner part, and at the end of the outer part closest to the working body, there is a limiter for the extension of the inner part.

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