RU2019633C1 - Two-leaf grab bucket of front-end loader - Google Patents

Abstract

FIELD: loading and earth-moving machines. SUBSTANCE: two-leaf grab bucket has rear leaf in form of blade, front leaf and front leaf swinging hydraulic cylinders. Front leaf is made of bottom and side walls. Upper sides of side walls and blade sides are hinged to one another. Hydraulic cylinders are located from rear side of blade and hinged to lower sides and levers. Upper sides of side walls of front leaf are rigidly connected with levers. Side walls of front leaf are located from inner sides with respect to blade sides. Front sheet of blade has openings adjacent to upper sides of its sides. Passed through openings are levers of leaf side walls. Bushings of hinge joint of front leaf are located from sides of openings of front sheet. Each eye has two different holes. Bushings for connection of hydraulic cylinder bodies with blade are coaxial with holes for connection of blade with boom. EFFECT: higher efficiency. 2 cl, 8 dwg

Description

 The invention relates to machines designed for loading and excavation, and in particular to machines such as single wheel bucket loaders.

 Known double-jaw bucket of a front-end loader, comprising front and rear parts and front jaw turning cylinders. The back jaw is made in the form of a bulldozer blade with sidewalls, and the front has a bottom with a cutting part and side walls. These walls cover the outside of the sidewall of the blade. The upper sides of the side walls and the sides of the blade are pivotally connected. The hydraulic cylinders for turning the front jaw are located on the rear side of the blade and are pivotally connected by bodies to the lower sides of the sidewalls, and the rods are connected to levers that are rigidly connected to the upper sides of the side walls of the front jaw [1]. With proper reliability of the design of the well-known loader bucket, it has a number of design and operational disadvantages. So the external location of the side walls of the front jaw relative to the sides of the blade makes it difficult to install scoops on the front sides of the sides. This reduces the efficiency of operation of the bucket during bulldozer operations on solid soils. In addition, the external location of the side walls requires for rigid connection of the eyes on the sidewalls of the blade dump of their articulated joints with the side walls of a special fastening in the form of a long pipe. In turn, such fastening of these eyes leads to the need for increased extension of the eye of the levers to the side of the base machine. This affects the compactness of the bucket and, accordingly, its metal consumption. The external arrangement excludes the support of the side walls during loading operations on the blade, which also requires an increase in the metal consumption of the bucket due to the necessary reinforcement while the design of the bottom of the front of the jaw. The broadening of the bucket due to the external arrangement of the side walls also leads to an increase in the metal consumption of the front jaw and to a greater spacing of the eyes between them for the articulation of the bucket to the boom.

 The aim of the invention is to increase the operational capabilities of the bucket and reduce the metal consumption of its design.

 The invention consists in the following. The double-jaw bucket of the front-end loader contains a rear jaw in the form of a blade, a front jaw, which is made of a bottom and side walls, and hydraulic cylinders for turning the front jaw. The upper sides of the side walls and sidewalls of the blade are pivotally interconnected. Hydraulic cylinders are located on the rear side of the blade and pivotally connected respectively to the lower sides of the sidewalls of the blade and to the levers, which are rigidly connected with the upper sides of the side walls of the front jaw.

 To achieve the result in the proposed bucket, the side walls of the front jaw are located on the inside with respect to the sides of the blade. The blade frontal sheet is made with openings adjacent to the upper sides of its sidewalls, through which levers of the side walls of the jaw are passed. The front jaw swivel bushings are located on the sides of the openings of the frontal sheet and are welded respectively to the sides of the blade and to the frontal sheet. The eyes with holes for connecting the blade with the boom and bucket control levers are made with the location of each of these two opposite holes. In addition, the bushings for the connections of the hydraulic cylinder bodies with the blade are aligned with the holes for the connections with the boom.

 In FIG. 1 shows a bucket, side view; figure 2 is the same front view; in FIG. 3 - section AA in figure 1; figure 4 is a section along BB in figure 1; figure 5 - back jaw, side view; figure 6 is the same front view; Fig.7 is the same, rear view; on Fig - front jaw, side view.

 The double-jaw bucket of the front-end loader contains the front 1 and rear 2 jaws and hydraulic cylinders 3 rotate the front jaw 1. The front jaw 1 consists of a bottom 4 with a cutting part in the form of a knife with teeth 5, from the side walls 6 with scoring knives 7. On the upper sides of the walls 6 levers 8 with bushings 9 and 10 are fixed. The trailing edges of the walls 6 have serrated protrusions 11. The rear jaw 2 is made in the form of a blade, which consists of a front sheet 12, an angle 13, sidewalls 14 with cutting knives 15 and a front knife 16. Front sheet 12 is made adjacent to the upper m to the sides of the sidewalls 14 with figured openings 17. On the lateral sides of the openings 17 there are bushings 18 that are welded to the sidewalls 14, and bushings 19 that are welded to the frontal sheet 12. On the back of the blade 2 through the plates 20 are welded located in the middle parts of its halves, eyes 21 with bushings 22 having holes for swivel joints of the blade 6 with the loader boom and with bushings 23 having holes for swivel connections of the blade 6 with bucket control levers. The bushings 23 are located above the bushings 22. In addition, from the back of the blade 6 there are bushings 24, which are welded to the sidewalls 14, and bushings 25, which are welded to the additional eyes 26.

 The front jaw 1 is pivotally connected to the blade 2 using axles 27, which are passed through the sleeves 18, 9 and 19. The hydraulic cylinders 3 are located on the rear side of the blade 2 and are pivotally connected by bodies to the sidewalls 14 and lugs 26 using axles 28 that are passed through the bushings 25 and 24. By the rods, the hydraulic cylinders 3 are pivotally connected to the levers 8 using the axles 29, which are passed through the bushings 10.

 The side walls 6 of the front jaw 1 are located on the inside with respect to the sides 14 of the blade 2. The levers 8 are passed through the openings 17. The bushings 25 and 24 for connecting the hydraulic cylinder casings 3 to the blade 2 are aligned with the holes of the bushings 22 for connecting the blade 2 to the loader boom .

 When the jaw 1 is raised with a double jaw bucket, earth-moving and planning works are carried out using the blade 2. The bucket with combined jaws 1 and 2 works like a normal bucket with the development of the material with a knife with teeth 5, mounted on the bottom 4 of the front jaw 1. At the same time, the material can be unloaded by turning the entire bucket or opening the jaw 1. In the latter case, the discharge height increases. Opening the jaws 1 and 2 and pushing the front jaw 1 to the front forward, you can perform grader work on selecting heaps of material, destroyed masonry, beams, etc. In this position, the bucket is lowered onto the material, then simultaneously turn on the bucket control cylinders and hydraulic cylinders 3. For performing scraper operations for layer-by-layer development of soil or material, the front jaw 1 is slightly opened. The soil layer, cut with a knife 16 of the bulldozer, enters the bucket until it is completely filled. Then the front jaw 1 is closed and the soil is transported to the place of dumping.

Claims (2)

 1. DOUBLE JAWL FRONT LOADER, including the rear jaw in the form of a blade with a frontal sheet, front knife and sidewalls, the front jaw, which is made of the bottom with the front cutting part and the side walls and the upper sides of the latter through the bushings are pivotally connected to the upper sides of the sidewalls of the blade , on the back side of which are fixed and in the middle parts of its side halves there are eyes with lower and upper holes for connecting the blade with the boom and bucket control levers, respectively, and hyd rotation cylinders of the front jaw, which are located on the rear side of the blade and pivotally connected by bodies through bushings to the lower sides of the blade sides and with additional eyes fixed to the blade, and rods with levers rigidly mounted on the upper sides of the side walls of the front jaw, characterized in that the side walls of the front jaw are located on the inner sides with respect to the sides of the blade, the frontal sheet of which is made with openings adjacent to the upper sides of its sides, through which the levers of the front jaw side walls, the front jaw swivel bushings are located on the sides of the openings of the frontal sheet and are welded respectively to the sidewalls of the blade and the frontal sheet, and the eyes with holes for connecting the blade with the bucket control levers are made with holes in each of them to connect the blade to the boom.  2. The bucket according to claim 1, characterized in that the bushings for connecting the bodies of the hydraulic cylinders to the blade are aligned with the holes for connecting the blade to the boom.

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