RU119361U1 - FRAME FOR INSTALLING THE WORKING EQUIPMENT OF THE EARTH-LOADING MACHINE (OPTIONS) - Google Patents

Abstract

1. A frame for installing the working equipment of an earth-moving machine, containing longitudinal beams made with the possibility of their attachment to the chassis of the machine, transverse beams welded to the inner sides of the longitudinal beams at a distance from their ends, on one of which welded to the longitudinal beams is mounted support post in the form of a vertically oriented body, characterized in that the longitudinal beams from the location of the support post to the far transverse beam are made of an open box-shaped profile, and in the section from this far transverse beam to the free end they are made in the form of a plane of vertically oriented sheet plates carrying elements for attaching attachments, and the distance between which in the transverse direction of the frame is made less than the distance between the longitudinal beams in the section between the transverse beams, while the section of the transition of the open box-shaped profile to the sheet plate is made in the form of a box of closed section, the upper flat surface of which is intended for fastening the undercarriage of the machine, the support post is made in the form of two horizontally oriented and located one above the other box-section cross-beams, made with a length exceeding the frame width, and welded on the sides to the vertical box-shaped posts of the closed rectangular section, the height of which more distance between the cross members, while the vertical struts are installed obliquely towards the cross beams of the frame and connected to the longitudinal beams by sheet stiffeners, and each cross member on the outside of the frame is made with

Description

The utility model relates to earthmoving machinery designed for earthmoving and loading operations.

Currently, on the basis of tractors Belarus-82.1, Belarus-892, Belarus-826, Belarus-92P, UMZ, machines are being manufactured that make it possible to create a number of specialized earthmoving machines on a unified base chassis, the functional features of which are determined by different equipment attachments: an excavator -loader with a displaced axis of digging, with imported and domestic hydraulics, with jaw loading equipment, with a narrow bucket of a backhoe, hydraulic hammer, grader bucket, welding unit, tooth rer, etc.

A feature of such specialized machines is the presence of a basic chassis, which is formed by creating a frame that provides the ability on each side to attach the corresponding attachments, and placing on the frame a commercially available transmission, hydraulic control system for units and a body with a cab and operator's workplace. The direct use of tractors Belarus-82.1, Belarus-892, Belarus-826, Belarus-92P, UMZ for solving a number of earthmoving tasks does not always solve the problem of the operational durability of such a tractor. This is due to the fact that the frame of such tractors is not designed for large bending loads and loses its spatial shape, which leads to a sharp decrease in the life of the tractor. In this regard, and in order to expand the range of capabilities, the frame as a separate element is made taking into account high loads and the possibility of operation with the widest assortment of attachments. If there is such a special frame, it is possible to mount the chassis of any tractor that can drive the pump (s) to create operating pressure in the power cylinders of the attached equipment. In connection with the change of the frame and for the use of standard attachment units, it is necessary to make changes in the design of some attachment units. As an attachment, a bucket mounted on an arrow pivotally mounted on a frame can be used.

A known frame for installing working equipment of a hydraulic excavator, comprising longitudinal beams made with the possibility of their mounting on the chassis of the excavator, a transverse beam welded to the inner sides of the ends of the longitudinal beams, rear with respect to the chassis of the excavator, brackets for installing hydraulically controlled outriggers welded to the external the sides of the frame, and the supporting rack, welded to the transverse beam and equipped with bushings for installing a swivel column of excavating equipment ora and hydraulic units of its control, characterized in that in it the supporting rack is made in the form of a vertically arranged sheet body and three sheet brackets welded to the body and located horizontally one below the other at different heights, the longitudinal beams are equipped with welded to their outer sides of the rear ends with vertical sheet sidewalls located at an angle to each other, and the transverse beam is equipped with support ribs welded to it, which are located across the beam and protrude their upper edges above the last and above the rear ends of the longitudinal beams, while the body of the support rack is bent to form a back wall having cutouts and parallel to the transverse beam, and side cheeks, which are obtuse to the back wall and welded with the lower part to the outer sides of the sidewalls longitudinal beams, and is equipped with plates located vertically and parallel to the side cheeks of the body, welded to the side edges of the bases of the middle and lower rack brackets and to the inner sides of the side cheeks housing, the base of the upper bracket of the rack is installed on the upper edge of its housing and welded to the latter, the base of the lower bracket of the rack is installed on the supporting ribs of the transverse beam and welded to them, the base of the middle and lower brackets of the rack are threaded through the cutouts of the rear wall of its housing with access to the inner side the latter and are welded to the rack body, bushings for installing hydraulic units for controlling the rotary column are located on the middle and lower brackets of the rack on the outside of the rear wall of its body and with the possibility of installing on the supporting rack as hydraulic units the control of the rotary column of hydraulic cylinders located in one horizontal plane and spaced on both sides of the middle vertical plane of the frame, and the bushings for installing the rotary column of the working equipment are placed on the upper and lower brackets of the rack on the outside the rear wall of its housing at a greater distance from the rear wall of the rack housing than the bushings for installing hydraulic units for controlling the rotary column, and their axes are located and the vertical median plane of the frame (RU 29314, E02F 3/38, E02F 9/08, publ. 05/10/2003). This decision was made as a prototype for the declared objects.

The disadvantage of this solution is the increased complexity of manufacturing in the frame of the unit for connecting hydraulic units and working equipment, an abundance of stiffeners, which leads to a large number of welding operations. In addition, such a frame works well. If attachments are attached to each end, one of which is not involved in technological work, is always used as the mass of balancing the tilting moment acting on the frame during operation of the other attachments. In the absence of one of the attachments, a tipping moment begins to be transmitted to the frame, which is expressed in the tractor lifting around one of the axles of the wheels, which negatively affects the transmission of the machine.

The technical result obtained by the practical use of the proposed utility model is to increase the operational reliability and durability of the machine and expand the capabilities of the frame in the range of used mounted units.

The specified technical result for the first embodiment is achieved by the fact that in the frame for installing the working equipment of the earthmoving machine, containing longitudinal beams made with the possibility of their mounting on the chassis of the machine, transverse beams welded to the inner sides of the longitudinal beams at a distance from their ends , on one of which a support stand is welded to the longitudinal beams in the form of a vertically oriented body, longitudinal beams from the location of the support stand to the far the transverse beam is made of an open box-shaped profile, and in the section from this distant transverse beam to the free end, they are made in the form of a plane of vertically oriented sheet plates carrying elements for attaching attachments and the distance between which in the transverse direction of the frame is less than the distance between the longitudinal beams in the section between transverse beams, while the transition section of the open box-shaped profile in the sheet plate is made in the form of a box of closed section, the upper plane whose surface is intended for fastening the undercarriage of the machine, the support stand is made in the form of two horizontally oriented and one above the other cross-section box-shaped sections made in length exceeding the width of the frame and welded on each side to vertical racks of box-shaped closed section of rectangular shape, the height of which is greater the distance between the cross members, while the vertical struts are installed obliquely in the direction of the transverse beams of the frame, and each cross from the outside of the frame is made and with a longitudinally located neckline.

The specified technical result for the second embodiment is achieved by the fact that the Frame for installing the working equipment of the earthmoving machine, containing longitudinal beams made with the possibility of their mounting on the chassis of the machine, transverse beams welded to the inner sides of the longitudinal beams at a distance from their ends, on one of which a support stand is welded to the longitudinal beams in the form of a vertically oriented body, equipped with two brackets, each made in the form of two sheets of the output plates, in the lower part welded together with the formation of a box-shaped section and in the upper part having three through holes in each sheet plate for the location of three bushings for swiveling with attachments, the longitudinal beams from the location of the support post to the far transverse beam are made open box-shaped profile, and in the section from this distant transverse beam to the free end, they are made in the form of a plane of vertically oriented sheet plates carrying elements for attaching hinged equipment and the distance between which in the transverse direction of the frame is made less than the distance between the longitudinal beams in the area between the transverse beams, while the section of the transition of the open box-shaped profile into the sheet plate is made in the form of a box of closed section, the upper flat surface of which is intended for fastening the chassis of the machine , the support stand is made in the form of two horizontally oriented and located one above the other cross-section box-shaped, made in length, pre extending the width of the frame, and welded on the sides to vertical racks of box-shaped closed section of rectangular shape, the height of which is greater than the distance between the cross members, while the vertical racks are installed obliquely towards the transverse beams of the frame, and each cross from the outside of the frame is made with a longitudinally located cutout the brackets attached to the outside of the frame to the box closed section at the transition of the open box-shaped profile of the frame in the sheet plate.

These signs are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the desired technical result.

In Fig.1 a General view of the earthmoving machine;

figure 2 - frame according to the first embodiment, side view;

figure 3 is the same as in figure 1, a top view;

figure 4 is a view of the support rack of the frame of figure 1;

figure 5 - section aa in figure 2;

6 is a frame according to the second embodiment, side view;

Fig.7 is the same as in Fig.6, a top view;

Fig.8 is a General view of the bracket for the frame of Fig.6, a view from one side;

Fig.9 is a side view of the bracket of Fig.8;

figure 10 is a view of the bracket on the other hand.

According to this utility model, the design of the frame for the installation of the working equipment of the earthmoving machine is considered (Fig. 1).

The frame for installing the working equipment of the earth-loading and loading machine according to the first embodiment contains longitudinal beams 1 (FIGS. 2 and 3) made with the possibility of their fastening on the chassis of the machine 2, transverse beams 3 and 4, welded to the inner sides of the longitudinal beams 2 on distance from their ends.

At one end of the frame is mounted welded to the longitudinal beams 1 support post 5 in the form of a vertically oriented body.

The longitudinal beams 1 from the location of the support post 5 to the far transverse beam 4 are made of an open box-shaped profile, and in the area from this far transverse beam 4 to the other free end, they are made in the form of a plane of vertically oriented sheet plates 6, which carry elements 7 for attaching attachments. The distance between the sheet plates 6 of the frame in the transverse direction of the frame is less than the distance between the longitudinal beams 1 in the section between the transverse beams 3 and 4. Section 8 of the transition of the open box-shaped profile to the sheet plate 6 on each longitudinal beam is made in the form of a box of closed section, the upper flat surface 9 which is intended for mounting the chassis of the machine.

The support post 5 (Figs. 4 and 5) is made in the form of two box-shaped cross-sections 10 and 11 horizontally oriented and arranged one above the other, made in length exceeding the width of the frame, and welded on the sides to the vertical posts 12 of the box-shaped closed section of a rectangular shape, height which are greater than the distance between the cross members 10 and 11, while the vertical posts 12 are mounted obliquely towards the transverse beams 3 and 4 of the frame and are connected with the longitudinal beams 1; sheet stiffeners 13, and each cross member on the outside of the frame is made with a longitudinally located notch 14. On the racks 12 there are made elements 15 for attaching attachments or ballast for balancing the loads from the front attachment.

The frame for installing the working equipment of the earth-loading and loading machine according to the second embodiment (Figs. 6 and 7) repeats the design of the frame according to the first embodiment, but contains additions to expand the range of used attachments.

The addition consists of two brackets 16 (Figs. 8-10), each of which is made in the form of two sheet plates 17, welded together at the bottom to form a box section 18 and at the top having three through holes 19 in each sheet plate for the location of three bushings for swiveling with attachments. In the example of FIG. 1, a bucket loader was used as an attachment, in which the boom 20 is pivotally connected to the sleeve in the middle holes 19. the rod 21 is mounted on the sleeve in the upper holes, and the power hydraulic cylinder 22 is connected to the sleeve in the lower holes of the bracket.

The brackets 16 are attached (welded) on the outside of the frame to a box of closed section at the transition section of the open box-shaped profile of the frame into a sheet plate. To do this, boxes 23 are welded to the brackets, by which the brackets are supported on the upper surface of the longitudinal balls (welded to them).

This utility model is industrially applicable, it allows to reduce the transmission of bending moment to the frame and increase the durability of the articulated joints of the attachments mounted on the ends of the frame.

Claims (2)

1. A frame for installing working equipment of an earth-loading and loading machine, comprising longitudinal beams made with the possibility of their mounting on the chassis of the machine, transverse beams welded to the inner sides of the longitudinal beams at a distance from their ends, one of which is mounted welded to the longitudinal beams support column in the form of a vertically oriented body, characterized in that the longitudinal beams from the location of the support column to the far transverse beam are made of an open box-shaped profile, and the section from this distant transverse beam to the free end is made in the form of a plane of vertically oriented sheet plates carrying elements for attaching attachments, and the distance between them in the transverse direction of the frame is less than the distance between the longitudinal beams in the section between the transverse beams, while the transition section is open a box-shaped profile in a sheet plate is made in the form of a box of closed cross section, the upper flat surface of which is designed for fastening the running gear As part of the machine, the support stand is made in the form of two horizontally oriented and one above the other cross-section box-shaped, made with a length exceeding the width of the frame, and welded on each side to vertical racks of box-shaped closed section of a rectangular shape, the height of which is greater than the distance between the cross-sections, while the vertical the racks are installed obliquely towards the transverse beams of the frame and connected with the longitudinal beams by sheet stiffeners, and each cross member on the outside of the frame is made with longitudinally cutout. 2. A frame for installing working equipment for a digging machine, comprising longitudinal beams made to be mounted on the chassis of the machine, transverse beams welded to the inner sides of the longitudinal beams at a distance from their ends, one of which is mounted welded to the longitudinal beams supporting column in the form of a vertically oriented body, characterized in that it is equipped with two brackets, each made in the form of two sheet plates, in the lower part welded together with an image by box-shaped section and in the upper part having three through holes in each sheet plate for the location of three bushings for swiveling with attachments, the longitudinal beams from the location of the support post to the far transverse beam are made open box profile, and in the area from this distant transverse the beams to the free end are made in the form of a plane of vertically oriented sheet plates carrying elements for attaching attachments, and the distance between which the transverse direction of the frame is made less than the distance between the longitudinal beams in the area between the transverse beams, while the transition section of the open box-shaped profile into the sheet plate is made in the form of a box of closed section, the upper flat surface of which is designed to secure the chassis of the machine, the support stand is made in the form of two horizontally oriented and located one above the other cross-section box-shaped, made with a length exceeding the width of the frame, and welded on the sides to the vertical rectangular box-shaped racks, the height of which is greater than the distance between the cross members, while the vertical racks are installed obliquely towards the transverse beams of the frame, and each cross from the outside of the frame is made with a longitudinally located cutout, while the brackets are attached outside the frame to the box of closed section the transition section of the open box-shaped profile of the frame in the sheet plate.