RU98764U1 - EXCAVATOR (OPTIONS) - Google Patents

Abstract

 1. An excavator, based on the T-60 or T-85 tractor of the Vladimir Motor Tractor Plant, on a wheeled chassis with a power take-off shaft, including front and rear wheels with final drives, which has a frame with functional working equipment attached to it, an operator’s cab with a seat and excavation equipment in the form of a rotary column with a drive, an arrow, a handle and a bucket with lifting cylinders, and including a hydraulic system with a pump and a tank for hydraulic fluid, while the hydraulic system is made according to a single-circuit scheme and equipped with a hydraulic distributor with operating controls associated with the hydraulic cylinders of the excavator and functional equipment, a multiplier is built into the hydraulic system pump, the rotary column is shifted to the center of gravity of the base wheel chassis, the boom is made of a triangular box-shaped structure with reinforcing pads at the joints, the lifting cylinder the boom is located inside the boom and is installed in the same vertical plane with the hydraulic cylinders for lifting the handle and the bucket, the hydraulic system pump threads placed on the power take-off shaft, the hydraulic fluid tank is made in a trapezoidal shape and secured by brackets on the frame on the left side to the steps of the cab, and functional working equipment is made in the form of a dozer blade with a control hydraulic cylinder installed in the front of the frame, the control valve is installed at an angle to the operator’s cab with the input of the working controls into the cab, final drives are fixed to the frame by means of a mounting unit consisting of upper and lower

Description

The utility model relates to earthmoving machines, in particular, to excavators and is intended for the mechanization of earthwork in the ground and for loading and unloading.

Known excavator-excavator-bulldozer EO-2621 B3 and backhoe loader EO-2626 manufactured by JSC "SAREKS".

Excavator-bulldozer EO-2621 V3 is made on the basis of tractors MTZ (Belarus-882.1, Belarus-80 and 82P) and UM3 and is intended for earthwork in soils of categories 1-1V and for loading operations. The EO-2621 excavator is equipped with a backhoe bucket and a blade. The excavator can operate in a temperate climate at temperatures from -40 ° C to + 40 ° C. (Excavator-bulldozer EO 2621. http://www.uraleks.ru/product-1O.html).

The EO-2626 backhoe loader is manufactured on the basis of the Belarus MT3-82P tractor (reinforced front axle, panoramic glass, gearbox reverse), designed for mechanization of loading and unloading and earthmoving operations. The excavator can operate in a temperate climate at temperatures from -40 ° C to + 40 ° C. (EO 2626 backhoe loader. Http://www.uraleks.ru/product-16.html).

On well-known bulldozers and backhoe loaders, the hydraulic system is carried out according to a two-circuit scheme. Excavator equipment is controlled by an excavator hydrodistributor, and bulldozer or loading equipment is controlled by a standard hydrodistributor of the base chassis.

In addition, well-known excavators are made on the basis of tractors manufactured in Belarus. Organizing the production of these machines in Russia is almost impossible for a number of reasons.

Moreover, the known devices have limited functionality and low reliability, and it is not rational to produce obviously obsolete machines in Russia.

The technical task of the utility model is the creation of a backhoe loader and a bulldozer excavator on a chassis of Russian-made tractors - the Vladimir Motor and Tractor Plant with improved design and layout of structural elements, providing increased reliability.

The technical result is achieved by the fact that

The first design option is a bulldozer excavator.

The excavator is based on the T-60 or T-85 tractor of the Vladimir Motor-Tractor Plant. The excavator contains a basic wheel chassis with a power take-off shaft, including front and rear wheels with final drives, an operator cabin with a seat, a frame mounted on the basic wheel chassis, a rotary column with a drive, an arrow, a handle and a bucket with lifting hydraulic cylinders, a hydraulic system with a pump with integrated multiplier, control valve with working controls, hydraulic fluid tank and functional working equipment, the rotary column is shifted to the center of gravity of the base wheel chassis, with the trill is made of a box-shaped triangular shape with reinforcing pads at the junction points, the boom lifting hydraulic cylinder is located inside the boom and installed in the same vertical plane with the handle and bucket lifting hydraulic cylinders, the hydraulic system pump is located on the power take-off shaft, the hydraulic fluid tank is made in trapezoidal shape and fixed by brackets on the frame on the left side behind the steps of the cab, functional working equipment is made in the form of a dozer blade with a hydraulic cylinder of the installation installed in the front of the frame, the control valve is installed at an angle to the operator’s cabin with the input of the operating controls into the cabin, final drives are fixed to the frame by means of a mounting unit consisting of upper and lower mounting brackets, the base chassis cab is extended, and the operator's seat is reversible .

The second design option is a backhoe loader.

The excavator is based on the T-60 or T-85 tractor of the Vladimir Motor-Tractor Plant. The excavator contains a basic wheel chassis with a power take-off shaft, including front and rear wheels with final drives, an operator cabin with a seat, a frame mounted on the basic wheel chassis, a rotary column with a drive, an arrow, a handle and a bucket with lifting hydraulic cylinders, a hydraulic system with a pump with integrated multiplier, control valve with working controls, hydraulic fluid tank and functional working equipment, the rotary column is shifted to the center of gravity of the base wheel chassis, with the trill is made of a box-shaped triangular shape with reinforcing pads at the junction points, the boom lifting hydraulic cylinder is located inside the boom and installed in the same vertical plane with the handle and bucket lifting hydraulic cylinders, the hydraulic system pump is located on the power take-off shaft, the hydraulic fluid tank is made in trapezoidal shape and fixed by brackets on the frame on the left side behind the steps of the cabin, functional working equipment is made in the form of loading equipment, consisting of guides mounted on the frame, booms with hydraulic cylinders for raising and lowering the boom, bucket with hydraulic cylinders for tipping the bucket and levers of the stabilization system, the control valve is installed at an angle to the operator's cab with the input of the operating controls into the cab, final drives are fixed to the frame by means of an attachment unit consisting from the upper and lower mounting brackets, the base chassis cab is extended, and the operator's seat is reversible.

The design and layout of both options are the same, but the options differ among themselves in the design of functional working equipment.

In the first embodiment, functional working equipment is made in the form of a dozer blade with a control hydraulic cylinder installed in front of the frame.

In the second embodiment, the functional working equipment is made in the form of loading equipment, consisting of portals mounted on a frame, booms with hydraulic cylinders for raising and lowering the boom, a bucket with hydraulic cylinders for tipping the bucket and levers of the stabilization system.

The proposed utility model is illustrated by drawings, in which Fig. 1 shows a schematic structural diagram of an excavator-bulldozer (option one); figure 2 shows a schematic structural layout of the backhoe loader (second option); figure 3 shows the mounting unit of the final drive to the frame (options first and second).

The proposed design options for excavators have common functional structural elements and differ in the performance of functional working equipment.

Each of the proposed design options for excavators (Fig. 1, Fig. 2 and Fig. 30) contains a basic wheel chassis (T-60 or T-85 tractor of the Vladimir Motor-Tractor Plant), including front 1 and rear 2 wheels with final drives, operator's cab 3 with operator's seat (not shown in the drawing).

A frame 4 is mounted on the base chassis; a rotary column 5 with turning cylinders and supporting shoes 6 with hydraulic cylinders are located on the frame in its rear part. An arrow 7 is fixed to the rotary column 5 with a hydraulic cylinder 8 for raising and lowering the boom 7, a handle 9 is attached to the arrow 7 with a control hydraulic cylinder 10, a bucket 11 is attached to the handle 9 with the hydraulic cylinder of the bucket 12.

The rear of the frame 4 is attached with a special axis to the eye of the base chassis, the front of the frame 4 is attached through the front beam to the bracket for the ballast weights of the base chassis.

Cabin 3 is made elongated with a lowered floor.

The operator's seat is reversible.

The swivel column 5 is offset to the center of gravity of the base chassis. Arrow 7 is made of a triangular shape, box-shaped design.

The hydraulic cylinder 8 for lifting and lowering the boom is located inside the boom 7. The hydraulic cylinder 8 for lifting the boom 7, the hydraulic cylinder 10 for controlling the handle 9 and the hydraulic cylinder 12 for controlling the bucket 11 are mounted parallel to each other in a vertical plane.

Each version of the excavator also contains: a tank for hydraulic fluid 13, a control valve 14 with working controls and a hydraulic pump 15 with a built-in multiplier.

The tank for hydraulic fluid 13 is made of a profile, trapezoidal shape and is fixed by means of brackets on the frame 4 on the left side of the excavator behind the steps of the cab 3.

The control valve 14 is installed at an angle to the operator’s cabin 3 with the input of the working controls into the cabin 3.

A hydraulic pump 15 with an integrated multiplier is located directly on the power take-off shaft (not shown in the drawing) of the base wheel chassis and is connected to the power take-off shaft by a coupling.

The final drives of the rear wheels 2 are connected to the frame 4 by an arm 16.

Each of the proposed excavator design options contains functional working equipment.

The design of functional working equipment for each option is different.

First option.

Functional working equipment is made in the form of pushing bars of the blade 17 with a hydraulic cylinder of the blade 18.

The pushing bars of the blade 17 are attached to the frame 4 in its middle part. In the front of the frame 4 is installed the hydraulic cylinder of the blade 18.

The second option.

Functional working equipment is made in the form of loading equipment, consisting of portals 19 and 20, mounted on the frame 4 to the right and left, boom 21 with hydraulic cylinders for raising and lowering boom 22, bucket 23 with hydraulic cylinders for overturning bucket 24 and levers of stabilization system 25.

The excavator works as follows:

The excavator is based on the hydraulic system, to which all excavator equipment is connected.

The hydraulic system of the excavator-bulldozer (version one) and the excavator-loader (version two) are made according to a single-circuit scheme. All working bodies operate from one hydraulic pump 15 and are controlled through one hydraulic distributor 14 using a joystick conveniently located under the operator’s right hand.

When translating the excavator (for the first and second options) from the transport position to the working one, the power take-off shaft of the base chassis is turned on, which drives the hydraulic pump 15, which creates the necessary working pressure in the hydraulic system.

The flow of working fluid from the pump 15 enters the valve 14, which distributes the flow of hydraulic fluid in the hydraulic system. At the command of the operator located in cab 3, hydraulic fluid flows into the hydraulic cylinders of excavator, loading or bulldozer equipment.

At the end of the work, the operator brings the working equipment to the transport position and turns off the hydraulic pump 15. The excavator is ready for transportation.

The proposed design options for the utility model have the following advantages:

- execution of the hydraulic fluid tank with a trapezoidal profile and its installation on the left under the cab of the base chassis made it possible to combine the hydraulic fluid tank of the steering system of the base chassis with the hydraulic fluid tank of the excavator. The hydraulic fluid tank is attached using special brackets to the frame on the left under the cab behind the steps of the base chassis. This arrangement of the tank for hydraulic fluid allows you to save a symmetrical load on the base chassis, as the fuel tank of the base chassis is located on the right side:

- in order to reduce the load on the final drive gears, in order to prevent their destruction during movement, an onboard gear fastener assembly has been introduced, consisting of the upper and lower mounting brackets of the final drive gears to the frame, which made it possible to unload the onboard gearboxes of the base chassis and thereby increase their reliability.

- the use of a triangular-shaped boom and a box-shaped structure with reinforcing pads made it possible to reduce the weight of the boom and place the boom lifting hydraulic cylinder inside the boom, which made it possible to replace two handle hydraulic cylinders with one, and this made it possible to reduce the frame weight and reduce the load on the base chassis, increasing base chassis reliability.

Thus, the proposed options for a utility model fully meet the technical task.

Claims (2)

1. An excavator, based on the T-60 or T-85 tractor of the Vladimir Motor Tractor Plant, on a wheeled chassis with a power take-off shaft, including front and rear wheels with final drives, which has a frame with functional working equipment attached to it, an operator’s cab with a seat and excavation equipment in the form of a rotary column with a drive, an arrow, a handle and a bucket with lifting cylinders, and including a hydraulic system with a pump and a tank for hydraulic fluid, while the hydraulic system is made according to a single-circuit scheme and equipped with a hydraulic distributor with operating controls associated with the hydraulic cylinders of the excavator and functional equipment, a multiplier is built into the hydraulic system pump, the rotary column is shifted to the center of gravity of the base wheel chassis, the boom is made of a triangular box-shaped structure with reinforcing pads at the joints, the lifting cylinder the boom is located inside the boom and is installed in the same vertical plane with the hydraulic cylinders for lifting the handle and the bucket, the hydraulic system pump threads placed on the power take-off shaft, the hydraulic fluid tank is made in a trapezoidal shape and secured by brackets on the frame on the left side to the steps of the cab, and functional working equipment is made in the form of a dozer blade with a control hydraulic cylinder installed in the front of the frame, the control valve is installed at an angle to the operator’s cab with the input of the working controls into the cab, final drives are fixed to the frame by means of a mounting unit consisting of upper and lower ronshteynov mounting, cab chassis lengthened base and seat the operator is satisfied reversible. 2. An excavator, based on the T-60 or T-85 tractor of the Vladimir Motor Tractor Plant, on a wheeled chassis with a power take-off shaft, including front and rear wheels with final drives, which has a frame with functional working equipment attached to it, an operator’s cab with a seat and excavation equipment in the form of a rotary column with a drive, an arrow, a handle and a bucket with lifting cylinders, and including a hydraulic system with a pump and a tank for hydraulic fluid, while the hydraulic system is made according to a single-circuit scheme and equipped with a hydraulic distributor with operating controls associated with the hydraulic cylinders of the excavator and functional equipment, a multiplier is built into the hydraulic system pump, while the rotary column is shifted to the center of gravity of the base wheel chassis, the boom is made of a triangular box-shaped structure with reinforcing pads at the joints, the boom lift hydraulic cylinder is located inside the boom and is installed in the same vertical plane with the handle and bucket lift hydraulic cylinders, the pump the hydraulic system is located on the power take-off shaft, the hydraulic fluid tank is made in a trapezoidal shape and secured by brackets on the left side of the cab steps, and the functional working equipment is made in the form of loading equipment consisting of portals mounted on the frame, boom with lifting hydraulic cylinders and lowering the boom, bucket with tipping cylinders of the bucket and levers of the stabilization system, the control valve is installed at an angle to the operator's cab with the input of the working controls in the cockpit, final drives mounted on the frame by means of the attachment element consisting of upper and lower mounting brackets, cab elongated base chassis, a driver's seat formed reversible.