RU9672U1 - HYDRAULIC DRIVE OF A WORKING BODY OF A ROTOR BRUSH CUTTER - Google Patents

Abstract

The hydraulic circuit of the drive of the working body of a rotary brush cutter, including a container for the working fluid, a hydraulic pump, a hydraulic distributor, a hydraulic motor of the working body, a suction pipe, a discharge line and a drain line connecting the hydraulic circuit elements, characterized in that the discharge line is made with an additional pressure pipe connected to an additional hydraulic motor working body.

Description

The hydraulic circuit drive the working body of a rotary brush cutter.

The utility model relates to hydraulic systems for driving rotor-type brushcutters working bodies.

Known hydraulic circuits of the drive of the working bodies of a rotary brush cutter, containing a container for the working fluid, a hydraulic pump, a hydraulic distributor, a hydraulic motor of the working body, a suction pipe, a discharge line and a drain line connecting the elements of the hydraulic circuit (see, for example, US patent No. 4043366 under class 144- 34F dated 04.21.76 and the application of France JVa 2553969 according to class A 01G 23/08 dated 10.26.83)

The closest known hydraulic circuit in terms of functions and coinciding features is a hydraulic circuit having a reservoir for the working fluid, a hydraulic pump, a hydraulic distributor, a hydraulic motor of the working body, a suction pipe, a discharge line and a drain line connecting the elements of the hydraulic circuit (see application No. 98107929 of 04.24.98 on the utility model "Hydrocircuit of the working body of a rotary brush cutter).

However, these hydraulic circuits are ineffective in operation, structurally complex and expensive to manufacture. Each hydraulic motor of the working body has its own hydraulic circuit with its own elements and connecting them

M. cl. A01G23 / 08

pipelines, which complicates the design and significantly increases the cost of manufacture.

The objective of this utility model is to increase the efficiency of the hydraulic circuit, simplifying its manufacture while improving the operating parameters.

In fig. The described hydraulic circuit of the drive of the working body is shown.

The hydraulic circuit of the drive of the working body includes a tank 1 for the working fluid, a hydraulic pump 2, a hydraulic distributor 3, a hydraulic motor 4 of the working body 5, a suction pipe 6, a discharge line with a pressure pipe 7 and a drain line 8 connecting the elements of the hydraulic circuit. The discharge line is made with an additional pressure pipe 9 connected to an additional hydraulic motor 10 of the working body 11. The pressure pipe 7 is made with a ball valve 12, and the additional pipe 9 is made with a ball valve 13, respectively controlled by levers 14 and 15. Additional hydraulic motor 10 of the working body 11 connected by a pipe 16 to the drain line 8. The main pressure pipe 7 and the additional pressure pipe 9 can be connected to the drain line 8, respectively, to the pipelines and 17 and 18. The main pressure pipe 7, the additional pressure pipe 9 of the discharge line, as well as the drain line 8 can be made with filters 19, 20, 21, respectively. A fluid cooler 22 can be mounted in the drain line 8.

using the suction pipe 6 serves on the valve 3. When you turn on the valve 3, the working fluid through the pressure pipe 7 is fed to the hydraulic motor 4 of the working body 5. The working body 5 begins to rotate. Then, the distributor 3 the working fluid through an additional pipe 9 serves on an additional hydraulic motor 10 of the working body 11, which also begins to rotate. The spent working fluid from both hydromotors through the drain line 8 enters the tank 1. Thus, both working bodies, when they are pushed onto the bush, cut it off. When the hydraulic motor 2 is temporarily turned off, ball valves 12 and 13 are opened to circulate the working fluid in a small circle using pipelines 17 and 18, providing lubrication of the hydraulic motors 4 and 10 for the period of their free rotation. Hydraulic pump 2 and hydraulic motors 4 and 10 are selected in such a way that at maximum hydraulic pump speeds of 2000 rpm, hydraulic motors 4 and 10 have 4000 rpm, which allows not only to efficiently cut the shrub, but also to cut the trunks of small trees.

Thus, due to new features, the described circuit provides more efficient operation of the cutting organs, simplifies the design and significantly reduces the manufacturing cost while improving the operating parameters. With one hydraulic tank, one hydraulic pump, one pressure line and one drain line, this hydraulic circuit ensures the effective operation of two rotary brush cutting organs.

Claims (1)

The hydraulic circuit of the drive of the working body of a rotary brush cutter, including a container for the working fluid, a hydraulic pump, a hydraulic distributor, a hydraulic motor of the working body, a suction pipe, a discharge line and a drain line connecting the hydraulic circuit elements, characterized in that the discharge line is made with an additional pressure pipe connected to an additional hydraulic motor working body.