RU217123U1 - ROTARY MOWER - Google Patents

Abstract

The utility model relates to agricultural engineering and can be used when mowing grasses and other wild vegetation. The objective of the utility model is to improve the efficiency of mowing grasses and other wild vegetation by changing the cutting width of the cutting unit in various operating conditions. Additional cutting rotary sections with cutting rotors are sequentially attached to the free end of the rotary cutting bar by means of telescopic connections with elastic covers. Longitudinal grooves are made in the side wall of the internal moving parts, into which the clamp rods enter. The length and position of the longitudinal grooves are made such that when the moving parts are immersed in the beam body and the body of additional sections, it provides the required clearance in the engagement of the intermediate gears of the rotor drive, and full extension when turning the additional sections into a vertical and horizontal position ensures disconnection from the drive and removal of the cutting rotors from the working area. Additional rods are installed in the brackets and fixed with screw clamps, connected to the rod of the cutting rotary beam and to each other by corner clamps. 3 ill.

Description

The utility model relates to agricultural engineering and can be used when mowing grasses and other wild vegetation.

The following similar devices are known: in the book of Karpenko A.N. and Khalansky V.M. Agricultural Machinery, 6th ed. revised and additional - M.: Agropromizdat, 1989, on page 214, fig. VII. 5 describes and shows the rotary mower KRN-2.1, which is designed for mowing grass, small shrubs and weeds. The cutting device of the mower consists of a beam, in the upper part of which rotors with knives are installed, which receive rotation from the tractor power take-off shaft. The rotary mower is mounted on a wheeled tractor using special attachments; Mounted rotary mower [RU 2239977 C1, A01D 34/64 (2000.01), A01D 34/73 (2000.01), A01D 34/76 (2000.01), 11/20/2004], which contains a beam fixed on the tractor attachment system with rotors mounted on it . Each of the rotors consists of two discs with knives rotating in opposite directions. The upper disk is fixed on a solid section shaft. The lower disk is fixed on a hollow shaft. The solid section shaft is movably located in the hollow shaft. Paddle wheels are fixed on the bottom of each shaft. The beam is divided by a horizontal plate with partitions vertically fixed on it to the cavity. Paddle wheels are placed in cavities separated from each other. Hollow cavities are connected to a source of compressed air to create torque on the shafts. Discs with knives receive rotation from the shafts and produce bevelling.

These devices do not improve the efficiency of mowing grasses and other wild vegetation by changing the cutting width of the cutting unit in various operating conditions.

Closest to the utility model is a rotary mower for low growth gardening [RU 2265984 C1, A01D 34/84 (2000.01), 12/20/2005], which contains a frame, rotors with knives and a rotor drive. The frame is attached to the attachment with the possibility of lateral displacement from the longitudinal axis of the tractor. The line of centers of the rotors is located at an angle of attack to obtain a sector of ejection of the mowed mass. The rotors have proportionally decreasing diameters. The blades of the rotors are equipped with blades and mounted with the possibility of one-sided rotation by means of a drive.

However, this device also does not provide an increase in the efficiency of mowing grasses and other wild vegetation by changing the width of the cutter bar under different operating conditions.

The objective of the utility model is to provide an increase in the efficiency of mowing grasses and other wild vegetation by changing the width of the cutter bar under various operating conditions.

To achieve this, additional cutting rotary sections with cutting rotors are sequentially attached to the free end of the cutting rotary bar by means of telescopic connections with elastic covers. To ensure the transfer of additional cutting rotary sections into a vertical and further into a horizontal position, the internal movable parts of the telescopic joints are attached to the bodies of the additional cutting rotary sections by means of swivel joints. Longitudinal slots are made in the side wall of the internal moving parts, into which the rods of the clamps installed on the housings and the cutting rotary bar enter, thereby limiting the movement of the internal moving parts. At the same time, the length and position of the longitudinal grooves are made such that the immersion of the moving parts into the body of the cutting rotary bar and the body of adjacent additional cutting rotary sections provides the required clearance in the engagement of the intermediate gears of the cutting rotor drive, and full extension during rotation by means of hinged joints of the additional cutting rotary sections to the vertical and further to the horizontal position ensures disconnection from the drive and removal of the cutting rotors of these sections from the working area of the adjacent working cutting rotary rotor. At the same time, the cover, stretching, ensures the tightness of the telescopic connection. To fix hinged joints and additional rotary cutting sections relative to each other and relative to the rotary cutting bar, brackets with screw locks are installed on the side walls of the rotary cutting bar and additional rotary cutting sections, into which the rod is inserted. To transfer to a non-working position and fix additional cutting rotary sections in a vertical and further in a horizontal position, additional rods are installed in the brackets and fixed with screw clamps, connected to the rod of the cutting rotary bar and to each other by angular clamps. In this case, the field board (not shown in the diagram) is transferred to the extreme section in the working position.

The proposed utility model will be understood from the following description and the attached drawings.

In FIG. 1 shows a diagram of a rotary mower, a general view, in Fig. 2 shows a diagram of the telescopic connection, Fig. 3 shows a diagram of a rotary mower with additional cutting rotary sections in a non-working position.

The rotary mower (Fig. 1) contains attachments with a hydraulic lifting mechanism and cardan transmission for connection with the tractor power take-off shaft and the cutting unit drive mechanism (not shown in the diagram), to which a cutting rotary bar 1 is attached at one end with cutting blades mounted on it. rotors 2 with knives 3. To improve the efficiency of mowing grasses and other wild vegetation by changing the width of the cutterbar under different operating conditions, additional cutting rotary sections 6 with cutting rotors are sequentially attached to the free end of the cutting rotary bar 1 by means of telescopic connections 4 with elastic covers 5 7. To ensure the transfer of additional cutting rotary sections 6 to a vertical and further to a horizontal position, the internal moving parts 8 of telescopic joints 4 (Fig. 1, Fig. 2) are attached to the bodies 9 of additional cutting rotary sections 6 by means of a ball 10. In the side wall of the internal moving parts 8, longitudinal grooves 11 are made, which include the rods of the clamps 12 installed on the housings 9 and the rotary cutting bar 1, thereby limiting the movement of the internal moving parts 8. At the same time, the length and position of the longitudinal grooves 11 are made in such a way that the immersion of the moving parts 8 into the body of the cutting rotary bar 1 and the body 9 of adjacent additional cutting rotary sections 6 provides the required clearance in the engagement of the intermediate gears of the drive of the cutting rotors 7, and full extension when turning by means of swivel joints 10 additional cutting rotary sections 6 in a vertical and then in a horizontal position ensures disconnection from the drive and removal of the cutting rotors 7 of these sections from the working area of the adjacent working cutting rotor 2 or 7. At the same time, the elastic cover 5, stretching, ensures the tightness of the telescopic connection 4. To fix the swivel joints th 10 and additional cutting rotary sections 6 relative to each other and relative to the cutting rotary bar 1, on the side walls of the cutting rotary bar 1 (Fig. 1) and additional cutting rotary sections 6, brackets 13 with screw clamps 14 are installed, into which the rod 15 is inserted. and additional rods 16 and 17 are fixed with screw clamps 14, connected to the rod 15 of the rotary cutter bar 1 and between themselves with corner clamps 18. In this case, the field board (not shown in the diagram) is transferred to the extreme section in the working position.

Rotary mower (Fig. 1) works as follows.

The rotary mower is aggregated with a tractor by means of attachments, a driveline is installed on the tractor's power take-off shaft and a hydraulic lifting mechanism is connected to the tractor's hydraulic system (not shown in the diagram). The rotary mower is installed on a level ground with a hydraulic lifting mechanism. On the cutting rotary bar 1 and additional cutting rotary sections 6, the screw clamps 14 of the brackets 13 are released. cutting rotary bar 1 and using a telescopic connection 4 (Fig. 2) additional cutting rotary sections 6 sequentially shifting in the direction of the cutting rotary bar 1 (Fig. 1) set the required clearance in the engagement of the intermediate gears of the drive of the cutting rotors 7 and fix them with screw clamps 14 brackets 13 corresponding sections. In this case, the field board (not shown in the diagram) is transferred to the extreme section in the working position.

The rotary mower is ready to go.

To reduce the width of the rotary mower, a number of additional cutting rotary sections 6 (Fig. 3) are removed from the working area. To do this, the screw clamps 14 of the brackets 13 are released on the cutting rotary bar 1 and additional cutting rotary sections 6. By moving in the brackets 13, the rod 15 is shifted towards the cutting rotary bar 1, releasing the brackets 13 of the additional cutting rotary sections 6, which are removed from the working area. By shifting the additional cutting rotary sections 6 removed from the working area in the first of them from the side of the cutting rotary bar 1, the inner movable part 8 of the telescopic connection 4 is pulled out to the stop at a distance of the length of the groove 11, limited by the latch rod 12 included in the groove 11. In the bracket 13 of this sections install the rod 16. Then the selected cutting rotary sections 6, turning in the swivel 10 of the telescopic connection 4 of the first selected cutting rotary section 6, are set to a vertical position. By moving the rods 15 and 16 in the horizontal and vertical planes, they are connected to each other by means of an angle clamp 18 and then fixed with screw clamps 14 in the brackets 13 of the cutting rotary beam 1 and the first of the selected additional cutting rotary sections 6. The rod 17 is inserted into the brackets 13 of the remaining sections, and, turning in the swivel joint 10 of the telescopic joint 4 next to the first selected additional cutting rotary section 6, is set to a horizontal position. An angle latch 18 is installed on the free end of the rod 16 and, moving the rod 17 in a horizontal plane, insert it into the angular latch 18, thereby connecting the rods 16 and 17 and fixing the additional cutting rotary sections 6 in a horizontal position. Screw clamps 14 fix the rod in the brackets 13 of these cutting rotary sections 6. In this case, the field board (not shown in the diagram) is transferred to the extreme section in the working position.

The rotary mower is ready to work with a reduced working width.

The use of this rotary mower will increase labor productivity by 35-40%.

Information sources

1. Karpenko A.N. and Khalansky V.M. Agricultural Machinery, 6th ed. revised and additional - M: Agropromizdat, 1989

2. RU 2239977 C1, A01D 34/64 (2000.01), A01D 34/73 (2000.01), A01D 34/76 (2000.01), 20.11.2004.

3. RU 2265984 C1, A01D 34/84 (2000.01), 20.12.2005.

Claims (1)

Rotary mower, including attachments with a hydraulic lifting mechanism and cardan transmission for connection with the tractor's power take-off shaft and the cutterbar drive mechanism, to which a rotary cutting bar with cutting rotors with knives mounted on it is attached at one end, characterized in that the free end cutting rotary bar sequentially by means of telescopic connections with elastic covers attached additional cutting rotary sections with cutting rotors; to ensure the translation of additional cutting rotary sections into a vertical and further into a horizontal position, the internal movable parts of the telescopic joints are attached to the bodies of the additional cutting rotary sections by means of swivel joints; longitudinal grooves are made in the side wall of the internal movable parts, which include the rods of the clamps installed on the housings and the rotary cutting bar, thereby limiting the movement of the internal movable parts; at the same time, the length and position of the longitudinal grooves are made such that the immersion of the moving parts into the body of the rotary cutting bar and the body of adjacent additional cutting rotary sections provides the required clearance in the engagement of the intermediate gears of the cutting rotor drive, and full extension during rotation by means of articulated joints of the additional cutting rotary sections in a vertical and then in a horizontal position provides disconnection from the drive and removal of the cutting rotors of these sections from the working area of the adjacent working cutting rotor; at the same time, the elastic cover, stretching, ensures the tightness of the telescopic connection; for fixing hinged joints and additional rotary cutting sections relative to each other and relative to the rotary cutting bar, on the side walls of the rotary cutting bar and additional rotary cutting sections there are brackets with screw locks, into which the rod is inserted; to transfer to a non-working position and fix additional cutting rotary sections in a vertical and further in a horizontal position, additional rods are installed in the brackets and fixed with screw clamps, connected to the rod of the cutting rotary bar and to each other by corner clamps, while the field board is made with the possibility of being transferred to the extreme section in working position.

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