SU1660990A1 - Working rotor of rotary machine - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to designs of working rotors with a drive of sliders from an inclined disk. The purpose of the invention is to reduce the overall dimensions while ensuring the closure of the working forces inside the rotor. The working rotor contains a drive shaft 1 with drums 2, 3 and tool holder 4 with tool blocks 5 fixed on it. The sliders 8 are driven from an inclined disk 10 mounted with a thrust 14 of a radial 15 and an additional radial 16 of bearings, the bearings are jointly mounted on an inclined washer 17. The rotor is fitted with a sleeve 20 mounted on shaft 1, on which an oblique washer is mounted by means of a pair-mounted thrust 18 and a radial 19 bearings 17. The working force from the inclined disk 10 is transmitted The hardware on the slide blocks 8, the tool blocks 5 and the tool holder 4. The latter, through the gigs 21, transmit the force to the sleeve 20. On the other side of the swash plate 10, through the thrust bearing 14 and the radial bearings 15 and 16, the force is transmitted to the slant washer 17 and through the thrust bearing 18 also on the sleeve 20. 1 Il.

Description

The invention relates to mechanical engineering, in particular to designs of working rotors with a drive of sliders from an inclined disk.

The purpose of the invention is to reduce the overall dimensions while ensuring the closure of the working forces inside the rotor.

The drawing shows the working rotor of a rotary machine, the cut.

The working rotor of the rotor machine contains a drive shaft 1 with drums 2 and 3 fixed on it, a tool holder 4 with blocks of 5 instruments, and also with a drive gear 6. Movable sliders 7 and 8 are located in the slots of drums 2 and 3. The sliders 7 are driven in the form of radial cams 9, and the sliders 8 are driven in the form of an inclined disk 10 connected by hinges with ties 11. A taper gear 12 fixed to the wheel 13 fixed on the drum 3 is fixed on the inclined disk 10 The inclined disk 10 is mounted on the stop under 14, a radial bearing 15 and an additional radial bearing 16 installed together on the outer surface of an inclined washer 17, which is installed using thrust 18 and 19 radial bearings on the sleeve 20. The thrust 18 and radial 19 bearings are installed in pairs at the ends of the sleeve 20. In this case the sleeve 20 is mounted on the shaft 1 coaxially with the drums 2 and 3 and rigidly interconnected by the tools 21c of the tool holder 4. The drums 2 and 3 with the corresponding sliders and their drives are placed respectively in the beds 22 and 23.

The rotor operates as follows.

Shaft 1 of the rotor receives rotation from drive gear 6. Together with shaft 1, drums 2 and 3 and tool holder 4 with blocks of 5 tools receive rotation. At the same time, the inclined disk 10 rotates, which receives rotation through the bevel wheels 12 and 13 from the drum 3. In this case, the workpieces are successively fed into the matrices of each tool block 5. As the inclined disk 10 rotates, the joints 11 of the sliders 8 from the extreme upper position move to the lowermost position. At the same time, the punches of the tool block 5, through the slide blocks 8, make working movements and stamp the blanks in the dies. As the rotor rotates further, the inclined disk 10 moves the sliders 8 to the upper position.

At the same time, reciprocating movements of the sliders 7, placed respectively in the drum 2, from the radial cams 9 are made.

The work force during the execution of the process operation is closed in the rotor as follows.

Through the articulation links 11 and the slide blocks 8, the force is transmitted to the punches of the tool block 5 and is perceived by the tool holder discs 4. This force is transmitted through the grommets 21 to the sleeve 20. In turn, the reaction is opposite in magnitude and transmitted through the inclined disk 10 on the thrust bearing 14, the radial bearings 15 and 16 and the swash plate 17, and then on the thrust bearing 18 and the sleeve 20.

Thus, all the working forces of the rotor are closed on the sleeve 20. Due to the fact that the working force is closed on the sleeve 20, the bearing assemblies and individual parts of the rotor may have smaller dimensions, which reduces overall dimensions

the dimensions of the frame of the whole machine, and therefore, reduces the metal intensity of the rotor.

Claims (1)

The invention The working rotor of a rotor machine containing a drive shaft mounted in glasses with two drums coaxially fixed on it and a tool holder with weights located between them, sliders and their drives, placed together with the drums in the glasses, one of the drives is in the form of an inclined washer and a disk mounted on an inclined washer by means of thrust and radial bearings obliquely to the rotor shaft, and articulated links of an inclined disk with corresponding sliders, characterized in that, in order to reduce overall dimensions while ensuring the closure of the working forces inside the rotor, it is equipped mounted on the shaft sleeve, bearing supports inclined washers on the sleeve and an additional radial bearing, bearing supports are made in the form of pairs installed on the ends of the bushings of thrust and radial bearings, an additional radial bearing is installed together with a radial and thrust bearing between the outer surface of the inclined washer and the inner surface of the swash plate, while the sleeve is rigidly connected with the toolholder.