SU334777A1 - Manipulator - Google Patents

Description

Known manipulators are made in the form of a hand with a gripper mounted on the base and equipped with mechanisms C1 and 3, opening and swinging the arm, telescoping hand lengthening and orientation of the gripper relative to the arm, working from the following drives with position control from feedback sensors .

The purpose of the invention is to expand the technological capabilities of the manipulator.

The proposed manipulator differs from the known ones in that its grip can rotate relative to three mutually perpendicular coordinate axes with the independence of movements AND the possibility of a full choice of backlash, since the grip orientation mechanism consists of a conical differential, a mechanism of separation of motions and a cylindrical differential located between them, and the satellite of a conical differential is rigidly connected with a grip, and its sun gears are connected with the satellites of the cylindrical differential gear by means of gears potential coupled to a motion separation mechanism

consisting of two pairs of differentials, each of which has two leading and one driven link, the driven links of the first pair being connected by gears with the sun gears of a cylindrical differential, the first leading links of the first pair of differentials are connected by means of gears to the drive shaft, connected to one

0 of the following gripping orientation drives with the body of a conical differential, and the second leading links of the first pair of differentials are rigidly connected with the driven links of the second pair

The 5 differentials, the leading links of which, through gears, are pairwise connected to each other and to two other followers, the gripper's orientation and orientation. that

0 FIG. 1 shows the proposed manipulator, general view; On fkg.2 - kinematic scheme of the mechanism of orientation of capture.

The manipulator (see Fig. 1) consists

5. from the base 1 and the arm moving relative to the base 2. At the base is the mechanism 3 of turning and swinging the arm. The arm is equipped with a telescopic extension mechanism 4.

is driven by the locking and unlocking mechanism 6. The 3x wat 5 is oriented relative to the arm by the locking orientation mechanism 7. All the mentioned mechanisms operate from the following drives 8 with co-control of the position from the feedback sensors 9. The manipulator has a pole of degrees of freedom: rotation of the arm relative to the vertical axis 10, swinging the arm relative to the horizontal axis 11, telescopic lengthening of the arm; rotation of the grip about the axis 12; swing of the grip relative to axis 13, rotation of the grip relative to axis 14, Movement along each of these degrees of freedom is carried out by means of drives 8, the first three degrees outputting the grip To any given point of the working Zone, and the last three orient the grip as specified in the selected point working area. The grip orientation mechanism 7 orients the grip 5 with respect to three mutually perpendicular axes 12-14 (see Fig. 2) and consists of a conical differential 15, a mechanism for separating movement A and a cylindrical differential 16 located between them.

The mechanism of separation of motion A consists of two pairs of differentials, the first pair of differentials 17 and 18 and the second pair - 19 and 20. Each of the differentials has two leading and one driven link. The drive shaft 21 connects the follower drive 22 of the rotation of the grip about the axis 12 to the housing 23 of the conical differential. The rotation of the grip about the axis 14 is driven by the drive 24, and the swing of the grip about the axis 13 by the drive 25, Bevel differential 15 consists of two sun bevel gears 26 and 27, drove 28 and a satellite 29 rigidly connected with the grab 5. The cylindrical differential 16 consists of two sun gears 30 and 31 and satellites 32 and 33. The carrier of the cylindrical differential is body 23 ..

The satellites 32 and 33 are connected by gears 34 and 35 to the sun gears 26, and 27 to the conic differential. The driven members 36 and 37 of the differentials 17 and 18 are connected by gears 38 and 39 to the sun gears 30 and 31 of the cylindrical differential 16. The first leading links 40 and 41 of the first pair of differentials 17 and 18 are connected by gear 42 (43) and with the drive shaft 21 associated with the transfer 42 to the housing 23. The driven members 44 and 45 of the second pair of differentials 19 and 20 are rigidly connected with the second driving links 46 and 47

the first pair of differentials 17 and 18. The leading links 48 and 49 of the second pair of differentials 19 and 20 are connected by transferring 50 to each other and to the output shaft 24 of the drive so that the links 48 and 49 during rotation of the drive 24 receive rotation in opposite directions . Leading links 51 and 52 of the second pair of differentials 19 and 20 through transmission

Q 53 are connected to each other and to the output shaft of the actuator 25 in such a way that when the actuator 25 is operated, the links 51 and 52 receive rotation in one direction.

- In the kinematic scheme (see Fig. 2) of the gripping orientation mechanism, there are three closed kinematic chains covering all the elements of the mechanism. There is an elastic element in the mechanism, for example, a shaft-torsion 54, re0 Gives a preliminary twist on T1 by kinematic chains and thereby making a choice of backlash in these chains:

a) torsion 54 - gear 39,

5 is associated with the sun gear 31, - satellite 33 - gear 35 - sun gear 27 - satellite 29 - sun gear 26, associated with gear 34, sun gear

Q 30 - transfer 38 - slave link 36 leading link 40 - transfer 42 - leading link 41 - slave link 37 torsion bar 54;

b) torsion bar 54 - transfer 39 slave link 36 - leading link

46 - Slave Link 44 - Lead Link 48 - Transmission 50 - Lead Link 49 - Slave Link 45 - Lead Link 47 Slave Link 37 - Torsion 54 ;.

 c) torsion 54 - gear 39 -

Slave link 36 - Lead link 46 Slave link 44 - Lead link 51 Transmission 53 - Lead link 52 - Slave link 45 - Lead link 47 -

5 slave link 37 - torsion 54.

Thus, there is a complete choice of backlash in all links of the mechanism of capture orientation relative to three mutually perpendicular

0 axes of coordinates (selection of the Doc gear gap of gears; selection of backlash in bearing satellites; selection of backlashes in all slant and spline connections). Due to this, feedback sensors 55-57 can be connected in a convenient place for constructive reasons. This eliminates the effect of kinematic transmissions on the accuracy of repetition of sensor readings in an automatic work cycle. The capture orientation mechanism with respect to three mutually perpendicular coordinate axes can operate from both separately and simultaneously operating

Thawing drives must be in a braked state.

When the drive 22 drives

24 and 25 are inhibited. Rotation from the drive 22 through the drive shaft 21

and the transmission 43 is transmitted to the housing 23 of the conical differential. At the same time, through the transfer 42, rotation is transmitted to the driving units 4.0 and 41 differentials 17 and 18. At the same time, the links 40 and 41 receive rotation in one direction, Slave links 36 and 37 also rotate in the same direction, but with double speed. Through gears 38 and 39, the rotation is transmitted to the sun gears 30 and 31 of the cylindrical differential 16; in addition, the gears 30 and 31 and the housing 23 of the conical differential rotate in the same direction at the same speed, i.e. the cylindrical differential 16 is blocked and rotates as one. Therefore, the gripper 5 rotates only about the axis 12, and the rotation of the OTHOCHTejjbHO axes 13 and 14 is absent.

When the drive 25 is operating, the drives 22 and 24 are inhibited. Rotation from drive

25 is transmitted to the driving link 51 of the differential 19 and through the gear 53 to the driving link 52 of the differential 20. Here, the links 51 and 52 receive rotation in the same direction. Since the driving links 48 and 49 are inhibited, the driven links 44 and 45,

and the hard links 46 and 47, which are rigidly connected with them, receive time in different directions at the same speed. Since the drive links 40- and 41 differentials 17 and 18 are braked by the actuator 22, the followers 36 to 37 get rotated in different directions at the same speed. Through gears 38 and 39, the rotation is transmitted to the sun gears 30 and 31, and through them to the satellite 32 and 33 of the cylindrical differential 16. Since the housing 23 by means of the gear 43 and the shaft 21 is braked, the satellite 32 and 33 receive rotation in different directions x with the same speed. Through gears 34 and 35, rotation is transmitted by the sun gear.

26 and 27 of the conical differential 15 in one direction and with equal speeds. Thus, the initial differential is blocked and rotates as a single whole with respect to axis 13. The rotation of the gripper 5 relative to the axis 14 is absent due to the absence of a satellite 29.

When the drive 24 is operating, the 2X and 25 drives are braked. The rotation from the actuator 24 is transmitted to the driving link 49 of the differential 20 and through the transmission 50 to the carrier 28 of the differential 19.

At the same time, the links 48 and 49 receive rotation in different directions: and the driven links 44 and 45 of the differentials 19 and 20 receive rotation in the same direction with equal speed, 5 as well as the leading links 46 and 47 of the differentials 17 and IB Since the links 40 and 41 are braked by the drive 22, the driven links 36 and 37 also receive rotation in the same direction with the same speed. Through gears 38 and 39, the rotation is transmitted to the sun gears 3D and 31, and through them to the satellite 32 vi 33 of the cylindrical differential 16, which

e also get rotating in the same direction at the same speed. Through the pen, cottages 34 and 35, the rotation of the ne ™ is transmitted by the sun gear 26 and

27th initial bevel differential 15. With this sun gears

 26 and 27 rotate in different directions at the same speed. Drove

28 of the original bevel differential remains fixed, and the satellite

29 revolves with gripper 5

5 relative to axis 14. Thus,

Each of the actuators 22, 25 and 24 controls only one gripping motion. In the case of one-time operation of two or all drives, gripper 5 receives a total motion relative to two or three coordinate axes.

Claims (1)

Invention Formula A manipulator intended for operation in an automatic cycle, on the basis of which a mobile arm is installed. a gripping mechanism operated by the locking and unlocking mechanism, turning and swinging the arm, telescoping its telescopic extension, gripping orientation relative to the arm and to the rear (the drives with position control from feedback, which is ,, for the purpose of expanding} technological possibilities, the mechanism of orientation of the grip is made .. in the form of a conical differential connected to the mechanism of separation of motions by means of a cylindrical differentandis.p, and the satellite of the conical differential is rigidly connected with Wat and its solar Chez stubble associated with the satellite tsi.pindri Cesky differential mechanism connected to razdelek.i dvidshny consisting of two differential pairs ,, each of which has two major 0 and one slave link, with the links of the first pair of differentials associated with the cylindrical differential six-cylinder ems, the first leading links of the first pair of differential connecting one of the following gripping orientation drives to the body of the conical differential, and the second leading links of the first pair of differentials are rigidly connected with the driven members of the second differential patches, the leading links of which are pairwise connected with each other and with two other followers of the gripping orientation. / 2 / J 5 Rig. / 22 24, FM2. 2 Chg 9giji, 5/1