CN205166935U - Platform manipulator - Google Patents

Abstract

The utility model discloses a platform manipulator is including the base, be equipped with linear slideway on the base, parallel linear slideway establishes ball screw pair, ball screw pair's ball screw nut rigid coupling slider, slider and linear slideway swing joint, ball screw pair's ball screw connects a drive arrangement, it is vice that parallel ball screw pair establishes the ball spline, vice two supporting seats by locating on the slider of ball spline support, the 2nd drive arrangement is established to the vice upper end of ball spline, the speed reducer of the 2nd drive arrangement through establishing ties, the vice ball spline hub connection of shaft coupling and clutch and ball spline, the 2nd drive arrangement keeps coaxial setting with the ball spline axle and drives its rotation, the vice ball spline nut of ball spline is connected with the base, and the rotation of support roll pearl integral key shaft. This neotype platform manipulator structure is retrencied, and is small, high, the rotatory zero clearance of positioning accuracy, low in manufacturing cost, the low just long service life of noise.

Description

A kind of platform mechanical arm

Technical field

Basis is novel relates to industrial robot field, especially a kind of platform mechanical arm.

Background technology

Platform mechanical arm is one of equipment of necessity of accurate operation in industrial trade, utilizes platform mechanical arm to realize the accurate snatch transhipment of level and vertical direction, especially applicable in the operation of product line.But existing novel platform mechanical arm adopts Linear manipulator and rotating machine arm to build and is combined into, Linear manipulator and its volume of rotating machine arm combination of two must be greater than originally or more greatly, can not meet the requirement of some platform mechanical arm that specific occasion demand volume is little, precision is high; Meanwhile, combination of two, needs consideration two kinds of manipulator matching problems, therefore there are two kinds of manipulator combination runnings not mate, affect platform mechanical arm and use and result of use, moreover, adopt two kinds of manipulator combinations, its assembling, manufacturing cost must be high, and structure is also complicated.

Therefore, the problems referred to above need the problem of solution badly.

Utility model content

This novel technical problem that will solve is the defect for existing in existing design, there is provided a kind of and be applicable to the platform mechanical arm that structure built by gantry or tower, this robot manipulator structure is simplified, and volume is little, positioning precision is high, rotate zero clearance, the low and long service life of low cost of manufacture, noise.

For overcoming the defect existed in prior art, this novel technical scheme taked is as follows: a kind of platform mechanical arm, comprises base; Described base is provided with linear slide rail; Parallel described linear slide rail establishes ball wire bar pair; The affixed slide block of ball screw nut of described ball wire bar pair, this slide block is flexibly connected with described linear slide rail; The ball screw of described ball wire bar pair connects the first drive unit, and described first drive unit drives described ball screw to rotate, and drives described slide block to move relative to described linear slide rail in the vertical direction; Parallel described ball wire bar pair establishes ball spline pair, and described ball spline pair is supported by two supporting seats be located on described slide block, and described ball spline pair is connected with described slide block; The second drive unit is established in described ball spline pair upper end; this second drive unit is connected with the ball spline shaft of described ball spline pair by reductor, shaft coupling and the clutch of connecting; described second drive unit and described ball spline shaft keep coaxial and arrange and drive it to rotate; the ball spline nuts of described ball spline pair is connected with described base, and supports the rotation of described ball spline shaft; Described first drive unit drives described ball screw to rotate, drive described ball screw nut to drive described slide block and described ball spline pair to move along described linear slide rail at vertical direction, described ball spline shaft is followed mobile and is rotated relative to described base under the driving of described second drive unit.

Further elaboration as to technique scheme:

In technique scheme, described first drive unit is provided with brake gear, brakes the first drive unit by this brake gear.

In technique scheme, described first drive unit is connected with described ball screw with synchronizing wheel by belt, transmits power to described ball screw by described belt and described synchronizing wheel.

In technique scheme, the end positions up and down of described ball screw is respectively equipped with clutch shaft bearing and the second bearing, by described clutch shaft bearing and the second bearing, described ball screw and described ball wire bar pair is connected with described base.

In technique scheme, described clutch shaft bearing is angular contact bearing, and described second bearing is deep groove ball bearing.

In technique scheme, corresponding described ball spline nuts position is provided with the 3rd bearing to described base, and described 3rd bearing is deep groove ball bearing.

In technique scheme, described base in the vertical direction is arranged, and described base is L-type base, and described ball spline nuts and described 3rd bearing are fixed on the transverse part of L-type base.

In technique scheme, described clutch is two-way wedge overrunning clutch, and described clutch one end connects the driving shaft of described second drive unit, and the other end connects described ball spline shaft.

In technique scheme, described first drive unit and described second drives dress to be motor or stepper motor.

In technique scheme, described base is also provided with ball screw described in detection and control and drives the sensor and induced magnet that slide and move into place.

The beneficial effects of the utility model are: the ball spline shaft of this novel platform mechanical arm and ball screw adopt unitary design, and this novel assembling volume is little, structure is simplified, cost is low; Rotary motion increases two-way wedge overrunning clutch, with preventing reversing gearbox, reversing gearbox effect be eliminate to make under External Force Acting ball spline rotate start position changes, the precision of braking than former electrical equipment is higher, to avoid adopting in the equipment use process of this novel manipulator under external force and the job position caused changes, the situation of carrying out again formula setting is needed to occur, save the operating time, reduce production cost.

Accompanying drawing explanation

Fig. 1 is this novel solid structural representation.

Fig. 2 is this lectostratotype section structural representation.

Fig. 3 is the front view of this novel running status.。

In figure, 1. base, 2. ball screw, 3. ball spline shaft, 4. the first drive unit, 5. the second drive unit, 6. brake gear, 7. belt, 8. synchronizing wheel, 9. reductor, 10. shaft coupling, 11. the 3rd bearings, 12. second bearings, 13. clutch shaft bearings, 14. slide blocks, 15. supporting seats, 16. clutches, 17. ball spline nuts, 18. linear slide rails.

Detailed description of the invention

Understand in order to the object, technical scheme and the advantage that make this novel are clearer and brighter, be described in further detail originally novel below in conjunction with drawings and Examples.

Fig. 1-3 illustrates this novel specific embodiment, and with reference to accompanying drawing 1-3, a kind of platform mechanical arm, comprises base 1; Described base 1 is L-type base 1 and described base 1 in the vertical direction is arranged; Described base 1 is provided with linear slide rail 18; Parallel described linear slide rail 18 establishes ball wire bar pair; The affixed slide block 14 of ball screw nut (not shown) of described ball wire bar pair, this slide block 14 is flexibly connected with described linear slide rail 18; The ball screw 2 of described ball wire bar pair connects the first drive unit 4, first drive unit 4 is positioned at the upper end of described ball wire bar pair, described first drive unit 4 is connected with described ball screw 2 with synchronizing wheel 8 by belt 7, power is transmitted to described ball screw 2 by described belt 7 and described synchronizing wheel 8, and described first drive unit 4 drives described ball screw 2 to rotate, described slide block 14 can be driven to move relative to described linear slide rail 18 in the vertical direction.Described base 1, linear slide rail 18, ball screw 2, slide block 14 from left to right set gradually, that is, ball screw 2 described in ball screw 2 therebetween of ball wire bar pair, ball screw 2 two ends are respectively equipped with clutch shaft bearing 13 and the second bearing 12, by described clutch shaft bearing 13 and the second bearing 12, described ball screw 2 and described ball wire bar pair are connected with described base 1, therefore ball screw 2 can only rotate relative to bearing, completing of shift action, is to be realized relative to described moving of ball screw 2 by ball screw nut.Meanwhile, ball screw nut connects slidably slide block 14, and thus ball screw nut counter ball screw mandrel 2 rotates and transforms out the power of slide block 14 opposite linear slide rail 18 movement.Parallel described ball wire bar pair establishes ball spline pair, and described ball spline pair is supported by two supporting seats 1515 be located on described slide block 14, and described ball spline pair is connected with described slide block 14, the second drive unit 5 is established in described ball spline pair upper end, this second drive unit 5 is by the reductor 9 of series connection, shaft coupling 10 and clutch 16 are connected with the ball spline shaft 33 of described ball spline pair, and ball spline pair and described clutch 16 joining place are arranged in the supporting seat 1515 (a) that two supporting seats 1515 are positioned at upper end, described second drive unit 5 and described ball spline shaft 33 keep coaxial and arrange and drive it to rotate, the ball spline nuts 17 of described ball spline pair is connected with described base 1, and support the rotation of described ball spline shaft 33, the second drive unit 5 reductor 9 that described slide block 14 carries described ball wire bar pair by two supporting seats 15 and is connected with ball screw 2, shaft coupling 10 in the vertical direction together with clutch 16 moves, and in moving process, ball spline shaft 33 shows as and rotates relative to the transverse part of described base 1 and move up and down, and this when moving up and down ball spline nuts 17 motionless, and ball spline shaft 33 is driven rotation by the second drive unit 5, ball spline shaft 33 relative movement.During work, described first drive unit 4 drives described ball screw 2 to rotate, drive described ball screw nut to drive described slide block 14 and described ball spline pair to move along described linear slide rail 18 at vertical direction, described ball spline shaft 33 is followed mobile and is rotated relative to described base 1 under the driving of described second drive unit 5.

Wherein, described first drive unit 4 is provided with brake gear 6, brakes the first drive unit 4 by this brake gear 6; Corresponding described ball spline nuts 17 position is provided with the 3rd bearing 11 to described base 1, and described ball spline nuts 17 and described 3rd bearing 11 are fixed on the transverse part of L-type base 1.Described base 1 is also provided with ball screw 2 described in detection and control and drives the sensor and induced magnet that slide and move into place.

Wherein, described clutch 16 is two-way wedge overrunning clutch 16, and described clutch 16 one end connects the driving shaft of described second drive unit 5, and the other end connects described ball spline shaft 33; Described clutch shaft bearing 13 is angular contact bearing; Described second bearing 12 is deep groove ball bearing, and described 3rd bearing 11 is deep groove ball bearing, and described first drive unit 4 and described second drives dress to be motor or stepper motor.

With reference to accompanying drawing 3, this novel platform mechanical arm work comprises: rectilinear motion and rotary motion; Rectilinear motion action is that the first drive unit 4 (motor/stepper motor) rotates, the axle head that ball screw 2 is housed is driven by synchronizing wheel 8, because ball screw nut is connected by screw thread with slide block 14, so slide block 14 can do positive and negative rectilinear movement when the first drive unit 4 (motor/stepper motor) rotates, namely reciprocating by being converted into slide block 14 by ball wire bar pair under the first drive unit 4 (motor/stepper motor) rotational translation.And rotary motion to be the second drive unit 5 rotate, being connected by shaft coupling 10, two-way wedge overrunning clutch 16 drives the axle head of ball spline pair, exports gyration by two-way wedge overrunning clutch 16.Platform mechanical arm makes crankmotion by being transformed by ball wire bar pair and ball spline pair under the first drive unit 4, second drive unit 5 rotational translation.Simultaneously, it should be noted that, two-way wedge overrunning clutch 16 structure, its one end axis hole connects the driving shaft of the second drive unit 5, other end axis hole connects driven shaft, outer ring flange is motionless, driving shaft up time or inverse time are when rotating, driven shaft is synchronous axial system also, and when driven shaft is subject to the effect of moment of face, clockwise and all can not rotate (its Main Function is: prevent reversing gearbox) counterclockwise, higher than servo motor (stepper motor) precision of external brake or strap brake, so not by rotating as ball spline pair under the effect of external force, so ball spline can only export gyration when servo motor (stepper motor) rotates by two-way wedge overrunning clutch 16.

The above not imposes any restrictions this novel technical scope, all above embodiment is done according to this new technique essence any amendment, equivalent variations and modification, all still belong in the scope of this novel technical scheme.

Claims (10)

1. a platform mechanical arm, is characterized in that: comprise base; Described base is provided with linear slide rail; Parallel described linear slide rail establishes ball wire bar pair; The affixed slide block of ball screw nut of described ball wire bar pair, this slide block is flexibly connected with described linear slide rail; The ball screw of described ball wire bar pair connects the first drive unit, and described first drive unit drives described ball screw to rotate, and drives described slide block to move relative to described linear slide rail in the vertical direction; Parallel described ball wire bar pair establishes ball spline pair, and described ball spline pair is supported by two supporting seats be located on described slide block, and described ball spline pair is connected with described slide block; The second drive unit is established in described ball spline pair upper end; this second drive unit is connected with the ball spline shaft of described ball spline pair by reductor, shaft coupling and the clutch of connecting; described second drive unit and described ball spline shaft keep coaxial and arrange and drive it to rotate; the ball spline nuts of described ball spline pair is connected with described base, and supports the rotation of described ball spline shaft; Described first drive unit drives described ball screw to rotate, drive described ball screw nut to drive described slide block and described ball spline pair to move along described linear slide rail at vertical direction, described ball spline shaft is followed mobile and is rotated relative to described base under the driving of described second drive unit.

2. a kind of platform mechanical arm according to claim 1, is characterized in that: described first drive unit is provided with brake gear, brakes the first drive unit by this brake gear.

3. a kind of platform mechanical arm according to claim 1, is characterized in that: described first drive unit is connected with described ball screw with synchronizing wheel by belt, transmits power to described ball screw by described belt and described synchronizing wheel.

4. a kind of platform mechanical arm according to claim 1, it is characterized in that: the end positions up and down of described ball screw is respectively equipped with clutch shaft bearing and the second bearing, by described clutch shaft bearing and the second bearing, described ball screw and described ball wire bar pair are connected with described base.

5. a kind of platform mechanical arm according to claim 4, is characterized in that: described clutch shaft bearing is angular contact bearing, and described second bearing is deep groove ball bearing.

6. a kind of platform mechanical arm according to claim 1, is characterized in that: corresponding described ball spline nuts position is provided with the 3rd bearing to described base, and described 3rd bearing is deep groove ball bearing.

7. a kind of platform mechanical arm according to claim 1, is characterized in that: described base is also provided with ball screw described in detection and control and drives the sensor and induced magnet that slide and move into place.

8. a kind of platform mechanical arm according to claim 6, is characterized in that: described base in the vertical direction is arranged, and described base is L-type base, and described ball spline nuts and described 3rd bearing are fixed on the transverse part of L-type base.

9. a kind of platform mechanical arm according to claim 1, is characterized in that: described clutch is two-way wedge overrunning clutch, and described clutch one end connects the driving shaft of described second drive unit, and the other end connects described ball spline shaft.

10. a kind of platform mechanical arm according to claim 1-9 any one, is characterized in that: described first drive unit and described second drives dress to be motor or stepper motor.