CN106239129A - The method for processing and assembling of high-performance robot driving device - Google Patents

Abstract

The present invention relates to robot driving device, specifically the method for processing and assembling of high-performance robot driving device, its be included axle one end and hollow outer shaft one end outer wall locating and machining groove respectively；Difference process and assemble hole on two driving wheels；One ring spring is set in each pilot hole；Again two driving wheels are separately mounted on described interior outer shaft by pilot hole, and make ring spring embed in corresponding locating slot；Then interior axle is arranged on hollow outer shaft inner chamber, and makes the interior axle other end stretch out the hollow outer shaft other end.The present invention uses the mounting means of inside and outside two axles, it is possible to provide two kinds drive power, can change the gear ratio of reductor etc.；Meanwhile, in terms of process and assemble, taken turns by ring spring fixed drive, be conducive to reducing frictional force, it is to avoid damage driving wheel；And axle in two bearings installations, it can be ensured that the axiality of interior outer shaft.

Description

The method for processing and assembling of high-performance robot driving device

Technical field

The present invention relates to robot driving device, specifically the method for processing and assembling of high-performance robot driving device.

Background technology

Existing industrial robot mainly divides two big classes: Cartesian robot and prosthetic robot.Rectangular coordinate machine Device people is mainly made up of some linear motion units, driving motor, control system and end-effector etc..This robot can pin To different application, fast and easy is combined into wall-mounted, the cantilevered of different dimension, various stroke and different band loading capability, dragon The Cartesian robot of the various ways such as gate-type or reversely hung Yong.Prosthetic robot is mainly driven by some rotary motion unit Motor, control system and end-effector etc. form.Prosthetic robot can become with Rapid Combination unlike Cartesian robot Different dimensions.For different application, the prosthetic robot of fixing different dimensions can only be selected, such as arc welding robot, remove Fortune robot etc..

In current automatic industrial produces, robot is core, but the certain operations of robot requires speed all Slow, need speed reducer with high transmission ratio transmission, existing robot to be generally adopted by prosthetic robot, its gear reduction Mechanism is to use planet to add cycloid speed reducer or harmonic wave speed reducing machine, owing to the driving means of these reductors uses list mostly mostly Axle and fixing gear train etc. carry out transmission so that the gear ratio of reductor is fixed, and are difficult to meet robot to gear ratio Demand；And these driving means axiality in terms of process and assemble is not high enough.

Summary of the invention

For above-mentioned technical problem, the present invention provides the processing of the high-performance robot driving device that a kind of axiality is higher Assembly method.

The technical solution used in the present invention is: the method for processing and assembling of high-performance robot driving device, and it includes following Step:

(1) at interior axle one end and hollow outer shaft one end outer wall locating and machining groove respectively；

(2) difference process and assemble hole on two driving wheels；

(3) ring spring is set in each pilot hole；

(4) again two driving wheels are separately mounted on described interior outer shaft by pilot hole, and make ring spring embed corresponding location In groove；

(5) then interior axle is arranged on hollow outer shaft inner chamber, and makes the interior axle other end stretch out the hollow outer shaft other end.

As preferably, radially it is machined with annular groove along each described pilot hole hole wall, first described ring spring is arranged at correspondence In annular groove, then driving wheel is arranged on the axle of correspondence by pilot hole.

As preferably, described interior axle is arranged on hollow outer shaft inner chamber by bearing.

As preferably, described hollow outer shaft two ends are machined with receiving space respectively, and each fixedly mounts in accommodating space One described bearing, described interior axle two ends are arranged on hollow outer shaft inner chamber by this two bearings.

As preferably, in installing during axle, first the interior axle other end bearing from one end described in hollow outer shaft is penetrated inner chamber, so After pass from the bearing of the hollow outer shaft other end.

As preferably, first vertically being placed by hollow outer shaft, its described one end is above, then by described in interior axle another End is placed in the bearing centre hole of one end described in hollow outer shaft, and then one end described in internal axle applies downward pressure so that it is another End penetrates inner chamber, then passes from the bearing centre hole of the hollow outer shaft other end.

As preferably, when the interior axle other end passes from the bearing centre hole of the hollow outer shaft other end, to hollow outer shaft another The bearing of end applies pressure from bottom to top.

As can be known from the above technical solutions, the present invention uses the mounting means of inside and outside two axles, it is possible to provide two kinds drive power, can Change the gear ratio of reductor etc.；Meanwhile, in terms of process and assemble, taken turns by ring spring fixed drive, be conducive to reducing frictional force, Avoid damaging driving wheel；And axle in two bearings installations, it can be ensured that the axiality of interior outer shaft.

Detailed description of the invention

The present invention is described more detail below, and illustrative examples and explanation in this present invention are used for explaining the present invention, But it is not as a limitation of the invention.

The method for processing and assembling of high-performance robot driving device, it comprises the following steps:

(1) at interior axle one end and hollow outer shaft one end outer wall locating and machining groove respectively；Interior outer shaft can be driven respectively by two motors, Also can be driven respectively by two different drive mechanisms by a motor；Locating slot can make driving wheel be arranged on the specific bit of axle Put.

(2) difference process and assemble hole on two driving wheels, can be arranged on driving wheel on the axle of correspondence by pilot hole； Two driving wheels can drive the gear of the different number of teeth, and driving wheel can be also ellipticity, as the wave producer of harmonic speed reducer.Make During for wave producer, can there be axially arranged several rollers in the peripheral distribution of described driving wheel, thus can drive two not Rotate with the flexbile gear of the number of teeth, thus export the power of different drive ratios；It addition, driving wheel also can be as direct geared and other teeth Wheel engagement, the most also can export different drive ratios by the upper different numbers of teeth of different driving wheel as sun gear etc. as driven Power.

(3) ring spring is set in each pilot hole；In implementation process, along each described pilot hole hole wall radially Being machined with annular groove, described ring spring is arranged in the annular groove of correspondence, and driving wheel is fixedly mounted on the axle of correspondence by corresponding ring spring On；So on the one hand, driving wheel can be avoided directly to contact with corresponding axle and damage driving wheel, on the other hand the elastic force of ring spring can Make assembling convenient；Meanwhile, driving wheel and respective shaft even can use the mode of matched in clearance to carry out transmission, it is to avoid Liang Zhejie Touch, wear phenomenon occurs, and once the effect of attrition transmission of axle Yu ring spring, only need to change ring spring, save maintenance and dimension Protect cost.In the present invention, ring spring is the elasticity part with radical elasticity, under the effect of its elastic force, and can be solid by driving wheel It is scheduled on axle, it is ensured that axle drives driving wheel to rotate.

(4) again two driving wheels are separately mounted on described interior outer shaft by pilot hole, and make ring spring embed correspondence In locating slot；The processing of locating slot should not be crossed the most wide, the most only need one to recessed impression the most permissible, because locating slot Effect is spacing, and when driving wheel is mounted on an axle, the radial force between ring spring and axle is relatively big, only needs simple groove just can keep away Free drive driving wheel moves axially, thus realizes axially location.

(5) then interior axle is arranged on hollow outer shaft inner chamber, and makes the interior axle other end stretch out the hollow outer shaft other end；As Preferably, described interior axle is arranged on hollow outer shaft inner chamber by bearing；Specifically, described hollow outer shaft two ends are machined with appearance respectively Receiving space, each accommodates one described bearing of fixed installation in space, and described interior axle two ends are arranged on sky by this two bearings Heart outer shaft inner chamber；In installing during axle, first the interior axle other end bearing from one end described in hollow outer shaft is penetrated inner chamber, then from sky The bearing of the heart outer shaft other end passes.As preferably, first vertically being placed by hollow outer shaft, its described one end is above, so After the other end described in interior axle is placed in the bearing centre hole of one end described in hollow outer shaft, then internally one end described in axle applies downwards Pressure so that it is the other end penetrates inner chamber, then passes from the bearing centre hole of the hollow outer shaft other end；The interior axle other end is from hollow When the bearing centre hole of the outer shaft other end passes, the bearing of the hollow outer shaft other end is applied pressure from bottom to top, prevents this axle Hold because of interior axial under pressure disengage it from outer shaft.

In implementation process, the end face of bearing not only can be saved space with outer shaft end face, and keep away in transmission process Exempt to interfere with miscellaneous part；Two ends described in interior axle are arranged in two bearings, the most not only make interior outer shaft can occur relatively and turn Dynamic, it is ensured that interior outer shaft has higher axiality；And it is more firm that interior axle can be made to support, transmission is more steady.The phase of interior outer shaft To motion can use this sample loading mode, when interior axle is rotated by driven by motor, outer shaft can be made not rotate, only by drive wheel outside Pinion rotation, thus export power；When outer shaft is rotated by driven by motor, interior axle can be made not rotate, only another by drive wheel The pinion rotation of the outer different number of teeth, thus output and the power of outer shaft different drive ratios, it is seen that the present invention can realize different transmission The transmission of ratio.

The technical scheme provided the embodiment of the present invention above is described in detail, specific case used herein Principle and embodiment to the embodiment of the present invention are set forth, and the explanation of above example is only applicable to help to understand this The principle of inventive embodiments；Simultaneously for one of ordinary skill in the art, according to the embodiment of the present invention, in specific embodiment party All will change in formula and range of application, in sum, this specification content should not be construed as limitation of the present invention.

Claims (7)

1. the method for processing and assembling of high-performance robot driving device, it comprises the following steps:

(1) at interior axle one end and hollow outer shaft one end outer wall locating and machining groove respectively；

(2) difference process and assemble hole on two driving wheels；

(3) ring spring is set in each pilot hole；

(4) again two driving wheels are separately mounted on described interior outer shaft by pilot hole, and make ring spring embed corresponding location In groove；

(5) then interior axle is arranged on hollow outer shaft inner chamber, and makes the interior axle other end stretch out the hollow outer shaft other end.

The method for processing and assembling of high-performance robot driving device the most according to claim 1, it is characterised in that: along each institute State pilot hole hole wall and be radially machined with annular groove, first described ring spring is arranged in the annular groove of correspondence, then by driving wheel by assembling Hole is arranged on the axle of correspondence.

3. the method for processing and assembling of high-performance robot driving device as claimed in claim 1, it is characterised in that: described interior axle leads to Cross bearing and be arranged on hollow outer shaft inner chamber.

4. the method for processing and assembling of as claimed in claim 3 high-performance robot driving device, it is characterised in that: described hollow outside Axle two ends are machined with receiving space respectively, and each fixedly mounts a described bearing in accommodating space, and described interior axle two ends lead to Cross this two bearings and be arranged on hollow outer shaft inner chamber.

5. the method for processing and assembling of high-performance robot driving device as claimed in claim 4, it is characterised in that: axle in installing Time, first the interior axle other end bearing from one end described in hollow outer shaft is penetrated inner chamber, then from the bearing of the hollow outer shaft other end Pass.

6. the method for processing and assembling of high-performance robot driving device as claimed in claim 5, it is characterised in that: first by hollow Outer shaft is vertically placed, and its described one end is above, and then the other end described in interior axle is placed in the axle of one end described in hollow outer shaft Holding centre bore, then internally one end described in axle applies downward pressure so that it is the other end penetrates inner chamber, then from hollow outer shaft another The bearing centre hole of end passes.

7. the method for processing and assembling of high-performance robot driving device as claimed in claim 6, it is characterised in that: the interior axle other end When passing from the bearing centre hole of the hollow outer shaft other end, the bearing of the hollow outer shaft other end is applied pressure from bottom to top.