CN211306357U - Active vibration damping device for joints of industrial robot and robot - Google Patents

Abstract

The utility model discloses an active vibration damping device for industrial robot joints, which comprises a shell, a ring blocking part, a connecting element, an elastic element and an active damping vibration damping component; the baffle ring part is arranged on the inner side wall of the shell; the connecting element is nested in the inner ring of the retaining ring part in a matching way and can rotate relative to the retaining ring part; the elastic element is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the right end surface of the baffle ring part; the active damping vibration attenuation assembly is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the left end face of the baffle ring part. The active vibration damper for the joints of the industrial robot provided by the utility model can realize vibration damping and buffering, and has good effect of buffering vibration impact; a robot with the active vibration damping device for the joint of the industrial robot is also provided.

Description

Active vibration damping device for joints of industrial robot and robot

Technical Field

The utility model relates to the technical field of industrial robots, in particular to an active vibration damper for joints of industrial robots; also relates to a robot with the active vibration damping device for the joint of the industrial robot.

Background

With the change from a large manufacturing country to a strong manufacturing country in the manufacturing industry of China, an industrial robot can not play a crucial role in the industry, but the robot inevitably generates vibration in the running process, particularly vibration generated during rapid acceleration and rapid deceleration, meanwhile, the flutter influence generated when the robot arm stops is also large, and if the vibration is too large, not only are parts damaged, but also the service life of the parts is shortened, and the whole machine performance is further influenced, so that the reliability is greatly reduced. In order to reduce the vibration generated when the robot operates, various vibration reduction means are adopted by various manufacturers and scientific research institutes, and the vibration reduction means are summarized and mainly comprise three types: the method comprises an active vibration reduction method, a semi-active vibration reduction method and a passive vibration reduction method, wherein the active vibration reduction control mainly reduces vibration through a control algorithm, but the reliability is poor, and the vibration reduction of the algorithm combined with an intelligent vibration reduction material is relatively less; the semi-active vibration reduction control mainly reduces vibration by controlling additional vibration reduction components such as a motor and the like, but has larger volume, complex structure and higher cost; the passive vibration reduction mainly reduces vibration through rubber materials, and although the structure is simple and the cost is low, the passive vibration reduction has the defects of poor vibration reduction effect, unstable rubber materials and the like.

The patent with application number 201711185460.6 discloses an elastic element using metal rubber for a flexible robot joint, which mainly comprises an outer ring, an inner ring, metal rubber and the like, and although the elastic element can also play a role in damping vibration when the robot joint is driven, the real-time vibration damping effect is relatively poor, vibration cannot be damped rapidly, and the vibration damping effect is not good.

The patent with the application number of 201711182977.X discloses a compact metal rubber elastic element capable of generating torque on a flexible robot joint, and the patent mainly comprises an outer ring, an inner ring, metal rubber and a plurality of resistance type strain gauges.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems of the prior art and provide an active damping device for the joint of the industrial robot, which can realize vibration damping and buffering and has good effect of buffering vibration impact; a robot with the active vibration damping device for the joint of the industrial robot is also provided.

In order to achieve the above purpose, the utility model adopts the following scheme:

an active vibration damping device for a joint of an industrial robot comprises a shell; further comprising:

the retaining ring part is arranged on the inner side wall of the shell;

the connecting element is nested in the inner ring of the retaining ring part in a matched mode and can rotate relative to the retaining ring part;

the elastic element is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the right end surface of the baffle ring part;

and the active damping vibration attenuation assembly is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the left end surface of the baffle ring part.

Further, the retainer ring portion includes:

the at least two arc baffle ring supporting parts are arranged on the inner side wall of the shell and are uniformly distributed along the same circumference; a positioning bayonet is arranged between the end parts of two adjacent arc baffle ring supporting parts;

the two stop blocks are respectively arranged on the left end surface and the right end surface of each circular arc retaining ring supporting part corresponding to each circular arc retaining ring supporting part and are respectively connected with the inner side wall of the shell;

the connecting element comprises:

the flange body is embedded in the inner ring of the retaining ring part in a matched manner and can rotate relative to the retaining ring part;

the first blocking parts are arranged on the outer side wall of the left end of the flange body corresponding to each positioning bayonet, penetrate through the positioning bayonet and the same side of the left end face of the circular arc blocking ring supporting part in a matched mode, and rotate synchronously along with the flange body relative to the blocking ring part;

the at least two second blocking parts are arranged on the outer side wall of the right end of the flange body, are arranged on the same side with the right end face of the arc blocking ring supporting part, and synchronously rotate along with the flange body relative to the blocking ring part;

the active damping vibration attenuation assemblies are at least four;

each active damping vibration attenuation assembly is correspondingly nested in a cavity formed among each shell, the flange body, the arc baffle ring supporting part, the baffle and the first clamping part;

the elastic elements are at least four;

each elastic element is correspondingly nested in a cavity formed among each shell, the flange body, the circular arc retaining ring supporting part, the retaining block and the second retaining part.

Further, the outer side wall of the first blocking part and the outer side wall of the second blocking part are in matched contact with the inner side wall of the shell.

Further, the circular arc baffle ring support part has two.

Further, the number of the first blocking parts is two; the number of the second blocking parts is two; the vertical projections of the adjacent first blocking parts and the second blocking parts extend and intersect to form an included angle of 90 degrees.

Further, the first blocking part extends outwards from small to large relative to the flange body.

Further, the elastic element is a damping spring.

Further, the active damping vibration attenuation component comprises a magnetorheological elastomer and an electromagnetic coil; the magnetorheological elastomer is nested in the electromagnetic coil.

The shell is provided with a left end cover and a right end cover which are arranged on the left end surface and the right end surface of the shell; the left end cover is connected with the shell through a screw; the right end cover is connected with the shell through a screw; the right end cover is provided with a through opening communicated with the cavity of the shell.

The application also discloses a robot, including the aforesaid industrial robot joint initiative vibration damper.

Compared with the prior art, the utility model has the advantages of as follows:

the utility model discloses an industrial robot joint initiative vibration damper is through at the casing, connecting element and keep off and set up initiative damping vibration attenuation subassembly and elastic element in the cavity that forms between the ring portion and respectively on keeping off the terminal surface of controlling of ring portion, utilize the parallelly connected mode of initiative damping vibration attenuation subassembly and elastic element, the vibration that can not only produce when the quick decay robot moves, especially the vibration that produces when the robot rapid acceleration rapid deceleration and the vibrations that the robot arm produced when stopping shimmy, and can cushion the impact that produces when the robot moves, make this industrial robot joint initiative vibration damper can realize the damping and can realize the buffering again, play the effect of good buffering vibration impact, the stationarity is better.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is an exploded view of the active damping device for joints of an industrial robot according to the present invention.

Fig. 2 is a top view of the housing and the retainer ring of the active damping device for joints of an industrial robot.

The figure includes:

the damper comprises a shell 1, a blocking ring part 2, an arc blocking ring supporting part 21, a stop block 22, a positioning bayonet 23, a connecting element 3, a flange body 31, a first blocking part 32, a second blocking part 33, an elastic element 4, an active damping vibration attenuation component 5, a magnetorheological elastomer 51, an electromagnetic coil 52, a left end cover 6 and a right end cover 7.

Detailed Description

The invention will be further described with reference to the following examples.

Referring to fig. 1 to 2, an active damping device for joints of industrial robots comprises a shell 1, a retaining ring part 2, a connecting element 3, an elastic element 4 and an active damping vibration attenuation component 5. Wherein, the shell 1 is provided with a cavity; the chamber is cylindrical. The ring blocking part 2 is arranged on the inner side wall of the shell 1 and is positioned in the cavity; the connecting element 3 is nested in the inner ring of the retainer ring part 2 in a matching way and can rotate relative to the retainer ring part 2; the elastic element 4 is nested in a cavity formed among the shell 1, the connecting element 3 and the baffle ring part 2 and is positioned on the right end surface of the baffle ring part 2; the active damping vibration attenuation assembly 5 is nested in a cavity formed among the shell 1, the connecting element 3 and the baffle ring part 2 and is positioned on the left end face of the baffle ring part 2.

This active damping device of industrial robot joint is through at casing 1, in the cavity that connecting element 3 and fender ring portion 2 formed and respectively set up initiative damping vibration attenuation subassembly 5 and elastic element 4 on keeping off ring portion 2's the terminal surface of controlling, utilize the parallelly connected mode of initiative damping vibration attenuation subassembly 5 and elastic element 4, the vibration that produces when not only can the quick attenuation robot moves, especially the vibration that produces when the robot suddenly accelerates and suddenly decelerates and the flutter that the robot arm produced when stopping, and the impact that produces when can cushioning the robot moves, make this active damping device of industrial robot joint can realize the damping and can realize the buffering, play good buffering vibration impact's effect, the stationarity is better.

The elastic element 4 is a damping spring. Through damping spring as elastic element 4, make this elastic element 4 have good elastic action, avoid regard as elastic element 4 with the unstable rubber of itself, lead to elastic element 4 to appear the poor problem of damping effect, help improving this industrial robot joint initiative damping device's damping ability, have good damping effect.

The active damping vibration attenuation component 5 comprises a magnetorheological elastomer 51 and an electromagnetic coil 52; the magnetorheological elastomer 51 is nested in the electromagnetic coil 52. The active damping vibration attenuation component 5 adopts a magnetorheological elastomer 51 as an intelligent vibration attenuation material, and the intelligent vibration attenuation material comprises: the magneto-rheological elastomer 51 has the advantages of fast response, small energy requirement, relatively simple structure, stepless adjustable damping characteristic, no sedimentation problem of magneto-rheological fluid and the like, and the magnetic field intensity is changed by changing the current of the electromagnetic coil 52, so that the physical form of magnetic particles is changed, and the damping characteristic of the magneto-rheological elastomer 51 is changed. When the robot runs, the speed reducer is connected with the connecting element 3, namely the connecting element 3 and the speed reducer synchronously move, the active damping vibration attenuation component 5 is combined with the elastic element 4, so that the vibration generated when the robot runs can be quickly attenuated, particularly the vibration generated when the robot rapidly accelerates and rapidly decelerates and the vibration generated when the robot arm stops can be buffered, the impact generated when the robot runs can be buffered, the active vibration attenuation device for the joint of the industrial robot can realize vibration attenuation and buffering, a good vibration impact buffering effect can be realized, and the stability is better.

Specifically, the retainer portion 2 includes a circular-arc retainer support portion 21 and a stopper 22. Wherein, at least two arc baffle ring supporting parts 21 are arranged on the inner side wall of the shell 1 and are uniformly distributed along the same circumference; a positioning bayonet 23 is arranged between the end parts of two adjacent arc baffle ring supporting parts 21; the two stoppers 22 corresponding to each circular arc retaining ring support part 21 are respectively arranged on the left end surface and the right end surface of the circular arc retaining ring support part 21 and are respectively connected with the inner side wall of the shell 1; the connecting element 3 comprises a flange body 31 and a first catch 32. The flange body 31 is embedded in the inner ring of the ring blocking part 2 in a matching manner and can rotate relative to the ring blocking part 2; at least two first blocking parts 32 are arranged on the outer side wall of the left end of the flange body 31 corresponding to each positioning bayonet 23, penetrate through the positioning bayonets 23 and the same side of the left end face of the circular arc blocking ring supporting part 21 in a matching mode, and rotate synchronously along with the flange body 31 relative to the blocking ring part 2; at least two second blocking parts 33, which are arranged on the outer side wall of the right end of the flange body 31, are on the same side as the right end face of the circular arc blocking ring supporting part 21, and synchronously rotate along with the flange body 31 relative to the blocking ring part 2; the active damping vibration attenuation assemblies 5 are at least four; each active damping vibration attenuation component 5 is correspondingly nested in a cavity formed among each shell 1, the flange body 31, the circular arc baffle ring supporting part 21, the baffle 22 and the first clamping part 32; the elastic elements 4 have at least four; each elastic element 4 is correspondingly nested in a cavity formed among each shell 1, the flange body 31, the circular arc retaining ring supporting part 21, the stop 22 and the second retaining part 33.

By arranging at least two arc retaining ring supporting parts 21, the corresponding stoppers 22 positioned on the left end surface and the right end surface of the arc retaining ring supporting parts 21 are respectively provided with at least two blocks, the corresponding positioning bayonets 23 are at least two, the corresponding first blocking parts 32 are at least two, and the corresponding second blocking parts 33 are at least two; at least four cavities are formed among the shell 1, the flange body 31, the arc baffle ring supporting part 21, the stop 22 and the second blocking part 33, and at least four cavities are formed among each of the shell 1, the flange body 31, the arc baffle ring supporting part 21, the stop 22 and the first blocking part 32; each elastic element 4 is correspondingly nested in a cavity formed among each shell 1, the flange body 31, the circular arc retaining ring supporting part 21, the stop 22 and the second retaining part 33, and then each active damping vibration attenuation assembly 5 is correspondingly nested in a cavity formed among each shell 1, the flange body 31, the circular arc retaining ring supporting part 21, the stop 22 and the first retaining part 32, so that the required precision is ensured.

Through the combined action of at least four elastic elements 4 and an active damping vibration attenuation component 5, the active damping vibration attenuation component 5 and the elastic elements 4 are combined in a parallel connection mode, when the robot runs, as a speed reducer is connected with a connecting element 3, namely the connecting element 3 and the speed reducer synchronously move to drive a first blocking part 32 and a second blocking part to synchronously rotate, the elastic element 4 is compressed through a stop block 22 and a second blocking part 33, the elastic element 4 is deformed, the rigidity characteristic is changed, and the effect of buffering vibration impact is achieved, meanwhile, a controller of the robot calculates the current required to be applied to an electromagnetic coil 52 by receiving a vibration acceleration signal arranged on a robot arm, particularly vibration generated by rapid acceleration and rapid deceleration, according to the vibration acceleration signal, calculates the current required to be applied to the electromagnetic coil 52 by changing the current of the electromagnetic coil 52 wound on the magnetorheological elastomer 51, the magnetic field intensity is changed, the physical form of magnetic particles in the magnetorheological elastomer 51 is further changed, the damping characteristic of the magnetorheological elastomer is changed, finally vibration generated during the operation of the robot, particularly vibration generated during rapid acceleration and rapid deceleration and flutter generated when the robot arm stops are quickly attenuated, and meanwhile, the vibration impact buffering effect can be achieved, so that the stability during the operation of the robot is better, the noise vibration level during the operation of the robot is improved, and the overall performance of the robot is improved.

Preferably, the outer side wall of the first blocking portion 32 and the outer side wall of the second blocking portion 33 are in matching contact with the inner side wall of the housing 1. The relation between the first blocking part 32 and the shell 1 and the relation between the second blocking part 33 and the shell 1 are set in such a way, so that the active vibration damping device of the joint of the industrial robot is formed into a compact structure, and the problem that the conventional vibration damping parts of the joint of the robot are large in size is solved.

In order to increase the stability of the connecting element 3 in the housing 1, the first latching portion 32 extends outward from the flange body 31. Through setting up first card fender portion 32 relatively flange body 31 is outwards extended by little gradually becoming big, then the location bayonet socket 23 that corresponds also keeps off the lateral wall of ring supporting part 21 by big gradually little inwards extension relatively, be similar fan-shaped, when the robot moves, connecting element 3 is along with speed reducer synchronous motion, drive first card fender portion 32 and second card crotch portion synchronous revolution, combine together with dog 22, the vibration that can not only attenuate the robot and produce when moving fast, especially the vibration that produces when the robot accelerates the rapid deceleration and the flutter that the robot arm produced when stopping, and the impact that produces when the buffering robot moves, make this active damping device of industrial robot joint can realize the damping and can realize the buffering, play good buffering vibration impact's effect, the stationarity is better.

In the present embodiment, the retainer support portion 21 has two. However, it can be seen that there are two corresponding stoppers 22 respectively located on the left and right end surfaces of the circular retaining ring support portion 21, two corresponding positioning bayonets 23, two corresponding first retaining portions 32, and two corresponding second retaining portions 33; four cavities are formed among the shell 1, the flange body 31, the arc baffle ring supporting part 21, the baffle 22 and the second blocking part 33, and four cavities are formed among each of the shell 1, the flange body 31, the arc baffle ring supporting part 21, the baffle 22 and the first blocking part 32; through the combined action of the four elastic elements 4 and the active damping vibration attenuation component 5 and the combination of the active damping vibration attenuation component 5 and the elastic elements 4 in parallel, when the robot runs, as the speed reducer is connected with the connecting element 3, namely the connecting element 3 and the speed reducer synchronously move to drive the first blocking part 32 and the second blocking part to synchronously rotate, the elastic element 4 is compressed through the block 22 and the second blocking part 33, the elastic element 4 is deformed, the rigidity characteristic is changed, thereby playing the role of buffering the vibration impact, meanwhile, the controller of the robot calculates the current required to be applied to the electromagnetic coil 52 by receiving the vibration acceleration signal arranged on the robot arm, particularly the vibration generated by rapid acceleration and rapid deceleration, according to the vibration acceleration signal, the controller calculates the current required to be applied to the electromagnetic coil 52, and by changing the current of the electromagnetic coil 52 wound on the magnetorheological elastomer 51, the magnetic field intensity is changed, the physical form of magnetic particles in the magnetorheological elastomer 51 is further changed, the damping characteristic of the magnetorheological elastomer is changed, finally vibration generated during the operation of the robot, particularly vibration generated during rapid acceleration and rapid deceleration and flutter generated when the robot arm stops are quickly attenuated, and meanwhile, the vibration impact buffering effect can be achieved, so that the stability during the operation of the robot is better, the noise vibration level during the operation of the robot is improved, and the overall performance of the robot is improved.

Certainly, according to the demand, the circular arc baffle ring supporting part 21 can have 3, 4, etc., and then the number of the corresponding positioning bayonet 23, the first blocking part 32, the second blocking part 33, the stop dog 22, etc. is correspondingly changed, so that the active damping vibration attenuation component 5 is combined with the elastic element 4, and in the operation of the robot, the active damping vibration attenuation component not only can quickly attenuate the vibration generated in the operation of the robot, especially the vibration generated in the rapid acceleration and deceleration of the robot and the flutter generated in the stop of the robot arm, but also can buffer the impact generated in the operation of the robot, so that the active vibration attenuation device for the joint of the industrial robot can realize vibration attenuation and buffer, has good effect of buffering the vibration impact, and has better stability.

Preferably, the first blocking portion 32 has two; the number of the second blocking parts 33 is two; the included angle formed by the extending and intersecting of the vertical projections of the adjacent first blocking parts 32 and the second blocking parts 33 is 90 degrees. By arranging the first blocking part 32 and the second blocking part 33 in this way, the left and right large cavities of the blocking ring part 2 are respectively divided into 4 small cavities, so that the elastic element 4 and the active damping vibration attenuation component 5 can be conveniently installed.

The active vibration damping device for the joint of the industrial robot further comprises a left end cover 6 and a right end cover 7 which are arranged on the left end surface and the right end surface of the shell 1; the left end cover 6 is connected with the shell 1 through screws; the right end cover 7 is connected with the shell 1 through a screw; the right end cap 7 has a port in communication with the cavity of the housing 1. 8 bolt holes are uniformly distributed on the left end cover 6 so as to be connected with the robot arm and the shell 1, and meanwhile, the sealing effect is achieved, and the robot arm cannot be influenced by the outside. And the equipartition has 8 bolt holes on the right-hand member lid 7 to be connected with casing 1, and right-hand member lid 7 is hollow structure, so that the speed reducer passes through the installation.

The application discloses industrial robot joint initiative vibration damper's theory of operation as follows:

when the robot runs, the speed reducer is connected with the connecting element 3, namely the connecting element 3 and the speed reducer synchronously move to drive the first blocking part 32 and the second blocking part to synchronously rotate, the elastic element 4 is compressed through the blocking block and the second blocking part 33 to deform the elastic element 4, the rigidity characteristic is changed, and the effect of buffering vibration impact is achieved, meanwhile, a controller of the robot receives vibration acceleration signals installed on a robot arm, particularly vibration generated by rapid acceleration and rapid deceleration, calculates the current required to be applied to the electromagnetic coil 52 according to the vibration acceleration signals, changes the magnetic field strength by changing the current of the electromagnetic coil 52 wound on the magnetorheological elastomer 51, further changes the physical form of magnetic particles in the magnetorheological elastomer 51, and changes the damping characteristic, finally, the vibration generated during the operation of the robot is quickly attenuated, particularly the vibration generated during the rapid acceleration and rapid deceleration and the flutter generated when the robot arm stops are quickly attenuated, and meanwhile, the vibration impact buffering function is achieved, so that the stability of the robot during the operation is better, the noise vibration level during the operation of the robot is improved, and the overall performance of the robot is improved.

The application also discloses a robot, including the aforesaid industrial robot joint initiative vibration damper. Through set up this industrial robot joint initiative damping device on this robot, the vibration that produces when not only can the quick decay robot operation, especially the vibration that produces when the robot suddenly accelerates and suddenly decelerates and the flutter that the robot arm produced when stopping, the impact that produces when can cushion the robot operation moreover makes this industrial robot joint initiative damping device can realize the damping and can realize the buffering again, plays good buffering vibration impact's effect, and the stationarity is better.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the protection scope of the present application, and although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.

Claims (10)

1. An active vibration damping device for a joint of an industrial robot comprises a shell; it is characterized by also comprising:

the retaining ring part is arranged on the inner side wall of the shell;

the connecting element is nested in the inner ring of the retaining ring part in a matched mode and can rotate relative to the retaining ring part;

the elastic element is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the right end surface of the baffle ring part;

and the active damping vibration attenuation assembly is nested in a cavity formed among the shell, the connecting element and the baffle ring part and is positioned on the left end surface of the baffle ring part.

2. Active vibration damping device of an industrial robot joint according to claim 1, characterized in that the collar part comprises:

the at least two arc baffle ring supporting parts are arranged on the inner side wall of the shell and are uniformly distributed along the same circumference; a positioning bayonet is arranged between the end parts of two adjacent arc baffle ring supporting parts;

the two stop blocks are respectively arranged on the left end surface and the right end surface of each circular arc retaining ring supporting part corresponding to each circular arc retaining ring supporting part and are respectively connected with the inner side wall of the shell;

the connecting element comprises:

the flange body is embedded in the inner ring of the retaining ring part in a matched manner and can rotate relative to the retaining ring part;

the first blocking parts are arranged on the outer side wall of the left end of the flange body corresponding to each positioning bayonet, penetrate through the positioning bayonet and the same side of the left end face of the circular arc blocking ring supporting part in a matched mode, and rotate synchronously along with the flange body relative to the blocking ring part;

the at least two second blocking parts are arranged on the outer side wall of the right end of the flange body, are arranged on the same side with the right end face of the arc blocking ring supporting part, and synchronously rotate along with the flange body relative to the blocking ring part;

the active damping vibration attenuation assemblies are at least four;

each active damping vibration attenuation assembly is correspondingly nested in a cavity formed among each shell, the flange body, the arc baffle ring supporting part, the baffle and the first clamping part;

the elastic elements are at least four;

each elastic element is correspondingly nested in a cavity formed among each shell, the flange body, the circular arc retaining ring supporting part, the retaining block and the second retaining part.

3. The active vibration damping device for industrial robot joints according to claim 2, characterized in that the outer side wall of the first catch portion and the outer side wall of the second catch portion are in mating contact with the inner side wall of the housing.

4. Active vibration damping device for an industrial robot joint according to claim 2, characterized in that the arc collar support has two.

5. The active vibration damping device for industrial robot joints according to claim 4, characterized in that the first catching parts have two; the number of the second blocking parts is two; the vertical projections of the adjacent first blocking parts and the second blocking parts extend and intersect to form an included angle of 90 degrees.

6. Active vibration damping device according to claim 2, characterized in that the first catch extends outwardly from a smaller to a larger extent relative to the flange body.

7. Active vibration damping device of an industrial robot joint according to claim 1, characterized in that the elastic element is a damping spring.

8. The active damping device for an industrial robot joint according to claim 1, characterized in that the active damping vibration attenuation assembly comprises a magnetorheological elastomer and an electromagnetic coil; the magnetorheological elastomer is nested in the electromagnetic coil.

9. The active vibration damping device for joints of industrial robots according to claim 1, characterized by further comprising left and right end caps provided on left and right end faces of the housing; the left end cover is connected with the shell through a screw; the right end cover is connected with the shell through a screw; the right end cover is provided with a through opening communicated with the cavity of the shell.

10. A robot, characterized in that it comprises an active damping device for joints of an industrial robot according to any of claims 1-9.

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