CN109009458A - Motion arm - Google Patents

Abstract

It include: connection component, driving assembly and end instrument the present invention relates to a kind of motion arm, end instrument is connected with the connection component, including two clamping parts and clamping driving assembly, at least one clamping part is removable installed on the clamping driving assembly, and driven by the clamping driving assembly, so that two clamping part cooperation clampings.

Description

Motion arm

Technical field

The present invention relates to Minimally Invasive Surgery fields, more particularly to a kind of motion arm.

Background technique

Minimally Invasive Surgery refers to be applied inside body cavity using the modern medical equipments such as laparoscope, thoracoscope and relevant device A kind of modus operandi of row operation.There are the advantages such as wound is small, pain is light, recovery is fast compared to traditional operation mode Minimally Invasive Surgery.

With the development of science and technology micro-wound operation robot technology graduallys mature, and it is widely used.Micro-wound operation robot It generally includes master operating station and from operation equipment, master operating station is used to send control life to from operation equipment according to the operation of doctor It enables, with control from operation equipment, is used to respond the control command that master operating station is sent from operation equipment, and performed the operation accordingly Operation.

Sequentially connected power mechanism, bindiny mechanism and motion arm are generally included from operation equipment, power mechanism passes through company Connection mechanism drives motion arm, and motion arm executes surgical procedure for protruding into vivo.Current working as from operation equipment needs replacing When end operation tool on motion arm, whole operation arm is needed to change, enables replacement program complicated, and extend operating time.

Summary of the invention

Based on this, it is necessary to provide a kind of motion arm of readily replaceable end operation tool.

A kind of motion arm, comprising:

Connection component；

Driving assembly；

End instrument is connected with the connection component, including two clamping parts and clamping driving assembly, at least described in one Clamping part is removable installed on the clamping driving assembly, and is driven by the clamping driving assembly, so that two institutes State clamping part cooperation clamping.

The clamping part has terminal pad in one of the embodiments, and the clamping driving assembly has drive disk, institute It states terminal pad to be detachably connected with the drive disk, and drives the drive disk rotation.

The drive disk is two in one of the embodiments, is connected respectively with two terminal pads.

Two drive disks are respectively positioned between two terminal pads in one of the embodiments,.

Two terminal pads fasten in one of the embodiments, and to form accommodating chamber, the drive disk is located at described In accommodating chamber.

Two terminal pads are located between two drive disks in one of the embodiments,.

The first drive disk is fixedly installed on the connection component in one of the embodiments, the folder of connection It is static to hold the relatively described connection component in portion, relatively described first drive disk of the second drive disk can be rotated, so that two clampings Portion's cooperation clamping.

Second drive disk is rotatably dispose on the connection component in one of the embodiments, or rotation setting In on first drive disk.

The relatively described connection component of two drive disks can be rotated in one of the embodiments, so that two institutes State clamping part cooperation clamping.

The drive disk is detachably set on the connection component in one of the embodiments,.

When replacing end instrument compared to traditional operation arm aforesaid operations arm, it is not necessary that whole operation arm is removed, it is only necessary to will be last End-apparatus tool is dismantled and is replaced, and end instrument is convenient for changing.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of operating robot of the present invention；

Fig. 2 is partial schematic diagram of the present invention from operation one embodiment of equipment；

Fig. 3 is partial schematic diagram of the present invention from operation one embodiment of equipment；

Fig. 4 is the partial structural diagram of one embodiment of operation of the present invention arm；

Fig. 5 is the partial exploded view of motion arm shown in Fig. 4；

Fig. 6 is the partial structural diagram of one embodiment of operation of the present invention arm；

Fig. 7 is the partial structural diagram of one embodiment of operation of the present invention arm；

Fig. 8 is the partial structural diagram of one embodiment of operation of the present invention arm；

Fig. 9 is the partial structural diagram of one embodiment of operation of the present invention arm；

Figure 10 is the partial structural diagram of one embodiment of operation of the present invention arm；

Figure 11 is the partial structural diagram of one embodiment of operation of the present invention arm；

Figure 12 is the partial structural diagram of one embodiment of operation of the present invention arm；

Figure 13 is the partial structural diagram of one embodiment of operation of the present invention arm.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being set to " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.When an element is considered as " coupling " another element, it can To be to be directly coupled to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " water It is flat ", "left", "right" and similar statement for illustrative purposes only, be not meant to be the only embodiment.Herein Used term " distal end ", " proximal end " are used as the noun of locality, which is interventional medical device field common terminology, wherein " distal end " indicates that one end in surgical procedure far from operator, " proximal end " indicate one end that proximal operator is depended in surgical procedure.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

It as shown in Figure 1 to Figure 3, is respectively the structural schematic diagram of one embodiment of operating robot of the present invention, and from operation The partial schematic diagram of equipment difference embodiment.

Operating robot include master operating station 1 and from operation equipment 2.Wherein, master operating station 1 is used for the operation according to doctor Control command is sent to from operation equipment 2, with control from operation equipment 2, is also used to show the image obtained from equipment 2.From Operation equipment 2 is used to respond the control command of the transmission of master operating station 1, and carries out corresponding operation, and also uses from operation equipment 2 In the intracorporal image of acquisition.

Specifically, from operation equipment 2 include mechanical arm 10, be set on mechanical arm 10 power mechanism 20, be set to it is dynamic Motion arm 30 on force mechanisms 20, and it is arranged the casing 40 of motion arm 30.Mechanical arm 10 is used to adjust the position of motion arm 30 And posture；Power mechanism 20 is for driving motion arm 30 to execute corresponding operating；Motion arm 30 passes through its position for protruding into vivo End instrument 31 in distal end executes surgical procedure, and/or obtains internal image.Specifically, as shown in Figure 2 and Figure 3, motion arm 30 wear casing 40, and end instrument 31 stretches out outside casing 40, and drives it to execute operation by power mechanism 20.In Fig. 2, behaviour Making the region that arm 30 is located in casing 40 is rigid region；In Fig. 3, it is flex region that motion arm 30, which is located at the region in casing 40, Domain, casing is with flexible region bends.In other embodiments, casing 40 also can be omitted, at this point, being not necessarily to casing.

In one embodiment, motion arm 30 be it is multiple, be all set on the same power mechanism 20, multiple motion arms 30 it is remote End is protruded into vivo by a notch on human body, so that its end instrument 31 is moved to lesion 3 and is nearby operated.Tool Body, power mechanism has multiple power parts, and each power part is correspondingly connected with a motion arm.In other embodiments, engine Structure is multiple, one motion arm 30 of setting on each power mechanism 20, and multiple motion arms protrude into vivo, at this time from a notch Multiple power mechanisms 20 both can be set on a mechanical arm 10, also can be set on multiple mechanical arms 10.It needs to illustrate , multiple motion arms 30 can also protrude into vivo from multiple notch, for example, two motion arms are protruded into each notch, for another example, A motion arm is protruded into each notch.

It further include stamp card from operation equipment 2 in one embodiment, stamp card is fixedly installed for wearing the notch on human body In incision tract, motion arm is extend into vivo by stabbing card.

As shown in Fig. 4 to Fig. 8, for the partial structural diagram of the different embodiments of operation of the present invention arm 30 respectively.

Motion arm 30 includes: connection component 100, driving assembly 200 and end instrument 300.Wherein, connection component 100 is used Position and posture in adjustment end instrument 300, for driving end instrument 300, end instrument 300 is used for driving assembly 200 Execute surgical procedure.Specifically, end instrument 300 is connected with connection component 100, both can directly with connection component 100 Be connected fitting, can also be connected by driving assembly 200 with connection component 100.End instrument 300 includes two clamping parts 310 and clamping driving assembly 320, at least a clamping part 310 be removable installed on clamping driving assembly 320, and pass through folder The driving of driving assembly 320 is held, so that two cooperation clampings of clamping part 310.For example, when two clamping parts 310 are with respect to connection group Part 100 is movable, and when cooperating clamping, two clamping parts 310 are detachable.For another example, when in two clamping parts 310 one it is opposite Connection component 100 is static, another is movable with respect to connection component 100, and when cooperating clamping, the clamping part 310 of movement is removable It is set to unloading on clamping driving assembly 320.

When replacing end instrument 300 compared to 30 aforesaid operations arm 30 of traditional operation arm, it is not necessary that whole operation arm 30 is removed, It only needs that end instrument 300 is dismantled and replaced, is convenient for changing end instrument 300.

In one embodiment, the clamping piece 312 that clamping part 310 has terminal pad 311 and is fixedly installed in terminal pad 311, Two clamping parts 310 are moved with terminal pad 311, and cooperation is clamped, and specifically, clamping piece 312 is jaw arrangement.Other realities It applies in example, clamping part 310 can also be moved with respect to terminal pad 311.For example, opposite terminal pad 311 can be rotated, to be adjusted.

Clamping driving assembly 320 has drive disk 321, is connected with connection component 100, for being drivingly connected 311 turns of disk Dynamic, drive disk 321 can be both directly arranged on connection component, can also be set on connection component by connecting pedestal 322 100 (as shown in Figures 4 to 6), wherein in Fig. 4, embodiment illustrated in fig. 5, drive disk 321 is abutted with the ontology of terminal pad 311, In embodiment illustrated in fig. 6, the connection position that drive disk 321 is connect with terminal pad 311 wear connection pedestal 322, and with terminal pad 311 Upper corresponding connection position is connected, and the ontology interval of drive disk 321 and terminal pad 311 is arranged at this time.It should be noted that one is real It applies in example, end instrument further includes shell, and shell includes connection pedestal, is connected with connection component.

Further, terminal pad 311 is detachably connected with drive disk 321.Wherein, drive disk 321 be two, and respectively with Two terminal pads 311 are connected.In embodiment as shown in Figures 4 to 6, two drive disks 321 be respectively positioned on two terminal pads 311 it Between, at this point, two drive disks 321 both can be against each other, can also be intervally installed.Further, in an embodiment, two A terminal pad 311 fastens, and to form accommodating chamber, drive disk 321 is located in accommodating chamber.At this point, after two terminal pads 311 fasten, It can relatively rotate, to enable the cooperation clamping of clamping piece 312.In embodiment as shown in Figure 7, two terminal pads 311 are located at two drivings Identical as fig. 4 to fig. 6 embodiment between disk 321, terminal pad both can abut or be spaced setting with the ontology of drive disk, And two terminal pads 311 both can be against each other, can also be intervally installed.It should be noted that in other embodiments, Terminal pad 311 can also be arranged alternately with drive disk 321, i.e., two terminal pads 311 or drive disk 321 are non-conterminous.

In one embodiment, first drive disk 321 is fixedly installed on connection component 100 in two drive disks 321, connection Clamping part 310 it is static with respect to connection component 100, opposite first drive disk 321 of the second drive disk 321 can be rotated, so that two The cooperation clamping of clamping part 310.Specifically, the first drive disk 321 is fixedly installed on the distal end of connection component 100, such as fig. 4 to fig. 6 Shown, when two drive disks 321 are located between two terminal pads 311, the first drive disk 321 is located in connection component distal end Portion region；As shown in fig. 7, first drive disk 321, which is located at, to be connected when two drive disks 321 are located at the two sides of two terminal pads 311 The side of 100 distal end of connected components, and be fixed on its side wall.Second drive disk 321 can both be rotatably dispose in connection component 100 On, it can be rotated, can also be rotatably dispose on the first drive disk 321 with the clamping part 310 of opposite first drive disk 321 connection, It can be rotated with the clamping part 310 of opposite first drive disk 321 connection.

In other embodiments, two drive disks 321 can also be can be rotated with respect to connection component 100, so that two clampings The cooperation clamping of portion 310.For example, two 321 rotation directions of drive disk were on the contrary, at this point, the angular speed of two drive disks 321 both can be with It is identical can also be different.

In one embodiment, drive disk 321 is detachably set on connection component 100.I.e. in the present embodiment, drive disk 321, Clamping part 310 is removably connected with connection component 100.For example, shell is detachable when end instrument 300 includes shell Ground is set on connection component 100.

In one embodiment, terminal pad 311 be equipped with the first connection position 301, for the second connection position on drive disk 321 302 are correspondingly connected with.For example, the first connection position 301, the second connection position 302 are the lug boss and recessed portion being cooperatively connected, the two is matched Close connection.Further, the first connection position 301 is strip, and is extended along the diameter of terminal pad 311.For another example, the first connection position 301, the second connection position 302 is buckle structure, to be mutually fastened and connected.For another example, the first connection position 301, the second connection position 302 that This magnetism connection.

Fig. 4 is into embodiment illustrated in fig. 7, and driving assembly 200 includes driving silk, and driving silk wears connection component 100, with even Connected components 100 are bent, and are extended along connection component 100, for driving the drive disk 321 to rotate.Wherein, driving silk is wound in The side of drive disk 321, to drive the drive disk 321 to rotate.Further, driving assembly 200 further includes driving portion, driving Portion drives the driving silk of two drive disks 321 to be set on the same driving portion for driving the driving silk to be driven.Example Such as, when the angular speed of two drive disks 321 is identical, when contrary, the driving silk of two drive disks 321 is driven to be set to same On a driving portion.

As shown in figure 8, driving assembly 200 includes drive rod 210 and connecting rod 220 in an embodiment.Specifically, it drives Bar 210, connecting rod 220, drive disk 321 are sequentially connected, and drive rod 210 is driven by driving portion, wear connection component 100, and Extending along connection component 100, wherein connection component 100 is equipped with position-limiting unit 110, to limit the movement of drive rod 210, driving Bar 210 is moved along the direction that position-limiting unit limits, and the drive disk 321 is driven to rotate, in the present embodiment, position-limiting unit 110 Offer limit hole, drive rod wears limit hole, and in other embodiments, position-limiting unit may be the limit on connection component Hole.Further, drive rod is flexible link, flexible with connection component 100.

It is respectively the partial structural diagram for inventing different embodiments also referring to Fig. 9 to Figure 11.

In one embodiment, motion arm 30 includes: connection component 100, driving assembly 200 and end instrument 300.Wherein, last End-apparatus tool 300 is connected with connection component 100, and end instrument 300 includes that clamping part 310 and clamping driving assembly 320, clamping are driven Dynamic component 320 is connect with driving assembly 200, to drive the cooperation clamping of clamping part 310, and clamps driving assembly 320 and driving Component 200 is detachably connected, so that end instrument is detachably connected with driving assembly.

In the present embodiment, end instrument 300 has shell 330, for accommodating clamping driving assembly 320, clamping part 310, And it is detachably connected with connection component 100.For example, the periphery of shell 330 is equipped with link slot 331,100 distal end of connection component has Interconnecting piece 120, interconnecting piece 120 have bulge-structure, match with link slot 331, and be clamped link slot.Further, it connects Portion 120 includes two connectors, and two connectors are along a rotation axis opposed rotatable, i.e., connector is for being clamped link slot The distance between 331 end is changeable, to discharge the shell 330 of clamping.For another example, in embodiment illustrated in fig. 10, interconnecting piece 120 Also it can have barb structure 121, shell 330 has multiple link slots at this time, is clamped to cooperate with barb structure, enables end device Tool 300 is set on connection component 100.For another example, shell 330 and the distal end of connection component 100 are spirally connected.

Clamping driving assembly 320 is at least partially housed in shell 330.In one embodiment, clamping driving assembly 320 has The four-bar mechanism being contained in shell 330, the connecting rod being successively rotatablely connected including four, two of them connecting rod are pressed from both sides with two respectively The connection of portion 310 is held, with two cooperation clampings of clamping part 310 of driving.For example, the end that two adjacent connecting rods close on is separately connected Two clamping parts 310, to drive clamping part 310, and the rotation axis of connection and two connecting rods is solid relative to 330 position of shell It is fixed, such as be fixedly installed on shell 330, or be rotatably dispose on shell 330.

It should be noted that identical as previous embodiment, two clamping parts 310 both can be transported with respect to connection component 100 It is dynamic, it can also be moved with only one clamping part 310 relative to connection component 100, and correspondingly connecting rod connected to it.With aforementioned reality It is identical to apply example, clamping part 310 can also be removable installed in clamping driving assembly, and four-bar mechanism is corresponding with clamping part at this time connects The region setting drive disk connect, clamping part are removable installed on drive disk.

Further, end instrument 300 is additionally provided with limiting section, for limiting the movement of four-bar mechanism, so that it is being moved Predeterminated position is not deviated by the process, and then it is avoided to wave.For example, limiting section is set in shell 330, limit is offered The connecting rod of slot, four-bar mechanism is contained in limiting slot, and removable along limiting slot extending direction.For another example, limiting section is limited post, Limiting section is multiple, and is set in shell 330, and multiple limiting sections form the mobile limiting slot of limitation four-bar mechanism.

Clamping driving assembly 320 further includes clamping drive rod 323, and one end is connect with four-bar mechanism, the other end and driving 200 removable connector of component, for driving four-bar mechanism to move.Wherein, the driving of driving assembly 200 clamping 323 edge of drive rod Linear motion, and then the cooperation clamping of clamping part 310 is driven by four-bar mechanism.In one embodiment, it is single that shell 330 is additionally provided with limit Member 110, to limit the movement of clamping drive rod 323, wherein position-limiting unit offers limit hole, clamps drive rod 323 along limit Hole movement.In other embodiments, position-limiting unit 110 also be can be set in connection component 100；Position-limiting unit 110 can be to set The limit hole being placed in shell or connection component.In addition it is also possible to clamping drive rod 323 be omitted, at this point, four-bar mechanism is direct It is detachably connected with driving assembly 200.Alternatively, also can be omitted position-limiting unit.

Driving assembly 200 can drive clamping driving assembly 320 in several ways.As shown in figure 9, driving assembly 200 wraps Clamping portion 230 and drive rod 220 are included, clamping drive rod 323 and clamping portion 230 are clamped, and drive rod 220 and clamping portion 230 connect It connects, driving clamping portion moves along a straight line.Specifically, clamping the end that drive rod 323 is connect with driving assembly 200 in the present embodiment Portion has cambered surface.For example, the end of clamping drive rod 323 is spherical.Clamping portion includes two clamping units, two clamping units Interval setting, and card slot is cooperatively formed, the end of card slot and clamping drive rod 323 matches, with the end with clamping drive rod 323 Portion's grafting.In other embodiments, clamping unit may be multiple, and cooperatively form card slot, and for example, three, four etc..

As shown in figure 11, clamping driving assembly 320 further includes the rotation section 324 connecting with clamping drive rod 323, for leading to Rotate driving clamping drive rod 323 is crossed to move along a straight line.In the present embodiment, rotation section 324 detachably connects with driving assembly 200 It connects.Specifically, rotation section 324 includes runner and the connecting rod being set on runner, is fixed with and turns on the inner wall of connection component 100 The runner of moving axis, rotation section 324 is rotatably dispose in rotation axis, and connecting rod and clamping drive rod 323 are hinged, wherein can both enable Clamping drive rod 323 is connect with link detachable, runner can also be enabled to be detachably connected with rotation axis.In the present embodiment, driving Component 200 has driving silk, for driving runner to rotate.In other embodiments, 220 drivings can also be driven to turn by drive rod Wheel rotation, embodiment as shown in Figure 8 are no longer repeated herein.It should be noted that rotation section may be the machines such as cam mechanism Structure clamps drive rod 323 by rotate driving and moves along a straight line.

It is respectively the partial structural diagram of different embodiments of the invention also referring to Figure 12, Figure 13.

In one embodiment, motion arm 30 includes: connection component 100, driving assembly 200 and end instrument 300.End instrument 300 include two clamping parts and clamping driving assembly 320, and clamping part 310 is relatively rotatable, the clamping driving folder of driving assembly 320 Portion's rotation is held, and is detachably connected with driving assembly 200.Wherein, driver slot 304 is offered on clamping part or driving assembly, with The cooperation clamping of clamping part 310 is driven by driver slot 313.

In embodiment as shown in figure 12, driver slot 313 is equipped on two clamping parts 310, clamping driving assembly 320 is simultaneously Two driver slots 313 are worn, are moved with two clamping parts 310 of driving.Specifically, two driver slots 313 are connected, and have and are overlapped Region, the same area for clamping driving assembly 320 wear two driver slots 313 simultaneously, so that clamping driving assembly 320 is along straight line When movement, clamping part 310 is driven to move by driver slot 313.

In the present embodiment, driving assembly includes four-bar mechanism and clamping drive rod, a rotation axis 303 in four-bar mechanism Opposite 100 position of connection component is constant, i.e., it is fixed or is rotatably dispose on connection component, does not connect with the rotation axis 303 Two connecting rods are connected with two clamping parts 310 respectively, and clamping drive rod 323 wears driver slot and moves, to pass through driver slot 304 two clamping parts of driving.Wherein, rotation axis 303 and the interval of driver slot 313 are arranged, so that the clamping for wearing driver slot 313 is driven Dynamic component 320 will not generate interference with rotation axis 303 in driving.In other embodiments, the drive on clamping part also can be omitted Dynamic slot connects offer driver slot on the connecting rod of two clamping parts at this time.In one embodiment, two clamping parts can also be with rotation The connecting rod that axis 303 connects is connected, i.e., the rotation axis 303 fixed with position is connect, at this point, the setting driving of other two connecting rod Slot, and driven by clamping drive rod 323.It should be noted that clamping part can also be removable installed in clamping driving group On part, no longer repeat herein.

In other embodiments, two driver slots 313 can also be spaced setting, at this point, rotation axis 303 connects two clamping parts 310, driver slot is equipped on each clamping part 310, clamping driving assembly 320 wears two driver slots 313 respectively, to drive two A clamping part 310.In embodiment as shown in figure 13, clamping driving assembly 320 includes clamping drive rod 323, clamps drive rod 323 End tool there are two connection unit, two connection units are mobile with drive rod, and wear two driver slots 313 respectively.This In embodiment, two connection units are moved synchronously, and in other embodiments, multiple connection units asynchronous can also be moved.Other In embodiment, clamping driving assembly 320 also can have two clamping drive rods 323, wear two driver slots 313 respectively, into And respectively drive two clamping parts 310.The other end of two clamping drive rods 323 can both be connected to each other, can also be disconnected Setting, when disconnected setting, two connecting rods can both have been moved synchronously or asynchronous moved.Alternatively, clamping driving assembly Including two connecting rods connected by rotation axis 303, two connecting rods offer driver slot, and clamping part is respectively arranged at two companies On bar, and with two link rotatables, clamping part can be both fixedly installed on connecting rod at this time, can also the company of being removable installed in On bar.

It should be noted that identical as previous embodiment, other are applied in example, and two clamping parts 310 can also be pressed from both sides with only one It is movable with respect to shell 330 to hold portion 310, at this time, it is only necessary to driver slot 313 be accordingly set i.e. on needing the clamping part 310 moved It can.Clamp assemblies, driving clamp assemblies, 330 dependency structure of shell can be identical as previous embodiment, no longer repeat herein.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of motion arm characterized by comprising

Connection component；

Driving assembly；

End instrument is connected with the connection component, including two clamping parts and clamping driving assembly, at least one clamping Portion is removable installed on the clamping driving assembly, and is driven by the clamping driving assembly, so that two folders Hold portion's cooperation clamping.

2. motion arm according to claim 1, which is characterized in that the clamping part has terminal pad, the clamping driving Component has drive disk, and the terminal pad is detachably connected with the drive disk, and drives the drive disk rotation.

3. motion arm according to claim 2, which is characterized in that the drive disk be two, respectively with two companies Disk is connect to be connected.

4. motion arm according to claim 3, which is characterized in that two drive disks are respectively positioned on two terminal pads Between.

5. motion arm according to claim 4, which is characterized in that two terminal pads fasten, to form accommodating chamber, institute Drive disk is stated to be located in the accommodating chamber.

6. motion arm according to claim 3, which is characterized in that two terminal pads be located at two drive disks it Between.

7. motion arm according to claim 3, which is characterized in that the first drive disk is fixedly installed on the connection component On, the relatively described connection component of the clamping part of connection is static, and relatively described first drive disk of the second drive disk can be rotated, So that two clamping part cooperation clampings.

8. motion arm according to claim 7, which is characterized in that second drive disk is rotatably dispose in the connection group On part, or it is rotatably dispose on first drive disk.

9. motion arm according to claim 3, which is characterized in that the relatively described connection component of two drive disks can Rotation, so that two clamping part cooperation clampings.

10. motion arm according to claim 2, which is characterized in that the drive disk is detachably set to the connection group On part.