CN206663270U - The built-in driving of multi-joint becomes grip time-delayed adaptive robot finger apparatus - Google Patents

Abstract

The built-in driving of multi-joint becomes grip time-delayed adaptive robot finger apparatus, belong to robot technical field, including pedestal, the first segment, the second segment, the 3rd segment, nearly joint shaft, middle joint shaft, remote joint shaft, two motors, two decelerators, 12 gears, six spring parts, four driving levers and four projections.The arrangement achieves the built-in change grip grip of driving with gripping compound self-adapting grasping function.Motor is placed in the middle part of finger by the device, reduce susceptor space to take, can have when capturing object and self-adapting grasping effect is obtained to different shape size objects, control is simple, without complicated sensing and control system, and it is high to act anthropomorphic degree, being capable of grip wisp, weight and big object can also be gripped, grasping force is variable.

Description

The built-in driving of multi-joint becomes grip time-delayed adaptive robot finger apparatus

Technical field

The utility model belongs to robot technical field, and the built-in driving of more particularly to a kind of multi-joint becomes grip delay certainly Adapt to the structure design of robot finger apparatus.

Background technology

Adaptive under-actuated robot hand drives multiple degree-of-freedom joints using a small amount of motor, because number of motors is few, hides Bigger power and volume can be selected by entering the motor of palm, be contributed big, while the reponse system of Purely mechanical is without to environment Sensitivity can also realize stable crawl, the automatic object for adapting to different shape size, without real-time sensing and closed loop feedback control Demand, control it is simple and convenient, reduce manufacturing cost.

Mainly there are two kinds of grasping means when capturing object, one kind is grip, and one kind is to grip.Grip is to use end finger Tip portion go grip object, using two points or two soft finger faces go contact object, mainly for small-size object or tool There is the larger object of opposite；Gripping is to realize the contact of multiple points around object with multiple segment enveloping rings of finger, is reached More stable shape envelope crawl.Traditional pure adaptive under-actuated finger can be held by the way of adaptive envelope object Hold, but end grip crawl can not be implemented.

Utility model content

The purpose of this utility model is to overcome the weak point of prior art, there is provided a kind of built-in driving of multi-joint becomes Grip time-delayed adaptive robot finger apparatus.Motor is placed in the middle part of finger by the device, is reduced susceptor space and is taken, crawl Can have during object and different shape size objects are obtained with self-adapting grasping effect, control is simple, sensing and control without complexity System processed, and it is high to act anthropomorphic degree, can grip wisp, weight and big object can also be gripped, grasping force is variable.

The technical solution of the utility model is as follows：

A kind of built-in driving of multi-joint of the utility model design becomes grip time-delayed adaptive robot finger apparatus, and it is special Sign is：Including in pedestal, the first segment, the second segment, the 3rd segment, nearly joint shaft, middle joint shaft, remote joint shaft, first Countershaft, the second jackshaft, the 3rd jackshaft, the 4th jackshaft, the first motor, the second motor, the first decelerator, second are slowed down Device, first gear, second gear, the 3rd gear, the 4th gear, the 5th gear, the 6th gear, the 7th gear, eighth gear, Nine gears, the tenth gear, the 11st gear, the 12nd gear, the first spring part, the second spring part, the 3rd spring part, the 4th spring part, It is five spring parts, the 6th spring part, the first driving lever, the second driving lever, the 3rd driving lever, the 4th driving lever, the first projection, the second projection, the 3rd convex Block and the 4th projection；The nearly joint shaft is movably set in pedestal；First segment is actively socketed on nearly joint shaft；Institute Joint shaft is stated to be movably set in the first segment；Second segment is actively socketed on middle joint shaft；The remote joint shaft It is set in the second segment；3rd segment is socketed on remote joint shaft；First jackshaft, the second jackshaft cover respectively It is located in the first segment, the 3rd jackshaft, the 4th jackshaft are respectively sleeved in the second segment；First motor is set In the first segment, first motor and the first segment are affixed, and the output shaft of first motor is defeated with the first decelerator Enter axle to be connected, the first gear is fixed on the output shaft of the first decelerator, and the first gear engages with second gear, institute State second gear to be actively socketed on nearly joint shaft, the both ends of the first spring part connect second gear and pedestal respectively, described First driving lever and first gear are affixed, and second driving lever and the 4th gear are affixed, and first driving lever is expert at the second driving lever Movable contact in the range of journey, first driving lever are contacted or stood away with the second driving lever, the 3rd gear movable sleeve It is connected on nearly joint shaft, the 3rd gear is engaged with the 4th gear, and the 4th gear is actively socketed on the first jackshaft, 4th gear is engaged with the 5th gear, and the 5th gear is actively socketed on the second jackshaft, the 5th gear with 6th gear is engaged, and the 6th gear is actively socketed on middle joint shaft, and the both ends of the 5th spring part connect the 6th respectively Gear and the second segment, first projection and pedestal are affixed, and second projection and the 3rd gear are affixed, first projection With the second projection in the range of stroke movable contact, first projection and the second bump contact or stand away；It is described Second motor is arranged in the second segment, and second motor and the second segment are affixed, the output shaft of second motor and The input shaft of two decelerators is connected, and the 7th gear is fixed on the output shaft of the second decelerator, the 7th gear and Octadentate wheel is engaged, and the eighth gear is actively socketed on middle joint shaft, and the both ends of the 3rd spring part connect octadentate respectively Wheel and the first segment, the 3rd driving lever and the 7th gear are affixed, and the 4th driving lever and the 5th gear are affixed, described 3rd group Bar and the 4th driving lever movable contact in the range of stroke, the 3rd driving lever contact or stood away with the 4th driving lever, institute State the 9th gear to be actively socketed on middle joint shaft, the 9th gear engages with the tenth gear, the tenth gear movable sleeve It is connected on the 3rd jackshaft, the tenth gear is engaged with the 11st gear, and the 11st gear is actively socketed in the 4th On countershaft, the 11st gear is engaged with the 12nd gear, and the 12nd gear is actively socketed on remote joint shaft, described The both ends of 6th spring part connect the 12nd gear and the 3rd segment respectively, and the 3rd projection and the first segment are affixed, and described Four projections and the 9th gear are affixed, the 3rd projection and the 4th projection movable contact in the range of stroke, the 3rd projection With the 4th bump contact or standing away；The both ends of the second spring part connect pedestal and the 3rd gear respectively, and described Two spring parts make the second projection be close to the first projection；The both ends of the 4th spring part connect the first segment and the 9th gear respectively, institute Stating the 4th spring part makes the 4th projection be close to the 3rd projection；The first gear is equal with the modulus of second gear, the 7th tooth Wheel is equal with the modulus of eighth gear, and the 3rd gear, the 4th gear, the 5th gear are equal with the modulus of the 6th gear, institute It is equal with the modulus of the 12nd gear to state the 9th gear, the tenth gear, the 11st gear；The first gear, second gear Modulus is equal；The output shaft of first jackshaft and the first decelerator is coaxial, the 3rd jackshaft and the second decelerator Output shaft is coaxial.

The built-in driving of multi-joint described in the utility model becomes grip time-delayed adaptive robot finger apparatus, and its feature exists In：The number of teeth of 3rd gear is equal with the number of teeth of the 6th gear, the number of teeth and the number of teeth phase of the 12nd gear of the 9th gear Deng.

The built-in driving of multi-joint described in the utility model becomes grip time-delayed adaptive robot finger apparatus, and its feature exists In：The first spring part, the 3rd spring part, the 5th spring part, the 6th spring part use torsion spring；Second spring part, the 4th spring part use Extension spring.

The utility model compared with prior art, has advantages below and high-lighting effect：

The utility model device is realized using motor, gear combination, multiple spring parts, delay driving lever and projection constraint etc. are comprehensive The built-in change grip grip of driving is with gripping compound self-adapting grasping function.Motor is placed in the middle part of finger by the device, is subtracted Small base space hold, can have when capturing object and different shape size objects are obtained with self-adapting grasping effect, control is simple, Without complicated sensing and control system, and it is high to act anthropomorphic degree, can grip wisp, weight and big can also be gripped Object, grasping force are variable.

Brief description of the drawings

Fig. 1 is that the built-in driving of multi-joint of the utility model design becomes the one of grip time-delayed adaptive robot finger apparatus The front section view of kind embodiment.

Fig. 2 is the front view of embodiment illustrated in fig. 1.

Fig. 3 is the side view (Fig. 2 left side view) of embodiment illustrated in fig. 1.

Fig. 4 is the location diagram of part in embodiment illustrated in fig. 1.

Fig. 5 is the location diagram of part in embodiment illustrated in fig. 1.

Fig. 6 be embodiment illustrated in fig. 1 in original state, the relative position of first gear, the first driving lever and the second driving lever Figure.

Fig. 7 be embodiment illustrated in fig. 1 in original state, the relative position of the 7th gear, the 3rd driving lever and the 4th driving lever Figure.

Fig. 8 is the schematic diagram that embodiment illustrated in fig. 1 first driving lever during crawl contacts the second driving lever.

Fig. 9 is the signal that embodiment illustrated in fig. 1 second driving lever of the first driving lever promotion during crawl turns over an angle Figure.

Figure 10 is the schematic diagram that embodiment illustrated in fig. 1 the 3rd driving lever during crawl contacts the 4th driving lever.

Figure 11 is the signal that embodiment illustrated in fig. 1 the 4th driving lever of the 3rd driving lever promotion during crawl turns over an angle Figure.

When Figure 12 to Figure 13 is embodiment illustrated in fig. 1 crawl object, the 3rd segment first contacts the situation of object.

When Figure 14 to Figure 16 is embodiment illustrated in fig. 1 crawl object, the first segment, the second segment contact prior to the 3rd segment The situation of object.

When Figure 17 to Figure 20 is embodiment illustrated in fig. 1 crawl object, the first segment, the second segment and the 3rd segment connect successively Touch the situation of object.

In Fig. 1 into Figure 20：

1- pedestals, the segments of 21- first, the segments of 22- second, the segments of 23- the 3rd,

The nearly joint shafts of 31-, joint shaft in 32-, the remote joint shafts of 33-, the jackshafts of 341- first,

The jackshafts of 342- second, the jackshafts of 343- the 3rd, the jackshafts of 344- the 4th, the motors of 41- first,

The motors of 42- second, the decelerators of 411- first, the decelerators of 421- second, 51- first gears,

52- second gears, the gears of 53- the 3rd, the gears of 54- the 4th, the gears of 55- the 5th,

The gears of 56- the 6th, the gears of 57- the 7th, 58- eighth gears, the gears of 59- the 9th,

The gears of 60- the tenth, the gears of 61- the 11st, the gears of 62- the 12nd, 71- the first spring parts,

72- the second spring parts, the spring parts of 73- the 3rd, the spring parts of 74- the 4th, the spring parts of 75- the 5th,

The spring parts of 76- the 6th, the driving levers of 81- first, the driving levers of 82- second, the driving levers of 83- the 3rd,

The driving levers of 84- the 4th, the projections of 91- first, the projections of 92- second, the projections of 93- the 3rd,

The projections of 94- the 4th, 99- objects.

Embodiment

Below in conjunction with the accompanying drawings and embodiment be described in further detail concrete structure of the present utility model, operation principle it is interior Hold.

One kind that the built-in driving of multi-joint of the utility model design becomes grip time-delayed adaptive robot finger apparatus is real Apply example, as shown in Figures 1 to 7, including pedestal 1, the first segment 21, the second segment 22, the 3rd segment 23, nearly joint shaft 31, in Joint shaft 32, remote joint shaft 33, the first jackshaft 341, the second jackshaft 342, the 3rd jackshaft 343, the 4th jackshaft 344, First motor 41, the second motor 42, the first decelerator 411, the second decelerator 421, first gear 51, second gear the 52, the 3rd Gear 53, the 4th gear 54, the 5th gear 55, the 6th gear 56, the 7th gear 57, eighth gear 58, the 9th gear the 59, the tenth Gear 60, the 11st gear 61, the 12nd gear 62, the first spring part 71, the second spring part 72, the 3rd spring part 73, the 4th spring part 74, 5th spring part 75, the 6th spring part 76, the first driving lever 81, the second driving lever 82, the 3rd driving lever 83, the 4th driving lever 84, the first projection 91, Second projection 92, the 3rd projection 93 and the 4th projection 94；The nearly joint shaft 31 is movably set in pedestal 1；Described first refers to Section 21 is actively socketed on nearly joint shaft 31；The middle joint shaft 32 is movably set in the first segment 21；Second segment 22 are actively socketed on middle joint shaft 32；The remote joint shaft 33 is set in the second segment 23；3rd segment 24 is socketed On remote joint shaft 33；First jackshaft 341, the second jackshaft 342 are respectively sleeved in the first segment 21, and the described 3rd Jackshaft 343, the 4th jackshaft 344 are respectively sleeved in the second segment 22；First motor 41 is arranged on the first segment 21 In, first motor 41 and the first segment 21 are affixed, the input of the output shaft of first motor 41 and the first decelerator 411 Axle is connected, and the first gear 51 is fixed on the output shaft of the first decelerator 411, the first gear 51 and second gear 52 Engagement, the second gear 52 are actively socketed on nearly joint shaft 31, and the both ends of the first spring part 71 connect the second tooth respectively Wheel 52 and pedestal 1, first driving lever 81 and first gear 51 are affixed, and second driving lever 82 and the 4th gear 54 are affixed, institute State the first driving lever 81 and the second movable contact in the range of stroke of driving lever 82, first driving lever 81 contacted with the second driving lever 82 or Stand away, the 3rd gear 53 is actively socketed on nearly joint shaft 31, the 3rd gear 53 and the 4th gear 54 Engagement, the 4th gear 54 are actively socketed on the first jackshaft 341, and the 4th gear 54 engages with the 5th gear 55, 5th gear 55 is actively socketed on the second jackshaft 342, and the 5th gear 55 engages with the 6th gear 56, and described Six gears 56 are actively socketed on middle joint shaft 32, and the both ends of the 5th spring part 75 connect the 6th gear 56 and second and referred to respectively Section 22, first projection 92 and pedestal 1 are affixed, and second projection 92 and the 3rd gear 53 are affixed, first projection 91 With the second movable contact in the range of stroke of projection 92, first projection 91 and the second projection 92 contact or leave one section away from From；Second motor 42 is arranged in the second segment 22, and second motor 42 and the second segment 22 are affixed, second electricity The output shaft of machine 42 is connected with the input shaft of the second decelerator 421, and the 7th gear 57 is fixed in the defeated of the second decelerator 421 On shaft, the 7th gear 57 is engaged with eighth gear 58, and the eighth gear 58 is actively socketed on middle joint shaft 32, institute The both ends for stating the 3rd spring part 73 connect the segment 21 of eighth gear 58 and first respectively, and the 3rd driving lever 83 and the 7th gear 57 are solid Connect, the 4th driving lever 84 and the 5th gear 55 are affixed, and the 3rd driving lever 83 and the 4th driving lever 84 are movable in the range of stroke Contact, the 3rd driving lever 83 contacts or stood away with the 4th driving lever 84, during the 9th gear 59 is actively socketed on On joint shaft 32, the 9th gear 59 engages with the tenth gear 60, and the tenth gear 60 is actively socketed on the 3rd jackshaft On 343, the tenth gear 60 engages with the 11st gear 61, and the 11st gear 61 is actively socketed on the 4th jackshaft On 344, the 11st gear 61 engages with the 12nd gear 62, and the 12nd gear 62 is actively socketed on remote joint shaft 33 On, the both ends of the 6th spring part 76 connect the 12nd gear 62 and the 3rd segment 23, the 3rd projection 93 and first respectively Segment 21 is affixed, and the 4th projection 94 and the 9th gear 59 are affixed, and the 3rd projection 93 and the 4th projection 94 are in stroke model Interior movable contact is enclosed, the 3rd projection 93 contacts or stood away with the 4th projection 94；The two of the second spring part 72 End connects the gear 53 of pedestal 1 and the 3rd respectively, and the second spring part 72 makes the second projection 92 be close to the first projection 91；Described 4th The both ends of spring part 74 connect the first segment 21 and the 9th gear 59 respectively, and the 4th spring part 74 makes the 4th projection 94 be close to the 3rd Projection 93；The first gear 51 is equal with the modulus of second gear 52, the 7th gear 57 and the modulus of eighth gear 58 Equal, the 3rd gear 53, the 4th gear 54, the 5th gear 55 are equal with the modulus of the 6th gear 56, the 9th gear 59th, the tenth gear 60, the 11st gear 61 are equal with the modulus of the 12nd gear 62；The first gear 51, second gear 52 Modulus it is equal；The output shaft of first jackshaft 341 and the first decelerator 411 is coaxial, the 3rd jackshaft 343 and The output shaft of two decelerators 421 is coaxial.

In the present embodiment, the number of teeth of the 3rd gear 53 is equal with the number of teeth of the 6th gear 56, the tooth of the 9th gear 59 Number is equal with the number of teeth of the 12nd gear 62.

In the present embodiment, the first spring part 71, the 3rd spring part 73, the 5th spring part 75, the 6th spring part 76 use torsion spring； Second spring part 72, the 4th spring part 74 use extension spring.

The operation principle of the present embodiment, is described below with reference to accompanying drawing：

The device original state as shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, now, the second spring part 72 makes second Projection 92 abuts the first projection 91 (as shown in Figure 4), and the 4th spring part 74 makes the 4th projection 94 against the 3rd projection 93 (such as Fig. 5 institutes Show), one section of angular distance (as shown in Figure 6), the 3rd driving lever 83 and the 4th driving lever 84 be present in the first driving lever 81 and the second driving lever 82 In the presence of one section of angular distance (as shown in Figure 7).

First motor 41 rotates, and drives first gear 51 by the first decelerator 411, second gear 52 is driven, due to base Seat 1 is motionless, so second gear 52 can drive the first segment 21 to be rotated around nearly joint shaft 31 by the first spring part 71, (i.e. first refers to Section 21 is close to object 99 and rotated), because the second spring part 72 makes the second projection 92 abut the first projection 91, so when the 3rd gear 53 Opposite base 1 is motionless, therefore the rotation of the first segment 21 can cause the 4th gear 54 to be rotated relative to the first segment 21, drives the 5th Gear 55, the 6th gear 56 is driven, drive the second segment 22 to rotate (i.e. the second segment around middle joint shaft 32 by the 5th spring part 75 22, which are close to object 99, rotates), now, and because the 4th spring part 74 makes the 4th projection 94 abut the 3rd projection 93, so the 9th tooth Wheel 59 is motionless relative to the first segment 21, therefore the rotation of the second segment 22 can cause the tenth gear 60 relative to the second segment 22 Rotate, drive the 11st gear 61, drive the 12nd gear 62, drive the 3rd segment 23 to go the long way round joint shaft by the 6th spring part 76 33 rotate (i.e. the 3rd segment 23 is close to object 99 and rotated), it is achieved thereby that the coupling linkage effect in three joints.

Now, it is likely encountered following different situation：

1) when the 3rd segment 23 contacts object 99, the first motor 41 more turns of low-angles again, the first spring part the 71, the 5th Spring part 75, the 6th spring part 76 deform, and the first spring part 71, the 5th spring part 75, the deformation elastic force of the 6th spring part 76 turn into crawl The grasping force source of object 99, crawl terminate, and this crawl process is as shown in Figure 12 and Figure 13；

2) when the first segment 21 contacts object 99, the first motor 41 is rotated further, and the first spring part 71 deforms, and first The idle running of the first driving lever 81 on gear 51 through (the i.e. first delay) after a while rotates the touched on the 4th gear 54 Two driving levers 82 (as shown in Figure 8), and the first driving lever 81 promotes the second driving lever 82 to rotate an angle (as shown in Figure 9), so as to Have rotated the 4th gear 54, drive the 5th gear 55, drive the 6th gear 56, by the 5th spring part 75 drive the second segment 22 around Middle joint shaft 32 rotates, and the 9th gear 59 is motionless relative to the first segment 21, and the tenth gear 60 rotates relative to the second segment 22, band Dynamic 11st gear 61, the 12nd gear 62 is driven, drive the 3rd segment 23 joint shaft 33 of going the long way round to rotate by the 6th spring part 76.

Now, it is likely encountered following different situation：

A) when the 3rd segment 23 contacts object 99, the first motor 41 more turns of low-angles again, the first spring part the 71, the 5th Spring part 75, the 6th spring part 76 deform, and the first spring part 71, the 5th spring part 75, the deformation elastic force of the 6th spring part 76 turn into crawl The grasping force source of object 99, crawl terminate；

B) when the second segment 22 contacts object 99, the second motor 42 is restarted, and the 7th is driven by the second decelerator 421 Gear 57, eighth gear 58 is driven, drive the second segment 22 to be rotated around middle joint shaft 32 by the 3rd spring part 73, the second segment 22 Object 99 is close to, the 9th gear 59 is motionless relative to the first segment 21, and the tenth gear 60 rotates relative to the second segment 22, drives 11st gear 61, the 12nd gear 62 is driven, drive the 3rd segment 23 to rotate by the 6th spring part 76.

Now, it is likely encountered following different situation：

I) when the 3rd segment 23 contacts object 99, the second motor 42 more turns of low-angles again, the 3rd spring part the 73, the 6th Spring part 76 deforms, and the deformation elastic force of the 3rd spring part 73 and the 6th spring part 76 turns into the grasping force source of crawl object, crawl Terminate, this crawl process is as shown in Figure 14, Figure 15 and Figure 16；

II) when the second segment 22 contacts object 99, the second motor 42 is rotated further, and is driven by the second decelerator 421 7th gear 57, idle running of the 3rd driving lever 83 through (the i.e. second delay) after a while on the 7th gear 57, which rotates, touches the The 4th driving lever 84 (as shown in Figure 10) on ten gears 60, and the 3rd driving lever 83 promotes the 4th driving lever 84 to have rotated an angle (as shown in figure 11), so as to have rotated the tenth gear 60, the 11st gear 61 is driven, the 12nd gear 62 is driven, passes through the 6th Spring part 76 drives the 3rd segment 23 to rotate, and until the 3rd segment 23 contacts object, crawl terminates, this crawl process such as Figure 17, Shown in Figure 18, Figure 19 and Figure 20.

The crawl is a kind of multiple joints while rotated, and can be good at adapting to simultaneously for different shape size objects, With adaptivity；When needing less grasp force, it is thus only necessary to the first motor 41 is started, when the grasp force that needs are larger When, after some segment (referring to the first segment 21, the second segment 22 or the 3rd segment 23) contacts object, the first motor 41 continues The a bit of time is rotated, the first spring part 71, the 3rd spring part 73, the 5th spring part 75 and the 6th spring (can be referred to by different spring parts Part 76) changeable grasping force is realized, when needing king-sized grasp force, the second motor 42 can also be started and carry out collaboration crawl, this When grasp force provided jointly by the first motor 41, the second motor 42, grasp force increase it is more.First motor 41 can bring three Individual joint (nearly joint, middle joint and remote joint) first couples the compound grasp mode of then adaptive coupling adaptive, and second What motor 42 can bring two joints (middle joint and remote joint) first couples the compound crawl of then adaptive coupling adaptive Pattern.

When the self-adapting grasping in central joint occurs, the first segment 21 contact object 99 and stopped by object 99 it is motionless, When first driving lever 81 promotes the rotation of the second driving lever 82, the 4th gear 54 rotates, and the opposite base 1 of the 3rd gear 53 rotates, the second spring Part 72 deforms；When the self-adapting grasping in remote joint occurs, the second segment 22 contacts object 99 and stopped by object 99 Motionless, when the 3rd driving lever 83 promotes the rotation of the 4th driving lever 84, the tenth gear 60 rotates, 59 relative 21 turns of first segment of the 9th gear Dynamic, the 4th spring part 74 deforms.

When the present embodiment discharges object 99, the second motor 42 inverts, and the first motor 41 inverts, subsequent process and said process On the contrary, repeat no more.

The utility model device is realized using motor, gear combination, multiple spring parts, delay driving lever and projection constraint etc. are comprehensive The built-in change grip grip of driving is with gripping compound self-adapting grasping function.Motor is placed in the middle part of finger by the device, is subtracted Small base space hold, can have when capturing object and different shape size objects are obtained with self-adapting grasping effect, control is simple, Without complicated sensing and control system, and it is high to act anthropomorphic degree, can grip wisp, weight and big can also be gripped Object, grasping force are variable.

Claims (3)

1. a kind of built-in driving of multi-joint becomes grip time-delayed adaptive robot finger apparatus, it is characterised in that：Including pedestal, One segment, the second segment, the 3rd segment, nearly joint shaft, middle joint shaft, remote joint shaft, the first jackshaft, the second jackshaft, Three jackshafts, the 4th jackshaft, the first motor, the second motor, the first decelerator, the second decelerator, first gear, the second tooth Wheel, the 3rd gear, the 4th gear, the 5th gear, the 6th gear, the 7th gear, eighth gear, the 9th gear, the tenth gear, 11 gears, the 12nd gear, the first spring part, the second spring part, the 3rd spring part, the 4th spring part, the 5th spring part, the 6th spring part, One driving lever, the second driving lever, the 3rd driving lever, the 4th driving lever, the first projection, the second projection, the 3rd projection and the 4th projection；It is described near Joint shaft is movably set in pedestal；First segment is actively socketed on nearly joint shaft；The middle joint shaft is slidingly connected In the first segment；Second segment is actively socketed on middle joint shaft；The remote joint shaft is set in the second segment；Institute The 3rd segment is stated to be socketed on remote joint shaft；First jackshaft, the second jackshaft are respectively sleeved in the first segment, described 3rd jackshaft, the 4th jackshaft are respectively sleeved in the second segment；First motor is arranged in the first segment, and described One motor and the first segment are affixed, and the output shaft of first motor is connected with the input shaft of the first decelerator, first tooth Wheel is fixed on the output shaft of the first decelerator, and the first gear engages with second gear, the second gear pivot bush unit On nearly joint shaft, the both ends of the first spring part connect second gear and pedestal, first driving lever and first gear respectively Affixed, second driving lever and the 4th gear are affixed, the first driving lever and the second driving lever movable contact in the range of stroke, institute State the first driving lever to contact or stand away with the second driving lever, the 3rd gear is actively socketed on nearly joint shaft, described 3rd gear is engaged with the 4th gear, and the 4th gear is actively socketed on the first jackshaft, the 4th gear and the 5th Gear is engaged, and the 5th gear is actively socketed on the second jackshaft, and the 5th gear engages with the 6th gear, and described the Six gears are actively socketed on middle joint shaft, and the both ends of the 5th spring part connect the 6th gear and the second segment respectively, described First projection and pedestal are affixed, and second projection and the 3rd gear are affixed, and first projection and the second projection are in stroke model Enclose interior movable contact, first projection and the second bump contact or stand away；Second motor is arranged on second In segment, second motor and the second segment are affixed, the output shaft of second motor and the input shaft phase of the second decelerator Even, the 7th gear is fixed on the output shaft of the second decelerator, and the 7th gear engages with eighth gear, and the described 8th Gear is actively socketed on middle joint shaft, and the both ends of the 3rd spring part connect eighth gear and the first segment respectively, and described Three driving levers and the 7th gear are affixed, and the 4th driving lever and the 5th gear are affixed, and the 3rd driving lever and the 4th driving lever are in stroke In the range of movable contact, the 3rd driving lever contacts or stands away with the 4th driving lever, the 9th gear pivot bush unit On middle joint shaft, the 9th gear is engaged with the tenth gear, and the tenth gear is actively socketed on the 3rd jackshaft, institute State the tenth gear to engage with the 11st gear, the 11st gear is actively socketed on the 4th jackshaft, the 11st tooth Wheel is engaged with the 12nd gear, and the 12nd gear is actively socketed on remote joint shaft, the both ends difference of the 6th spring part The 12nd gear and the 3rd segment are connected, the 3rd projection and the first segment are affixed, and the 4th projection is consolidated with the 9th gear Connect, the 3rd projection and the 4th projection movable contact in the range of stroke, the 3rd projection and the 4th bump contact or from Open a segment distance；The both ends of the second spring part connect pedestal and the 3rd gear respectively, and the second spring part leans on the second projection To the first projection；The both ends of the 4th spring part connect the first segment and the 9th gear respectively, and the 4th spring part makes the 4th convex Block is close to the 3rd projection；The first gear is equal with the modulus of second gear, the modulus of the 7th gear and eighth gear Equal, the 3rd gear, the 4th gear, the 5th gear are equal with the modulus of the 6th gear, the 9th gear, the tenth tooth Wheel, the 11st gear are equal with the modulus of the 12nd gear；The first gear, the modulus of second gear are equal；Described first The output shaft of jackshaft and the first decelerator is coaxial, and the output shaft of the 3rd jackshaft and the second decelerator is coaxial.

2. the built-in driving of multi-joint as claimed in claim 1 becomes grip time-delayed adaptive robot finger apparatus, its feature exists In：The number of teeth of 3rd gear is equal with the number of teeth of the 6th gear, the number of teeth and the number of teeth phase of the 12nd gear of the 9th gear Deng.

3. the built-in driving of multi-joint as claimed in claim 1 becomes grip time-delayed adaptive robot finger apparatus, its feature exists In：The first spring part, the 3rd spring part, the 5th spring part, the 6th spring part use torsion spring；Second spring part, the 4th spring part use Extension spring.