CN213005352U - Novel humanoid dexterous hand - Google Patents

Abstract

The utility model provides a novel humanoid dexterous hand for overcoming the technical problems that the dexterous hand in the prior art has low dexterous performance and the interference between the tendon rope and the internal structure of the finger is easy to occur due to the low number of degrees of freedom, which comprises a palm and a plurality of finger-based joints, wherein the finger-based joints comprise swing joints and bending joint groups, each bending joint group comprises a plurality of bending joints which are hinged and connected, one end of each swing joint is connected with the palm, the other end of each swing joint is connected with each bending joint, the joint of two adjacent bending joints is provided with a roller skate, the finger-based joints are internally provided with the tendon bending rope, the replying tendon rope and the swing tendon rope, the swing joints are provided with first slotted holes, the bending tendon rope, the replying tendon rope and the swing tendon rope are connected with the palm after penetrating out of the first slotted holes, the palm is provided with constant force springs connected with the replying tendon rope, the constant force springs are, all be equipped with angle sensor on bending joint and the swing joint, be equipped with monitoring response module on the palm.

Description

Novel humanoid dexterous hand

Technical Field

The utility model relates to a bionic robot technical field especially relates to a novel dexterous hand of imitative people.

Background

Dexterous hands are end effectors of robots that can operate in unknown or hazardous environments in place of humans. Because the humanoid dexterous hand has a plurality of degrees of freedom, the flexibility of the humanoid dexterous hand is high, and the adaptability to the environment is strong, various human-like operations in unknown environments can be realized.

The dexterous hand at present has the problem that the degree of freedom is not high, the structure is loaded down with trivial details and the finger space is great. Firstly, the current dexterous hand is designed to reduce the control difficulty, and is often configured with less freedom, so that the dexterous property of the five-finger hand is greatly reduced, and the human-like simulation effect is poor; secondly, for the tendon transmission dexterous hand, in the process of controlling the tendon rope to realize the opening and the holding of the whole palm, the tendon rope is difficult to arrange in the fingers, so that the tendon rope is easy to interfere with the internal structures of the fingers, and the accuracy of the tendon rope for controlling the fingers is influenced; finally, when the elastic element is adopted to reset the finger base joint, the elastic element can occupy a certain finger space, so that the size of the human-simulated finger cannot reach the size of the human hand, and the design requirement of the current human-simulated hand design is not met.

At present, most of dexterous hands driven by tendon ropes and restored by springs are used, for example, patents such as CN106346500A, CN110076812A and CN106826885A use a single elastic element to restore a single joint, so that the dexterous hands occupy more finger space, and elastic materials are easy to be damaged by fatigue and are easy to deform irreversibly; although some dexterous hands have high position accuracy and flexibility, the finger internal structure has high accuracy and complexity, low integration degree and no universality, such as patents CN101100063A, CN101088721A, CN205238068U, CN204366983U and CN 109877868A.

Disclosure of Invention

The utility model discloses an it is lower to lead to its dexterous too few in the number of degrees of freedom of overcoming dexterous hand among the prior art, and tendon rope takes place easily to interfere with the inner structure of finger among the dexterous hand action process of tendon transmission to and when adopting elastic element to carry out finger base joint's the resetting, elastic element can occupy certain finger space, unsatisfied the technical problem of the design demand of imitating the design of people's hand at present, provide a novel dexterous hand of imitative people, dexterous hand can realize the simplification of five fingers dexterous hand structure effectively, and the reasonable line of walking of arranging the tendon rope in the finger is arranged, and palm inner space is big, and the finger motion can not receive too big restriction.

In order to achieve the above purpose, the present invention adopts the following technical solution.

The novel humanoid dexterous hand comprises a palm and a plurality of finger-based joints, wherein each finger-based joint comprises a swinging joint and a bending joint group, each bending joint group comprises a plurality of bending joints which are hinged and connected, one end of each swinging joint is connected with the palm, the other end of each swinging joint is connected with the corresponding bending joint, a pulley is arranged at the joint of each two adjacent bending joints, each finger-based joint is internally provided with a bending tendon rope, a restoring tendon rope and a swinging tendon rope, each swinging joint is provided with a first groove hole, each bending tendon rope, each restoring tendon rope and each swinging tendon rope penetrate out of the corresponding groove hole and then are connected with the palm, the palm is provided with a constant force spring connected with the corresponding restoring tendon rope, the constant force springs correspond to the finger-based joints one by one, each bending joint and each swinging joint is provided with an angle sensor, and the palm is provided with a.

The utility model provides a novel dexterous hand imitating people, be equipped with the tendon rope of buckling, reply tendon rope and swing tendon rope in the finger base joint, wherein, the figure of the tendon rope of buckling equals with the figure of the joint of buckling, the rotation of a tendon rope of buckling corresponds the articulated of buckling, every finger base joint all includes a swing joint, the swing joint is used for linking up the palm and buckles the joint group, the swing joint drives the synchronous lateral swing of the joint group of buckling under the control of the tendon rope of buckling, still be equipped with the tendon rope of replying in the finger base joint, the tendon rope of replying links to each other with the constant force spring on the palm, when no external force application on the tendon rope of buckling, the finger base joint is in the extension state under the cooperation of tendon rope of replying and constant force spring, thereby can realize the quick response to next action of dexterous hand; all be equipped with angle sensor on bending joint and the swing joint, be equipped with monitoring response module on the palm, bending joint and swing joint are at the action in-process, angle sensor carries out real-time supervision to its action angle, and transmit the data signal who monitors to monitoring response module, compare with the input control angle signal among the monitoring response module, when both are unanimous, explain bending joint and swing joint angle adjustment and put in place, dexterous hand reaches the gesture of predetermineeing, when both are inconsistent, monitoring response module output feedback signal to the dispatch module on the palm, the last pulling force of bending tendon rope and swing tendon rope is adjusted to dispatch module, thereby realize the control in place or the correction of rectifying of dexterous hand gesture. The utility model simulates the action process of human fingers by the cooperation of the bending tendon rope and the swinging tendon rope, can achieve good human-like simulation effect in the complex environment needing fine action, and realize more accurate position control; in addition, each bending joint corresponds to one degree of freedom, the swing joint corresponds to one degree of freedom, and the degree of freedom of the whole finger base joint is equal to the sum of the number of the bending joints and the number of the swing joints; furthermore, the utility model achieves the transmission effect of the tendon rope by using the structural characteristics, requires few elements, is simple and rapid to assemble and disassemble, and has high integration degree; finally, the utility model discloses a joint of well elastic element control is replied, adopts a tendon rope control whole root to point the base joint and replies, and the design of pointing the base joint adopts the modularization thought, and a plurality of finger base joints have the same structure, possess certain commonality.

Preferably, the bending joint is provided with a second slot hole for penetrating the bending tendon rope, the bending tendon rope is provided with a limiting rope knot with the diameter larger than that of the second slot hole, the limiting rope knot is positioned on one side, far away from the swinging joint, of the second slot hole, the bending joint is provided with a third slot hole penetrating along the length direction of the bending joint, and the bending tendon rope is wound along the pulley block circumference at one end, close to the swinging joint, of the bending joint and then penetrates out of the third slot hole. The utility model simulates the action process of human fingers by the cooperation of the bending tendon rope and the swinging tendon rope, can achieve good human-like simulation effect in the complex environment needing fine action, and realize more accurate position control; in addition, each bending joint corresponds to one degree of freedom, the swing joint corresponds to one degree of freedom, and the degree of freedom of the whole finger base joint is equal to the sum of the number of the bending joints and the number of the swing joints; finally, the utility model discloses utilize structural characteristics to reach tendon rope transmission effect, required component is not many, and the assembly is dismantled simply fast, and the integration degree is high.

Preferably, the number of the finger-based joints is five, the finger-based joints comprise thumbs obliquely arranged with the palm, a crossbar is arranged on the palm, the length direction of the crossbar is parallel to the length direction of the thumbs, constant force springs corresponding to the thumbs are installed on the crossbar, and an allowance space is arranged on one side of the crossbar, which is far away from the finger-based joints. The number of the finger base joints is five, so that the number of fingers of a human hand can be simulated; the arrangement of the thumb is different from that of the other four fingers, the thumb is laterally placed in the palm to realize a larger movement space range in the palm center, and due to the lateral placement of the thumb, an allowance space is formed on one side of the crossbar far away from the base joints of the fingers, so that enough contraction space is reserved for the constant force spring.

Preferably, the bending joint group comprises a proximal finger joint, a middle finger joint and a distal finger joint, the proximal finger joint, the middle finger joint and the distal finger joint are sequentially arranged towards the direction far away from the swing joint, the roller skate comprises a first roller skate, a second roller skate and a third roller skate, the first roller skate, the second roller skate and the third roller skate are sequentially arranged towards the direction far away from the swing joint, and the first roller skate is positioned between the proximal finger joint and the swing joint. According to the technical scheme, the bending joints and the roller skates are limited, the roller skates are matched with the bending tendon ropes to control the bending angles of the bending joints, the first roller skate corresponds to a proximal finger joint, the second roller skate corresponds to a middle finger joint, and the third roller skate corresponds to a distal finger joint; for the maximize ground simulation people hand structure, the utility model discloses in arranged three joint of buckling, simultaneously, for the motion control of simplifying finger base joint, the utility model discloses with the bending motion and the lateral swing action discrete control of finger base joint, the joint of buckling only realizes bending motion, and the swing joint only realizes the side pendulum action, can realize the complicated action simulation of human finger through the linkage of the joint of buckling and swing joint, realizes the action analog process that complicates promptly through the inner structure who simplifies, can cut down use cost when reducing the application threshold.

Preferably, the bending tendon rope comprises a first tendon rope, a second tendon rope and a third tendon rope, wherein the first tendon rope penetrates out along a second slot on the far finger joint, and penetrates out through a third slot and the first slot after being wound along the peripheral surface of a third pulley; the second tendon rope penetrates out along a second slotted hole on the middle finger joint, is wound along the circumferential surface of the second pulley and then penetrates out through the third slotted hole and the first slotted hole; the third tendon rope penetrates out along the second slotted hole on the proximal knuckle and penetrates out through the third slotted hole and the first slotted hole after being wound along the circumferential surface of the first pulley. The technical scheme limits the arrangement mode of the bending tendon ropes, the first tendon rope corresponds to a far finger joint, the second tendon rope corresponds to a middle finger joint, the third tendon rope corresponds to a near finger joint, bending actions corresponding to the bending tendon ropes can be realized by pulling the bending tendon ropes, the bending angle corresponding to the bending joints can be adjusted by adjusting the size of tension applied to the bending tendon ropes, and integral multi-posture adjustment of the finger base joint can be realized by adjusting the presence or absence of tension and the size of tension on the first tendon rope, the second tendon rope and the third tendon rope, so that finger posture requirements of different operating environments are met while the human-like finger simulation degree is improved.

Preferably, a handle is arranged at one end, away from the finger base joint, of the palm, a disc-shaped line concentration plate is sleeved on the handle, the line concentration plate and the palm are arranged at intervals, line concentration holes which are the same as the number of the bent tendon ropes and the number of the swinging tendon ropes are formed in the line concentration plate, and the line concentration holes are communicated in the thickness direction of the line concentration plate. The number of the bent tendon ropes, the number of the swinging tendon ropes and the number of the line collecting holes are consistent, after the wiring of the bent tendon ropes and the swinging tendon ropes in the finger base joint is completed, one tendon rope correspondingly penetrates through one line collecting hole, the line collecting holes effectively limit the tendon ropes, the phenomenon that the plurality of tendon ropes are wound in the action process of the dexterous hand is avoided, and therefore the quick response is achieved while the normal work of the dexterous hand is guaranteed.

Preferably, the swing joint comprises a metacarpophalangeal joint and a connecting piece connected with the palm, the metacarpophalangeal joint comprises a body and a swing piece positioned at one end of the body close to the connecting piece, an articulated shaft is arranged between the swing piece and the connecting piece, and the axial direction of the articulated shaft is vertical to the axial direction of the roller skate. The bending joint bends towards the palm, and the axial direction of the articulated shaft is mutually vertical to the axial direction of the roller skate, so that the metacarpophalangeal joint can realize lateral swing under the control of the swing tendon rope.

Preferably, a fourth slot is formed in the far finger joint, a stop knot with the diameter larger than that of the fourth slot is arranged on the restoring tendon rope, the stop knot is located on one side, away from the swing joint, of the fourth slot, and the restoring tendon rope penetrates through the second slot and the third slot after being wound in the circumferential direction of the third roller. The stop knot is used for limiting the resetting tendon rope and preventing the resetting tendon rope from being separated from the far finger joint.

Preferably, a first limiting part is arranged between two adjacent bending joints, a second limiting part is arranged between the bending joints and the swing joint, the bending joints comprise a finger ventral side and a finger dorsal side along the thickness direction of the bending joints, and the first limiting part and the second limiting part which are positioned on the finger dorsal side are used for limiting the rotation angle of the bending joints. When the first limiting piece and the second limiting piece are not available, the finger base joint of the humanoid dexterous hand provided with the finger base joint is easy to bend and deviate towards the back side of a finger under the action of load of a weight when the weight is lifted, although the reverse bending phenomenon of the finger base joint cannot occur under the pulling of the bent tendon rope, the lifting action of the dexterous hand is extremely unsmooth, the finger base joint can be maintained in a lifting state only by applying larger pulling force on the bent tendon rope, and the practical application and production are extremely inconvenient; for overcoming this technical problem, the utility model discloses lay first locating part between adjacent two joints of buckling, lay the second locating part between the joint of buckling and swing joint, first locating part and second locating part all are located the finger dorsal part of finger base joint, when clever hand lifts the action, first locating part and the cooperation of second locating part form effective spacing support to finger base joint, avoid the emergence of the reverse phenomenon of buckling of finger base joint, reduce the pulling force of applying on the tendon rope of buckling when promoting class people's finger analog degree, thereby promote the use durability of the tendon rope of buckling.

Preferably, the palm comprises a palm center part and a palm back part which are detachably connected, the constant force spring is installed on one side of the palm center part far away from the palm back part through a constant force spring fixing part, and the allowance space is located on the end face of the palm center part far away from the palm back part. The hand core part and the hand back part are detachably connected in various ways, and the hand core part and the hand back part are fastened by matching bolts and nuts; owing to adopt the design of class people's hand, the arrangement of thumb is different with the arrangement of all the other four fingers, the utility model discloses arrange the allowance space on the hand core portion for the constant force spring that the thumb corresponds has sufficient flexible space.

To sum up, the utility model discloses following beneficial effect has: (1) the utility model simulates the action process of human fingers by the cooperation of the bending tendon rope and the swinging tendon rope, can achieve good human-like simulation effect in the complex environment needing fine action, and realize more accurate position control; (2) the utility model realizes the multi-degree-of-freedom movement and multi-posture adjustment of the whole finger base joint through the small number of tendon ropes, has compact and reasonable structure on the basis of simulating the size of the hand, and meets the requirement of the size design of the similar hand in the current bionic design; (3) the utility model achieves the transmission effect of the tendon rope by using the structural characteristics, needs few elements, is simple and rapid to assemble and disassemble, and has high integration degree; (4) the complicated action simulation process is realized through the simplified internal structure, so that the application threshold is reduced, and the use cost can be reduced; (5) the integral multi-posture adjustment of the finger base joint can be realized by the existence of the tension on the first tendon rope, the second tendon rope and the third tendon rope and the adjustment of the tension, so that the finger posture requirements of different operating environments are met while the human finger simulation degree is improved; (6) the design of skidding is realized through the meshing adaptation of the first half joint and the second half joint, and the maximum utilization of the internal space of the finger is achieved while the first half joint and the second half joint are well meshed; (7) the vertical restoration of the bending joint is realized when no tension is applied to the bending tendon rope, the finger-based joint is kept in an extension state, and the quick response of the next finger-based joint action is facilitated; (8) the first limiting piece and the second limiting piece are matched to form effective limiting support for the finger base joint, the phenomenon that the finger base joint is reversely bent is avoided, the simulation degree of a human-like finger is improved, and meanwhile, the pulling force applied to the bent tendon rope is reduced, so that the use durability of the bent tendon rope is improved; (9) the line concentration hole forms effective limit on the tendon ropes, so that the phenomenon that a plurality of tendon ropes are wound in the action process of the dexterous hand is avoided, and the quick response is realized while the normal work of the dexterous hand is ensured; (10) the design of the finger base joints adopts a modularization idea, and the plurality of finger base joints have the same structure and have certain universality.

Drawings

Fig. 1 is a front view of the palm of the hand of the utility model.

Fig. 2 is a front view of the back of the hand of the present invention.

Fig. 3 is a front view of the present invention with the back of the hand removed.

Fig. 4 is a schematic view of the finger grabbing object of the present invention.

Fig. 5 is a side view of one side finger base joint of the present invention.

Fig. 6 is a front view of one side of the finger base joint of the present invention.

Figure 7 is a side view of the other side finger base joint of the present invention.

Figure 8 is a view of the finger curvature of the present invention.

In the figure:

the device comprises a palm 1, a finger-based joint 2, a swinging joint 3, a bending joint 4, a bending tendon rope 5, a restoring tendon rope 6, a swinging tendon rope 7, a first slotted hole 8, a constant force spring 9, a monitoring response module 10, a second slotted hole 11, a third slotted hole 12, a thumb 13, a crossbar 14, an allowance space 15, a proximal finger joint 16, a middle finger joint 17, a distal finger joint 18, a first roller skate 19, a second roller skate 20, a third roller skate 21, a first tendon rope 22, a second tendon rope 23, a third tendon rope 24, a handle 25, a line concentration plate 26, a line concentration hole 27, a fourth slotted hole 28, a first limiting part 29, a second limiting part 30, a palm part 31 and a back part 32.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used for convenience of description and simplicity of description only, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 1, a novel humanoid dexterous hand comprises a palm 1 and a plurality of finger base joints 2, each finger base joint comprises a swing joint 3 and a bending joint group, each bending joint group comprises a plurality of bending joints 4 which are hinged and connected, one end of each swing joint is connected with the palm, the other end of each swing joint is connected with each bending joint, the joint of two adjacent bending joints is provided with a roller skate, each finger base joint is internally provided with a bending tendon rope 5, a replying tendon rope 6 and a swinging tendon rope 7, each swinging joint is provided with a first slot hole 8, each bending tendon rope is bent, the restoring tendon rope and the swinging tendon rope penetrate out along the first slotted hole and then are connected with the palm, a constant force spring 9 connected with the restoring tendon rope is arranged on the palm, the constant force spring corresponds to the finger-based joints one by one, angle sensors are arranged on the bending joints and the swinging joints, and a monitoring response module 10 is arranged on the palm; the bending joint is provided with a second groove hole 11 for penetrating a bending tendon rope, the bending tendon rope is provided with a limiting rope knot with the diameter larger than that of the second groove hole, the limiting rope knot is positioned on one side, far away from the swinging joint, of the second groove hole, the bending joint is provided with a third groove hole 12 which is communicated along the length direction of the bending joint, and the bending tendon rope is wound along the circumferential direction of a roller skate positioned at one end, close to the swinging joint, of the bending joint and then penetrates out of the third groove hole; the number of the finger-based joints is five, the finger-based joints comprise thumbs 13 which are obliquely arranged with the palm, the palm is provided with a crossbar 14, the length direction of the crossbar is parallel to the length direction of the thumbs, constant force springs corresponding to the thumbs are arranged on the crossbar, and one side of the crossbar, which is far away from the finger-based joints, is provided with an allowance space 15; the bending joint group comprises a proximal finger joint 16, a middle finger joint 17 and a distal finger joint 18, the proximal finger joint, the middle finger joint and the distal finger joint are sequentially arranged towards the direction far away from the swing joint, the roller skate comprises a first roller skate 19, a second roller skate 20 and a third roller skate 21, the first roller skate, the second roller skate and the third roller skate are sequentially arranged towards the direction far away from the swing joint, and the first roller skate is positioned between the proximal finger joint and the swing joint; the bending tendon rope comprises a first tendon rope 22, a second tendon rope 23 and a third tendon rope 24, the first tendon rope penetrates out along a second slotted hole on the far finger joint, and penetrates out through a third slotted hole and the first slotted hole after being wound along the peripheral surface of a third pulley; the second tendon rope penetrates out along a second slotted hole on the middle finger joint, is wound along the circumferential surface of the second pulley and then penetrates out through the third slotted hole and the first slotted hole; the third tendon rope penetrates out along a second slotted hole on the proximal knuckle and penetrates out through the third slotted hole and the first slotted hole after being wound along the circumferential surface of the first pulley; a handle 25 is arranged at one end of the palm far away from the finger base joint, a disc-shaped line concentration plate 26 is sleeved on the handle, the line concentration plate and the palm are arranged at intervals, line concentration holes 27 with the same number as the bending tendon ropes and the swinging tendon ropes are arranged on the line concentration plate, and the line concentration holes are communicated along the thickness direction of the line concentration plate; the swing joint comprises a metacarpophalangeal joint and a connecting piece connected with the palm, the metacarpophalangeal joint comprises a body and a swing piece positioned at one end of the body close to the connecting piece, an articulated shaft is arranged between the swing piece and the connecting piece, and the axial direction of the articulated shaft is vertical to the axial direction of the skidding; a fourth slot 28 is arranged on the far finger joint, a stop knot with the diameter larger than that of the fourth slot is arranged on the replying tendon rope, the stop knot is positioned on one side of the fourth slot far away from the swing joint, and the replying tendon rope penetrates through the second slot and the third slot after being wound along the circumferential direction of the third pulley; a first limiting piece 29 is arranged between every two adjacent bending joints, a second limiting piece 30 is arranged between each bending joint and each swing joint, each bending joint comprises a finger ventral side and a finger dorsal side along the thickness direction of the bending joint, and the first limiting piece and the second limiting piece which are positioned on the finger dorsal side are used for limiting the rotating angle of each bending joint; the palm is including dismantling the palm 31 and the back of the hand portion 32 of connecting, and the constant force spring passes through the constant force spring mounting and installs the one side that the back of the hand is kept away from to the palm portion, and allowance space is located the palm portion and keeps away from the terminal surface on the back of the hand portion.

A novel humanoid dexterous hand comprises five finger base joints, wherein each finger base joint comprises 4 finger joints, and a far finger joint, a middle finger joint, a near finger joint and a metacarpophalangeal joint are sequentially arranged from top to bottom. The dexterous hand has the advantages that the joints are independently controlled to move through tendon transmission, one finger has four degrees of freedom, the joints at the far finger end, the middle finger end and the near finger end swing forwards towards the center of the palm through the first tendon rope, the second tendon rope and the third tendon rope respectively, and the metacarpophalangeal joints swing laterally through the swinging tendon ropes. All joints of the finger are controlled by the same replying tendon rope and fixed in the palm. The utility model discloses a whole size of finger is close with the staff, more is applicable to the big environment that uses the people hand to operate as the basis, uses the drive of tendon rope to let the finger can carry out bending operation, carries out comparatively accurate position control. Each finger base joint is formed by meshing two half joints together through a buckle design, and each bending joint is formed by meshing and splicing a first half joint and a second half joint. In order to realize the side swing operation of the fingers, the swing joint comprises a metacarpophalangeal joint and a connecting piece, the metacarpophalangeal joint is formed by splicing two half joints, and in order to increase the connection reliability, every two half joints are fixed into a complete joint through bonding. The first tendon rope penetrates through a second slotted hole on the left side of a far finger joint and is knotted, then the first tendon rope is rolled around a third slotted hole in the middle of two far finger half joints to achieve the effect of increasing the transmission torque as much as possible, and finally the first tendon rope is pulled through a third slotted hole and a first slotted hole in the middle of a middle finger joint, a near finger joint and a swing joint until the first tendon rope penetrates through the whole finger; the middle finger joint and the proximal finger joint are arranged in the same way. And the restoring tendon rope is tied after penetrating through a fourth slotted hole on the right side of the far finger joint, and is wound around a third pulley in the middle of the far finger joint to be pulled to penetrate through the middle finger joint, the near finger joint and the metacarpophalangeal joint, penetrate through the whole finger and penetrate out of the first slotted hole to be used as a restoring tendon for controlling four joints of the whole finger to restore. The first fixing piece and the second fixing piece can limit the positions of all joints, and the whole finger is in an upright state when not subjected to external force under the condition that the tendon rope is restored to be tensioned. Similarly, a second tendon rope is tied through a second slotted hole of the middle finger joint, bypasses a second pulley, passes through a third slotted hole and the first slotted hole and then penetrates through the whole finger; the third tendon rope is knotted through a second slotted hole close to the finger joint, bypasses the first pulley, passes through the third slotted hole and the first slotted hole and then penetrates through the whole finger; the swing tendon rope is knotted through the slotted hole of the metacarpal joint and penetrates through the whole finger after penetrating through the first slotted hole of the slotted hole. The driver pulls the first tendon rope, the second tendon rope, the third tendon rope and the swinging tendon rope, so that the forward swinging of the far finger joint, the middle finger joint and the near finger joint of the finger to the palm center and the lateral swinging of the metacarpal joint can be realized.

The palm comprises a palm core part and a palm back part along the drawing normal direction, the palm core part and the palm back part are detachably connected, the palm core part and the palm back part are fastened through bolts and nuts in the embodiment, a thumb is obliquely arranged, the rest four fingers basically extend from top to bottom, angle sensors are arranged on the bending joints and the swinging joints, monitoring response modules (integrated boards) are arranged on the palm back part, a constant force spring connected with a replying tendon rope is installed in the palm part through a constant force spring fixing part, the lower end of the palm is connected with a handle assisting the palm to be installed, line collecting boards are installed on the peripheral surface of the handle, twenty line collecting holes are formed in the line collecting boards, the line collecting holes penetrate through the line collecting boards from top to bottom, the line collecting holes are used for penetrating through the bending tendon rope and the swinging tendon rope, the winding of a plurality of tendon ropes is avoided while the control is convenient, round pipes made, to reduce friction and interference of the drive line during operation.

Claims (9)

1. The novel humanoid dexterous hand comprises a palm and five finger-based joints, and is characterized in that the finger-based joints comprise swing joints and bending joint groups, each bending joint group comprises a plurality of bending joints which are hinged and connected, one end of each swing joint is connected with the palm, the other end of each swing joint is connected with the corresponding bending joint, a pulley is arranged at the joint of each two adjacent bending joints, each finger-based joint is internally provided with a bending tendon rope, a restoring tendon rope and a swinging tendon rope, each swinging joint is provided with a first groove hole, each bending tendon rope, each restoring tendon rope and each swinging tendon rope penetrate out of the corresponding first groove hole and then are connected with the palm, each palm is provided with a constant force spring connected with each restoring tendon rope, each constant force spring corresponds to each finger-based joint one by one, each bending joint and each swinging joint is provided with an angle sensor, and each palm is provided with a monitoring response module.

2. A novel humanoid dexterous hand as claimed in claim 1, wherein the bending joint is provided with a second slot hole for passing a bending tendon rope, the bending tendon rope is provided with a limiting knot with a diameter larger than that of the second slot hole, the limiting knot is positioned on one side of the second slot hole far away from the swinging joint, the bending joint is provided with a third slot hole running through along the length direction of the bending joint, and the bending tendon rope is wound along the wheel slip circumference at one end of the bending joint close to the swinging joint and then passes out through the third slot hole.

3. A novel humanoid dexterous hand as claimed in claim 1, characterized in that the finger-based joint comprises a thumb arranged obliquely to the palm, a crossbar is arranged on the palm, the length direction of the crossbar is parallel to the length direction of the thumb, a constant force spring corresponding to the thumb is mounted on the crossbar, and an allowance space is arranged on one side of the crossbar away from the finger-based joint.

4. The novel humanoid dexterous hand as claimed in claim 2, wherein the bending joint group comprises a proximal finger joint, a middle finger joint and a distal finger joint, the proximal finger joint, the middle finger joint and the distal finger joint are sequentially arranged towards the direction away from the swing joint, the roller skate comprises a first roller skate, a second roller skate and a third roller skate, the first roller skate, the second roller skate and the third roller skate are sequentially arranged towards the direction away from the swing joint, and the first roller skate is positioned between the proximal finger joint and the swing joint.

5. A novel humanoid dexterous hand as claimed in claim 4, characterized in that the bending tendon rope comprises a first tendon rope, a second tendon rope and a third tendon rope, the first tendon rope penetrates out along a second slot on the far finger joint, and penetrates out through a third slot and a first slot after being wound along the peripheral surface of a third roller skate; the second tendon rope penetrates out along a second slotted hole on the middle finger joint, is wound along the circumferential surface of the second pulley and then penetrates out through the third slotted hole and the first slotted hole; the third tendon rope penetrates out along the second slotted hole on the proximal knuckle and penetrates out through the third slotted hole and the first slotted hole after being wound along the circumferential surface of the first pulley.

6. The novel humanoid dexterous hand as claimed in claim 1, wherein a handle is provided at an end of the palm away from the finger base joint, a disc-shaped line concentration plate is sleeved on the handle, the line concentration plate and the palm are arranged at intervals, line concentration holes consistent with the number of the bending tendon ropes and the swinging tendon ropes and the number of the line concentration holes are provided on the line concentration plate, and the line concentration holes are communicated along the thickness direction of the line concentration plate.

7. The novel humanoid dexterous hand as claimed in claim 1, wherein the swing joint comprises a metacarpophalangeal joint and a connecting piece connected with the palm, the metacarpophalangeal joint comprises a body and a swing piece positioned at one end of the body close to the connecting piece, an articulated shaft is arranged between the swing piece and the connecting piece, and the axial direction of the articulated shaft is perpendicular to the axial direction of the skidding.

8. A novel humanoid dexterous hand as claimed in claim 4, wherein a fourth slot is provided on the distal finger joint, a stop knot with a diameter larger than that of the fourth slot is provided on the restoring tendon rope, the stop knot is located on the side of the fourth slot far from the swing joint, and the restoring tendon rope is wound along the circumferential direction of the third roller and then passes through the second slot and the third slot.

9. The novel humanoid dexterous hand as claimed in claim 8, wherein a first limiting member is arranged between two adjacent bending joints, a second limiting member is arranged between the bending joints and the swing joint, the bending joints include a finger ventral side and a finger dorsal side along the thickness direction of the bending joints, and the first limiting member and the second limiting member on the finger dorsal side are used for limiting the rotation angle of the bending joints.

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