CN209596146U

CN209596146U - A kind of brace type exoskeleton rehabilitation manipulator

Info

Publication number: CN209596146U
Application number: CN201920181876.9U
Authority: CN
Inventors: 王勇; 马文章; 肖飞云; 卢涛; 刘鹏; 刘正士
Original assignee: Hefei Polytechnic University
Current assignee: Hefei Polytechnic University
Priority date: 2019-01-29
Filing date: 2019-01-29
Publication date: 2019-11-08
Anticipated expiration: 2029-01-29

Abstract

The utility model discloses a kind of brace type exoskeleton rehabilitation manipulators, including supporting device, index finger training institution, middle finger training institution, nameless training institution, little finger of toe training institution and thumb training institution, and the structure of each training institution is identical, includes preceding phalanges baffle, rear phalanges baffle, training guide rail, training sliding block, direct acting guide rod, first connecting rod, second connecting rod and third connecting rod；The trained sliding block is slidably mounted on the guide rail, one end of the first connecting rod is hinged on the trained sliding block, the other end is hinged on supporting device, one end of the second connecting rod is hinged on the trained sliding block, the other end is hinged on the preceding phalanges baffle, and one end of the third connecting rod is hinged on the rear phalanges baffle, one end of the other end and the direct acting guide rod is hinged and connected.The utility model effectively can drive the five fingers to move, and simulate the five fingers different positions and pose in actual life, realize that different training athletic postures, training effect are reliable.

Description

A kind of brace type exoskeleton rehabilitation manipulator

Technical field

The utility model relates to rehabilitation training equipment fields, and it is mechanical to relate in particular to a kind of brace type exoskeleton rehabilitation Hand.

Background technique

At present in China, cardiovascular and cerebrovascular disease especially cerebral apoplexy becomes the primary factor for threatening health of people, and there are about The patients with cerebral apoplexy urgent need of 70%-80% receives rehabilitation；On the other hand, disabled person's family totally 5,050 ten thousand family, accounts for China The 17.80% of the total amount of family because all kinds of accidents, hemiplegia, brain paralysis, etc. reasons cause the patient of hand disability probably to have 2000 Ten thousand, the manpower organ one of important as human body has a very important role in production and living, study and work, however by Factor can not be resisted to can frequently result in hand movement function in various wounds and cerebral apoplexy etc. impaired.Cerebral apoplexy and posteriori accident Its disability rate brings huge economy and medical pressure to society, and looks after patients with cerebral apoplexy for a long time and also bring to relatives family members Heavy mental burden.It is based on the compensatory plasticity principle of nerve, for early stage hand patient, lasting quilt Dynamic training can help patient to carry out early rehabilitation.

In the movable joint of human body, the freedom degree of hand shutdown is more, and structure is also complex, so hand rehabilitation training Mechanism design is also relatively difficult.It is found by being retrieved to existing technical literature, the country is to brace type ectoskeleton hand training structure Research be still in infancy.

The utility model patent that Chinese Patent Application No. is 201710565372.2 discloses a kind of hand the five fingers rehabilitation instruction Practice apparatus for correcting.Although the device can realize the bending stretching routine of finger.But there is also following problems: 1. training cartridges Secondary injury may be caused to manpower during training by setting；2. very poor for various sizes of manpower adaptability；3. In It cannot achieve the pre- coincidence for realizing movable joint center when doing rehabilitation exercise；4. the movement angle of finger is less than normal in rehabilitation training, It is not able to satisfy requirement when rehabilitation training；5. training institution's driving is single, the rehabilitation exercise of a variety of hand gestures can not achieve Training；

The utility model patent that Chinese Patent Application No. is 201610559425.5 discloses a kind of Multifunctional hand rehabilitation Training correction instrument.Although the device can also realize the bending stretching routine of finger.But there is also following problems: 1. its Movement only has metacarpophalangeal joints, can generate suppression to the movement of proximal interphalangeal joint and distal interphalangeal joint when doing rehabilitation exercise System.2. training institution's driving is single, the training of the rehabilitation exercise of a variety of hand gestures can not achieve.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of structure is simple, small in size, training effect is good, can Sliding phenomenon is avoided, the brace type exoskeleton rehabilitation manipulator suitable for different length finger.

In order to solve the above-mentioned technical problem, the utility model adopts the following technical solution: a kind of brace type exoskeleton rehabilitation Manipulator, including supporting device, index finger training institution, middle finger training institution, nameless training institution, little finger of toe training institution and Thumb training institution, and it is the index finger training institution, the middle finger training institution, the nameless training institution, described small Refer to that training institution is identical with the structure of the thumb training institution, is led including preceding phalanges baffle, rear phalanges baffle, training Rail, training sliding block, direct acting guide rod, first connecting rod, second connecting rod and third connecting rod；

The trained guide rail is fixed on the rear phalanges baffle, and the trained sliding block is slidably mounted on the trained guide rail On, one end of the first connecting rod is hinged on the trained sliding block, the other end is hinged on supporting device, the second connecting rod One end be hinged on the trained sliding block, the other end is hinged on the preceding phalanges baffle, one end of third connecting rod hinge Connect after described on phalanges baffle, one end of the other end and the direct acting guide rod is hinged and connected, the supporting device is equipped with horizontal Direction guiding rail, the direct acting guide rod are slidably mounted on the cross slide way, on the preceding phalanges baffle and the rear phalanges baffle It is respectively equipped with finger mount.

It further, further include the first driving mechanism and/or the second driving mechanism；

First driving mechanism include driving motor, crank disc, crank disc connecting rod, vertical guide, driving sliding block and One or more slide block connecting rod, the vertical guide are fixed on the supporting device, and the driving sliding block is slidably mounted on institute It states in vertical guide, the output shaft of the crank disc and the driving motor is affixed, one end Eccentric-hinge of the crank disc connecting rod Connect on the crank disc, the other end is hinged on the driving sliding block, one end of the slide block connecting rod is hinged on the driving On sliding block；

Second driving mechanism includes driving cylinder, and the driving cylinder is hinged on the supporting device.

Further, the thumb training institution and the index finger training institution are respectively by two second drivings The other end of mechanism driving, the output shaft and the corresponding direct acting guide rod of the corresponding driving cylinder is hinged and connected；

The middle finger training institution, the nameless training institution and the little finger of toe training institution have three institutes by one First driving mechanism driving of slide block connecting rod is stated, the other end of the corresponding slide block connecting rod and accordingly the direct acting guide rod The other end is hinged and connected.

Further, the supporting device include pedestal, positioned at the top of the pedestal training institution's support plate and The support frame being connected between the pedestal and training institution's support plate, the cross slide way are arranged in the training institution The bottom of support plate.

Further, protective pad is equipped at the top of training institution's support plate and be provided with palm fixing piece.

Further, the supporting device include pedestal, positioned at the top of the pedestal training institution's support plate and The support frame being connected between the pedestal and training institution's support plate, the upper and lower ends of the vertical guide are fixed respectively On the pedestal and training institution's support plate.

Further, motor installing hole is provided on support frame as described above, the driving motor is fixed on the motor installing hole It is interior.

Further, the upper and lower part of the vertical guide is respectively equipped with limited block.

Further, the finger mount is bandage.

Further, the palm fixing piece is bandage.

The beneficial effects of the utility model are embodied in:

The utility model effectively can drive the five fingers to move, and simulate the five fingers different positions and pose in actual life, realize different Training athletic posture, training effect are reliable.

Each training institution of the utility model can adapt to the length of finger automatically, be able to satisfy making for different size manpowers With adaptability is good.

Each training institution of the utility model using finger as a part of mechanism kinematic, when use joint axis of rotation with The joint of manpower is overlapped, and avoids sliding phenomenon occur in use process.

The utility model is structural good, and at low cost, small volume is easy to operate, has universality, is suitble to community and family It uses, can satisfy the use demand of different users.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of an embodiment of the present invention.

It is the structural schematic diagram of index finger training institution and its driving mechanism that Fig. 2, which is in an embodiment of the present invention,.

Fig. 3 is the structural schematic diagram of the first driving mechanism in an embodiment of the present invention.

Fig. 4 is that the first driving mechanism is illustrated to the fit structure of each corresponding training institution in an embodiment of the present invention Figure.

Fig. 5 is that the second driving mechanism is illustrated to the fit structure of each corresponding training institution in an embodiment of the present invention Figure.

The label of each component in attached drawing are as follows: 10 supporting devices, 101 pedestals, 102 support frames, 103 training institution's support plates, 104 protective pads, 105 palm fixing pieces；20 index finger training institutions, 30 middle finger training institutions, 40 nameless training institutions, 50 little fingers of toe Training institution, 60 thumb training institutions；Phalanges baffle, 203 training guide rails, 204 training are slided behind phalanges baffle, 202 before 201 Block, 205 direct acting guide rods, 206 first connecting rods, 207 second connecting rods, 208 third connecting rods, 209 finger mounts；30 driving mechanisms, 301 driving motors, 302 crank discs, 303 crank disc connecting rods, 304 vertical guides, 305 limited blocks, 306 driving sliding blocks, 307 sliding blocks Connecting rod, 308 cross slide ways, 309 driving cylinders；01 metacarpal bone, 02 proximal phalanx, 03 middle phalanx, 04 distal phalanx, 05 metacarpal bone close Section, 06 proximal phalanx joint, 07 proximal phalanx joint.

Specific embodiment

It is described in detail the utility model below with reference to the accompanying drawings.It should be noted that in the absence of conflict, this Shen Please in embodiment and embodiment in feature can be combined with each other.

Referring to Fig. 1 and Fig. 2.

The utility model brace type exoskeleton rehabilitation manipulator, including supporting device 10, index finger training institution 20, middle finger instruction Practice mechanism 30, nameless training institution 40, little finger of toe training institution 50 and thumb training institution 60, and the index finger training airplane Structure 20, the middle finger training institution 30, the nameless training institution 40, the little finger of toe training institution 50 and thumb instruction Practice mechanism 60 structure it is identical, include preceding phalanges baffle 201, rear phalanges baffle 202, training guide rail 203, training sliding block 204, Direct acting guide rod 205, first connecting rod 206, second connecting rod 207 and third connecting rod 208；

The trained guide rail 203 is fixed on the rear phalanges baffle 202, and the trained sliding block 204 is slidably mounted on institute It states on trained guide rail 203, one end of the first connecting rod 206 is hinged on the trained sliding block 204, the other end is hinged on bearing In mechanism 10, one end of the second connecting rod 207 is hinged on the trained sliding block 204, the other end is hinged on the preceding phalanges On baffle 201, one end of the third connecting rod 208 be hinged on it is described after on phalanges baffle 202, the other end and the direct acting guide rod 205 one end is hinged and connected, and the supporting device is equipped with cross slide way 308, and the direct acting guide rod 205 is slidably mounted on described On cross slide way 308, finger mount 209 is respectively equipped on the preceding phalanges baffle 201 and the rear phalanges baffle 202.

For the detailed construction that can clearly show that each training institution of the utility model, and for the sake of succinctly describing, only with Fig. 2 shows Index finger training institution is easy to understand.

When carrying out finger rehabilitation exercise using the utility model, the metacarpal bone 01 of hand is fixed on supporting device, nearly section refers to Bone 02 is fixed on rear phalanges baffle with finger mount, before middle phalanx 03 is fixed on finger mount on phalanges baffle, Distal phalanx 04 be exposed at outside preceding phalanges baffle (certainly, this be in addition to thumb it is other four refer to usage mode, for thumb come Say, without middle phalanx, before distal phalanx is fixed on phalanges baffle), then direct acting guide rod is pulled to carry out reciprocating linear Movement, under the interlink function of third connecting rod, rear phalanges baffle is i.e. with proximal phalanx around 05 reciprocating rotation of metacarpal joint, together When, under the interlink function of first connecting rod and second connecting rod, combined training guide rail and the cooperation for training sliding block, preceding phalanges baffle are With middle phalanx around 06 reciprocating rotation of proximal phalanx joint, finger different positions and pose in actual life is simulated, trained finger is reached Purpose.

The utility model can make patient in use for some time, can effectively alleviate the viscous of finger-joint tendon Even, the motor function of hand obtains recovery to a certain extent, and the remodeling of hand exercise nerve can be established effectively, Neng Gouhuan A series of states of deformities of hand are solved, supporting device, rear phalanges baffle and preceding phalanges baffle are mutually indepedent, can adapt to automatically The length of finger, it is applied widely.

The utility model uses the design of internal brace type by special designing, and ring sets hand and is placed directly in instruction when in use Practice in mechanism, patient is facilitated to wear.

In one embodiment, the utility model be additionally provided with the first driving mechanism for driving each training institution and/or Second driving mechanism；

Referring to figs. 2 and 3, first driving mechanism include driving motor 301, crank disc 302, crank disc connecting rod 303, Vertical guide 304, driving sliding block 306 and one or more slide block connecting rod 307, the vertical guide 304 are fixed on the branch It holds in mechanism, the driving sliding block 306 is slidably mounted in the vertical guide 304, the crank disc 302 and the driving electricity The output shaft of machine 301 is affixed, and one end bias of the crank disc connecting rod 303 is hinged on the crank disc 302, the other end is hinged On the driving sliding block 306, one end of the slide block connecting rod 307 is hinged on the driving sliding block 306, the other end with it is described The other end of direct acting guide rod 205 is hinged and connected.The rotary motion of motor is converted continuous straight line and transported back and forth by this driving mechanism It is dynamic, and direct acting guide rod transversely guide rail progress linear reciprocating motion is driven, patient's finger can be made to reach company in the training process The dynamic purpose of reforwarding, while the revolving speed by adjusting motor can also adjust the frequency that finger continuously moves.

Referring to Fig. 5, second driving mechanism includes driving cylinder 309, and the driving cylinder 309 is hinged on the bearing In mechanism, the other end of the output shaft and the direct acting guide rod 205 of the driving cylinder 309 is hinged and connected.This driving mechanism Structure is simple, is easy to implement, easy to operate, and capable of effectively driving direct acting guide rod, transversely guide rail carries out linear reciprocating motion.

In one embodiment, referring to fig. 4, the thumb training institution 60 and the index finger training institution 20 respectively by Two the second driving mechanism drivings, the corresponding output shaft for driving cylinder 309 are another with the corresponding direct acting guide rod 205 One end is hinged and connected, and for the sake of succinct description, the part of each corresponding training institution and driving mechanism cooperation is only shown in figure；Referring to Fig. 5, the middle finger training institution 30, the nameless training institution 40 and the little finger of toe training institution 50 have three by one First driving mechanism of the slide block connecting rod 307 drives, the other end of the corresponding slide block connecting rod 307 and corresponding described straight The other end of dynamic guide rod 205 is hinged and connected.It designs in this way, driving mechanism and the five fingers training institution fitness are good, and space utilization is closed Reason, structure is more succinct, and practicability is good.

In one embodiment, the supporting device 10 includes pedestal 101, the training airplane positioned at the top of the pedestal 101 Structure support plate 103 and the support frame 102 being connected between the pedestal 101 and training institution's support plate 103, the cross The bottom of training institution's support plate 103 is arranged in direction guiding rail 308.This supporting device structure is simple, and support effects are reliable, Space between pedestal and training institution's support plate can be used to install the components such as driving mechanism, and space utilization rate is higher, design Rationally, very convenient and comfortable in use, metacarpal bone is directly overlying the top of training institution's support plate.

In one embodiment, the top of training institution's support plate 103 is equipped with protective pad 104 and is provided with palm and consolidates Determine part 105.Protective pad can be using flexible materials such as sponges, and for improving comfort level, palm fixing piece is then used to fix palm.

Preferably, the finger mount 209 and the palm fixing piece 105 are all made of bandage, and bandage comfort level is high, and And also easy stirrup and release, practicability are good.

In one embodiment, the supporting device 10 includes pedestal 101, the training airplane positioned at the top of the pedestal 101 Structure support plate 103 and the support frame 102 being connected between the pedestal 101 and training institution's support plate 103, it is described perpendicular The upper and lower ends of direction guiding rail 304 are separately fixed on the pedestal 101 and training institution's support plate 103.It designs in this way, knot Structure is reasonable, and space utilization rate is high, and vertical guide can also further function as the effect for reinforcing supporting device.

In one embodiment, motor installing hole is provided on support frame as described above 102, the driving motor 301 is fixed on described In motor installing hole.It designs, is easily installed in this way, connect convenient for motor with crank disc.

In one embodiment, the upper and lower part of the vertical guide 304 is respectively equipped with limited block 305.Limited block is used for The moving range of limitation driving sliding block prevents driving sliding block over range movement.

It should be understood that example as described herein and embodiment are not intended to limit the utility model only for explanation, this Field technical staff can make various modifications or variation according to it, within the spirit and principle of the utility model, made Any modification, equivalent substitution, improvement and etc. should be included within the scope of protection of this utility model.

Claims

1. a kind of brace type exoskeleton rehabilitation manipulator, it is characterised in that: including supporting device (10), index finger training institution (20), middle finger training institution (30), nameless training institution (40), little finger of toe training institution (50) and thumb training institution (60), and it is the index finger training institution (20), the middle finger training institution (30), the nameless training institution (40), described Little finger of toe training institution (50) is identical with the structure of the thumb training institution (60), includes preceding phalanges baffle (201), refers to afterwards Bone baffle (202), training guide rail (203), training sliding block (204), direct acting guide rod (205), first connecting rod (206), second connecting rod (207) and third connecting rod (208)；

The trained guide rail (203) is fixed on the rear phalanges baffle (202), and the trained sliding block (204) is slidably mounted on On the trained guide rail (203), one end of the first connecting rod (206) is hinged on the trained sliding block (204), the other end is cut with scissors It connects on supporting device (10), one end of the second connecting rod (207) is hinged on the trained sliding block (204), the other end is cut with scissors Connect on the preceding phalanges baffle (201), one end of the third connecting rod (208) be hinged on it is described after on phalanges baffle (202), The other end and one end of the direct acting guide rod (205) are hinged and connected, and the supporting device (10) is equipped with cross slide way (308), The direct acting guide rod (205) is slidably mounted on the cross slide way (308), the preceding phalanges baffle (201) and the finger afterwards Finger mount (209) are respectively equipped on bone baffle (202).

2. brace type exoskeleton rehabilitation manipulator as described in claim 1, it is characterised in that: further include the first driving mechanism And/or second driving mechanism；

First driving mechanism includes driving motor (301), crank disc (302), crank disc connecting rod (303), vertical guide (304), the slide block connecting rod (307) of sliding block (306) and one or more are driven, the vertical guide (304) is fixed on the branch Hold on mechanism (10), the driving sliding block (306) is slidably mounted on the vertical guide (304), the crank disc (302) with The output shaft of the driving motor (301) is affixed, and one end bias of the crank disc connecting rod (303) is hinged on the crank disc (302) on, the other end be hinged on the driving sliding block (306), one end of the slide block connecting rod (307) is hinged on the driving On sliding block (306)；

Second driving mechanism includes driving cylinder (309), and the driving cylinder (309) is hinged on the supporting device (10) On.

3. brace type exoskeleton rehabilitation manipulator as claimed in claim 2, it is characterised in that: the thumb training institution (60) it is driven respectively by two second driving mechanisms with the index finger training institution (20), the corresponding driving cylinder (309) output shaft and the other end of the corresponding direct acting guide rod (205) are hinged and connected；

The middle finger training institution (30), the nameless training institution (40) and the little finger of toe training institution (50) are had by one There is first driving mechanism of three slide block connecting rods (307) to drive, the other end of the corresponding slide block connecting rod (307) with The other end of the corresponding direct acting guide rod (205) is hinged and connected.

4. the brace type exoskeleton rehabilitation manipulator as described in claims 1 or 2 or 3, it is characterised in that: the supporting device (10) include pedestal (101), be located at the pedestal (101) top training institution's support plate (103) and be connected to described Support frame (102) between pedestal (101) and training institution's support plate (103), the cross slide way are arranged in the instruction Practice the bottom of mechanism supports plate (103).

5. brace type exoskeleton rehabilitation manipulator as claimed in claim 4, it is characterised in that: training institution's support plate (103) it is equipped with protective pad (104) at the top of and is provided with palm fixing piece (105).

6. brace type exoskeleton rehabilitation manipulator as claimed in claim 2, it is characterised in that: the supporting device (10) includes Pedestal (101), be located at the pedestal (101) top training institution's support plate (103) and be connected to the pedestal (101) Support frame (102) between training institution's support plate (103), the upper and lower ends of the vertical guide (304) are solid respectively It is scheduled on the pedestal (101) and training institution's support plate (103).

7. brace type exoskeleton rehabilitation manipulator as claimed in claim 6, it is characterised in that: support frame as described above is opened on (102) There is motor installing hole, the driving motor (301) is fixed in the motor installing hole.

8. the brace type exoskeleton rehabilitation manipulator as described in claim 2 or 6 or 7, it is characterised in that: the vertical guide (304) upper and lower part is respectively equipped with limited block (305).

9. the brace type exoskeleton rehabilitation manipulator as described in claims 1 or 2 or 3, it is characterised in that: the finger mount It (209) is bandage.

10. brace type exoskeleton rehabilitation manipulator as claimed in claim 5, it is characterised in that: the palm fixing piece (105) For bandage.