CN207373153U - A kind of miniature steering engine robot arm - Google Patents
A kind of miniature steering engine robot arm Download PDFInfo
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- CN207373153U CN207373153U CN201721217510.XU CN201721217510U CN207373153U CN 207373153 U CN207373153 U CN 207373153U CN 201721217510 U CN201721217510 U CN 201721217510U CN 207373153 U CN207373153 U CN 207373153U
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Abstract
The utility model in robot arm by setting four joints, and four joints set miniature steering engine, enable robot arm multi-direction, multi-joint point moves, add the flexibility ratio of robot arm, so that robot can realize multiple directions during fistfight, the attack of multiple angles, and closely fistfight can be directed to make a response rapidly, the utility model steering engine is interlocked by whole group gear, centralized arrangement, and the potentiometer shaft of the potentiometer is upward through the 3rd of change gear group the, 4th change gear, so that the utility model model steering engine is compact-sized, small volume, and then improve the sensitivity rotated and the relay degree that spreads out, task is turned to so as to more can effectively complete each joint of robot arm.
Description
Technical field
The invention belongs to robotic technology fields, and in particular to a kind of miniature steering engine robot arm.
Background technology
Small scale robot, humanoid robot of particularly grappling are robot types very popular at present, and also there are many be directed to
The match of different type Grapple Robots excites the interest of research staff, also opens a new market.With science and technology
Development, more and more enterprise-like corporations enter Grapple Robots field, and all kinds of Grapple Robots product functions are weeded out the old and bring forth the new, very
It is abundant.And with the development of artificial intelligence technology and internet, more work(based on voice interface, recognition of face, App interconnections etc.
Energy robot progresses into everybody sight.
Control unit of the steering engine as the direction of motion, appears in model airplane field earliest.Afterwards, with science and technology
It continues to develop, the application of steering engine is more and more extensive.Not only in model airplane, also it can be seen that it is answered in other models
With:It is used for controlling tail vane on ship model, is used for turning in vehicle mould.It can be seen that every need to use when operating sexual act
Steering engine is realized.
At present, in the industry cycle common model steering engine includes such as lower component substantially:It is small direct current motor, change gear group, anti-
Present adjustable potentiometer and automatically controlled circuit board.Such element is fixedly arranged in a steering engine main body, each other and in some way into
Row connection.Wherein, small direct current motor is to provide original power, and the original power is transferred to change gear group;Speed change
Gear set transmits swing rod of the torsion to external model to adjust torque magnitude, and then passes through the swing rod implementation model
Go to action;Adjustable potentiometer is fed back the rotating signal of model swing rod is fed back to automatically controlled circuit board;Automatically controlled circuit board one
Aspect is for receiving external signal, so as to start small direct current motor movement, on the other hand for receiving feedback adjustable potentiometer
Ground feedback signal, thus controls rotating and the rotation angle of small direct current motor, and then is accurately positioned entire steering engine.
However, above-mentioned traditional model steering engine is directly upper and lower by the swing rod for feeding back adjustable potentiometer and the external model
It is fixedly arranged at change gear group one side so that the structure of the conventional model steering engine entirety is more open, and volume is larger, and then influences to turn
Dynamic sensitivity.Robot arm plays the role of very important during robot fistfight, and the flexibility of hand joint can
The victory or defeat of robot fistfight is served conclusive, and the design of arm can increase the elements such as armament equipment, laser equipment,
The enjoyment of robot fistfight is enriched, also makes robot fistfight type variation, therefore the design and flexibility ratio of robot arm
It is extremely important.And the movement of robot arm joint drives mainly by steering engine and completes, however existing robot toy on the market
Simple movement is can be only done, can not realize various game function.And existing toy robot degree of freedom is few, action association
The defects such as tonality is poor, kinematic accuracy is low are unable to reach anthropomorphic state action, it is difficult to meet the current market demand.For robot
Arm, small scale robot is in the design aspect of arm at present, arm activity underaction, and bent inconvenience is stretched in joint so that robot
Better user experience can not be brought during fistfight.
Utility model content
It is an object of the invention to overcome the deficiencies of the prior art and provide a kind of miniature steering engine robot arms.
To achieve the above object, the present invention provides a kind of robot arm, is arranged on robot body, robot body
Including front/rear face and left/right two sides, the arm includes sequentially connected first joint, shoulder, second joint, postbrachium, the
Three joints, forearm, the 4th joint and hand, the shoulder are connected by the first joint with robot body, and the postbrachium leads to
It crosses second joint to be connected with shoulder, the forearm is connected by the 3rd joint with postbrachium, and the hand is by the 4th joint with before
Arm connects, and the forearm and postbrachium form arm axis;
The shoulder is rotated based on the first joint compared with robot body, and rotational plane is parallel to robot body side
Face;
The postbrachium is swung based on second joint compared with shoulder, and swaying direction is included towards robot body and away from machine
Device human agent's both direction;
The forearm is rotated based on the 3rd joint compared with postbrachium, and rotation direction is to be rotated around the arm axis;
The hand is based on the 4th joint compared with preceding arm swing, swinging axle vertical arm axis;
First joint, second joint, each built-in steering engine in the 3rd joint and the 4th joint, in the steering engine at least
There is a kind of steering engine structure to include steering engine main body, which includes lower cover, middle cover and upper cover from bottom to top, and three is by being arranged on
Mounting post and mounting hole therebetween coordinates and fastens, and through lower cover, middle cover and locks upper cover by lower cover, middle cover by screw
And upper cover lock is integrated, wherein the space after lower cover and middle cover lid close accommodates wiring board, motor and potentiometer, in upper cover in
Space after lid lid closes accommodates change gear group, which is electrically connected at the wiring board one side, and top surface connection motor drive shaft should
Potentiometer is electrically connected at the wiring board opposite side, top surface connection potentiometer shaft, and the change gear group includes corresponding motor
The motor gear of side arrangement, corresponding potentiometer side arrangement the three, the 4th change gears and be arranged in this two
First, second change gear between side, first, second, third and fourth change gear include canine tooth and are consolidated in the big tooth top
The small tooth in face, the motor gear are set up on the motor drive shaft.
First, second change gear is set up on a gear shaft, and the second stud gear is located at the first gear teeth
The top of wheel;Three, the 4th change gear is set up on the potentiometer shaft, and the 4th change gear is located at the 3rd and becomes
The top of fast gear.
The big tooth engagement of the motor gear and first stud gear;The small tooth and the 3rd speed change of the first stud gear
The big tooth engagement of gear;The small tooth of 3rd change gear and the big tooth engagement of second stud gear;Second gear teeth
The small tooth of wheel and the big tooth engagement of the 4th change gear.
The robot body is the general name at other outer positions of robot arm, and the robot body can be according to different
It needs to be designed, for humanoid robot of grappling, the camera of similar human eye in robot head can be set, pass through camera shooting
The image that head is conveyed observes the attack process of other side, and so as to analyze the coping style of itself, it is interesting to increase fistfight.The present invention
Robot arm is similar to human arm, and including four parts, shoulder, postbrachium, forearm and hand, each part passes through joint
Connection.Robot body includes front-back and two sides, similar to the two sides of the chest of human body, back and body, wherein
Arm is mounted on side, in order to be better understood from the rotation direction of arm, defines robot front-back as a plane, two sides
For another plane, two planes are mutually perpendicular to, and in addition the forearm of robot arm and postbrachium connect into an axis, form arm
It is axial.
The one end in first joint is fixed with shoulder, and the other end is rotatablely connected with robot body so that shoulder can
It is rotated based on the first joint compared with robot body, rotational plane is parallel to robot body side;And shoulder being capable of band
Postbrachium, forearm and the hand of dynamic shoulder lower end move together, similar human arm, realize the front and rear pendulum of the entire arm of robot
Dynamic, it is circular shaped motion scope of the center of circle arm length as radius to be formed using the first joint.
The second joint both ends are connected at the front-back symmetric position of shoulder so that postbrachium can be based on second joint
It is swung compared with shoulder, before swaying direction is included towards robot body and away from robot body, while postbrachium can drive
Arm and hand move together, are formed using second joint as the center of circle, using postbrachium, forearm and hand length as a quarter of diameter
Circular shaped motion scope.
Described 3rd joint one end connects postbrachium, one end connection forearm so that the forearm be based on the 3rd joint compared with
Postbrachium rotates, and rotation direction is to be rotated around the arm axis, and hand can be driven to move together.Formed using the 3rd joint as
Circular shaped motion scope of the weapon as radius is held in center using hand.
The 4th joint both ends are arranged on the symmetrical position of forearm so that the hand can be put along before and after forearm
It is dynamic.Pass through the setting in four joints so that robot arm can the movement of multi-direction, multi-joint point, add robot arm
Flexibility ratio so that robot can realize the attack of multiple directions, multiple angles during fistfight.
The setting in four joints can realize the scope of activities of robot arm different directions, and scope of activities is made to reach maximum
Change, and each joint cooperates, arm can the multi-faceted stretching, extension of multi-angle, add the flexibility ratio of arm.
Steering engine is a kind of position(Angle)The driver of servo needs angle constantly to change and can keep suitable for those
Control system.With the continuous development of science and technology, the application of steering engine is more and more extensive.Not only in model airplane, in machine
Also it can be seen that its application in device people's model.Four joints mainly drive the movement of arm by the rotation of steering engine, by tight
Gather the setting of type steering engine so that robot arm can multi-direction, multi-joint point movement, add the flexible of robot arm
Degree so that robot can realize the attack of multiple directions, multiple angles during fistfight.
Further, the motor gear is set up in the top of the motor drive shaft, and with the motor drive shaft synchronous rotary.
Further, the steering engine main body is protruded out on the small teeth directional of the 4th change gear.
Further, the first stud gear is set up in the approximate mid-section of the gear shaft, the second stud gear
It is set up in the top of the gear shaft.The motor gear is set up in the top of the motor drive shaft, and rotation synchronous with the motor drive shaft
Turn.
Further, first joint include be arranged on robot body in the first steering engine, arranged on robot body with
The first axle of shoulder junction and the clutch shaft bearing for supporting first axle, described first axle one end and the fixed connection of shoulder, separately
One end is connected with the first steering engine shaft, and the robot body engages equipped with the first card slot with clutch shaft bearing;
The second joint includes being arranged on the second steering engine inside postbrachium, second arranged on postbrachium and shoulder one side junction
First steering wheel of axis, the second bearing for supporting the second axis and postbrachium and shoulder opposite side junction, described second axis one end with
Postbrachium is fixed, and the other end is rotatablely connected by second bearing and shoulder, and the first steering wheel one side is fixed with shoulder, opposite side and
Second steering engine shaft connects;
3rd joint includes the 3rd steering engine arranged on forearm inner upper end, the arranged on postbrachium and forearm junction the 3rd
Axis and the 3rd bearing for supporting the 3rd axis, described 3rd axis one end and the fixed connection of postbrachium, the other end and the 3rd steering engine turn
Axis connection, the forearm engage equipped with the second card slot with 3rd bearing.
4th joint includes the 4th steering engine arranged on forearm interior lower end, arranged on forearm and hand one side junction
4th axis, the fourth bearing for supporting the 4th axis and forearm and the second steering wheel of hand opposite side junction, the 4th axis one
End is fixed with forearm, and the other end is rotatablely connected by fourth bearing and hand, and the second steering wheel one side is fixed with hand, another
Side is connected with the 4th steering engine shaft.
First steering engine is arranged on inside robot body close to two side position of robot body bilateral, convenient and arm
Connection.Described first axle one end is welded and fixed with shoulder or is connected for integral type, and the other end is connected with the first steering engine shaft so that
When first steering engine works, first metal shaft, which can drive, rolls over.Due to the rotation of the first steering engine, entire arm can be driven
Movement, therefore, in order to make the first steering engine operation more stablize, be disposed inside robot body.
The clutch shaft bearing is becket, and first axle is supported by clutch shaft bearing, prevents rocking in steering engine movement.It is described
Robot body's shell is generally the component of plastic material, and shell synthesizes an entirety by front and rear casing, by body interior component
It surrounds, plays a protective role.Shell is equipped with the first card slot, is engaged clutch shaft bearing by front and rear engaging.When the first steering engine
When driving first axle rotation, clutch shaft bearing is fixed.
Due to robot body at the first card slot for plastic material, the setting of clutch shaft bearing is in order to prevent first
Axis rocks caused by wheelbase is longer in rotation process and may be to robot body's groove position in rotation process
It causes to wear, influences robot service life.Moving forward and backward for entire arm can be achieved in the design in the first joint, makes robot
Firing area has covered the scope of tensible before and after arm length.
Since shoulder inner space is limited, and arm moves up and down for convenience, and the second steering engine of the second joint is set
It puts inside postbrachium, the postbrachium both sides are connected by the second axis and the first steering wheel with shoulder, form T-shaped structure, by postbrachium
It is suspended on shoulder.Further, the postbrachium is made of the component of left and right two panels plastic material, and steering engine is wrapped in inside,
The postbrachium top is equipped with installation card slot corresponding with the second axis.Likewise, the second axis abrasion postbrachium installs card slot in order to prevent,
The utility model is equipped with second bearing on the second axis, and second axis is rotatablely connected with shoulder.
Since the axis of connection steering engine plays main support, the axis needs the peace of enough diameters and sufficient space
Position is filled, due to installing the limitation of bit space, axis is changed to steering wheel and replaced by the utility model, saves space.First steering wheel
Design can reduce installation volume, and can enhance torque.When the second steering engine works, due to the first steering wheel is fixed on shoulder cannot
Mobile, the second steering engine can drive postbrachium to move at this time, so that the second axis and then rotates, final postbrachium drives forearm and hand phase
It moves up and down to shoulder.The design of second joint can realize the up and down motion of arm, with reference to the first joint, can realize
The covered maximum magnitude of institute after robot arm all around stretches.
3rd joint structure is similar to the first joint structure, due to robot arm postbrachium inner space in the present invention
It is only sufficient to set a steering engine, therefore the 3rd steering engine is arranged on the upper end inside the forearm, the described 3rd is located in postbrachium
With forearm junction, described 3rd axis one end is welded and fixed with postbrachium, and the other end is connected in the 3rd steering engine shaft so that the 3rd rudder
When machine works, the 3rd axis can drive forearm rotation.The 3rd bearing is becket, is arranged on the 3rd axis, after described
Arm is equally made of front and rear two blocks of components that can be mutually combined, and the component is fixed by bolt arrangement.The present invention passes through
The second card slot that front and rear two module components are formed fixes the 3rd bearing.When 3rd steering engine works, the 3rd axis can be driven
It rotates, and 3rd bearing will not be rotated due to being fixed on the second card slot, play the role of supporting the 3rd axis, prevent from rocking.
The setting of the 3rd bearing is that the 3rd axis is rocked and turned caused by wheelbase is longer in rotation process in order to prevent
Robot body's groove position may be caused to wear during dynamic, influence robot service life.The design master in the 3rd joint
If the flexibility ratio of arm is increased by piecewise joint setting, particular for fistfight closely.It is auxiliary by the 3rd joint
Movement is helped, can be made a response rapidly.
Since robot hand can design the weapons such as peashooter, knife, sword, the free time that hand leaves is limited, and by
It is sufficient in the forearm inner space, therefore the steering engine in the 4th joint is arranged on the forearm interior lower end.The steering engine leads to
The front and rear component for crossing forearm is fastened on inside forearm, wherein the steering engine be emerging on one side outside forearm and with the face fore-arm
In same plane.4th joint structure is similar to second joint, and described 4th axis one end is welded and fixed with forearm, the other end and hand
Portion is rotatablely connected so that hand can be rotated around the 4th axis.Described second steering wheel one end is connected with steering engine shaft, can be turned around steering engine
Dynamic, the other end is fixed on hand and the 4th axisymmetric position.When 4th steering engine works, by the way that the second steering wheel is driven to rotate,
So that hand can be axially moved perpendicular to arm axis.The setting in the 4th joint is equipped with the feelings of weapon primarily directed to hand
Under condition, by the booster action in the 4th joint, attack can be quickly made, action is made more nimbly and freely to increase fistfight
It is interesting.
Further, one end that the first axle is connected with the first steering engine is stepped;3rd axis is connected with the 3rd steering engine
One end it is stepped.
For axis by connecting two parts, it is a series of to play the role of connection, support passing power etc., at work, due to by
To flexure stress and shock loading, therefore the part should have enough rigidity, intensity and toughness.To adapt to the change of its working environment
Change.Since different link positions needs the diametric requirements difference to axis, in of the invention, first axle one end and shoulder welding are solid
It is fixed, since first axle needs the larger torque born when rotating, therefore it is required that axis has sufficiently large diameter, therefore designing
When, the diameter design of first axle and shoulder fixing end is sufficiently large, and the two is welded together.On the other hand, due to first axle
The other end is connected with the steering engine inside robot body, and axis needs to be inserted into steering engine, and due to the present invention, design is miniature rudder
Machine, therefore it is large enough to hold the big volume of first axle without enough volumes.Equally, the 3rd axis is also configured as step-like, Neng Goushi
Axis both ends is answered to connect the demand of different parts.So in the present invention, it is arranged in first axle and the 3rd axis close to steering engine one end
Stepped axis wherein in most thin central shaft insertion steering engine, increases it by incrementally increasing the diameter of first axle and the 3rd axis
The torque that can bear adds the reliability and compactness of connection, also can utmostly prevent the skidding of axis, add operation
Stability, extend service life.
Further, first steering wheel and the second steering wheel are step-like disk, and the step-like disk is at least by fixing
Formula bilayer disk and the cylindrical shaft composition for being fixed on double-deck disc centre.
Since the shoulder and postbrachium junction and forearm and hand junction spatial position of the robot arm are limited,
No the first joint of the image of Buddha sets stepped axis as the 3rd joint, therefore sets the first rudder in second joint and the 4th joint
Disk and the second steering wheel can increase driving torque in arm motion, while can also save volume to the greatest extent, can be
Steering engine and arm member are fixed in limited space.Further, since first steering wheel one end is fixed with shoulder, the other end with
The movable fixation of second steering engine, due to being fixed from shoulder and different with the fixed requirement of the second steering engine, the steering wheel is by solid
Fixed pattern bilayer disk and the cylindrical shaft composition for being fixed on double-deck disc centre.Since cylindrical shaft is inserted into steering engine, cylindrical shaft
Diameter is smaller, and the work of steering engine mainly causes the movement of cylindrical shaft, therefore the torque that cylindrical shaft is born is maximum, therefore,
Sufficiently large torque can be born in the course of work of cylindrical shaft in order to prevent, in design by being stepped up cylinder shaft diameter
It realizes, therefore devises double-deck disk, the bilayer disk diameter gradually increases, and the cylindrical shaft is fixed on disc centre.
The design of the steering wheel bilayer ring can preferably drive arm motion, add the flexibility ratio of arm.
Further, the first limit space that size is more than clutch shaft bearing is equipped between the first axle and shoulder, it is described
Clutch shaft bearing is mounted in the first limit space and is fixed by the first card slot;It is more than between 3rd axis and postbrachium equipped with size
Second limit space of 3rd bearing, the 3rd bearing are mounted in the second limit space and are fixed by the second card slot.
The clutch shaft bearing and 3rd bearing are circular metal ring, and cyclization in first axle and the 3rd axis, is played respectively
Support the effect of first axle and the 3rd axis.Since first axle, the 3rd axis, clutch shaft bearing and 3rd bearing are all metal material,
And robot shells are plastic material, it,, may due to the difference of material when the card slot of plastic material engages bearing in processing
It is present with engaging and deviation occurs, the product quality for making processing is unqualified, therefore size is equipped between the first axle and shoulder
More than the first limit space of clutch shaft bearing thickness, the clutch shaft bearing is mounted in the first limit space to be consolidated by the first card slot
It is fixed;The second limit space that size is more than 3rd bearing thickness, the 3rd bearing peace are equipped between 3rd axis and postbrachium
It is fixed in the second limit space by the second card slot.The setting of limit space is more convenient when can make installation, and can
It prevents from the structure of unlike material from combining to occur engaging situation not in place, ensure that processing quality.
Further, the postbrachium and forearm are respectively equipped with control line installation position, and the control line installation position is equipped with control
Line entrance, the postbrachium control line entrance are arranged on postbrachium control line installation position lower end, and the forearm control line entrance is arranged on forearm
Control line installation position upper end.
Since present invention is generally directed to Grapple Robots, the self-service movement of robot is extremely important.By in machine
Control circuit mainboard inside human agent is set, has control circuit mainboard to separate a plurality of each steering engine of control pair robot and is controlled
System.Further, the control circuit mainboard is arranged on robot body back, and robot body's back side can set circuit
Outlet, the control line are divided into two-way towards postbrachium and forearm from robot body back line outlet, along back
Control line installation position.
Since arm steering engine is in addition to the first steering engine is mounted on inside robot body, the second steering engine, the 3rd steering engine and the
Four steering engines are all distributed in inside postbrachium and forearm, therefore the first steering engine can complete control electricity by robot body's internal wiring
Control of the road plate to the first steering engine, then the control line installation position by being divided into two-way prolong control line from robot back respectively
Postbrachium installation position and forearm installation position are extended into, and connects its internal steering engine, the control line is divided into three strands, and first strand is passed through
Postbrachium installation position controls the second steering engine, in addition enters from forearm installation position for two strands, connects the 3rd steering engine and the 4th steering engine respectively.Into one
Step, in order to make the distribution of line even closer, the postbrachium control line entrance is arranged on control line installation position lower end, the forearm control
Line entrance processed is arranged on control line installation position upper end so that closest, the intersection and mill of the control line avoided of control line share split
Damage, and the length of control line has been shortened to the full extent, make whole device appearance more succinct, also arm motion is made to get up more
It is convenient.
Further, the control line installation position is respectively arranged on the back side of postbrachium and forearm, and the installation position is additionally provided with guarantor
Protective case.
For beauty and facilitate the setting of robot grappling device, the control circuit mainboard is arranged on robot body's
Back.For the length for the control line that practices every conceivable frugality, and it can guarantee the flexible motion of arm, the control line installation position is respectively arranged on
The back side of postbrachium and forearm, facilitate the control line on control circuit mainboard can beeline be linked into forearm and postbrachium.Into one
Step, it is rear thinner due to control line point, in order to control line be protected not to be twisted or exposure causes to wear for a long time, therefore
Installation position sets protecting box, and the protective shell protects the control line of branch, and in order to more beautiful, the protective shell is designed to
Special shape is fastened with forearm and postbrachium, can either protect control line, and being capable of aesthetic appeal.
Beneficial effects of the present invention:Miniature steering engine is set by four joints so that robot arm can be multi-direction, more
Artis moves, and adds the flexibility ratio of robot arm so that robot can realize multiple directions, more during fistfight
The attack of a angle, and closely fistfight can be directed to and made a response rapidly, the utility model steering engine passes through whole group gear
Staggeredly, centralized arrangement and the potentiometer shaft of the potentiometer is upward through to the three, the 4th gear teeth of change gear group
Wheel so that the utility model model steering engine is compact-sized, small volume, and then improves the sensitivity rotated and the relay degree that spreads out, from
And it more can effectively complete each joint of robot arm and turn to task.
Description of the drawings
Fig. 1 is robot body's front view of the present invention.
Fig. 2 is floor map residing for robot body of the present invention.
Fig. 3 is robot arm front view of the present invention.
Fig. 4 is robot arm stereogram of the present invention.
Fig. 5 is robot arm top view of the present invention.
Fig. 6 is robot arm explosive view of the present invention.
Fig. 7 is the utility model steering engine explosive view.
Specific embodiment
As shown in Figure 1, a kind of robot arm, is arranged on robot body 1, robot body 1 include front 11, after
Face 12, left surface 13 and right flank 14, as shown in Fig. 2, being floor map residing for robot body, including front and rear parallel surface
15 and left and right side parallel surface 16.As shown in Fig. 3 ~ 4, the arm includes sequentially connected first joint 2, shoulder 3, second closes
Section 4, postbrachium 5, the 3rd joint 6, forearm 7, the 4th joint 8 and hand 9, the shoulder 3 pass through the first joint 2 and robot master
Body 1 connects, and the postbrachium 5 is connected by second joint 4 with shoulder 3, and the forearm 7 is connected by the 3rd joint 6 with postbrachium 5,
The hand 9 is connected by the 4th joint 8 with forearm 7, and the forearm 7 and postbrachium 5 form arm axis.The shoulder 3 is based on
First joint 2 is rotated compared with robot body 1, and rotational plane is parallel to robot or so parallel surface 16;The postbrachium 5 is based on
Second joint 4 is swung compared with shoulder 3, and swaying direction is included towards robot body and away from robot body;The forearm 7
It is rotated based on the 3rd joint 6 compared with postbrachium 5, rotation direction is to be rotated around the arm axis;The hand is based on the 4th and closes
Section 8 is swung compared with forearm 7, swinging axle vertical arm axis.
Further, as shown in figure 5, first joint 2 includes the first steering engine 21 being arranged in robot body 1, sets
In the first axle 22 of robot body 1 Yu 3 junction of shoulder and the clutch shaft bearing 23 of support first axle, the first axle 22 1
End and 3 fixed connection of shoulder, the other end are connected with 21 shaft of the first steering engine, and the robot body 1 is equipped with the first card slot 17
Engage with clutch shaft bearing 23;
As shown in fig. 6, the second joint 4 include be arranged on postbrachium 5 inside the second steering engine 41, arranged on postbrachium 5 and shoulder 3
The of second axis 42 of one side junction, the second bearing 43 for supporting the second axis 42 and postbrachium 5 and 3 opposite side junction of shoulder
One steering wheel 44, described second axis, 42 one end are fixed with postbrachium 5, and the other end is rotatablely connected by second bearing 43 and shoulder 3, described
First steering wheel, 44 one side is fixed with shoulder 3, and opposite side is connected with 41 shaft of the second steering engine;The shoulder 3 include shoulder decoration 31,
Shoulder frame 32, shoulder side plate 33, the postbrachium includes postbrachium decorative frame 51, postbrachium decoration 52, postbrachium shell 53 and postbrachium lid 54, described
Second steering engine 41 is installed on postbrachium shell 53 and postbrachium lid 54 is fastened in the cavity formed.
3rd joint 6 includes the 3rd steering engine 61 arranged on 7 inner upper end of forearm, arranged on 7 junction of postbrachium 5 and forearm
The 3rd axis 62 and support the 3rd bearing 63 of the 3rd axis 62, described 3rd axis, 62 one end and 5 fixed connection of postbrachium are another
End is connected with 61 shaft of the 3rd steering engine, and the forearm 7 engages equipped with the second card slot 71 with 3rd bearing 63;The forearm 7 includes
Forearm decoration 72, forearm shell 73 and forearm lid 74, the forearm shell 73 and 74 upper end of forearm lid mutually fasten to form the second card
Slot 71, and internal formation cavity, install the 3rd steering engine 61 and the 4th steering engine 81.
4th joint 8 includes the 4th steering engine 81 arranged on 7 interior lower end of forearm, connects arranged on forearm 7 and 9 one side of hand
Connect the 4th axis 82, the fourth bearing 83 for supporting the 4th axis 82 and the forearm 7 at place and the second steering wheel of 9 opposite side junction of hand
84, described 4th axis, 82 one end is fixed with forearm 7, and the other end is rotatablely connected by fourth bearing 83 and hand 9, second rudder
84 one side of disk is fixed with hand 9, and opposite side is connected with 81 shaft of the 4th steering engine.
Further, one end that the first axle 22 is connected with the first steering engine 21 is stepped;3rd axis 62 and the 3rd rudder
One end that machine 61 connects is stepped.
Further, 44 and second steering wheel 84 of the first steering wheel is step-like disk, and the step-like disk is by fixing
Formula bilayer disk and the cylindrical shaft composition for being fixed on double-deck disc centre.
Further, the first limit space that size is more than clutch shaft bearing 23 is equipped between the first axle 22 and shoulder 3,
The clutch shaft bearing 23 is mounted in the first limit space and is fixed by the first card slot 17;
Between 3rd axis 62 and postbrachium 5 be equipped with size be more than 3rd bearing 63 the second limit space, the described 3rd
Bearing 63 is mounted in the second limit space and is fixed by the second card slot 71.
The postbrachium 5 and forearm 7 are respectively equipped with control line installation position, are respectively postbrachium decoration 51 and forearm decoration 72
The cavity in besieged city.The control line installation position is equipped with control line entrance, and the postbrachium control line entrance is pacified arranged on postbrachium control line
Position lower end is filled, the forearm control line entrance is arranged on forearm control line installation position upper end.
Further, the control line installation position is respectively arranged on the back side of postbrachium 3 and forearm 4, and the installation position is additionally provided with
Protective shell.
At least a kind of steering engine structure includes steering engine in first steering engine, the second steering engine, the 3rd steering engine and the 4th steering engine
Main body 100, as shown in fig. 7, comprises steering engine main body 100, the steering engine main body 100 include from bottom to top lower cover 10, middle cover 20 and on
Lid 30, middle cover is substantially in the rectangular box shape of lateral arrangement, and two opposite ends of upper cover 30 and lower cover 10 are slightly fined away, wherein,
The bottom surface four corners of upper cover 30 offer mounting hole, and middle cover mounting post is upwardly extended at two adjacent angulars of 20 top surface one end of middle cover
201, middle cover mounting post 201 is installed in the mounting hole of upper cover from bottom to top, is opened up at two adjacent longitudinal ribs of the other end
There is middle cover mounting hole 202, it is corresponding with two mounting holes of upper cover, on 20 bottom surface of middle cover at the position opposite with middle cover mounting post 201
Also middle cover mounting hole is offered, lower cover mounting post 101, lower cover mounting post are upwardly extended at two adjacent angulars of 10 top surface one end of lower cover
101 are installed on from bottom to top in the mounting hole of middle cover bottom surface, and lower cover installation is offered at two adjacent longitudinal ribs of the other end
Hole 102, it is corresponding with the mounting hole of middle cover mounting hole 202 and upper cover, two screws 40 from bottom to top through lower cover mounting hole 102, in
Lid mounting hole 202 is simultaneously locked in the mounting hole of upper cover, is therefrom integrated lower cover 10, middle cover 20 and upper cover 30 lock.This reality
With novel steering engine 100 wiring board 50, motor 80 and potentiometer 60 are assembled in the space after lower cover 10 and the lid of middle cover 20 close;Upper
Lid 30 in the space after the lid conjunction of middle cover 20 with assembling change gear group 90.
The wiring board 50 is embedded inside the lower cover 10.Control circuit mainboard in the robot body passes through several
Signal wire is electrically connected at the wiring board 50, the signal transmission being achieved between the model control device and wiring board 50.
For 20 locking closure of middle cover above lower cover 10, interior side accommodates the motor 80, and opposite side accommodates the current potential
Device 60.The motor 80 and potentiometer 60 are placed in 50 top of wiring board, and then are electrically connected with the wiring board 50, by
This realizes the signal transmission between motor 80 and potentiometer 60 and the wiring board 50.And motor 80 and potentiometer 60 are respectively at top surface
Middle part connects up column motor drive shaft 801 and potentiometer shaft 601.
30 locking closure of upper cover accommodates therebetween the change gear group 90 above middle cover 20.The change gear group
90 include the motor gear 95 of corresponding motor 80 side arrangement, the three, the 4th of corresponding potentiometer 60 side arrangement
Change gear 93,94 and first, second change gear 91,92 being arranged between the both sides.The change gear 91,92,93,
94 are made of one group of coaxial canine tooth 901 and small tooth 902, wherein, which is consolidated in the middle part of the top surface of canine tooth 901.It should
Wait gears 91,92,93,94,95 that there is following relative position relation and meshing relation:Second stud gear 92 is located at first and becomes
The surface of fast gear 91, the two are simultaneously spaced suitable distance;4th change gear 94 is located at the surface of the 3rd change gear 93,
The two is simultaneously spaced suitable distance;The canine tooth 901 of motor gear 95 and first stud gear 91 is located at same level, the two simultaneously that
This engagement;The canine tooth 901 of 902 and the 3rd change gear 93 of small tooth of first stud gear 91 is located at same level, and the two is simultaneously
It is engaged with each other;The small tooth 902 of 3rd change gear 93 is located at same level, the two with the canine tooth 901 of second stud gear 92
And it is engaged with each other;The canine tooth 901 of 902 and the 4th change gear 94 of small tooth of second stud gear 92 is located at same level, and two
Person is simultaneously engaged with each other.
For the utility model model steering engine 100 when assembling, the motor drive shaft 801 of the motor 80 is upward through middle cover 20 and horse
Up to gear 95, which is set up in the top of the motor drive shaft 801, and by the designs of known features and can be with the motor
801 synchronous rotary of axis.The potentiometer shaft 601 of the potentiometer 60 is upward through middle cover 20, the 3rd change gear 93, the 4th speed change
Gear 94 and upper cover 30, the 3rd change gear 93 and the 4th change gear 94 are set up in 601 middle and upper part of potentiometer shaft, this
The small tooth 902 of four change gears 94 is upward convex to be stretched out upper cover 30 and is engaged with the metallic rod of the robot arm joint.It is described
First stud gear 91 is set up in the approximate mid-section of a gear shaft 96 being longitudinally arranged, during the bottom of the gear shaft 96 is embedded at
In lid 20, top is upward through second stud gear 92, which is set up in the top of the gear shaft 96.
The course of work of the utility model model steering engine 100 approximately as:Control circuit master in the robot body
Plate transmits rotation activation signal by signal wire to wiring board 50, and wiring board 50 receives the signal and the rotation of starter motor 80 is made
It is dynamic, and then drive the 90 synchronous rotary start of change gear group.At this time, on the one hand, the 4th change gear 94 of change gear group 90
Small tooth 902 drive the robot arm joint metallic rod synchronous rotary, so as to proceed by the steering of the robot arm
Operation, another aspect the 4th change gear 94 drive 601 synchronous rotary of potentiometer shaft of potentiometer 60 by known features,
And then the rotating signal is fed back to wiring board 50 by the potentiometer 60, so as to control the robot arm by wiring board 50, is made
It can accurately rotate to predetermined direction.
In the above-mentioned course of work, the torque transmission mode of change gear group 90 approximately as:First, motor 80 drives horse
Up to 801 synchronous rotary of axis;Then, motor drive shaft 801 drives 95 synchronous rotary of motor gear;Afterwards, motor gear 95 drive and its
901 synchronous rotary of canine tooth of the first stud gear 91 of engagement, the small tooth 902 of first stud gear 91 also synchronous rotary;Then,
The small tooth 902 of first stud gear 91 drives 901 synchronous rotary of canine tooth of the 3rd change gear 93 engaged, the 3rd speed change
The small tooth 902 of gear 93 also synchronous rotary;Then, the small tooth 902 of the 3rd change gear 93 drives the second speed change engaged
901 synchronous rotary of canine tooth of gear 92, the small tooth 902 of second stud gear 92 also synchronous rotary;And then second stud gear
92 small tooth 902 drives 901 synchronous rotary of canine tooth of the 4th change gear 94 engaged, the small tooth of the 4th change gear 94
902 also synchronous rotaries;Finally, the robot arm joint that the drive of small tooth 902 of the 4th change gear 94 engages
Metallic rod or steering wheel synchronous rotary.
As described above, the steering engine 100 by whole group gear staggeredly, centralized arrangement and by the potentiometer 60
Potentiometer shaft 601 is upward through the three, the 4th change gears 93,94 of change gear group 90 so that the utility model model rudder
Machine 100 is compact-sized, small volume, and then improves the sensitivity rotated and the relay degree that spreads out, so as to more can effectively complete to turn to
Task.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
All any modification, equivalent and improvement made within refreshing and principle etc., should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of miniature steering engine robot arm, is arranged on robot body, robot body includes front/rear face and left/right
Two sides, the arm include sequentially connected first joint, shoulder, second joint, postbrachium, the 3rd joint, forearm, the 4th pass
Section and hand, the shoulder are connected by the first joint with robot body, and the postbrachium is connected by second joint and shoulder
It connects, the forearm is connected by the 3rd joint with postbrachium, and the hand is connected by the 4th joint with forearm, and the forearm is with after
Arm forms arm axis;
The shoulder is rotated based on the first joint compared with robot body, and rotational plane is parallel to robot body side;
The postbrachium is swung based on second joint compared with shoulder, and swaying direction is included towards robot body and away from robot
Main body both direction;
The forearm is rotated based on the 3rd joint compared with postbrachium, and rotation direction is to be rotated around the arm axis;
The hand is based on the 4th joint compared with preceding arm swing, swinging axle vertical arm axis;
First joint, second joint, each built-in steering engine in the 3rd joint and the 4th joint, at least one in the steering engine
Kind steering engine structure includes steering engine main body, which includes lower cover, middle cover and upper cover from bottom to top, and three is by being arranged on therebetween
Mounting post and mounting hole cooperation and fastens, and by screw run through lower cover, middle cover and lock upper cover by lower cover, middle cover and on
Cover lock is integrated, wherein the space after lower cover and middle cover lid close accommodates wiring board, motor and potentiometer, in upper cover and middle cover lid
Space after conjunction accommodates change gear group, which is electrically connected at the wiring board one side, top surface connection motor drive shaft, the current potential
Device is electrically connected at the wiring board opposite side, and top surface connects potentiometer shaft,
It is characterized in that the change gear group includes the motor gear of corresponding motor side arrangement, corresponding potentiometer institute
The three, the 4th change gears of arrangement and first, second change gear being arranged between the both sides in one side, described first,
2nd, three, four change gears include canine tooth and are consolidated in the small tooth of the big crest top land, and the motor gear is set up in the motor
On axis;
First, second change gear is set up on a gear shaft, and the second stud gear is located at first stud gear
Top;Three, the 4th change gear is set up on the potentiometer shaft, and the 4th change gear is located at the 3rd gear teeth
The top of wheel;
The big tooth engagement of the motor gear and first stud gear;The small tooth and the 3rd change gear of the first stud gear
Big tooth engagement;The small tooth of 3rd change gear and the big tooth engagement of second stud gear;The second stud gear
The big tooth engagement of small tooth and the 4th change gear.
2. miniature steering engine robot arm according to claim 1, which is characterized in that the motor gear is set up in the horse
Up to the top of axis, and with the motor drive shaft synchronous rotary.
3. miniature steering engine robot arm according to claim 1, which is characterized in that the small teeth directional of the 4th change gear
On protrude out the steering engine main body.
4. miniature steering engine robot arm according to claim 1, which is characterized in that the first stud gear is set up in institute
The approximate mid-section of gear shaft is stated, the second stud gear is set up in the top of the gear shaft.
5. miniature steering engine robot arm according to claim 1, which is characterized in that first joint includes being arranged on machine
The first axle of the first steering engine in human agent, the first axle arranged on robot body Yu shoulder junction and support first axle
It holds, described first axle one end and the fixed connection of shoulder, the other end are connected with the first steering engine shaft, and the robot body is equipped with
First card slot engages with clutch shaft bearing;
The second joint include be arranged on postbrachium inside the second steering engine, arranged on postbrachium Yu shoulder one side junction the second axis,
Support the second bearing of the second axis and the first steering wheel of postbrachium and shoulder opposite side junction, described second axis one end and postbrachium
Fixed, the other end is rotatablely connected by second bearing and shoulder, and the first steering wheel one side is fixed with shoulder, opposite side and second
Steering engine shaft connects;
3rd joint include arranged on forearm inner upper end the 3rd steering engine, arranged on postbrachium and forearm junction the 3rd axis with
And the 3rd bearing of the 3rd axis of support, described 3rd axis one end and the fixed connection of postbrachium, the other end and the 3rd steering engine shaft connect
It connects, the forearm engages equipped with the second card slot with 3rd bearing;
4th joint includes the 4th steering engine arranged on forearm interior lower end, the arranged on forearm and hand one side junction the 4th
Second steering wheel of axis, the fourth bearing for supporting the 4th axis and forearm and hand opposite side junction, described 4th axis one end with
Forearm is fixed, and the other end is rotatablely connected by fourth bearing and hand, and the second steering wheel one side is fixed with hand, opposite side and
4th steering engine shaft connects.
6. miniature steering engine robot arm according to claim 5, which is characterized in that the first axle is connected with the first steering engine
One end it is stepped;One end that 3rd axis is connected with the 3rd steering engine is stepped.
7. miniature steering engine robot arm according to claim 5, which is characterized in that first steering wheel and the second steering wheel are
Step-like disk, the step-like disk is at least by fixed double-deck disk and is fixed on the cylindrical shaft group of double-deck disc centre
Into.
8. miniature steering engine robot arm according to claim 5, which is characterized in that
The first limit space that size is more than clutch shaft bearing is equipped between the first axle and shoulder, the clutch shaft bearing is mounted on
It is fixed in first limit space by the first card slot;
The second limit space that size is more than 3rd bearing is equipped between 3rd axis and postbrachium, the 3rd bearing is mounted on
It is fixed in second limit space by the second card slot.
9. miniature steering engine robot arm according to claim 1, which is characterized in that the postbrachium and forearm are respectively equipped with control
Line installation position processed, the control line installation position are equipped with control line entrance, and the postbrachium control line entrance is pacified arranged on postbrachium control line
Position lower end is filled, the forearm control line entrance is arranged on forearm control line installation position upper end.
10. miniature steering engine robot arm according to claim 9, which is characterized in that the control line installation position is set respectively
In the back side of postbrachium and forearm, the installation position is additionally provided with protective shell.
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CN201721217510.XU CN207373153U (en) | 2017-09-21 | 2017-09-21 | A kind of miniature steering engine robot arm |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109363892A (en) * | 2018-11-23 | 2019-02-22 | 山东大学 | A kind of parallel flexible upper limb rehabilitation robot of rope driving |
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2017
- 2017-09-21 CN CN201721217510.XU patent/CN207373153U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109363892A (en) * | 2018-11-23 | 2019-02-22 | 山东大学 | A kind of parallel flexible upper limb rehabilitation robot of rope driving |
CN109363892B (en) * | 2018-11-23 | 2024-04-05 | 山东大学 | Rope-driven parallel flexible upper limb rehabilitation robot |
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