CN203752161U - Concentric rotating joint with two-dimensional rotational degree of freedom - Google Patents

Abstract

The utility model relates to a concentric rotating joint with two-dimensional rotational degree of freedom. The concentric rotating joint comprises a concentric rotating basic body composed of two circular rings. The two sides of the outer wall face of each circular ring are provided with outer ball grooves, and the middles of the two outer ball grooves are provided with outer tethered grooves. Both the circular rings are provided with joint supports, one end of each joint support is of an arc-shaped structure, and the other end of each joint support is of a tubular structure. A channel is formed in the position between the arc-shaped structure and the tubular structure. The tubular structure is hollow and is internally provided with a fixed pulley block. The two sides of the inner side wall of the arc-shaped structure end of the joint support are provided with inner ball grooves. The outer side wall of the joint support is provided with a ball guide tube set. One end of each guide tube is communicated with the corresponding inner ball groove, and the other end of each guide tube is communicated with the channel. The inner ball grooves and the outer ball grooves form a ball slideway. A ball set is embedded in a closed roller path composed of the ball slideway, the ball guide tube set and the channel. The outer tethered grooves and the fixed pulley block are sleeved with action tethers. A rotating shaft of the fixed pulley set is driven by an external power source.

Description

A kind of concentric cradle head of the Two Dimensional Rotating free degree

Technical field

The utility model relates to the cradle head in a kind of Robotics field, particularly about a kind of can be the concentric cradle head of robot and all kinds of Two Dimensional Rotating frees degree that use in having the mechanical system of rotary joint.

Background technology

Along with the increase of robot task kind and the lifting of functional requirement, increasing robot need to adopt the assistance of spatial movement mechanism to complete the task of regulation, some spatial movement mechanism has become core and the Main Means that robot executes the task, and the use of spatial movement mechanism has improved the flexibility that robot executes the task, independence and ageing in a large number.

Space development mechanism is the most common a kind of spatial movement mechanism, its operation principle is under the driving of power source, to complete the functions such as expansion, gathering and rotation to structural member, and coordinates to realize the predetermined function of a whole set of space development mechanism by the motion between multiple structural members.Typical space development mechanism has all adopted the mentality of designing to " arm " simulation in simulation of human body, mostly main structure is to be made up of two or many bar structures, between bar structure, the movable joints that adopt connect more, realize the relative motion between bar structure by power source actuation movement joint, coordinate the system motion of realizing a whole set of space development mechanism by the motion between bar structure group, and then complete the execution of space development mechanism entirety compulsory exercise, realize specific function.Therefore, movable joint has determined the kinetic characteristic of space development mechanism, is the key of whole system.

The spatial movement joint problem that emphasis need to be considered is in design how to improve reliability, how to reduce resources occupation rate and how to improve the efficiency of tasks carrying.According to the effect of all kinds of movable joints of using in robot at present, the following shortcoming of ubiquity: 1, system complex: how the function of movable joint realizes by servomotor, servomotor is installed between two structures, servomotor and required mounting structure complexity, simultaneously, servomotor needs the Circuits System such as power supply, control and signals collecting, the further like this complexity that increases system.2, environment for use is limited: due to the existence of motor, in electric machine rotation process, will inevitably produce vibration, noise and electromagnetic field, some are installed on development mechanism and to the equipment of vibration, noise and electromagnetic environment sensitivity and cannot adapt to; On the other hand, the installation environment (installation accuracy, mechanical environment and thermal environment etc.) that motor generally all can provide robot claims, and requirement is very high in some cases, need to design strict guarantee.These features are all restricted the environment for use that makes movable joint.3, reliability is low: system complexity, environment for use require strictly all will to cause the reduction of system reliability, and the particularly dependence to environment for use, has improved the influence degree of external environment factor to system reliability, has reduced the reliability of system.4, resources occupation rate is high: the complexity of system must be brought the increase of weight, volume and electrical power consumed, and these resources are all very valuable for any robot; On the other hand, can only configure to overcome by increase to the high sensitive of environment for use, as increased the means such as system redundancy, structural strengthening, further increase the occupancy of system resource.

Summary of the invention

For the problems referred to above, the purpose of this utility model is to provide a kind of concentric cradle head of the Two Dimensional Rotating free degree, and this articulation structure is simple, and environmental suitability is strong, reliability is high, resources occupation rate is low.

For achieving the above object, the utility model is taked following technical scheme: a kind of concentric cradle head of the Two Dimensional Rotating free degree, it is characterized in that: it comprises a concentric rotation matrix being made up of two annulus, two joint seatings, two groups of action rope systems, two groups of ball set, two groups of fixed pulley groups and two groups of ball guide pipe groups, and described in every group, ball guide pipe group is all made up of two guide pipes; In the outside wall surface of the each annulus of described concentric rotation matrix, be positioned at outside wall surface both sides and be provided with twice ball outer channel, it is outer channel that the centre position place that is positioned at described twice ball outer channel is provided with one rope; On the each annulus of described concentric rotation matrix, be also respectively arranged with a described joint seating, described joint seating one end is arcuate structure, the described joint seating other end is and the integrated tubular structure of described arcuate structure, the inner passage of twice for ball rolling that be provided with between described tubular structure and described arcuate structure, fixed pulley group be provided with one group in the hollow of described tubular structure described in, described fixed pulley group is arranged on described tubular structure by turning cylinder; Be provided with the twice ball internal channel with the corresponding setting of described twice ball outer channel in described joint seating arcuate structure end madial wall both sides; On described joint seating lateral wall, be provided with described two groups of ball guide pipe groups, one end of every described guide pipe with together with described ball internal channel be communicated with, the other end of described guide pipe with together with described channel connection; Described in twice, ball internal channel forms twice ball slideway with ball outer channel described in twice respectively, and described in every group, ball set is all embedded in the closed raceway being made up of described ball slideway, ball guide pipe group and passage; The rope that described in every group, action rope system is set in respectively on described annulus is in outer channel and fixed pulley group, and described action rope is, rope is that outer channel and fixed pulley group form locking rope system, and the turning cylinder of described fixed pulley group is driven by outside power source.

Described in every group, action rope system with the annexation between described concentric rotation matrix, fixed pulley group is: one end that described action rope is is fixed on by fixture on the internal face of described concentric rotation matrix, the rope that the other end is wrapped in annulus one side on described concentric rotation matrix is successively that the rope of outer channel, fixed pulley group, annulus opposite side is outer channel, and described action rope is that the other end is fixed on the internal face of described concentric rotation matrix by another fixture.

The both sides of each described joint seating be respectively arranged with for move rope system through through hole.

Described concentric rotation matrix is made up of an integrated rotating shaft, and described rotating shaft forms by two described annulus are orthogonal, and described in one of them, annulus forms the first rotating shaft, and described in another, annulus forms the second rotating shaft, the axis coinciding of two described rotating shafts; Be positioned at the quadrature position place, two ends of two described annulus, the rope described in one of them on annulus is that outer channel is positioned at outside, and the rope described in another on annulus is that outer channel is formed by the through hole arranging at this quadrature position place.

Described in every group, action rope system all adopts Kevla cord.

Described in every group, fixed pulley group is all made up of three fixed pulleys that are set up in parallel, and offers groove in the inner side of each described fixed pulley; Described fixed pulley in the middle of being positioned at is driving wheel, and the described fixed pulley that is positioned at both sides is driven pulley.

The utility model is owing to taking above technical scheme, it has the following advantages: 1, the utility model rotates matrix with one heart owing to adopting, realize double-axle rotation function by this concentric matrix that rotates, between two rotating shafts, do not need to arrange transition and support, realize rotation matrix with one heart by ball set and mate with the rotation of joint seating, do not need bearing arrangement, and two-dimensional rotary matrix profile is spherical structure, reduce volume and weight, saved installing space, simple in structure; By fixed pulley group drive actions rope system, thereby drive two-dimensional rotary matrix, do not need built-in motor to drive, further reduced volume and weight, saved installing space.2, the utility model, owing to adopting a concentric matrix that rotates to realize double-axle rotation function, has been eliminated the rotation transmission error causing due to factors such as processing, assemblings, has therefore greatly improved the matching precision between double-axle rotation.3, the utility model is because concentric rotation base body profile adopts spherical structure, make the load of bearing in two-dimensional rotary matrix rotation process by geometric center (barycenter), and rotate with one heart between matrix and joint seating and coordinate by ball set, stressed evenly, rotate smoothly, therefore greatly improved system bearing ability.4, the utility model overall structure is lightweight, volume is little, inner without power demands parts, therefore make eccentric rotary of the present utility model joint there is obvious advantage in weight, volume and electrical power consumed demand side, lowered system resource occupancy.5, the utility model due in articulation structure inside without electrical property product, without the high accuracy matching requirements of similar bearing fit, therefore reduced the requirement of system to environment for use, improved environmental suitability.6, the utility model is because the single joint seating adopting can be realized the single axle rotation along certain direction, and adopt two identical joint seatings of version to realize the double-axle rotation along certain both direction, therefore improved the versatility in joint and can keep in repair row; Further, the joint seating external interface that the utility model adopts is simple in structure, can improve like this applicability of the present utility model.7, the utility model because simple in structure, environmental suitability is strong, product versatility and maintenanceability high, and then improved reliability of the present utility model.In sum, the utility model can be widely used on the movable joint mechanism unit of all kinds of robots.

Brief description of the drawings

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the side view of Fig. 1;

Fig. 3 is the A-A cutaway view of Fig. 2;

Fig. 4 is the B-B cutaway view of Fig. 2;

Fig. 5 is joint seating structural representation of the present utility model;

Fig. 6 is concentric rotation base body structure schematic diagram of the present utility model;

Fig. 7 is the C-C cutaway view of Fig. 6;

Fig. 8 is that concentric rotation matrix of the present utility model closes structural representation with action rope system and fixed pulley assembly.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in detail.

As shown in Fig. 1～Fig. 8, the utility model comprises one, and to form the concentric rotation matrix 1 of spherical structure, two joint seatings 2, two groups of fixed pulley groups 3, two groups of ball guide pipe groups 4, two groups of ball set 5 and two groups of action ropes by two annulus be 6, and every group of ball guide pipe group 4 is all made up of two guide pipes.Rotating in the outside wall surface of matrix 1 each annulus with one heart, be positioned at outside wall surface both sides and be provided with twice ball outer channel 7, it is outer channel 8 that the centre position place that is positioned at outside wall surface twice ball outer channel 7 is provided with one rope.Rotating on the each annulus of matrix 1 and be also respectively arranged with a joint seating 2 with one heart, joint seating 2 one end are arcuate structure, to coordinate rotation with concentric rotation matrix 1; Joint seating 2 other ends are and the integrated tubular structure of arcuate structure, the inner passage of twice for ball rolling that be provided with between tubular structure and arcuate structure, in the hollow of tubular structure, be provided with one group of fixed pulley group 3, fixed pulley group 3 is arranged on tubular structure by turning cylinder.Be provided with the twice ball internal channel 9 with the 7 corresponding settings of twice ball outer channel in joint seating 2 arcuate structure end madial wall both sides, on joint seating 2 lateral walls, be provided with two groups of ball guide pipe groups 4, for the path and the guiding that provide ball set motion process to need; One end of every guide pipe with together with ball internal channel 9 be communicated with, the other end of guide pipe with together with ball roll channel connection.Twice ball internal channel 9 forms twice ball slideway with twice ball outer channel 7 respectively, every group of ball set 5 is all embedded in the closed raceway being made up of ball slideway, ball guide pipe group 4 and passage, by ball set 5, rotate matrix 1 and joint seating 2 with one heart and coordinate and form transmission, ball set 5 provides between concentric rotation matrix 1 and joint seating 2 and rotates required environment, and the carrying active force that contact produces between the two.Every group of action rope is that 6 ropes that are set in respectively on annulus are in outer channel 8 and fixed pulley group 3, by action rope be 6, rope is that outer channel 8 and fixed pulley group 3 form locking rope and be, the turning cylinder of fixed pulley group 3 is driven by the power source that is positioned at outside, the utility model open space two dimension eccentric rotary joint, power source drives fixed pulley group 3 to move, be that 6 generations are rotated with one heart matrix 1 and rotated required power by fixed pulley group 3 drive actions ropes, realize and rotate with one heart the rotation between matrix 1 and joint seating 2.Wherein, power source can be placed in the far-end of the concentric cradle head of the utility model Two Dimensional Rotating free degree, can greatly alleviate like this weight and volume of movable joint self.

In above-described embodiment, as shown in Fig. 3, Fig. 8, every group of action rope be 6 with concentric rotation matrix 1, fixed pulley group 3 between annexation be: moving restricts is that one end of 6 is fixed on by fixture on the internal face of concentric rotation matrix 1, the rope that the other end is wrapped in annulus one side on concentric rotation matrix 1 is successively that the rope of outer channel 8, fixed pulley group 3, annulus opposite side is outer channel 8, and being wound around rear action rope is that 6 other ends are fixed on the internal face of concentric rotation matrix 1 by another fixture.

In above-described embodiment, as shown in Figure 6 to 8, rotate with one heart matrix 1 for realizing double-axle rotation function, rotating with one heart matrix 1 is made up of an integrated rotating shaft 10, rotating shaft 10 forms by two annulus are orthogonal, one of them annulus forms the first rotating shaft, and another annulus forms the second rotating shaft, the axis coinciding of two rotating shafts.The two ends of two annulus are orthogonal, are positioned at wherein one end quadrature position, and the rope on one of them annulus is that outer channel 8 is positioned at outside, and the rope on another annulus is that outer channel 8 is positioned at inner side, is provided with a through hole at this quadrature position place; The rope at other end quadrature position place is that outer channel 8 settings are that arranging of outer channel 8 is identical with this proper friendship position rope.

In the various embodiments described above, as shown in Figure 5, the both sides of each joint seating 2 be respectively arranged with for move rope be 6 through holes that pass 11.

In the various embodiments described above, every group of action rope is 6 all to adopt Kevla cord, is used to concentric rotation matrix 1 to provide it to rotate required power.

In the various embodiments described above, every group of fixed pulley group 3 is all made up of three fixed pulleys that are set up in parallel, and offers groove in the inner side of each fixed pulley, is 6 for being wound around action rope.Fixed pulley in the middle of being positioned at is driving wheel, is driven and is realized both forward and reverse directions rotation by outside power source; The fixed pulley that is positioned at both sides is driven pulley, for supporting, transmit and the action rope of leading being 6 effect.

In sum, the mechanical motion principle of the concentric cradle head of the utility model Two Dimensional Rotating free degree is to be driven by fixed pulley group according to action rope system, by coordinating and realize rotating function between joint seating 2 and concentric rotation matrix 1, can realize two-dimensional rotary function by two rotating shafts of concentric rotation matrix 1 orthohormbic structure.

The utility model in use, is clear description use procedure, by two joint seatings of the utility model 2 called after the first joint seating 2 and second joint bearings 2 respectively.In the time of initial position wherein the first joint seating 2 in fixed constraint state, second joint bearing 2 in free state, when action rope is 6 to turn clockwise around the first rotating shaft under the driving of fixed pulley group 3, thereby the second joint bearing 2 being connected with concentric rotation matrix 1 is together turned clockwise around the first rotating shaft, and then make the mechanism kinematic in open space two dimension eccentric rotary joint there is the function that the first rotating shaft single shaft turns clockwise; In like manner, fix the first joint seating 2, second joint bearing 2 is in free state, when action rope is 6 to be rotated counterclockwise around the first rotating shaft under the driving of fixed pulley group 3, thereby the second joint bearing 2 being connected with concentric rotation matrix 1 is together rotated counterclockwise around the first rotating shaft, makes the mechanism kinematic in open space two dimension eccentric rotary joint there is the function that first rotating shaft single shaft is rotated counterclockwise.

Equally, when initial position second joint bearing 2 in fixed constraint state, the first joint seating 2 in free state, when action rope is 6 to turn clockwise around the second rotating shaft under the driving of fixed pulley group 3, thereby the first joint seating 2 being connected with concentric rotation matrix 1 together 10 is turned clockwise around the shaft, make the mechanism kinematic in open space two dimension eccentric rotary joint there is the function that the second rotating shaft single shaft turns clockwise; In like manner, fixing second joint bearing 2, the first joint seating 2 is in free state, when action rope is 6 to be rotated counterclockwise around the second rotating shaft under the driving of fixed pulley group 3, thereby the first joint seating 2 being connected with concentric rotation matrix 1 is together rotated counterclockwise around the second rotating shaft, makes the mechanism kinematic in open space two dimension eccentric rotary joint there is the function that the second rotating shaft single shaft is rotated counterclockwise.

The various embodiments described above are only for illustrating the utility model; the connection of each parts and structure all can change to some extent; on the basis of technical solutions of the utility model; all improvement and equivalents that according to the utility model principle, the connection to indivedual parts and structure are carried out, all should not get rid of outside protection domain of the present utility model.

Claims (10)

1. the concentric cradle head of a Two Dimensional Rotating free degree, it is characterized in that: it comprises a concentric rotation matrix being made up of two annulus, two joint seatings, two groups of action rope systems, two groups of ball set, two groups of fixed pulley groups and two groups of ball guide pipe groups, and described in every group, ball guide pipe group is all made up of two guide pipes;

In the outside wall surface of the each annulus of described concentric rotation matrix, be positioned at outside wall surface both sides and be provided with twice ball outer channel, it is outer channel that the centre position place that is positioned at described twice ball outer channel is provided with one rope; On the each annulus of described concentric rotation matrix, be also respectively arranged with a described joint seating, described joint seating one end is arcuate structure, the described joint seating other end is and the integrated tubular structure of described arcuate structure, the inner passage of twice for ball rolling that be provided with between described tubular structure and described arcuate structure, fixed pulley group be provided with one group in the hollow of described tubular structure described in, described fixed pulley group is arranged on described tubular structure by turning cylinder; Be provided with the twice ball internal channel with the corresponding setting of described twice ball outer channel in described joint seating arcuate structure end madial wall both sides; On described joint seating lateral wall, be provided with described two groups of ball guide pipe groups, one end of every described guide pipe with together with described ball internal channel be communicated with, the other end of described guide pipe with together with described channel connection; Described in twice, ball internal channel forms twice ball slideway with ball outer channel described in twice respectively, and described in every group, ball set is all embedded in the closed raceway being made up of described ball slideway, ball guide pipe group and passage; The rope that described in every group, action rope system is set in respectively on described annulus is in outer channel and fixed pulley group, and described action rope is, rope is that outer channel and fixed pulley group form locking rope system, and the turning cylinder of described fixed pulley group is driven by outside power source.

2. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 1, it is characterized in that: described in every group, action rope system with the annexation between described concentric rotation matrix, fixed pulley group is: one end that described action rope is is fixed on by fixture on the internal face of described concentric rotation matrix, the rope that the other end is wrapped in annulus one side on described concentric rotation matrix is successively that the rope of outer channel, fixed pulley group, annulus opposite side is outer channel, and described action rope is that the other end is fixed on the internal face of described concentric rotation matrix by another fixture.

3. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 1, is characterized in that: the both sides of each described joint seating be respectively arranged with for move rope system through through hole.

4. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 2, is characterized in that: the both sides of each described joint seating be respectively arranged with for move rope system through through hole.

5. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 1 or 2 or 3 or 4, it is characterized in that: described concentric rotation matrix is made up of an integrated rotating shaft, described rotating shaft forms by two described annulus are orthogonal, described in one of them, annulus forms the first rotating shaft, described in another, annulus forms the second rotating shaft, the axis coinciding of two described rotating shafts; Be positioned at the quadrature position place, two ends of two described annulus, the rope described in one of them on annulus is that outer channel is positioned at outside, and the rope described in another on annulus is that outer channel is formed by the through hole arranging at this quadrature position place.

6. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 1 or 2 or 3 or 4, is characterized in that: described in every group, action rope system all adopts Kevla cord.

7. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 5, is characterized in that: described in every group, action rope system all adopts Kevla cord.

8. the concentric cradle head of a kind of Two Dimensional Rotating free degree as described in claim 1 or 2 or 3 or 4 or 7, is characterized in that: described in every group, fixed pulley group is all made up of three fixed pulleys that are set up in parallel, and offers groove in the inner side of each described fixed pulley; Described fixed pulley in the middle of being positioned at is driving wheel, and the described fixed pulley that is positioned at both sides is driven pulley.

9. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 5, is characterized in that: described in every group, fixed pulley group is all made up of three fixed pulleys that are set up in parallel, and offers groove in the inner side of each described fixed pulley; Described fixed pulley in the middle of being positioned at is driving wheel, and the described fixed pulley that is positioned at both sides is driven pulley.

10. the concentric cradle head of a kind of Two Dimensional Rotating free degree as claimed in claim 6, is characterized in that: described in every group, fixed pulley group is all made up of three fixed pulleys that are set up in parallel, and offers groove in the inner side of each described fixed pulley; Described fixed pulley in the middle of being positioned at is driving wheel, and the described fixed pulley that is positioned at both sides is driven pulley.