CN106195181A - A kind of new structure and relevant drive mechanism thereof - Google Patents

Abstract

The present invention relates to a kind of new structure and relevant drive mechanism thereof, belong to field of mechanical technique.This new structure is linkage structure, including rotation section, the first hinge portion, extension, the second hinge portion, glide base, sliding part and driving section, rotation section produces linkage by the first hinge portion with glide base, and produce linkage by extension, the second hinge portion and driving section with the sliding part on glide base, sliding part can reciprocatingly slide again on glide base, thus realizes the circular rings of rotation section around the mutual conversion between motion and the curved reciprocating movement of sliding part.It is the first hinge portion and/or the second hinge portion position-adjustable that this new structure also can be made, and to change shape or the size of sliding part curved reciprocating movement track, meets different application.This new structure can also be connected with other parts and be formed and circular rings can be made around the drive mechanism mutually changed with curved reciprocating movement that moves.

Description

A kind of new structure and relevant drive mechanism thereof

Technical field

The present invention relates to a kind of new structure and the drive mechanism that circular rings can be made mutually to change around motion and curved reciprocating movement thereof, belong to field of mechanical technique.

Background technology

Circular rings can be done a lot of around the component of motion in field of mechanical technique, but the parts that can do some curved reciprocating movement are few, how to realize the circular rings mutual conversion around motion with curved reciprocating movement (such as: similar oval motion), and trajectory shape or the size of curved reciprocating movement can be changed, it is one and needs to be further improved problem.

Summary of the invention

The present invention provides a kind of new structure and the drive mechanism that circular rings can be made mutually to change with curved reciprocating movement thereof around motion, and can change trajectory shape or the size of curved reciprocating movement, provides more selection to field of mechanical technique, to be suitable for different application.

This new structure, including: the 1, first hinge portion 2, rotation section, extension the 3, second hinge portion 4, glide base 5, sliding part 6 and driving section 7, it is characterized in that: 1. for for rotation section 1, this rotation section 1 rotates about it central shaft O and does circular rings around motion, rotation section 1 shape does not limits, as used the rational shapes such as shaft-like, discoid；2., for for the first hinge portion 2, first one end, hinge portion 2 and rotation section 1 are connected to somewhere on rotation section 1, and the first hinge portion 2 is parallel with the rotary middle spindle O of rotation section 1；3. for for extension 3, extension 3 is connected with first hinge portion 2 other end, extension 3 has the extension that the direction being directed away from rotary middle spindle O from it and the first junction, hinge portion 2 extends, and extension 3 shape does not limits, as used the rational shapes such as shaft-like, discoid；4., for for the second hinge portion 4, second one end, hinge portion 4 and extension 3 are connected to certain point on the extension of above-mentioned extension 3, and the second hinge portion 4 is parallel with the rotary middle spindle O of rotation section 1；5. for for glide base 5, there is a supporting part 5A glide base 5 one end, supporting part 5A is articulated on the first hinge portion 2, and rotate around the first hinge portion 2, a supporting part 5B, supporting part 5B also should be had on glide base 5 need to be connected with other parts thus on the basis of this new structure, form the drive mechanism that circular rings can be made mutually to change around motion and curved reciprocating movement；6. for for sliding part 6, having mutually constraint between sliding part 6 and glide base 5, under mutually constraint, sliding part 6 reciprocatingly slides along specific track on glide base 5, sliding part 6 can not depart from glide base 5, and in concrete application, sliding part 6 can also be connected with other linkage part；7., for for driving section 7, transferring on the second hinge portion 4 in one end of driving section 7, the other end of driving section 7 is transferred on sliding part 6；8. the inside and outside order of these new structure parts is respectively: in the 1(of rotation section), glide base 5, extension 3, driving section 7(outer), or inside and outside order is contrary, and during linkage, each parts do not hinder；9. this new structure is linkage system, and according to connected effect, the when that any one central parts moving, other parts also can link therewith；10. do circular rings in time moving when rotation section 1 rotates about it central shaft O, the supporting part 5A of glide base 5 follows while the first hinge portion 2 rotates around rotary middle spindle O and rotates also around the first hinge portion 2, thus drive glide base 5 to move reciprocatingly, one end of driving section 7 is followed while the second hinge portion 4 rotates around rotary middle spindle O and is rotated also around the second hinge portion 4, the other end of driving section 7 drives sliding part 6 to reciprocatingly slide along specific track on glide base 5 by switching part, owing to being linkage system, thus the circular rings realizing rotation section 1 is mutually changed around the curved reciprocating movement of motion with sliding part 6.

The maximum feature of this new structure is: the curvilinear path that sliding part 6 is formed from the perspective of absolute movement, longitudinal span of this curvilinear path is mainly determined by second hinge portion 4 radius of gyration relative to rotary middle spindle O, the horizontal span of this curvilinear path is mainly determined by first hinge portion 2 radius of gyration relative to rotary middle spindle O, longitudinal span of this curvilinear path is bigger than horizontal span, thus sliding part 6 can be made to obtain different curvilinear paths and different longitudinal span horizontal span ratios by the position that default first hinge portion 2 and the second hinge portion 4 are different, to meet different application.

It is adjustable that this new structure also can be made, and by regulating first hinge portion 2 and/or the second hinge portion 4 radius of gyration relative to rotary middle spindle O, changes shape or the size of sliding part 6 curved reciprocating movement track, to meet different application.

Described adjustable new structure, it is characterized in that: the first hinge portion 2 be arranged to can on rotation section 1 adjusting position, still it is connected with rotation section 1 after regulation, and the first hinge portion 2 is still parallel with rotary middle spindle O, after regulation, the first hinge portion 2 becomes big with the junction point of rotation section 1 radius of turn relative to rotary middle spindle O or diminishes, for coordinating the first hinge portion 2 after regulating, the length of corresponding glide base 5 can be configured as adjustable；And/or the second hinge portion 4 be arranged to can on extension 3 adjusting position, still it is connected with extension 3 after regulation, and the second hinge portion 4 is still parallel with rotary middle spindle O, after regulation, the second hinge portion 4 becomes big with the junction point of extension 3 radius of turn relative to rotary middle spindle O or diminishes, for coordinating the second hinge portion 4 after regulating, the length of corresponding driving section 7 can be configured as adjustable.

Supporting part 5B need be connected with other parts, thus forms the drive mechanism that circular rings can be made mutually to change around motion and curved reciprocating movement on the basis of this new structure, and this drive mechanism has several scheme in the connection of supporting part 5B.

Scheme one: the supporting part 5B of glide base 5 is arranged on a glide base 8 slip, mutually constraint is had between supporting part 5B and this glide base 8, under mutually constraint, supporting part 5B can reciprocatingly slide according to specific track on this glide base 8, and supporting part 5B can not depart from glide base 8；Glide base 8 can be slide rail, chute or sliding surface；Glide base 8 can be linearity, curve-like or linearity and curvilinear combination.

Scheme two: the supporting part 5B of glide base 5 and tilting member 9 pivot joint.

Scheme three: the supporting part 5B of glide base 5 and rotating parts 10 connect, has mutually constraint between supporting part 5B and this parts 10, supporting part 5B longitudinally can reciprocatingly slide along it on parts 10, and rotates, but can not transverse shakiness.

Scheme four: the supporting part 5B of glide base 5 and rotary part 11 pivot joint, the drive-connecting shaft that supporting part 5B follows while this rotary part 11 rotates around the rotary middle spindle of rotary part 11 also around supporting part 5B and rotary part 11 rotates, and the radius of turn that supporting part 5B rotates around the rotary middle spindle of rotary part 11 is consistent with the radius of turn that supporting part 5A rotates around the rotary middle spindle O of rotation section 1；If running into above-mentioned adjustable supporting part 5A, supporting part 5B radius of turn to be arranged to is adjustable, and supporting part 5A must keep consistent with the radius of turn of supporting part 5B.

Accompanying drawing explanation

For further illustrating the present invention, describe in detail in thereafter incorporated by reference to the following drawings.

Fig. 1 is the schematic perspective view of the first preferred embodiment of new structure of the present invention.

Fig. 2 is the perspective exploded view of Fig. 1.

Fig. 3 is the schematic perspective view of the second preferred embodiment of new structure of the present invention.

Fig. 4 is the perspective exploded view of Fig. 3.

Fig. 5 is the schematic perspective view of the 3rd preferred embodiment of new structure of the present invention.

Fig. 6 is the perspective exploded view of Fig. 5.

Fig. 7 is the sectional perspective schematic diagram of the first preferred embodiment of new structure variable partition of the present invention.

Fig. 8 is the perspective exploded view of Fig. 7.

Fig. 9 is the sectional perspective schematic diagram of the second preferred embodiment of new structure variable partition of the present invention.

Figure 10 is the perspective exploded view of Fig. 9.

Figure 11 is the schematic perspective view of the first preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

Figure 12 is the perspective exploded view of Figure 11.

Figure 13 is the schematic perspective view of the second preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

Figure 14 is the schematic perspective view of the 3rd preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

Figure 15 is the schematic perspective view of the 4th preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

Figure 16 is the perspective exploded view of Figure 15.

Figure 17 is the schematic perspective view of the 5th preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

Detailed description of the invention

Technical scheme is elaborated by specific embodiment further that be given below in conjunction with the accompanying drawings.

Fig. 1 and Fig. 2 is the first preferred embodiment of invention new structure.

New structure shown in Fig. 1 and Fig. 2, including: the 1, first hinge portion 2, rotation section, extension the 3, second hinge portion 4, glide base 5, sliding part 6 and driving section 7.

For rotation section 1, this rotation section 1 is shaft-like, and rotation section 1 rotates about it central shaft O and does circular rings around motion.

For the first hinge portion 2, first one end, hinge portion 2 and rotation section 1 are connected on rotation section 1 at one, and the first hinge portion 2 is parallel with the rotary middle spindle O of rotation section 1.

For extension 3, this extension 3 is shaft-like, and extension 3 is connected with first hinge portion 2 other end, and extension 3 has the extension that the direction being directed away from rotary middle spindle O from it and the first junction, hinge portion 2 extends.

For the second hinge portion 4, second one end, hinge portion 4 and extension 3 are connected on the extension of above-mentioned extension 3 a bit, and the second hinge portion 4 is parallel with the rotary middle spindle O of rotation section 1.

For glide base 5, glide base 5 is provided with two arc chutes, there is a supporting part 5A glide base 5 one end, supporting part 5A is articulated on the first hinge portion 2, and rotate around the first hinge portion 2, a supporting part 5B, supporting part 5B also should be had on glide base 5 need to be connected with other parts thus on the basis of this new structure, form a kind of drive mechanism that circular rings can be made mutually to change around motion and curved reciprocating movement.

For sliding part 6, sliding part 6 is with eight pulleys, wherein four pulleys may enter in two arc grooves set on glide base 5, under the mutually constraint of pulley and arc chute, sliding part 6 track along arc chute on glide base 5 reciprocatingly slides, sliding part 6 can not depart from glide base 5, and sliding part 6 can also be connected with other parts, to obtain widely purposes.

For driving section 7, one end of driving section 7 is articulated on the second hinge portion 4, and the other end of driving section 7 is articulated on sliding part 6.

The inside and outside order of these new structure parts is respectively: in the 1(of rotation section), glide base 5, extension 3, driving section 7(outer), during linkage, each parts do not hinder.

This new structure is linkage system, and according to connected effect, the when that any one central parts moving, other parts also can link therewith.

Circular rings is done in time moving when rotation section 1 rotates about it central shaft O, the supporting part 5A of glide base 5 follows while the first hinge portion 2 rotates around rotary middle spindle O and rotates also around the first hinge portion 2, thus drive glide base 5 to move reciprocatingly, one end of driving section 7 is followed while the second hinge portion 4 rotates around rotary middle spindle O and is rotated also around the second hinge portion 4, the other end of driving section 7 drives sliding part 6 to reciprocatingly slide along the track of specific arc groove on glide base 5 by articulated section, thus the circular rings realizing rotation section 1 is mutually changed around the curved reciprocating movement of motion with sliding part 6.

Fig. 3 and Fig. 4 is the second preferred embodiment of new structure of the present invention.

The difference of Fig. 3 with Fig. 1 embodiment is that the shape that rotation section 1 uses is discoid, and other composition is identical.

Fig. 5 and Fig. 6 is the 3rd preferred embodiment of new structure of the present invention.

The difference of Fig. 5 with Fig. 1 embodiment is that the shape that extension 3 uses is discoid, and other composition is identical.

Fig. 7 and Fig. 8 is the first preferred embodiment of new structure variable partition of the present invention.

nullFig. 7 embodiment is the improvement of Fig. 1 embodiment，On the basis of Fig. 1 embodiment，In shaft-like rotation section 1, a groove 12 is set，First hinge portion 2 arranges a slide block 13，Slide block 13 and groove 12 match and can slide in groove 12，Slide block 13 is provided with the hole passed for screw rod，Groove 12 is provided with the screw that some are equidistant，Can be fixed in the groove 12 of shaft-like rotation section 1 with 14 the first hinge portions 2 of bolt，Thus realize regulating the first hinge portion 2 when required by the position of adjusting slider 13，After regulation, the first hinge portion 2 is still parallel with rotary middle spindle O，First hinge portion 2 becomes big with the junction point of shaft-like rotation section 1 radius of turn relative to rotary middle spindle O or diminishes，For the first hinge portion 2 after the above-mentioned regulation of cooperation，The length of corresponding glide base 5 can be configured as adjustable.

And at extension 3, a groove 12A is set, second hinge portion 4 arranges a slide block 13A, slide block 13A and groove 12A matches and can slide in groove 12A, slide block 13A is provided with the hole passed for screw rod, groove 12A is provided with the screw that some are equidistant, with bolt 14A, the second hinge portion 4 can be fixed in the groove 12A of extension 3, thus realize regulating the second hinge portion 4 when required by the position of adjusting slider 13A, after regulation, the second hinge portion 4 is still parallel with rotary middle spindle O, second hinge portion 4 becomes big with the junction point of extension 3 radius of turn relative to rotary middle spindle O or diminishes, for the second hinge portion 4 after the above-mentioned regulation of cooperation, the length of corresponding driving section 7 can be configured as adjustable.

Fig. 9 and Figure 10 is the second preferred embodiment of new structure variable partition of the present invention.

The difference of Fig. 9 with Fig. 7 embodiment is that the shape that rotation section 1 uses is discoid rather than shaft-like, and other composition is identical.

Figure 11 and Figure 12 be drive mechanism supporting part 5B of the present invention connect the first preferred embodiment.

In Figure 11 embodiment, the supporting part 5B of glide base 5 is arranged on one and slides as on the straight slide rail 8 of glide base, slide rail 8 is provided with two arc chutes straight, supporting part 5B and slide assemblies 15 pivot joint with eight pulleys, wherein four pulleys match with chute, mutually retrained with chute by pulley between slide assemblies 15 and straight slide rail 8, under mutually constraint, supporting part 5B follows slide assemblies 15 and reciprocatingly slides according to the track of particular groove on this straight slide rail 8, slide assemblies 15 can not depart from slide rail 8, the representative rotating shaft of the dotted line in figure.

Figure 13 is the second preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

What the difference of Figure 13 Yu Figure 11 embodiment was glide base uses bend 8 rather than straight slide rail, and other composition is similar.

Figure 14 is the 3rd preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

In Figure 14 embodiment, the supporting part 5B of glide base 5 and tilting member 9 pivot joint, supporting part 5B follows tilting member 9 and swings, the representative rotating shaft of the dotted line in figure.

Figure 15 and Figure 16 is the 4th good embodiment that drive mechanism supporting part 5B of the present invention connects.

In Figure 15 embodiment, the supporting part 5B of glide base 5 is provided with two arc chutes, supporting part 5B and rotating parts 10 connect, parts 10 are with shell, rotating shaft, four, top pulley and two, lower section pulley, four pulleys in top match with chute, six pulleys and chute are the mutual constraints between supporting part 5B and parts 10, under mutually constraint, supporting part 5B can reciprocatingly slide on parts 10 along the longitudinal of glide base 5, and follow parts 10 and rotate, but can not transverse shakiness and disengaging parts 10, the representative rotating shaft of the dotted line in figure.

Figure 17 is the 5th preferred embodiment that drive mechanism supporting part 5B of the present invention connects.

In Figure 17 embodiment, the supporting part 5B of glide base 5 and rotary part 11 pivot joint, the drive-connecting shaft that supporting part 5B follows while this rotary part 11 rotates around the rotary middle spindle of rotary part 11 also around supporting part 5B and rotary part 11 rotates, and the radius of turn that supporting part 5B rotates around the rotary middle spindle of rotary part 11 is consistent with the radius of turn that supporting part 5A rotates around the rotary middle spindle O of rotation section 1.

Particular embodiments described above is some embodiments of the present invention; not the present invention is made any pro forma restriction; other variant and remodeling is also had on the premise of without departing from the technical scheme described in claim; the analog structure of every employing present invention and change thereof, all should list protection scope of the present invention in.

Claims (6)

1. a new structure, this new structure can be connected with other parts and be formed and circular rings can be made around moving the drive mechanism mutually changed with curved reciprocating movement, this new structure includes: rotation section (1), the first hinge portion (2), extension (3), the second hinge portion (4), glide base (5), sliding part (6) and driving section (7), it is characterised in that:

For rotation section (1), this rotation section (1) rotates about it central shaft (O) and does circular rings around motion；

For the first hinge portion (2), first hinge portion (2) one end and rotation section (1) are connected to upper somewhere, rotation section (1), and the first hinge portion (2) are parallel with the rotary middle spindle of rotation section (1) (O)；

For extension (3), extension (3) is connected with the first hinge portion (2) other end, and extension (3) has the extension that the direction being directed away from rotary middle spindle (O) from it and the first hinge portion (2) junction extends；

For the second hinge portion (4), second hinge portion (4) one end and extension (3) are connected on the extension of above-mentioned extension (3) certain point, and the second hinge portion (4) are parallel with the rotary middle spindle of rotation section (1) (O)；

For glide base (5), there is a supporting part (5A) glide base (5) one end, supporting part (5A) is articulated on the first hinge portion (2), and rotate around the first hinge portion (2), also should have a supporting part (5B) on glide base (5), supporting part (5B) need be connected with other parts thus form the drive mechanism that circular rings can be made mutually to change around motion and curved reciprocating movement on the basis of this new structure；

For sliding part (6), mutually constraint is had between sliding part (6) and glide base (5), under mutually constraint, sliding part (6) reciprocatingly slides along specific track on glide base (5), and sliding part (6) can not depart from glide base (5)；

For driving section (7), the one end of driving section (7) is transferred on the second hinge portion (4), and the other end of driving section (7) is transferred on sliding part (6)；

The inside and outside order of these new structure parts is respectively: in the 1(of rotation section), glide base 5, extension 3, driving section 7(outer), or inside and outside order is contrary, and during linkage, each parts do not hinder；

This new structure is linkage system, and according to connected effect, the when that any one central parts moving, other parts also can link therewith；

Circular rings is done in time moving when rotation section (1) rotates about it central shaft (O), the supporting part (5A) of glide base (5) is followed while the first hinge portion (2) rotates around rotary middle spindle (O) and is rotated also around the first hinge portion (2), thus drive glide base (5) to move reciprocatingly, one end of driving section (7) is followed while the second hinge portion (4) rotates around rotary middle spindle (O) and is rotated also around the second hinge portion (4), the other end of driving section (7) drives sliding part (6) to reciprocatingly slide along specific track on glide base (5) by switching part, thus realize the circular rings mutual conversion around motion with the curved reciprocating movement of sliding part (6) of rotation section (1).

New structure the most according to claim 1, it is characterised in that:

First hinge portion (2) is arranged to can be at rotation section (1) upper adjusting position, still it is connected with rotation section (1) after regulation, and the first hinge portion (2) are still parallel with rotary middle spindle (O), after regulation, the first hinge portion (2) and the junction point of rotation section (1) become big relative to the radius of turn of rotary middle spindle (O) or diminish, for coordinating the first hinge portion (2) after regulating, the length of corresponding glide base (5) can be configured as adjustable；

And/or the second hinge portion (4) are arranged to can be at the upper adjusting position of extension (3), still it is connected with extension (3) after regulation, and the second hinge portion (4) are still parallel with rotary middle spindle (O), after regulation, the second hinge portion (4) and the junction point of extension (3) become big relative to the radius of turn of rotary middle spindle (O) or diminish, for coordinating the second hinge portion (4) after regulating, the length of corresponding driving section (7) can be configured as adjustable.

3. one kind can make the drive mechanism that circular rings is mutually changed around motion and curved reciprocating movement, it is characterised in that:

Use new structure described in claim 1 or 2；

This drive mechanism is connected with other parts at supporting part (5B) by new structure and is formed, its connected mode is: the supporting part (5B) of glide base (5) is arranged on the upper slip of a glide base (8), mutually constraint is had between supporting part (5B) and this glide base (8), under mutually constraint, supporting part (5B) can reciprocatingly slide according to specific track on this glide base (8), and supporting part (5B) can not depart from glide base (8).

4. one kind can make the drive mechanism that circular rings is mutually changed around motion and curved reciprocating movement, it is characterised in that:

Use new structure described in claim 1 or 2；

This drive mechanism is connected with other parts at supporting part (5B) by new structure and is formed, and its connected mode is: the supporting part (5B) of glide base (5) and a tilting member (9) pivot joint.

5. one kind can make the drive mechanism that circular rings is mutually changed around motion and curved reciprocating movement, it is characterised in that:

Use new structure described in claim 1 or 2；

This drive mechanism is connected with other parts at supporting part (5B) by new structure and is formed, its connected mode is: the supporting part (5B) of glide base (5) is connected with rotating parts (10), mutually constraint is had between supporting part (5B) and this parts (10), supporting part (5B) longitudinally can reciprocatingly slide along it on parts (10), and rotate, but can not transverse shakiness.

6. one kind can make the drive mechanism that circular rings is mutually changed around motion and curved reciprocating movement, it is characterised in that:

Use new structure described in claim 1 or 2；

This drive mechanism is connected with other parts at supporting part (5B) by new structure and is formed, its connected mode is: the supporting part (5B) of glide base (5) and a rotary part (11) pivot joint, the drive-connecting shaft that supporting part (5B) is followed while this rotary part (11) rotates around the rotary middle spindle of rotary part (11) also around supporting part (5B) and rotary part (11) rotates, the radius of turn that supporting part (5B) rotates around the rotary middle spindle of rotary part (11) is consistent with the radius of turn that supporting part (5A) rotates around the rotary middle spindle (O) of rotation section (1)；If running into the adjustable supporting part (5A) described in claim 2, supporting part (5B) radius of turn to be arranged to is adjustable, and supporting part (5A) must keep consistent with the radius of turn of supporting part (5B).