CN107289084A - A kind of drive method and apply its transmission mechanism - Google Patents

Abstract

The invention discloses a kind of drive method, gear unit described in two or more or the gear unit described in mobile two or more in the sagittal plane of gear unit are moved according to gear unit radial direction between dynamic structure body A and dynamic structure body B；Make the dynamic structure body A through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure body A through STATEMENT OF FEDERALLY SPONSORED again through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure body A through the gear unit again through STATEMENT OF FEDERALLY SPONSORED and dynamic structure body B formation drive connections, or make the dynamic structure body A through STATEMENT OF FEDERALLY SPONSORED A, the gear unit and STATEMENT OF FEDERALLY SPONSORED B and dynamic structure body B formation drive connections.The invention also discloses the transmission mechanism of the application drive method.Drive method disclosed in this invention can provide multiple gears, have simple in construction, the advantage more than gear using the transmission mechanism of the drive method.

Description

A kind of drive method and apply its transmission mechanism

Technical field

The present invention relates to power and transmission field, more particularly to drive method, the invention further relates to apply the drive method Transmission mechanism.

Background technology

Gear, for example, gearbox, complicated using quite varied, current gearbox designs in transmission system, gear Position is few.Accordingly, it would be desirable to invent a kind of Novel transmission method and transmission mechanism.

The content of the invention

In order to solve the above problems, technical scheme proposed by the present invention is as follows：

Scheme 1：A kind of drive method, according to gear unit radial direction between dynamic structure body A and dynamic structure body B Gear unit described in mobile two or more or the gear unit described in mobile two or more in the sagittal plane of gear unit；Make institute Dynamic structure body A is stated through the gear unit and dynamic structure body B formation drive connections, or makes the dynamic structure body A Through STATEMENT OF FEDERALLY SPONSORED again through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure body A through institute Gear unit is stated again through STATEMENT OF FEDERALLY SPONSORED and dynamic structure body B formation drive connections, or make the dynamic structure body A through STATEMENT OF FEDERALLY SPONSORED A, the gear unit and STATEMENT OF FEDERALLY SPONSORED B and dynamic structure body B formation drive connections.

Scheme 2：On the basis of scheme 1, further optionally selection moves the transmission list by rotary part Member, or the gear unit is moved by chain, or the gear unit is moved by reciprocating structure body, or moved by slideway The gear unit.

Scheme 3：On the basis of scheme 2, further optionally selection makes the drive connection be set to through clutch, warp Concaveconvex structure or the drive connection through magnetic force area.

Scheme 4：On the basis of scheme 3, the concaveconvex structure is further set to be set to spline.

Scheme 5：On the basis of scheme 1, further optionally selection makes the drive connection be set to through clutch, warp Concaveconvex structure or the drive connection through magnetic force area.

Scheme 6：On the basis of scheme 5, further the concaveconvex structure is optionally set to be set to spline.

Scheme 7：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B And rotary part, the dynamic structure body A is set to line shaft A, the dynamic structure body B and is set to line shaft B, the line shaft A, at least one described rotary part and the line shaft B are equipped with, and two or more is set on the rotary part The different gear unit of gearratio, the line shaft A is driven through the gear unit and the line shaft B and set.

Scheme 8：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B And rotary part, the dynamic structure body A is set to line shaft A, the dynamic structure body B and is set to line shaft B, the line shaft A, at least one described rotary part and the line shaft B are equipped with, and two or more is set on the rotary part The different gear unit of gearratio, the line shaft A is single through clutch A or through concaveconvex structure A or through magnetic force area A and the transmission Member transmission is set, and the gear unit is set through clutch B or through concaveconvex structure B or through magnetic force area B and line shaft B transmissions Put.

Scheme 9：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B And rotary part, the dynamic structure body A is set to line shaft A, the dynamic structure body B and is set to line shaft B, the line shaft A, at least one described rotary part and the line shaft B are equipped with, and two or more is set on the rotary part The different gear unit of gearratio, the line shaft A is single through clutch A or through concaveconvex structure A or through magnetic force area A and the transmission Member transmission is set, and the gear unit is driven with the line shaft B and set.

Scheme 10：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B and rotary part, the dynamic structure body A are set to line shaft A, the dynamic structure body B and are set to line shaft B, the power Axle A, at least one described rotary part and the line shaft B are equipped with, on the rotary part set two with The different gear unit of upper gearratio, the line shaft A is driven with the gear unit and set, and the gear unit is through clutch B is driven setting through concaveconvex structure B or through the magnetic force area B and line shaft B.

Scheme 11：On the basis of scheme 7, further optionally selection makes including revolving structure described in two or more In the structure of body, the gear unit on two adjacent rotary parts is through clutch or through concaveconvex structure or through magnetic The transmission of power area is set.

Scheme 12：On the basis of scheme 11, the concaveconvex structure is further set to be set to spline.

Scheme 13：On the basis of scheme 8, further optionally selection makes the concaveconvex structure A and/or the bumps Structure B is set to spline.

Scheme 14：On the basis of scheme 9, further optionally selection makes the concaveconvex structure A be set to spline.

Scheme 15：On the basis of scheme 10, the concaveconvex structure B is further set to be set to spline.

Scheme 16：On the basis of scheme 8, further optionally selection makes including revolving structure described in two or more In the structure of body, the gear unit in drive state on two adjacent rotary parts is through clutch or warp Concaveconvex structure is driven setting through magnetic force area.

Scheme 17：On the basis of scheme 16, further optionally selection makes the concaveconvex structure A, the concavo-convex knot Structure B and/or the concaveconvex structure are set to spline.

Scheme 18：On the basis of scheme 9, further optionally selection makes including revolving structure described in two or more In the structure of body, the gear unit in drive state on two adjacent rotary parts is through clutch or warp Concaveconvex structure is driven setting through magnetic force area.

Scheme 19：On the basis of scheme 18, further optionally selection makes the concaveconvex structure A and/or described recessed Male structure is set to spline.

Scheme 20：On the basis of scheme 10, further optionally selection makes including turning round knot described in two or more In the structure of structure body, the gear unit in drive state on two adjacent rotary parts through clutch or It is driven through concaveconvex structure or through magnetic force area and sets.

Scheme 21：On the basis of scheme 20, further optionally selection makes the concaveconvex structure B and/or described recessed Male structure is set to spline.

Scheme 22：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B and rotary part, the dynamic structure body A are set to line shaft A, the dynamic structure body B and are set to line shaft B, the power Axle A, the rotary part and the line shaft B are equipped with, and two or more gearratio is set on the rotary part Different gear units, controlling the corner of the rotary part enables the line shaft A and the line shaft B through different The gear unit transmission is set.

Scheme 23：The transmission mechanism of drive method described in a kind of application scheme 1, including dynamic structure body A, dynamic structure body B, rotary part A and rotary part B, the dynamic structure body A are set to line shaft A, the dynamic structure body B and are set to power Axle B, the line shaft A, the rotary part A, the rotary part B and the line shaft B are equipped with, at described time Two or more gearratio different gear unit A is set on rotation structure body A, two or more is set on the rotary part B The different gear unit B of gearratio；The corner of the rotary part A and/or the corner of the rotary part B is controlled to make institute Setting, or control can be driven through the gear unit B and the different gear unit A by stating the line shaft A and line shaft B The corner of the rotary part A and/or the rotary part B corner enable the line shaft A and the line shaft B Be driven and set through the gear unit A and different gear unit B, or the control rotary part A corner and/or The corner of the rotary part B enables the line shaft A and the line shaft B through the different gear unit A and not Same gear unit B transmissions are set.

Scheme 24：In scheme 7 to 22 on the basis of either a program, the gear unit is further set to be set to planetary mechanism Gear unit.

Scheme 25：On the basis of scheme 23, further optionally selection makes the gear unit A and/or the biography Moving cell B is set to planetary mechanism gear unit.

In the present invention, the gear unit includes gearratio and is more than the 1, gear unit equal to 1 or less than 1, gearratio etc. The gear unit in 1 may be configured as drive mechanism body or power transmission shaft.

In the present invention, the gearratios of at least two gear units in all gear units is not equal to 1, or including In the gear unit A and the gear unit B scheme, in all gear unit A and all gear unit B The gearratio of at least two gear units is not equal to 1.

In the present invention, so-called " radial direction movement " refer to according to the gear unit input shaft or output shaft half The gear unit is moved in footpath direction, including is moved according to arc direction.

In the present invention, so-called " sagittal plane of gear unit " refers to be perpendicular or substantially perpendicular to the gear unit Input shaft or output shaft where plane.

In the present invention, the letter such as so-called " A ", " B " is added after a certain component names merely to distinguishing two or several Title identical part.

In the present invention, so-called " mechanically connect and set " refers to all linkage settings mechanically, alternative Selection is fixedly connected with setting, integrated setting and transmission and set.

In the present invention, so-called " A and B, which is driven, to be set " refers to the machine of A and/or A mechanical connection setting piece and B and/or B Tool connection setting piece transmission is set.

In the present invention, some more than numerical value A and some below numerical value A include this number A.

In the present invention, necessary part, list should be set in necessary place according to power and the known technology of transmission field Member or system etc..

Beneficial effects of the present invention are as follows:

The disclosed drive method of the present invention can provide multiple gears, using the transmission mechanism structure of the drive method Simply, gear is more.

Brief description of the drawings

Fig. 1：The structural representation of the embodiment of the present invention 1；

Fig. 2：The structural representation of the embodiment of the present invention 2.

Embodiment

The invention discloses a kind of drive method, according to gear unit footpath between dynamic structure body A and dynamic structure body B List is driven to gear unit described in direction movement two or more or in the sagittal plane of gear unit described in mobile two or more Member；Make the dynamic structure body A through the gear unit and dynamic structure body B formation drive connections, or make the power Structure A is through STATEMENT OF FEDERALLY SPONSORED again through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure Body A is through the gear unit again through STATEMENT OF FEDERALLY SPONSORED and dynamic structure body B formation drive connections, or make the dynamic structure body A Through STATEMENT OF FEDERALLY SPONSORED A, the gear unit and STATEMENT OF FEDERALLY SPONSORED B and dynamic structure body B formation drive connections.

The above method disclosed in this invention is also selectively chosen moves the gear unit by rotary part, Or the gear unit is moved by chain, or by described in reciprocating structure body (such as piston mechanism or linkage) movement Gear unit, or the gear unit is moved by slideway.

The above method disclosed in this invention, which is also selectively chosen, makes the drive connection be set to through clutch, through recessed Male structure or the drive connection formed through magnetic force area；And further can optionally select to make the concaveconvex structure be set to spline Or gear mechanism.

Such scheme disclosed in this invention, which is also selectively chosen, makes the dynamic structure body A and the dynamic structure Drive connection between body B is set to the drive connection formed through clutch, through concaveconvex structure or through magnetic force area；And can be further Optionally selection makes the concaveconvex structure be set to spline or is set to gear mechanism.

Preceding method is described further with reference to specific embodiments and the drawings：

Embodiment 1

A kind of transmission mechanism of application aforementioned drive method, as shown in figure 1, including dynamic structure body A 1, dynamic structure body B 2 and rotary part 3, the dynamic structure body A 1 are set to line shaft A, the dynamic structure body B 2 and are set to line shaft B, institute State line shaft A, a rotary part 3 and the line shaft B to be equipped with, four are set on the rotary part 3 The different gear unit 4 of individual gearratio, the line shaft A is driven through the gear unit 4 and the line shaft B and set, and makes The line shaft A is driven through clutch A 5 and the gear unit 4 and set, and makes the gear unit 4 through clutch B 6 and institute State line shaft B transmission settings.

As disposable embodiment, line shaft A described in the embodiment of the present invention 1 and the line shaft B are alternative Ground selection coaxial line is set or non-co- axis is set.

As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can also make described move The power axle A and line shaft B and two, three, four, five, six, seven, eight, nine, ten, 11,12 Individual, 13 or 14 rotary parts 3 described above are equipped with, and are driven between the two neighboring rotary part 3 Set.

As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can also be selected further Property select on a rotary part 3 set two, three, five, six, seven, eight, nine, ten, ten One, 12,13,14,15,16 or 17 gear unit 4 described above.

As disposable embodiment, the embodiment of the present invention 1 and its foregoing all disposable embodiments can also be entered One step optionally selects to make the line shaft A through concaveconvex structure A or be driven through magnetic force area A and the gear unit 4 to set, and It further can optionally select to make the concaveconvex structure A be set to spline or be set to gear mechanism.

As disposable embodiment, the embodiment of the present invention 1 and its foregoing all disposable embodiments can also be entered One step optionally selects to make the gear unit 4 through concaveconvex structure B or be driven through the magnetic force area B and line shaft B to set, and It further can optionally select to make the concaveconvex structure B be set to spline or gear mechanism.

The embodiment of the present invention 1 and its disposable embodiment in the specific implementation, are selectively chosen by control The corner of the rotary part 3 enables the line shaft A and the line shaft B to be driven through the different gear units 4 Set.

As disposable embodiment, revolving structure described in the embodiment of the present invention 1 and its disposable embodiment Body 3 is selectively chosen to be replaced with the device by the mobile gear unit such as chain, reciprocating structure body or slideway；It is described The movement locus of gear unit, which is selectively chosen, to be set to any can meet and realizes the line shaft A, the gear unit And the line shaft B is driven the form of matching, such as described movement locus can be set to straight line, curve or including straightway and song The track of line segment.

Embodiment 2

A kind of transmission mechanism of application aforementioned drive method, as shown in Fig. 2 including dynamic structure body A 1, dynamic structure body B 2 and two rotary parts, one of rotary part are defined as rotary part A31, and another rotary part is determined Justice is rotary part B 32, and the dynamic structure body A 1 is set to line shaft A, the dynamic structure body B 2 and is set to line shaft B, The line shaft A, the rotary part A 31, the rotary part B 32 and the line shaft B are equipped with, in revolution Four gearratios different gear unit A 41 is set on structure A 31, four gearratios are set on rotary part B 32 Different gear unit B 42, the line shaft A are through described in the gear unit A 41 that mutually transmission is set and one The gear unit B 42 and line shaft B, which is driven, to be set.

As disposable embodiment, the embodiment of the present invention 2 further can optionally select to make four gearratios not Same gear unit A 41 is uniform or is not uniformly arranged on rotary part A 31；And/or make the different biography of four gearratios Moving cell B 42 is uniform or is not uniformly arranged on rotary part B 32.

The embodiment of the present invention 2 and its disposable embodiment in the specific implementation, further can optionally select to lead to Crossing the corner of the corner for controlling the rotary part A 31 and/or the rotary part B 32 makes the line shaft A and institute Setting can be driven through the gear unit B and the different gear unit A by stating line shaft B, or by controlling the revolution Structure A corner and/or the rotary part B 32 corner enable the line shaft A and the line shaft B through institute State gear unit A and different gear unit B transmissions set, or by control the rotary part A corner and/or The corner of the rotary part B 32 enable the line shaft A and the line shaft B through the different gear unit A and Different gear unit B transmissions are set.

As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment can be further selective Ground selection make the line shaft A and the line shaft B and three, four, five, six, seven, eight, nine, ten, ten One, 12,13 or 14 rotary part described above is equipped with, and makes the revolution knot of adjacent two Gear unit transmission on structure body is set.

As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment can also be selected further Property select on a rotary part set two, three, five, six, seven, eight, nine, ten, ten One, 12,13,14,15,16 or 17 gear unit described above, and can further select Select to selecting property to make the number of the gear unit on each rotary part be set to identical or different.

As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment can be selected further Select to make the gear unit on two adjacent rotary parts through clutch or through concaveconvex structure or through magnetic to property The transmission of power area is set；And further can optionally select to make the concaveconvex structure be set to spline or be set to gear mechanism.

In the present invention, concaveconvex structure, concaveconvex structure A and the concaveconvex structure B of transmission setting, which can be achieved, can further select Select to be set to spline or be set to gear mechanism to property.

As disposable embodiment, all embodiments containing gear unit of the present invention can be further selective Ground selection makes the gear unit be set to planetary mechanism gear unit.

As disposable embodiment, the present invention is all to contain the gear unit A's and/or gear unit B Embodiment, further can optionally select to make the gear unit A and/or the gear unit B be set to planetary mechanism Gear unit.

As disposable embodiment, each revolution knot in the embodiment of the present invention 2 and its disposable embodiment Structure body is selectively chosen to be replaced with the device by the mobile gear unit such as chain, reciprocating structure body or slideway； The movement locus of wherein each gear unit be selectively chosen be set to it is any can meet realize the line shaft A, transmission Unit and the form of line shaft B transmission matchings, such as described movement locus can be set to straight line, curve or including straightway With the track of curved section.

In the present invention, all gear units, which are selectively chosen, is set to speed increasing mechanism or reducing gear.

The accompanying drawing of the present invention is only a kind of signal, and any technical scheme for meeting the application literature record belongs to the application Protection domain.

The direction of rotation of rotating shaft A, rotating shaft B and rotary part in description of the invention accompanying drawing are only a kind of signal, tool When body is implemented, direction of rotation is not limited in the setting form shown in Figure of description, can specifically set according to actual needs.

It is clear that the invention is not restricted to above example, according to techniques known and technology disclosed in this invention Scheme, can be derived or association goes out many flexible programs, all these flexible programs, also be regarded as be the present invention protection model Enclose.

Claims (10)

1. a kind of drive method, it is characterised in that：Between dynamic structure body A and dynamic structure body B according to gear unit radially Gear unit described in direction movement two or more or the gear unit described in mobile two or more in the sagittal plane of gear unit； Make the dynamic structure body A through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure Body A is through STATEMENT OF FEDERALLY SPONSORED again through the gear unit and dynamic structure body B formation drive connections, or make the dynamic structure body A Through the gear unit again through STATEMENT OF FEDERALLY SPONSORED and dynamic structure body B formation drive connections, or make the dynamic structure body A through connection Moving part A, the gear unit and STATEMENT OF FEDERALLY SPONSORED B and dynamic structure body B formation drive connections.

2. drive method as claimed in claim 1, it is characterised in that：The gear unit is moved by rotary part, or it is logical Cross chain and move the gear unit, or the gear unit is moved by reciprocating structure body, or the biography is moved by slideway Moving cell.

3. drive method as claimed in claim 2, it is characterised in that：The drive connection is set to through clutch, through concaveconvex structure Or the drive connection through magnetic force area.

4. drive method as claimed in claim 3, it is characterised in that：The concaveconvex structure is set to spline.

5. drive method as claimed in claim 1, it is characterised in that：The drive connection is set to through clutch, through concaveconvex structure Or the drive connection through magnetic force area.

6. drive method as claimed in claim 5, it is characterised in that：The concaveconvex structure is set to spline.

7. the transmission mechanism of drive method described in a kind of application claim 1, including dynamic structure body A (1), dynamic structure body B And rotary part (3) (2), it is characterised in that：The dynamic structure body A (1) is set to line shaft A, the dynamic structure body B (2) line shaft B, the line shaft A, at least one rotary part (3) and the line shaft B is set to be equipped with, Two or more gearratio different gear unit (4) is set on the rotary part (3), and the line shaft A is through the transmission Unit (4) is driven with the line shaft B and set.

8. the transmission mechanism of drive method described in a kind of application claim 1, including dynamic structure body A (1), dynamic structure body B And rotary part (3) (2), it is characterised in that：The dynamic structure body A (1) is set to line shaft A, the dynamic structure body B (2) line shaft B, the line shaft A, at least one rotary part (3) and the line shaft B is set to be equipped with, Two or more gearratio different gear unit (4) is set on the rotary part (3), the line shaft A through clutch A or It is driven through concaveconvex structure A or through magnetic force area A and the gear unit (4) and sets, the gear unit (4) is through clutch B or warp Concaveconvex structure B is driven setting through the magnetic force area B and line shaft B.

9. the transmission mechanism of drive method described in a kind of application claim 1, including dynamic structure body A (1), dynamic structure body B And rotary part (3) (2), it is characterised in that：The dynamic structure body A (1) is set to line shaft A, the dynamic structure body B (2) line shaft B, the line shaft A, at least one rotary part (3) and the line shaft B is set to be equipped with, Two or more gearratio different gear unit (4) is set on the rotary part (3), the line shaft A through clutch A or It is driven through concaveconvex structure A or through magnetic force area A and the gear unit (4) and sets, the gear unit (4) and the line shaft B Transmission is set.

10. the transmission mechanism of drive method described in a kind of application claim 1, including dynamic structure body A (1), dynamic structure body B And rotary part (3) (2), it is characterised in that：The dynamic structure body A (1) is set to line shaft A, the dynamic structure body B (2) line shaft B, the line shaft A, at least one rotary part (3) and the line shaft B is set to be equipped with, The different gear unit (4) of two or more gearratio, the line shaft A and the transmission are set on the rotary part (3) Unit (4) transmission is set, and the gear unit (4) is through clutch B or through concaveconvex structure B or through magnetic force area B and the line shaft B Transmission is set.