CN103161907A - Device for conversion from reciprocating motion to rotary motion - Google Patents
Device for conversion from reciprocating motion to rotary motion Download PDFInfo
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- CN103161907A CN103161907A CN 201110412549 CN201110412549A CN103161907A CN 103161907 A CN103161907 A CN 103161907A CN 201110412549 CN201110412549 CN 201110412549 CN 201110412549 A CN201110412549 A CN 201110412549A CN 103161907 A CN103161907 A CN 103161907A
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- flywheel
- gear
- gear train
- bearing
- axle
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Abstract
The invention provides a device for conversion from reciprocating motion to rotary motion. A swing arm (1.2) performs reciprocating motion and drives a gear (2.2) through a sector gear (1.3) and further drives a flywheel (4.2), and simultaneously a gear (2.4) drives a gear (3.4) and then a gear (3.2) drives a flywheel (4.4). The flywheels are provided with a ratchet wheel and pellet mechanisms. The direction of rotation of the flywheel (4.2) driven by the gear (2.2) is opposite to the direction of rotation of the flywheel (4.4) driven by the gear (3.2) and drive directions of a ratchet wheel drive shaft (4.3) of the flywheel (4.2) and the flywheel (4.4) assembled on the shaft (4.3) are same, the ratchet wheel and a pellet on a flywheel are being in an engaged state and the ratchet wheel and a pellet on the other flywheel are in a disengaged state, so that the flywheel (4.2) and the flywheel (4.4) drive the shaft (4.3) to rotate ceaselessly in a reciprocating and alternative manner. The device for conversion from reciprocating motion to rotary motion is characterized by large torque and stable and continuous rotation.
Description
One, technical field
The present invention relates to a kind of device that rotatablely moves that is converted to by the swing arm to-and-fro motion, belong to mechanical transmission fields.
Two, technical background:
Existingly be converted in the device that rotatablely moves by to-and-fro motion, Handheld mobile phone charger and hand-held power-generation flashlight are more typically arranged, yet only have the motion of direction to be used for the live axle rotation in its swing arm to-and-fro motion, other direction is only the motion that swing arm resets, and this type of to-and-fro motion is converted to the device that rotatablely moves still more deficiency:
1, this type of to-and-fro motion is converted to the active force that the device that rotatablely moves only has unidirectional drive.
2, this type of to-and-fro motion is converted to the device that rotatablely moves and can causes the driving torque variation greatly, and rotating speed is not steady, is intermittent driving phenomenon.
3, this type of to-and-fro motion is converted to the device that rotatablely moves and can't realizes the steadily requirement of output of large torque.
Three, summary of the invention
(1), goal of the invention:
Purpose of the present invention mainly is to provide a kind of device that rotatablely moves that is converted to by the swing arm to-and-fro motion, and it is large that it has a torque, the characteristic of rotation continuous and stable.
(2), technological scheme:
the method that the present invention solves its technical problem is: with the gear train (1) that assembles, gear train (2), gear train (3), bearing on gear train (4) is assembled to respectively with gear block (7.1) and cover plate (7.3) and goes up in corresponding bearing support, make tooth sector (1.3) and the engagement of the gear (2.2) in gear train (2) in its gear train (1), gear (2.2) again with gear train (4) in flywheel (4.2) engagement, gear (2.4) in gear train (2) and the engagement of the gear (3.4) in gear train (3) simultaneously, flywheel (4.4) engagement in gear (3.2) and gear train (4), thorn wheel and thorn claw mechanism are arranged on described flywheel (4.2) and flywheel (4.4).Swing arm (1.2) on gear train (1) moves reciprocatingly through tooth sector (1.3) actuation gear (2.2) and then drives flywheel (4.2), and gear (2.4) actuation gear (3.4) drives flywheel (4.4) by gear (3.2) more simultaneously.because the moving direction that is transferred between flywheel (4.2) and flywheel (4.4) is to replace reciprocal moving direction, and the sense of rotation of the live axle (4.3) when being assembled in flywheel (4.2) on axle (4.3) and meshing with thorn claw with its thorn wheel of flywheel (4.4) is consistent, thorn wheel on one of them flywheel and thorn claw are engagement, and the thorn wheel on another flywheel and thorn claw are separated state, therefore be the to-and-fro motion of transmitting according to swing arm (1.2) between flywheel (4.2) and flywheel (4.4), make flywheel (4.2) alternately mesh and separate to come live axle (4.3) continuous rotation with thorn claw by the thorn wheel on flywheel to replace reciprocal motion mode with flywheel (4.4).
(3), invention effect:
The most direct effect of the present invention be exactly by swing arm move reciprocatingly be converted to have large torque, the motion of rotation stable and continuous, especially to-and-fro motion is converted to the device that rotatablely moves and mixes speed changer and use the power source can be used as the electromechanical equipments such as generator.
Four, description of drawings:
Fig. 1 is gear train (1) erection drawing;
Fig. 2 is gear train (2) erection drawing;
Fig. 3 is gear train (3) erection drawing;
Fig. 4 is gear train (4) erection drawing;
Fig. 5 is the flywheel erection drawing;
Fig. 6 is the flywheel sectional drawing;
Fig. 7 respectively organizes gear engagement figure;
Fig. 8 is gearbox assembly figure;
Five, embodiment:
(1), form:
Gear train (1) forms explanation:
As shown in Figure 1, gear train (1) is by bearing (1.1), swing arm (1.2), and tooth sector (1.3), axle (1.4), bearing (1.5) forms.
Gear train (2) forms explanation:
As shown in Figure 2, gear train (2) is by bearing (2.1), gear (2.2), and axle (2.3), gear (2.4), bearing (2.5) forms.
Gear train (3) forms explanation:
As shown in Figure 3, gear train (3) is by bearing (3.1), gear (3.2), and axle (3.3), gear (3.4), bearing (3.5) forms.
Gear train (4) forms explanation:
As shown in Figure 4, gear train (4) is by bearing (4.1), flywheel (4.2), and axle (4.3), flywheel (4.4), bearing (4.5) forms.
Flywheel forms explanation:
As shown in Figure 5, flywheel (5) is by bearing (5.1), external toothing (5.2), and fuse (5.3), spring (5.4), thorn claw (5.5), bearing (5.6) forms.
Gear-box forms explanation:
As shown in Figure 8, gear-box (7) is by gear block (7.1), gear train (1), and gear train (2), gear train (3), gear train (4), locating stud (7.2), cover plate (7.3), bolt (7.4) forms.
(2), assembling:
Gear train (1) Assembly Instruction Device:
As shown in Figure 1, the tooth sector (1.3) of swing arm (1.2) of ining succession is packed on the gear shelves on axle (1.4) left side, again bearing (1.1) is packed on the left side bearing guard of axle (1.4), on the right bearing guard of the axle (1.4) of then again bearing (1.5) being packed into.
Gear train (2) Assembly Instruction Device:
As shown in Figure 2, gear (2.2) is packed on the gear shelves on axle (2.3) left side, again bearing (2.1) is packed on the bearing guard on axle (2.3) left side, then gear (2.4) is packed on the gear shelves on axle (2.3) the right, then bearing (2.5) is packed on the bearing guard on axle (2.3) the right.
Gear train (3) Assembly Instruction Device:
As shown in Figure 3, gear (3.2) is packed on the gear shelves on axle (3.3) left side, again bearing (3.1) is packed on the bearing guard on axle (3.3) left side, then gear (3.4) is packed on the gear shelves on axle (3.3) the right, then bearing (3.5) is packed on the bearing guard on axle (3.3) the right.
Gear train (4) Assembly Instruction Device:
As shown in Figure 4, flywheel (4.2) is packed on the gear shelves on axle (4.3) left side, again bearing (4.1) is packed on the bearing guard on axle (4.3) left side, then flywheel (4.4) is packed on the gear shelves on axle (4.3) the right, then bearing (4.5) is packed on the bearing guard on axle (4.3) the right.
The flywheel Assembly Instruction Device:
as shown in Figure 5, bearing (5.1) is packed in the bearing support (5.2.1) on external toothing (5.2) left side, again bearing (5.6) is packed on the bearing guard (5.3.2) on fuse (5.3) the right, then spring (5.4) is packed on spring mounting hole (5.3.3) on fuse (5.3), thorn claw (5.5) cylindrical end is packed in cylindrical groove (5.3.4) on fuse (5.3), at last the bearing guard (5.3.1) on the fuse after assembling (5.3) left side is packed in bearing (5.1) endoporus on external toothing (5.2) left side after assembling, simultaneously fuse (5.3) the right after the assembling bearing (5.6) synchronously pack in the bearing support (5.2.2) on external toothing (5.2) the right after assembling.
The flywheel cross sectional illustration:
As shown in Figure 6, the inner chamber of external toothing (5.2) is interior engagement thorn wheel (5.2.3), when external toothing (5.2) when clockwise rotating thorn claw (5.5) upspring under the active force of spring (5.4) and mesh with interior thorn wheel (5.2.3), external toothing (5.2) rotates and just drives fuse (5.3) rotating in same direction, with thorn claw (5.5) thorn wheel that slips away, fuse this moment (5.3) is not subjected to the driving of external toothing (5.2) when the inner chamber of external toothing (5.2) external toothing (5.2) when rotating counterclockwise.
Each organizes gear engagement explanation:
As shown in Figure 7, gear (2.2) engagement in tooth sector (1.3) in gear train (1) and gear train (2), gear (2.2) again with gear train (4) in flywheel (4.2) engagement, gear (2.4) in gear train (2) and the engagement of the gear (3.4) in gear train (3) simultaneously, flywheel (4.4) engagement in gear (3.2) and gear train (4).
The gearbox assembly explanation:
as shown in Figure 8, bearing (1.1) in gear train (1) is packed in bearing support (7.1.1) on gear block (7.1), bearing (2.1) in gear train (2) is packed in bearing support (7.1.2) on gear-box (7.1), bearing (3.1) in gear train (3) is packed in bearing support (7.1.3) on gear-box (7.1), bearing (4.1) in gear train (4) is packed in bearing support (7.1.4) on gear-box (7.1), the positioning hole (7.1.5) that again locating stud (7.2) is inserted on gear-box (7.1) is inner, positioning hole (7.3.1) on cover plate (7.3) is aimed at locating stud (7.2) make that the bearing of the other end in each gear train is corresponding with bearing support on cover plate (7.3) enters the position, lock with the tapped hole (7.1.6) that bolt (7.4) is aimed on gear-box (7.1) by the through hole (7.3.2) on cover plate (7.3).
Claims (3)
1. a to-and-fro motion is converted to the device that rotatablely moves, be assembled with gear train (1) in gear-box, gear train (2), gear train (3), gear train (4), gear (2.2) engagement in tooth sector (1.3) in its gear train (1) and gear train (2), gear (2.2) again with gear train (4) in flywheel (4.2) engagement, gear (3.4) engagement in gear (2.4) in gear train (2) and gear train (3), flywheel (4.4) engagement in gear (3.2) and gear train (4), it is characterized in that: thorn wheel and thorn claw mechanism are arranged on described flywheel (4.2) and flywheel (4.4), when being assembled in flywheel (4.2) on axle (4.3) and meshing with thorn claw with its thorn wheel of flywheel (4.4), the sense of rotation of live axle (4.3) is consistent.
2. a kind of to-and-fro motion is converted to the device that rotatablely moves according to claim 1, it is characterized in that gear (2.2) transmission in gear train (2) is opposite each other direction to the sense of rotation of flywheel (4.2) in gear train (4) and gear (3.2) transmission in gear train (3) to the sense of rotation of the flywheel (4.4) in gear train (4).
3. according to claim 1 with 2 described a kind of to-and-fro motion are converted to the device that rotatablely moves, it is characterized in that: be the to-and-fro motion of transmitting according to swing arm (1.2) between flywheel (4.2) and flywheel (4.4), make flywheel (4.2) and flywheel (4.4) alternately mesh by the thorn wheel on flywheel and thorn claw and separate to come live axle (4.3) continuous rotation to replace reciprocal motion mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201110412549 CN103161907A (en) | 2011-12-09 | 2011-12-09 | Device for conversion from reciprocating motion to rotary motion |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201110412549 CN103161907A (en) | 2011-12-09 | 2011-12-09 | Device for conversion from reciprocating motion to rotary motion |
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CN103161907A true CN103161907A (en) | 2013-06-19 |
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CN 201110412549 Pending CN103161907A (en) | 2011-12-09 | 2011-12-09 | Device for conversion from reciprocating motion to rotary motion |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111517176A (en) * | 2020-05-10 | 2020-08-11 | 嘉兴新博信息科技有限公司 | Quick cable winding device for outdoor power construction |
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2011
- 2011-12-09 CN CN 201110412549 patent/CN103161907A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111517176A (en) * | 2020-05-10 | 2020-08-11 | 嘉兴新博信息科技有限公司 | Quick cable winding device for outdoor power construction |
CN111517176B (en) * | 2020-05-10 | 2021-10-29 | 国网福建省电力有限公司三明市沙县区供电公司 | Quick cable winding device for outdoor power construction |
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Application publication date: 20130619 |