CN101701621A - Boosting lever and gear combination mechanism - Google Patents

Boosting lever and gear combination mechanism Download PDF

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Publication number
CN101701621A
CN101701621A CN200910154616A CN200910154616A CN101701621A CN 101701621 A CN101701621 A CN 101701621A CN 200910154616 A CN200910154616 A CN 200910154616A CN 200910154616 A CN200910154616 A CN 200910154616A CN 101701621 A CN101701621 A CN 101701621A
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China
Prior art keywords
boosting
lever
gear combination
link arm
tooth
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CN200910154616A
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Chinese (zh)
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CN101701621B (en
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陈周林
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Abstract

The invention relates to a boosting lever and gear combination structure which belongs to the technical field of transmission machines. The boosting lever and gear combination structure comprises an input shaft and an output shaft, wherein the input shaft and the output shaft are arranged at a gear box casing, the input shaft is linked with the output shaft by boosting levers, a stage tooth rotating shaft, a speed regulation driving wheel and a speed regulation driven wheel which are sequentially arranged, the boosting levers are arranged at the gear box casing in a matching way by fulcrum shafts on the boosting levers, one end of a long rod of the boosting levers is connected to the input shaft, one end of a short rod is connected to a connection arm wheel of a unidirectional movable tooth arranged on the stage tooth rotating shaft in a matching way, the stage tooth rotating shaft and the output shaft are respectively connected with the speed regulation driving wheel and the speed regulation driven wheel in a matching way, and the speed regulation driving wheel and the speed regulation driven wheel are engaged for transmission. The invention audaciously and skillfully combines levers and gear transmission together, utilizes a group of boosting levers which are arranged side by side to work alternately by turns and enables the transmission of each time to push the stage tooth rotating shaft by maximum force after being reinforced; by the structure with reasonable design, higher machine utilization rate is realized, the mechanical wear is lowered, and energy resources are saved.

Description

A kind of boosting lever Gear combination structure
Technical field
The invention belongs to the gearing technical field, be specially a kind of boosting lever Gear combination structure.
Background technique
All advocating energy-saving and environmental protection, reduction of discharging all over the world at present, especially the energy is more and more in short supply, and the various countries scientist is being the energy-saving and emission-reduction effort.In the prior art, there is the technology of various machineries, gear-box quite ripe, and is widely used on industrial and mining enterprise, vehicle and the steamer.Have speed regulation gear case and machinery in its main structure, thereby reach the purpose that is applicable to all kinds of machinery supports.But above-described gear-box does not all reach the purpose that cuts down the consumption of energy because the mechanical loss that gear transmission produces is higher.
Summary of the invention
At the above-mentioned problems in the prior art, the object of the present invention is to provide a kind of boosting lever Gear combination structure, its reasonable in design can effectively improve mechanical transmission efficiency, to reach the purpose that cuts down the consumption of energy.
Described a kind of boosting lever Gear combination structure, comprise the input shaft that is arranged at gearhousing, output shaft, it is characterized in that the afterburning lever of described input shaft by setting gradually, level tooth rotatingshaft, the speed governing driving wheel, the speed governing follower, link with output shaft, described afterburning lever is equipped with in gearhousing by the fulcrum shaft on it, its stock one end is connected to input shaft, quarter butt one end is connected to the unidirectional movable tooth link arm wheel that is equipped with on grade tooth rotatingshaft, described level tooth rotatingshaft, the output shaft speed governing driving wheel that is connected respectively, the speed governing follower, above-mentioned speed governing driving wheel, speed governing follower engagement driving.
Described a kind of boosting lever Gear combination structure is characterized in that cooperating on the described input shaft afterburning lever to be provided with the drive bar, and stock one end of afterburning lever cooperates the drive bar to be provided with sliding-groove.
Described a kind of boosting lever Gear combination structure is characterized in that the link arm interlock of stock one end of described unidirectional movable tooth link arm wheel, afterburning lever by hinged setting.
Described a kind of boosting lever Gear combination structure, it is characterized in that described unidirectional movable tooth link arm wheel is socketed on a grade tooth rotatingshaft by the link arm wheel bearing, and above-mentioned unidirectional movable tooth link arm is taken turns and is equipped with movable tooth, and this activity tooth is by the spring of connection setting in the unidirectional movable tooth link arm wheel and the level tooth interlock on the level tooth rotatingshaft.
Described a kind of boosting lever Gear combination structure, it is characterized in that described afterburning lever, unidirectional movable tooth link arm wheel are equipped with one group, the described input shaft one group of rolling disc that is connected, connect between the two adjacent rolling discs drive bar is set, the scattering of described one group of drive bar is distributed in input shaft, stock one end of described one group of afterburning lever touches by the corresponding drive masthead of the sliding-groove on it and its and cooperates, and described one group of unidirectional movable tooth link arm wheel engage sleeves is connected in one group of level teeth groove of grade tooth rotatingshaft relative set.
Described a kind of boosting lever Gear combination structure is characterized in that described one group of afterburning lever, unidirectional movable tooth link arm wheel at least all are provided with three.
Described a kind of boosting lever Gear combination structure is characterized in that described afterburning lever is a duck shape lever.
Described a kind of boosting lever Gear combination structure is characterized in that this boosting lever Gear combination structure can be provided with one group and be used in combination.
Described a kind of boosting lever Gear combination structure is characterized in that this boosting lever Gear combination structure laterally is used in combination side by side.
Described a kind of boosting lever Gear combination structure is characterized in that the vertical vertical setting of types of this boosting lever Gear combination structure is used in combination.
Boosting lever Gear combination structure of the present invention, lever and gear transmission are courageously combined cleverly, utilize one group of afterburning lever that is arranged side by side, the exchange work in turn of unidirectional movable tooth link arm wheel on the one hand, make each transmission all promote level tooth rotatingshaft with the maximum, force after strengthening, to realize higher operation rate of machinery, reduce mechanical loss; On the other hand for make its output slewing rate reach required, be equipped with the master and slave speed regulation gear of engagement driving again, not only realized reinforcement, reach energy-saving effect, make output shaft have required rotating speed again, have easy to use, the advantage that applicability is wide.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 is a side-looking structural representation of the present invention;
Fig. 3 is along the sectional structure schematic representation of A-A among Fig. 1;
Fig. 4 is along the sectional structure schematic representation of B-B among Fig. 1;
Fig. 5 is along the sectional structure schematic representation of C-C among Fig. 1;
Fig. 6 is along the sectional structure schematic representation of D-D among Fig. 1;
Fig. 7 is several application assembled arrangement schematic representation of the present invention;
Fig. 8 is applied to the principle schematic of electric motor car for the present invention;
Fig. 9 is the structural representation of another embodiment of the present invention;
Among the figure: 1-gearhousing, 2-sliding-groove, 3-input shaft, 3a-drive bar, 3b-rolling disc, 4-fulcrum shaft, 5-level tooth rotatingshaft, 6-output shaft, the afterburning lever of 7-, the unidirectional movable tooth link arm wheel of 8-, 9-speed governing driving wheel, 10-speed governing follower, 11-bearing, 12-link arm wheel bearing, 13-link arm, 14-spring, the movable tooth of 15-, 16-boosting lever Gear combination structure.
Embodiment
The invention will be further described below in conjunction with Figure of description.
As Fig. 1, shown in Figure 2, this boosting lever Gear combination structure, comprise the input shaft 3 that is arranged at gearhousing 1, output shaft 6, the afterburning lever 7 of described input shaft 3 by setting gradually, level tooth rotatingshaft 5, speed governing driving wheel 9, speed governing follower 10, with output shaft 6 interlocks, described afterburning lever 7 is a duck shape lever, be equipped with in gearhousing 1 by the fulcrum shaft on it 4, its stock one end is connected to input shaft 3 by sliding-groove 2, quarter butt one end is connected to the unidirectional movable tooth link arm wheel 8 that is equipped with on grade tooth rotatingshaft 5 by the link arm 13 of hinged setting, described level tooth rotatingshaft 5, the output shaft 6 speed governing driving wheel 9 that is connected respectively, speed governing follower 10, above-mentioned speed governing driving wheel 9, speed governing follower 10 engagement driving.
As Fig. 1, Fig. 2, shown in Figure 3, under the effect of power, drive input shaft 3 rotations and swing up and down tortuous afterburning lever 7, make an end top of tortuous afterburning lever 7 quarter butts drive link arm 13, rotate thereby promote unidirectional movable tooth link arm wheel 8, and make 5 rotations of grade tooth rotatingshaft.Because speed governing driving wheel 9, speed governing follower 10 that output terminal is provided with according to the needs of speed governing, by regulating the diameter of two gears, change rotating ratio, can make output shaft 6 have required rotating speed.
As Fig. 1, Fig. 3, shown in Figure 5, described input shaft 3 is installed on gearhousing 1 by bearing 11, one group of rolling disc 3b is connected on it, connect between the two adjacent rolling disc 3b to be provided with and drive bar 3a, described one group of drive bar 3a scattering is distributed in input shaft 3, and stock one end of described afterburning lever 7 contacts by the corresponding drive bar of the sliding-groove on it 2 and its 3a and cooperates.
As Fig. 2, shown in Figure 4, unidirectional movable tooth link arm wheel 8 is socketed on a grade tooth rotatingshaft 5 by link arm wheel bearing 12, and above-mentioned unidirectional movable tooth link arm is taken turns in 8 and is equipped with a plurality of movable teeth 15 as required, and this activity tooth 15 is by the spring 14 of connection setting in the unidirectional movable tooth link arm wheel 8 and the level tooth interlock on the level tooth rotatingshaft 5.The afterburning lever 7 of described complications swings up and down under the effect that input shaft 3 drives, drive link arm 13 and unidirectional movable tooth link arm wheel 8 simultaneously, unidirectional movable tooth link arm is taken turns 8 utilization activity teeth, 15 interlocks promotion level tooth rotatingshaft 5 and speed governing master gear 9 rotates to a direction, and interlock simultaneously drives the output speed governing and rotates from gear 10, output shaft 6.
As Fig. 1, Fig. 2, Fig. 4, shown in Figure 6, described afterburning lever 7, unidirectional movable tooth link arm wheel 8 have been equipped with one group, the position of fulcrum shaft 4 is set according to afterburning multiple on the described afterburning lever 7, one end of afterburning lever 7 quarter butts connects unidirectional movable tooth link arm wheel 8 by connecting link arm 13, and level tooth rotatingshaft 5 is arranged according to the required number of designing requirement unidirectional movable tooth link arm wheel 8 is installed.When swinging, afterburning lever 7 drives one of them the unidirectional movable link arm wheel 8 that is arranged on grade tooth rotatingshaft 5, utilization activity tooth 15 interlocks promotion level tooth rotatingshaft 5 and speed governing master gear 9 are when a direction rotation, movable tooth 15 in several in addition unidirectional movable tooth link arm wheels 8 is thrown off with the level tooth on the level tooth rotatingshaft 5, interlock promotes level tooth rotatingshaft 5 and speed regulation gear and output shaft 6 to make the unidirectional movable tooth link arm wheel 8 of arrangement cooperatively interact in turn, finish output shaft 6 motion of rotation continuously in the same direction as all the time, make it drive required machinery.
Among the present invention, stressedly when making input shaft (3) drive afterburning lever (7) evenly afterburning lever design is the afterburning lever of duck shape, more effective to guarantee power running.In addition, the size of an end sliding-groove 2 of tortuous afterburning lever 7 stocks will design according to the diameter that input shaft 3 rotates a circle, can swinging up and down continuously under the drive of input shaft 3 to guarantee afterburning lever 7.Input bent axle 3 rotates a circle and must satisfy the needs of unidirectional movable tooth link arm wheel 8 and movable tooth 15 promotion level tooth rotatingshafts 5, can finish continuous rotation with bonding to movable tooth link arm wheel 8, level tooth rotatingshaft 5.According to actual needs, described afterburning lever (7) and unidirectional interlock activity tooth link arm wheel (8) arrange that the road number need design 3 roads or more than 3 roads, to guarantee that mutually exchange in turn promotes a level tooth rotatingshaft (3) and rotates continuously to a direction.Among the embodiment, according to the needs of product, arranging the best road number of design is 5.
As shown in Figure 9, speed governing master gear 9 of the present invention, speed governing also can be mounted on the medium position of total from gear 10, can keep the balance of entire product preferably, make it stable.
The present invention is through for many years design studies, lever and gear transmission are courageously combined cleverly, utilize one group of afterburning lever 7 that is arranged side by side, unidirectional movable tooth link arm wheel 8 exchange work in turn on the one hand, promote level tooth rotatingshaft 5 simultaneously to a direction rotation, make each transmission all promote level tooth rotatingshaft 5 with the maximum, force after strengthening, to realize higher operation rate of machinery, reduce mechanical loss; On the other hand for making its output slewing rate reach required, the speed governing master gear 9, speed governing that have been equipped with engagement driving again are from gear 10, finish the whole linkage structure of boosting lever gear, not only realized reinforcement, reach energy-saving effect, make output shaft 6 have required rotating speed again, have easy to use, the advantage that applicability is wide.
As shown in Figure 7, this boosting lever Gear combination structure can be provided with one group and be used in combination, and according to space requirement, both can laterally be used in combination side by side, and also vertically vertical setting of types is used in combination.
As shown in Figure 8, boosting lever Gear combination structure of the present invention, can be applicable to electric motor car, not only can design between motor and wheel, the energy of generator loss is reduced, also can be oppositely and the wheel interlock, there is the situation realization of other power running to generate electricity at wheel, the energy saving of script loss is got off to the electric motor car utilization, to reach the purpose of energy saving.The present invention also can be widely used in transmissions such as all kinds of machineries, vehicle, steamer, aviation in addition, has economic benefit and social benefit widely.

Claims (10)

1. boosting lever Gear combination structure, comprise the input shaft (3) that is arranged at gearhousing (1), output shaft (6), it is characterized in that the afterburning lever (7) of described input shaft (3) by setting gradually, level tooth rotatingshaft (5), speed governing driving wheel (9), speed governing follower (10), link with output shaft (6), described afterburning lever (7) is equipped with in gearhousing (1) by the fulcrum shaft on it (4), its stock one end is connected to input shaft (3), quarter butt one end is connected to the unidirectional movable tooth link arm wheel (8) that is equipped with on grade tooth rotatingshaft (5), described level tooth rotatingshaft (5), output shaft (6) the speed governing driving wheel (9) that is connected respectively, speed governing follower (10), above-mentioned speed governing driving wheel (9), speed governing follower (10) engagement driving.
2. a kind of boosting lever Gear combination structure as claimed in claim 1 is characterized in that described input shaft (3) upward cooperates afterburning lever (7) to be provided with and drives bar (3a), and stock one end of afterburning lever (7) cooperates drive bar (3a) to be provided with sliding-groove (2).
3. a kind of boosting lever Gear combination structure as claimed in claim 1 is characterized in that link arm (13) interlock of stock one end of described unidirectional movable tooth link arm wheel (8), afterburning lever (7) by hinged setting.
4. a kind of boosting lever Gear combination structure as claimed in claim 1, it is characterized in that described unidirectional movable tooth link arm wheel (8) is socketed on a grade tooth rotatingshaft (5) by link arm wheel bearing (12), and above-mentioned unidirectional movable tooth link arm is taken turns (8) and is equipped with movable tooth (15), and this activity tooth (15) is by the spring (14) of connection setting in the unidirectional movable tooth link arm wheel (8) and the level tooth interlock on the level tooth rotatingshaft (5).
5. as claim 1 or 3 or 4 described a kind of boosting lever Gear combination structures, it is characterized in that described afterburning lever (7), unidirectional movable tooth link arm wheel (8) is equipped with one group, described input shaft (3) the one group of rolling disc (3b) that is connected, connect between the two adjacent rolling discs (3b) to be provided with and drive bar (3a), the scattering of described one group of drive bar (3a) is distributed in input shaft (3), stock one end of described one group of afterburning lever (7) contacts by the corresponding drive bar of the sliding-groove on it (2) and its (3a) and cooperates, and described one group of unidirectional movable tooth link arm wheel (8) engage sleeves is connected in grade one group of level teeth groove of tooth rotatingshaft (5) relative set.
6. a kind of boosting lever Gear combination structure as claimed in claim 1 is characterized in that described one group of afterburning lever (7), unidirectional movable tooth link arm wheel (8) at least all are provided with three.
7. a kind of boosting lever Gear combination structure as claimed in claim 1 is characterized in that described afterburning lever (7) is a duck shape lever.
8. a kind of boosting lever Gear combination structure as claimed in claim 1 is characterized in that this boosting lever Gear combination structure can be provided with one group and be used in combination.
9. a kind of boosting lever Gear combination structure as claimed in claim 8 is characterized in that this boosting lever Gear combination structure laterally is used in combination side by side.
10. a kind of boosting lever Gear combination structure as claimed in claim 8 is characterized in that the vertical vertical setting of types of this boosting lever Gear combination structure is used in combination.
CN2009101546163A 2009-11-19 2009-11-19 Boosting lever and gear combination mechanism Expired - Fee Related CN101701621B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2009101546163A CN101701621B (en) 2009-11-19 2009-11-19 Boosting lever and gear combination mechanism

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Application Number Priority Date Filing Date Title
CN2009101546163A CN101701621B (en) 2009-11-19 2009-11-19 Boosting lever and gear combination mechanism

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CN101701621A true CN101701621A (en) 2010-05-05
CN101701621B CN101701621B (en) 2012-07-25

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102102750A (en) * 2011-02-21 2011-06-22 陈周林 Combined structure with increased lever driving force
CN102966713A (en) * 2012-08-07 2013-03-13 张伟 Conversion device for changing one round into multiple rounds
CN109802519A (en) * 2019-03-13 2019-05-24 文定新 A kind of lever engine
CN113404834A (en) * 2021-07-23 2021-09-17 代绍华 Force increasing machine

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4188831A (en) * 1978-05-30 1980-02-19 Ahmad Amjadi Automatic transmission
CN100430627C (en) * 2006-12-14 2008-11-05 吴应昌 Lever booster
CN201297364Y (en) * 2008-08-13 2009-08-26 陈效法 Labor-saving transmission mechanism
CN101539192A (en) * 2008-12-05 2009-09-23 田雷 Non-impact lever stepless speed change mechanism
CN201561106U (en) * 2009-11-19 2010-08-25 陈周林 Reinforcement lever gear composite structure

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102102750A (en) * 2011-02-21 2011-06-22 陈周林 Combined structure with increased lever driving force
CN102102750B (en) * 2011-02-21 2014-02-19 陈周林 Combined structure with increased lever driving force
CN102966713A (en) * 2012-08-07 2013-03-13 张伟 Conversion device for changing one round into multiple rounds
CN109802519A (en) * 2019-03-13 2019-05-24 文定新 A kind of lever engine
CN113404834A (en) * 2021-07-23 2021-09-17 代绍华 Force increasing machine

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