CN204239631U - Can the step change transmission of transferring power continuously - Google Patents
Can the step change transmission of transferring power continuously Download PDFInfo
- Publication number
- CN204239631U CN204239631U CN201420544667.3U CN201420544667U CN204239631U CN 204239631 U CN204239631 U CN 204239631U CN 201420544667 U CN201420544667 U CN 201420544667U CN 204239631 U CN204239631 U CN 204239631U
- Authority
- CN
- China
- Prior art keywords
- gear
- ring
- intermediate gear
- ring gear
- order
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Structure Of Transmissions (AREA)
Abstract
A kind of can the step change transmission of transferring power continuously, comprise shell, power input shaft, pto=power take-off, gear and diverter, gear comprises driving gear, intermediate gear, ring gear and intermediate gear clutch mechanism, intermediate gear and ring gear are provided with multistage, driving gear is arranged on power input shaft, first order intermediate gear is rotatably connected on intermediate gear shaft, and the two ends of intermediate gear shaft are connected with shell by intermediate gear clutch mechanism; First order intermediate gear is meshed with the inner ring gear of first order ring gear, and the outer ring gear of first order ring gear is connected with second level stud ring transmission by second level intermediate gear, and the rest may be inferred; The outer ring gear of the ring gear of outermost one-level is in transmission connection by the input end of output gear and diverter.Advantage is: the conversion being realized various rotating speed ratio by the clutch of each intermediate gear, can transferring power continuously; Structure is simple, and volume is little, reduces manufacture cost; Failure rate is low, reduces working service cost.
Description
Technical field
The utility model relate to a kind of can the step change transmission of transferring power continuously, be mainly used in Motor Vehicle.
Background technique
The speed changer of prior art has manual transmission and automatic transmission, and automatic transmission has two clutch, CVT etc. multiple.The shortcoming that existing speed changer exists is: the instantaneous interruption of always dynamic transmission in the process of speed change, the persistency that impact is accelerated, and reduces accelerating velocity; Complex structure, especially automatic transmission is all the more so; Volume and weight is large, adds manufacture cost; Due to complex structure, causing trouble rate is high, adds working service cost.
Summary of the invention
The utility model aim to provide a kind of can the step change transmission of transferring power continuously, to solve the instantaneous interruption of the always dynamic transmission in the process of speed change that prior art exists, the persistency that impact is accelerated, reduce accelerating velocity; Complex structure, especially automatic transmission is all the more so; Volume and weight is large, adds manufacture cost; Due to complex structure, causing trouble rate is high, adds the problem of working service cost.
The technical solution of the utility model is: a kind of can the step change transmission of transferring power continuously, comprise shell, power input shaft, pto=power take-off, gear and diverter, gear and diverter are installed in the enclosure, power input shaft is in transmission connection by the input end of gear and output gear and diverter, the output terminal of diverter is connected with pto=power take-off, it is characterized in that, described gear comprises driving gear, intermediate gear, ring gear and intermediate gear clutch mechanism, intermediate gear and ring gear are provided with multistage, driving gear is arranged on described power input shaft, first order intermediate gear is rotatably connected on intermediate gear shaft, the two ends of intermediate gear shaft are connected with shell by intermediate gear clutch mechanism, first order intermediate gear is meshed with the inner ring gear of first order ring gear, and the outer ring gear of this first order ring gear is connected with second level stud ring transmission by second level intermediate gear, and mode connects multistage intermediate gear and ring gear according to this, the outer ring gear of the ring gear of outermost one-level is in transmission connection by the input end of described output gear and diverter.
The utility model has the advantages that: the conversion being realized various rotating speed ratio by the clutch of each intermediate gear, be connected with active force all the time in the process of speed change, can transferring power continuously; Structure is simple, and volume is little, reduces manufacture cost; Failure rate is low, reduces working service cost.
Accompanying drawing explanation
Fig. 1 is general structure schematic diagram of the present utility model (the B-B sectional view of Fig. 2);
Fig. 2 is the A-A sectional view (in order to drawing is clear, local is sectional drawing) of Fig. 1.
Fig. 3 is the plan view of Fig. 2;
Fig. 4 is the worm's eye view of Fig. 2;
Fig. 5 is the sectional view (cutting plane is identical with Fig. 2) of another embodiment of the utility model.
Embodiment
See Fig. 1 ~ Fig. 4, the utility model is a kind of can this embodiment of the step change transmission of transferring power continuously, comprise shell 1, power input shaft 2, pto=power take-off 17, gear and diverter 11, gear and diverter 11 are arranged in shell 1, power input shaft 2 is in transmission connection with the input end of diverter 11 by gear and output gear 10, the output terminal of diverter 11 is connected with pto=power take-off 17, it is characterized in that, described gear comprises driving gear 3, intermediate gear, ring gear and intermediate gear clutch mechanism, intermediate gear 4 and ring gear 5 are provided with multistage (this embodiment is three grades), driving gear 3 is arranged on described power input shaft 2, first order intermediate gear 4 is rotatably connected on intermediate gear shaft 41, the two ends of intermediate gear shaft 41 are connected with shell 1 by intermediate gear clutch mechanism, first order intermediate gear 4 is meshed with the inner ring gear of first order ring gear 5, the outer ring gear of this first order ring gear 5 is meshed with the inner ring gear of second level ring gear 7 by second level intermediate gear 6, and the outer ring gear of second level ring gear 7 is meshed with the inner ring gear of third level ring gear 9 by third level intermediate gear 8, the outer ring gear of third level ring gear 9 is in transmission connection with the input end of diverter 11 by described output gear 10, and the axle of output gear 10 is connected to by bearing 18 between the both sides of shell.
Described intermediate gear clutch mechanism comprises positioning ring 12, clutch ring 13, ring gear bearing 14, intermediate gear bearing 19 and speed change electromagnet 15, one end of the intermediate gear shaft 41,61,81 of the intermediate gear 4,6,8 of the first to the third level is connected with the side of a clutch ring 13 respectively, the opposite side of this clutch ring 13 connects by wedge shape (or trapezoidal) convex-concave (friction clutch) structure is relative with the side of positioning ring 12, and the opposite side of this positioning ring 12 is connected with shell 1.The other end of the intermediate gear shaft 41,61,81 of every one-level is connected with the side of intermediate gear bearing 19 inner ring respectively, the side of this intermediate gear bearing 19 outer ring is connected with the armature end of speed change electromagnet 15, and this speed change electromagnet (housing) 15 is fixed on the side of shell 1.The side of the ring gear 5,7,9 of the first to the third level is connected with the inner ring of ring gear bearing 14 respectively, and outer ring and the shell 1 of this ring gear bearing 14 are fixed.The inner peripheral surface of each this ring gear bearing 14 inner ring is corresponding with the outer circumferential face of a clutch ring 13 respectively, and both corresponding surfaces are the conical surface 21 cooperatively interacted.
Another embodiment of the present utility model see Fig. 5, with a upper embodiment unlike, have at least an intermediate gear to be the different gearwheel A1 of two coaxial diameters and small gear A2 in three grades of intermediate gears 4,6,8; The Internal and external cycle gear of one-level ring gear is had at least to be provided with the small internal gear B1 of the integrative-structure coordinated with this gearwheel A1 and small gear A2 and little external toothing B2 in described three grades of ring gears 5,7,9, described driving gear 3 engages with the gearwheel A1 of first order intermediate gear 4, the small gear A2 of this first order intermediate gear 4 engages with the small internal gear B1 of first order ring gear 5, the gearwheel engagement of the little external toothing B2 second level intermediate gear 7 of this first order ring gear 5, connects in this way step by step.This drive mechanism, adds speed transmission ratio, can meet the needs of different gear ratio.
It is advance electromagnet that described diverter 11 is provided with two break-in electromagnet 16, controls wheel and advances, and another is reversing electromagnet, controls reversing, belongs to routine techniques.
Working principle of the present utility model is: when establishing speed change electromagnet 15 to be in cold non-pull state, clutch ring 13 and positioning ring 12 are the state of " conjunction ", now, (intermediate gear at different levels is corresponding) clutch ring 13 is " separation " state with the conical surface 21 of the inner ring of ring gear bearing 14, in this case, driving gear 3 can drive first order ring gear 5 to rotate by the rotation of first order intermediate gear 4, first order ring gear 5 drives second level ring gear 7 to rotate by second level intermediate gear 6, by that analogy, gear is realized.If make speed change electromagnet 15 corresponding to the intermediate gear of certain one-level (for first order intermediate gear 4) be in attracting state (other intermediate gears are constant), now, clutch ring 13 and positioning ring 12 corresponding to first order intermediate gear 4 are the state of " separation ", and clutch ring 13 and the conical surface 21 of the inner ring of ring gear bearing 14 are the state of " conjunction ", in this case, because clutch ring 13 and ring gear bearing 14 are combined as a whole, both can not relative movement, cause first order intermediate gear 4 and first order ring gear 5 can not relative movement, be equivalent to driving wheel and first order intermediate gear 4 and first order ring gear 5 be structure as a whole, form a large driving wheel, so just change gear ratio.By selecting the various combination of each speed change electromagnet 15 adhesive and separated state, multiple different gear ratio can be realized.The control of speed change electromagnet 15 adopts Single-chip Controlling, belongs to routine techniques.
Claims (4)
1. one kind can the step change transmission of transferring power continuously, comprise shell, power input shaft, pto=power take-off, gear and diverter, gear and diverter are installed in the enclosure, power input shaft is in transmission connection by the input end of gear and output gear and diverter, the output terminal of diverter is connected with pto=power take-off, it is characterized in that, described gear comprises driving gear, intermediate gear, ring gear and intermediate gear clutch mechanism, intermediate gear and ring gear are provided with multistage, driving gear is arranged on described power input shaft, first order intermediate gear is rotatably connected on intermediate gear shaft, the two ends of intermediate gear shaft are connected with shell by intermediate gear clutch mechanism, first order intermediate gear is meshed with the inner ring gear of first order ring gear, and the outer ring gear of this first order ring gear is connected with second level stud ring transmission by second level intermediate gear, and mode connects multistage intermediate gear and ring gear according to this, the outer ring gear of the ring gear of outermost one-level is in transmission connection by the input end of described output gear and diverter.
2. according to claim 1 can the step change transmission of transferring power continuously, it is characterized in that, described intermediate gear clutch mechanism comprises positioning ring, clutch ring, ring gear bearing, intermediate gear bearing and speed change electromagnet, one end of the intermediate gear shaft of every one-level is connected with the side of a clutch ring, the opposite side of this clutch ring connects by wedge shape convex-concave structure is relative with the side of positioning ring, and the opposite side of this positioning ring is connected with shell; The other end of the intermediate gear shaft of every one-level is connected with the side of intermediate gear bearing inner ring, and the side of this intermediate gear bearing outer ring is connected with speed change electromagnet armature end, and this speed change electromagnet is fixed on the side of shell; Ring gear side described in every one-level is connected with the inner ring of a ring gear bearing respectively, and outer ring and the shell of this ring gear bearing are fixed; The inner ring inner peripheral surface of each this ring gear bearing is corresponding with the outer circumferential face of a clutch ring respectively, and both corresponding surfaces are the conical surface cooperatively interacted.
3. according to claim 1 can the step change transmission of transferring power continuously, it is characterized in that, described intermediate gear is the different gearwheel of two coaxial diameters and small gear; The Internal and external cycle gear of described ring gear is provided with and the small internal gear of the integrative-structure of this gearwheel and pinion fits and little external toothing, described driving gear engages with the gearwheel of first order intermediate gear, the small gear of this first order intermediate gear engages with the small internal gear of first order ring gear, the gearwheel engagement of the little external toothing second level intermediate gear of this first order ring gear, connects in this way step by step.
4. according to claim 1 can the step change transmission of transferring power continuously, it is characterized in that, described diverter is provided with at least two break-in electromagnet.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420544667.3U CN204239631U (en) | 2014-09-22 | 2014-09-22 | Can the step change transmission of transferring power continuously |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420544667.3U CN204239631U (en) | 2014-09-22 | 2014-09-22 | Can the step change transmission of transferring power continuously |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204239631U true CN204239631U (en) | 2015-04-01 |
Family
ID=52769131
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420544667.3U Withdrawn - After Issue CN204239631U (en) | 2014-09-22 | 2014-09-22 | Can the step change transmission of transferring power continuously |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204239631U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104295673A (en) * | 2014-09-22 | 2015-01-21 | 佘桂红 | Stepped transmission capable of transmitting power continuously |
-
2014
- 2014-09-22 CN CN201420544667.3U patent/CN204239631U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104295673A (en) * | 2014-09-22 | 2015-01-21 | 佘桂红 | Stepped transmission capable of transmitting power continuously |
CN104295673B (en) * | 2014-09-22 | 2016-08-24 | 佘桂红 | The step change transmission of power can be transmitted continuously |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP3812617B1 (en) | Transmission, power drive system, and vehicle | |
CN204114020U (en) | A kind of reduction gearing mechanism of chipper | |
CN202560942U (en) | Wind power speed-up box of composite planetary transmission mechanism | |
KR20160024077A (en) | Transmission for electric vehicle | |
CN204239631U (en) | Can the step change transmission of transferring power continuously | |
CN205534053U (en) | Automatic transmission | |
CN103807366A (en) | Electromobile three-gear speed changing double-engine-head driving system | |
CN206972857U (en) | A kind of two grades of planetary gears gearboxes driving bridge system | |
CN103335069B (en) | Sieve run-out tolerance speed reducer | |
CN104295673B (en) | The step change transmission of power can be transmitted continuously | |
CN105673784B (en) | For the shaft space difference speed and transfer gear of two-axis gearbox and using its automobile | |
CN204878546U (en) | Speed reducer | |
CN204239636U (en) | Cold-rolled stainless steel sheet batches the driving specific complex gear-box of unit | |
CN208221484U (en) | A kind of dual input multi output gear-box | |
CN203130944U (en) | Wide-range high-power continuously variable transmission | |
CN202091432U (en) | A speed reducer with small tooth difference | |
CN203309035U (en) | Infinitely variable transmission of eccentric planet wheel and planet gear | |
CN203193443U (en) | Hypoid gear motor with double-sided flange | |
CN103115119A (en) | Wide-range high-power infinitely variable transmission | |
CN106321784A (en) | Gear box with function of positive and negative rotation | |
CN205838408U (en) | A kind of hydraulic capstan | |
CN104896049A (en) | Mini-type dual-power aircraft bearing speed reduction device | |
CN205101538U (en) | Two inner gearing planetary gear mechanisms of ring gear opposition | |
CN204677718U (en) | Micro-scale double-power aero-vehicle bearing speed reducer | |
CN103363033A (en) | Reversal superposition type planetary speed changer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150401 Effective date of abandoning: 20160824 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |