CN207790305U

CN207790305U - Hybrid power system with limp-home module

Info

Publication number: CN207790305U
Application number: CN201820175772.2U
Authority: CN
Inventors: 谭长珅; 王武先; 林志强; 毛正松; 张松; 陈涛; 吴苾曜; 吴天华; 唐生态; 黎晓佳; 马超; 邓玉胜
Original assignee: Guangxi Yuchai Machinery Co Ltd
Current assignee: Yuchaixinlan New Energy Power Technology Co ltd
Priority date: 2017-10-24
Filing date: 2018-02-01
Publication date: 2018-08-31
Anticipated expiration: 2028-02-01
Also published as: CN107599820A; CN108263196A; CN108372777A; CN108407599B; CN108297670A; CN207942918U; CN108312836A; CN108454377A; CN108407589A; CN208149051U; CN207790306U; CN108297669B; CN208149054U; CN108263192A; CN208232804U; CN108454378A; CN108407598A; CN208101683U; CN108382181A; CN108297674A

Abstract

The utility model discloses a kind of hybrid power systems with limp-home module, including central shaft, the first hollow shaft and the second hollow shaft, first motor, the second motor and the gear ring being set in together, the tail end of central shaft is provided with heel row planet carrier, and heel row planetary gear is provided on heel row planet carrier；The rear end of first hollow shaft is equipped with heel row sun gear, and the rear end of the second hollow shaft is provided with front-seat sun gear；First motor passes through the second reduction gearing and the second hollow axis connection by the first reduction gearing and the first hollow axis connection, the second motor；Gear ring is engaged with front-seat planetary gear and heel row planetary gear jointly, and gear ring is connected with output shaft, and output shaft is used for exporting hybrid power；Limp-home module comprising limp-home module input shaft, second clutch and limp-home module output shaft；And input shaft.The axial length of power assembly can be greatly decreased in the system, and after realizing electric drive failure, engine directly drives limp-home.

Description

Hybrid power system with limp-home module

Technical field

The utility model is related to technical field of hybrid power, and in particular to a kind of hybrid power with limp-home module System.

Background technology

Planetary gear mechanism has the characteristics that multiple degrees of freedom, and mostly it is limited using two motors in hybrid power system Degree of freedom.It is full decoupled to the rotating speed of engine and torque respectively by two motors, so that engine working point is freely controlled System to realize electrodeless variable-speed, and improves the fuel economy of hybrid power system to the maximum extent.

It mostly uses two or more planetary gear trains currently on the market to be combined, although using multiple planetary gear trains making It is freer that power system architecture combination must be mixed, but it is various to also result in hybrid power system configuration complexity, and increase system The complexity and diversity of the influence factor of interior power flow direction and system effectiveness.

The planet row hybrid power system that new energy urban bus is applied in the market at present is mainly bi-motor duplicate rows The coaxially arranged scheme of star row, the main problems are as follows：

1, the maximum speed of two driving motors is relatively low, and peak torque is larger, and motor cost is high；

2, coaxially arranged scheme causes power assembly axial length larger, requires arrangement space high, vehicle bad adaptability；

3, split type encapsulation scheme is mostly used, there are multiple sealing rings, and not only sealing difficulty is larger, are easy oil leak, and Maintenance and repair difficulty is big；

4, it is only capable of being applied individually to any urban bus, coach can not be adapted to simultaneously, although engine can be realized Directly drive vehicle, but engine directly drive vehicle applied probability it is very low, vehicle suitability is poor；

5, do not have limp-home function, once electric drive system fails, trailer can only be used to rescue.

The information for being disclosed in the background technology part is merely intended to increase the understanding to the general background of the utility model, and It is not construed as recognizing or implying in any form that information composition has been existing well known to persons skilled in the art Technology.

Utility model content

The purpose of this utility model is to provide a kind of hybrid power systems with limp-home module, existing to overcome There is the hybrid power system arrangement space of technology to require high, vehicle bad adaptability does not have the shortcomings that limp-home function.

To achieve the above object, the utility model provides a kind of hybrid power system with limp-home module, packet It includes：The tail end of central shaft, the central shaft is provided with heel row planet carrier, and heel row planetary gear, central shaft are provided on heel row planet carrier For inputting engine power；First hollow shaft, on center shaft, the rear end of the first hollow shaft is provided with the heel row sun to suit Wheel, heel row sun gear are engaged with heel row planetary gear, and the first cannon pinion is provided on the front end outer wall of the first hollow shaft；Second Hollow shaft is sleeved in the first hollow shaft, and the rear end of the second hollow shaft is provided with the front-seat planet carrier being fixedly connected with the casing, Be provided with front-seat planetary gear on front-seat planet carrier, the rear end of the second hollow shaft is additionally provided with front-seat sun gear, front-seat sun gear with Front-seat planetary gear engages, and the second cannon pinion is provided on the front end outer wall of the second hollow shaft；Gear ring, jointly with preceding seniority among brothers and sisters Star-wheel and the engagement of heel row planetary gear, gear ring are connected with output shaft, and output shaft is used for exporting hybrid power；First motor and the second electricity Machine, first motor are engaged by the first reduction gearing with the first cannon pinion, and the second motor passes through the second reduction gearing and the Two cannon pinions engage；Second reduction gearing includes front-seat reduction gearing and heel row reduction gearing, the driving of the second motor coaxle Front-seat reduction gearing and heel row reduction gearing are realized by first gear set between the first meshing state and the second meshing state Switching, engaged with the second cannon pinion wherein the first meshing state is front-seat reduction gearing, after the second meshing state is Row's reduction gearing is engaged with the second cannon pinion；Limp-home module comprising limp-home module input shaft, second from Clutch and limp-home module output shaft；And input shaft, one end of the input shaft connect engine, the other end is provided with total defeated Enter gear, total input gear passes through gear and limp-home module by first clutch and center axis connection, total input gear Axis connection is inputted, limp-home module input shaft exports axis connection, limp-home by second clutch and limp-home module Module exports the second hollow shaft of axis connection.

In a preferred embodiment, the second hollow shaft front end is provided with third reduction gearing, and limp-home module is defeated Shaft is transmitted transmission by third reduction gearing and is turned round by third reduction gearing and the second hollow axis connection, limp-home module Square.

In a preferred embodiment, limp-home module output shaft is connected by front-seat reduction gearing and the second hollow shaft It connects, limp-home module transmits driving torque by front-seat reduction gearing.

In a preferred embodiment, first motor and the second motor are arranged in parallel in the both sides of central shaft.

In a preferred embodiment, first gear set realizes slide handover by automatically controlled mode.

In a preferred embodiment, first motor and the second motor are integrated in shell.

In a preferred embodiment, output shaft stretches out the rear end of shell, and input shaft stretches out the front end of shell, and leads to It crosses flexible disk or clutch is connected with engine.

Compared with prior art, the hybrid power system according to the present utility model with limp-home module is with as follows Advantageous effect：

(1) peak torque of double drive motor can at least reduce 50%, and motor size is obviously reduced, the cost of driving motor About 45% can be reduced, to reduce the cost of hybrid power system；

(2) bi-motor uses parallel shaft arrangement mode, the axial dimension of power assembly can be greatly decreased, in limited public transport In car installation space, arrangement is more flexible, and can be suitably used for different automobile types, expands adaptation vehicle range；

(3) have limp-home function, when power drive system fails, trailer rescue is can avoid, using limp-home mould Formula can continue to run with；

(4) have a wide range of application, can be used for urban bus, highway passenger vehicle, coach, new energy truck, new energy The fields such as automobile；

(5) drive mechanism that the utility model uses, gear ring is shared by double planet wheel rows of mixing, can be by the power solution of engine Coupling, a part pass to rear axle, and another part passes to first motor and generates electricity, and two planet rows carry out engine power Decoupling, makes function is started to be fixed on optimal oil consumption point to work, without being influenced by speed.

Description of the drawings

Fig. 1 is the structural schematic diagram of the hybrid power system according to the present utility model with limp-home module.

Fig. 2 is the hybrid power system with limp-home module according to the present utility model for including third reduction gearing Structural schematic diagram.

Main appended drawing reference explanation：

1, engine；11, flexible disk；12, shell；13, input shaft；131, total input gear；2, limp-home module； 21, limp-home module input shaft；22, second clutch；23, limp-home module output shaft；24, third reduction gearing；4、 First motor；41, the first reduction gearing；5, the second motor；51, front-seat reduction gearing；52, heel row reduction gearing；55, the first tooth Wheel case；6, central shaft；61, first clutch；7, the first hollow shaft；71, heel row sun gear；72, heel row planet carrier；73, heel row Planetary gear；74, the first cannon pinion；8, the second hollow shaft；81, front-seat sun gear；82, front-seat planet carrier；83, preceding rows of planetary Wheel；84, the second cannon pinion；9, gear ring；10, output shaft.

Specific implementation mode

Below in conjunction with the accompanying drawings, specific embodiment of the present utility model is described in detail, it is to be understood that this practicality Novel protection domain is not restricted by specific implementation.

Unless otherwise explicitly stated, otherwise in entire disclosure and claims, term " comprising " or its change It changes such as "comprising" or " including " etc. and will be understood to comprise stated element or component, and do not exclude other members Part or other component parts.

As shown in Figure 1 to Figure 2, according to the hybrid power system of the limp-home module of the preferred embodiments of the present invention System, including：Central shaft 6, the first hollow shaft 7, the second hollow shaft 8, gear ring 9, first motor 4, the second motor 5, limp-home mould Block 2 and input shaft 13.

Wherein, the tail end of central shaft 6 is provided with heel row planet carrier 72, and heel row planetary gear is provided on heel row planet carrier 72 73, central shaft 6 is used for inputting engine power.First hollow shaft 7 is sleeved on central shaft 6, the rear end setting of the first hollow shaft 7 There are heel row sun gear 71, heel row sun gear 71 to be engaged with heel row planetary gear 73, the front end outer wall of the first hollow shaft 7 is equipped with first Cannon pinion 74.Second hollow shaft 8 is sleeved on 7 in the first hollow shaft, and the rear end of the second hollow shaft 8 is provided with to be fixed with shell The front-seat planet carrier 82 of connection, is provided with front-seat planetary gear 83 on front-seat planet carrier 82, before the rear end of the second hollow shaft 8 is provided with Sun gear 81 is arranged, front-seat sun gear 81 is engaged with front-seat planetary gear 83, and the front end outer wall of the second hollow shaft 8 is hollow equipped with second Shaft gear 84.Gear ring 9 is engaged with front-seat planetary gear 83 and heel row planetary gear 73 jointly, and gear ring 9 is connected with output shaft 10, output shaft 10 are used for exporting hybrid power.

First motor 4 and the second motor 5, first motor 4 are nibbled by the first reduction gearing 41 and the first cannon pinion 74 It closes, the second motor 5 is engaged by the second reduction gearing with the second cannon pinion 84.Second reduction gearing includes front-seat reducing gear Wheel 51 and heel row reduction gearing 52,5 Driven by Coaxial front row reduction gearing 51 of the second motor and heel row reduction gearing 52.Pass through first Geared sleeve 55 realizes the switching between the first meshing state and the second meshing state, wherein first meshing state is front-seat slows down Gear 51 is engaged with the second cannon pinion 84, and the second meshing state is heel row reduction gearing 52 and the second cannon pinion 84 Engagement.By moving left and right for first gear set 55, two grades of drivings of motor are realized.

Limp-home module 2 includes limp-home module input shaft 21, second clutch 22 and the output of limp-home module Axis 23.When can be the case where power drive system fails using limp-home module 2, limp-home avoids trailer from rescuing.Input One end of axis 13 connects engine 1, and the other end is provided with total input gear 131, and total input gear 131 passes through first clutch 61 It is connect with central shaft 6, total input gear 131 is connect by gear with limp-home module input shaft 21, and limp-home module is defeated Enter axis 21 to connect with limp-home module output shaft 23 by second clutch 22；The connection of limp-home module output shaft 23 second Hollow shaft 8.

As shown in Fig. 2, 8 front end of the second hollow shaft in the above embodiment is provided with third reduction gearing 24, walk lamely back Family's module output shaft 23 is connect by third reduction gearing 24 with the second hollow shaft 8, and limp-home module 2 passes through third reducing gear Wheel 24 transmits driving torque.

As shown in Figure 1, the limp-home module output shaft 23 in the above embodiment can also pass through front-seat reduction gearing 51 connect with the second hollow shaft 8, and limp-home module transmits driving torque by front-seat reduction gearing 51.

First motor 4 and the second motor 5 are arranged in parallel in the first gear set in the both sides the above embodiment of central shaft 6 55 realize slide handover by automatically controlled mode.First motor 4 and the second motor 5 are integrated in shell 12, and output shaft 10 stretches out shell The rear end of body 12, input shaft 13 stretch out the front end of shell 12, are connect, can also be led to by flexible disk 11 with the bent axle of engine 1 Cross clutch connection.To using the type of cooling in motor, mechanical assembly part set, sealing element is both reduced, improve sealing 55 can By property and seal life, and lubrication can be synchronized to bearing, gear.

There are two clutch, first clutches 61 to engage for limp-home module 2, when second clutch 22 detaches, engine 1 Torque be directly delivered on heel row planet carrier 72, by certain speedup subtract torsion after pass to output shaft, the pattern be used for vehicle It is used in high speed；After electricity failure, first clutch 61 detaches, and second clutch 22 combines, and 1 torque of engine subtracts by multipair It is transmitted to output shaft after fast gear torque, realizes that engine 1 can directly make vehicle start.

The description of the aforementioned specific exemplary embodiment to the utility model is in order to illustrate and illustration purpose.These Description is not wishing to for the utility model to be limited to disclosed precise forms, and it will be apparent that according to the above instruction, can carry out Many change and variations.The purpose of selecting and describing the exemplary embodiment is that explaining the specific principle of the utility model And its practical application, so that those skilled in the art can realize and utilize a variety of different examples of the utility model Property embodiment and various chooses and changes.The scope of the utility model is intended to by claims and its waits similar shapes Formula is limited.

Claims

1. a kind of hybrid power system with limp-home module, which is characterized in that the hybrid power system includes：

The tail end of central shaft, the central shaft is provided with heel row planet carrier, and heel row planetary gear, institute are provided on the heel row planet carrier Central shaft is stated to be used for inputting engine power；

First hollow shaft is sleeved on the central shaft, and the rear end of first hollow shaft is provided with heel row sun gear, described Heel row sun gear is engaged with the heel row planetary gear, and the first hollow shaft tooth is provided on the front end outer wall of first hollow shaft Wheel；

Second hollow shaft is sleeved in first hollow shaft, and the rear end of second hollow shaft is provided with to be fixed with shell The front-seat planet carrier of connection, it is described front row planet carrier on be provided with front-seat planetary gear, the rear end of second hollow shaft is also set up There are front-seat sun gear, the front row sun gear to engage with the front-seat planetary gear, set on the front end outer wall of second hollow shaft It is equipped with the second cannon pinion；

Gear ring is engaged with the front-seat planetary gear and the heel row planetary gear jointly, and the gear ring is connected with output shaft, described Output shaft is used for exporting hybrid power；

First motor and the second motor, the first motor are engaged by the first reduction gearing with first cannon pinion, Second motor is engaged by the second reduction gearing with second cannon pinion；Second reduction gearing includes front row Reduction gearing and heel row reduction gearing, the second motor coaxle driving front-seat reduction gearing and the heel row reducing gear Wheel, the switching between the first meshing state and the second meshing state is realized by first gear set, wherein first engagement State is the front-seat reduction gearing to be engaged with second cannon pinion, and second meshing state subtracts for the heel row Fast gear is engaged with second cannon pinion；

Limp-home module comprising limp-home module input shaft, second clutch and limp-home module output shaft；And

One end of input shaft, the input shaft connects engine, and the other end is provided with total input gear, and total input gear passes through first Clutch and the center axis connection, total input gear inputs axis connection by gear and the limp-home module, described lame Row goes home module input shaft by second clutch and limp-home module output axis connection, and the limp-home module is defeated Go out the second hollow shaft described in axis connection.

2. hybrid power system according to claim 1, which is characterized in that second hollow shaft front end is provided with third Reduction gearing, the limp-home module output shaft pass through the third reduction gearing and the second hollow axis connection, the limping Module of going home transmits driving torque by the third reduction gearing.

3. hybrid power system according to claim 1, which is characterized in that the limp-home module output shaft passes through institute Front-seat reduction gearing and the described second hollow axis connection are stated, the limp-home module is transmitted by the front-seat reduction gearing and passed Dynamic torque.

4. hybrid power system according to claim 1, which is characterized in that the first motor and second motor are flat Row is arranged in the both sides of the central shaft.

5. hybrid power system according to claim 1, which is characterized in that the first gear set by automatically controlled mode come Realize slide handover.

6. hybrid power system according to claim 1, which is characterized in that the first motor and the second motor collection At in shell.

7. hybrid power system according to claim 6, which is characterized in that after the output shaft stretches out the shell End, the input shaft stretch out the front end of shell, and are connected with the engine by flexible disk or clutch.