CN206117427U - Be interrupted power supply switching and electronic car - Google Patents
Be interrupted power supply switching and electronic car Download PDFInfo
- Publication number
- CN206117427U CN206117427U CN201621173380.XU CN201621173380U CN206117427U CN 206117427 U CN206117427 U CN 206117427U CN 201621173380 U CN201621173380 U CN 201621173380U CN 206117427 U CN206117427 U CN 206117427U
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- China
- Prior art keywords
- regions
- carbon brush
- region
- supplying power
- axial
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- 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.)
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Classifications
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/64—Electric machine technologies in electromobility
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- Motor Or Generator Current Collectors (AREA)
- Dc Machiner (AREA)
Abstract
The utility model discloses a be interrupted power supply switching and electronic car, wherein, be interrupted power supply switching and include the motor and be interrupted the power supply unit, should be interrupted the power supply unit and connect on the output shaft of motor. The utility model discloses a time proportion of circular telegram and outage, inertia when utilizing object motion increases the continuation of the journey mileage of electronic car, extension battery life.
Description
Technical field
This utility model is related to a kind of interruptedly supplying power switch and electrocar.
Background technology
Existing electrocar one is that cost performance is poor, a car 20-30 ten thousand, and battery account for the half of cost, and per 4-5
Also need to change once.Two is that endurance is poor, fills once electricity and can only run more than 100 kilometers, if running more than 2000 kilometers it is necessary to charge
It is 20 times, very bothersome.Three is vicious cycle, as endurance is poor, causes frequent charge, can shorten battery life again, and
Purchase car cost can be increased.Four is, in order to cost-effective, to drive to need using electricity wisely, and " winter can not open heating installation, and summer can not open cold
Gas ", drives this car, can not be entangled with
It is above-mentioned after all, most crucial problem be exactly continue a journey it is ineffective.
Utility model content
One of the purpose of this utility model is that a kind of interruptedly supplying power switch of offer, and the interruptedly supplying power switch solves continuation of the journey
Problem, is, when battery operated, when " fatigue " is not entered into, just to allow which to have a rest, waits it to return god, be further continued for work
Make.This utility model using the inertia of motion, allows electrokinetic cell to have appropriate on the premise of not affecting electrocar to run
" rest " time, so as to allow car to run it is farther.
Technical scheme is:A kind of interruptedly supplying power switch, the interruptedly supplying power switch include motor and interruptedly supplying power unit, should
Interruptedly supplying power unit is connected on the output shaft of motor.
Preferably, the motor is low-speed micro-motor.
Preferably, the interruptedly supplying power unit includes rotor, fixed carbon brush and adjustable gear switch, the rotor is arranged on
On the output shaft of motor.
Preferably, the rotor is metallic rotator, insulating barrier is provided with the metallic rotator axial external surface, the insulation
Metallic rotator axial external surface is from left to right divided into layer the semiconductor regions in full conductive region and some tape insulation regions, insulation
From left to right insulating regions gradually increase layer, and the fixed carbon brush is connected with full conductive region.
Preferably, metallic rotator axial external surface is from left to right divided into a-quadrant, B regions, C regions by the insulating barrier
With D regions, wherein a-quadrant do not have insulating barrier, and B regions axial dielectric layer accounts for 1/4, the C regions axial direction of the region axial external surface
Insulating barrier accounts for 1/3, the D regions axial dielectric layer of the region axial external surface and accounts for the 1/2 of the region axial external surface.
Preferably, the adjustable gear switch is made up of movable carbon brush and slide bar, movable carbon brush one end is slidably connected at cunning
On bar, move on slide bar, the other end is contacted with metallic rotator outer surface.
Preferably, the adjustable gear switch is made up of key switch and stepping carbon brush, key switch and each stepping carbon brush
Connect respectively, each stepping carbon brush is fixed on each region of metallic rotator axial external surface, respectively has one point on each region
Shelves carbon brush.
Preferably, the rotor is insulation rotor made by insulant, it is provided with the rotor axial outer surface and leads
The rotor axial outer surface is from left to right divided into the semiconductive area in full conductive region and some tape insulation regions for electric layer, conductive layer
Domain, from left to right conductive region is gradually reduced conductive layer, and fixed carbon brush is connected with full conductive region.
Preferably, the rotor axial outer surface is from left to right divided into a-quadrant, B regions, C regions by the conductive layer
With D regions, wherein a-quadrant is full conductive region, and B regions axial conduction region accounts for 3/4, the C regions of the region axial external surface
Axial conduction region accounts for 2/3, the D regions axial conduction region of the region axial external surface and accounts for the 1/2 of the region axial external surface.
Preferably, the adjustable gear switch is made up of movable carbon brush and slide bar, movable carbon brush one end is slidably connected at cunning
On bar, move on slide bar, the other end is contacted with metallic rotator outer surface.
Preferably, the adjustable gear switch is made up of key switch and stepping carbon brush, key switch and each stepping carbon brush
Connect respectively, each stepping carbon brush is fixed on each region of metallic rotator axial external surface, respectively has one point on each region
Shelves carbon brush.
The two of the purpose of this utility model are that a kind of electrocar of offer.
Technical scheme is:A kind of electrocar, including electromotor electric supply installation, the electromotor electric supply installation include power current
Pond group and direct current generator, the electromotor electric supply installation also include that above-mentioned interruptedly supplying power is switched.
Compared with prior art, the beneficial effects of the utility model are:
This utility model increases electrocar by the time scale being powered with power-off using inertia during object of which movement
Course continuation mileage, extend battery life.
Description of the drawings
Fig. 1 is this utility model electrocar wiring schematic diagram;
Fig. 2 is 2 structural representation of this utility model embodiment;
Fig. 3 is a kind of 2 shifting switch schematic diagram of this utility model utility model embodiment;
Fig. 4 is the plane graph of Fig. 2 rotor axial outer surfaces;
Fig. 5 is another plane graph of Fig. 2 rotor axial outer surfaces;
Fig. 6 is 3 structural representation of this utility model embodiment;
Fig. 7 is a kind of 3 shifting switch schematic diagram of this utility model utility model embodiment;
Fig. 8 is the plane graph of Fig. 6 rotor axial outer surfaces;
Fig. 9 is another plane graph of Fig. 6 rotor axial outer surfaces.
Specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
Embodiment 1
As shown in figure 1, a kind of electrocar, including electromotor electric supply installation, the electromotor electric supply installation includes power current
Pond group 8, direct current generator 9 and interruptedly supplying power switch 10.Direct current generator 9 is used to provide driving force for electrocar, and interruptedly supplying power is opened
Close 10 to power for discontinuous.
Embodiment 2
A kind of structure of the present embodiment for 1 middle cut-off electric switch 10 of embodiment, in the present embodiment, as shown in Fig. 2 interruption
Power switch 10 is made up of low-speed micro-motor 1 and interruptedly supplying power unit, and interruptedly supplying power unit is connected to low-speed micro-motor 1
On output shaft 2.
Interruptedly supplying power unit is made up of rotor 4, fixed carbon brush 3, adjustable gear switch 11, and rotor 4 is metallic rotator, rotor 4
Insulating barrier 5 is provided with axial external surface, if insulating barrier 5 by 4 axial external surface of rotor be from left to right divided into full conductive region and
The semiconductor regions in dry tape insulation region, from left to right insulating regions gradually increase insulating barrier 5.Fixed carbon brush 3 and full conduction region
Domain is connected.
In Fig. 2,4 axial external surface of rotor is from left to right divided into a-quadrant, B regions, C regions and D regions by insulating barrier 5, its
Middle a-quadrant does not have insulating barrier, and B regions axial dielectric layer accounts for 1/4, the C regions axial dielectric layer of the region axial external surface and accounts for this
1/3, the D regions axial dielectric layer of region axial external surface accounts for the 1/2 of the region axial external surface.Designer can also basis
Specifically need to arrange specific insulating regions.
Adjustable gear switch 11 in Fig. 2 is made up of movable carbon brush 6 and slide bar 7, and 6 one end of movable carbon brush is slidably connected at slide bar
7, move on slide bar 7, the other end is contacted with rotor outer surface.
When A area of the movable carbon brush 6 on metallic rotator, electric current from fixed carbon brush 6 flow the A areas on metallic rotator when,
Because A areas do not have insulating barrier, electric current directly flows to motor from movable carbon brush 4.
When B area of the movable carbon brush 6 on metallic rotator, as there are 1/4 insulating barrier, the electric current of stream to metallic rotator in B areas
Rested here for 1/4 time(I.e. circuit disconnects, and 1/4 time referred to that input shaft rotated the 1/4 of the time of one week), then Jing activity charcoals
Brush 4 flows to motor.
When C area of the movable carbon brush 6 on metallic rotator, as there are 1/3 insulating barrier, the electric current of stream to metallic rotator in C areas
Rested here for 1/3 time(I.e. circuit disconnects, and 1/3 time referred to that input shaft rotated the 1/3 of the time of one week), then Jing activity charcoals
Brush 4 flows to motor.
When D area of the movable carbon brush 6 on metallic rotator, as there are 1/2 insulating barrier, the electric current of stream to metallic rotator in D areas
Rested here for 1/2 time(I.e. circuit disconnects, and 1/2 time referred to that input shaft rotated the 1/2 of the time of one week), then Jing activity charcoals
Brush 4 flows to motor.
The plane graph of 4 axial external surface of Fig. 2 rotors is as shown in figure 4, insulating barrier 5 is the trapezoidal of point some square regions.
The plane graph of 4 axial external surface of Fig. 2 rotors can also be as shown in figure 5, insulating barrier 5 be the triangle for dividing some regions
Shape.
Adjustable gear switch 11 can also be as shown in figure 3, in Fig. 3, adjustable gear switch 11 be by key switch 13 and stepping carbon brush
12 compositions, key switch 13 and each stepping carbon brush 12 connect respectively, and each stepping carbon brush 12 is fixed on each of 4 axial external surface of rotor
On region, on each region, respectively there is a stepping carbon brush 12.
Embodiment 3
Another kind of structure of the present embodiment for 1 middle cut-off electric switch 10 of embodiment, in the present embodiment, as shown in fig. 6,
Cut-off electric switch 10 is made up of low-speed micro-motor 1 and interruptedly supplying power unit, and interruptedly supplying power unit is connected to low-speed micro-motor 1
Output shaft 2 on.
Interruptedly supplying power unit is made up of rotor 4, fixed carbon brush 3, adjustable gear switch 11, and rotor 4 is made by insulant
Insulation rotor, is provided with conductive layer 5 in 4 axial external surface of rotor, 4 axial external surface of rotor is from left to right divided into by conductive layer 5
Full conductive region and the semiconductor regions in some tape insulation regions, from left to right conductive region is gradually reduced conductive layer 5.Fixed carbon
Brush 3 is connected with full conductive region.
In Fig. 6,4 axial external surface of rotor is from left to right divided into a-quadrant, B regions, C regions and D regions by conductive layer 5, its
Middle a-quadrant is full conductive region, and B regions axial conduction region accounts for 3/4, the C regions axial conduction area of the region axial external surface
Domain accounts for 2/3, the D regions axial conduction region of the region axial external surface and accounts for the 1/2 of the region axial external surface.Designer
Specific conductive region can be set according to specific needs.
Adjustable gear switch 11 in Fig. 6 is made up of movable carbon brush 6 and slide bar 7, and 6 one end of movable carbon brush is slidably connected at slide bar
7, move on slide bar 7, the other end is contacted with rotor outer surface.
When A area of the movable carbon brush 6 on rotor 4, electric current from fixed carbon brush 6 flow the A areas on rotor when, because A areas are
Full conductive region, electric current directly flow to motor from movable carbon brush 4.
When B area of the movable carbon brush 6 on rotor, as there is 3/4 conductive region in B areas, the electric current of stream to rotor is here
Rested for 1/4 time(I.e. circuit disconnects, and 1/4 time referred to that input shaft rotated the 1/4 of the time of one week), then Jing activity carbon brush 4 flow
To motor.
When C area of the movable carbon brush 6 on rotor, as there is 2/3 conductive region in C areas, the electric current of stream to rotor is here
Rested for 1/3 time(I.e. circuit disconnects, and 1/3 time referred to that input shaft rotated the 1/3 of the time of one week), then Jing activity carbon brush 4 flow
To motor.
When D area of the movable carbon brush 6 on rotor, as there is 1/2 conductive region in D areas, the electric current of stream to rotor is here
Rested for 1/2 time(I.e. circuit disconnects, and 1/2 time referred to that input shaft rotated the 1/2 of the time of one week), then Jing activity carbon brush 4 flow
To motor.
The plane graph of 4 axial external surface of Fig. 6 rotors is as shown in Figure 8.
The plane graph of 4 axial external surface of Fig. 6 rotors can also be as shown in Figure 9.
Adjustable gear switch 11 can also be as shown in fig. 7, in Fig. 7, adjustable gear switch 11 be by key switch 13 and stepping carbon brush
12 compositions, key switch 13 and each stepping carbon brush 12 connect respectively, and each stepping carbon brush 12 is fixed on each of 4 axial external surface of rotor
On region, on each region, respectively there is a stepping carbon brush 12.
Claims (12)
1. a kind of interruptedly supplying power is switched, it is characterised in that:The interruptedly supplying power switch includes motor and interruptedly supplying power unit, between being somebody's turn to do
Cut-off electric unit is connected on the output shaft of motor.
2. interruptedly supplying power according to claim 1 is switched, it is characterised in that:The motor is low-speed micro-motor.
3. according to the arbitrary described interruptedly supplying power switch of claim 1 or 2, it is characterised in that:The interruptedly supplying power unit includes
Rotor, fixed carbon brush and adjustable gear switch, the rotor are arranged on the output shaft of motor.
4. interruptedly supplying power according to claim 3 is switched, it is characterised in that:The rotor be metallic rotator, the metal turn
Insulating barrier is provided with sub- axial external surface, metallic rotator axial external surface is from left to right divided into full conductive region by the insulating barrier
With the semiconductor regions in some tape insulation regions, from left to right insulating regions gradually increase insulating barrier, the fixed carbon brush with it is complete
Conductive region is connected.
5. interruptedly supplying power according to claim 4 is switched, it is characterised in that:The insulating barrier by metallic rotator axial direction appearance
Face is from left to right divided into a-quadrant, B regions, C regions and D regions, and wherein a-quadrant does not have insulating barrier, and B regions axial dielectric layer is accounted for
1/4, the C regions axial dielectric layer of the region axial external surface accounts for 1/3, the D regions axial dielectric layer of the region axial external surface
Account for the 1/2 of the region axial external surface.
6. interruptedly supplying power according to claim 4 is switched, it is characterised in that:The adjustable gear switch is by movable carbon brush and cunning
Bar is constituted, and movable carbon brush one end is slidably connected on slide bar, moves on slide bar, and the other end is connected with metallic rotator outer surface
Touch.
7. interruptedly supplying power according to claim 4 is switched, it is characterised in that:The adjustable gear switch is by key switch and divides
Shelves carbon brush composition, key switch and each stepping carbon brush connect respectively, and each stepping carbon brush is fixed on metallic rotator axial external surface
On each region, on each region, respectively there is a stepping carbon brush.
8. interruptedly supplying power according to claim 3 is switched, it is characterised in that:The rotor is to insulate made by insulant
Rotor, is provided with conductive layer on the rotor axial outer surface, the rotor axial outer surface is from left to right divided into by conductive layer leads entirely
Electric region and the semiconductor regions in some tape insulation regions, from left to right conductive region is gradually reduced conductive layer, fixed carbon brush with
Full conductive region is connected.
9. interruptedly supplying power according to claim 8 is switched, it is characterised in that:The conductive layer is by the rotor axial appearance
Face is from left to right divided into a-quadrant, B regions, C regions and D regions, and wherein a-quadrant is full conductive region, B regions axial conduction area
Domain accounts for 2/3, the D regions axial direction that 3/4, the C regions axial conduction region of the region axial external surface accounts for the region axial external surface
Conductive region accounts for the 1/2 of the region axial external surface.
10. interruptedly supplying power according to claim 8 is switched, it is characterised in that:The adjustable gear switch by movable carbon brush and
Slide bar is constituted, and movable carbon brush one end is slidably connected on slide bar, moves on slide bar, and the other end is connected with metallic rotator outer surface
Touch.
11. interruptedly supplying power switches according to claim 8, it is characterised in that:The adjustable gear switch by key switch and
Stepping carbon brush is constituted, and key switch and each stepping carbon brush connect respectively, and each stepping carbon brush is fixed on metallic rotator axial external surface
Each region on, respectively have a stepping carbon brush on each region.
A kind of 12. electrocars, including electromotor electric supply installation, the electromotor electric supply installation include power battery pack and unidirectional current
Machine, it is characterised in that:The electromotor electric supply installation also includes the arbitrary described interruptedly supplying power switch of claim 1-11.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621173380.XU CN206117427U (en) | 2016-10-26 | 2016-10-26 | Be interrupted power supply switching and electronic car |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621173380.XU CN206117427U (en) | 2016-10-26 | 2016-10-26 | Be interrupted power supply switching and electronic car |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206117427U true CN206117427U (en) | 2017-04-19 |
Family
ID=58525267
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621173380.XU Expired - Fee Related CN206117427U (en) | 2016-10-26 | 2016-10-26 | Be interrupted power supply switching and electronic car |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206117427U (en) |
-
2016
- 2016-10-26 CN CN201621173380.XU patent/CN206117427U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170419 Termination date: 20201026 |