KR20120119344A - Decelerator for electric vehicle - Google Patents

Abstract

PURPOSE: A reducer for an electric vehicle is provided to secure vehicle driving force by changing reduction speed ratio according to a driving state of the electric vehicle. CONSTITUTION: A planetary gear set(1) comprises an input element, a fixed element, and an output element. A fixed reduction unit(5) is placed between the output element of the planetary gear set and a differential. A clutch(7) controls the input element and the output element of the planetary gear set. A brake(9) converts a state which fixes the fixed element of the planetary gear set. The fixed reduction unit is comprised of an external gear which is installed between the output element of the planetary gear set and the differential.

Description

Decelerator for Electric Vehicle

The present invention relates to a speed reducer, and more particularly, to a configuration of a speed reducer that can be used in a drive system of a vehicle such as an electric vehicle.

FIG. 1 is a conventional typical external gear type reducer having an external gear 504 between an input shaft 500 and a differential 502, which cannot be changed according to the number of teeth of the external gear 504. Two reduction ratios.

2 is a conventional planetary gear type reducer of the related art, in which the first planetary gear set 506 and the second planetary gear set 508 on the right side decelerate the power from the input shaft 500 to the third planetary gear set 510. The third planetary gear set 510 on the left side performs a differential function of distributing power to both wheels, and the first planetary gear set serving as the speed reducer 506 and the second planetary gear set 508 are configured to decelerate power at a reduction ratio that cannot be changed by a fixed connection structure and to supply the third planetary gear set 510.

Conventional speed reducers as described above are determined to have a fixed reduction ratio, so that it is difficult to simultaneously satisfy the driving force and fuel economy of an electric vehicle. That is, if the reducer is configured to implement a large reduction ratio to increase driving force, the fuel economy of the electric vehicle is deteriorated. On the contrary, if the reducer ratio is configured to implement a small reduction ratio, the driving force is lowered, but the driving force is lowered, and the appropriate level of the electric vehicle is relatively reduced. In order to secure the driving force, there is a difficulty in that the capacity of the motor for supplying power to the speed reducer must be increased.

The present invention has been made in order to solve the problems described above, by reducing the reduction gear ratio can be implemented in multiple stages, it is possible to change the reduction gear ratio according to the driving state of the vehicle, so as to ensure sufficient driving force of the vehicle In addition, the purpose of the present invention is to provide an electric vehicle speed reducer that can improve fuel economy of the vehicle.

The present invention for reducing the electric vehicle for achieving the object as described above

A planetary gear set having an input element, a fixed element, and an output element;

Fixed deceleration means provided between the output element and the differential of the planetary gear set;

A clutch provided to control the input and output elements of the planetary gear set;

It characterized in that it comprises a brake provided to be able to switch the state of fixing the fixed element of the planetary gear set.

According to the present invention, the reduction gear ratio can be realized in multiple stages, and the reduction gear ratio can be changed in multiple stages according to the driving state of the electric vehicle, thereby ensuring sufficient driving power of the vehicle and improving fuel economy of the electric vehicle. Make sure

1 is a view for explaining the configuration of the external gear type reducer according to the prior art,
2 is a view for explaining the configuration of the planetary gear reducer according to the prior art,
3 is a view showing an embodiment of a speed reducer for an electric vehicle according to the present invention;
4 is a lever diagram illustrating the operation of the speed reducer of FIG. 3;
5 is a view showing another embodiment of a speed reducer for an electric vehicle according to the present invention;
6 is a lever diagram illustrating an operation of the speed reducer of FIG. 5.

3 and 5, embodiments of the present invention include a planetary gear set 1 having an input element, a fixed element, and an output element; Fixed deceleration means (5) provided between the output element of the planetary gear set (1) and the differential (3); A clutch 7 provided to intermittently input and output elements of the planetary gear set 1 and a brake 9 provided to switch a state of fixing the fixed element of the planetary gear set 1. It is configured to include).

That is, in addition to the basic reduction ratio secured by the fixed reduction means 5, it is possible to implement another reduction ratio provided by the planetary gear set 1, and the state of implementing these two reduction ratios is fastened to the clutch 7. It is configured to switch by whether or not.

3 and 5, the fixed deceleration means 5 is constituted of an external gear 11 provided between the output element of the planetary gear set 1 and the differential 3. However, in addition to the conventional planetary gear type reducer as shown in Figure 2 may be configured by installing between the output element and the differential (3).

More specifically, in the embodiment of Figure 3, the fixed element of the planetary gear set 1 is a ring gear (R), the input element is a sun gear (S), the output element is a carrier (C), the clutch ( 7) is a configuration provided to directly connect the carrier (C) and the sun gear (S).

5, the fixed element of the planetary gear set 1 is a sun gear S, an input element is a ring gear R, an output element is a carrier C, and the clutch 7 Is a configuration provided to directly connect the carrier (C) and the ring gear (R).

First, the operation of the embodiment of FIG. 3 will be described with reference to FIG. 4.

Power is supplied to the sun gear S which is the input element while the ring gear R of the planetary gear set 1 is fixed by fastening the brake 9, and the clutch 7 is opened. Power supplied to the sun gear (S) is decelerated in the carrier (C) and transmitted to the differential (3) through the external gear (11).

In this case, the deceleration action of the planetary gear set 1 is represented by the oblique line of FIG. 4, and as described above, the decelerated power of the planetary gear set 1 is determined by the external gear 11 of the external gear 11. The deceleration ratio is reduced again according to the number of teeth to drive the differential 3. That is, in this state, the deceleration by the planetary gear set 1 and the deceleration by the external gear 11 are superimposed and output.

Next, in a state in which the brake 9 is released and the clutch 7 is engaged, the carrier C and the sun gear S of the planetary gear set 1 are directly connected to each other so that the planetary gear set 1 as a whole. Is rotated by one rotating body, and as a result, the input input to the sun gear S is transmitted to the external gear 11 through the carrier C as it is. That is, the planetary gear set 1 transmits power to the external gear 11 as it is without a separate deceleration action.

The action of the planetary gear set 1 in this state can be expressed by the upper horizontal line in FIG.

Therefore, in the above state, the power input through the sun gear S is decelerated only by the deceleration action according to the number of teeth of the external gear 11 and is output to the differential 3, which is different from the above state. Reduction ratio is implemented.

As a result, the deceleration is performed not only in the external gear 11 but also in the planetary gear set 1, since more deceleration is achieved as compared with the case where only the external gear 11 decelerates the driving force of the electric vehicle. In this situation, it is possible to more suitably contribute to securing sufficient driving force of the electric vehicle. In the planetary gear set 1, the deceleration is not performed, and when the deceleration is performed only by the external gear 11, the fuel consumption is relatively low. It is possible to contribute to the fuel economy of the electric vehicle by implementing an advantageous state.

Meanwhile, the operation of the embodiment of FIG. 5 is generally similar to that of the embodiment of FIG. 3. In the state where the brake 9 is engaged and the clutch 7 is released, the power input to the ring gear R is As shown by the oblique line in FIG. 6, the gear is decelerated and transferred to the external gear 11, so that once the speed reduction is performed in the planetary gear device, the speed reduction is again performed in the external gear 11. 3) to realize the advantageous state to secure the driving force of the electric vehicle.

In addition, the brake 9 is released, and the clutch 7 is engaged to rotate the planetary gear unit integrally to transmit the power input to the ring gear R to the external gear 11 as it is. 6, the planetary gear device does not have a deceleration action as shown in the upper horizontal line of FIG. 6, and the deceleration is performed at a fixed gear ratio only in the external gear 11, thereby improving the fuel efficiency of the electric vehicle.

Meanwhile, in the above embodiments, the planetary gear set 1 is illustrated as a single pinion type, but the present invention is not limited thereto, and the planetary gear set 1 may be a double pinion type or the like. The role of the sun gear (S), ring gear (R) and carrier (C) assigned to the element, the output element and the fixed element may be variously applied, and may be implemented to increase speed if necessary. .

One; Planetary Gear Sets
3; Differential
5; Fixed deceleration means
7; clutch
9; brake
11; External gear
R; Ring gear
S; Sun gear
C; carrier

Claims (7)

A planetary gear set having an input element, a fixed element, and an output element;
Fixed deceleration means provided between the output element and the differential of the planetary gear set;
A clutch provided to control the input and output elements of the planetary gear set;
A brake provided to switch a state of holding the fixed element of the planetary gear set;
Reducer for an electric vehicle, characterized in that configured to include. The method according to claim 1,
The fixed deceleration means
Consisting of an external gear provided between the output element of the planetary gear set and the differential
Reducer for electric vehicles, characterized in that. The method according to claim 2,
The fixed element of the planetary gear set is a ring gear, the input element is a sun gear, and the output element is a carrier;
The clutch is provided to directly connect the carrier and the sun gear
Reducer for electric vehicles, characterized in that. The method according to claim 2,
The fixed element of the planetary gear set is a sun gear, the input element is a ring gear, and the output element is a carrier;
The clutch is provided to directly connect the carrier and the ring gear
Reducer for electric vehicles, characterized in that. The method according to claim 1,
The fixed deceleration means
Consisting of a planetary gear type reducer installed between the output element of the planetary gear set and the differential
Reducer for electric vehicles, characterized in that. The method according to claim 5,
The fixed element of the planetary gear set is a ring gear, the input element is a sun gear, and the output element is a carrier;
The clutch is provided to directly connect the carrier and the sun gear
Reducer for electric vehicles, characterized in that. The method according to claim 5,
The fixed element of the planetary gear set is a sun gear, the input element is a ring gear, and the output element is a carrier;
The clutch is provided to directly connect the carrier and the ring gear
Reducer for electric vehicles, characterized in that.

Images