KR20090014883A - Power train system of engine - Google Patents

Abstract

A power train system of the engine is provided that the vehicles power can be efficiently controlled as the independent fuel injection system is used. A power train system of the engine comprises a torque measurement device mounted on the backend universal joint and between rear axle of the propeller shaft. The torque measurement device includes a sensing body(210) mounted on the lower part of car body, first and second rotor housings(220,221) which are formed with the semicircular shape and are symmetrical, a circular rotor(230) mounted on the cross section of the adapter flange. The sensing body comprises the sensor unit(213) forming the sensing groove(211). The sensing body is mounted on the lower part of car body through the mounting bracket.

Description

POWER TRAIN SYSTEM OF ENGINE

The present invention relates to a power transmission system of an engine, and more particularly, to an engine power transmission system capable of measuring and controlling real-time torque directly from a propeller shaft by mounting a torque meter on a propeller shaft connecting a transmission and a rear axle. will be.

In general, the power transmission system of the engine is composed of a transmission that receives engine power, a rear axle connecting the rear wheels, and a propeller shaft connecting the rear axle and the transmission and transmitting power of the transmission to the rear axle.

1 is a view showing a power transmission system of an engine according to the prior art. Referring to the drawings, the power generated by the operation of the engine 1 is transmitted to the transmission 5 through the clutch 3, and the transmission ( It is transmitted to the rear axle 9 through a propeller shaft 7 connected with 5).

The rear axle 9 receives power from the propeller shaft 7 and differentially transmits the driving force of the left and right driving wheels to the rear wheels 11 so that the vehicle can be smoothly rotated when the vehicle travels or turns uneven roads.

In the power transmission system of an engine having such a configuration, the torque generated by the driving force of the vehicle is physically linked to each other from fuel injection by the driver's opening degree to the final output of the vehicle, and different torque values are obtained at each point. Will occur.

First, the torque generated from the transmission 5 and the engine 1 is subjected to several intermediate stages such as a gear ratio and a clutch 3, thereby producing an output torque of the transmission 5 that is actually available. In order to generate more engine torque, since there is energy loss such as friction in the engine 1 itself, the actual available engine torque except this is usually expressed as inner torque.

This total inner torque is calculated as the target amount of fuel injected by the fuel mass torque converter (FMTC) map, which is calculated through the injector map of the fuel injection equipment (FIE) system (ie, calculated values of Start of Injection and Energizing Time). Is determined.

However, in the conventional engine power transmission system as described above, the torque actually controlled by the driver in terms of vehicle driveability and responsiveness is the output torque of the transmission 5, but in the vehicle, since there is no measurement device capable of directly measuring the torque, This is controlled by converting it into fuel amount, and even if the fuel amount is converted into torque by the FMTC map, there is a problem that it cannot be converted with perfect linearity.

In addition, under the abnormal FIE (Fuel Injection Equipment) system conditions such as injectors, caulking, etc., it directly affects the vehicle output reduction.In diesel engines, DPF (DIESEL PARTICULATE FILTER Trap), LNT (Lean NOx Trap) ) And SCR (Selective Catalytic Reduction) have the problem that it is difficult to control the torque because it is not easy to measure the exact amount of fuel.

Accordingly, the present invention was created to solve the above problems, and an object of the present invention is to mount a torque meter on a propeller shaft connecting a transmission and a rear axle to measure and control real-time torque directly from the propeller shaft. Thus, it is possible to provide a power transmission system of an engine that improves driving operability and responsiveness in all driving regions and enables vehicle power control through an independent fuel injection system.

In the power transmission system of the engine according to the present invention for achieving this object, the power generated by the operation of the engine is transmitted to the transmission through the clutch, the transmitted power is transmitted to the rear axle through the propeller shaft to drive the rear wheels In the power transmission system of the, characterized in that the torque measuring device is mounted between the rear end universal joint and the rear axle of the propeller shaft.

The torque measuring device may include a sensor unit configured to form a sensing groove on an upper side thereof, and a sensing body mounted on both sides of the lower side of the vehicle body through a mounting bracket; First and second rotor housings having a mounting hole having a bolt hole formed at a lower end thereof so as to be mounted on the upper part of the sensing body through assembly bolts, and formed in a semicircular shape and symmetric with each other; And a circular rotor rotatably installed on the inner circumferential surfaces of the first and second rotor housings, protruding on one surface to form a circular adapter flange, and having a disk mounted on a cross section of the adapter flange. It is characterized by.

The disc is installed so as to rotate between the sensing groove of the sensor unit.

According to the power transmission system of the engine according to the present invention as described above, by measuring and controlling the real-time torque directly from the propeller shaft using a torque meter mounted on the propeller shaft, driving and responsiveness of the vehicle in all driving areas In addition, it is possible to control the vehicle power through an independent fuel injection system.

In addition, abnormal fuel injection equipment (FIE) system conditions such as injectors, caulking, etc., or DIESEL PARTICULATE FILTER Trap (DPF), Lean NOx Trap (LNT) and SCR (Selective Catalytic Reduction) Even if it is applied, the torque measuring device makes it easy to measure the exact torque of the vehicle, and can be applied not only to the internal combustion engine but also to the power control of the fuel cell and the electric power vehicle.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail as follows.

2 is a schematic view showing a torque structure of an engine control system having a torque meter according to an embodiment of the present invention, and FIG. 3 is an enlarged view of a portion A of FIG. 4 is an exploded perspective view of a torque meter according to an embodiment of the present invention.

In the power transmission system of the engine according to the embodiment of the present invention, as shown in FIG. 2, the power generated by the operation of the engine 101 is transmitted to the transmission 105 through the clutch 103, and the transmission 105 The propeller shaft 107 is connected to the rear axle 109.

The rear axle 109 receives power from the propeller shaft 107 and differentially transmits the driving force of the left and right driving wheels to the rear wheels 111 so that the vehicle can be smoothly rotated when the vehicle is traveling or turning the uneven road.

Here, a torque meter 200 is mounted between the rear universal joint 113 of the propeller shaft 107 and the rear axle 109 as shown in FIG. 3.

As shown in FIG. 4, the torque measuring device 200 includes a sensing body 210, first and second rotor housings 220 and 221, and a rotor 230.

First, the sensing body 210 is configured with a sensor unit 213 that forms a sensing groove 211 on one side of the upper side, and both sides of the lower side is mounted to the lower portion of the vehicle body through the mounting bracket 115.

The first and second rotor housings 220 and 221 are mounted on the sensing body 210.

The first and second rotor housings 220 and 221 have a mounting end 227 having a bolt hole 225 formed at a lower end thereof so as to be mounted on the sensing body 210 through an assembly bolt 223. They are semicircular and symmetrical to each other.

The rotor 230 is rotatably installed on the inner circumferential surfaces of the first and second rotor housings 220 and 221.

The rotor 230 is formed in a circular shape, protrudes on one surface thereof, and a circular adapter flange 231 is integrally formed, and a disk 233 is mounted on a cross section of the adapter flange 231.

Here, the disk 233 is preferably installed to rotate between the sensing groove 211 of the sensor unit 213.

In the mounting of the torque measuring device 200 configured as described above, first, the first and second rotor housings 220 and 221 are mounted on the sensing body 210 via the assembly bolt 223. In the state where the rotor 230 is mounted at the end of the rear axle 109, the assembled sensing body 210 and the first and second rotor housings 220 and 221 of the rotor 230 are mounted. After the outer circumferential surface is rotatably installed on the inner circumferential surfaces of the first and second rotor housings 220 and 221, the sensing body 210 is fixed to the vehicle body through the mounting bracket 115.

And the rear universal joint 113 of the propeller shaft 107 is mounted on the cross section of the rotor 230 mounted to the end of the rear axle (109).

The torque measuring device 200 mounted as described above is connected to the ECU of the vehicle and, as the propeller shaft 107 rotates between the sensing grooves 211 as the propeller shaft 107 rotates by the output of an engine, such as the propeller shaft 107. The sensor unit 213 directly measures the torque of the vehicle at the rotational speed of the rotating disk 233, converts the measured torque into an output signal, and outputs the output signal to the ECU. Will be controlled.

Therefore, the power transmission system of the engine configured as described above uses the torque measuring device 200 mounted on the propeller shaft 107 connecting the transmission 105 and the rear axle 109 according to the driving conditions of the vehicle. Since real-time torque can be measured and controlled directly from the propeller shaft 107, accurate torque control in all vehicle conditions and driving conditions without having to control torque by converting fuel amount according to conventional Fuel Mass Torque Converter (FMTC) map This makes it possible to improve the driving and responsiveness of the vehicle.

1 is a view showing a power transmission system of an engine according to the prior art.

2 is a schematic diagram showing a torque structure of an engine control system having a torque meter according to an exemplary embodiment of the present invention.

3 is an enlarged view of a portion A of FIG. 2 and is a side configuration diagram of a torque meter according to an exemplary embodiment of the present invention.

4 is an exploded perspective view of a torque meter according to an exemplary embodiment of the present invention.

Claims (3)

In the power transmission system of the engine for driving the rear wheel drive the power generated by the operation of the engine is transmitted to the transmission through the clutch, the propeller shaft through the propeller shaft, And a torque gauge is mounted between the rear universal axle and the rear axle of the propeller shaft. The method of claim 1, The torque measuring device, A sensing unit configured to form a sensing groove on an upper side thereof, and a lower sensing body mounted on both sides of the lower body through a mounting bracket; First and second rotor housings having a mounting hole having a bolt hole formed at a lower end thereof so as to be mounted on the upper part of the sensing body through assembly bolts, and formed in a semicircular shape and symmetric with each other; Is rotatably installed on the inner circumferential surface of the first and second rotor housing, protrudes on one surface to form a circular adapter flange integrally, and comprises a circular rotor mounted on the cross section of the adapter flange The power transmission system of the engine characterized by the above-mentioned. The method of claim 2, The disk is a power transmission system of the engine, characterized in that installed to rotate between the sensing groove of the sensor unit.

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