TH173017A - Vehicle brake system - Google Patents

Abstract

The vehicle's brake system, which consists of components for steering the Brakes, which are to be operated by the driver of the vehicle, the provided hydraulic braking device It is intended for either front and rear wheels and is configured to create braking force. Hydraulic type based on the behavior of the components for controlling the work of the brakes. Where the force for hydraulic braking depends on the pressure of the working fluid and The electric braking device was provided for the front and the other remaining wheels and was assigned A configuration to generate electric braking force according to the component behavior. For controlling the operation of the brakes where the force of the electric braking depends on the movement. Of electric motor

Claims (3)

Disclaimer (all) that will not appear on the advertisement page: 1. Vehicle brake system which includes A component for steering the brake which is to be operated by the vehicle's driver, a hydraulic brake device provided for either front and rear wheels. And is configured to generate a hydraulic braking force based on the behavior of A component for controlling the operation of the brakes with such hydraulic braking force. Will depend on the pressure of the working fluid and Electric brake device provided for the front and the remaining wheels. And is configured to generate electric braking force according to the behavior of the part. Assembly for controlling the operation of the brakes, where the force of such electric braking depends on the 2. The braking system of the vehicle according to claim 1, whereby the braking force is applied to the hydraulic And the electric braking force is controlled in order to have a common function. 3. The braking system of the vehicle according to claim 2, where the braking force uses hydraulic And the electric braking force is generated with the set distribution ratio 4. The braking system of the vehicle according to claim 2 or 3, which, as mentioned above, is assembled. It is included with the regenerative braking device provided for the front and rear wheels of any kind. One, where hydraulic braking devices and electric braking devices are provided. One is provided, where the regenerative braking device is configured to be built The braking force is regenerated by taking advantage of the power generation by rotation. Of front wheel and one rear wheel Where the hydraulic braking force, the electric braking force and the Power-regenerated brakes are regulated to act together. 5. Braking system of the vehicle according to claim 4, where the braking force is applied hydraulic. And the electric braking force is controlled in such a way that the hydraulic braking force and the In electric braking, it is compensated for insufficient braking force which cannot be compensated for. By the braking force that has been regenerated with the insufficient braking force as The amount lacking in the overall braking force required, which is the braking force required for 6. The braking system of the vehicle pursuant to any of Claim 1-5, where, in situations where the hydraulic braking force and the applied braking force, Either electricity has a variable hydraulic braking force, and the remaining electric braking force is Changed to reflect the variation 7. Brake system of the vehicle according to claim 6, where in situations where braking force There is a decrease in the hydraulic braking force and the electric braking force. The remaining hydraulic braking force and braking force will change. 8. Vehicle brake system according to claim 7, where the force of hydraulic braking And the remaining electric braking force is increased to compensate for the reduction in braking force. Use either hydraulic and electric braking force 9. Braking system of the vehicle according to claim 7 where the braking force is applied to hydraulic. And the remaining electric braking force is reduced as a decrease in the hydraulic braking force. And the braking force of one of the electric vehicles 1 0. The braking system of the vehicle according to one of the claims 7-9, where the braking force used hydraulic and The remaining electric braking force will change. In situations where the hydraulic braking force and the electric braking force are either Decreases as a result of slowing down, the increase in hydraulic braking force and the braking force Use a Type of Electricity 1 1. Vehicle braking system According to one of Claim 7-10, it is estimated that the vehicle is in a situation where the force of hydraulic braking is applied. Lick and force There is a reduction in volume of one of the electric brakes based on one or more of the following characteristics: The environment in which the vehicle is present and the condition of the major components of the brake system. Of the vehicle and the hydraulic braking force and the residual electric braking force In other words, there will be changes based on Estimate 1 2. Vehicle braking system according to claim 11, with the estimate that the vehicle is In situations where the hydraulic braking force and the electric braking force are either This is based on at least one of the following: the ambient temperature, atmospheric pressure, electric motor temperature and battery voltage, which are configured to provide Power to the electric motor 1 3. Vehicle braking system according to one of the claims 7-10, where the hydraulic braking force and the braking force Somehow use electricity One that is actually being created was detected and Where it is proven based on a detection that the vehicle is in Situation in which either the hydraulic braking force and the electric braking force are reduced 1 4. The braking system of the vehicle according to claim 13 where the braking force is Use hydraulic And the residual electric braking force will change according to the braking force of the Detected one of the detected hydraulic and electric braking forces 1 5. Braking system of the vehicle according to one of the claims 6-14. To and also include a regenerated power brake device provided for Front wheel and one rear wheel, whose hydraulic braking device is configured to To create a hydraulic braking force and an electric braking device that is configured In order to generate a force for electric braking, one is provided where a braking device has Power regeneration is configured to generate a regenerative braking force by taking advantage of the power generation by rotating the front and rear wheels. For one thing, a regenerated braking device was provided. Where when an alternating action is performed to increase the hydraulic braking force and the Electrically operated braking, while the braking force is reduced with regenerative power. The hydraulic braking force and the residual electric braking force are altered to In accordance with the variations in the situation where the hydraulic braking force and the braking force Either electrically operated model will have a variable value 1 6. The vehicle's brake system follows any of the claims 1-15 where the hydraulic brake device will consist of: The rotating part, which is configured to rotate along with the front and rear wheels. The one Friction components that are configured so that they are pressed onto the brake cylinder rotating part, which is configured to operate by the operating fluid. Supplied to press the frictional component onto the rotating body. The pump is configured to provide pressure to the working fluid and to supply the fluid. For applications where pressure is applied to the brake cylinder assembly and A pressure flap, which is configured to maintain the pressure of the working fluid to be It is supplied to the brake cylinder assembly in a controllable manner. 1 7. Brake system of the vehicle according to claim 16, where the hydraulic brake device has an additional component: Master cylinder consisting of (a) a piston attached to a component for And (b) the pressure chamber through which the operating fluid released inside will Pressure is applied by the movement of the piston, the main cylinder is configured to allow Pressure to the working fluid by the working force that the driver delivers on the component. For force brake operation The fluid path through which the fluid is supplied for the pressurized application in the room. The master cylinder pressure is applied to the brake cylinder assembly and The valve is configured to open and close the path through the fluid core, whereby the actuation of the brake cylinder assembly by the working fluid being supplied from the cylinder. The main cylinder and brake master cylinder function whereby the working fluid to be fed from the pump is determined. It depends on the operating conditions of the valve on / off. 1 8. Braking system of vehicles according to claim 17 where the hydraulic brake device consists of a reservoir that stores fluid. For use and and the pump will pump the working fluid from the area and the path. Through the fluid at the reservoir, which connects the reservoir and pump, and The pressure flaps allow part of the working fluid to be supplied from the pump to the The brake cylinder unit travels through a stabilizer valve to regulate the pressure of the working fluid. And that portion of the working fluid, moving through a constant pressure valve, flows into the reservoir. Storage or path through the fluid reservoir 1 9. Braking system of vehicles according to claim 18 by the hydraulic brake device. It consists of a blocking valve, which is configured to block the flow of the working fluid. Into the reservoir or the fluid passage through the reservoir when the brake cylinder assembly is forced It is operated by the operating fluid being supplied from the master cylinder in the condition that the throttle is opened 2 0. Brake system of the vehicle according to claim 18 or 19 with the reservoir being prepared. Near the master cylinder and the working fluid from the reservoir is pressurized in the pressurized chamber Of main cylinder 2 1. The vehicle's brake system, according to one of claim 17-20, where the hydraulic brake device will consist of a stroke simulator, which is provided on the route. Through the principle of fluid and is configured to allow the function of the components. For regulating the operation of the brake while providing resistance according to the behavior of the components. For the work of the brakes to act on the components for the control of the brakes. When the brake master cylinder is forced by the working fluid being supplied by the pump in a condition where the throttle is closed 2 2. Brake system of the vehicle, pursuant to any of Claim 16-21, where the pump and the hydraulic brake device's throttle valve are integrated into the actuator unit. 2 3. The vehicle braking system applies one of the claims 16-22, where the throttle is a linear electromagnetic flap that is configured to reduce fluid pressure. For applications that are supplied to the brake master cylinder as voltage according to the current applied to the valve. Linear electromagnet