초록 ▼

A brake control apparatus includes wheel cylinders which apply braking force to wheels when supplied with hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure independently of a brake operating member operation; a manual hydraulic pressure source that inc

A brake control apparatus includes wheel cylinders which apply braking force to wheels when supplied with hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure independently of a brake operating member operation; a manual hydraulic pressure source that includes first and second hydraulic pressure sources that pressurize the hydraulic fluid; a hydraulic fluid supply path that connects the manual hydraulic pressure source to the wheel cylinders; and a controller. Communication through the hydraulic fluid supply path is interrupted when the wheel cylinder pressure control system controls the wheel cylinder pressure, and the communication is permitted when the wheel cylinder pressure deviates from a target pressure. The controller executes control so that the hydraulic fluid from the first hydraulic pressure source starts to be supplied after the hydraulic fluid from the second hydraulic pressure source starts to be supplied.

대표청구항 ▼

What is claimed is: 1. A brake control apparatus, comprising: a plurality of wheel cylinders that each apply braking force to one of a plurality of wheels when supplied with a hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure independently of an opera

What is claimed is: 1. A brake control apparatus, comprising: a plurality of wheel cylinders that each apply braking force to one of a plurality of wheels when supplied with a hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure independently of an operation of a brake operating member, wherein the wheel cylinder pressure is a pressure of the hydraulic fluid supplied to the wheel cylinders; a manual hydraulic pressure source that includes a first hydraulic pressure source which pressurizes a hydraulic fluid stored in a hydraulic chamber of the first hydraulic pressure source in accordance with an operation amount of the brake operating member, and a second hydraulic pressure source that includes a regulator that adjusts a pressure of a hydraulic fluid stored in a hydraulic chamber of the second hydraulic pressure source in accordance with the pressure of the hydraulic fluid in the hydraulic chamber of the first hydraulic pressure source; a hydraulic fluid supply path that connects the manual hydraulic pressure source to the wheel cylinders; and a controller that controls a manner in which the hydraulic fluid is supplied to the wheel cylinders, wherein: communication between the manual hydraulic pressure source and the wheel cylinders through the hydraulic fluid supply path is interrupted when the wheel cylinder pressure control system controls the wheel cylinder pressure, and the communication between the manual hydraulic pressure source and the wheel cylinders through the hydraulic fluid supply path is permitted so that the hydraulic fluid is supplied from the manual hydraulic pressure source to the wheel cylinders when the wheel cylinder pressure deviates from a target pressure, and when the wheel cylinder pressure deviates from the target pressure, the controller controls the manner in which the hydraulic fluid is supplied to the wheel cylinders so that the hydraulic fluid from the second hydraulic pressure source is initially supplied to each of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is not supplied to any of the plurality of wheel cylinders, then the hydraulic fluid from the second hydraulic pressure source is supplied to both a first predetermined group and a second predetermined group of wheel cylinders of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is supplied to only the second predetermined group of wheel cylinders of the plurality of wheel cylinders. 2. The brake control apparatus according to claim 1, wherein: the wheel cylinders includes a first wheel cylinder, provided at a wheel among the plurality of wheels, to which a first braking force is allocated, and a second wheel cylinder, provided at a second wheel among the plurality of wheels, to which a braking force less than the first braking force applied by the first wheel cylinder is allocated; the hydraulic fluid supply path includes a first supply path that connects the first hydraulic pressure source to the first wheel cylinder, and a second supply path that connects the second hydraulic pressure source to the second wheel cylinder, and the hydraulic fluid supply path is provided with a partition valve that is provided at a middle portion of a passage that connects the first supply path to the second supply path and that partitions the hydraulic fluid supply path into the first supply path and the second supply path when the partition valve is closed; and the controller closes the partition valve after the hydraulic fluid from the second hydraulic pressure source starts to be supplied in order to partition the hydraulic fluid supply path into the first supply path and the second supply path so that the first wheel cylinder is supplied with the hydraulic fluid from the first hydraulic pressure source and the second wheel cylinder is supplied with the hydraulic fluid from the second hydraulic pressure source. 3. The brake control apparatus according to claim 2, wherein: the hydraulic fluid supply path includes a first cut off valve provided on the first supply path and a second cut off valve provided on the second supply path, and when the wheel cylinder pressure control system controls the wheel cylinder pressure, the controller closes both the first cut off valve and the second cut off valve, and when a pressure difference between an upstream side and a downstream side of the first cut off valve or the second cut off valve increases, the controller controls a valve opening pressure for the first cut off valve and a valve opening pressure for the second cut off valve so that the second cut off valve is mechanically opened before the first cut off valve is opened. 4. The brake control apparatus according to claim 3, wherein: each of the first cut off valve and the second cut off valve is a normally open electromagnetically controlled valve that is kept closed by an electromagnetic force generated when the electromagnetically controlled valve is supplied with a control current having a prescribed magnitude, and that is open when a supply of the control current is interrupted; and the controller supplies a medium current having a smaller magnitude than the control current to each of the first cut off valve and the second cut off valve while the first cut off valve and the second cut off valve need to be kept closed. 5. The brake control apparatus according to claim 4, wherein: the controller varies the medium current that is supplied when each of the first cut off valve and the second cut off valve is closed in accordance with the pressure difference between the upstream side and the downstream side of each of the first cut off valve and the second cut off valve or the pressure of the hydraulic fluid upstream side of each of the first cut off valve and the second cut off valve. 6. The brake control apparatus according to claim 4, wherein the medium current supplied to the first cut off is not the same as the medium current supplied to the second cut off valve. 7. The brake control apparatus according to claim 4, wherein the medium current supplied to the first cut off is greater than the medium current supplied to the second cut off valve. 8. The brake control apparatus according to claim 4, wherein the medium current supplied to the first cut off is less than the medium current supplied to the second cut off valve. 9. The brake control apparatus according to claim 2, wherein: the hydraulic fluid supply path is further provided with a first cut off valve provided on the first supply path and a second cut off valve provided on the second supply path; and when the partition valve is closed, the controller controls a valve opening pressure for the first cut off valve and a valve opening pressure for the second cut off valve in accordance with a valve opening pressure for the partition valve. 10. The brake control apparatus according to claim 2, wherein the first wheel cylinder applies the brake force to a front wheel among the plurality of wheels, and the second wheel cylinder applies the brake force to a rear wheel among the plurality of wheels. 11. The brake control apparatus according to claim 1, wherein, when the wheel cylinder pressure deviates from the target pressure, the controller controls the manner which the hydraulic fluid is supplied to the wheel cylinders so that the second hydraulic pressure source initially supplies hydraulic fluid to each of the plurality of wheel cylinders and the first hydraulic pressure source does not supply hydraulic fluid to any of the plurality of wheel cylinders, then the second hydraulic pressure source supplies hydraulic fluid to only a first predetermined group of wheel cylinders of the plurality of wheel cylinders and the first hydraulic pressure source supplies hydraulic fluid to only a second predetermined group of wheel cylinders of the plurality of wheel cylinders. 12. The brake control apparatus according to claim 11, wherein the first predetermined group of wheel cylinders each apply braking force to rear wheels from among the plurality of wheels when supplied with the hydraulic braking fluid, and wherein the second predetermined group of wheel cylinders each apply braking force to front wheels from among the plurality of wheels when supplied with the hydraulic braking fluid. 13. The brake control apparatus according to claim 11, wherein a braking force allocated to the first predetermined group of wheel cylinders is less than a braking force allocated to the second predetermined group of wheel cylinders. 14. The brake control apparatus according to claim 1, further comprising: a power hydraulic pressure source that pressurizes hydraulic fluid in the power hydraulic pressure source when supplied with power; and a reservoir that stores the hydraulic fluid which is supplied to the first hydraulic pressure source, wherein: the first hydraulic pressure source is a master cylinder that is shut off from the reservoir so that a flow of the hydraulic fluid from the reservoir into the master cylinder is interrupted when the brake operating member is operated, and that pressurizes the hydraulic fluid stored in the hydraulic chamber of the first hydraulic pressure source in accordance with the operation amount of the brake operating member; and the regulator included in the second hydraulic pressure source adjusts the pressure of the hydraulic fluid delivered from the power hydraulic pressure source in accordance with the pressure of the hydraulic fluid in the hydraulic chamber of the first hydraulic pressure source. 15. The brake control apparatus according to claim 1, wherein the fist predetermined group of wheel cylinders each apply braking force to rear wheels from among the plurality of wheels when supplied with the hydraulic braking fluid, and wherein the second predetermined group of wheel cylinder each apply braking force to front wheels from among the plurality of wheels when supplied with the hydraulic braking fluid. 16. The brake control apparatus according to claim 1, wherein a braking force allocated to the first predetermined group of wheel cylinders is less than a braking force allocated to the second predetermined group of wheel cylinders. 17. The brake control apparatus according to claim 1, wherein, when the wheel cylinder pressure deviates from the target pressure, the wheel cylinder pressure control system stops controlling the wheel cylinder pressure: after the hydraulic fluid from the second hydraulic pressure source is initially supplied to each of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is not supplied to any of the plurality of wheel cylinders, and before the hydraulic fluid from the second hydraulic pressure source is supplied to both a first predetermined group and a second predetermined group of wheel cylinders of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is supplied to only the second predetermined group of wheel cylinders of the plurality of wheel cylinders. 18. A brake control method, comprising: controlling, when a wheel cylinder pressure, which is a pressure of hydraulic fluid supplied to a plurality of wheel cylinders, deviates from a target pressure while the wheel cylinder pressure is controlled using hydraulic fluid pressurized in response to a supply of power, a manner in which the hydraulic fluid is supplied to the wheel cylinders so that the hydraulic fluid from a regulator is initially supplied to each of the plurality of wheel cylinders and the hydraulic fluid from a master cylinder is not supplied to any of the plurality of wheel cylinders, then the hydraulic fluid from the regulator is supplied to both a first predetermined group and a second predetermined group of wheel cylinders of the plurality of wheel cylinders and the hydraulic fluid from the master cylinder is supplied to only the second predetermined group of wheel cylinders of the plurality of wheel cylinders. 19. The brake control method according to claim 18, wherein, when the wheel cylinder pressure deviates from the target pressure, the manner in which the hydraulic fluid is supplied to the wheel cylinders is controlled so that the regulator is mechanically communicated with the wheel cylinders before the master cylinder is communicated with the wheel cylinders. 20. A brake control method, comprising: providing a plurality of wheel cylinders that each apply braking force to one of a plurality of wheels when supplied with hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure, that wheel cylinder pressure being a pressure of the hydraulic fluid supplied to the wheel cylinders, independently of an operation of a brake operating member; and a manual hydraulic pressure source that includes a first hydraulic pressure source which pressurizes a hydraulic fluid stored in a hydraulic chamber of the first hydraulic pressure source in accordance with an operation amount of the brake operating member; and a second hydraulic pressure source that includes a regulator that adjusts a pressure of a hydraulic fluid stored in a hydraulic chamber of the second hydraulic pressure source in accordance with the pressure of the hydraulic fluid in the hydraulic chamber of the first hydraulic pressure source; interrupting communication between the manual hydraulic pressure source and the wheel cylinders when the wheel cylinder pressure control system controls the wheel cylinder pressure, while permitting the communication between the manual hydraulic pressure source and the wheel cylinders so that the hydraulic fluid is supplied from the manual hydraulic pressure source to the wheel cylinders when the wheel cylinder pressure deviates from a target pressure, and controlling, when the wheel cylinder pressure deviates from the target pressure, a manner in which the hydraulic fluid is supplied to the wheel cylinders so that the hydraulic fluid from the second hydraulic pressure source is initially supplied to each of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is not supplied to any of the plurality of wheel cylinders, then the hydraulic fluid from the second hydraulic pressure source is supplied to both a first predetermined group and a second predetermined group of wheel cylinders of the plurality of wheel cylinders and the hydraulic fluid from the first hydraulic pressure source is supplied to only the second predetermined group of wheel cylinders of the plurality of wheel cylinders.