The present invention relates to a brake pressure control device, more particularly, for anti-lock pressure control and for automatic brake intervention for the purpose of traction slip control and/or driving dynamics control in automotive vehicle brake systems, including accommodating bores for pre
The present invention relates to a brake pressure control device, more particularly, for anti-lock pressure control and for automatic brake intervention for the purpose of traction slip control and/or driving dynamics control in automotive vehicle brake systems, including accommodating bores for pressure modulation valves arranged in a housing, pressure sensor connecting ports which lead into the housing and into which there are inserted pressure sensors that sense the pressure in a housing-side pressure fluid conduit respectively connected to a brake pressure generator. The pressure sensor connecting port either opens into the pressure fluid conduit between two accommodating bores that are directed into the housing, or is part of the pressure modulation valve.
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1. Brake pressure control device, for anti-lock pressure control and for automatic brake intervention for the purpose of traction slip control or driving dynamics control in automotive vehicle brake systems, comprising:a housing having accommodating bores for pressure modulation valves arranged ther
1. Brake pressure control device, for anti-lock pressure control and for automatic brake intervention for the purpose of traction slip control or driving dynamics control in automotive vehicle brake systems, comprising:a housing having accommodating bores for pressure modulation valves arranged therein,pressure sensor connecting ports which lead into the housing,pressure sensors residing in the pressure sensor connecting ports for sensing the pressure in a housing-side pressure fluid conduit respectively connected to a brake pressure generator, wherein the pressure sensor connecting ports open into the pressure fluid conduit between two accommodating bores that are directed into the housing, wherein the respective pressure sensor connecting ports extend transversely into the housing, at right angles to the accommodating bores for the pressure modulation valves. 2. Brake pressure control device as claimed in claim 1, wherein the respective pressure sensor connecting ports extend into the housing paraxially to the accommodating bores for the pressure modulation valves. 3. Brake pressure control device as claimed in claim 1, wherein the respective pressure sensor connecting ports open directly into the housing-side pressure fluid conduit which connects the brake pressure generator connected to the housing to the accommodating bore of a respective pressure modulation valve. 4. Brake pressure control device as claimed in claim 1, further including a generally sleeve-shaped adapter residing within the pressure sensor connecting ports in operative or form-locking engagement therewith, said adapter carrying the respective pressure sensor at its extension projecting from the respective pressure sensor connecting ports. 5. Brake pressure control device as claimed in claim 4, wherein said adapter further includes an adjustment means for positioning the respective pressure sensor with its electrical connection in a desired direction of rotation position relative to the housing. 6. Brake pressure control device as claimed in claim 4, wherein the respective pressure sensor includes an annular housing portion which is seated and screwed on the adapter. 7. Brake pressure control device as claimed in claim 1, further including a cover secured to the housing and arranged on the pressure modulation valves, wherein the cover houses electric or electronic components which have an electrical connection to the respective pressure sensor. 8. Brake pressure control device, for anti-lock pressure control and for automatic brake intervention for the purpose of traction slip control or driving dynamics control in automotive vehicle brake systems, comprising:a housing having accommodating bores for pressure modulation valves arranged therein,pressure sensor connecting ports which lead into the housing,pressure sensors residing in the pressure sensor connecting ports for sensing the pressure in a housing-side pressure fluid conduit respectively connected to a brake pressure generator, wherein the pressure sensor connecting ports open into the pressure fluid conduit between two accommodating bores that are directed into the housing,further including a generally sleeve-shaped adapter residing within the pressure sensor connecting ports in operative or form-locking engagement therewith, the said adapter carrying the pressure sensor at its extension projecting from the respective pressure sensor connecting port. 9. Brake pressure control device as claimed in claim 8, wherein the pressure sensor connecting ports extend into the housing paraxially to the accommodating bores for the pressure modulation valves. 10. Brake pressure control device as claimed in claim 8, wherein the respective pressure sensor is attached in an operative or form-locking fashion to the sleeve-shaped portion of the adapter which projects from the pressure sensor connecting ports. 11. Brake pressure control device as claimed in claim 8, wherein said adapter further includes an adjustment means for positioning the respective pressure sensor with its electrical connection in a desired direction of rotation position relative to the housing. 12. Brake pressure control device as claimed in claim 8, wherein the respective pressure sensor includes an annular housing portion which is seated and screwed on the adapter. 13. Brake pressure control device as claimed in claim 8, further including a cover secured to the housing and arranged on the pressure modulation valves, wherein the cover houses electric or electronic components which have an electrical connection to the respective pressure sensor.
Juckenack Dietrich (Bad Homburg DEX), Electrohydraulic device for continuously monitoring the pressure in a hydraulic brake system for automotive vehicles.
Hinz Axel,DEX ; Czarnetzki Edwin,DEX, Hydraulic motor-vehicle brake system with anti-locking control and automatic actuation of the brakes for the control of the drive and/or travel dynamics.
Michael L. Babala ; Marc Bolitho ; Paul M. Schliebe ; Thomas Baron DE; Helmut Gegalski DE, Pressure sensor integrated into an electro-hydraulic control unit.
Kondrad, Marcos Silva; Welch, Ryan; Mozurkewich, Kevin; Line, Johnathan Andrew, Seatback with a seatbelt webbing retaining member with a releasably coupled end to allow the insertion of and to retain a webbing section of a seatbelt assembly.
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