Brake failure monitoring system
First Claim
1. A brake monitoring system for use on a braking system of a truck, wherein said braking system includes a plurality of separate brakes, and wherein each brake includes a brake actuating mechanism for urging the brakes from a brake-off position to a brake-on position in order to apply the brakes of said truck and wherein the brake-on position will vary with brake wear, and wherein the brake-on position is subject to malfunction of the braking system;
- wherein said brake monitoring system comprises;
a signal producing sensor mechanism for each brake, each sensor mechanism comprising a single pole single throw limit switch having a main body member and an actuation member mounted within said main body member for reversible movement of said actuation member with respect to said main body member between a rest position a sensing position whereat a threshold signal is produced, and a limit position beyond said sensing position, wherein said threshold signal is produced at said sensing position and continuously between said sensing position and said limit position;
wherein each sensor mechanism is securely mounted on a respective brake, and said actuation member of each sensor mechanism is positioned with respect to the respective brake actuating mechanism so as to be actuatable from said rest configuration to said sensing configuration by the respective brake actuating mechanism, when the respective brake is operated from said brake-off position to said brake-on position sensing configuration, such that when said brake actuating mechanism reaches a threshold limit of travel corresponding to one of a (1) malfunction of said braking system and (2) a threshold brake pad thickness below which thickness said brake pad is considered unsafe, said sensing configuration of said signal producing sensor mechanism is realized, and said threshold signal is produced; and
respective indicator means disposed in the truck'"'"'s cab and operatively connected to said each of said sensor mechanisms so as to permit receipt by said indicator means of said threshold signal from each of said sensor mechanisms;
wherein, upon receipt of a threshold signal from any said sensor mechanism, said indicator means provides an alarm indication, so as to identify the brake from which said threshold signal was produced.
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Abstract
A truck brake monitoring system comprises a signal producing sensor mechanism for each brake, each sensor mechanism having a main body member mounted on a respective brake, and with an actuation member of each sensor mechanism positioned with respect to the respective brake actuating mechanism so as to be actuatable by the respective brake actuating mechanism, when the respective brake is operated, for reversible operation between a rest configuration to a sensing configuration whereat a threshold signal is produced, such that when the brake actuating mechanism reaches a threshold limit of travel corresponding to one of malfunction of the braking system and a threshold brake pad thickness below which thickness the brake pad is considered unsafe, the sensing configuration of the signal producing sensor mechanism is realized, and the threshold signal is produced. Respective indicators in the truck'"'"'s cab receive the threshold signal and provide an alarm indication, so as to identify the brake from which the threshold signal was produced. A normally closed limit switch comprises a main body member, first and second terminals, a contact member movable with respect to the first terminal between extended and retracted positions, a conductive bridging member, an actuator stem, a plunger member, and an insulator disposed between the plunger member and the contact member. A normally open limit switch comprises a main body member, first and second terminals, a manually operable actuator stem, a plunger member, a contact member movable with respect to the first terminal between extended and retracted positions.
127 Citations
14 Claims
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1. A brake monitoring system for use on a braking system of a truck, wherein said braking system includes a plurality of separate brakes, and wherein each brake includes a brake actuating mechanism for urging the brakes from a brake-off position to a brake-on position in order to apply the brakes of said truck and wherein the brake-on position will vary with brake wear, and wherein the brake-on position is subject to malfunction of the braking system;
- wherein said brake monitoring system comprises;
a signal producing sensor mechanism for each brake, each sensor mechanism comprising a single pole single throw limit switch having a main body member and an actuation member mounted within said main body member for reversible movement of said actuation member with respect to said main body member between a rest position a sensing position whereat a threshold signal is produced, and a limit position beyond said sensing position, wherein said threshold signal is produced at said sensing position and continuously between said sensing position and said limit position; wherein each sensor mechanism is securely mounted on a respective brake, and said actuation member of each sensor mechanism is positioned with respect to the respective brake actuating mechanism so as to be actuatable from said rest configuration to said sensing configuration by the respective brake actuating mechanism, when the respective brake is operated from said brake-off position to said brake-on position sensing configuration, such that when said brake actuating mechanism reaches a threshold limit of travel corresponding to one of a (1) malfunction of said braking system and (2) a threshold brake pad thickness below which thickness said brake pad is considered unsafe, said sensing configuration of said signal producing sensor mechanism is realized, and said threshold signal is produced; and respective indicator means disposed in the truck'"'"'s cab and operatively connected to said each of said sensor mechanisms so as to permit receipt by said indicator means of said threshold signal from each of said sensor mechanisms; wherein, upon receipt of a threshold signal from any said sensor mechanism, said indicator means provides an alarm indication, so as to identify the brake from which said threshold signal was produced. - View Dependent Claims (2, 3, 7, 8, 9, 10, 11, 12, 13, 14)
- wherein said brake monitoring system comprises;
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4. The brake monitoring system of claim wherein said latching circuit comprises:
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a voltage divider network connected between ground and a voltage rail, comprising a first resistor and a second resistor connected together in series, where said first resistor has a low resistance compared to said second resistor, and a DC isolating capacitor at the common point between the resistors to isolate the common point from ground; wherein each said signal producing sensor mechanism comprises a normally closed switch connected between ground and a second end of said first resistor opposite said common point; a first NAND gate having a first input connected through a normally open reset switch to ground and through a third resistor to said voltage rail, a second input, and an output; a second NAND gate having a first input connected to said output of said first NAND gate, a second input connected through an inverter to said common point of said resistors, and an output connected to said second input of said first NAND gate; an indicator means connected to said output of said second NAND gate; wherein, in an initial power-on state, each said signal producing sensor mechanism is closed so as to cause current flow through said voltage divider network, which current flow produces a low voltage at said common point compared to the voltage at said voltage rail, and a corresponding binary zero input at said inverter, and a corresponding binary one input at said second input of said second NAND gate so as to produce a binary one output from said second NAND gate;
wherein said reset switch is open in an initial power-on state, so that said first input of said first NAND gate is at the voltage of said voltage rail, and is a binary one, and the second input of said first NAND gate is a binary one so as to produce a binary zero output from said first NAND gate; and
accordingly, said first input of said second NAND gate is a binary zero, thus producing a stable binary one output from said second NAND gate;wherein, in a reset state, said first input of said first NAND gate is grounded through said reset switch so as to be a binary zero, and so as to produce a binary one output; and
accordingly said first input of said second NAND gate is a binary one, thus producing a binary zero output from said second NAND gate, corresponding to said brake monitoring system being reset to a null output, and a binary zero at the second input of said first NAND gate;wherein, in a non-alarm state, said first input of said first NAND gate is removed from ground so as to be a binary one so as to still produce a binary one output, corresponding to said brake monitoring system having a null output; wherein, when an alarm state occurs, said threshold signal is produced as at least one signal producing sensor mechanism becomes open so as to cease current flow through said voltage divider network, whereby the voltage of said voltage rail appears at said common point and a binary one input, which is made to said inverter;
wherein said binary one input to said inverter is indicative that said threshold signal is now present;
wherein a corresponding binary zero output from said inverter appears at said second input of said second NAND gate so as to produce a binary one output that activates the respective indicator means;
wherein said second input to said first NAND gate is also a binary one so as to produce a binary zero output therefrom; and
accordingly said first input to said second NAND gate becomes a binary zero, thereby producing a stable binary one output therefrom; andwherein, after the onset of said alarm state but before a reset state, but in a circumstance when said signal producing sensor mechanism reverts to being closed, there is again current flow through said voltage divider network, a corresponding binary zero input at said inverter, and a corresponding binary one input into said second input of said second NAND gate, but said first input of said second NAND gate is at a binary zero, and accordingly said output from said second NAND gate remains at a binary one, thus keeping the respective indicator means activated, until said reset switch is closed. - View Dependent Claims (5, 6)
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Specification