Patent Document

This application is a continuation-in-part of copending U.S. patent application Ser. No. 06/935,727, filed Nov. 28, 1986. 
    
    
     BACKGROUND OF THE INVENTION 
     The present invention concerns a system providing a load weight readout to a vehicle operator during a loading operation and while underway. 
     Various systems have been proposed to provide a vehicle operator with the weight of a load using truck and/or trailer mounted sensors coupled with a cab mounted readout device. Generally speaking, the systems proposed have not been widely accepted as they are quite complex and costly to install. Load indicating systems in place on over-the-road trucks and trailers are subjected to severe shock loads as well as other harsh operating conditions. It is noted that proposed load monitoring systems propose the use of costly mechanical and electronic gear susceptible to costly maintenance. 
     Other load weighing systems for installation on a truck or trailer encounter the drawback of requiring added equipment such as load supporting air bags and bag supported platforms which when installed result in added sprung weight to diminish payload capacity. 
     U.S. Pat. Nos. 3,854,540; 4,456,084; 3,876,018; and 4,589,507 show systems utilizing pressure sensors responsive to load supporting structures and which are coupled to readout devices. 
     SUMMARY OF THE PRESENT INVENTION 
     The present invention is embodied within a load indicating system for use on air bag equipped vehicles of the type having a leveling valve for regulating air bag inflation and load platform height. 
     Now in use in the trucking industry are air valves, termed by some manufacturers height control valves, which open and close in response to changes in the distance between an axle and the load supporting platform. For example, upon the valve sensing a reduction in this distance it meters additional air into the suspension air bags to restore the predetermined distance. Conversely, an increase in the spacing between axles and load platform, when sensed by the valve, triggers the exhausting of air from the suspension air bags to reduce the distance and restore the preselected spacing. 
     It has been determined that the sensing of line pressure between a height control valve and the suspension air bags of a vehicle enables a highly accurate signal to a load indicator in the truck cab. 
     Important objectives include the provision of a vehicle load indicating systeem which may utilize known air valve components already in place on a vehicle for height control, the provision of a load indicating system providing a highly accurate readout of load weight while avoiding the use of sensitive components susceptible to early failure, the provision of a load weight indicator which results in virtually no increase in the sprung weight of the vehicle to preclude payload reductions. 
    
    
     The foregoing and other objects, features, and advantages of the invention will become more apparent from the following detailed description of a preferred embodiment which proceeds with reference to the accompanying drawings. 
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a side elevational view of a truck trailer with one set of axle mounted wheels broken away to disclose undercarriage and weighing system components; and 
     FIG. 2 is a side elevational view of an air control valve used in the present system with related components shown in schematic form. 
     FIG. 3 is a block diagram of a circuit for determining the weight of a load on the trailer platform. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     With continuing attention to the drawings wherein reference numerals indicate parts similarly hereinafter identified, the reference numeral 1 indicates a load supporting surface of a vehicle such as a bed of a long haul truck or a trailer having a load carrying frame 2. 
     A vehicle undercarriage may include wheel assemblies 3 and 4 carried by rear axles at 5A and 5B. The undercarriage includes front and rear pairs of air bags with an air bag typically shown at 6 in FIG. 1. Each air bag is disposed intermediate a swingably mounted axle trailing arm 7 and a frame mounted pad 8. The trailing arm terminates forwardly adjacent a hanger 9 which provides an arm pivot 10. The foregoing is intended to be more or less typical of a heavy duty truck and trailer undercarriage of the air bag type. 
     Indicated generally at 13 is a height control valve of the three-way type secured in place on a vehicle frame cross member 14. Said height control valve is advantageously disposed at or near the centerline of the vehicle. Said height control valve includes a valve housing 15 affixed by means of a bracket 19 to mounting plate 16 on cross member 14. A valve spool (not shown) in housing 15 serves to communicate air pressure in a line 17 from a source, such as an engine driven compressor, to an air bag supply line 18. Said spool may alternatively serve to communicate line 18 with an exhaust port 20. Spool movement is controlled by a valve actuator arm 21 having its distal end coupled to axle 5B by a tie rod 22 which terminates at an axle mounted bracket 23. Accordingly, (assuming constant air bag inflation) loading of a vehicle load platform will cause arm 21 to be displaced counterclockwise as frame cross member 14 moves downwardly and vice versa. During vehicle loading, the bags 6 are inflated by valve 13 to maintain a predetermined vertical spacing X between axle 5 and the load platform 1. While underway, a time delay feature of such height control valves require that any variation in the spaced relationship occur for a period of seconds before remedial inflation or deflation of the air bags will occur. 
     A tee at 25 in air line 18 serves an air line 26 which terminates in a pressure responsive device such as a transducer 27 which provides a signal to an indicator 28 which is preferably located in the vehicle cab. The transducer 27 and indicator 28 are adapted to provide the operator with a readout of the load on platform 1. 
     Referring now to FIG. 3, a circuit is shown for determining the weight of a load on platform 1. The transducer 27 comprises a pressure sensor such as sensor No. 242PC100G available from Honeywell which converts air pressure into a DC voltage level signal. The DC signal is routed to a voltage offset circuit 30 that allows the operator to calibrate the voltage signal to the static weight of the vehicle, as will be described. The circuit 30 is the input stage of the indicator 28. The indicator 28 also comprises an analog-to-digital converter (ADC) 32, a programmable read only memory (PROM) 34, table select switches 36, and a readout device 38. ADC 32 converts the DC voltage level signal that is output by the voltage offset circuit 30 into a corresponding digital signal. The digital signal in turn forms part of the address to PROM 34, which includes a number of look-up tables. As will be described, one of the look-up tables is adapted to convert the value of the address to pressure data that indicates the air pressure. The other look-up tables are adapted to convert the value of the address to weight data that cover the range of possible weights to be carried by the platform 1. These weight tables differ in the conversion factor applied to the address, which factor depends on the size of the air bag suspension system. The look-up table that is selected is determined by operator input via his setting of table select switches 36. The output of switches 36 forms another part of the address to PROM 34. The weight data in the selected table is read from PROM 34 by a readout device 38 comprising a conventional digital display driver and seven segment displays. The device 38 displays the data for the operator as the load weight on platform 1. 
     The conversion factor applied between the air pressure and load weight depends on the area of the air bags supporting the load. This area can differ from vehicle to vehicle because of different-sized trailers, tractors, etc. For example, a change in air pressure of 10 pounds psi over 500 square inches of air bag area indicates an additional load of 5000 pounds. Because different-sized air bags are used for different-sized vehicles, PROM 34 has stored within it the plurality of weight tables referred to above, each relating to a different-sized surface area. PROM 34 also includes the additional table of air pressures. To determine the surface area of the bags, the air pressure table is first selected, preferably by default setting of the switches 36, and is read by the operator to find an initial air pressure. A load of a known weight is then placed on platform 1 and the resultant pressure change is found from reading the device 38. By then dividing the known weight (e.g., pounds) by the change in air pressure (e.g., pounds per square inch), the surface area of the bags can be found. From a list provided the operator, the appropriate look-up table associated with this surface area is then selected within the PROM 34 by setting the switches 36 as directed. The selected table is calibrated by comparing the displayed weight against the known weight. If a discrepancy between the two weights exists, the selected table is calibrated by adjusting the DC voltage level offset of circuit 30. This adjustment changes the voltage signal routed to the ADC 32 which in turn changes the value of the address routed to the PROM 34 until the displayed weight matches the known weight. 
     One suitable height control valve is that valve manufactured by Suspension Systems Incorporated. Other height control valves are usable with the present system. A typical tractor and trailer combination would utilize two separate indicator systems. The increase in air pressure in line 18 and air bags 6 to maintain distance X when platform 1 is loaded is directly proportional to the air pressure valve required to maintain distance X when the platform is unloaded. 
     While we have shown but one embodiment of the invention, it will be apparent to those skilled in the art that the invention may be embodied still otherwise without departing from the spirit and scope of the invention. 
     Having thus described the invention, what is desired to be secured in a Letters Patent is:

Technology Category: 3