Patent Publication Number: US-RE30550-E

Title: Automatic trailer sway sensing and brake applying system

Description:
GENERAL DESCRIPTION OF THE INVENTION 
     One of the greatest dangers in towing a trailer is swaying and jackknifing. This can be caused by quick evasive action by the driver, gusty winds or air currents caused by other vehicles, especially large tractor trailers, overtaking and passing the towing and towed vehicle. When a vehicle overtakes and passes a towed vehicle.Iadd., .Iaddend.the driver of the towing vehicle should (1) keep as far away from the passing vehicle as the road will permit.Iadd., .Iaddend.(2) apply more gas to the towing vehicle .[.and or.]. .Iadd.and/or .Iaddend.(3) slightly apply the trailer brakes. Methods (2) and (3) result in greater tension between the towing and towed .[.vehicle.]. .Iadd.vehicles .Iaddend.thereby tending to minimize the possibility of swaying. Method (2), applying more gas, is not desirable under level or especially down hill road conditions for swaying tendencies and loss of control are greater under higher speeds and downhill conditions. All of these methods depend upon proper driver reactions to the then existing circumstances. 
     Normally a manual trailer brake control is provided at a convenient position for the driver. This manual control is also hydraulically or mechanically coupled to the foot brake of the towing vehicle. Proper driver reaction and his reaction time to apply the manual trailer brakes are very important in preventing or minimizing a sway. An automatic device or system that will sense a sway and automatically apply the trailer brakes is desirable in that it detects the beginning of an abnormal sway and immediately applies the trailer brakes. Such a system must cause the brakes to be released as soon as the sway is miminized or eliminated. Normal turns during highway driving or parking of the trailer must not cause the brakes to be applied. The Automatic Trailer Sway Sensing and Brake Applying System covered in this patent application does, as the title implies, meet the sway sensing and brake applying needs of trailer towing and towed vehicles. 
     The basic part of this system is a hydraulic unit similar to a shock absorber except that the forces required to compress or extend the unit are essentially equal. In addition.Iadd., .Iaddend.the unit is manufactured with pressure operated switches at each end of the hydraulic cylinder. The rubber inserts used on the shock absorber mounting details must not be used on the hydraulic sway sensing unit. The presence of such rubber inserts would result in a delay in the time of application of the brakes as well as an increase in the amplitude of the sway before the brakes are applied. A metal universal joint type of connection or mounting detail with a minimum of bearing clearance must be used. The hydraulic unit can be small to perform the sway sensing and brake applying functions only or the pressure operated switches can be made a part of hydraulic anti-sway devices during manufacture. 
     SUMMARY 
     This sway sensing and brake applying system can be used in conjunction with anti-sway devices that are commercially available. It automatically senses the beginning of a sway and automatically applies the trailer brakes. The brakes are automatically released as soon as the sway is minimized or eliminated. Brakes are not applied during normal driving turns or parking procedures. 
     The brake applying pressure operated switches can be made a part of hydraulic type anti-sway devices during manufacture. Such units then perform the dual function of an anti-sway device and an automatic sway sensing and brake applying system. 
    
    
     BRIEF DESCRIPTION OF DRAWINGS 
     FIG. 1 This simplified drawing of the hydraulic unit shows, in block form, a check valve, bypass orifice and pressure operated switch on each end of the hydraulic cylinder. 
     FIG. 2 .[.A section.]. .Iadd.Sections .Iaddend.of the towing and towed .[.vehicle.]. .Iadd.vehicles .Iaddend.and the manner in which one end of the hydraulic sway sensing unit is mounted to the A frame and the other end is mounted on the hitch head, a short distance from the hitch ball, .[.is.]. .Iadd.are .Iaddend.shown. 
     FIG. 3 The electrical brake circuit, including the pressure operated switches for a one or two axle trailer.Iadd., .Iaddend.is shown. 
     FIG. 4 In this circuit the pressure operated switches will cause the brake or brakes on one side or the other only to be applied. This results in quicker corrective action. 
     FIG. 5 This figure is used to describe the operation under FIG. 4 conditions. 
     FIG. 6 A dual braking system, including the sway sensing pressure operated switches, is shown in this figure. 
     FIG. 7 The principle of appying the brakes on one side or the other only, in case of a sway, is shown for the dual braking system in this figure. In addition.Iadd., .Iaddend.isolation resistors and diodes are provided to eliminate the possibility of complete braking failure in case of an electrical short or open circuit in the overall electrical circuit of the braking system. 
     FIG. 8 Functionally this circuit is similar to that shown in FIG. 7 except that some of the isolation is provided by using two pole pressure operated switches. 
    
    
     DETAILED DESCRIPTION OF THE DRAWINGS 
     The basic unit of the Automatic Sway Sensing and Brake Applying System is shown in FIG. 1. The hydraulic unit 1 is similar to a shock absorber except that the fluid escapement orifice .Iadd.1A .Iaddend.in the piston .Iadd.1B .Iaddend.or at each end of the cylinder .Iadd.1C .Iaddend.is such that the force required to elongate the unit is essentially the same as that required to compress or shorten the unit. Mounting details 2 and 3 must not have rubber inserts as they normally have in shock absorbers. Hydraulic check valves 5 and 9 have adjustable bypass valves 6 and 10 in parallel with them. Pressure operated switches 7 and 11 have either wire or terminal connections represented by 8 and 12. A universal joint type element 4 is mounted to 2 and 3 by means of a through bolt. The other ends of the universal elements are then mounted to the A frame 13 of the towed vehicle 33 and the hitch head 15 of the towing vehicle 34 as shown in FIG. 2. The universal joint 4 that is bolted to 2 is in turn mounted on a supporting pin on the hitch head 15 a short distance from the hitch ball 14. The purpose of check valves 5 and 9 is to allow free passage of hydraulic fluid to pressure operated switches 7 and 11. The fluid must return to the cylinder through adjustable valves 6 and 10. A slight delay in the opening of switches 7 and 11 has thereby been introduced to keep the brakes energized for a short period after the rate of swaying has been reduced. For a given operational requirement.Iadd., .Iaddend.fixed orifices can be used in place of valves 6 and 10. The combination of valves 6 and 10 (or fixed orifices) and check valves 5 and 9 is shown to obtain the ultimate in sway correction. Considerable, and in most cases adequate.Iadd., .Iaddend.sway correction is realized without the use of 5, 6, 9 and 10. In applications where a delay in releasing the brakes is considered desirable it can also be done by means of electrical delay circuits. 
     A schematic of the electrical circuit is shown in FIG. 3. The towing vehicle battery 24 is connected to the brake control unit 23 which is located in a convenient position for the driver to reach and operate. Plug and connector 22 provide circuit connection from the towing vehicle to the towed vehicle. Not shown in the simplified diagrams are the tail light, stop light, direction signal light, running lights and inter battery connections normally provided through connector 22. Electromagnets of the brakes of a single axle trailer are represented by 16 and 17. In trailers with two axles.Iadd., .Iaddend.the electromagnets 18 and 19 are shown by dashed lines. Trailer battery 20 supplies the brake operating current through adjustable resistor 21 and pressure operated switch 7 or 11. Adjustable resistor 21 is set in accordance with one or two axle brake requirements. 
     Quicker sway correction can be realized by using the trailer brake circuit shown in FIG. 4. This can be described by referring to FIG. 5. If an abnormally fast left turn of the towing vehicle takes place.Iadd., .Iaddend.pressure switch 7 will close and cause only the trailer left wheel brake or brakes to be applied. This will cause the front of the trailer to move to the left and thereby provide .[.the force required.]. .Iadd.a force tending .Iaddend.to &#34;line up&#34; the towed and towing vehicles. If the towing vehicle in effect makes an abnormally fast right turn.Iadd., .Iaddend.pressure operated switch 11 closes and applies the trailer right wheel brake or brakes. Diodes 25 and 26 provide the required electrical isolation when either switch 7 or 11 operate and yet permit current to flow to all brakes when brake control 23, in the towing vehicle, is operated. 
     Present day cars have, for safety reasons, a braking system in which the front wheel brakes and the associated controls are isolated from the rear wheel brakes and their associated control system. Both systems are actuated by the common brake pedal. In such a system.Iadd., .Iaddend.the chance of simultaneous failures of both systems is very remote. Therefore if one system fails you still have the braking capability of the other. 
     Practicaly all present day tandem axle trailers have a single electrical braking system. An open circuit in the main line, connector.[.,.]. .Iadd.or .Iaddend.brake control or a short circuit anywhere in the electrical braking system will result in the loss of all brakes. A dual braking system should be used for tandem axle trailers for the same safety reasons that it is used in a car. Such a system, in conjunction with a sway sensing system.Iadd., .Iaddend.is shown in FIG. 6. Separate trailer front wheel brake wiring and rear wheel wiring is connected through separate plugs and connectors 28 and 29 to dual brake control 27. This figure shows the sway sensing pressure operated switches 7 and 11 connected in such a manner that the operation of either switch will apply braking power to all trailer brakes through diodes 30 and 31. When brake control 27 is operated.Iadd., .Iaddend.these diodes provide electrical isolation between the trailer front and rear axle brakes. In a case where the sway sensing system is not used.Iadd., .Iaddend.resistor 32, pressure operated switches 7 and 11, diodes 30 and 31 and the associated wiring are not used. 
     A dual braking system in which the sway sensing system applies power to the appropriate left or right trailer brakes only is shown in FIG. 7. Diodes 39, 40, 41, 42, 43, 44, 45 and 46, and resistors 35, 36, 37 and 38 provide electrical isolation for dual brake control 27 operation .[.and or.]. .Iadd.and/or .Iaddend.sway sensing switch 7 or 11 operation in a manner that provides maximum protection against possible circuit failure such as a short circuit or open circuit in the braking system. 
     Some simplification of the circuit shown in FIG. 7 can be realized by using double pole pressure operated switches 47 and 48 .Iadd.as .Iaddend.shown in FIG. 8. Basically the same type of electrical isolation against complete braking system failure in case of open or short circuit conditions is realized with the circuit shown in FIG. 8 as in FIG. 7.