The invention relates to automotive vehicle safety and more particularly to a battery disconnect system that automatically disconnects a vehicle battery in case of an accident cutting power to non essential systems.
Many times, after vehicle accidents, fuel is spilled. When this occurs, the spilled fuel poses a great danger of ignition, especially if power still remains in the vehicle. All it would take would be an accidental spark or contact with a charged part of the vehicle, and the spilled fuel would ignite and cause substantially more damage than an automobile accident alone would create. A number of past attempts to prevent such accidental spark from occurring are known. A number of the proposed solutions include mercury switches wherein mercury is used to form an electrical path between the switch terminals and power is interrupted or restored depending on the angle of the mercury container. It is also known to used an inertia driven sliding block to make or break the connection between terminals. See for example U.S. Pat. No. 5,602,371 issued to Kerns et al. in 1997.
U.S. Pat. No. 5,034,620, issued to Cameron, discloses an emergency cutoff switch for preventing the transmission of electrical current to a vehicle from a battery connected in an electric circuit of the vehicle.
U.S. Pat. No. 4,798,968, issued to Deem, discloses a battery disconnect apparatus for interrupting flow of power through an electrical circuit. U.S. Pat. No. 4,581,504, issued to Hamel, Sr., discloses an electrical cutoff switch in which the circuit is immediately broken by concussive distortion to the unit housing which is secured to a vehicle or aircraft powered by an internal combustion engine utilizing a storage battery as an electrical energy source.
Mercury switches are undesirable because of the danger of mercury spillage in case of an accident. In addition, modern cars have a number of electrically operated elements in addition to the ignition and lights circuits typical of older models. These elements include power locks and power windows. Cutting off all power to a vehicle as done by the type of circuit exemplified by the Kerns et al patent, while providing a measure of protection against accidental fire of spilled fuel due to an electrical spark, presents a new problem. With the windows and door lock now inoperable passengers may be trapped inside the vehicle without the ability to escape.
There is, therefore, still a need for a battery cutoff system that will disengage a vehicle battery from all but a selected number of electrical circuits in the vehicle in case of an accident.
These needs are addressed by the present invention. In one aspect, the invention comprises a cutoff system for a battery powering a vehicle electrical system, the battery comprising a first terminal connected to the vehicle electrical system and a second terminal identified as a return or ground terminal. The battery cutoff system also comprises a shock detector mounted on the vehicle, adapted to provide a command signal upon detection of an impact generating a pressure change in the detector in excess of about between 55 lbs., and a cutoff switch interposed between the battery first terminal and the vehicle electrical system. The cutoff switch includes a control device connecting the cutoff switch to the shock detector. The control device is adapted to switch the cutoff switch from a first state where the cutoff switch connects the battery first terminal to the vehicle electrical system to a second state where the cutoff switch disconnects the vehicle electrical system from the battery first terminal upon receipt of a command from the shock detector.
It is also within this invention objects to provide a system such as described above where the cutoff switch control and the shock detector both are connected to the battery first terminal on the side of the cutoff switch that is connected to the battery first terminal.
It is also another object of this invention to provide a system such as described above where selected portions of the vehicle electrical system are connected to the battery first terminal bypassing the cutoff switch whereby certain electrical functions of the vehicle electrical system remain operational regardless of the cutoff switch status.
The invention will next be described with reference to the figures where same numerals are used to indicate same elements in all figures. Such figures are provided as exemplary embodiments of this invention and are not intended as actual construction drawings. They are not, therefore, reproduced to scale. Furthermore, elements not essential in understanding the invention are not always shown in order to simplify the drawings.
Referring next to
By way of illustration, the cutoff switch is preferably attached to the front surface of a mounting plate, with the mounting plate preferably being a rectangular metal plate having dimensions of two inches in length and one-half to one inch in width. The rear surface of the mounting plate would be placed against the battery to properly mount the cutoff switch 2. The metal mounting plate can be placed in one of a wide variety of locations, depending on the type of battery, size of battery, placement of battery 4 within a vehicle, and the accessibility of various sides of the battery after it had been placed within a vehicle.
The battery 4 has two terminals, a positive terminal 6 and a negative terminal 8. Conventionally and in most cases the negative terminal serves as a system ground, while the positive terminal is connected to an input side of the vehicle electrical system. This input side is usually in the form of a fused power distribution panel, power coming in at one end then being distributed to various vehicle systems through a plurality of fused circuits. Because there are certain systems that operate with a positive ground rather than a negative ground we will refer to the battery terminal connected to the vehicle electrical system as the first terminal and the terminal serving as ground or return path as the second terminal.
Referring next to
The control circuit (which may be as simple as a solenoid for actuating the terminals of an electrical switch) is connected to an output terminal of a collision detector mounted on the vehicle and adapted to provide a command upon detection of a predetermined impact magnitude on the vehicle. Collision or shock sensors are also well known in the art, exist in many types and are extensively used in the deployment of safety bags upon detection of a collision. A similar sensor may be used or any other type of sensor able to generate a signal detectable by the control circuit of the latching switch. Thus the sensor may be piezoelectric, electromechanical, or electronic. The particular sensor is not critical and its selection is a matter of matching sensor output with latching switch input.
The connection of the sensor/battery/switch and vehicle system input is also dependent somewhat on the type of switch selected. In one embodiment the cutoff switch is a mechanical latching type, driven to alternate states by an electrically operated actuator such as the zero current draw position holding solenoid actuator made by TLX technologies of Waukesha, Wis.
Returning to
In a preferred embodiment, a double guard shock and impact sensor such as model 504D manufactured by Directed Electronics, Inc. may be used. Such sensor draws less than 1 ma so it has minimal loading on the electrical supply of the vehicle. When activated the sensor outputs a negative voltage that is used to activate a latching master switch. Preferably, the latching master switch is 30 volt model F3 manufactured by American Terminal and comprises two parts. The first part is a relay adapted to receive the negative signal from the impact sensor and actuate the second part, which is the main or master breaker, cutting off the battery output from the rest of the automotive fuse panel. The master breaker is preferably rated at 100 amperes or higher, even though lower amperage may be acceptable depending on the particular circuit that is being interrupted. The preferred master breaker latches mechanically in the open position once tripped by the relay and is reset by a mechanical actuator such as a reset plunger.
Alternatively the reset button may be an electronic reset switch.
When switch 65 opens, current flow in the solenoid 66 is interrupted and cutoff switch 61 which is a NO switch opens, interrupting the connection between the battery output terminal 62 and the vehicle power input terminal 63.
In yet another embodiment shown in
As shown in
Preferably the bypass circuit 88 connects selected systems through the fused circuit 87′, by isolating particular fused inputs from the main power supply line and bringing a new connection to these fused inputs directly from the battery terminal, bypassing the cutoff switch. The selected circuits are preferably the circuits controlling the door latches and the electrical window drives where there are such features. In a further preferred embodiment, the selected circuits may include a communication circuit such as “On Star”.
There are several different locations in which the cutoff switch could be located on or near battery 4. None of these locations are preferred over one another, but are merely alternative embodiments of the same invention which all function approximately equally. However as a general rule it is preferred that the distance between the switch and the battery terminal be kept as short as practical so as to minimize the length of wiring that remains active (i.e. still connected to the battery) following activation of the cutoff circuit. Thus mounting of the cutoff switch on the battery casing itself, as shown in
It is to be understood that numerous variations of the above described circuits may be used to implement this invention, and provide power interruption upon detection of a shock exceeding a particular magnitude. Having described the invention, we now claim the following and their equivalents.
This application is a continuation-in-part of application Ser. No. 10/008,666 filed Nov. 3, 2001, claiming priority of provisional application Ser. No. 60/245,272 both of which are incorporated herein by reference.
Number | Date | Country | |
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60245272 | Nov 2000 | US |
Number | Date | Country | |
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Parent | 10008666 | Nov 2001 | US |
Child | 11014129 | Dec 2004 | US |