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Claims  |
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The embodiments of the invention in which an exclusive property or
privilege is claimed are defined as follows:
1. A transportation equipment recording system for recording operating
parameter information of the equipment on a recording medium, being
characterized by at least one sensing means for sensing occurences of
circuit line impedance changes representative of unauthorized inoperative
periods within said recording system and recording means responsive to
said sensing means for visually recording such occurences on the recording
medium.
2. A recording system as claimed in claim 1 characterized by at least one
sensing system for sensing a faulty condition of the recording system
selected from the group consisting of disconnection of power supply from
the system, opening of the recorder and disconnection of a input device
said sensing system providing output signals, depending on the faulty
condition sensed; said recording means being controlled by the output
signals proividing recordings indicative of the faulty conditions.
3. A recording system as claimed in claim 2 characterized by a timing
system receiving the output signals from the sensing system, which
provides preset signals indicative of the faulty condition concerned to
said recording means within the recorder when the faulty condition is
corrected.
4. A recording system as claimed in claims 1, 2 or 3 characterized by
recording means capable of recording different faulty conditions by
producing recordings at different vertical positions on the recording
medium in accordance with a particular sensed condition.
5. A recording system as claimed in claims 1, 2 or 3 characterized by a
timing system recieving signals from the sensing system which provides
preset signals of a specific time pattern to said recording means
recording in a specific location of the recording medium and such time
patterns being indicative of a specific faulty condition.
6. A recording system as claimed in claim 1, characterized by at least one
sensing system for sensing faulty conditions caused by circuit line
breakage of outside power supply to the system, said recorder being
provided with standby auxiliary power supply to operate said sensing
system and to additionally operate said recording means, said sensing
system being connected to said recording means to record a distinctive
pattern indicative of the circuit line breakage of the outside power
supply.
7. A recording system as claimed in claim 1 or 2, characterized by a
sensing system connected to access means to the recorder of said system,
this sensing system being connected to a timing circuit being adapted to
send a characteristic electrical signal for a predetermined time period to
said recording means within the recorder to record a distinctive pattern
indicative of the opening and reclosing of the access means.
8. A recording system as claimed in claim 1, 2 or 3, characterized by an
electrical drive system for the recording medium with a connection between
said drive system and an electrical power source, a sensing system to
detect an interruption of the power supply to the electrical drive means
and a triggering circuit giving a signal to a timer when the electrical
power to the drive system is re-established, when then sends a
characteristic signal for predetermined time periods to said recording
means.
9. A recording system as claimed in claim 1, 2 or 3, wherein said recording
means for recording the parameter information is electrically powered, a
sensing system to detect an interruption of power supply to said recording
means, a triggering circuit giving a signal to a timer when the power
supply is re-established, which sends a characteristic signal for a
predetermined time period to said recording means.
10. A recording system as claimed in claim 1, 2 or 3 characterized by an
electrical pulse sending unit supplying signals representative of the
operating parameter information, connecting circuits of said sending units
to the recorder, of said system and at least one sensing circuit for
detecting interruptions preventing the signals to parameter measuring
means of said system, said at least one sensing circuit sending
characteristic signals to said recording means to record occurrences of
the interruption of the recording medium. |
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Claims |
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Description |
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FIELD OF THE INVENTION
The present invention relates to a transportation equipment recording
system having sensing faulty conditions within the circuit line of the
system and recording means for visually recording and highlighting the
occurance of the faulty conditions.
BACKGROUND OF THE INVENTION
Operating parameter recorders for transportation equipment, such as speed
or rpm tachographs for road vehicles and other similar equipment are used
to provide a record of the operation of the equipment. For a number of
reasons, the operators in direct charge of the equipment may want to
conceal the occurrence of certain conditions or to influence the length of
time for various periods recorded by the tachograph. Accordingly, the
operator may, in certain instances, falsify the recordings made by the
recorder. In addition, the recorder itself or the input devices to the
recorder are subject to failure, which may not be recognizable from the
recordings made by the tachograph.
Some recorders have been developed from purely mechanical arrangements with
mechanical clock mechanisms being used to drive the recording medium and
mechanical means for moving the recording styli. Other instruments have
been developed with electrically and electronically operating instruments
having electronic clock and electronic controls of the styli. In either
case, one of the most important protective steps is to make sure that
there is no interruption of the power supply to the clock mechanism, or
the power supply to the styli without recognition of such an interruption.
If, for example, the power supply to the clock is interrupted, then the
recording medium is not advanced during the interruption. In addition,
when the vehicle is stopped, there are not recordings made of speed,
distance, engine operation, etc. Therefore when the power to the clock is
removed, there are no recordings made whatsoever, but this does not show
up on the recording medium. Therefore, if the operator disconnects power
to the tachograph, he can manipulate the recordings made on the recording
medium. For example, if the vehicle is stopped for a period of one hour
but the operator has disconnected the power supply for three quarters of
that period, then the stopping period appears to be only one quarter of an
hour on the recording medium, as falsified by the operator.
Another method of falsifying recordings made in electronic instruments
controlled by electric pulses sent to the tachograph in accordance with
engine or vehicle speed is to disconnect the electrical connection between
the sending units of the pulses and the recording instrument. By doing so,
no speed signals reach the instrument which records on the medium in a
fashion to indicate that the vehicle was not moving during this time
period. The operator can, therefore, make trips during his shift which are
not recorded.
The tachograph itself can be opened in order to permit insertion and
removal of the recording medium or chart within the instrument. It is,
however, a standard rule that the device should only be opened at the
beginning of a workshift to insert the chart and that it not be opened
again until the end of workshift, when the chart is removed from the
instrument. In some cases, this rule is not complied with as the proper
recording of the instrument can be influenced by opening during operation.
It is, therefore, important that such openings are clearly and visibly
recorded on the recording medium.
Another method of tampering with a tachograph that is, for example, used on
a diesel truck is to disconnect the ignition for the truck after it is in
motion, which also disconnects the power to the tachograph such that it
does not record during such periods.
As described above, there are, therefore, a number of different methods of
breaking the circuit line connections to a standard tachograph and, in
accordance with conventional construction, the circuit line breakages are
very difficult if not impossible to detect.
SUMMARY OF THE INVENTION
The present invention provides a transportation equipment recording system
specifically designed to visibly indicate unauthorized inoperative periods
of the recorder. The system includes at least one circuit line for its
operation and is characterized by sensing means for sensing impedance
changes in the circuit line representative of these inoperative periods as
well as recording means responsive to the sensing means for visually
recording any occurrences of these impedance changes directly on the
recording medium.
The sensing means itself is adapted such that it recognizes when normal
operating conditions are re-established and according to an aspect of the
present invention, timing circuits are provided to which the sensing means
transmits signals such that the timing circuits in turn send signals to
the recording means, which produces recordings characteristic for the
types of failures or interferences which have occurred to cause the
inoperative periods. These recordings, which are different from those
recorded for authentic recordings of on/off conditions of the operating
parameters, are produced in a manner such that they are highly
recognizable on the recording medium.
BRIEF DESCRIPTION OF THE DRAWINGS
The above, as well as other advantages and features of the present
invention, will be described in greater detail according to the preferred
embodiments of the present invention in which:
FIG. 1 is a schematic view of a control system used for detection of
tampering to a recording instrument in accordance with a preferred
embodiment of the present invention;
FIG. 2 is a graphic illustration of typical recordings made through the use
of the control system shown in FIG. 1.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The control arrangement of FIG. 1 is used in conjuntion with an
electronically operated automotive recorder with the recorder itself
having a somewhat standard construction. More specifically, the recorder
to which the protective system of the present invention is applied
includes an electronic quartz clock which drives a recording medium
consisting of a circular chart at a constant speed. In order to keep the
power consumption of the recorder to a minimum, two electrical connections
to the vehicle battery are provided. One of these connections is for the
clock itself and should be operated at all times in order to maintain
correct absolute time such that the clock mechanism is even driven when
the vehicle is stopped. The second power connection to the battery
provides power to move the various styli in the instrument and this
particulr source of power is only required when the vehicle or the engine
is in operation. This second connection is, therefore, usually connected
to the ignition switch of the vehicle.
Again, in accordance with standard construction, the vehicle is equipped
with a pulse generator which supplies pulses to the recording instrument
in order to indicate and record speed and distance travelled by the
vehicle.
Referring now to the features of the present invention, a tampering and
fault protection arrangement is connected to the recording instrument.
This arrangement comprises a protective control board 1 installed in the
recording instrument, such that it is not accessible to the operator of
the vehicle. The control board includes four input sensing lines for
detecting of failure or tampering causing impedance changes and affecting
the resistance, capacitance and/or inductance of any one of the input
functions through these lines to the tachograph. These input or circuit
lines comprise line 2, which is connected to the battery or the permanent
power supply; line 3, which is connected to a pulse generator 4 supplying
pulses to the instrument to measure speed and distance; line 5, which is
connected to the ignition switch and which only supplies power to the
recording device when the ignition is switched on and door switch 6
provided within the tachograph which supplies permanent power to the
instrument only when the tachograph lid or door is closed.
All four of these circuits provide an input to a timing system or circuit 8
which has an output line 9. This output line is connected to an
electrically operated recording styli in the tachograph and causes the
styli to make continuous time spaced up and down strokes as long as power
is supplied through line 9 to the instrement.
Referring in detail to FIG. 1, input line 2 or the permanent connection to
power, is connected on the board to an output line 11 which leads to the
electric clock of the tachograph. Line 2 is further connected to a "power
on" signalling device 10 which has an output line 12 connected to a timing
device 13. This timing device is part of the timer system 8 mentioned
above. The power on signaling device has no output as long as there is
continuous power from the battery to the tachograph, nor does it have an
output if the input line 2 is disconnected from the battery causing a
discharge of capacitor C. However when the power line is reconnected,
there is a voltage buildup along line 2a as the capacitor charges until
this voltage buildup equals the voltage along line 2b. During this power
buildup signaling device 10 provides an output pulse along line 12 which
in turn triggers timer 13, to provide an output pulse for a given period
of, for example, ten minutes. The output pulse from timer 13 is sent
directly to the recording stylus of the tachograph to produce a marking,
as shown at 13a in FIG. 2, whenever timer 13 receives an input pulse from
line 12.
A second method of falsifying the recordings is to disconnect pulse
generator 4 from the tachograph, such that the tachograph does not receive
any speed information. However, in accordance with the present invention,
pulse generator 4 is connected to a current detecting circuit 14. As along
as current flows from the current detecting circuit through line 3, which
occurs when pulse generator 4 is connected to ground, current detecting
circuit 14 remains inactive. However, when the pulse generator is
disconnected from the current detecting circuit, the sensing amp within
the circuit senses increased voltage and causes an output pulse on line 15
from the current detecting circuit. Line 15 is connected with timer 16
which, again, forms part of the timing system 8. The pulse from the
current detecting circuit continues as long as pulse generator 4 is
disconnected from the circuit. Timer 16, which receives the output pulses
designed to provide its own output pulse on line 9 of short duration of
specified intervals of, for example, a pulse of twenty seconds duration
for every five minutes. The resulting recording pattern is indicated at
16a in FIG. 2.
Door switch 6, described above, is a special switch installed directly
within the recording device to detect whether or not the access through
the lid or cover of the recording device is opened. When the cover is
properly closed for operation, the switch is also closed. This switch is
connected at one side to the permanent power connection 2 and at the other
side to a power on signaling device 17. This power on signaling device 17
is arranged to provide an output pulse on line 18 in the event that the
switch is opened and then closed during operation of the vehicle. The
operation of device 17 is very similar to that of signaling device 17 in
that the reclosing of switch 6 causes a power buildup within device 17 to
generate the output pulse along line 18 to a timer 19. Timer 19 sends a
onetime pulse along line 9 to the recording stylus of the tachograph. This
pulse is of a duration to produce a marking, as shown at 19a in FIG. 2.
Therefore, the pulse from timer 19, which may for example last four
minutes, is substantially shorter than the pulse supplied from timer 13,
so that the recording patterns are distinctive from one another.
Although switch 6 is shown as a mechanical switch it may also be an
electrical switch the capacitance and/or inductance of which changes when
the lid of the tachograph is opened. This type of impedance being rather
than the complete line interruption for resistance change described above
is sensed and recorded on the recording medium.
A further method of falsifying recordings is to disconnect input line 5
from the control board. This input line is connected to the ignition
switch and, therefore, power is available on line 20 only when the
ignition switch is on. Line 20 leads to the power supply of the recording
instrument and this power supply is not permanently connected to the
battery, since as mentioned above, the resulting power drain is
undesirable. Power in the recording instrument is only normally required
when the engine is in operation while the vehicle is moving, such that the
ignition is switched on and the power supply is activated. It is, however,
possible to disconnect the line to the ignition from the recording
instrument and one of the disadvantages with normal recording systems is
that the length of time of the power failure or disconnection cannot be
determined from the recordings. According to an aspect of the present
invention, this difficulty is overcome through the use of an auxiliary
power supply within the recorder which takes over the drive of the clock
mechanism and the recording stylus during the time of power supply
failure, so that the recording instrument continues to record as if the
failure has not occurred. According to this preferred embodiment of the
invention, the undesirable disabling of the recording instrument is
detected as follows.
The pulses from pulse generator 4 are fed into a motion detector circuit 7
which sends a positive pulse through line 21 into a level detector 22.
This level detector is connected through line 23 to the positive power
line 5. Level detector 22 is arranged such that whenever line 5 is
connected the level detector cannot provide a positive output pulse along
its output line 24. If however line 5 is disconnected from the power
supply and pulses continue to arrive from the pulse generator 4 into the
motion detecting circuit 7, an output pulse is fed from the motion
detector circuit along line 21 to the level detector which sends its own
output pulse along line 24 to timer device 25 of timing system 8. Line 24
is also connected to the coil of a relay 26 and, when line 24 is
activated, this relay which is normally open, closes and connects output
line 20 with the permanent power line 2. Accordingly, the recording
function of the instrument is restored. Furthermore, timer 25 sends a
pulse through line 9 to the stylus to produce a recording pattern as shown
at 25a in FIG. 2. This pattern continues as long as pulses are sent from
the pulse generator to the motion detector with line 5 being disconnected.
In the example shown in FIG. 2, the pulses, which are highly recognizable
from any other pattern in the Figure, have a duration of two minutes and
occur at five minute intervals. Accordingly, it is very easy to determine
from the distinctive recording patterns which particular circuit line
breakage has occurred from a very quick visual inspection of the recording
medium.
The examples given above relate specifically to an electronic tachograph.
However, in the case of a mechanical or magnetic type of speed or engine
rpm recorder, the fault detection circuit could be simplified, since the
methods of falsifying the recordings are more difficult in a
non-electronic tachograph. For example, in a magnetic type of tachograph,
it is extremely difficult to disconnect the speed input and the fault
detection system would normally only be directed to the recording of the
lack of power to the clock mechanism and/or the door opening of the
instrument.
There is, however, an additional protection for mechanically driven
tachographs which are equipped with additional electrically operated
stylus to record engine idling. Again in a standard tachograph, efforts to
conceal engine operation and driving of the vehicle can be made by
disconnecting the mechanical drive cable and also by interrupting the
connection between the electrical idling stylus and the ignition switch.
However according to the present invention, the following improvement is
made for the detection of such a method of falsifying recordings.
Provided parallel to the ignition switch or any other switch normally
closed during engine operation or vehicle movement is a resistor. This
resistor provides a minimal current if the switch is open. This minimal
current is sensed by a current sensing switch on the protective control
board, so that if the current is interrupted by cutting the line to the
ignition switch or any other control switch, the current sensing switch
will cause the stylus to record a failure indicating pattern on the
recording medium through a timing system similar to any of those described
above.
It should however be appreciated that other distinctive recording patterns
could also be produced. For example the recording stylus can be controlled
to record at different vertical positions on the chart in accordance with
the particular type of fault sensed. It can also be controlled to produce
markings of different heights for different sensed conditions.
This same method may also be used to record interference with any other
control switches used on the vehicle to control specific functions, as for
example opening of truck or trailer doors, etc.
As has been described above, the present invention provides different types
of sensing systems for sensing circuit line breakages to the recorder of
various types of transportation equipment. These sensing systems send out
signals to control the recording stylus of the recorder to record a
distinctive pattern directly on the same recording medium used for the
recording of the various operating parameters of the equipment.
Accordingly, even though falsification of recordings may be attempted by
the vehicle operator, these falsifications become readiy apparent through
the tamper detection system of the present invention.
Although various embodiments of the invention have been described herein in
detail, it will be understood by those skilled in the art that variations
may be made thereto without departing from the spirit of the invention or
the scope of the appended claims.
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