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Claims  |
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I claim:
1. A releasable tractor-trailer electrical signal transmission linkage,
comprising:
at least one flexible air brake hose having a tubular wall, tractor
coupling means at one end of the hose for coupling the hose to a tractor
air brake outlet, releasable trailer coupling means at the opposite end of
the hose for releasably coupling the hose to a trailer air brake inlet;
a continuous conductive line embedded in the tubular wall of the hose and
extending along the entire length of the hose, the line having a first end
at the tractor coupling means and a second end at the trailer coupling
means;
a connecting line connected to the first end of the conductive line and
extending into the tractor for connecting an electronic communications
unit in the tractor to the conductive line;
the releasable trailer coupling means comprising a first part secured to
the trailer end of the air brake hose and a second part secured to the
trailer;
electrical connecting means extending through the second part of said
coupling means to connect the second end of the conductive line to an
electronic signal transmitting unit on the trailer when the first and
second parts of the coupling means are secured together; and
the first and second parts of the releasable trailer coupling means
comprising releasable mechanical connecting means for releasably securing
the trailer end of the hose to the trailer air brake inlet, and having
through bores for air passage through the releasable connecting means, the
first part comprising an electrically conductive member connected to the
second end of said conductive line, the second part comprising an
electrically conductive member which is in contact with said first part
when said first part is secured to said second part, the electrical
connecting means comprising a conductive member secured to the second part
and extending to the trailer transmitting unit, whereby the entire first
and second parts of said coupling means comprise part of an electrical
path from the second end of said conductive line to the trailer
transmitting unit; and
insulating means at the trailer end of the hose comprising an insulating
pad between the second part of the coupling means and the trailer air
brake inlet.
2. The path as claimed in claim 1, wherein the conductive line comprises an
embedded wire braid in an air brake hose.
3. The path as claimed in claim 1, including insulator means at the tractor
end of the hose for isolating the first end of the line from the tractor
air brake outlet.
4. The linkage as claimed in claim 1, wherein said releasable trailer
coupling means further comprises releasable mechanical connecting means
for releasably connecting the first part to the second part, the first
part of said coupling means including a first electrically conductive
contact member connected to the second end of said embedded conductive
line, the electrical connecting means including a second electrically
conductive contact member on said second part positioned to contact said
first electrically conductive contact member immediately when said first
and second parts are secured together and a continuous and uninterrupted
conductive path extending from said second electrically conductive contact
member to the trailer transmitting unit.
5. A releasable tractor-trailer electrical signal transmission linkage,
comprising:
at least one elongate air brake hose having tractor coupling means at one
end for coupling the hose to a tractor air brake outlet and releasable
trailer coupling means at the opposite end for releasably coupling the
hose to a trailer air brake inlet;
a conductive line extending along the length of the air brake hose and
having a first end at the tractor coupling means and a second end at the
trailer coupling means;
insulating means at opposite ends of the hose for electrically isolating
the opposite ends of the conductive line from the tractor air brake outlet
and the trailer air brake inlet;
a connecting line connected to the first end of the conductive line and
extending into the tractor for connecting an electronic communications
unit in the tractor to the conductive line;
electrical connecting means for automatically connecting the second end of
the conductive line to an electronic signal transmitting unit on the
trailer as soon as the trailer end of the hose is mechanically coupled to
the trailer air brake inlet by said trailer coupling means; and
the releasable trailer coupling means comprising a glad-hand device having
a first part secured to the trailer end of the hose and a second part
secured to the trailer, the first and second parts comprising releasable
mechanical connecting means for releasably securing the trailer end of the
hose to the trailer air brake inlet, and having through bores for air
passage through the releasable connection, the first part of said
glad-hand device comprising an electrically conductive member connected to
the second end of said conductive line, the second part of said glad-hand
device comprising an electrically conductive member which is in contact
with said first part when said first part is secured to said second part,
the electrical connecting means comprising a conductive member secured to
the second part of the glad-hand device and extending to the trailer
transmitting unit, whereby the entire first and second parts of said
glad-hand device comprise part of an electrical path from the second end
of said conductive line to the trailer transmitting unit, and said
insulating means at the trailer end of the hose comprising an insulating
pad between the second part of the glad-hand device and the trailer air
brake inlet.
6. The linkage as claimed in claim 5, wherein said air brake hose has a
tubular wall and said conductive line is embedded in the tubular wall of
said air brake hose.
7. The linkage as claimed in claim 6, wherein said conductive line
comprises a wire braid.
8. The linkage as claimed in claim 5, including at least one fastener
device for securing said first part of the glad hand device to an end wall
of said trailer, the insulating pad and first part having aligned openings
and the fastener device projecting through an opening in the trailer end
wall and the aligned openings in said insulating pad and first part to
secure the first part to the trailer end wall.
9. The linkage as claimed in claim 8, wherein said fastener device
comprises a bolt having a shank projecting through said openings and
having a projecting end, and a nut secured to the projecting end of said
shank, and insulating means between the shank and nut and the first part
of said glad hand device for insulating said first part from said fastener
device.
10. The linkage as claimed in claim 9, wherein said insulating pad has at
least one projecting boss coaxial with the opening in said insulating pad
and projecting through the opening in said first part for insulating said
first part from the shank of said bolt.
11. The linkage as claimed in claim 10, including an insulating washer
mounted on said shank between said nut and the first part of said glad
hand device. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The present invention relates to a tractor-trailer data transmission path
or link forming part of a mobile communication system to allow data
transmission back and forth between a tractor and attached trailer for
subsequent transmission to a remote monitoring center.
Mobile communication systems are used by commercial trucking companies to
locate, identify and ascertain status of their vehicles, as well as to
allow the vehicle operator to send and receive information. One major
problem facing large trucking companies is keeping track of the location
of all trailers throughout the country. When trailers are unhooked from a
tractor, they are liable to be left at a location and potentially
forgotten. This results in unnecessary down time and substantial economic
impact on the company.
In addition to keeping track of the location of all trailers at all times,
it is also desirable to be able to ascertain the condition of trailer
equipment, environmental conditions in a trailer, as well as the condition
of the payload. This may be achieved by placing various sensors in the
trailer. The sensors are typically connected to a suitable memory unit in
the trailer in which trailer identification and cargo information is
stored, and the sensor outputs as well as the trailer identification must
be transmitted to the tractor over a suitable transmission medium. Trailer
information is therefore transmitted to the tractor for transmission to a
central facility where the information is monitored. Up to now, various
transmission mediums have been contemplated including RF transceivers,
infrared transceivers, dedicated wiring, and a sharing of existing wiring.
RF and infrared transmission schemes can be costly and susceptible to
interference. Dedicated wiring are not desired since additional connectors
or a complete rewiring of existing trailers would be required. The
preferred technique has been directed towards transmitting the information
from trailer to tractor via existing tractor-trailer electrical wiring
which provides power for the trailer lights as well as for equipment in
the trailer. However, when the information signal is modulated onto a
carrier and impressed upon the electrical power line, it is sometimes not
easy to pick out the signal.
One tractor-trailer communication system of this type is described in
application Ser. No. 07/620,133, filed Nov. 30, 1990, of Moallemi et al.,
which is a Continuation of application Ser. No. 07/339,686, filed Apr. 18,
1989, now U.S. Pat. No. 5,142,278 issued Aug. 25, 1992, the disclosure of
which is incorporated by reference.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a new and improved
tractor-trailer data transmission path to allow information to be
transmitted more readily between a tractor and one or more attached
trailers.
According to the present invention, a tractor-trailer data transmission
path is provided which comprises a conductive line extending along the
length of a tractor-trailer air brake hose, a connector at the trailer end
of the line for electrically connecting the line to an information storage
and transmission unit on or in the trailer, and a connector at the tractor
end of the line for electrically connecting the line to receiver unit in
the tractor.
Some existing hoses have embedded wire braiding for added strength, and may
be used in a tractor/trailer air brake system. In this case, the existing
wire braiding may be used as the connecting line, with suitable electrical
connections to the braiding at the opposite ends of the line.
Alternatively, where the brake hoses are coiled rubber hoses, a wire braid
may be run along the length of a hose to provide the conductive line.
Furthermore, in unbraided hoses an insulated wire strand or strands may be
run the length of the hose.
This arrangement allows one or more electrical lines to be dedicated to
tractor-trailer data communications, allowing signals to be transmitted
more easily and reliably.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will be better understood from the following detailed
description of a preferred embodiment of the invention, taken in
conjunction with the accompanying drawings, in which like reference
numerals refer to like parts, and in which:
FIG. 1 is a block diagram of one type of mobile communication system in
which the communication link of this invention may be used;
FIG. 2 is an illustration of a tractor-trailer data transmission link
according to a preferred embodiment of the present invention;
FIG. 3 is a side elevational view, partly broken away, of a tractor-trailer
air brake hose incorporating the transmission link of FIG. 2;
FIG. 4 is a section on the lines 4--4 of FIG. 3;
FIG. 5 is a top plan view of the trailer end of the link; and
FIG. 6 is a section on the lines 6--6 of FIG. 5.
DESCRIPTION OF THE PREFERRED EMBODIMENT
FIG. 1 illustrates one type of mobile communication system in which the
data transmission link of this invention may be used. As illustrated in
FIG. 1, a mobile communications terminal (not shown) is mounted in a
vehicle such as a truck 10 having a tractor 12 and at least one trailer
14. Clearly the truck 10 may have more than one trailer connected in
series. The mobile communication terminal in the truck 10 is connected to
a suitable transmitter or antenna 16 for transmitting information to a
central hub facility or terminal 18 in any suitable manner, for example
via satellite 20. Information received from various trucks is transmitted
in any conventional manner from the hub facility 18 to a customer facility
22 via network management center 24 which controls the priority, access,
accounting and transfer characteristics of the message data. Messages can
be transmitted to and from the truck 10 using such a system. Typically,
the messages transmitted from the truck include information such as
vehicle location, vehicle status, trailer identification and trailer
status, as well as other information and requests for information which
may be entered manually by the truck driver. A mobile communication system
of this type is described in U.S. Pat. No. 5,142,278 referred to above in
which the tractor-trailer existing power line was contemplated as the
transmission medium. An example of such a communication system is that of
the OmniTRACS system employing OmniTRACS mobile communications terminals,
both of Qualcomm Incorporated of San Diego, Calif.
In order for the terminal in tractor 12 to collect information on trailer
identification and status for transmission to a central facility, a
transmission path must be provided between the tractor and the trailer to
allow electronic communication. FIG. 2 illustrates a trailer-tractor
communication link or transmission path according to an exemplary
embodiment of the present invention which does not require any additional
electrical cables to be provided from the tractor to the trailer but which
provides a dedicated path for communications between the tractor and
trailer.
The tractor-trailer communication system basically comprises a transmitter
unit 25 mounted on or in the trailer. Unit 25 will include a memory in
which trailer identifying information is stored, and is designed to
generate a carrier signal that is modified by a trailer identifying signal
as well as any other information such as trailer or payload status
information, which is obtained from various sensors linked to unit 25.
Every trailer in a fleet will have a transmitter unit designed to transmit
its own specific identifying signal.
The tractor includes a receiver unit 26 for receiving information from the
transmitter unit when the tractor is hooked up to a trailer. The receiver
unit receives power from the vehicle electrical system/battery 27, and is
linked to a mobile communication terminal 28 in the tractor. The receiver
receives each identification signal modulated carrier signal transmitted
from the trailer transmitter unit and demodulates the signal to provide an
information or identification signal to the mobile communication center
28. The identification signal is then transmitted to the central or hub
facility.
In using the transmitter such as described in U.S. Pat. No. 5,142,278, a
power bus or electrical transmission path must be provided from the
transmitter unit in the trailer to the tractor receiver unit in order to
allow signal communications between these units. In the aforementioned
patent the power bus is used such that power is provided from the
system/battery to transmitter 25 for powering the unit. Up to now,
tractor-trailer communication has been via the existing power cable
linkage between the tractor and trailer for powering brake lights and
other electrical equipment in the trailer. This invention provides a
dedicated line for carrying the modulated carrier signal from the trailer
to the tractor.
In an alternate embodiment the transmission path between the tractor and
trailer need not be a power bus. Therefore, electrical system/battery 27
would not be connected to the transmission medium as illustrated in FIG.
2. In either embodiment a common ground is shared between the tractor and
trailer such that only one wire is needed to complete the transmission
path.
In one example of this alternate embodiment, transmitter 25 is configured
as a transceiver, receiving power from the power bus, and transmitting and
receiving its signals over the transmission medium. Similarly receiver 26
is also configured as a transceiver for transmitting and receiving over
the transmission medium. In this example, transceiver 26 generates a
generic interrogation signal to which transceiver responds with an
identification signal. Later transceiver 26 interrogates transceiver 25
using a signal based upon the I.D. of transceiver 25. In the case of
multiple trailer transceivers 25 a search protocol is used by transceiver
26 upon receiving responses from multiple trailer transceivers 25. Again
the trailer transceivers 25 respond to the transceiver specific signals
transmitted by transceiver 26.
In a tractor-trailer combination, air brake lines or hoses 29 are
releasably connected between the tractor 12 and the trailer 14 to supply
air to the trailer. Typically, each line 29 has a coupling or fitting 30
at the tractor end which is screwed into an inlet or fitting 31 at the
back of the tractor. A similar fitting 32 at the opposite end is screwed
onto one part of a releasable coupling device 33 which is known as a "glad
hand" at the trailer end for releasably securing the hose to an inlet 34
at the front end of the trailer. Inlet 34 is linked via suitable means to
the trailer brake system. One or more, typically two, such air brake hoses
or lines are provided between the tractor and trailer, and similar hoses
are provided between the first trailer and any subsequent trailer linked
to the tractor where the tractor is pulling more than one trailer. When an
operator hitches the tractor to a trailer, they connect the air brake hose
to the trailer air brake inlet in a conventional manner.
Some existing air brake hoses are of the wire braided type in which a
metallic sheath 36 is embedded in a rubber or plastic hose 29 for added
strength and durability. Although a metallic sheath is preferred since
currently existing hoses are manufactured in this arrangement, it should
be understood that in the alternative a wire strand embedded in the hose
or an insulated wire strand mounted alongside the hose may be used. An air
brake hose of this type is illustrated in FIG. 4. In the illustrated
embodiment of this invention, the embedded metallic sheath 36 of a
tractor-trailer air brake hose 29 is used as part of the electrical
communications path between the transmitter unit 25 in a trailer and the
receiver unit 26 in a tractor, as best illustrated in FIG. 2.
As illustrated schematically in FIG. 2, a suitable electrical line 40 is
connected between the receiver unit in the tractor and the metallic sheath
36 at the tractor end of the air hose. Similarly, an electrical connecting
line 42 is provided between the trailer end of the sheath 36 and the
transmitter unit 25 in the trailer. The data transmission path is
illustrated in more detail in FIGS. 3-6. As illustrated in FIG. 3, the
coupling or fitting 30 at the tractor end of the hose is of metal such as
brass and is suitably secured on the end of the hose. Fitting 30 has a
projecting threaded end 44 for threaded engagement in tractor inlet 48.
The metal fitting 30 will be electrically connected to the metallic sheath
36 at the end of the hose in a similar manner to insulated electrical
cables, by peeling back a short portion of the insulating cladding of the
hose before securing the exposed end to fitting 30. Electrical wiring 40
is connected to the fitting 30 at one end via a suitable clamping device
46, as illustrated in FIG. 3, and extends through the rear wall of the
tractor for connection to the receiver unit as generally illustrated in
FIG. 2. Fitting 30 is electrically isolated from the tractor brake outlet
fitting 31 via insulating plastic coupling 48 or any other suitable
insulating means such as an insulating bushing.
The metallic fitting 32 at the trailer end is mounted on the hose end and
electrically connected to the trailer end of the metallic sheath in a
similar manner to fitting 30. Fitting 32 has a projecting threaded end 50
which is inserted into a correspondingly threaded inlet 52 of one part 54
of the so-called "glad hand" connector 33 as is conventionally used to
releasably connect air brake hoses to trailers. The other part 56 of the
connector 33 is permanently mounted on mounting plate 58 at the front end
of trailer 14 with an insulating layer disposed between part 56 and plate
58. The two parts 54, 56 have through bores for passage of air through the
parts and are designed to be connected and disconnected by rotating part
54. This type of glad hand connection is well known in the field and will
therefore not be described in any more detail. When the two parts 54, 56
are coupled together, a path for air from the air hose is provided through
connector 33 and mounting plate 58 to the trailer air brake system.
Since the fitting 32 is in electrical contact with the trailer end of
metallic sheath 36 (FIG. 4), and the glad hand is of metal, the trailer
secured part 56 of the glad hand is electrically connected to sheath 36.
Thus, the connecting lead to transmitter/transceiver unit 25 (FIG. 2) can
be taken from the part 56 of the glad hand, and two exemplary alternative
ways of doing this are illustrated in the drawings. In the alternative
illustrated in FIGS. 3-6, the transmitter unit is configured as a
transceiver and comprises a small memory and trailer id generating chip 60
which is mounted via mounting bracket 62 on the trailer mounting plate 58.
Since mounting plate 58 is grounded, bracket 62 also acts as a ground lead
for the chip 60.
Since the glad hand connector 33 is metal, it must be isolated from the
trailer mounting plate 58 to allow the electrical path to be taken from
part 56. One way of doing this is illustrated in FIGS. 3, 5 and 6. As best
illustrated in FIG. 6, connector part 56 is secured to mounting plate 58
via screws 68 which extend through the mounting plate and part 56 and have
lock nuts 70 mounted at their free ends. In order to isolate the part 56
from the screws and the mounting plate 58, an isolating pad 72 of suitable
insulating material is inserted between the mounting plate 58 and the
connector part 56, and the screws 68 project through aligned openings in
the plate 58, pad 72 and connector part 56. Insulating bushings 74 are
mounted on the projecting ends of the screws between the nuts 70 and
connector part 56. Projecting cylindrical bosses 76 project from pad 72
into enlarged openings in connector part 56 surrounding the screws so as
to isolate the shank of each screw from the connector part. With this
arrangement connector part 56 is completely isolated from the mounting
plate 58, and fitting 32 is similarly isolated to prevent any signal
losses to ground.
A signal path from the connector part 56 to the chip or transmitter unit 60
is provided via a conductive connecting plate or bracket 78 which is
sandwiched between connector part 56 and pad 72 as illustrated in FIG. 6
and which has an upwardly projecting tab 80 which is connected to the live
lead of chip 60, which may be a Touch Memory.RTM. chip as manufactured by
Dallas Semiconductors. Since chip 60 is exposed it may also be accessed by
an operator with a touch interrogation device.
In this embodiment, the transmitter unit is a simple trailer identification
unit which transmits trailer identifying information along the
transmission path of hose 29 to the receiver unit on receipt of a request
signal from the receiver unit 26 (FIG. 2) which is configured as a
transceiver. However, in alternative embodiments, as illustrated
schematically in FIG. 2, the transmitter unit 25, or multiple transmitter
units, may be suitably mounted within the trailer adjacent the air brake
hose mounting plate 68. The internally mounted transmitter unit may be
secured to the isolated glad hand part 56 via a suitable electrical lead
secured to the part 56 in any suitable manner, for example a lead may be
connected to tab 80 of connecting bracket 78, and extend from tab 80 into
the trailer for connection to unit 25.
Instead of mounting chip 60 externally on mounting bracket 62, a chip or
transmitter unit 60' may be embedded within pad 72, as illustrated in FIG.
6. In this case, the drip 60' is protected from the surrounding
environment. Alternatively, an embedded chip 60' may be provided in
addition to chip 60 for performing additional functions. Suitable
connections will be provided from conductive plate 78 to chip 60', or
plate 78 may be omitted and chip 60' may be connected directly to glad
hand connector part 56.
Additional connecting wires (not illustrated) may connect transmitter unit
25 to sensors inside or outside the trailer for providing cargo status and
other desired information via metal sheath 36 to the tractor receiver
unit. The electrical connection to sensors and other electrical units in
the trailer may use the trailer air brake hoses as part of the electrical
path, in a similar manner to air brake hose 29 between the tractor and
trailer. In any trailer, an air brake line will extend from the air brake
inlet at the front end of the trailer to the trailer brake system. If this
line has an embedded metallic sheath, it may be suitably connected to the
transmitter unit with wiring, for example, and then may be connected to
electrical units or sensors in the truck at any desired point in its
length simply by tapping electrical leads into the hose at appropriate
points. The brake end of the metallic sheath will be isolated in any
suitable manner from any metal parts of the brake units.
With this arrangement, a dedicated transmission path is provided between a
transmitter unit on or in a trailer and a receiver unit in a tractor using
existing brake hose lines without requiring any additional electrical
cables between the tractor and trailer. This allows more reliable signal
transmission and signal identification. This arrangement also does not
require any change in the way drivers connect trailers. No change is
required in the existing seven-way, electrical connector between
tractor-trailer or existing glad hands.
In the embodiment described above, the transmission path is provided along
an air brake hose of the embedded wire sheath type. This type of air brake
connection typically includes a pair of air brake hoses and a spring
extending from the tractor for retracting the brake hose lines when
released from the trailer. Thus, the electrical path could alternatively
be provided along the metallic retraction spring in a similar manner, and
an additional transmission path may be provided along the second air brake
hose, since there are typically two such hoses connected between the
tractor and coupled trailer. In tractors having coiled rubber air brake
hoses without embedded metal sheaths, a conductive line could be simply
mounted along the outside of the hose in any suitable manner, such as a
metallic sheath or wire with an outer insulating layer, with the hose
providing the support for the transmission path.
Although a preferred embodiment of the invention has been described above
by way of example only, it will be understood by those skilled in the
field that modifications may be made to the disclosed embodiment without
departing from the scope of the invention, which is defined by the
appended claims.
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