WO2016084027A1

WO2016084027A1 - Adapter for obd connectors on board of vehicles

Info

Publication number: WO2016084027A1
Application number: PCT/IB2015/059140
Authority: WO
Inventors: Giuseppe Simonazzi
Original assignee: Meta System S.P.A.
Priority date: 2014-11-28
Filing date: 2015-11-26
Publication date: 2016-06-02
Also published as: EP3224914A1; ITMO20140348A1

Abstract

The adapter (1) for OBD connectors on board of vehicles comprises a container body (2) associable with a connection port (3) of the OBD type of an on-board diagnostic system of a vehicle, a power supply terminal (4) and a grounding terminal (5) connectable to respective power supply and grounding electrical contacts (6, 7) of the connection port (3), a connector (8) supported by the container body (2) and connectable to a respective power supply connector (9a) of an external electrical appliance (9), and electrical connection means (10) between the connector (8) and the power supply and grounding terminals (4, 5).

Description

ADAPTER FOR OBD CONNECTORS ON BOARD OF VEHICLES

Technical Field

The present invention relates to an adapter for ODB connectors on board of vehicles.

Background Art

The use is known on cars and motor vehicles of suitable on-board diagnostic systems so-called OBD (On-Board Diagnostics), able to detect and signal any vehicle breakdowns or malfunctions.

In practice, the systems according to the OBD-II standard in the United States and the corresponding E-OBD standard in Europe are able to provide, e.g. to a skilled technician in a garage during a vehicle overhaul, all the information required to analyse the state of each subsystem of the vehicle itself.

The recent implementations of OBD systems use a suitable digital communication port through which, once connected to a special external test unit, it is possible to obtain real-time information relating to the state of the vehicle, together with reports of vehicle faults and malfunctions through standard DTC codes (Diagnostic Trouble Codes).

The OBD digital communication port meets predefined standards common to all models and makes of vehicles and can be connected to an external diagnosis unit by means of a respective connector.

Also well-known and increasingly more widespread, furthermore, is the use of monitoring appliances installable on board a vehicle and usable for detecting the way the vehicle itself is used over time.

Such appliances find application, e.g., in the insurance field, to determine personalized rates on the basis of the actual use of the vehicle, in the environmental field, for the real-time detection of the polluting emissions of a vehicle, or in the management of vehicle rental, in order to achieve greater automation of the charging, pickup and delivery procedures of vehicles.

The appliances of known type generally comprise a control unit installable on board of the vehicle, inside the vehicle compartment, and connectable to the electronics of the vehicle itself.

Such appliances also comprise a radio- wave device, of the type commonly used in the field of mobile telephones such as, e.g., a GSM, GPRS, UMTS transceiver or the like.

The radio-wave device in particular supports the sending of information gathered by the appliance to a remote data processing and storage station.

If necessary, the radio-wave device is used to receive, from the remote station, management software updates and/or appropriate parameterizations of the appliance on board of the vehicle.

These appliances generally also comprise a satellite receiver, of the type of a

GPS receiver or equivalent, for the location of the vehicle using the detected coordinates of latitude, longitude and possibly altitude.

In practice, the operation of the appliance involves the gathering at regular time intervals of information regarding the position of the vehicle via the GPS receiver and the subsequent transmission of such information to the remote station by means of the radio- wave device.

The information thus gathered by the remote station is then processed for the determination of data useful for the specific area of application.

Further information may be gathered by the appliance through the use of further devices such as, e.g., an accelerometer installed on the vehicle and able to detect shocks and sudden accelerations and decelerations.

The accelerometer, in particular, can be used in the insurance field to determine the dynamics of an accident and, therefore, related responsibilities.

These appliances of known type, however, are susceptible of improvements.

In particular, installing the appliance on the vehicle is often a long and complicated process.

In general, in fact, the appliance must be installed inside the passenger compartment of the vehicle, on the dashboard, and must be suitably connected to the power supply of the vehicle itself.

This installation procedure is commonly performed by connecting the power supply cables of the appliance to the supply line of the vehicle and requires the intervention of a skilled technician and a fair amount of time, thereby increasing total costs.

Description of the Invention The main aim of the present invention is to provide an adapter for OBD connectors on board of vehicles allowing to simplify and speed up the installation of an electrical appliance on board of a vehicle.

Another object of the present invention is to provide an adapter for OBD connectors on board of vehicles allowing to overcome the mentioned drawbacks of the prior art within the ambit of a simple, rational, easy, effective use and affordable solution.

The objects stated above are achieved by the present adapter for OBD connectors on board of vehicles according to claim 1.

Brief Description of the Drawings

Other characteristics and advantages of the present invention will become better evident from the description of a preferred but not exclusive embodiment of an adapter for OBD connectors on board of vehicles, illustrated by way of an indicative, but non-limiting, example in the accompanying drawings, in which: Figure 1 shows the adapter according to the invention and an electrical appliance connectable to the adapter;

Figure 2 is a rear axonometric view of the adapter according to the invention; Figure 3 is a front axonometric view of the adapter according to the invention; Figure 4 is an exploded view of the adapter according to the invention;

Figure 5 shows the adapter according to the invention and a conventional OBD connection port;

Figure 6 illustrates a side view in section of a detail of the adapter according to the invention.

Embodiments of the Invention

With particular reference to such figures, reference number 1 globally indicates an adapter connectable to a conventional OBD (On-Board Diagnostics) connection port of the type installed on board of vehicles and generally used to allow the connection of diagnostic systems of the vehicle.

The adapter 1 comprises a container body 2 conformed according to conventional OBD standards and associable with a standard connection port 3 of an OBD diagnostic system on-board of a vehicle.

Advantageously, the adapter 1 comprises a power supply terminal 4 and a pair of grounding terminals 5 connectable to respective power supply and grounding electrical contacts 6 and 7 of the connection port 3.

In particular, the power supply terminal 4 is connectable to a respective electrical contact 6 of the connection port 3 corresponding to the battery positive pole of the vehicle.

The grounding terminals 5, on the other hand, are connectable to respective electrical contacts 7 of the connection port 3 corresponding to grounding.

Conveniently, the adapter 1 can also comprise an additional power supply terminal, not shown in the illustrations, connectable to a respective further power supply contact of the connection port 3.

In particular, this additional power supply terminal is connectable to a respective electrical contact of the connection port 3 corresponding to a power supply voltage of +15V.

The adapter 1 also comprises at least a connector 8 supported by the container body 2 and connectable to at least one respective power supply connector 9a of an external electrical appliance 9.

Preferably, this electrical appliance 9 is made up of a monitoring appliance installable on board of a vehicle and usable to detect the way the vehicle itself is used over time.

For example, such electrical appliance 9 is used in the insurance field, to determine personalized rates on the basis of the actual use of the vehicle, in the environmental field, for the real-time detection of the polluting emissions of a vehicle, or in the management of vehicle rental, in order to achieve greater automation of the charging, pickup and delivery procedures of the vehicles. By using the adapter 1 , therefore, the electrical appliance 9 can be connected directly to a conventional OBD connection socket, to supply power to the appliance itself.

This therefore allows considerably simplifying the installation operations of the electrical appliance 9 on board of a vehicle.

Preferably, furthermore, the connector 8 and the connector 9a are made up of connectors of the conventional type, whether with SMD or PTH technology with 2 or 3 poles, preferably with secondary lock to ensure connection stability and to prevent unwanted disconnections.

Advantageously, the adapter 1 comprises electrical connection means 10 able to electrically connect the connector 8 to the power supply terminal 4 and to the grounding terminals 5.

Preferably, such electrical connection means 10 are made up of an electronic board housed within the container body 2.

Preferably, furthermore, the electronic board 10 has three metallized holes 11 inside which are inserted the respective rear portions of the power supply terminal 4 and of the grounding terminals 5.

Conveniently, the adapter 1 comprises a substantially plate-shaped holding element 12, fixed inside the container body 2 and having a housing seat of the electronic board 10.

In particular, according to a preferred embodiment shown in the illustrations, the power supply tenninal 4 and the grounding tenninals 5 are supported by the holding element 12.

The holding element 12 also comprises an enlarged and protruding appendix 13, substantially parallel to the terminals 4 and 5, insertable inside a respective enlarged opening 14 on the connection port 3.

Conveniently, the adapter 1 comprises a protruding element 15 suitably shaped and able to engage on a respective abutment element 16 of the connection port 3, when the adapter itself is inserted on the connection port 3.

In particular, the protruding element 15 can be made up of a suitably shaped tooth.

Furthermore, the adapter 1 comprises locking means, indicated altogether in the illustrations by the reference number 17, able to lock the tooth 15 in correspondence of the abutment element 16 of the connection port 3.

In particular, the locking means 17 comprise a movable element 18 associated with the container body 2 and operatively connected to the tooth 15.

The movable element 18 is positionable in a stop position, wherein the tooth 15 is pressed and locked in correspondence of the abutment element 16 of the connection port 3.

With not exclusive reference to a preferred embodiment of the adapter 1 , shown in the illustrations, the container body 2 comprises a flexible element 19 provided with the protruding element 15.

The movable element 18 is associated sliding with the container body 2 between a disengagement position, in which it is substantially moved away from the tooth 15, and the stop position, in which it is engaged on the flexible element 19, in the proximity of the tooth 15, to lock the tooth itself in correspondence of the abutment element 1 of the connection port 3.

In particular, the flexible element 19 can be made up of a bending spring which extends substantially parallel to the direction of extension of the adapter 1 , from a rear portion of the container body 2 to a front portion of the container body 2. The locking means 17 also comprise guide means 20 able to guide the sliding of the movable element 18 between the disengagement position and the stop position.

In particular, with reference to the embodiment of the adapter 1 shown in the illustrations, the guide means 20 consist of a rectilinear guide locked together with the container body 2, in correspondence of the spring 19.

It has in practice been ascertained how the described invention achieves the intended objects.

In particular, the fact is underlined that the adapter according to the invention allows to simplify and speed up the installation of an electrical appliance on board of a vehicle.

Claims

1) Adapter (1) for OBD connectors on board of vehicles, characterized by the fact that it comprises a container body (2) associable with a connection port (3) of the OBD type of an on-board diagnostic system of a vehicle, at least a power supply terminal (4) and at least a grounding terminal (5) connectable to respective power supply and grounding electrical contacts (6, 7) of said connection port (3), at least a connector (8) supported by said container body (2) and connectable to at least a respective power supply connector (9a) of an external electrical appliance (9), and electrical connection means (10) between said connector (8) and said power supply and grounding terminals (4, 5).

2) Adapter (1) according to claim 1, characterized by the fact that said power supply terminal (4) is connectable to a respective power supply electrical contact (6) of said connection port (3) corresponding to the battery positive pole.

3) Adapter (1) according to one or more of the preceding claims, characterized by the fact that it comprises at least two grounding terminals (5).

4) Adapter (1) according to one or more of the preceding claims, characterized by the fact that it comprises at least an additional power supply terminal connectable to a respective further power supply contact of said connection port (3).

5) Adapter (1) according to claim 4, characterized by the fact that said additional power supply terminal is connectable to a respective electrical contact of said connection port (3) corresponding to a power supply voltage of + 15V.

6) Adapter (1) according to one or more of the preceding claims, characterized by the fact that said electrical connection means (10) comprise at least an electronic board (10) housed within said container body (2).

7) Adapter (1) according to claim 6, characterized by the fact that said electronic board (10) has at least two at least partially metallized holes (1 1) inside which are inserted the respective rear portions of said power supply terminal (4) and of said grounding terminal (5).

8) Adapter (1) according to one or more of claims 6 and 7, characterized by the fact that it comprises at least a holding element (12) associated with said container body (2) and having a housing seat of said electronic board (10).

9) Adapter (1 ) according to one or more of the preceding claims, characterized by the fact that said power supply terminal (4) and said grounding terminal (5) are supported by said holding element (12).

10) Adapter (1) according to one or more of the preceding claims, characterized by the fact that it comprises at least a protruding element (15) associated with said container body (2) and engageable in correspondence of at least one respective abutment element (16) on said connection port (3), and locking means (17) of said protmding element (15) in correspondence of said abutment element (16), able to prevent unwanted disconnection of the adapter (1) itself from the connection port (3).