Connecting system for charging electric vehicle

Abstract

A connecting system for charging an electric vehicle may include a connector comprising a male connector connected to a battery side for supplying electric energy to a vehicle and a female connector connected to the male connector; an interlock circuit for constituting a closed circuit by connecting an interlock terminal of the male connector and an interlock terminal of the female connector to each other; a control unit having a built-in battery, and for measuring the voltages at both ends of the interlock circuit; a light-emitting load provided on the interlock circuit inside the male connector; and a ground switch provided on the interlock circuit inside the male connector.

Claims

1. A connecting system for charging an electric vehicle, comprising: a connector comprising a male connector connected to a battery side for supplying electric energy to a vehicle and a female connector connected to the male connector; an interlock circuit for constituting a closed circuit by connecting an interlock terminal of the male connector and an interlock terminal of the female connector to each other; a control unit having a built-in battery, and for measuring a voltage at each end of the interlock circuit; a light-emitting load provided on the interlock circuit inside the male connector; and a ground switch provided on the interlock circuit inside the male connector, wherein the ground switch is configured in parallel with the light-emitting load.

2. The connecting system for charging the electric vehicle of claim 1, wherein the connector is configured with a plurality of connectors, and wherein the interlock circuit has a plurality of interlock terminals of the plurality of connectors connected to each other to constitute a closed circuit.

3. The connecting system for charging the electric vehicle of claim 2, wherein the control unit connected to the interlock circuit is a single configuration.

4. The connecting system for charging the electric vehicle of claim 3, wherein the light-emitting load and the ground switch are configured inside the male connector of each of the plurality of connectors.

Description

DRAWINGS

(1) In order that the disclosure may be well understood, there will now be described various forms thereof, given by way of example, reference being made to the accompanying drawings, in which:

(2) FIGS. 1 to 6 are diagrams schematically illustrating a conventional connecting system;

(3) FIG. 7 is a diagram illustrating a connecting system according to the present disclosure;

(4) FIG. 8 is a diagram illustrating the operating state of the connecting system of FIG. 7; and

(5) FIG. 9 is a diagram for explaining a disconnection diagnosis method by the connecting system of the present disclosure.

(6) The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.

DETAILED DESCRIPTION

(7) The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.

(8) In order to fully understand the present disclosure, reference should be made to the accompanying drawings exemplifying aspects of the present disclosure and the contents illustrated in the accompanying drawings.

(9) In describing the present disclosure, a description of known technology or repeated descriptions that may unnecessarily obscure the subject matter of the present disclosure will be reduced or omitted.

(10) FIG. 7 is a diagram illustrating a connecting system according to the present disclosure, and FIG. 8 is a diagram illustrating an operating state of the connecting system of FIG. 7.

(11) Hereinafter, the connecting system for charging an electric vehicle according to one aspect of the present disclosure will be described with reference to FIGS. 7 and 8.

(12) The connecting system according to the present disclosure is a configuration that is built in an electric vehicle and connects to use a high voltage battery as a power source of a vehicle, and is a system including a single control unit and a plurality of connectors, and for accurately recognizing the detached connector among the plurality of connectors by a control unit.

(13) The control unit has a built-in high-voltage battery, and a male connector of each of the plurality of connectors is connected to a battery side, and a female connector is electrically connected in pairs with each male connector.

(14) Then, the interlock terminal is provided between the male connector and the female connector, respectively, and the interlock circuits 10, 20, 30, 40 connected to each other between interlock terminals between the male connector and the female connector are built-in in the connector including the male connector and the female connector as a loop circuit to configure an interlock circuit, and when the interlock circuit is opened by the detachment between the male connector and the female connector, the control unit for measuring the voltages at both ends of the interlock circuit recognizes it.

(15) Herein, a light-emitting load 11 is added to the interlock circuit of each male connector.

(16) That is, when a pair of terminals of the male connector are closed, no current flows in the light-emitting load 11, and when the female connector is detached and a pair of terminals of the male connector are opened, a current flows in the light-emitting load 11 to turn on the light of the light-emitting load 11 such as an LED, thereby easily confirming visually it.

(17) Therefore, it is possible to easily confirm which connector has been detached by only a single control unit.

(18) However, it is not possible to confirm at which position the failure (circuit disconnection) has occurred by only light-emitting element when the closed loop is not configured by the circuit disconnection rather than the unconnected connector. That is, when the circuit itself is disconnected, the light-emitting element is not turned on even if there is an unconnected connector, thereby not confirming whether the connector is detached.

(19) For this purpose, the present disclosure further includes a ground switch in parallel with each light-emitting load configured in each male connector.

(20) Therefore, when a ground switch 12 is pressed (ON) as illustrated, the light-emitting load 11 configured in the corresponding connector is turned on.

(21) Therefore, it is possible to confirm whether the front end of the corresponding connector is disconnected.

(22) That is, if all of the light-emitting loads do not turn on when a first switch 12, a second switch 22, a third switch 32, and a fourth switch 42, which are ground switches, are pressed as illustrating in FIG. 9, it may be determined that a disconnection has occurred at the point A that is the front end of the connector of the load 1.

(23) Then, if the corresponding light-emitting load is turned on when the first switch 12 and the second switch 22 are pressed and the corresponding light-emitting load is not turned on when the third switch 32 and the fourth switch 42 are pressed, it may be determined that a disconnection has occurred at the point B that is the rear end of the connector of the load 2 and the front end of the connector of the load 3.

(24) In addition, if all of the light-emitting loads are turned on when all of the first switch 12, the second switch 22, the third switch 32, and the fourth switch 42 are pressed, it may be determined that a disconnection has occurred at the point C that is the rear end of the connector of the load 4.

(25) In the method of diagnosing the failure by the connecting system of the present disclosure configured as described above, when an interlock fault code is first generated in the vehicle, whether the light-emitting load configured in the plurality of load connectors emits light is confirmed.

(26) When the connector has been detached without disconnection, the corresponding connector may be confirmed.

(27) That is, as illustrated in FIG. 8, when the connectors of the load 1 and the load 3 are detached, the closed loop is configured as indicated by the dotted line in the drawing, thereby turning on the light-emitting loads of the load 1 and the load 3.

(28) Next, when the lighted connector is again connected, the light-emitting load should be turned off, and when it is not turned off even if it is again connected, it may be determined that the terminal of the corresponding connector is defective.

(29) Next, when an interlock fault code has occurred but it is confirmed that there is no light-emitting load turned on, it is suspected that the interlock circuit is disconnected.

(30) Therefore, the disconnection position is confirmed by sequentially turning on the first switch 12, the second switch 22, the third switch 32, and the fourth switch 42.

(31) That is, as illustrated in FIG. 9, when the first switch 12 is turned off, a disconnection is confirmed by performing the electrical-conduction test for the A circuit, and when there is no disconnection, it may be determined that there is the power supply failure at the control unit side.

(32) Then, when the first switch 12 is turned on and the second switch 22 is turned off, a disconnection is confirmed by performing the electrical-conduction test for the B circuit.

(33) Next, when the second switch 22 is turned on and the third switch 32 is turned off, a disconnection is confirmed by performing the electrical-conduction test for the C circuit.

(34) Then, when the third switch 32 is turned on and the fourth switch 42 is turned off, a disconnection is confirmed by performing the electrical-conduction test for the D circuit.

(35) Next, when the fourth switch 42 is turned on, a disconnection is confirmed by performing the electrical-conduction test for the E circuit, and when there is no disconnection, it may be determined that there is the ground supply failure at the control unit side.

(36) As described above, the present disclosure may easily check whether the plurality of connectors are detached or disconnected by only a single control unit by a relatively simple system.

(37) As described above, while the present disclosure has been described with reference to the drawings, it is not limited thereto, and it is to be understood by those skilled in the art that various modifications and deformations may be made without departing from the spirit and the scope of the present disclosure.