Vehicle battery charger

What is claimed is: 1. A vehicle battery charger including a connector for charging a vehicle, the vehicle comprising a storage battery and a relay circuit configured to start or stop charging to the storage battery by becoming a closed state or an opened state, the connector having a proximity detection terminal, the vehicle being operable to detect a disengagement of the connecter or a preparing operation of the disengagement of the connector by a change in an electric current value of a sensing electric current output from the proximity detection terminal of the connecter and to stop the charging of the storage battery of the vehicle upon the detection, the vehicle battery charger comprising: a charging device connected to the connector and configured to charge the vehicle, comprising a simulation operation device comprising a switching device, the simulation operation device configured to change the electric current value by switching a pathway of the sensing electric current output from the proximity detection terminal of the connecter while the connecter is still in engagement and the preparing operation of the disengagement of the connecter is not yet carried out, thereby setting the relay circuit of the vehicle at the opened state to cause the vehicle to stop charging the storage battery, wherein said switching device changes said value of the sensing electric current output from said proximity detection terminal of the connector in response to a control signal; a switching circuit comprising at least a first switching section and a second switching section, the first switching section comprising a first contact connected to the proximity detection terminal via a parallel circuit in which a switch disposed in a charging gun and a first resistor are connected in parallel, and the second switching section comprising a fourth contact configured to be connected to the first contact depending on a switching state of the first switching section; wherein when a switching state of the first switching section is changed from a first connection state to a second connection state in which the first contact is connected to the fourth contact, a control device on the side of the vehicle can detect that a release button of the charging gun has been pushed, and when the switching state of the second switching section from the second connection state to a third connection state in which a fifth contact is connected to no other circuit element in the switching circuit, the control device judges that the connector is disengaged from a vehicle inlet even when the connector is actually not disengaged from the vehicle inlet. 2. The vehicle battery charger according to claim 1 , wherein the simulation operation device is configured to cause the vehicle to detect the disengagement of the connecter by blocking the pathway of the electric current output from the proximity detection terminal of the connecter. 3. The vehicle battery charger according to claim 1 , wherein the simulation operation device is configured to cause the vehicle to detect the preparing operation of the disengagement of the connecter by switching the pathway of the electric current output from the proximity detection terminal of the connecter such that the electric current value of the electric current is equal to the electric current value obtained when the preparing operation has been carried out. 4. The vehicle battery charger according to claim 1 , wherein the simulation operation device is capable of selecting blocking the pathway of the electric current output from the proximity detection terminal of the connecter, or switching the pathway of the electric current output from the proximity detection terminal of the connecter such that the electric current value of the electric current is equal to the electric current value obtained when the preparing operation has been carried out. 5. The vehicle battery charger according to claim 1 , wherein the simulation operation device is configured to cause the vehicle to detect the disengagement of the connecter by blocking the pathway of an electric proximity signal that indicates that the connector is electrically connected to the relay circuit of the vehicle. 6. A vehicle battery charger including a connector for charging a vehicle, the vehicle comprising a storage battery and a relay circuit configured to start or stop charging to the storage battery by becoming a closed state or an opened state, the connector having a proximity detection terminal, the vehicle being operable to detect a disengagement of the connecter or a preparing operation of the disengagement of the connector by a change in an electric current value of a sensing electric current output from the proximity detection terminal of the connecter and to stop the charging of the storage battery of the vehicle upon the detection, the vehicle battery charger comprising: a charging device connected to the connector and configured to charge the vehicle, comprising a simulation operation device comprising a switching device, the simulation operation device configured to change the electric current value by switching a pathway of the sensing electric current output from the proximity detection terminal of the connecter while the connecter is still in engagement and the preparing operation of the disengagement of the connecter is not yet carried out, thereby setting the relay circuit of the vehicle at the opened state to cause the vehicle to stop charging the storage battery, wherein said switching device changes said value of the sensing electric current output from said proximity detection terminal of the connector in response to a control signal: a switching circuit comprising at least a first switching section comprising a first contact connected to the proximity detection terminal via a parallel circuit in which a switch disposed in a charging gun and a first resistor are connected in parallel, and a second switching section comprising a fourth contact configured to be connected to the first contact depending on a switching state of the first switching section; wherein when a switching state of the first switching section is changed from a first connection state to a second connection state in which the first contact is connected to the fourth contact, a control device on the side of the vehicle can detect that a release button of the charging gun has been pushed, and when the switching state of the second switching section from the second connection state to a third connection state in which a fourth contact is connected to a second resistor, the control device judges that the release button is pushed even when the release button is not actually pushed.