Water heating apparatus with immediate hot water supply function and water heating system

What is claimed is: 1. A water heating apparatus that outputs hot water to a hot water supply faucet, the water heating apparatus comprising: a heating mechanism; an inner path that forms, when a circulation pump is activated while the hot water supply faucet is closed, an immediate hot water supply circulation path through which a fluid passes through the heating mechanism, together with an outer path that bypasses the hot water supply faucet on the outside of the water heating apparatus; a temperature detector that detects a temperature of the fluid in the immediate hot water supply circulation path; and a controller that gives an instruction to activate and deactivate the heating mechanism and the circulation pump, wherein the controller determines, in a test mode, whether the immediate hot water supply circulation path has been formed by connection of a thermal water stop bypass valve, based on whether the temperature detector senses increase in temperature of the fluid to a predetermined criterion temperature while the circulation pump and the heating mechanism are active, wherein the criterion temperature corresponds to a switching temperature at which the thermal water stop bypass valve switches between formation and closing of a bypass path. 2. The water heating apparatus according to claim 1 , wherein the controller determines that the immediate hot water supply circulation path has been formed without connection of the thermal water stop bypass valve when the temperature detector senses increase in temperature of the fluid to the criterion temperature while the circulation pump and the heating mechanism are active. 3. The water heating apparatus according to claim 1 , wherein the controller determines that the immediate hot water supply circulation path has been formed by connection of the thermal water stop bypass valve when the temperature detector does not sense increase in temperature of the fluid to the criterion temperature in spite of lapse of a predetermined time period while the circulation pump and the heating mechanism are active. 4. The water heating apparatus according to claim 1 , further comprising a flow rate detector that senses a flow in the immediate hot water supply circulation path, wherein the controller determines that the immediate hot water supply circulation path has been formed by connection of the thermal water stop bypass valve when the flow rate detector senses lowering in flow rate in the immediate hot water supply circulation path before the temperature detector senses increase in temperature of the fluid to the criterion temperature. 5. The water heating apparatus according to claim 4 , wherein in the test mode, the controller establishes a state that the circulation pump and the heating mechanism are active after the flow rate detector has sensed the flow in the immediate hot water supply circulation path while the heating mechanism has been deactivated and the circulation pump is active. 6. The water heating apparatus according to claim 1 , further comprising a flow rate detector that senses a flow in the immediate hot water supply circulation path, wherein in the test mode, the controller establishes a state that the circulation pump and the heating mechanism are active after the flow rate detector has sensed the flow in the immediate hot water supply circulation path while the heating mechanism has been deactivated and the circulation pump is active. 7. The water heating apparatus according to claim 1 , wherein the controller executes the test mode when an instruction to make a test run of the water heating apparatus is given. 8. The water heating apparatus according to claim 1 , wherein the controller prohibits start of the test mode when the temperature of the fluid detected by the temperature detector is higher than the criterion temperature before start of the test mode. 9. The water heating apparatus according to claim 1 , wherein the controller includes a storage that stores a result of determination as to whether the thermal water stop bypass valve is connected in the test mode, and the controller switches a condition for deactivating the circulation pump and the heating mechanism in an immediate hot water supply operation mode in which the circulation pump and the heating mechanism are activated while the hot water supply faucet is closed, in accordance with the result of determination stored in the storage. 10. A water heating system comprising: the water heating apparatus according to claim 1 ; a low-temperature water pipe that introduces the low-temperature water to the water entry port of the water heating apparatus; a high-temperature water pipe that connects the hot water output port of the water heating apparatus and the hot water supply faucet to each other; the circulation pump arranged inside or outside the water heating apparatus; and the immediate hot water supply circulation path formed to include at least one of the low-temperature water pipe and the high-temperature water pipe and to bypass the hot water supply faucet on outside of the water heating apparatus, and to pass through the heating mechanism in inside of the water heating apparatus, as the circulation pump is activated while the hot water supply faucet is closed. 11. The water heating system according to claim 10 , wherein the controller determines that the immediate hot water supply circulation path has been formed without connection of the thermal water stop bypass valve when the temperature detector senses increase in temperature of the fluid to the criterion temperature while the circulation pump and the heating mechanism are active. 12. The water heating system according to claim 10 , wherein the controller determines that the immediate hot water supply circulation path has been formed by connection of the thermal water stop bypass valve when the temperature detector does not sense increase in temperature of the fluid to the criterion temperature in spite of lapse of a predetermined time period while the circulation pump and the heating mechanism are active. 13. The water heating system according to claim 10 , further comprising a flow rate detector that senses a flow in the immediate hot water supply circulation path, wherein the controller determines that the immediate hot water supply circulation path has been formed by connection of the thermal water stop bypass valve when the flow rate detector senses lowering in flow rate in the immediate hot water supply circulation path before the temperature detector senses increase in temperature of the fluid to the criterion temperature. 14. The water heating system according to claim 9 , further comprising a flow rate detector that senses a flow in the immediate hot water supply circulation path, wherein in a case it is determined in the test mode that the thermal water stop bypass valve is not connected, the controller is configured to instruct to deactivate the circulation pump and the heating mechanism on condition that a temperature detected by the temperature detector becomes higher than a predetermined threshold value; and in a case it is determined in the test mode that the thermal water stop bypass valve is connected, the controller is configured to instruct to deactivate the circulation pump and the heating mechanism on condition that a flow rate detected by flow rate detector is lower than a predetermined threshold value.