Method for constructing a water circulation device and scale removal device

The invention claimed is: 1. A method for constructing a water circulation device including a water circulation circuit that circulates water heat-exchanged with a refrigerant heated by a heat pump, the method comprising: installing a heater in the water circulation device in contact with the water; depositing scale from the water on the heater by heating the heater while circulating the water in the water circulation circuit; and removing the heater from the water circulation device after the depositing such that the heater does not come into contact with the water during use of the water circulation device. 2. The method according to claim 1 , wherein the water circulation circuit includes a first heat exchanger to perform heat exchange between the refrigerant and the water, and in the depositing, the heat pump is operated such that the refrigerant condenses at a temperature less than 60° C. in the first heat exchanger. 3. The method according to claim 2 , wherein the water circulation circuit further includes a second heat exchanger to perform heat exchange between the water and indoor air, and in the installing, the heater is installed in a portion on a downstream side of the first heat exchanger and on an upstream side of the second heat exchanger in the water circulation circuit. 4. The method according to claim 1 , wherein a vertically upward hole that is openable and closable is formed in the water circulation circuit, in the installing, the heater is inserted into the water circulation circuit through the hole, and in the removing of the heater, the heater is drawn out through the hole. 5. The method according to claim 4 , wherein the water circulation circuit includes a pipe, and the hole is formed in the pipe. 6. The method according to claim 4 , wherein the water circulation circuit includes a tank to absorb a volume change associated with a temperature change of the water, and the hole is formed in the tank. 7. The method according to claim 4 , wherein a first end of the heater is attachable to a first lid capable of opening and closing the hole, a second lid capable of opening and closing the hole is attached to a second end of the heater, the first end is located on an opposite side to the second end of the heater, the installing includes: inserting the heater from the first end side into the water circulation circuit through the hole; closing the hole with the second lid; and attaching the first end to the first lid before or after the inserting, and the removing of the heater includes: separating the second lid from the hole; pulling out the heater through the hole; closing the hole with the first lid; and removing the first end from the first lid. 8. The method according to claim 4 , wherein a first lid capable of opening and closing the hole is attached to a first end of the heater, and a second lid capable of opening and closing the hole is attached to a second end of the heater, the first end is located on an opposite side to the second end of the heater, the installing includes: inserting the first lid and the heater into the water circulation circuit; and closing the hole with the second lid, and the removing of the heater includes: separating the second lid from the hole; pulling out the heater through the hole; and closing the hole with the first lid. 9. The method according to claim 4 , wherein the water circulation device includes a first lid and a second lid capable of opening and closing the hole, the heater has a linear shape, an insertion opening through which the heater is passed is formed in the second lid, an end of the heater is attachable to the first lid, the installing includes: inserting the end into the insertion opening while the hole is closed with the second lid, attaching the first lid to the end; and inserting the heater through the insertion opening into the water circulation circuit, and the removing of the heater includes: pulling out the heater through the insertion opening until the end reaches the hole; closing the hole with the first lid; removing the end from the first lid; and separating the second lid from the hole. 10. The method according to claim 7 , further comprising removing air bubbles in the water circulation circuit through an air vent before and/or after the depositing, wherein the air vent is formed in the second lid. 11. The method according to claim 10 , wherein a feed-water inlet is formed in the second lid, and in the removing of the heater, water is supplied through the feed-water inlet into the water circulation circuit. 12. The method according to any one of claims 1 to 3 claim 1 , wherein the heater is installed in a container, the water circulation circuit includes a pipe in which a first branch hole and a second branch hole are formed, a flow channel switching valve is provided between the first branch hole and the second branch hole in the pipe, the installing includes: generating a bypass path returning to the water circulation circuit through the first branch hole, the container, and the second branch hole in order by connecting the container to the pipe such that the first branch hole and the second branch hole communicate with each other through an inside of the container; and closing the flow channel switching valve, and the removing of the heater includes: removing the container from the pipe; closing the first branch hole and the second branch hole; and opening the flow channel switching valve. 13. The method according to claim 1 , wherein the water circulation circuit includes a first pipe and a second pipe connectable to the first pipe, the heater is installed in a container, the installing includes connecting the container between the first pipe and the second pipe such that the water flows sequentially in the first pipe, the container, and the second pipe, and the removing of the heater includes: removing the container from the first pipe and the second pipe; and connecting the first pipe and the second pipe. 14. The method according to claim 12 , further comprising removing air bubbles in the water circulation circuit through an air vent before and/or after the depositing, wherein the air vent is formed in the container. 15. The method according to claim 1 , further comprising measuring an amount of calcium contained in the water in the water circulation circuit. 16. A scale removal device that removes scale of water circulating in a water circulation circuit, the water circulation circuit having a vertically upward hole that is openable and closable with a first lid and a second lid, the scale removal device comprising: the second lid; and a heater, wherein the scale removal device switches between a first state and a second state, in the first state, the hole is closed with the second lid while the first lid and the heater are disposed in the water circulation circuit, and in the second state, the hole is closed with the first lid while the heater and the second lid are disposed outside the water circulation circuit.