Indoor unit of air-conditioning apparatus

The invention claimed is: 1. An indoor unit of an air-conditioning apparatus comprising: a main unit having an air inlet and an air outlet and being installed inside a room; a fan configured to suck indoor air from the air inlet and form an air path extending to the air outlet; a heat exchanger installed in the air path and configured to partially perform a role of a refrigeration cycle; an air flow direction adjusting device installed at the air outlet and configured to adjust a blowing direction of air conditioned by the heat exchanger; an indoor imaging device configured to capture an image of inside of the room; a thermal image detection device configured to acquire a thermal image of the inside of the room; a controller configured to transmit operation control information for controlling the heat exchanger, the fan, and the air flow direction adjusting device to the heat exchanger, the fan, and the air flow direction adjusting device; an arithmetic operation device configured to calculate, by an arithmetic operation, a flow of air blown from the air outlet on a basis of the operation control information, and generate an air-conditioning status image, which is an image obtained by superimposing the air flow calculated by the arithmetic operation and the thermal image representing temperature distribution acquired by the thermal image detection device on a visible image captured by the indoor imaging device; a storage device configured to store the air-conditioning status image; and a remote control configured to receive the air-conditioning status image stored in the storage device, the remote control including a display unit on which the received air-conditioning status image is displayed, and an air-conditioning status image request button that causes transmission of the plurality of air-conditioning status images stored in the storage device, wherein the arithmetic device generates a plurality of air-conditioning status images with predetermined time intervals, the plurality of air-conditioning status images are displayed as moving images on the display unit of the remote control, and when the air-conditioning status image request button is pressed, the air conditioning status images, which are stored, during a period from a beginning of a latest operation until the air-conditioning status image request button is pressed, are transmitted to the remote control and are displayed on the display unit. 2. The indoor unit of the air-conditioning apparatus of claim 1 , wherein the thermal image is represented by constant-temperature lines and colors or gradation of colors applied between the constant-temperature lines. 3. The indoor unit of the air-conditioning apparatus of claim 1 , wherein the air flow is represented by one or at least two arrows representing flow lines or solid lines, broken lines, or dotted lines representing flow lines. 4. The indoor unit of the air-conditioning apparatus of claim 1 , wherein a maximum storage capacity, which is an upper limit of data stored in the storage device, is set in advance, and in a case where an amount of data stored in the storage device has reached the maximum storage capacity, the storage device deletes oldest data and adds and stores latest data. 5. The indoor unit of the air-conditioning apparatus of claim 2 , wherein the air flow is represented by one or at least two arrows representing flow lines or solid lines, broken lines, or dotted lines representing flow lines. 6. The indoor unit of the air-conditioning apparatus of claim 2 , wherein a maximum storage capacity, which is an upper limit of data stored in the storage device, is set in advance, and in a case where an amount of data stored in the storage device has reached the maximum storage capacity, the storage device deletes oldest data and adds and stores latest data. 7. The indoor unit of the air-conditioning apparatus of claim 1 , wherein the arithmetic operation device is further configured to calculate an air flow target point at which the flow of air blown from the air outlet is positioned, and generate the air-conditioning status image, from data within the thermal image, to include at least two substantially circular thermal ranges located at the air flow target point, the at least two substantially circular thermal ranges overlap on the air-conditioning status image and indicate a first temperature range and a second temperature range that is lower than the first temperature range. 8. An indoor unit of an air-conditioning apparatus comprising: a main unit having an air inlet and an air outlet and being installed inside a room; a fan configured to suck indoor air from the air inlet and form an air path extending to the air outlet; a heat exchanger installed in the air path and configured to partially perform a role of a refrigeration cycle; an air flow direction adjusting device installed at the air outlet and configured to adjust a blowing direction of air conditioned by the heat exchanger; an indoor imaging device configured to capture an image of inside of the room; a thermal image detection device configured to acquire a thermal image of the inside of the room; a controller configured to transmit operation control information for controlling the heat exchanger, the fan, and the air flow direction adjusting device to the heat exchanger, the fan, and the air flow direction adjusting device; an arithmetic operation device configured to calculate, by an arithmetic operation, a flow of air blown from the air outlet on a basis of the operation control information, and generate an air-conditioning status image, which is an image obtained by superimposing the air flow calculated by the arithmetic operation and the thermal image representing temperature distribution acquired by the thermal image detection device on a visible image captured by the indoor imaging device; a storage device configured to store the air-conditioning status image; and a remote control configured to receive the air-conditioning status image stored in the storage device, the remote control including a display unit on which the received air-conditioning status image is displayed, and an air-conditioning status image request button that causes transmission of the plurality of air-conditioning status images stored in the storage device, and a display time setting button that sets an air-conditioning status image actual time, which is a length of an actual taking time for the air-conditioning status images displayed on the display unit, wherein the arithmetic device generates a plurality of air-conditioning status images with predetermined time intervals, the plurality of air-conditioning status images are displayed as moving images on the display unit of the remote control, and when the air-conditioning status image request button is pressed, the air-conditioning status images stored during a period from a time that goes back by the air-conditioning status image actual time that is set in advance by the display time setting button, until the air-conditioning status image request button is pressed are transmitted to the remote control and are displayed on the display unit. 9. The indoor unit of the air-conditioning apparatus of claim 8 , wherein the arithmetic operation device is further configured to calculate an air flow target point at which the flow of air blown from the air outlet is positioned, and generate the air-conditioning status image, from data within the thermal image, to include at least two substantially circular thermal ranges located at the air flow target point, the at least two substantially circular thermal ranges overlap on the air-conditioning status image and indicate a first temperature range a