Cleaner capable of self-diagnosis and self-diagnosis method of cleaner

1 . A vacuum cleaner comprising: a brush device; a cleaner body, connectable to the brush device, wherein the cleaner body comprises: a user interface configured to output diagnosis result information regarding a state of the vacuum cleaner; a memory to store one or more instructions, and store data to diagnose the state of the vacuum cleaner; a pressure sensor mountable to a portion of a suction duct comprised in the cleaner body; and at least one processor configured to execute the one or more instructions to: determine whether the state of the vacuum cleaner is a no-load state, detect, based on the state of the vacuum cleaner being determined as the no-load state, a pressure value in a flow path of the vacuum cleaner along the suction duct of the cleaner body while the cleaner body is connected to the brush device, using the pressure sensor which is mounted to the portion of the suction duct, detect data related to a load of the brush device, compare the detected pressure value in the flow path of the vacuum cleaner and the detected data related to the load of the brush device with reference values stored in the memory, diagnose the state of the vacuum cleaner, based on a result of the comparing, and output the diagnosis result information according to the diagnosing via the user interface. 2 . The vacuum cleaner of claim 1 , wherein, based on a state in which the brush device is unaffected by a cleaning-target surface being detected according to the detected data related to the load of the brush device, the at least one processor is configured to determine the state of the vacuum cleaner as the no-load state. 3 . The vacuum cleaner of claim 1 , wherein the at least one processor is configured to: obtain a first pressure value from the pressure sensor before the vacuum cleaner operates, obtain a second pressure value from the pressure sensor after the vacuum cleaner operates with preset power consumption, and detect a difference between the first pressure value and the second pressure value as the pressure value in the flow path of the vacuum cleaner. 4 . The vacuum cleaner of claim 1 , wherein the data related to the load of the brush device comprises a current value of a motor comprised in the brush device. 5 . The vacuum cleaner of claim 4 , wherein the current value of the motor comprised in the brush device is detected by using a load detection sensor comprised in the cleaner body. 6 . The vacuum cleaner of claim 1 , wherein the pressure sensor is located at at least one of an end of a straight portion of the suction duct or a knee point between the straight portion and a curved portion of the suction duct. 7 . The vacuum cleaner of claim 1 , wherein a diagnosis item for the state of the vacuum cleaner, based on the pressure value in the flow path of the vacuum cleaner is different from a diagnosis item for the state of the vacuum cleaner, based on the data related to the load of the brush device. 8 . The vacuum cleaner of claim 1 , wherein the reference values stored in the memory are values set according to a type of the brush device and whether the vacuum cleaner operates. 9 . A self-diagnosis method of a vacuum cleaner including a cleaner body and a brush device connectable to the cleaner body, the self-diagnosis method comprising: determining, by at least one processor of the cleaner body, whether a state of the vacuum cleaner is a no-load state; detecting, based on the state of the vacuum cleaner being determined as the no-load state, a pressure value in a flow path of the vacuum cleaner along a suction duct of the cleaner body, using a pressure sensor mounted to a portion of the suction duct of the cleaner body; detecting, by the at least one processor, data related to a load of the brush device; comparing, by the at least one processor, the detected pressure value in the flow path of the vacuum cleaner and the data related to the load of the brush device with reference values stored in a memory comprised in the cleaner body; diagnosing, by the at least one processor, the state of the vacuum cleaner, based on a result of the comparing; and outputting, by the at least one processor, diagnosis result information about the diagnosing via a user interface comprised in the cleaner body. 10 . The self-diagnosis method of claim 9 , wherein the determining of whether the state of the vacuum cleaner is the no-load state comprises determining the state of the vacuum cleaner as the no-load state, based on detecting a state in which the brush device is unaffected by a cleaning-target surface. 11 . The self-diagnosis method of claim 9 , wherein the detecting of the pressure value in the flow path of the vacuum cleaner comprises: obtaining a first pressure value from the pressure sensor before the vacuum cleaner operates; obtaining a second pressure value from the pressure sensor after the vacuum cleaner operates with preset power consumption; and detecting a difference between the first pressure value and the second pressure value as the pressure value in the flow path of the vacuum cleaner. 12 . The self-diagnosis method of claim 9 , wherein the detecting of the data related to the load of the brush device comprises detecting a current value of a motor comprised in the brush device by using a load detection sensor comprised in the cleaner body. 13 . The self-diagnosis method of claim 9 , wherein the pressure sensor is located at at least one of an end of a straight portion of the suction duct or a knee point between the straight portion and a curved portion of the suction duct. 14 . The self-diagnosis method of claim 9 , wherein a diagnosis item for the state of the vacuum cleaner, based on the pressure value in the flow path of the vacuum cleaner is different from a diagnosis item for the state of the vacuum cleaner, based on the data related to the load of the brush device. 15 . The self-diagnosis method of claim 9 , wherein the reference values stored in the memory are values set according to a type of the brush device and whether the vacuum cleaner operates.