Robot system, instruction input device, non-transitory computer-readable recording medium, and control method for robot system

What is claimed is: 1. A robot system comprising: a drive mechanism that executes a drive pattern for assisting a user in moving; an instruction input device that receives an instruction to execute the drive pattern; a state acquirer that acquires an execution state of the drive mechanism which is executing the drive pattern; and a controller that decides whether or not to cause the drive mechanism to execute the instruction received by the instruction input device, on the basis of the execution state, and controls driving of the drive mechanism, wherein when an emergency stop instruction is received, until predetermined conditions are satisfied, the controller does not allow the drive mechanism to execute the instruction received by the instruction input device, the emergency stop instruction being an instruction to stop the drive mechanism operating and to maintain a state of the drive mechanism when the drive mechanism stops operating, and the predetermined conditions are that (i) the emergency stop instruction is canceled and (ii) the drive mechanism is shifted to a connecting position at which the drive mechanism is connected to the user. 2. The robot system according to claim 1 , wherein, when the emergency stop instruction is received, even after the emergency stop instruction is canceled, until the drive mechanism reaches the connecting position, the controller does not allow the drive mechanism to execute the instruction received by the instruction input device. 3. The robot system according to claim 1 , further comprising: an emergency stop instruction input device that receives the emergency stop instruction to stop the drive mechanism operating and to maintain a state of the drive mechanism when the drive mechanism stops operating, wherein, when the emergency stop instruction is received by the emergency stop instruction input device, until the predetermined conditions are satisfied, the controller does not allow the drive mechanism to execute the instruction received by the instruction input device. 4. The robot system according to claim 1 , the drive mechanism including a holding mechanism that holds the user, and a pulling mechanism that is connectable to the holding mechanism and pulls the holding mechanism so that the holding mechanism will move along the drive pattern, the instruction input device including a connecting position shift instruction input device that receives an instruction to shift the pulling mechanism to the connecting position, wherein the predetermined conditions are that (i) the emergency stop instruction is canceled, (ii) the connecting position shift instruction input device receives the instruction to shift the pulling mechanism to the connecting position, and (iii) the drive mechanism is shifted to the connecting position. 5. The robot system according to claim 1 , wherein: the drive mechanism executes a first drive pattern for assisting the user in performing a first movement and a second drive pattern for assisting the user in performing a second movement; the instruction input device receives a first instruction to cause the drive mechanism to execute the first drive pattern or a second instruction to cause the drive mechanism to execute the second drive pattern; and when the second instruction is received by the instruction input device when the execution state acquired by the state acquirer indicates that the drive mechanism is executing the first drive pattern, the controller does not allow the drive mechanism to execute the second drive pattern. 6. The robot system according to claim 1 , wherein: the instruction input device includes an indicator that indicates whether or not it is possible to receive the instruction to execute the drive pattern; and the controller causes the indicator to indicate whether or not it is possible to receive the instruction, on the basis of a result of deciding whether or not to cause the drive mechanism to execute the instruction received by the instruction input device. 7. The robot system according to claim 6 , wherein, when the instruction received by the instruction input device is wirelessly transmitted to the controller, the controller causes the indicator to indicate the execution state acquired by the state acquirer. 8. The robot system according to claim 6 , wherein, when the instruction received by the instruction input device is wirelessly transmitted to the controller, the controller causes the indicator to indicate a state of the user based on the execution state acquired by the state acquirer. 9. The robot system according to claim 5 , wherein: the instruction input device includes first and second instruction input devices; the first instruction input device receives a third instruction that causes the drive mechanism to execute the first instruction received by the first instruction input device with higher priority than the second instruction received by the second instruction input device; and when the third instruction is received by the first instruction input device, the controller performs control so that the drive mechanism will not execute the second instruction even when the second instruction is received by the second instruction input device. 10. The robot system according to claim 9 , wherein: the second instruction input device receives a fourth instruction to stop the drive pattern executed by the drive mechanism; and when the fourth instruction is received by the second instruction input device, the controller performs control so that the drive mechanism will not execute the third instruction even when the third instruction is received by the first instruction input device. 11. The robot system according to claim 9 , wherein: the first and second instruction input devices include first and second indicators, respectively; and while the drive mechanism is executing the drive pattern, the controller causes each of the first and second indicators to indicate which one of the first and second instruction input devices has provided an instruction to execute the drive pattern. 12. An instruction input device comprising: a state acquirer that acquires an execution state of a drive mechanism which is executing a drive pattern, the drive pattern being executed for assisting a user in moving; and a controller that decides whether or not to cause the drive mechanism to execute an instruction to execute the drive pattern, on the basis of the execution state, and controls driving of the drive mechanism, wherein when an emergency stop instruction is received, until predetermined conditions are satisfied, the controller does not allow the drive mechanism to execute an instruction received by the instruction input device, the emergency stop instruction being an instruction to stop the drive mechanism operating and to maintain a state of the drive mechanism when the drive mechanism stops operating, and the predetermined conditions are that (i) the emergency stop instruction is canceled and (ii) the drive mechanism is shifted to a connecting position at which the drive mechanism is connected to the user. 13. The instruction input device according to claim 12 , further comprising: an indicator that indicates whether or not it is possible to receive the instruction to execute the drive pattern, wherein, when the instruction received by the instruction input device is wirelessly transmitted to the controller, the indicator indicates a state of the user based on the execution state acquired by the state acquirer. 14. The instruction input device according to claim 12 , wherein, when the emergency stop inst