Method of constructing elevator and construction-time elevator arrangement

The invention claimed is: 1. A method of constructing an elevator comprising: providing an elevator car in a hoistway, said elevator car comprising a cabin frame, and a temporary pulley beam assembly detachably mounted on the cabin frame; mounting, as a first mounting, a hoisting machine in a first position at a first vertical level in the hoistway; suspending, as a first suspending, the elevator car with a hoisting roping from the hoisting machine via the temporary pulley beam assembly; moving, as a first moving, the elevator car in the hoistway with the hoisting machine in the first position and suspended by the roping via the temporary pulley beam assembly; mounting, as a second mounting, the hoisting machine in a second position at a second higher vertical level than the first position inside a machine room located above the hoistway; removing the temporary pulley beam assembly from the elevator car, comprising detaching the temporary pulley beam assembly from the cabin frame; suspending, as a second suspending, the elevator car with the hoisting roping from the hoisting machine mounted in the second position via the cabin frame without the temporary pulley beam assembly; moving, as a second moving, the elevator car in the hoistway with the hoisting machine in the second position and the elevator car being suspended via the cabin frame without the temporary pulley beam assembly. 2. A method according to claim 1 , wherein the hoisting machine comprises a drive wheel for driving a roping suspending the elevator car, and a rotation axis of the hoisting machine mounted in the first position and a rotation axis of the hoisting machine mounted in the second position are non-parallel. 3. A method according to claim 1 , wherein a centre of gravity of the hoisting machine mounted in first position and a centre of gravity of the hoisting machine mounted in the second position are horizontally displaced. 4. A method according to claim 1 , wherein the temporary pulley beam assembly comprises a beam structure, a first pulley, and a second pulley, the first suspending comprises arranging the hoisting roping to pass around the first and second pulleys, the beam structure is elongated having a first end and a second end, the first pully is at first end, and the second pully is at the second end. 5. A method according to claim 4 , wherein the horizontal distance between said first and second pulley is adjustable, and the method further comprises, before the first suspending, adjusting the horizontal distance between said first and second pulley, the adjusting being performed at a time the temporary pulley beam assembly is inside the hoistway. 6. A method according to claim 1 , wherein the second suspending comprises arranging the hoisting roping to pass around one or more pulleys, the one or more pulleys mounted on the cabin frame. 7. A method according to claim 1 , wherein at the time of the first moving the car comprises one or more pulleys, the one or more pulleys mounted on the cabin frame, the hoisting rope not passing around the one or more pulleys. 8. A method according to claim 1 , wherein the method comprises, between the first moving and second mounting, at least one sequence, as a jump sequence, comprising hoisting the hoisting machine higher in the hoistway to an intermediate position vertically between said first and second position; mounting the hoisting machine in the intermediate position; and moving, as an intermediate moving, after the at least one sequence, the elevator car in the hoistway with the hoisting machine in the intermediate position and suspended by the roping via the temporary pulley beam; or the hoisting machine, at at least the first mounting and the intermediate mounting, is mounted on a vertically oriented guide rail for guiding the elevator car and/or a vertically oriented guide rail for guiding counterweight, or via a movable platform.