Sensing device for electromechanical brake

What is claimed is: 1. A sensing device for an electromechanical brake, comprising: a power part configured to generate an operation force for braking; a pressurized part configured to be pressurized by a reaction force caused by driving of the power part; a housing coupled to the power part and comprising inner and outer sidewalls with a space region therebetween, wherein the pressurized part is movably disposed at the space region of the housing; and a sensing part connected to the housing and configured to sense a pressing force generated by the pressurized part, wherein the pressurized part comprises: a pressurized fluid disposed at the space region of the housing; a pressurized washer having a portion disposed at the space region of the housing and configured to cover and press the pressurized fluid at the space region of the housing; a pressurized airtight part positioned on the inner and outer sidewalls of the housing, in contact with the pressurized washer, and configured to block leakage of the pressurized fluid; and a pressurized recovery part disposed at the space region of the housing and configured to elastically support the pressurized washer, and wherein the pressurized washer comprises: a first washer disposed at the space region of the housing and configured to seal a gap between the inner and outer sidewalls of the housing to cover the pressurized fluid disposed at the space region of the housing; and a second washer disposed on the first washer, projecting out from the space region of the housing, and configured to be pressurized by the reaction force caused by driving of the power part, wherein the second washer is in contact with the inner sidewall of the housing and spaced apart from the outer sidewall of the housing. 2. The sensing device of claim 1 , wherein the power part comprises: a power body; a power motor positioned on the power body; a power screw connected to the power body and configured to be rotated by the power motor; a power bearing configured to support the power screw; and a power piston configured to move along an axis when the power screw is rotated. 3. The sensing device of claim 2 , wherein: the housing and the pressurized part are positioned between the power bearing and the power body, and the pressurized part is pressurized by the reaction force of the power bearing. 4. The sensing device of claim 2 , further comprising a power nut part configured to move along an axis and move the power piston when the power screw rotates, wherein the housing and the pressurized part are disposed between the power piston and the power nut part, and the pressurized part is pressurized by the reaction force of the power piston. 5. The sensing device of claim 1 , wherein the housing comprises: a housing body part having an open front side exposing the space region of the housing, wherein the power part extends through the housing body part, and the pressurized part is positioned in the space region; and a housing cover part positioned on the housing body part and configured to prevent the pressurized part from departing from the space region. 6. The sensing device of claim 1 , wherein the pressurized fluid is transferred to or discharged from the housing through a flow path formed on the housing, the flow path being openable and closable. 7. The sensing device of claim 1 , wherein the sensing part is positioned in the power part. 8. The sensing device of claim 1 , wherein the sensing part is positioned a rear portion of the housing, and connected to the housing. 9. The sensing device of claim 1 , wherein the sensing part is positioned at a side portion of the housing and connected to housing. 10. The sensing device of claim 1 , wherein the sensing part is positioned outside the power part and connected to the housing positioned in the power part through a sensing flow path part.