Reciprocating compressor and method for driving same

The invention claimed is: 1. A reciprocating compressor comprising: a casing having an inner space communicating with a suction pipe; a frame provided in the inner space of the casing; a reciprocating motor coupled to the frame, and having a mover, the mover performing a linear reciprocating motion; a cylinder coupled to the frame and having a compression space; a piston inserted into the cylinder to perform a reciprocating motion, the piston having a suction passage formed there through in a lengthwise direction to guide a refrigerant into the compression space; a suction valve coupled to an end surface of the piston and configured to open and close the suction passage; a discharge valve provided at an end surface of the cylinder and configured to open and close the compression space; a discharge cover installed at an end side of the cylinder and having a discharge space accommodating the discharge valve therein, the discharge space communicating with a discharge pipe; a gas bearing having a plurality of gas holes penetratingly formed in the cylinder, the plurality of gas holes configured to inject therethrough a part of the refrigerant, discharged from the compression space into the discharge space, into a portion between the cylinder and the piston so as to support the piston with respect to the cylinder; and a block-preventing unit configured to prevent the gas holes of the gas bearing from being blocked due to foreign materials, wherein the block-preventing unit is configured as a vibration unit to vibrate the cylinder, the vibration unit including a controller to excite a number of vibrations of the reciprocating motor to a frequency higher than an operating frequency and a timer configured to vibrate the cylinder at predetermined periods, and wherein the block-preventing unit determines whether or not a foreign material-removing operation is required, and the controller increases a number of vibrations of the piston when the foreign material-removing operation is required to shake out foreign materials from the gas holes of the cylinder, and after the foreign material-removing operation is complete, decreases the number of vibrations of the piston to return to a normal operation. 2. The compressor of claim 1 , wherein the vibration unit includes at least one spring configured to transfer vibration of the piston to the cylinder. 3. The compressor of claim 2 , wherein the at least one spring is configured as a compression coil spring, and wherein the spring has one end supported by the frame and the other end supported by the mover so as to have elasticity in a motion direction of the mover. 4. The compressor of claim 2 , wherein the cylinder is coupled to the frame, and the frame is coupled to a stator of the reciprocating motor in which the mover performs a reciprocating motion, wherein the mover is coupled to the piston, and wherein both ends of the at least one spring are coupled between the mover and the stator. 5. The compressor of claim 4 , wherein the frame is fixed to the casing, and wherein supporting members are coupled to an outer circumferential surface of the casing to elastically support an installation surface. 6. The compressor of claim 1 , wherein the vibration unit includes at least one spring configured to transfer vibration of the piston to the cylinder, wherein the cylinder is coupled to the frame, and the frame is coupled to a stator of the reciprocating motor in which the mover performs a reciprocating motion, wherein the mover is coupled to the piston, and wherein both ends of the spring are coupled between the mover and the stator. 7. The compressor of claim 6 , wherein supporting members are coupled to an outer circumferential surface of the casing to elastically support an installation surface. 8. A method for driving a reciprocating compressor having a reciprocating motor, a cylinder, a piston, a gas bearing, and a block-preventing unit provided with a vibration unit having a timer configured to vibrate the cylinder at predetermined periods, and a controller to excite a number of vibrations of the reciprocating motor to a frequency higher than an operating frequency, the method comprising: determining whether or not a foreign material-removing operation is required; shaking out foreign materials from gas holes formed in the cylinder by increasing a number of vibrations of the piston when the foreign material-removing operation is required; and, after the foreign material-removing operation is complete, executing a normal operation by decreasing the number of vibrations of the piston. 9. The method of claim 8 , further comprising removing the foreign materials from the gas holes by pausing the piston for a predetermined period of time after an operation of shaking the foreign materials out. 10. The method of claim 9 , wherein the determining as to whether or not the foreign material-removing operation is required is performed by detecting an operation time of the compressor.