Scrap compactor and apparatus for manufacturing same

The invention claimed is: 1. An apparatus for manufacturing a compressed scrap, comprising: a housing defining a space for compressing a scrap supplied therein; a support door coupled to an end of a cylinder rod of a hydraulic cylinder that can be inserted into the space through an outlet of the housing and can be fixedly held at a certain position and can be removed from the space through the outlet such that the outlet is opened; a compressing plate that can be inserted into the space through an inlet of the housing and can press against the support door such that the scrap is compressed by the support door and the compressing plate; a core that can be inserted into the space before the scrap is compressed to form a through-hole in the scrap; and wherein the core is disposed under the housing such that the core vertically reciprocates through an opening formed through a lower surface of the housing, wherein a pair of cross-cores is disposed outside of opposite housing walls such that the cross-cores can approach each other to come into contact with opposite side surfaces of the core having been inserted into the space. 2. A method of manufacturing a compressed scrap, the method comprising: moving a hydraulic support door into a housing to close one side of the housing; moving a hydraulic core into a scrap-compressing space in the housing; introducing a predetermined amount of scrap into the housing based on a size of the scrap-compressing space; moving a hydraulic compressing plate into the housing to close the other side of the housing; moving the compressing plate to compress the scrap in the scrap-compressing space once the core has been inserted into and is being held in the scrap-compressing space, to form the compressed scrap having a through-hole extending through a center thereof; moving the core backward and out from the scrap-compressing space after the compressing of the scrap has been completed; and discharging the compressed scrap from the housing. 3. The method as set forth in claim 2 , further comprising a stage of inserting a pair of hydraulic cross cores into the scrap-compressing space in a direction toward the core inserted into the space and maintaining that state before the compressing plate is moved forward to compress the scrap, to form a cross type core structure with the core in the housing. 4. A method of manufacturing a compressed scrap, the method comprising: moving a hydraulic compressing plate into a housing to close one side of the housing; moving a hydraulic support door into the housing to close the other side of the housing; moving a hydraulic core into a scrap-compressing space in the housing; introducing a predetermined amount of scrap into the housing through an opening formed on an upper surface of the housing, based on a size of the scrap-compressing space, closing the opening formed on the housing; moving the compressing plate to compress the scrap in the scrap-compressing space once the core has been inserted into and is being held in the scrap-compressing space, to form the compressed scrap having a through-hole extending through a center thereof; moving the core backward and out from the scrap-compressing space after the compressing of the scrap has been completed; and discharging the compressed scrap from the housing. 5. The method as set forth in claim 4 , further comprising a stage of inserting a pair of hydraulic cross cores into the scrap-compressing space in a direction toward the core inserted into the space and maintaining that state before the compressing plate is moved forward to compress the scrap, to form a cross type core structure with the core in the housing. 6. An apparatus for manufacturing a compressed scrap, comprising: a housing defining a space for compressing a scrap supplied therein; a support door that can be inserted into the space through an outlet of the housing and can be fixedly held at a certain position and can be removed from the space through the outlet such that the outlet is opened; a compressing plate that can be inserted into the space through an inlet of the housing and can press against the support door such that the scrap is compressed by the support door and the compressing plate; a core that can be inserted into the space before the scrap is compressed to form a through-hole in the scrap; wherein the core is disposed under the housing such that the core vertically reciprocates through an opening formed through a lower surface of the housing; and wherein a pair of cross-cores is disposed outside of opposite housing walls such that the cross-cores can approach each other to come into contact with opposite side surfaces of the core having been inserted into the space.