Sintered body manufacturing apparatus and sintered body manufacturing method

The invention claimed is: 1. A sintered body manufacturing apparatus comprising: a compacting apparatus configured to press a raw powder containing a metal powder into a green compact; a machining apparatus configured to perform a cutting operation on the green compact to produce an unsintered machined compact; a green compact conveying path configured to connect the compacting apparatus in series to the machining apparatus to convey green compacts one by one from the compacting apparatus to the machining apparatus, a standby stage disposed between the green compact conveying path and the machining apparatus, the standby stage being configured to temporarily keep the green compact on standby thereon before the green compact on the green compact conveying path is moved to the machining apparatus and temporarily keep the unsintered machined compact on standby thereon before the unsintered machined compact on the machining apparatus is transferred to a sintering furnace; and a conveying-side transfer device configured to hold and transfer the green compact on the green compact conveying path to the standby stage, and hold and transfer the unsintered machined compact on the standby stage to the sintering furnace. 2. The sintered body manufacturing apparatus according to claim 1 , further comprising a green compact transfer device configured to hold and transfer the green compact produced by the compacting apparatus to the green compact conveying path. 3. The sintered body manufacturing apparatus according to claim 1 , wherein if “M/N=integer” is satisfied, where N represents production time in seconds required for one compacting apparatus to produce each green compact and M represents total machining time in seconds required to perform the cutting operation on each green compact, the machining apparatus includes M/N cutting devices, the sintered body manufacturing apparatus further comprising a machining-side transfer device configured to hold the green compact on the standby stage and attach the held green compact to each cutting device, and remove the unsintered machined compact from the cutting device and place the removed unsintered machined compact onto the standby stage, wherein the machining-side transfer device is configured to sequentially attach the green compacts to each cutting device every N seconds. 4. The sintered body manufacturing apparatus according to claim 3 , wherein one of the M/N cutting devices is a first-surface machining device configured to perform machining from a first surface of the green compact, and another of the MIN cutting devices is a second-surface machining device configured to perform machining from a second surface of the green compact. 5. The sintered body manufacturing apparatus according to claim 4 , wherein the machining-side transfer device includes two retainers each configured to hold and release either of the green compact and the unsintered machined compact, and an arm connected to the two retainers and configured to move the retainers between the standby stage, the first-surface machining device, and the second-surface machining device; and the retainers are each freely switchable between holding and releasing the green compact and between holding and releasing the unsintered machined compact. 6. The sintered body manufacturing apparatus according to claim 3 , further comprising a marking apparatus disposed between the machining apparatus and the sintering furnace and configured to provide a marking for identifying a machining history of the unsintered machined compact. 7. The sintered body manufacturing apparatus according to claim 1 , further comprising a tray configured to hold each green compact thereon and conveyed by the green compact conveying path. 8. The sintered body manufacturing apparatus according to claim 1 , wherein the metal powder is an iron powder or an iron alloy powder primarily composted of iron. 9. The sintered body manufacturing apparatus according to claim 2 , further comprising an unsintered machined compact conveying path extending adjacent and parallel to the compact conveying path, the compact conveying path and the unsintered machined compact conveying path forming a continuous conveying path. 10. The sintered body manufacturing apparatus according to claim 7 , further comprising an unsintered machined compact transfer device configured to transfer the unsintered machined compact to a marking apparatus disposed between the machining apparatus and the sintering furnace, and then transfer the unsintered machined compact from the marking apparatus to the sintering furnace by holding only unsintered machined compact placed on the tray on a unsintered machined compact conveying path.