Oil circulation device and oil circulation system for agitating oil in oil bath

The invention claimed is: 1. An oil circulation device for agitating oil, comprising: an oil bath having a first oil supply/discharge port and a second oil supply/discharge port; a circulation pump for circulating the oil; a pair of pipes for connecting the oil bath and the circulation pump; an oil supply/discharge direction switching valve which is attached to the pipes so as to switch the oil supply/discharge direction for the first oil supply/discharge port and the second oil supply/discharge port; a filter mechanism which is located upstream of the circulation pump so as to filter impurities in the oil; and a control unit for controlling at least the circulation pump and the oil supply/discharge direction switching valve, wherein the control unit has: an agitation mode in which a command is executed for the oil supply/discharge direction switching valve so that the oil supply/discharge direction is switched so as to supply oil to the first oil supply/discharge port located at a low position in the oil bath and discharge oil from the second oil supply/discharge port located at a high position in the oil bath, whereby oil in the oil bath is agitated via the circulation pump from the low position to the high position in the oil bath; and a filter mode in which, after the agitation mode is executed so as to suspend impurities in the oil bath, a command is executed for the oil supply/discharge direction switching valve so that the oil supply/discharge direction is switched so as to discharge oil from the first oil supply/discharge port located at the low position in the oil bath and supply oil to the second oil supply/discharge port located at the high position in the oil bath, whereby impurities in the oil sent to the filter mechanism by the circulation pump are filtered. 2. The oil circulation device according to claim 1 , further comprising: an oil collection tank located downstream of the circulation pump; and a new oil tank located upstream of the circulation pump, wherein the control unit further has: an oil exchange mode in which, after the agitation mode is executed so as to suspend impurities in the oil bath, a command is executed for the oil supply/discharge direction switching valve so that the oil supply/discharge direction is switched so as to discharge oil from the first oil supply/discharge port located at the low position in the oil bath, whereby the oil is collected from the oil bath to the oil collection tank via the circulation pump, and a command is executed for the oil supply/discharge direction switching valve so that the oil supply/discharge direction is switched so as to supply oil to the first oil supply/discharge port located at the low position in the oil bath, whereby new oil is supplied from the new oil tank to the oil bath via the circulation pump. 3. The oil circulation device according to claim 2 , further comprising: an oil collection path switching valve which is located upstream of the oil collection tank so as to switch the path between a path in the agitation mode and a collection path in the oil exchange mode; and an oil supply path switching valve which is located downstream of the new oil tank so as to switch the path between a path in the agitation mode and an oil supply path in the oil exchange mode. 4. An oil circulation system, comprising: the oil circulation device according to claim 2 ; and a robot having a plurality of joint axes, wherein the oil bath is an oil bath for a reduction gear located for each of the plurality of joint axes, wherein the oil supply/discharge direction switching valve is further configured to switch the oil flow passage among the oil baths for the reduction gears, and wherein the control unit is a robot control device, and the robot control device controls the joint axes at predetermined angles, whereby the first oil supply/discharge port and the second oil supply/discharge port of each of the oil baths for the reduction gears are respectively positioned at the low position and the high position in said each of the oil baths, and, after a command is executed for the oil supply/discharge direction switching valve so as to switch the oil flow passage among the oil baths for the reduction gears, the agitation mode and the oil exchange mode are executed. 5. The oil circulation device according to claim 1 , wherein components of the oil circulation device are provided as a composable kit, and are individually removable. 6. The oil circulation device according to claim 1 , further comprising: a separate oil bath having a first oil supply/discharge port and a second oil supply/discharge port; and a pair of separate pipes connected to the separate oil bath, wherein the oil supply/discharge direction switching valve is further attached to the separate pipes so as to switch the oil flow passage from the oil bath to the separate oil bath and switch the oil supply/discharge direction for each of the first oil supply/discharge port and the second oil supply/discharge port. 7. The oil circulation device according to claim 1 , further comprising a filter path switching valve which is located upstream of the filter mechanism so as to switch the path between an agitation path in the agitation mode and a filter path in the filter mode. 8. The oil circulation device according to claim 1 , wherein the impurities include metal powder and sludge, and the filter mechanism comprises a metal powder collection unit for collecting the metal powder in the oil, and a filter for filtering the sludge in the oil. 9. An oil circulation system, comprising: the oil circulation device according to claim 1 ; and a robot having a plurality of joint axes, wherein the oil bath is an oil bath for a reduction gear located for each of the plurality of joint axes, wherein the oil supply/discharge direction switching valve is further configured to switch the oil flow passage among the oil baths for the reduction gears, and wherein the control unit is a robot control device, and the robot control device controls the joint axes at predetermined angles, whereby the first oil supply/discharge port and the second oil supply/discharge port of each of the oil baths for the reduction gears are respectively positioned at the low position and the high position in said each of the oil baths, and, after a command is executed for the oil supply/discharge direction switching valve so as to switch the oil flow passage among the oil baths for the reduction gears, the agitation mode and the filter mode are executed. 10. An oil circulation device for agitating oil, comprising: an oil bath having a first oil supply/discharge port and a second oil supply/discharge port; a circulation pump for circulating the oil; a pair of pipes for connecting the oil bath and the circulation pump; an oil supply/discharge direction switching valve which is attached to the pipes so as to switch the oil supply/discharge direction for each of the first oil supply/discharge port and the second oil supply/discharge port; an oil collection tank which is located downstream of the circulation pump so as to collect oil; a new oil tank which is located upstream of the circulation pump so as to receive new oil; and a control unit for controlling at least the circulation pump and the oil supply/discharge direction switching valve, wherein the control unit has: an agitation mode in which a command is executed for the oil supply/discharge direction switching valve so that the oil supply/discharge direction is switched so as to supply oil to the first oil supply/discharge port located at a low position in the oil bath and discharge oil from the second oil supply/discharge port located at a high positio