Hydraulic circuit for an actuator

What is claimed is: 1 . A hydraulic circuit comprising: a first oil passage communicating with a first port of an actuator; a second oil passage communicating with a second port of the actuator; at least one oil-discharging passage communicating with an oil tank; a first valve arranged between the first oil passage and the oil-discharging passage; and a second valve arranged in a vicinity of the first valve and between the second oil passage and the discharge passage, wherein the first and second valves have the following modes of operation: a mode wherein, when a pressure of the second oil passage drops to a predetermined value or lower, the second valve allows hydraulic oil to flow into the oil-discharging passage from the second oil passage, whereby the second oil passage and the oil-discharging passage are in fluid communication with one another, and a mode wherein, when a pressure of the first oil passage reaches a predetermined value or higher, the first valve allows hydraulic oil to flow into the oil-discharging passage from the from the first oil passage, whereby the first oil passage and the oil-discharging passage are in fluid communication with one another. 2 . The hydraulic circuit according to claim 1 , wherein a distance between the first valve and the second valve is less than a distance between the first oil passage and the second oil passage. 3 . The hydraulic circuit according to claim 1 , wherein: the first valve comprises: a first communicating portion communicating with the first oil passage and the oil-discharging passage; and a slidable first spool configured to open and close the first communicating portion; and the second valve comprises: a second communicating portion communicating with the second oil passage and the oil-discharging passage; and a slidable second spool configured to open and close the second communicating portion. 4 . The hydraulic circuit according to claim 3 , wherein the first and second spools are movable on a same axis. 5 . The hydraulic circuit according to claim 1 , wherein the first and second valves at least one of: are oriented along a same axis; and respectively comprise first and second pressure control valves. 6 . The hydraulic circuit according to claim 1 , wherein the first and second valves are oriented opposite one another. 7 . The hydraulic circuit according to claim 1 , wherein the first and second valves have the following additional modes of operation: a mode wherein, when a pressure of the second oil passage reaches a predetermined value or higher, the second valve allows hydraulic oil to flow in the oil-discharging passage from the second oil passage, whereby the second oil passage and the oil-discharging passage are in fluid communication with one another, and a mode wherein, when a pressure of the first oil passage drops to a predetermined value or lower, the first valve allows hydraulic oil to flow into the oil-discharging passage from the from the first oil passage, whereby the first oil passage and the oil-discharging passage are in fluid communication with one another. 8 . A hydraulic circuit arranged in a housing, said housing comprising: a first oil passage adapted to communicate with a first port of an actuator; a second oil passage adapted to communicate with a second port of the actuator; at least one oil-discharging passage adapted to communicate with an oil tank; a first valve arranged between the first oil passage and the oil-discharging passage; and a second valve arranged in a vicinity of the first valve and between the second oil passage and the discharge passage, wherein the first and second valves have the following modes of operation: a mode wherein, when a pressure of the second oil passage drops to a predetermined value or lower, the second valve allows hydraulic oil to flow into the oil-discharging passage from the second oil passage, whereby the second oil passage and the oil-discharging passage are in fluid communication with one another, and a mode wherein, when a pressure of the first oil passage reaches a predetermined value or higher, the first valve allows hydraulic oil to flow into the oil-discharging passage from the from the first oil passage, whereby the first oil passage and the oil-discharging passage are in fluid communication with one another. 9 . The housing of claim 8 , wherein the first valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens under less pressure than the inner valve portion. 10 . The housing of claim 8 , wherein the first valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens along one direction and the inner valve portion opens along an opposite direction. 11 . The housing of claim 8 , wherein the second valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens under less pressure than the inner valve portion. 12 . The housing of claim 8 , wherein the second valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens along one direction and the inner valve portion opens along an opposite direction. 13 . A work vehicle hydraulic circuit housing comprising: a first oil passage adapted to communicate with a first port of an actuator; a second oil passage adapted to communicate with a second port of the actuator; at least one oil-discharging passage adapted to communicate with an oil tank; a first valve arranged between the first oil passage and the oil-discharging passage; and a second valve arranged in a vicinity of the first valve and between the second oil passage and the discharge passage, wherein the first and second valves have the following modes of operation: a mode wherein, when a pressure of the first oil passage increases to a predetermined value or higher, the first valve allows hydraulic oil to flow into the oil-discharging passage from the first oil passage and causes opening of the second valve, whereby the first oil passage, the oil-discharging passage and the second oil passage are in fluid communication with one another, and a mode wherein, when a pressure of the second oil passage reaches a predetermined value or higher, the second valve allows hydraulic oil to flow into the oil-discharging passage from the from the first oil passage and causes opening of the first valve, whereby the second oil passage, the oil-discharging passage and the first oil passage are in fluid communication with one another. 14 . The housing of claim 13 , wherein the housing and an actuator is mounted to a work vehicle. 15 . The housing of claim 14 , wherein the first valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens under less pressure than the inner valve portion. 16 . The housing of claim 14 , wherein the first valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens along one direction and the inner valve portion opens along an opposite direction. 17 . The housing of claim 14 , wherein the second valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens under less pressure than the inner valve portion. 18 . The housing of claim 14 , wherein the second valve comprises an outer valve portion and an inner valve portion and the outer valve portion opens along one direction and the inner valve portion opens along an opposite direction.