Hydraulic control valve and hydraulic control device

1 . A hydraulic control valve, comprising: a piston held in a cylinder while being allowed to reciprocate in an axial direction; a positive pressure chamber formed on one side of the piston in the cylinder while being connected to a first inlet port and a first outlet port; a back pressure chamber formed on the other side of the piston; a valve element formed on the piston to open and close the first outlet port; an orifice arranged between the positive pressure chamber and the back pressure chamber; a pilot valve that selectively provides a connection between the back pressure chamber and a site at which pressure therein is lower than that in the back pressure chamber; wherein the first inlet port is connected to a high pressure site; and wherein the first outlet port is connected to a low pressure site at which a pressure therein is lower than that in the high pressure site; the hydraulic control valve further comprising: an orifice adjustment device that adjusts an opening degree of the orifice based on a condition of pressure drop in the back pressure chamber. 2 . The hydraulic control valve as claimed in claim 1 , wherein the orifice adjustment device is adapted to reduce restriction of oil by the orifice with an increase in a pressure difference between the back pressure chamber and the positive pressure chamber. 3 . The hydraulic control valve as claimed in claim 1 , wherein the orifice adjustment device comprises: a first port connected to the positive pressure chamber; a second port connected to the back pressure chamber; and an adjuster valve element to which pressures from the positive pressure chamber and the back pressure chamber are applied to counteract each other, and which is moved upon exceedance of a difference between the pressures applied thereto to increase an opening area of the first port or the second port in accordance with the pressure difference, and wherein the orifice is formed by any of the first port and the second port in which the opening area thereof is changed by the adjuster valve element. 4 . The hydraulic control valve as claimed in claim 1 , wherein the pilot valve comprises: a plunger that is axially reciprocated by an electromagnetic force; a pilot cylinder holding the plunger therein; a second inlet port that is opened to an inner circumferential face of the pilot cylinder while being connected to the back pressure chamber; a second outlet port that is opened to one of axial ends of the pilot cylinder while being connected to the low pressure site, and that is opened and closed by the plunger; and a third port that is opened to the inner circumferential face of the pilot cylinder while being connected to the positive pressure chamber, wherein the orifice is formed by partially overlapping the plunger with any one of the second inlet port and the third port to reduce an opening degree thereof, and wherein the orifice adjustment device is adapted to reduce the opening degree of the orifice by axially moving the plunger overlapped partially with any one of the second inlet port and the third port. 5 . The hydraulic control valve as claimed in claim 4 , wherein an opening width of any one of said ports differs in an reciprocating direction of the plunger. 6 . The hydraulic control valve as claimed in claim 1 , wherein the pilot valve comprises: a plunger that is axially reciprocated by an electromagnetic force; a pilot cylinder holding the plunger therein; a third inlet port that is opened to an inner circumferential face of the pilot cylinder while being connected to the back pressure chamber; a third outlet port that is opened to one of axial ends of the pilot cylinder while being connected to the low pressure site, and that is opened and closed by the plunger; and a fourth port that is opened to the inner circumferential face of the pilot cylinder while being connected to the positive pressure chamber, wherein the orifice includes a clearance between a portion of the inner circumferential face of the pilot cylinder and a portion of the outer circumferential face of the plunger that is situated between the third inlet port and the fourth port; and wherein the orifice adjustment device is adapted to change a length of the clearance by axially moving the plunger. 7 . The hydraulic control valve as claimed in claim 1 , further comprising: another orifice adapted to restrict a flow rate of oil flowing into the positive pressure chamber from the high pressure site through the first inlet port. 8 . The hydraulic control valve as claimed in claim 7 , wherein the piston and the valve element are allowed to be moved between a position to fully close the first outlet port and a position to fully open the first outlet port, wherein said another orifice is adapted to restrict a flow rate of the oil flowing into the positive pressure chamber from the first inlet port within a predetermined range before the piston and the valve element reach the position to fully open the first outlet port, and wherein said another orifice does not restrict a flow rate of the oil flowing into the positive pressure chamber from the first inlet port when the piston and the valve are moved further than the predetermined range. 9 . The hydraulic control valve as claimed in claim 7 , wherein said another orifice is adapted to reduce restriction of the oil by increasing an opening degree thereof in accordance with a traveling distance of the piston and the valve element in a direction to open the first outlet port. 10 . The hydraulic control valve as claimed in claim 9 , wherein said another orifice is adapted to be fully opened so as not to restrict a flow rate of the oil by moving the piston and the valve element predetermined distance in the direction to open the first outlet port. 11 . The hydraulic control valve as claimed in claim 7 , wherein said another orifice includes a clearance formed between the outer circumferential face of the piston and the inner circumferential face of the cylinder that allows the oil to flow therethrough toward the positive pressure chamber. 12 . The hydraulic control valve as claimed in claim 7 , wherein the piston comprises a base portion that is brought into contact to the inner circumferential face of the cylinder in a liquid-tight manner, and a protruding portion that is diametrically smaller than the base portion and that protrudes from the base portion toward the positive pressure chamber; wherein the positive pressure chamber comprises a diametrically smaller portion that is overlapped with a leading end portion of the protruding portion within a predetermined range; and wherein said another orifice is formed between an outer circumferential face of the protruding portion and an inner circumferential face of the diametrically smaller portion. 13 . The hydraulic control valve as claimed in claim 12 , wherein an overlap zone between the protruding portion and the diametrically smaller portion is shorter than the travel distance of the piston and the valve element from the position to fully close the first outlet port and the position to fully open the first outlet port. 14 . The hydraulic control valve as claimed in claim 7 , wherein said another orifice is formed by an opening end of the first inlet port opening to the positive pressure chamber, and the outer circumferential face of the piston that is partially overlapped with the opening end to reduce an opening area of the opening end; and wherein an opening width of the opening end in a circumferential direction of the cylinder differs in an axial direction of the cylinder.