Control valve

What is claimed is: 1. A control valve comprising: a body having an internal passage through which a working fluid flows; a valve hole provided in the internal passage; a driven member configured to open and close a valve section by touching and leaving the valve hole; a guide member configured to slidably support the driven member inserted thereto; and a shield part, provided in the driven member, configured to close one end opening of a spacing between the driven member and the guide member when the valve section is fully opened, wherein the shield part is provided in an end of the driven member on a side exposed from a sliding portion of the driven member relative to the guide member when the valve section is closed, wherein as the driven member is displaced in a valve opening direction, the shield part becomes seated on an end surface of one end side of the guide member, and further displacement of the driven member in the valve opening direction is restricted when the valve section is fully opened, wherein after the driven member starts opening until the shield part becomes seated on the end surface, a pressure difference between the one end opening and another end opening of the spacing allows the working fluid to leak from the one end opening toward the other end opening, and wherein when the valve section is fully opened, the shield part closes a space formed between the driven member and the guide member from outside by touching the end surface of one end side of the guide member. 2. A control valve according to claim 1 , wherein a recess is provided between the sliding portion of the driven member relative to the guide member and the shield part thereof, wherein the recess is formed such that when the valve section is fully opened, a space is created in a sliding surface of the guide member, wherein when the valve section is fully opened, the shield part closes the space from outside by touching the end surface of one end side of the guide member, and wherein the recess is formed such that when the valve section is closed, an end surface of the recess on a sliding portion side is positioned further toward the sliding portion side than the end surface of the guide member. 3. A control valve according to claim 1 , wherein a labyrinth structure is provided in a sliding surface, of the driven member, between the driven member and the guide member. 4. A control valve according to claim 1 , wherein the shield part has a guide surface the shape of which is such that foreign material contained in the working fluid is led to the valve hole, and wherein the guide surface of the shield part is positioned opposite to a contact face thereof with the guide member. 5. A control valve according to claim 1 , wherein the guide member has a wall part that restricts foreign material, which has flowed around the shield part, from being led into the one end opening of the spacing therebetween. 6. A control valve according to claim 2 , wherein the control valve is a pilot operated control valve, wherein the body has a lead-in passage for introducing the working fluid, a lead-out passage for leading out the working fluid, and the valve hole provided between the lead-in passage and the lead-out passage, wherein the driven member divides a space surrounded by the body and the guide member into the lead-in passage and a back pressure chamber, and touches and leaves the valve hole to open and close a main valve that is the valve section, the driven member has a pilot valve hole through which the back pressure chamber and the lead-out passage communicate with each other, and a leak passage through which the back pressure chamber and the lead-in passage communicate with each other, the leak passage having a smaller cross-section than the pilot valve hole, the control valve further comprising: a pilot valve element configured to open and close a pilot valve by touching and leaving the pilot valve hole; a solenoid configured to drive the pilot valve element in a direction of axis line; and a spring configured to bias the driven member in a valve opening direction of the main valve, wherein a pressure difference applied to the driven member as a result of closure of the pilot valve causes the driven member to be driven in a valve closing direction of the main valve, and a pressure difference applied to the driven member as a result of opening of the pilot valve causes the driven member to be driven in the valve opening direction of the main valve.