Front loaded seat seal

What is claimed is: 1. A flow control device, comprising: a valve body; a first port disposed on the valve body; a second port disposed on the valve body; a gate disposed within the valve body and configured to control a flow of a fluid between the first port and the second port; a seat disposed between the gate and the valve body, the seat comprising a first surface configured to form a circumferential seal with the valve body and a second surface configured to form a face seal with the gate; an overhanging edge extending from a third surface of the seat, wherein the third surface of the seat is opposite the second surface of the seat, and wherein an outer diameter of the overhanging edge defines a maximum outer diameter of the seat that is greater than an outer diameter of all other outer surfaces of the seat; a collar disposed on a portion of the first surface and configured to form a lower stop of a guidance area, wherein the overhanging edge forms an upper stop of the guidance area; and a sealing assembly disposed in the guidance area and configured to form the circumferential seal, the sealing assembly comprising: a positioning band configured to receive a first force from the collar, directed away from the face seal, in response to a first movement of the gate; and an upper sealing member configured to receive a second force from the overhanging edge, directed toward the face seal in response to a second movement of the gate. 2. The flow control device according to claim 1 , wherein the flow control device further comprises: a return member disposed between the seat and the valve body and configured to generate the second force in response to the first movement of the gate. 3. The flow control device according to claim 2 , wherein the flow control device further comprises: a lower sealing member disposed between the positioning band and the upper sealing member and configured to form the circumferential seal. 4. The flow control device according to claim 3 , wherein the lower sealing member is formed from polytetrafluoroethylene, the upper sealing member is formed from polyether ether ketone, and the positioning band is formed from a stainless steel alloy. 5. The flow control device according to claim 1 , further comprising a second seat disposed between the gate and the valve body, the second seat positioned opposite the seat, the second seat comprising a fourth surface configured to form a circumferential seal with the valve body and a fifth surface configured to form a face seal with the gate. 6. The flow control device according to claim 1 , wherein the first surface of the seat includes a recess forming a lower shoulder and an upper shoulder in which at least a portion of the collar is inserted. 7. The flow control device according to claim 1 , further comprising a spring configured to apply pressure to the seat in a direction toward the gate. 8. The flow control device according to claim 1 , further comprising a seal disposed between the valve body and a surface of the seat opposite the gate. 9. The flow control device according to claim 8 , wherein the seal is disposed in a circumferential groove formed in the surface of the seat opposite the gate. 10. A method comprising: receiving, by a sealing assembly forming a circumferential seal between a seat and a valve body, a first force from a collar disposed on the seat in response to a first movement of a gate, the collar disposed at least partially within a recess formed in a first surface of the seat and configured to form a lower stop of a guidance area; preventing, with the circumferential seal, fluid from entering a gate cavity of the gate; moving, in response to receiving the first force, the sealing assembly in a first direction of the first force; receiving, by the sealing assembly, a second force from an overhanging edge of the seat, in response to a second movement of the gate; and moving, in response to receiving the second force, the sealing assembly in a second direction of the second force. 11. The method according to claim 10 , wherein the first direction is opposite the second direction. 12. The method according to claim 10 , wherein the second force is generated by a return member in response to the first force. 13. A method comprising: moving a gate disposed in a valve body between an open position and a closed position, the open position allowing fluid to flow from a first port to a second port of the valve body; maintaining a seal between a seat and the gate while moving the gate, the seat forming a circumferential seal with the valve body and a face seal with the gate, the maintaining the seal comprising transmitting a first force and a second force, the transmitting the second force including engaging a sealing assembly disposed around the seat with an overhanging edge of the seat, the overhanging edge defining a maximum diameter of the seat that is greater than an outer diameter of all other outer surfaces of the seat; and preventing, with the circumferential seal, fluid from entering a gate cavity of the gate. 14. The method according to claim 13 , wherein the maintaining the seal comprises applying a continuous pressure to the seat in a direction toward the gate. 15. The method according to claim 13 , wherein the transmitting the first force includes transmitting a force from a collar disposed around the seat to the sealing assembly disposed around the seat in response to a first movement of the gate. 16. The method according to claim 13 , wherein the maintaining the seal comprises transmitting the second force from a spring to the sealing assembly disposed around the seat.