Device including rotator and belt, such as a fixing device for an image forming apparatus

What is claimed is: 1 . A device comprising: a rotator having a rotation axis; a belt; a nip forming member including an upstream pad and a downstream pad located downstream of the upstream pad in a moving direction of the belt, the upstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form an upstream nip, the upstream pad including a first facing surface that faces the rotator, the downstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form a downstream nip, the downstream pad including a second facing surface that faces the rotator; an urging member configured to urge one of the rotator and the nip forming member towards the other in a particular direction perpendicular to each of the rotation axis and the moving direction; an upstream guide including an upstream guide surface configured to guide an inner peripheral surface of the belt; and a downstream guide including a downstream guide surface configured to guide the inner peripheral surface of the belt, wherein an upstream edge of the second facing surface in the moving direction is located farther from the rotation axis, in the particular direction, than a downstream edge of the first facing surface in the moving direction in a state where the upstream nip and the downstream nip are not formed. 2 . The device according to claim 1 , wherein the upstream nip is formed by a part of the upstream pad that includes the downstream edge of the first facing surface and does not include an upstream edge of the first facing surface. 3 . The device according to claim 1 , wherein the downstream nip is formed by a part of the downstream pad that includes the upstream edge of the second facing surface and does not include a downstream edge of the second facing surface. 4 . The device according to claim 1 , wherein the device further comprises a holder configured to hold each of the upstream pad and the downstream pad. 5 . The device according to claim 4 , wherein the holder includes an upstream support surface configured to support the upstream pad and a downstream support surface configured to support the downstream pad, and wherein the upstream support surface and the downstream support surface are at the same positions in the particular direction. 6 . The device according to claim 1 , wherein the downstream pad has a higher hardness than the upstream pad. 7 . The device according to claim 1 , wherein each of the upstream pad and the downstream pad has a rectangular shape when viewed from a direction of the rotation axis in a state where the upstream nip and the downstream nip are not formed. 8 . The device according to claim 1 , wherein the downstream pad is spaced from the upstream pad in the moving direction. 9 . The device according to claim 1 , wherein the device further comprises an upstream wall and a downstream wall, wherein the upstream wall is located between the upstream pad and the upstream guide, and contacts an upstream end of the upstream pad, and wherein the downstream wall is located between the downstream pad and the downstream guide, and contacts a downstream end of the downstream pad. 10 . A device comprising: a rotator having a rotation axis; a belt; a nip forming member including an upstream pad and a downstream pad located downstream of the upstream pad in a moving direction of the belt, the upstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form an upstream nip, the upstream pad including a first facing surface that faces the rotator, the downstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form a downstream nip, the downstream pad including a second facing surface that faces the rotator; an urging member configured to urge one of the rotator and the nip forming member towards the other in a particular direction perpendicular to each of the rotation axis and the moving direction; an upstream guide including an upstream guide surface configured to guide an inner peripheral surface of the belt; and a downstream guide including a downstream guide surface configured to guide the inner peripheral surface of the belt, wherein the upstream nip is formed by a part of the upstream pad that includes a downstream edge of the first facing surface, and wherein the downstream nip is formed by a part of the downstream pad that includes an upstream edge of the second facing surface and does not include a downstream edge of the second facing surface. 11 . The device according to claim 10 , wherein the device further comprises a holder configured to hold each of the upstream pad and the downstream pad. 12 . The device according to claim 11 , wherein the holder includes an upstream support surface configured to support the upstream pad and a downstream support surface configured to support the downstream pad, and wherein the upstream support surface and the downstream support surface are at the same positions in the particular direction. 13 . The device according to claim 10 , wherein the downstream pad has a higher hardness than the upstream pad. 14 . The device according to claim 10 , wherein each of the upstream pad and the downstream pad has a rectangular shape when viewed from a direction of the rotation axis in a state where the upstream nip and the downstream nip are not formed. 15 . The device according to claim 10 , wherein a width of the upstream pad in the moving direction is greater than a width of the downstream pad in the moving direction. 16 . The device according to claim 10 , wherein the device further comprises an upstream wall and a downstream wall, wherein the upstream wall is located between the upstream pad and the upstream guide, and contacts an upstream end of the upstream pad, and wherein the downstream wall is located between the downstream pad and the downstream guide, and contacts a downstream end of the downstream pad. 17 . A device comprising: a rotator having a rotation axis; a belt; a nip forming member including an upstream pad and a downstream pad located downstream of the upstream pad in a moving direction of the belt, the upstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form an upstream nip, the downstream pad being surrounded by the belt and configured to, with the rotator, pinch the belt to form a downstream nip, the nip forming member being configured to form, between the upstream nip and the downstream nip, a middle nip in which the upstream pad and the downstream pad are configured not to pinch the belt, a width of the middle nip being less than a width of the upstream nip, the width of the middle nip being greater than a width of the downstream nip; an urging member configured to urge one of the rotator and the nip forming member towards the other in a particular direction perpendicular to each of the rotation axis and the moving direction; an upstream guide including an upstream guide surface configured to guide an inner peripheral surface of the belt; and a downstream guide including a downstream guide surface configured to guide the inner peripheral surface of the belt. 18 . The device according to claim 17 , wherein the upstream pad includes a first facing surface that faces the rotator, and wherein the upstream nip is formed by a part of the upstream pad that includes a downstream edge of the first facing surface and does not include