Image forming apparatus

What is claimed is: 1. An image forming apparatus for forming an image by transferring developer of regular polarity onto a transfer material, the image forming apparatus comprising: an image bearing member; a charging member that is provided in contact with the image bearing member and charges the image bearing member; a developer bearing member that supplies developer to the image bearing member charged by the charging member; and a controller that executes a collection sequence in which the developer bearing member collects developer of opposite polarity adhering to the charging member, the opposite polarity being opposite to the regular polarity, wherein the controller executes the collection sequence by: setting a first potential difference to allow the developer of opposite polarity to move from the charging member to the surface of the image bearing member; setting a second potential difference to allow the developer of opposite polarity to move from the surface of the image bearing member to the developer bearing member and to allow the developer of regular polarity to move from the developer bearing member to the surface of the image bearing member when the surface of the image bearing member reaches a position facing the developer bearing member as a result of rotation of the image bearing member; setting a third potential difference to not allow the developer of regular polarity to move from the surface of the image bearing member to the charging member when the surface of the image bearing member reaches again a position facing the charging member as a result of rotation of the image bearing member; and setting a fourth potential difference to allow the developer of regular polarity to move from the surface of the image bearing member to the developer bearing member when the surface of the image bearing member reaches again the position facing the developer bearing member as a result of rotation of the image bearing member. 2. The image forming apparatus according to claim 1 , wherein the collection sequence is executed after image formation and at the time of non-image formation in which no images are formed. 3. The image forming apparatus according to claim 1 , further comprising: a transfer member for transferring, to the transfer material, the developer that is supplied by the developer bearing member to the image bearing member, wherein a fifth potential difference is set to not allow the developer of regular polarity to move from the surface of the image bearing member to the transfer member when the surface of the image bearing member reaches again a position facing the transfer member as a result of rotation of the image bearing member. 4. The image forming apparatus according to claim 3 , wherein the fifth potential difference is a difference between a transfer bias applied to the transfer member and a surface potential of the image bearing member. 5. The image forming apparatus according to claim 1 , wherein the first potential difference is a difference between a charging bias applied to the charging member and a surface potential of the image bearing member. 6. The image forming apparatus according to claim 1 , wherein the second potential difference is a difference between a developing bias applied to the developer bearing member and a surface potential of the image bearing member. 7. The image forming apparatus according to claim 1 , wherein the third potential difference is a difference between a charging bias applied to the charging member and a surface potential of the image bearing member. 8. The image forming apparatus according to claim 1 , wherein the fourth potential difference is a difference between a developing bias applied to the developer bearing member and a surface potential of the image bearing member. 9. The image forming apparatus according to claim 1 , wherein an absolute value of a charging bias applied to the charging member at which the difference between the charging bias and a surface potential of the image bearing member is the first potential difference is smaller than an absolute value of the surface potential of the image bearing member, an absolute value of a developing bias applied to the developer bearing member at which the difference between the developing bias and the surface potential of the image bearing member is the second potential difference is greater than the absolute value of the surface potential of the image bearing member, and an absolute value of the developing bias applied to the developer bearing member at which the difference between the developing bias and the surface potential of the image bearing member is the fourth potential difference is smaller than the absolute value of the surface potential of the image bearing member. 10. The image forming apparatus according to claim 3 , wherein a value of a transfer bias applied to the transfer member at which the difference between the transfer bias and a surface potential of the image bearing member is the fifth potential difference is greater than an absolute value of the surface potential of the image bearing member. 11. The image forming apparatus according to claim 1 , wherein the developer is magnetic toner. 12. The image forming apparatus according to claim 1 , wherein the controller sets the potential differences in the following order: the first potential difference, the second potential difference, the third potential difference, the fourth potential difference. 13. The image forming apparatus according to claim 1 , wherein a cleaner-less system is employed. 14. An image forming apparatus for forming an image by transferring developer of regular polarity onto a transfer material, the image forming apparatus comprising: an image bearing member; a charging member that is provided in contact with the image bearing member and charges the image bearing member; a developer bearing member that supplies developer to the image bearing member charged by the charging member; and a controller that executes a collection sequence in which the developer bearing member collects developer of opposite polarity adhering to the charging member, the opposite polarity being opposite to the regular polarity, wherein the collection sequence includes a first sequence and a second sequence, the controller executes the first sequence by: setting a first potential difference to allow the developer of opposite polarity to move from the charging member to the surface of the image bearing member; setting a second potential difference to allow the developer of opposite polarity, which moves from the charging member to the surface of the image bearing member by the first potential difference, to move from the surface of the image bearing member to the developer bearing member when the surface of the image bearing member reaches a position facing the developer bearing member as a result of rotation of the image bearing member; the controller executes the second sequence by: setting a third potential difference to not allow the developer of regular polarity, which moves from the developer bearing member to the surface of the image bearing member by the second potential difference, to move from the surface of the image bearing member to the charging member when the surface of the image bearing member reaches again a position facing the charging member as a result of rotation of the image bearing member; and setting a fourth potential difference to allow the developer of regular polarity, which moves from the developer bearing member to the surface of the image bearing member by the second potential difference, to move from