Vehicle door checker

What is claimed is: 1. A door checker comprising: a housing which includes a base from which first and second opposing flanges extend; first and second guide pins which are spaced apart from one another and are interconnected to the first and second flanges; a check arm which extends through the base and is arranged between the first and second guide pins, the check arm being configured to move relative to the housing and including a profile that corresponds to a variable door holding force; and a bearing member which is arranged on one side of the check arm and is slidably supported on the first and second guide pins, wherein the bearing member includes a bearing case with an aperture within which a ball is arranged, the ball engages the profile, and the bearing case is configured to slide on the first and second guide pins in response to movement of the check arm relative to the bearing member. 2. The door checker according to claim 1 , comprising another bearing member arranged on another side of the check arm, and the other bearing member coacts with another profile on the other side of the check arm. 3. The door checker according to claim 1 , comprising a spring arranged between the first flange and the bearing case and configured to urge the ball into engagement with the profile to provide the variable door holding force. 4. The door checker according to claim 3 , wherein the profile is provided by a groove that has a variable height, and the bearing case is configured to slide along the first and second guide pins as the ball slides along the groove. 5. The door checker according to claim 3 , wherein the aperture includes a perimeter with inwardly extending tabs that provide an opening that is smaller than a diameter of the ball to retain the ball in the bearing case. 6. The door checker according to claim 5 , wherein the aperture includes slots filled with a lubricant configured to lubricate the ball. 7. The door checker according to claim 1 , wherein the bearing case includes first and second elongated slots respectively on first and second opposing ends, and the first and second slots respectively receive the first and second guide pins. 8. The door checker according to claim 7 , wherein the first and second slots have an arcuate cross-section and are open on one side. 9. The door checker according to claim 7 , wherein each of the first and second slots includes pockets filled with a lubricant configured to lubricate the first and second guide pins. 10. The door checker according to claim 1 , wherein the housing includes studs configured to secure the door checker to a door. 11. The door checker according to claim 1 , wherein each of the first and second guide pins includes swaged ends securing the first and second guide pins to the first and second flanges. 12. A door checker comprising: a housing which includes a base from which first and second opposing flanges extend; first and second guide pins which are spaced apart from one another and are interconnected to the first and second flanges; a check arm which extends through the base and is arranged between the first and second guide pins, the check arm being configured to move relative to the housing and including a profile that corresponds to a variable door holding force; and a bearing member which is arranged on one side of the check arm and is slidably supported by the first and second guide pins, wherein the bearing member coacts with the profile, and the bearing case includes an inner face spaced from the base in a first position, and the guide pins are configured to flex and permit the inner face to engage the base in a second position in which a stop on the check arm engages the outer face. 13. The door checker according to claim 12 , wherein the base includes spaced apart lips, and the bearing case includes opposing edges adjoining the inner face near the lips, and the lips are configured to arrest lateral motion of the bearing case with respect to the housing in the second position. 14. The door checker according to claim 12 , comprising a clevis pivotally attached to one end of the check arm, and a stop is provided at the other end of the check arm on a side of the bearing case with an outer face having spaced apart protrusions configured to laterally locate the stop with the check arm in a fully extended position. 15. A method of holding door in a desired open position, the method comprising the steps of: sliding a check arm profile relative to a ball to vary a holding force; and sliding a bearing case on a guide pin in a direction transverse to the check arm profile in response to the check arm profile sliding step, wherein the bearing case supports a ball. 16. The method according to claim 15 , wherein the ball rides along a groove in the check arm profile. 17. The method according to claim 15 , comprising a housing supporting a pair of guide pins that slidably support the bearing case in response to movement of the check arm relative to the bearing case. 18. The method according to claim 17 , comprising the step of engaging the bearing case with a check arm stop which deflects the guide pin and moves the bearing case into engagement with the housing. 19. The method according to claim 18 , comprising the step of laterally locating the check arm stop with protrusions on the bearing case. 20. A door checker comprising: a housing which includes a base from which first and second opposing flanges extend, and the housing is substantially open on three sides; a guide element which is interconnected to the first and second flanges; a check arm which extends through the base and is configured to move relative to the housing, and the check arm includes a profile that corresponds to a variable door holding force; and a bearing member which is arranged on one side of the check arm and is slidably supported on the guide element, and the bearing member coacts with the profile and is configured to slide on the guide element in response to movement of the check arm relative to the bearing member, wherein the profile has a variable height, and the bearing member is configured to slide along the guide element as the bearing member coacts with the profile.