Spindle drive tool and method of refilling a lubricant cartridge of an automatic lubrication system using such a tool

What is claimed is: 1. A spindle drive tool for adjusting a position of a spindle head of a spindle relative to a piston of an electro-mechanical automatic lubrication system, the spindle and piston being connected by complementary screw threads, the spindle drive tool comprising: a mounting portion having a bearing surface at a first end, the bearing surface being configured to contact the piston and having a spindle head inlet, the spindle head inlet opening into a first cavity extending axially inside the mounting portion, the first cavity having a first end at the spindle head inlet and a second end axially spaced from the first end and a cross section configured to couple with the spindle head, the second end of the first cavity opening into a second cavity, the second cavity being coaxially to the first cavity and having a larger cross section than the first cavity; and a coupling portion for coupling the mounting portion to a rotatable drive, wherein the spindle has an axis of rotation, wherein the mounting portion comprises an axial centerline and a second end axially spaced from the first end, wherein the first cavity is configured to permit axial movement of the spindle head in the first cavity relative to the mounting portion and to substantially prevent rotation of the spindle head in the first cavity relative to the mounting portion about the axis of rotation of the spindle head, wherein the second cavity is configured to permit rotation of the spindle head in the second cavity relative to the mounting portion, and wherein the coupling portion is located at the second end of the mounting portion. 2. The spindle drive tool according to claim 1 , wherein the mounting portion includes at least one aperture extending through a side wall of the mounting portion and into the second cavity. 3. The spindle drive tool according to claim 1 , wherein the coupling portion extends coaxially from the second end of the mounting portion. 4. The spindle drive tool according to claim 1 , wherein the mounting portion and the coupling portion are made in one piece. 5. The spindle drive tool according to claim 1 , wherein the mounting portion includes a third cavity on a side of the second cavity opposite the first cavity, the third cavity being coaxial with the first cavity and having a cross section configured to couple with the spindle head. 6. The spindle drive tool according to claim 1 , wherein the coupling portion comprises a rod extending from the second end. 7. The spindle drive tool according to claim 5 , wherein the third cavity is configured to permit axial movement of the spindle head in the third cavity relative to the mounting portion and to substantially prevent rotation of the spindle head in the third cavity relative to the mounting portion about the axis of rotation of the spindle head. 8. A kit for adjusting a position of a spindle head of a spindle relative to a piston of a lubricant cartridge of an electro-mechanical automatic lubrication system in which the spindle and the piston are connected by screw-threads, the kit comprising: first and second spindle drive tools according to claim 1 , wherein the first spindle drive tool is configured to move the spindle head away from the piston to a first location a first distance from the piston, a length of the first cavity of the first spindle drive tool being equal to the first distance, wherein the second spindle drive tool is configured to move the spindle head toward the piston to a second location a second distance from the piston, a length of the first cavity of the second spindle drive tool being equal to the second distance, and wherein the second spindle drive tool includes a third cavity on a side of the second cavity of the second spindle drive tool opposite the first cavity of the second spindle drive tool, the third cavity being coaxial with the first cavity of the second spindle drive tool and having a cross section configured to couple with the spindle head. 9. A method for refilling a lubricant cartridge of an electro-mechanical automatic lubrication system, the lubricant cartridge including a piston mounted on a threaded spindle and a lubricant outlet, the method comprising: providing a kit according to claim 8 , inserting the spindle head into the first cavity of the first spindle drive tool via the spindle head inlet of the first spindle drive tool until the bearing surface of the first spindle drive tool contacts the piston; rotating the first spindle drive tool via the coupling portion of the first spindle drive tool in a first direction until the spindle head enters the second cavity of the first spindle drive tool to bring the spindle head to the first location; removing the first spindle drive tool from the spindle; and pumping lubricant into the lubricant cartridge via the lubricant outlet. 10. The method for refilling according to claim 9 , further comprising: inserting the spindle head into the third cavity of the second spindle drive tool via the first and second cavities of the second spindle drive tool until the bearing surface of the second spindle drive tool contacts the piston; rotating the second spindle drive tool via the coupling portion of the second spindle drive tool in a second direction opposite the first direction until the spindle head is located in the second cavity to bring the spindle head to the second location; and removing the second spindle drive tool from the spindle. 11. A method for refilling a lubricant cartridge of an electro-mechanical automatic lubrication system, the lubricant cartridge including a piston mounted on a threaded spindle and a lubricant outlet, the method comprising: providing a spindle drive tool according to claim 1 ; inserting the spindle head into the first cavity of the spindle drive tool via the spindle head inlet until the bearing surface of the spindle drive tool contacts the piston; rotating the spindle drive tool via the coupling portion in a first direction until the spindle head enters the second cavity of the first spindle drive tool to bring the spindle head to the first location; removing the first spindle drive tool from the spindle; and pumping lubricant into the lubricant cartridge via the lubricant outlet. 12. A spindle drive tool for adjusting a position of a spindle head of a spindle relative to a piston of an electro-mechanical automatic lubrication system, the spindle and piston being connected by complementary screw threads, the spindle drive tool comprising: a mounting portion having a bearing surface at a first end, the bearing surface being configured to contact the piston and having a spindle head inlet, the spindle head inlet opening into a first cavity extending axially inside the mounting portion, the first cavity having a first end at the spindle head inlet and a second end axially spaced from the first end and a cross section configured to couple with the spindle head, the second end of the first cavity opening into a second cavity, the second cavity being coaxially to the first cavity and having a larger cross section than the first cavity; and a coupling portion connected to the mounting portion, wherein the mounting portion includes at least one aperture extending through a side wall of the mounting portion and into the second cavity.