Air cylinder, head cover, and rod cover

The invention claimed is: 1. An air cylinder comprising: a cylinder tube in which a cylinder chamber is formed; a head cover configured to close one end of the cylinder tube; a rod cover configured to close another end of the cylinder tube; a piston configured to slide in the cylinder chamber; a piston rod having one end connected to the piston; a port provided in each of the head cover and the rod cover; and a flow rate controller incorporated in at least one of the head cover or the rod cover, wherein the flow rate controller includes: a main flow path communicating with the port; an auxiliary flow path disposed in parallel with the main flow path, and including a first throttle valve configured to throttle a flow rate of air to a flow rate less than that in the main flow path; a cylinder flow path communicating with the cylinder chamber; a switching valve connected to the main flow path, the auxiliary flow path, and the cylinder flow path, and configured to be switched between a first position in which the cylinder flow path is allowed to communicate with the main flow path, and a second position in which the cylinder flow path is allowed to communicate with the auxiliary flow path; and a pilot air adjustment part configured to guide a portion of exhaust air in the cylinder flow path to the switching valve as pilot air, and wherein the pilot air adjustment part includes a second throttle valve configured to regulate an inflowing speed at which the pilot air flows into the switching valve, and the switching valve is switched from the first position to the second position due to a rise in a pressure of the pilot air. 2. The air cylinder according to claim 1 , wherein the flow rate controller further includes: a shuttle valve including a first inlet, a second inlet, and an outlet, wherein the port is connected to the first inlet, the cylinder chamber is connected to the outlet, and the pilot air adjustment part is connected to the second inlet, and when a pressure in the port becomes higher than a pressure in the cylinder chamber, the shuttle valve closes the second inlet and allows the first inlet and the outlet to communicate with each other, and when the pressure in the cylinder chamber becomes higher than the pressure in the port, the shuttle valve closes the first inlet and allows the second inlet and the outlet to communicate with each other. 3. The air cylinder according to claim 2 , wherein the main flow path includes a third throttle valve. 4. The air cylinder according to claim 3 , wherein the switching valve includes a switching valve installation hole formed in a main body portion of the head cover or the rod cover, a spool guide member arranged along an inner peripheral surface of the switching valve installation hole, a spool inserted through an inner peripheral portion of the spool guide member, and a return spring installed inside the switching valve installation hole and configured to bias the spool toward the first position, and the spool includes a spool member configured to slide on the inner peripheral portion of the spool guide member and thereby switch a flow path connection destination, and a piston member configured to be biased toward the second position by receiving the pressure of the pilot air. 5. The air cylinder according to claim 4 , wherein the switching valve installation hole is formed so as to extend in a direction orthogonal to an axial direction of the cylinder tube. 6. A head cover for an air cylinder that covers a head side end part of a cylinder tube, the head cover comprising: a port; a main flow path communicating with the port; an auxiliary flow path disposed in parallel with the main flow path, and including a first throttle valve configured to throttle a flow rate of air to a flow rate less than that in the main flow path; a cylinder flow path communicating with a cylinder chamber of the cylinder tube; a switching valve connected to the main flow path, the auxiliary flow path, and the cylinder flow path, and configured to be switched between a first position in which the cylinder flow path and the main flow path are allowed to communicate with each other, and a second position in which the cylinder flow path and the auxiliary flow path are allowed to communicate with each other; and a pilot air adjustment part configured to guide exhaust air in the cylinder chamber to the switching valve as pilot air, wherein the pilot air adjustment part includes a second throttle valve configured to regulate an inflowing speed at which the pilot air flows into the switching valve, and the switching valve is switched from the first position to the second position due to a rise in a pressure of the pilot air. 7. A rod cover for an air cylinder that covers a rod side end part of a cylinder tube, the rod cover comprising: an insertion hole through which a piston rod is inserted; a port; a main flow path communicating with the port; an auxiliary flow path disposed in parallel with the main flow path, and including a first throttle valve configured to throttle a flow rate of air to a flow rate less than that in the main flow path; a cylinder flow path communicating with a cylinder chamber of the cylinder tube; a switching valve connected to the main flow path, the auxiliary flow path, and the cylinder flow path, and configured to be switched between a first position in which the cylinder flow path and the main flow path are allowed to communicate with each other, and a second position in which the cylinder flow path and the auxiliary flow path are allowed to communicate with each other; and a pilot air adjustment part configured to guide exhaust air in the cylinder chamber to the switching valve as pilot air, wherein the pilot air adjustment part includes a second throttle valve configured to regulate an inflowing speed at which the pilot air flows into the switching valve, and the switching valve is switched from the first position to the second position due to a rise in a pressure of the pilot air.