End effectors having reconfigurable vacuum heads

What is claimed is: 1. An end effector to be coupled to a robot, the end effector comprising: a frame; a first vacuum head rigidly coupled to the frame, the first vacuum head including a first vacuum surface having a first surface area, the first vacuum head configured to pick up a thermoplastic part in response to a first vacuum force applied at the first vacuum surface; a second vacuum head movably coupled to the frame, the second vacuum head including a second vacuum surface oriented parallel to the first vacuum surface, the second vacuum surface having a second surface area less than the first surface area, the second vacuum head configured to assist the first vacuum head in picking up the thermoplastic part in response to a second vacuum force applied at the second vacuum surface; and an arm extending between the frame and the second vacuum head, the arm configured to adjustably position the second vacuum head relative to the first vacuum head, the second vacuum head being coupled to the arm, the arm being translatable relative to the frame in a direction parallel to a plane defined by the first vacuum surface. 2. The end effector of claim 1 , wherein the arm is configured to adjustably position the second vacuum head relative to the first vacuum head based on a property of the thermoplastic part, the property being at least one of a size, a shape, or a porosity of the thermoplastic part. 3. The end effector of claim 1 , wherein the first vacuum head includes a pocket formed peripherally relative to the first vacuum head, the pocket being shaped to slidably receive the second vacuum head in a direction parallel to the plane, wherein the second vacuum head is configured to be positioned within the pocket when the first vacuum head and the second vacuum head are to pick up a first thermoplastic part having a first property, and wherein the second vacuum head is configured to be positioned away from the pocket when the first vacuum head and the second vacuum head are to pick up a second thermoplastic part having a second property that differs from the first property. 4. The end effector of claim 3 , wherein the first property is a first size, and the second property is a second size greater than the first size. 5. The end effector of claim 1 , wherein the second vacuum head is an air amplifier. 6. The end effector of claim 1 , wherein the arm is translatable relative to the frame via a first joint of the arm. 7. The end effector of claim 6 , further comprising an actuator located at the first joint, the actuator configured to actuate the first joint to translate the arm relative to the frame. 8. The end effector of claim 6 , wherein the arm further includes a first segment, a second segment, and a second joint, the first segment being movably coupled to the frame and translatable relative to the frame via the first joint, the second segment being movably coupled to the first segment and rotatable relative to the first segment via the second joint. 9. The end effector of claim 8 , further comprising an actuator located at the second joint, the actuator configured to actuate the second joint to rotate the second segment relative to the first segment. 10. The end effector of claim 8 , wherein the second vacuum head is movably coupled to the second segment and translatable relative to the second segment via a third joint of the arm. 11. The end effector of claim 10 , further comprising an actuator located at the third joint, the actuator configured to actuate the third joint to translate the second vacuum head relative to the second segment. 12. The end effector of claim 1 , wherein the first vacuum head is centrally-located relative to the frame, and wherein the arm is a first arm extending peripherally from the first vacuum head, the end effector further comprising: a third vacuum head movably coupled to the frame, the third vacuum head including a third vacuum surface, the third vacuum head configured to assist the first vacuum head in picking up the thermoplastic part in response to a third vacuum force applied at the third vacuum surface; a second arm extending between the frame and the third vacuum head, the second arm configured to adjustably position the third vacuum head relative to the first vacuum head, the third vacuum head being coupled to the second arm, the second arm being translatable relative to the frame in a direction parallel to the plane; a fourth vacuum head movably coupled to the frame, the fourth vacuum head including a fourth vacuum surface, the fourth vacuum head configured to assist the first vacuum head in picking up the thermoplastic part in response to a fourth vacuum force applied at the fourth vacuum surface; a third arm extending between the frame and the fourth vacuum head, the third arm configured to adjustably position the fourth vacuum head relative to the first vacuum head, the fourth vacuum head being coupled to the third arm, the third arm being translatable relative to the frame in a direction parallel to the plane; a fifth vacuum head movably coupled to the frame, the fifth vacuum head including a fifth vacuum surface, the fifth vacuum head configured to assist the first vacuum head in picking up the thermoplastic part in response to a fifth vacuum force applied at the fifth vacuum surface; and a fourth arm extending between the frame and the fifth vacuum head, the fourth arm configured to adjustably position the fifth vacuum head relative to the first vacuum head, the fifth vacuum head being coupled to the fourth arm, the fourth arm being translatable relative to the frame in a direction parallel to the plane. 13. The end effector of claim 1 , wherein the first vacuum surface and the second vacuum surface are coplanar. 14. A method for picking up a thermoplastic part with an end effector coupled to a robot, the end effector including a frame, a first vacuum head rigidly coupled to the frame and having a first vacuum surface, and a second vacuum head movably coupled to the frame and having a second vacuum surface oriented parallel to the first vacuum surface, the first vacuum surface having a first surface area, the second vacuum surface having a second surface area less than the first surface area, the second vacuum head being adjustably positionable relative to the first vacuum head via an arm extending between the frame and the second vacuum head, the second vacuum head being coupled to the arm, the method comprising: positioning the second vacuum head relative to the first vacuum head by translating the arm relative to the frame in a direction parallel to a plane defined by the first vacuum surface, wherein the translating of the arm is based on a property of the thermoplastic part, the property being at least one of a size, a shape, or a porosity of the thermoplastic part; positioning the first vacuum surface and the second vacuum surface against the thermoplastic part; and applying a first vacuum force at the first vacuum surface and a second vacuum force at the second vacuum surface, the first and second vacuum forces to respectively cause the first and second vacuum heads to pick up the thermoplastic part. 15. The method of claim 14 , wherein positioning the second vacuum head relative to the first vacuum head includes translating the arm relative to the frame via a first joint of the arm. 16. The method of claim 15 , wherein translating the arm relative to the frame includes actuating the arm relative to the frame via an actuator located at the first joint. 17. The method of claim 15 , wherein the arm further includes a first se