Recessed Drawer Opening Apparatus

Abstract

A drawer opening system includes a hitch on a robot arm, and a block assembly disposed within a cavity on an external face of a first drawer, such that the hitch is configured to approach the external face of the drawer, enter the recess, and securely engage the block assembly within the cavity. In illustrative embodiments, when not engaged with the hitch, no part of the block assembly extends beyond the external face of the drawer such that it would impede access of a robot to a second open drawer disposed beneath the first drawer.

Description

Claims

1. A container apparatus for holding workpieces to be inspected, the container apparatus configured to movably mate to a storage apparatus, the container apparatus comprising: a storage apparatus interface assembly configured to movably mate the container apparatus to the storage apparatus;a container assembly defining a workpiece storage volume; anda block assembly rigidly fixed to the container assembly and exposed to an environment external to the workpiece storage volume, the block assembly comprising a coupling block configured to removably mate with a corresponding hitch from the environment external to the workpiece storage volume.

2. The container apparatus of claim 1, wherein the container assembly comprises a front panel: the front panel having a three-dimensional panel volume and an external surface facing way from the workpiece storage volume, anda cavity opening through the external surface of the front panel from space external to the workpiece storage volume and extending into the three-dimensional panel volume, whereinthe block assembly is rigidly fixed to the container assembly within the three-dimensional panel volume.

3. The container apparatus of claim 1, wherein the block assembly is disposed such that the hitch can move to and removably couple with the block assembly without the hitch having to enter or pass through the workpiece storage volume.

4. The container apparatus of claim 1, wherein: the container assembly defines a container volume, the workpiece storage volume being a portion of the container volume and enclosed within the container volume; and wherein the block assembly is disposed within the container volume but at least partially external to the workpiece storage volume.

5. The container apparatus of claim 1, wherein outer dimensions of the container assembly define a footprint of the container assembly, and the block assembly does not extend from the cavity such that it exceeds the footprint of the container assembly.

6. The container apparatus of claim 1, wherein the block assembly further comprises a flexible shock absorber operably coupled between the coupling block and a surface of the container assembly, the shock absorber configured to reduce physical shock from impact of the corresponding hitch with the block assembly and to isolate the container assembly from vibration arising from the hitch during container assembly movement.

7. The container apparatus of claim 1, wherein the coupling block comprises a semi-sphere.

8. The container apparatus of claim 1, wherein the coupling block comprises a hemisphere.

9. The container apparatus of claim 1, wherein the coupling block comprises a frustum of a cone.

10. The container apparatus of claim 1, wherein the corresponding hitch comprises a beam having an aperture, the aperture having a size sufficient to fit over the coupling block to removably mate the hitch to the coupling block, but said size not sufficient to allow the coupling block to pass completely through the aperture when the hitch removably mates with the coupling block.

11. The container apparatus of claim 1, wherein the corresponding hitch comprises a beam having an aperture, the aperture having a size sufficient to allow the coupling block to pass completely through the aperture to removably mate the hitch with the coupling block.

12. The container apparatus of claim 1, wherein the entire container assembly defines a volume and outer perimeter, wherein the volume of the container assembly fits completely within the outer perimeter, and wherein the block assembly does not define any portion of the outer perimeter.

13. The container apparatus of claim 1, wherein the entire container assembly defines a volume and the block assembly fits completely within the volume.

14. A storage apparatus comprising: a set of container assemblies, each container assembly of the set of container assembly movably coupled to a frame, wherein at least one container assembly of the set of container assemblies defines a workpiece storage volume and comprises: a storage apparatus interface assembly configured to movably mate the container assembly to the frame; anda block assembly rigidly fixed to the container assembly and exposed to an environment external to the workpiece storage volume, the block assembly comprising a coupling block configured to removably mate with a corresponding hitch from the environment external to the workpiece storage volume.

15. The storage apparatus of claim 14, wherein: the at least one the container assembly comprises a front panel, the front panel having a three-dimensional panel volume and an external surface facing way from the workpiece storage volume, anda cavity opening through the external surface of the front panel from space external to the workpiece storage volume and extending into the three-dimensional panel volume.

16. The storage apparatus of claim 14, wherein the corresponding hitch comprises a beam having an aperture, the aperture having a size sufficient to fit over the coupling block to removably mate the hitch to the coupling block, but said size not sufficient to allow the coupling block to pass completely through the aperture when the hitch removably mates with the coupling block.

17. The storage r apparatus of claim 14, wherein the corresponding hitch comprises a beam having an aperture, the aperture having a size sufficient to allow the coupling block to pass completely through the aperture to removably mates the hitch with the coupling block.

18. A method comprising: providing a movable container assembly, the container assembly defining a workpiece storage volume, and the container assembly comprising a container assembly interface configured to movably mate the container apparatus to a storage apparatus;providing a block assembly rigidly fixed to the container assembly and exposed to an environment external to the workpiece storage volume, the block assembly comprising a coupling block configured to removably mate with a corresponding hitch from the environment external to the workpiece storage volume;providing a robot apparatus having a hitch configured to removably couple to the block assembly; andautomatically moving the robot apparatus to removably couple the hitch to the block assembly.

19. The method of claim 18, further comprising moving the container assembly while the hitch is removably coupled to the block assembly by applying a force to the block assembly from the robot apparatus.

20. The method of claim 19, wherein moving the container assembly comprises moving the container assembly in a direction away from the storage apparatus.