The present invention relates to a vacuum gripper unit. The unit has a first mounting container and a second mounting container of cylindrical shapes formed in an H-type when seen from the outside, including a main body for providing a common vacuum chamber. A vacuum pump is inserted into the first mounting container, while the vacuum pump or a release valve is selectively mounted in the second mounting container. In addition, a front insertion hole of each of the first mounting container and the second mounting container is provided with a finishing material which supports each of the release valve and the vacuum pump that are mounted to thereby prevent the valve and pump from being separated. It is preferable that the finishing material of at least the first mounting container is a silencer.

A suction device includes a suction pad, an article holder connected with the suction pad, and a skirt extending away from the article holder toward the suction pad. The suction pad has a contact surface configured to be adhered to a support surface. The article holder connects with the suction pad. The skirt extends away from the article holder toward the suction pad and is positioned with respect to the suction pad so as to inhibit access to the suction pad when the suction pad with the article holder connected thereto is adhered to the support surface. The skirt defines an access passage when the suction pad with the article holder connected thereto is adhered to the support surface. The access passage is configured to allow an operator's finger access to the suction pad through the access passage.

A system is disclosed for providing high flow vacuum control to an end effector of an articulated arm. The system includes a high flow vacuum source that provides an opening with an area of high flow vacuum at the end effector such that objects may be engaged while permitting substantial flow of air through the opening, and a load detection system for characterizing the load presented by the object.

A system is disclosed for providing high flow vacuum control to an end effector of an articulated arm. The system includes a high flow vacuum source that provides an opening with an area of high flow vacuum at the end effector such that objects may be engaged while permitting substantial flow of air through the opening, and a load detection system for characterizing the load presented by the object.

Various example embodiments described herein relates, to an item manipulation system that can include a control system and an end effector. The end effector can include a tube defining a channel between a first end and a second end. The tube can include, a flexible suction cup that can be disposed within the channel of the tube. In some examples, the flexible suction cup can engage a surface of the item based on suction force generated through the flexible suction cup. The end effector also includes a linear actuator that can be mechanically coupled to the flexible suction cup. The end effector can be configured to: extend, the flexible suction cup towards the second end of the channel to position at least a portion of the flexible suction cup outside the tube and retract, the flexible suction cup within the channel to position the flexible suction cup within the tube.

A system is disclosed for providing dynamic vacuum control to an end effector of an articulated arm. The system includes a first vacuum source for providing a first vacuum pressure with a first maximum air flow rate, and a second vacuum source for providing a second vacuum pressure with a second maximum air flow rate, wherein the second vacuum pressure is higher than the first vacuum pressure and wherein the second maximum air flow rate is greater than the first maximum air flow rate.

An apparatus for picking up and positioning an item includes a vacuum assembly capable of applying a suction force to the item. The apparatus further includes an item engaging plate positioned adjacent the vacuum assembly. The apparatus still further has a blocking member positioned adjacent the vacuum assembly. The blocking member is capable of interrupting the suction force. The blocking member is positionable in a first position allowing the item to be picked up and in a second position interrupting the suction force to assist disengagement of the item.

A system is disclosed for providing high flow vacuum control to an end effector of an articulated arm. The system includes a high flow vacuum source that provides an opening with an area of high flow vacuum at the end effector such that objects may be engaged while permitting substantial flow of air through the opening, and a load detection system for characterizing the load presented by the object.

The present invention provides systems, methods, and apparatus for a vacuum tool having a switchable plate, such that a common vacuum tool may be adapted with different plates. A switchable plate may form the entirety of the vacuum tool's material contacting surface or a switchable plate may form a portion of the material contacting surface. The vacuum tool is effective for picking and placing one or more manufacturing parts utilizing a vacuum force.

Aspects relate to systems, methods, and apparatus for a manufacturing tool. The manufacturing tool is comprised of a vacuum tool and an ultrasonic welder as a unified manufacturing tool. The manufacturing tool may be used to pick and position a manufacturing part that is then welded with the associated ultrasonic welder.