A robot for order fulfillment includes a mobility assembly, an arm, a pneumatically actuatable tool, and a coupler having a mating end in selective communication with the pneumatically actuatable tool. The mating end of the coupler being configured to access a pneumatic supply from an external pneumatic source such that the robot need not include a large compressor.

A gripper head is for a robotic gripping system. The gripper head body has an attachment section and a tool section defining an attachment region for a tool. The attachment section is configured to attach the gripper head body to a mount of a robot. The gripper head body has a first port at the attachment section and a second port at the tool section. The gripper head body defines an internal channel mutually connecting the first port and the second port. The internal channel is configured to pass air between the first port at the attachment section and the second port at the tool section.

A machine for filling and packaging containers including but not limited to bottles, cartridges, and syringes includes a wall that delimits an operating chamber in which at least one handling arm is arranged and which is facing at least one station placed externally to the operating chamber for the treatment of one or more of the containers. An intermediate element includes at least one coupling member configured to be alternatively operatively associable to the station and to the handling arm, with the intermediate element further including a coupling assembly integral to the intermediate element itself and different than coupling member. The coupling assembly is configured to removably hold one or more of the containers to be treated.

A nozzle holding mechanism of the invention is capable of holding multiple types of nozzles to a head of a component mounting device and includes: a magnet provided in a holding section of the head; and a magnetic material, attracted to the magnet, provided in a held section of the nozzle on the side held by the holding section of the head, at a position facing the magnet. The magnetic material is provided so as to have a gap between the magnetic material and the magnet while the nozzle is held by the head. The gap is adjusted to be larger or smaller in accordance with the type of the nozzle held by the head.

A mounting device 1 is equipped with: two direct-acting voice coil motors 38 in which a movable element 38c reciprocatingly moves along an axis A relative to a fixed element 38b; and a collet 34A mounted on an end part side of the movable elements 38c, the collet 34A holding a semiconductor chip 101 by suction. The plurality of voice coil motors 38 are disposed so as to be set away from each other along a direction intersecting the axes A, and in a manner that the axes A are parallel to each other. The collet 34A is mounted so as to straddle chucks 39 provided at the end parts of the two movable elements 38c.

End effector tool changers for a pick, sort, and place robotic system are disclosed. The end effector tool changer comprises an arm attachment portion, a plurality of engagement mechanisms, wherein each engagement mechanism comprises a first part and a second part, and wherein the first part and the second part of the engagement mechanism are selected from the group consisting of a pin and a pinhole; a robotic arm attachment portion, comprising a first plurality of magnets and a first plurality of first parts of the plurality of engagement mechanisms; and a tool attachment portion, comprising a second plurality of magnets and a second plurality of second parts of the plurality of engagement mechanisms. The end effector tool changer has greater mechanical stability, prevents accidental disconnection of the tool, and prevents unintentional rotation of the tool.

Disclosed herein are a vacuum robot, vacuum robot linkages that may enclose driving assemblies in a sealed environment configured to isolate at least a portion of the driving assemblies from the outside environment, and methods of operation thereof. Drive assemblies that may be enclosed in the sealed environment of the vacuum robot linkage may be infinite rotation driving assemblies that enable a robot link member to have a rotation of at least 360 degrees about an axis. The vacuum robot linkage environment may be sealed through a magnetic liquid rotary seal and/or through a fixed vacuum seal.

Disclosed are a pick tip apparatus method interchanging pick tip assemblies within the same. The pick tip apparatus includes a housing having a housing channel. The apparatus further includes a fitting connected to the housing channel. The fitting is configured to accept an external vacuum source for applying a vacuum to the housing channel. The apparatus further includes a magnet and a pick tip assembly. The pick tip assembly is releasably held within the housing channel magnetically by the magnet. The pick tip assembly includes a vacuum cup and a pick tip body. The pick tip body has a pick tip body channel in communication with the housing channel and configured to apply the vacuum from the housing channel to the vacuum cup.

Disclosed are a pick tip apparatus method interchanging pick tip assemblies within the same. The pick tip apparatus includes a housing having a housing channel. The apparatus further includes a fitting connected to the housing channel. The fitting is configured to accept an external vacuum source for applying a vacuum to the housing channel. The apparatus further includes a magnet and a pick tip assembly. The pick tip assembly is releasably held within the housing channel magnetically by the magnet. The pick tip assembly includes a vacuum cup and a pick tip body. The pick tip body has a pick tip body channel in communication with the housing channel and configured to apply the vacuum from the housing channel to the vacuum cup.

A machine for filling and packaging bottles, cartridges, syringes and the like, said machine including a wall that delimits an operating chamber in which at least one handling arm is arranged, substantially facing at least one station placed externally to the operating chamber for the treatment of at least a container. At least one intermediate element includes, on at least a portion thereof, at least one coupling member configured to be alternatively operatively associable to said station and to said handling arm, said intermediate element further including comprising coupling means, integral to the intermediate element itself, other than said coupling member and configured to removably hold said at least one container to be treated.