Battery gripper (12), for attracting by suction and handling starter batteries (26) of, in particular, motor vehicles, having a housing (56), in which a vacuum chamber which can be loaded with vacuum is provided and which has suction openings (84, 84) on the suction side thereof (54) which faces the starter battery to be attracted by suction, wherein the suction side is assigned a flexible lining (82) for contact with the starter battery, wherein the housing has a T-shaped cross section which runs parallel to the suction side, wherein the cross section has a bar section (64) and a web section (66) which extends transversely from the bar section, in such a way that the web section extends between the battery poles (68, 70) of the starter battery when the starter battery is attracted by suction to the battery gripper.

The machining station can include a table; at least three robots each having a multi-axis mover secured to the table, and a gripper opposite the table, the robots being interspaced from one another on the table; and a controller. The controller controls the robots to hold a workpiece in a coordinated manner. The computer numerical command (CNC) machine-tool system machines the workpiece while the workpiece is held by the robots. The workpiece can be moved into and out from the machining station with a trolley which slidingly engages a trolley path formed within the table.

A robotic arm suction cup capable of eliminating negative pressure is provided. A robotic arm is provided with a first suction cup and a second suction cup of unequal length. Each of the first and second suction cups is connected with a Y-shaped tube. An end of the Y-shaped tube is connected with a communication tube. The communication tube is connected with a vacuum pump. Another end of the Y-shaped tube is connected with a pressure detection tube. A distal end of the pressure detection tube is connected with a pressure detector. The first and second suction cups are not coplanar, and can effectively eliminate the negative pressure between the first and second suction cups and a playing card rapidly, so that the playing card can be separated from the first and second suction cups easily for the game to go on smoothly.

A dual-material vacuum cup for a vacuum-based end effector includes a bellows having a proximal end configured for connection to the end effector and a distal end. The bellows also defines a pathway for a flow of air. A lip is connected to the distal end of the bellows, the lip defining an opening in fluid communication with the pathway for the flow of air. An insert is then connected to a distal end of the lip, and the insert is in fluid communication with the opening defined by the lip. To engage parcels of various dimension and construction, the lip is composed of a first material (such as silicone rubber or another elastomeric material), while the insert is comprised of a second material (such as a foam material).

The invention relates to an automated vacuum gripper, a feed unit and a method for conveying flat components (3). The vacuum gripper (1) comprises a support part (5), at least one support part element (7), a plurality of first suction elements (4′), which are arranged at the at least one support part element (7) and define a first suction plane; at least one bearing assembly (28) and at least one actuating assembly (29), wherein the at least one support part element (7) is pivotably mounted at the support part (5) by means of the at least one actuating assembly (29) about the at least one bearing assembly (28). The plurality of second elements (4) is arranged at the support part (5) and defines a second suction plane (19). The at least one support part element (7) with its first suction plane defined by the plurality of first suction elements (4′) is pivotable from a standby position that is at an angle relative to the second suction plane into a working position that is congruous with the second suction plane, and vice versa.

A system enables management of dispensable units by supporting functions such as retrieval, scheduled distribution, analysis, and notifications. To this end, a dispensable retrieval mechanism may be programmed to carry out blind retrievals of dispensable units using a retrieval strategy with a predetermined sequence of retrieval attempts (e.g., fixed or varying two-dimensional retrieval patterns), which may be open loop or closed loop. Techniques may also include the identification of dispensable units through optical sensors and weight measurement devices that can detect, e.g., a texture, a shape, and a size of dispensable units. Such identification can be used to program retrieval attempts by a retrieval robot and in the formulation of the retrieval pattern. Additionally, networked notification systems for dispensable units can be used for updating rules or schedules related to the dispensable units, or alerting users and remote resources of any potential misuse or hazards of the dispensable units.

A method includes arranging, on a robot, a set of suctions cups on an actuator of the robot to allow for removable engagement of the set of suction cups to a container surface. The method further includes initiating movement of the actuator to cause the robot to (1) engage the set of suction cups to the container surface, generating a pressure within at least a subset of the set of suction cups; (2) detect the pressure within the subset of the set of suction cups; (3) connect the subset of the set of suction cups to a set of vacuum pumps to generate a vacuum, resulting in a grip on the container; and (4) move the container on to a platform of the robot to prepare the container for delivery.

A device for harvesting mushrooms from a mushroom bed involves a robotic aim configured to interchangeably deploy one of a plurality of different suction grippers, each of the suction grippers having a suction cup having a size and shape profile appropriate for gripping a cap of a mushroom, the cap having a size and shape profile within a predetermined range. A vacuum source in fluid communication with the suction gripper supplies negative air pressure to the suction gripper for retaining a cap of the mushroom to be harvested in the suction cup. A control circuit in electronic communication with the suction gripper and the vacuum source is configured to automatically adjust the negative air pressure in the suction gripper in response to harvesting requirements during a mushroom harvesting process. A few standard mushroom shapes have been identified, which permits suction cup designs that maximize contact between the suction cups and the mushroom caps, which permits minimizing the strength of the vacuum needed to harvest the mushrooms.

This invention relates to a suction cup, a negative pressure transfer means a handling assembly comprising the suction cup and the negative pressure transfer means, a tray for securing the handling assemblies and a container grasping system comprising the tray and handling assemblies.

The suction cup comprises channels that are secured by suction onto a perimeter of an aperture of a hole of the container and a protrusion positioned internally in relation to the channels that closes a hole of the container. The suction cup enables the container to be grasped and handled while closing its hole. The use of numerous suction cups in parallel enables numerous containers to be handled in parallel.

A food product handling device includes a movable loading head having a plurality of coupling rails, a vacuum system operatively associated with the loading head, a plurality of suction devices carried by the loading head and configured to pick up and transport a food product, a plurality of mounting blocks slidably coupled to each other by the coupling rails, and an actuating device operatively associated with the mounting blocks for sliding each of the mounting blocks between a first position and a second position. Each of the suction devices is selectively coupled to the vacuum system. At least one of the suction devices coupled to each of the mounting blocks. The actuating device includes an actuating cylinder configured to displace the mounting blocks between the first position and a second position.