The present invention provides a mounter air controller capable of executing appropriate air control associated with replacement of a nozzle without stopping operation of a mounter. This mounter air controller includes: a flow rate adjustment mechanism 4 mounted on a head module HM of the mounter; and control means 5 that controls this flow rate adjustment mechanism 4. The flow rate adjustment mechanism 4 is interposed between a positive-pressure region and a nozzle n and has a function capable of continuously changing a flow rate of passing air. The control means 5 is configured to bring the nozzle n to have a negative pressure and then control the flow rate in the flow rate adjustment mechanism 4 on the basis of an applied voltage or an applied current, which is determined in advance, so as to supply the air to the nozzle n.

The present invention reduces tact time for a pick-and-place operation by an actuator. In a housing of the actuator, an air passage being a passage of air when sucking air from a hollow part of a shaft is provided. Furthermore, a sucking valve that sucks air from the hollow part of the shaft through the air passage and a suction detecting sensor to detect that a workpiece is suctioned onto a tip of the shaft are provided in the air passage. Then, in the housing, the air passage is disposed at a position on a side opposite to a linear motion motor that moves the shaft in an axial direction of the shaft, via the shaft.

A gripper assembly for recovering a layout (22) from a sheet material (12) is presented. It comprises a vacuum gripper (26) with a gripper body (32) on which an array of air flow openings (34a, 34b) is arranged. Air flow openings (34a) associated with one or more blanks (20) of the layout (22) are selectively open and air flow openings (34b) associated to waste (28) of the sheet material (12) are selectively closed. Additionally, an apparatus for recovering a layout (22) from a sheet material (12) comprising such a gripper assembly is described. Furthermore, a method for separating a layout (22) from waste (28) of a sheet material (12) is explained.

A gripping device (2) configured to be detachably attached to a robot (20). The gripping device (2) comprises one or more extremities (10, 10′) provided with one or more suction members (12, 12′) connected to a vacuum source (18). At least two of the extremities (10, 10′) are rotatably arranged with respect to each other.

A mounting head includes a first air passage and a second air passage through which air is capable of flowing; a first valve configured to switch air flowing through the first air passage between positive pressure and negative pressure; a second valve configured to switch air flowing through the second air passage between positive pressure and negative pressure; a common air passage configured to communicate with the tool, through which air to be supplied to the tool is capable of flowing; and a third valve configured to selectively cause the first air passage or the second air passage to communicate with the common air passage.

The present disclosure relates to the technical field of suction equipment, in particular to an integrated vacuum suction pad comprising an adsorption part and a vacuum device; the vacuum device is fixedly arranged on one side of the adsorption part, and comprises a vacuum pump, a control valve and a relay; the vacuum pump is used for pumping out air between the adsorption part and an object to be adsorbed, and the control valve is used for controlling the adsorption part to be communicated with atmosphere or the vacuum pump; and the relay is used for powering on the vacuum pump and the control valve. According to the present disclosure, the pads are integrated with the devices, such as the vacuum pump, and each pad is capable of doing adsorption and release actions independently.

The present invention relates to a vacuum suction pad applied to a vacuum transfer system. The vacuum suction pad has a structure in which a plurality of suction cells are formed by flexible partition walls. The vacuum suction pad includes a coil spring that is coaxially installed at a central portion in a longitudinal direction in each of the suction cells and spaced a distance from the partition wall and a pipeline flow control valve coupled to a lower end of the spring. The suction pad is coupled with a separately provided body to constitute a vacuum gripper of the present invention, and the gripper is connected to a vacuum pump through an exhaust port defined at one side of the body.

There is provided an automated bi-stable valve system. The system includes a bi-stable valve mechanism with bi-stable valves. Each of the bi-stable valves is configured to switch between a valve closed state and a valve open state. The system includes a control system coupled to the bi-stable valve mechanism and configured to operably control the bi-stable valve mechanism. The control system includes, (i) at least one traversable bridge apparatus, and (ii) a valve switch mechanism attached to the traversable bridge apparatus, and movable, via the traversable bridge apparatus, over the bi-stable valves. The valve switch mechanism is configured to switch the bi-stable valve(s) between the valve closed state and the valve open state, to allow for selective control of one or more adhesion zones on the bi-stable valve mechanism. The adhesion zone(s) correspond to adhesion area(s) on a surface of a material to be selectively picked up and placed.

Unit for sorting parts moving along a conveyor belt comprising a transfer device (3) which comprises a roller (31) which is rotatably movable above the belt and a plurality of gripping tools (32) at the periphery of the roller which are each capable of selectively removing a part from the belt when the tools are brought into a removal position, each tool comprising a suction cup (321) attached to a tubular support sleeve (322) which is capable of creating a connection between the suction cup and an internal chamber (312) of the roller, said connection being kept at a negative pressure relative to the surrounding air, all of the suction cups which are brought into the removal position being depressurized, each sleeve being mounted so as to be translatably movable along the axis thereof through a wall (311) of the roller, an actuator (34) being designed to selectively control, in the removal position, the movement of the sleeve so that the suction cup engages with the part to be removed.

A suction assembly includes a main body, a sealing ring, an air duct, and a suction head. The main body includes a columnar wall, a top cover arranged at one end of the columnar wall and defining a first through hole, and a bottom cover arranged at another end of the columnar wall and defining a second through hole. The first through hole communicates with a negative pressure generating device. The sealing ring is sealed in the main body and movably arranged between the top cover and the bottom cover. The air duct includes a first end and a second end opposite the first end. The first end passes through the second through hole and is fixed in the sealing ring. The suction head is coupled to the second end.