Abstract: A device for distributing compressed air from a compressed air source to a plurality of apparatus that use compressed air. The device comprises a housing having valve chambers, inlet ports for connecting the valve chambers to the compressed air source, outlet ports, and exhaust ports communicating with outside the device. Each outlet port is adapted to communicate with at least one of the apparatus that use compressed air. Spherical valve bodies movably are provided in the valve chambers, respectively, each for closing one inlet port and one exhaust port. Shafts extend from the valve bodies, respectively. Each shaft has an end portion passing through one exhaust port and protruding from the housing. Electromagnetic actuators are coupled to the end portions of the shafts, respectively.

Abstract: A Veress needle and cannula assembly includes a stainless steel cannula assembly with a cannula having an outer diameter of approximately 4 mm and a Veress needle assembly having a Veress needle with an outer diameter of approximately 3 mm. The cannula assembly includes a proximal valve assembly and the Veress needle is insertable through the valve assembly. Where the cannula and Veress needle are not closely fitted, a molded transition collar on the Veress needle seals the annular space between the interior of the cannula and the exterior of the Veress needle and is provided with sharp distal edges for aiding insertion of the cannula assembly into the body of a patient. The cannula valve assembly preferably includes a female luer lock connector. The Veress needle preferably includes a handle with a rotatable male luer lock coupler which engages the female luer lock connector on the cannula valve assembly when the Veress needle is inserted into the cannula assembly.