초록 ▼

A manifold for accommodating at least one fluid is constructed of a plurality of modules that can be interconnected and configured to create a customized manifold. Couplers interconnecting a flow cavity of each module can be selected to determine fluid flow characteristics between module flow caviti

A manifold for accommodating at least one fluid is constructed of a plurality of modules that can be interconnected and configured to create a customized manifold. Couplers interconnecting a flow cavity of each module can be selected to determine fluid flow characteristics between module flow cavities. Each module has one or more valve ports. Valves or other flow accommodating apparatus are attached to the manifold via adapters. A first end of each adapter is sized and configured to engage a valve port, and a second end engages the attached apparatus.

대표청구항 ▼

1. A fluid management system, comprising: a manifold body comprising a top surface, a bottom surface, and a side surface, the manifold body defining a chamber, a plurality of ports formed through the side surface and communicating with the chamber;an adapter having a manifold engagement region compr

1. A fluid management system, comprising: a manifold body comprising a top surface, a bottom surface, and a side surface, the manifold body defining a chamber, a plurality of ports formed through the side surface and communicating with the chamber;an adapter having a manifold engagement region comprising a sealing portion configured to sealingly engage one of the ports of the manifold body, the adapter having an axis that is generally aligned with an axis of the port when the adapter is engaged with the port, the adapter having a lock surface disposed proximal of the sealing portion and facing generally proximally;wherein each port of the manifold body comprises an outer wall having an outer wall aperture, and the adapter and port are configured so that when the sealing portion sealingly engages a port, the adapter lock surface is disposed distal of the port outer wall;a pocket defined on a side of the manifold body outer wall opposite the manifold body side face; anda locking member configured to removably fit into the pocket and to extend at least partially across the port so as to be interposed between the adapter lock surface and a plane of the manifold body outer wall;wherein the locking member is compressible between a first configuration and a second configuration, wherein when in the first configuration the locking member can be advanced along the port axis, through the outer wall aperture, and positioned within the pocket, and wherein when in the second configuration the locking member is at least partially relaxed and will not fit through the outer wall aperture. 2. The fluid management system of claim 1, wherein when fit into the pocket, the locking member is interposed between the adapter lock surface and the plane of the manifold body outer wall on opposing sides of the adapter axis. 3. The fluid management system of claim 1, wherein the pocket is defined by an engagement aperture formed in the body adjacent the outer wall, and at least a portion of the engagement aperture has a diameter greater than a diameter of the outer wall aperture. 4. The fluid management system of claim 3, wherein the engagement aperture has a generally circular circumference. 5. The fluid management system of claim 4, wherein the locking member has a generally incomplete ring-shape and comprises spaced apart tabs, wherein a diameter of the locking member is reduced when the tabs are urged toward one another. 6. The fluid management system of claim 1, wherein the locking member has a generally incomplete ring-shape and comprises spaced apart tabs, wherein a diameter of the locking member is reduced when the tabs are urged toward one another, and wherein a distance between the tabs is greater when the locking member is in the second configuration that when the locking member is in the first configuration. 7. The fluid management system of claim 6, wherein no part of the locking member extends past the manifold body top surface or bottom surface when fit into the pocket. 8. The fluid management system of claim 7, wherein the manifold body and locking member are configured so that the locking member can be fit into and removed from the pocket without crossing the manifold body top surface or bottom surface. 9. The fluid management system of claim 8, wherein the manifold body comprises a space configured to accept the locking member tabs therewithin. 10. The fluid management system of claim 1, wherein the manifold body outer wall is detachably connected to the rest of the manifold body. 11. The fluid management system of claim 10, wherein the outer wall comprises an elongate cladding. 12. The fluid management system of claim 11, wherein the pocket is defined between the outer wall and the manifold body. 13. The fluid management system of claim 11, wherein the manifold comprises a plurality of modules joined together, and wherein the elongate cladding spans between and connects adjacent modules, and wherein the locking member interacts with only a single one of the ports.