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Flowable-material transfer device and system

a technology of material transfer and flowable material, which is applied in the direction of valve details, thin material handling, valve arrangements, etc., can solve the problems of affecting affecting the safety of the material, and a heightened risk of the transfer act, so as to reduce the source of connector error, reduce manufacturing costs, and contribute to the reliability of the device

Inactive Publication Date: 2005-03-10
MORIN CLAUDE ROGER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011] For the reasons cited above, it is an object of the present invention to provide a flowable-material transfer system that includes a two-part connector device for transferring flowable material from a source container to a destination container. It is a further object of the present invention to provide a simple, inexpensive connector device within such a system that is easy to operate and effects a secure, safe, positive connection. It is a yet further object of the present invention to provide such a connection device that prevents an unintentional disconnection of the connector device when the flow valve is open. It is a still further object to provide such a device that reduces the risk of unintentional change in the operative state of the flow valve while material is being transferred, either from a closed to an open state, or from an open to a closed state.
[0012] The objectives have been accomplished by providing a flowable-material transfer system comprising conventional transfer apparatus for transferring flowable material from a source container to a destination container, and a connector device according to the invention. The connector device comprises a source-container connector and a transfer-apparatus connector, whereby the source-container connector and transfer-apparatus connector mate to form a rugged, reliable, leak-tight connection. The connector device also includes several safety features that provide increased safety and reliability in the transfer of flowable material.
[0014] It is generally understood that the direction of flow through the transfer system is in one direction. Thus, the inflow side and the outflow side of the components in the connector device do not change, that is, the inflow side is always the inflow side. The transfer-apparatus connector of the present invention has an inflow side that removably connects to the source-container connector, and an outflow side that connects to the transfer apparatus. A throughbore from the inflow side to the outflow side of the transfer-apparatus provides a flowpath through this connector. The source-container connector has a connector means on the inflow side that attaches to the source container, a flowpath formed by a throughbore from the inflow side to the outflow side, a flow valve placed in the flowpath, a valve-actuation assembly, a connector-device locking means, and a connector means on the outflow side that connects this connector to the inflow side of the transfer-apparatus connector. The inflow side of the source-container connector is directly attachable to the source container, or to a passage means connected to or extending from the source container. In many industrial situations, it is most efficient and convenient to permanently attach the source-container connector to the source container, as the apparatus used to transfer the material is generally always the same or similar. The source-container connector, as provided for installation in a transfer system, is constructed to resist or prevent disassembly and to reduce the opportunity for failure.
[0015] Mating and securing of the transfer-apparatus connector to the source-container connector is best effected by a locking mechanism that is simple and easy to operate. In the connector device according to the invention, tabs are provided on the one or the other connector and interlock with flanged recesses on the corresponding other connector. Connection of the transfer-apparatus connector to the source-container connector way is accomplished with a single, quick, twisting motion of no greater than one-quarter turn. Once connected, the connector device according to the invention provides a flowpath from the source container to the destination container. Generally, the flow path is interrupted by a flow valve in the source-container connector.
[0018] Reducing sources of error of the connectors is a major concern with regard to the safety and reliability of the connector device and, for this reason, both the source-container connector and the transfer-apparatus connector according to the invention are manufactured substantially as single-piece, non-disassembleable components. Once the flow valve and valve-actuation assembly are assembled in the source-container connector, its housing is sealed to prevent one from replacing or repairing the internal components. Providing both the source-container connector and the transfer-apparatus connector as sealed units and made with a minumum number of parts reduces the manufacturing costs and also contributes to the reliability of the device and, thus, of the flowable-material transfer system.

Problems solved by technology

Whatever the reason for transferring a material from one container to another, the act of transfer always represents a heightened risk to the secure containment of the material.
The risk is particularly great when the material is toxic, corrosive, or otherwise hazardous to the environment, or when working under large volumes of pressurized material.
Two major sources of failure of a material transfer system are inherently present when transferring flowable materials: 1) the very act of connecting or disconnecting the external apparatus to the source container; and 2) failure of the connector device.
The fact that no means are provided to prevent one from detaching the connector of the drain apparatus from the oil pan connects the while the flow valve is open is a serious safety risk.
Another disadvantage is that the service operator must first check for the size and type of adapter needed to fit the particular oil-pan source connector, and fetch and mount the adapter on the source connector before attaching the drain apparatus.
This is time-consuming and, thus, cost-inefficient.
A further disadvantage of the disclosed connector device is that an addtional pressure-actuated valve is incorporated into the part of the connector that connects to the drain apparatus.
Incorporating this valve into the connector device itself, however, increases greatly the manufacturing cost of the connector device and also introduces an additional source of failure at this critical point.
The source-container connector fulfills a critical function with regard to safety and efficiency in the material transfer process and providing a connector that is disassemblable introduces a source of failure, and, thus, is undesirable.
Furthermore, a disassemblable connector is generally more costly to manufacture, as the design of the device is more complex.
No provision is made, however, to prevent accidental or unintentional closure of the valve.
Closing a valve during processing of flowable material, particularly when pressure forces are involved to generate or assist flow, may cause degradation or failure of the source and / or destination containers and conduit on either side of the valve.

Method used

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Examples

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Embodiment Construction

[0027]FIG. 1 is a perspective view of a connector device 300 according to the invention. The connector device 300 comprises a transfer-apparatus connector 100 and a source-container connector 200 that mate to form a leak-tight seal and to provide a flowpath F for flowable material through the connector device 300. In FIG. 1, the transfer-apparatus connector 100 is shown in close proximity to and ready to be mated to the source-container connector 200. When the connector device 300 is installed for operation, the flowpath F through the connector device 300 is generally in the direction of an inflow FI toward an outflow FO, as indicated by the respective arrows. Hereinafter the arrows inflow FI and outflow FO shall be used to designate the inflow and outflow sides of all components of the connector device 300.

[0028]FIGS. 2 and 3 illustrate the transfer-apparatus connector 100 of the connector device 300 of the present invention. The transfer-apparatus connector 100 has an inflow side...

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PUM

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Abstract

Flowable-material transfer apparatus and device for transferring flowable material from one containment vessel or system to another. The apparatus comprises a connector device, a closed conduit system, and applicable force systems and controls for effecting efficient flow of the flowable material. The connector device has a source-container connector and a transfer-apparatus connector that together provide a flowpath from the source container to a destination container. The source-container connector contains a normally-closed flow valve situated in the flowpath and a flow-valve actuation assembly. The connector device includes a device locking mechanism that prevents the connector device from being disconnected when the flow valve is open.

Description

BACKGROUND INFORMATION [0001] 1. Field of the Invention [0002] The invention relates to the field of material handling systems. More particularly, the invention relates to a transfer system for safely moving flowable materials from one containment to another one. More particularly yet, the invention relates to a device for connecting and locking flowable-material transfer apparatus to a flowable-material container. [0003] 2. Description of the Prior Art [0004] Transferring flowable material from one container to another is a common task in industry and commerce. The term “flowable materials” as used herein includes industrial solvents and petroleum products, foodstuffs, toxic and non-toxic materials, combustible and non-combustible materials. The term “flowable” includes liquids, gases, slurries, sludges, pastes, flowable solids, such as powdered, pulverized, granulated, pelletized, and encapsulated material, and other material that may flow naturally or be made to flow from one pla...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): F16K35/02
CPCF16K35/027Y10T137/87973
Inventor MORIN, CLAUDE ROGER
Owner MORIN CLAUDE ROGER
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