Quarter-turn diaphragm valve
A quarter-turn valve includes a valve body having an inlet, an outlet, and a diaphragm adjacent arranged in said valve body for movement between a closed and opened position for restricting and controlling fluid flow. The valve further includes an input shaft for receiving a torsional input load in a closing direction and a torsional input load in an opposite opening direction. A cam is mounted on the input shaft. The cam transforms input loads to linear output loads that flex the diaphragm between its closed and opened positions.
This application is a divisional application of U.S. patent application Ser. No. 11/069,438 filed Mar. 1, 2005.
BACKGROUND OF THE INVENTIONBall valves may be used in a variety of applications. However, ball valves are difficult to clean. More specifically, a ball valve typically must be removed from the system in which it is installed, disassembled, hand-cleaned, and reassembled. The multi-step process of removal, disassembly, cleaning, reassembly, and reinstallation of a ball valve is prohibitively time-consuming, and also requires inventory of ball valve components.
Conventional diaphragm valves, although usually easier to clean than ball valves, are often multi-turn valves. In other words, typically an operator must manually turn a handle, handwheel, or other such rotatable component through several revolutions to operate a conventional diaphragm valve between its closed and opened positions. Such an operational requirement is prohibitively time-consuming, cumbersome, and access to the diaphragm valve may be obstructed by the configuration of the system in which it is installed.
Accordingly, there remains a need for a simplified, easy-to-clean, quick-operating valve.
SUMMARY OF THE INVENTIONA diaphragm valve includes a valve body having an inlet, an outlet, and a diaphragm arranged in the valve body for movement between a closed and opened position for restricting and controlling fluid flow. The valve further includes an input shaft for receiving a torsional input load in a closing direction and a torsional input load in an opposite opening direction. A cam is mounted on the input shaft. The cam transforms the input loads to linear output loads that flex the diaphragm between its closed and opened positions.
BRIEF DESCRIPTION OF THE DRAWINGS
Although the invention is illustrated and described herein with reference to specific embodiments, the invention is not intended to be limited to the details shown. Rather, various modifications may be made in the details within the scope and range of equivalents of the claims and without departing from the invention.
In the exemplary application, tote 14 is filled with paint P at a paint manufacturing facility, and shipped to an automotive plant. Valve 12, also referred to as tote valve 12, is opened to permit discharge of paint P from tote tank 14 to a storage tank 16 at the automotive plant. When tote 14 becomes empty, it is shipped to a tote cleaning facility, and then sent back to the paint manufacturing facility to be refilled with paint P so that the above-described process can be repeated. In the meantime, paint P in storage tank 16 may be applied by an operator O, or a robot, to an automobile A.
Valve 12 includes an input shaft 24 (shown in
As illustrated in
A compressor 36 having fingers 36F is positioned between cam 28 and diaphragm 26. More specifically, compressor 36 is slidably connected to cam 28, and fixedly connected to diaphragm 26. Compressor 36 pushes diaphragm 26 against weir 56 to close valve 12 (as in
Bonnet halves 44A and 44B encase the majority of the components of valve 12 as represented in
A lock plate 38 is mounted on input shaft 24, and is configured to lock valve 12 in a closed position when input shaft 24 is rotated to the closed position (as in
Valve 12 further includes a mounting flange 46 proximal to inlet 32 for mounting valve 12 on the bottom of tote tank 14, as illustrated in
Referring now to the exploded view of
Handle 26 (shown in
Diaphragm 26 includes a diaphragm 26A and a backing cushion 26B. Diaphragm 26A is made from a plastic or elastomer material such as, for example, polytetrafluoroethylene (PTFE), ethylene-propylene-diene terpolymer (EPDM), etc.
In use, valve 12 may be in the closed position, as illustrated in
To close valve 12 from the open position (as illustrated in
Valve 12 of the present invention may be cleaned in place, i.e., it does not require removal from the system in which it is installed for cleaning purposes. When tote tank 14 becomes empty, it can be power-washed with water, steam, and/or a weak solvent. Valve 12 is typically opened all the way and a steam wand is inserted into outlet 34 to clean valve 12.
Valve 12 does not require disassembly, hand-cleaning, nor reassembly, which reduces the likelihood of damage to the components.
These advantageous features save valuable time and increase the number of paint tote systems 10 that can be cleaned per day. Furthermore, paint tote systems 10 utilizing the valve 12 of this invention can be used for both clear and colored paint products. These features, in turn, reduce the size of a particular paint tote system fleet due to the quicker recycle time and multi-paint functions.
Alternatively, valve 12 of the present invention may be utilized with a tote tank 14 that includes a liner. The versatility of valve 12 eliminates the need to dedicate individual tote tanks 14 for use with or without a liner. This feature simplifies the logistics of managing a particular paint tote system fleet.
While preferred embodiments of the invention have been shown and described herein, it will be understood that such embodiments are provided by way of example only. Numerous variations, changes and substitutions will occur to those skilled in the art without departing from the spirit of the invention. Accordingly, it is intended that the appended claims cover all such variations as fall within the spirit and scope of the invention.
Claims
1. A tote system comprising:
- a container having an outlet; and
- a quarter-turn cam-operated valve connected to said outlet for controlling flow from said container.
2. The tote system of claim 1, wherein said valve is mounted on the bottom of said container and includes an input shaft rotatable through 90°, and a flexible diaphragm operatively connected to said input shaft by a cam for movement between a valve open and a valve closed position when said input shaft is rotated from one position to another position spaced 90° there from.
3. The tote system of claim 2 wherein
- said cam comprises a plate formed with an arcuate surface having a length of about 90°; and a compressor fixed to said diaphragm, said compressor including a bushing cooperating with said arcuate surface for transforming the rotation of said impact shaft to linear loads that moves said diaphragm between its open and closed positions.
4. The tote system of claim 3, wherein said cam comprises:
- a plate rotatably mounted on said input shaft, said plate formed with an arcuate slot having a length of about 90°; and wherein
- a bushing sleeve is slidably positioned in said slot, said bushing sleeve being rotatably mounted on a roller pin connected to said compressor.
5. The tote system of claim 2 including a compressor fixed to said diaphragm, said cam and said compressor being operatively arranged to move said diaphragm between its open and closed positions when said cam moves through about 90°.
Type: Application
Filed: Jul 2, 2007
Publication Date: Nov 22, 2007
Inventor: Richard Schlude (York, PA)
Application Number: 11/824,801
International Classification: F16K 7/16 (20060101);