The present invention generally relates to fluid dispensing devices and methods related to dispensing liquids with or without process air assistance and, more specifically, to adjusting liquid flow through the liquid outlet and making connections to the air and liquid passages within the valve.
Liquid dispensing valves of the type associated with the present invention generally provide for the selective flow of fluid, such as liquid with or without process air, through a valve body and then out of a nozzle orifice or liquid outlet. The process air may impart some characteristic to the liquid discharging from the nozzle orifice, such as swirling or otherwise moving a liquid filament, or atomizing the liquid as it is discharged. Control of the flow through the nozzle orifice is typically effected by reciprocating a valve member along a stroke length. The valve member ordinarily seats against a valve seat member which includes the nozzle orifice. Movement of the valve member away from the valve seat permits liquid to flow out through the orifice at a rate commensurate with the gap between the valve and the valve seat. Movement of the valve member against the valve seat prevents liquid flow through the nozzle orifice.
Various manners of accurately controlling flow of liquid through the nozzle orifice have been proposed in the past and are in practice today. For example, the size of the nozzle orifice itself may be changed by changing from one nozzle to another. However, nozzle changes are time consuming and require increased inventory of parts. Other methods involve changing the stroke length of the valve member so as to change the gap between the valve member and the valve seat when the valve member is in the open position. In the past, such stroke length adjustment mechanisms have had various drawbacks, for example, related to complexity of use and design, and repeatability of proper adjustments.
The fluid fittings used in typical liquid dispensing valves often use threads for connecting the fittings to the valve body. Unfortunately, threading a fluid fitting into place can result in inconsistent seal compression from one valve to another and this can result in leakage. Also, threaded fittings may be prone to the formation of cavities in which liquid stagnation may occur and this can be a problem especially in applications requiring aseptic conditions. Finally, threaded fittings may not be as easily modified to connect, for example, to a wide variety of push-on type flexible tubing, and may not be easily cleaned as may be necessary for certain applications, including aseptic applications.
For at least the reasons set forth above, it would be desirable to provide a liquid dispensing valve in which the stroke length is easily calibrated and set, and which provides improved fluid connections overcoming the drawbacks associated with the prior art.
The present invention provides a liquid dispensing valve generally including a valve body, a valve seat, a valve member, and a calibration device coupled with the valve member. The valve body includes a liquid inlet, a liquid outlet, and an interior liquid chamber in communication with the liquid inlet and the liquid outlet. The valve seat, which is positioned in the valve body, receives the valve member for selective engagement. The valve member is mounted for reciprocating movement between a closed position engaged with the valve seat and an open position disengaged from the valve seat. The calibration device includes a rotatable reference ring having a first zero reference indicator and additional indicia thereon for indicating incremental increases in stroke length of the valve member. The calibration device further includes a rotatable stroke control stop member having a second zero reference indicator. The stop member is capable of being rotated to change the stroke length of the valve member between zero and a maximum stroke length. The first and second zero reference indicators may be aligned after the stroke control stop member has been adjusted to set the stroke length at zero. Thereafter, the rotatable stroke control stop member may be rotated relative to the reference ring to set the desired stroke length between zero and the maximum stroke length.
A method of calibrating the stroke length of a liquid dispensing valve, generally as described above, includes rotating the stroke control stop member into operative engagement with the valve member in the closed position to prevent movement of the valve member toward the open position. The reference ring is then rotated to align its zero stroke length reference indicator with the zero stroke length reference indicator on the stroke control stop member. The stroke control stop member is then rotated out of engagement with the valve member such that the stroke length reference indicator on the stroke control stop member aligns with a desired one of the plurality of stroke reference indicators on the stroke reference ring to set and indicate the stroke length of the valve member.
In another aspect of the invention, a liquid dispensing valve includes a valve body, a valve seat, and a reciprocating valve member generally as described above. A first fluid fitting having a first sealing portion and a first connecting portion is positioned to be in fluid communication with the liquid inlet of the valve body. A first seal is positioned between the valve body and the first fluid fitting. A clamp plate is removably secured to the valve body and clamps the first sealing portion of the first fluid fitting against the first seal with the first connecting portion adapted to coupled with a liquid conduit. Preferably, the dispensing valve includes a second similar fluid fitting for communicating with a process air inlet of the valve body. The second fluid fitting is clamped against a second seal by using the clamp plate.
Various objectives, advantages and additional features of the invention will become more readily apparent to those of ordinary skill in the art upon review of the following detailed description of the illustrative embodiment, taken in conjunction with the accompanying drawings.
Referring to
Referring now to
To move the valve member 40 to the open position shown in
As further shown in
To calibrate and set the stroke length of reciprocating motion for valve member 40 along axis 77, valve member 40 is initially moved to the closed position shown in
While the present invention has been illustrated by a description of a preferred embodiment and while this embodiment has been described in some detail, it is not the intention of the Applicants to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. The various features of the invention may be used alone or in numerous combinations depending on the needs and preferences of the user. This has been a description of the present invention, along with the preferred methods of practicing the present invention as currently known. However, the invention itself should only be defined by the appended claims, wherein we claim: