The present disclosure relates to beverage dispensing machines having valve assemblies and manually operable valve assemblies.
The following U.S. Patents are incorporated herein by reference in entirety.
U.S. Pat. No. 5,269,442 discloses a nozzle for a post-mix beverage dispensing valve that optimizes flow of fluids. The nozzle includes a first diffuser plate followed by a central flow piece having a frusto-conical outer water flow surface and an interior syrup flow channel. Second and third diffuser plates follow the frusto-conical portion. The second and third diffuser plates have perimeter edges that contact the inner surface of a nozzle housing so that the carbonated water must flow through holes in the diffusers.
U.S. Pat. No. 5,607,083 discloses a post-mix beverage dispensing valve having a nozzle that provides for higher flow rates. The valve is designed to provide for an electronic switch/control module separate from the valve housing cover, and the valve includes improved banjo valves and accompanying seat structures to provide for increased fluid flow and for fluid flow that is less turbulent.
U.S. Pat. No. 5,845,815 discloses a piston based flow control for use in a high flow beverage dispensing valve. The piston includes a top perimeter edge structure that allows for continuity of fluid flow during high flow applications and particularly during the initiation of a high flow dispensing so as to eliminate chattering of the piston.
This Summary is provided to introduce a selection of concepts that are further described below in the Detailed Description. This Summary is not intended to identify key or essential features of the claimed subject matter, nor is it intended to be used as an aid in limiting the scope of the claimed subject matter.
In certain examples, a beverage dispensing machine includes a valve body configured to receive a first fluid and a second fluid and dispense the first fluid through a first orifice and the second fluid through a second orifice. A first valve seal is movable to open and close the first orifice, and a second valve seal is movable to open and close the second orifice. An arm is pivotally coupled to the valve body, and pivoting of the arm relative to the valve body moves the first valve seal and the second valve seal and thereby opens the first orifice and the second orifice. The machine also includes a solenoid valve configured to pivot the arm, and a handle with a leg that is pivotable into and between a rest position in which the valve seals are closed and an active position in which the valve seals are open. As the handle moves from the rest position to the active position, the leg acts on the solenoid valve such that the arm pivots and the valve seals open.
Various other features, objects, and advantages will be made apparent from the following description taken together with the drawings.
The present disclosure is described with reference to the following Figures. The same numbers are used throughout the Figures to reference like features and like components.
In the below description, certain terms have been used for brevity, clarity, and understanding. No unnecessary limitations are to be inferred therefrom beyond the requirement of the prior art because such terms are used for descriptive purposes and are intended to be broadly construed. The different apparatuses and systems described herein may be used alone or in combination with other apparatuses and systems. It is to be expected that various equivalents, alternatives, and modifications are possible within the scope of the appended claims.
The present inventor has recognized that consumers associate beverage dispensing machines having operable handle assemblies (e.g. pull handles) with high-quality beverages. That is, beverages dispensed from beverage dispensing machines having a pull handle are perceived to be of high quality and value. Accordingly, the present inventors have endeavored to create beverage dispensing machines with valves or valve assemblies and operable handle assemblies that permit an operator to dispense mixed beverages at various flow rates. Accordingly, the present inventors have invented the valve assemblies and handle assemblies disclosed herein.
Referring now to
The valve assembly 20 also has a flow control device 26 which is connected to the valve body 24 and configured to control the flow of the fluids through the valve assembly 20. That is, the flow control device 26 controls (e.g. limits) the flow of the fluids through the valve assembly 20 such that the fluids are dispensed from the valve assembly 20 via a nozzle 50 at the predetermined flow ratio. In one non-limiting example, the flow control device 26 controls the flow of the first and second fluids through the valve assembly such that four parts of the first fluid (e.g. carbonated water) are dispensed for every one part of the second fluid (e.g. flavor syrup) (the flow ratio of the fluids is 4:1). Reference is made to above-incorporated U.S. Pat. Nos. 5,607,083 and 5,845,815 for further description of the components and operation of conventional post-mix beverage dispensing machines and flow control devices.
Referring specifically to
Referring to
Each valve seal 34, 36 is connected to a lever 35, 37 that can be actuated to thereby open the valve seals 34, 36. When the valve seals 34, 36 open, annular gaps (not shown) are defined between the valve seals 34, 36 and the orifices 31, 32. Accordingly, the fluids flow through the annular gaps, respectively, and are dispensed via the nozzle 50. Springs 41 apply a force to the levers 35, 37 in an upstream direction (see arrow U) to thereby bias the valve seals 34, 36 to a closed position.
The valve assembly 20 also includes a yoke arm 44 (see also
The yoke arm 44 of the present disclosure also includes several features that account for or overcome problems that occur when yoke arms of conventional valve assemblies pivot out of plane or “rock” in a direction parallel with the pivot axis (see arrow H). In conventional valve assemblies, large amounts of “rocking” can cause the mixed beverage to be incorrectly dispensed due to the inadvertent opening of the valve seals or incorrect timing of the opening of the valve seals. These incorrectly mixed beverages may have incorrect flow ratios. The present inventors have also recognized that “rocking” of the yoke arm becomes more pronounced when the pressures of the fluids are not equal. In these examples, a larger force must be applied by the yoke arm to the valve seal which blocks the fluid with the higher pressure (relative to the pressure of the other fluid) (e.g. carbonated water). The larger force applied by the yoke arm is directed in the upstream direction (see
The yoke arm 44 of the present disclosure is shown in greater detail in
The yoke arm 44 also includes a pair of engagement tabs, namely a first tab 53 and a second tab 55, that are configured to contact (and actuate) the levers 35, 37, respectively, as the yoke arm 44 pivots. The first tab 53 has a first width or thickness D1 (
As the yoke arm 44 pivots, the tabs 53, 55 contact the levers 35, 37 (
Referring back to
The shank 39 can also be moved in the second direction by non-electrical devices, and through research and experimentation, the present inventor has developed a handle assembly 60 that moves the shank 39 and thereby pivots the yoke arm 44 without energizing the solenoid valve 38. The handle assembly 60 allows the operator to dispense the mixed beverage at different flow rates (e.g. a low flow rate, a medium flow rate, the maximum flow rate), based on the amount of movement or force applied to the handle 67.
The handle assembly 60 of the present disclosure is depicted in
The handle assembly 60 also includes a sleeve member 88 that is removably coupled (e.g. with screw threads) to the first end 63 of the handle bracket 62. The sleeve member 88 includes an inner sloped surface 89 that corresponds to the outer surface 87 of the cap member 94. The inner sloped surface 89 of the sleeve member 88 slides along the outer surface 87 of the cap member 94 as the handle 67 and handle bracket 62 pivots. The first end 67A of the handle 67 can be disconnected from the handle bracket 62. The handle 67 can be any suitable material and may include indicia to indicate the type of mixed beverage that is dispensed when the handle 67 is pivoted.
Turning now to the portion of the handle assembly 60 that extends in the second direction (arrow Q) toward the valve assembly 20 (
The bearing plate 72 has an upper or bearing surface 75 along which the second end 67B of the handle 67 (e.g. the second end 64 of the handle bracket 62) moves as the handle 67 is pivoted. The bearing surface 75 is curved and has a first end 76 and an opposite second end 77. When the handle 67 is in a rest position (
The handle assembly 60 includes a leg 80 coupled to the second end 67B of the handle 67 (e.g. connected to the second end 64 of the handle bracket 62). The leg 60 has a first leg end 81, coupled to the second end 67B of the handle 67 with a set screw 90 and a fastener 91 (e.g. screw, adhesive), and an opposite second leg end 82 that has a curved contact surface 84 that contacts and acts on the shank 39 (
Referring now to
Now referring to
The flow rate of the mixed beverage dispensed from the nozzle 50 is related to the magnitude of the pulling force (see force arrow R) applied to the handle 67. For example, when a small pulling force is applied to the handle 67 (e.g. the handle 67 is pivoted 6 degrees relative to the rest position; see angle A on
Once the operator releases the handle 67, the biasing member 74 and the spring 41 (
In certain examples, the beverage dispensing machine includes a valve body configured to receive a first fluid and a second fluid and dispense the first fluid through a first orifice and the second fluid through a second orifice, a first valve seal movable to open and close the first orifice, and a second valve seal movable to open and close the second orifice. An arm is pivotally coupled to the valve body and pivoting of the arm relative to the valve body moves the first valve seal and the second valve seal and thereby opens the first orifice and the second orifice. A solenoid valve is configured to pivot the arm. A handle has a leg, and the handle is pivotable into and between a rest position in which the valve seals are closed and an active position in which the valve seals are open. As the handle moves from the rest position to the active position, the leg acts on the solenoid valve such that the arm pivots and the valve seals open. As the handle pivots from the rest position to the active position the valve seals gradually open. The handle has a first end and an opposite second end.
In certain examples, a bearing plate is included along which the second end of the handle moves as the handle pivots. The bearing plate opposes pivoting of the handle toward the active position. A plate receiver with an open end and an opposite closed end can also be included such that as the handle pivots the bearing plate moves toward the closed end of the plate receiver. A biasing member can be included between the bearing plate and the closed end of the plate receiver so as to oppose movement of the bearing plate toward the closed end and thereby bias the handle toward the rest position. The biasing member is a spring that is compressed as the bearing plate moves toward the closed end. The spring applies a spring force to the bearing plate in a direction away from the closed end to thereby oppose movement of the bearing plate toward the closed end and bias the handle toward the rest position. The bearing plate has a bore opposite the bearing surface, and wherein the spring has a first end that contacts the closed end of the plate receiver and a second end disposed in the bore of the bearing plate. The bearing plate has a bearing surface that is curved between a first end and an opposite second end, and the spring force causes the bearing plate to cam the second end of the handle toward the first end of the bearing surface. The second end of the handle is curved to match the first end of the bearing surface, and the second end of the handle is seated at the first end of the bearing surface when the handle is in the rest position. The bearing surface has a lip at the first end of the bearing surface to retain the second end of the handle on the bearing surface.
In certain examples, the beverage dispensing machine includes a valve housing that defines a cavity, a valve body disposed in the cavity and configured to receive a first fluid and a second fluid and dispense the first fluid through a first orifice and the second fluid through a second orifice, a first valve seal movable to open and close the first orifice, and a second valve seal movable to open and close the second orifice. An arm is pivotally coupled to the valve body, and pivoting of the arm relative to the valve body moves the first valve seal and the second valve seal and thereby opens the first orifice and the second orifice. A solenoid valve is included to pivot the arm. A handle is pivotally coupled to the valve housing and includes a leg extending from the handle. The handle is pivotable relative to the valve housing into and between a rest position in which the valve seals are closed and an active position in which the valve seals are open. As the handle moves from the rest position to the active position the leg acts on the solenoid valve such that the arm pivots and the valve seals gradually open. The handle has a first end and an opposite second end that extends into the cavity. In certain examples, a bearing plate is included in the cavity along which the second end of the handle moves as the handle pivots, and the bearing plate opposes pivoting of the handle toward the active position. In certain examples, a plate receiver is coupled to the valve housing and extends into the cavity. The plate receiver has an open end and an opposite closed end, and as the handle pivots the bearing plate moves toward the closed end of the plate receiver. A biasing member can be included between the bearing plate and the closed end of the plate receiver so as to oppose movement of the bearing plate toward the closed end and thereby bias the handle toward the rest position. The biasing member is a spring that compresses as the bearing plate moves toward the closed end, and the spring applies a spring force to the bearing plate in a direction away from the closed end to thereby oppose movement of the bearing plate toward the closed end and bias the handle toward the rest position.
In certain examples, a beverage dispensing valve includes a valve body configured to receive a first fluid and a second fluid and dispense the first fluid through a first orifice and the second fluid through a second orifice, a first valve seal movable to open and close the first orifice, a second valve seal movable to open and close the second orifice, and an arm pivotally coupled to the valve body. Pivoting of the arm relative to the valve body moves the first valve seal and the second valve seal and thereby opens the first orifice and the second orifice, and the arm acts on the first valve seal before the arm acts on the second valve seal. In certain examples, the first orifice and the second orifice simultaneously open. In certain examples, a first lever is coupled to the first valve seal, and a second lever is coupled to the second valve seal. As the arm pivots the arm actuates the first lever before the arm actuates the second lever. In certain examples, the arm has a first tab with a first thickness and a second tab with a second thickness less than the first thickness of the first tab such that the first tab contacts the first lever before the second tab contacts the second lever. In certain examples, the arm includes a first boss and an opposite second boss that extend in opposite directions along a pivot axis about which the arm pivots and the valve body has an opening corresponding to the first boss and the second boss in which the first boss and the second boss are received to thereby fix orientation of the pivot axis relative to the valve body.
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to make and use the invention. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.
The present application is based on and claims priority to U.S. Provisional Patent Application No. 62/608,659 filed Dec. 21, 2017, the disclosure of which is incorporated herein by reference.
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Number | Date | Country | |
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20190194010 A1 | Jun 2019 | US |
Number | Date | Country | |
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62608659 | Dec 2017 | US |