The present disclosure generally relates to a food product dispenser for dispensing liquid or semi-liquid food products. More specifically, the present disclosure relates to a food product dispenser having a lever with a pivot end that slides as the lever is pivoted.
Food product dispensers are found in restaurants, fast food establishments, convenience stores, and the like and are configured to dispense liquid or semi-liquid food products, such as syrups, fudges for ice cream, condiments, sandwich toppings, and dairy products.
Conventional food product dispensers typically include a container that holds a supply of the food product to be dispensed. The food product is poured from a storage container, such as a can or flexible pouch, into the container where the food product held until it is dispensed. In some food product dispensers, the food product is refrigerated or heated while the food product is in the container. The food product dispenser includes a pump, such as a hand-operated piston pump, at least partially submerged in the food product such that actuation of the pump dispenses the food product. The present inventors have recognized that high-viscosity food products, such as liquid fudge and nacho cheese, often require that a large force to be applied to the pump in order to dispense the food product. Accordingly, through research and experimentation, the present inventors have developed the food product dispenser of the present disclosure that has a lever with a slidable pivot end such that the operator can apply primarily vertical forces to the pump such that the food product can be dispensed from the container with ease and lateral forces and stresses acting on the pump are reduced or eliminated.
The following U.S. Patent is incorporated herein by reference in entirety:
U.S. Pat. No. 5,375,746 discloses a hand operated piston displacement-type pump having a one-piece valve body retaining a removable cylinder and discharge tube, for dispensing prescribed portions of complex fluids, such as food products or liquids with suspended solids, at a desired point outside of a storage container. Valve ball control of the flow of the product is obtained with the combination of the precision channels in the valve body and in the bottom of the cylinder and discharge tube. The valve body includes structure necessary for seal and connection to allow the cylinder and discharge tube to be removed, without tools, for cleaning.
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 food product dispenser for dispensing a food product from a container includes a lid configured to couple to the container and a pump coupled to the lid and having a cylinder and a piston assembly with a piston rod and a piston that is reciprocated in the cylinder. Reciprocation of the piston assembly pumps the food product from the container. A lever having a piston end pivotably coupled to the piston rod and an opposite, pivot end with a pivot axis pivotably and slidably coupled to the lid is pivoted about the pivot axis such that the pivot end to slides along the lid and the piston end acts on the piston assembly with a primarily vertical force that reciprocates the piston assembly.
In certain examples, a food product dispenser for dispensing a food product includes a container having a cavity in which the food product is received, a lid coupled to the container, and a pump coupled to the lid. The lid includes a slide bracket having an open end, an opposite, closed end, and a pair of channels separated by a shared center wall that extend between the open end and the closed end. The pump includes a cylinder and a piston assembly that is reciprocated in the cylinder to thereby pump the food product from the container. The piston assembly has a piston rod and a piston. A lever includes a piston end pivotably coupled to the piston rod and an opposite, pivot end pivotably and slidably coupled to the lid. The pivot end has a pivot axis about which the lever is pivoted, an inner perimeter surface that defines an access slot that extends from the pivot end toward the piston end to thereby define two arms, and a tab that extends from each arm along the pivot axis and into the access slot. The tabs are slidably and pivotably received in the pair of channels. In operation, pivoting of the lever about the pivot axis causes the tabs to simultaneously slide in the pair of channels and the piston end act on the piston assembly with a primarily vertical force that reciprocates the piston assembly.
In certain examples, a food product dispenser for dispensing a food product from a container includes a lid configured to couple to the container and a pump coupled to the lid and having a cylinder and a piston assembly having a piston rod and a piston that is reciprocated in the cylinder. Reciprocation of the piston assembly pumps the food product from the container. A lever has a first end coupled to one of the piston assembly and the lid and an opposite, second end coupled to the other of the piston assembly and the lid. The first end is pivotably coupled to the piston assembly or the lid, and the second end is pivotably and slidably coupled to the piston assembly or the lid. The lever pivots about a pivot axis positioned at the first end or the second end such that the lever acts on the piston assembly with a primarily vertical force to reciprocate the piston assembly.
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.
As best shown in
The food product dispenser 10 has a pump 50 coupled to the lid 20 and configured to pump the food product from the container 12 as a result of operation by the operator. The type of pump 50 can vary, and in the example depicted, the pump 50 is a hand-operated piston pump having a cylinder 52 that extends through the first hole 26 of the lid 20. The cylinder 52 has a flange 54 that abuts the lower lid surface 22, and the pump 50 has a collar 58 that engages with the cylinder 52 to thereby secure the cylinder 52 to the lid 20. Specifically, the collar 58 securely fastens, via screw threads, to the cylinder 52 (which has corresponding screw threads) such that the collar 58 abuts the upper lid surface 21 and the lid 20 is sandwiched between the collar 58 and the flange 54. The collar 58 defines a collar hole 59 that slidably receives a piston rod 61 (described herein below).
The pump 50 includes a piston assembly 60 having a piston rod 61 and a piston 64 that is reciprocated in the cylinder 52 to thereby pump the food product. The pump 50 also includes a valve body 70 coupled to the cylinder 52. The cylinder 52 and/or the valve body 70 is at least partially submerged in the food product during operation. The valve body 70 has an inlet 72 through which the food product is drawn through and into the cylinder 52 as the piston assembly 60 is reciprocated in a first direction D1 (up-stroke) toward an extended position (
The pump 50 is actuated by a lever 90 having a piston end 91 coupled to the piston rod 61 of the piston assembly 60 of the pump 50 and an opposite, pivot end 92 slidably coupled to the bracket 30. The pivot end 92 defines a pivot axis 93 about which the lever 90 pivots. The lever 90 extends along a lever axis 95 that is transverse to the pivot axis 93. The lever 90 has an access slot 94 defined by an inner perimeter surface 98 such that the pivot end 92 is a forked end with a pair of arms 105. The pivot end 92 includes a pair of tabs 96 that each protrude from one of the arms 105 and extend along the pivot axis 93 into the access slot 94. The tabs 96 are each slidably received in one of the channels 32 defined by the bracket 30 such that the tabs 96 and the pivot end 92 slides along the plane 31 (
The lever 90 is pivotably coupled to the piston rod 61 of the piston assembly 60 via a cradle 100 that is attached to the piston rod 61. As shown in
The food product dispenser 10 includes a discharge tube 110 coupled to the outlet 74 (
Referring specifically to
Alternately, when the operator applies a vertically upward force F2 (
The present inventor has also contemplated that the piston end 91 of the lever 90 can be slidably coupled to the piston assembly 60 and the pivot end 92 of the lever 90 can be pivotably coupled to the lid 20 to thereby function in a similar (though opposite) manner that is described above. That is, the pivot end 92 does not slide along the lid 20 and the piston assembly 60 slides along the piston end 91. However, the piston end 91 still acts on the piston assembly 60 with a primarily vertical downward/upward force to thereby reciprocate the piston assembly 60 and pump the food product.
In one example, the tabs 96 are inserted into the channels 32 via the open end 34 of the bracket 30. The open end 34 is advantageous for insertion and/or removal of the tabs 96 for ease for attachment and/or de-attachment of the lever 90 to the lid 20 during inspection, assembly, and/or cleaning. The attachment member 97 and the cradle 100 are then coupled together. It should be noted that when the piston assembly 60 is in the retracted position (
In the present 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 only and are intended to be broadly construed. The different apparatuses, systems, and methods described herein may be used alone or in combination with other apparatuses, systems, and methods. Various equivalents, alternatives and modifications are possible within the scope of the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
1561182 | Morlok | Nov 1925 | A |
1739195 | Wheeler | Dec 1929 | A |
1947088 | Johnson | Feb 1934 | A |
2048142 | Santurello | Jul 1936 | A |
2540890 | Kestenbaum | Feb 1951 | A |
2657833 | Steczynski | Nov 1953 | A |
3332585 | Cox | Jul 1967 | A |
3393840 | Sundholm | Jul 1968 | A |
4492319 | Cooper | Jan 1985 | A |
4662544 | Gillispie | May 1987 | A |
5375746 | Schaefer et al. | Dec 1994 | A |
5435463 | Holdgson | Jul 1995 | A |
5452826 | Stern | Sep 1995 | A |
6089406 | Feldner | Jul 2000 | A |
7377408 | Kasting et al. | May 2008 | B2 |
9739417 | Maser | Aug 2017 | B2 |