1. Field of the Disclosure
The present disclosure generally relates to positive cup separation devices and methods that allows for consistent dispensing of a single cup at a time.
2. Discussion of the Background Art
Today stacks of cups are separated by multiple common methods. A flexible diaphragm is commonly used on fountain drink machines as means to separate one drinking cup from the next. (See, e.g., U.S. Pat. No. 6,102,246, especially FIG. 17B, cup restrainer members 230.) The diaphragm is typically comprised of flexible fingers or a flexible rubber like material with a central hole through which cups are pulled. This low cost solution provides generally good results but results in multiple cups being undesirably pulled upon occasion or the crushing of cups due to the force required to remove the cup from the dispensing cylinder or vessel. A different method, used in industrial settings, includes a slide mechanism that ejects the lowest cup in a stack and a cooperating pneumatic suction cup controls the dispensed cup. This method requires significant capital investment in pneumatics and robotics. It also requires clean, dry surfaces in a controlled environment to work properly. High speed automated fill lines utilize a plurality of worm gears or acme screws to dispense hundreds of cups per minute onto an assembly line where they are later aligned for filling.
Typically, gripper would pull cup through a diaphragm posing the difficult issue of how much grip force to use. Too much grip force raises the likelihood that two cups will be pulled from the bottom of the stack while to little force increases the likelihood that the gripper will slide off without gripping a cup.
The problem sought to be overcome is a consistent method of dispensing a single cup from a stack in an automated fashion. The present disclosure singulates cups consistently using automated processes and overcomes the aforementioned disadvantages of the prior art.
The present disclosure also provides many additional advantages, which shall become apparent as described below.
A cup singulation assembly comprising a plurality of interchangeable cup singulation wedge mechanisms of varying sizes assembled together into a circular configuration. The cup singulation wedge mechanisms can be either a single slide configuration, a dual slide configuration or a clamping lever configuration.
Further objects, features and advantages of the present disclosure will be understood by reference to the following drawings and detailed description.
Thus, in one embodiment, the present disclosure provides a cup dispensing apparatus. The apparatus comprises a cup holder for holding a plurality of the cups in stacked alignment, wherein said cup holder comprises a top surface, a bottom surface, and a plurality of holes therethrough. The apparatus also comprises gripping mechanism for removing a single, bottommost one of the cups from the cup holder at a time, wherein the gripping mechanism is slidably connected to a linear actuator. A controller is in communication with the cup holder and the gripping mechanism. The controller has a program resident thereon that controls the cup holder to present the cups to the gripping mechanism, and controls the gripping mechanism to grip one of the cups and remove it from the cup holder.
The present disclosure also provides a method of dispensing a cup from a cup holder, comprising: presenting a plurality of cups to a gripping device, wherein the plurality of cups are arranged in a stacked vertical alignment; controlling the gripping device to grip a bottommost one of said cups; retaining the remainder of said plurality of the stacked cups in place; and controlling the gripping device to remove the bottommost cup.
a-b are bottom and top planar view of cup singulation assembly according to the present disclosure, respectively, comprising a plurality of interchangeable cup singulation wedge mechanisms of varying sizes assembled together into a circular configuration;
a is a top front perspective views of the cup singulation assembly of
b is a front planar perspective view of
a-g are schematic representations of the actuation of the slider cup singulation wedge mechanism embodiment according to the present disclosure;
a-b are schematic representations of the actuation of the scissor clamping (levers) singulation wedge mechanism embodiment according to the present disclosure; and
a-e are a schematic representations of the actuation of a dual slider singulation wedge mechanism according to yet another embodiment of the present disclosure.
The present disclosure can be understood by reference to the figures, wherein
Cups 7 are held in interchangeable singulation wedge mechanisms 19, as shown in
a-g are schematic representations of the actuation of the slider cup singulation wedge mechanism embodiment according to the present disclosure, which utilizes a slide component 23 that engages under lip 25 of the bottom cup 7 in a stack 27. The removal procedure begins with a pneumatic gripper 5 rising to grab the bottom cup 7 on the stack 27. Gripper 5 is moved vertically by either a motorized linear slide or a linear actuator 11. When pneumatic gripper 5 reaches the desired vertical position on cup 7 a solenoid (not shown) is activated to close gripper 5 which holds bottom cup 7 in place. At this point slide component 23 is still engaged underneath lip 25 of bottom cup 7 in stack 27. After gripper 5 closes on cup 7 a solenoid is activated that moves slide component 23 horizontally out from under lip 25 of bottom cup 7. Gripper 5, now holding the entire stack of cups 27, is then moved down a specified amount equal to just over the thickness of cup lip 25. The distance gripper 5 travels is measured by either an encoder on linear actuator 11, a positioning sensor (not shown), or a step counter on a stepper motor (not shown). With cup stack 27 now moved down just more than the distance of one cup lip, the solenoid is de-activated allowing slide 23 to move back into the locked position under the 2nd from bottom cup in stack 27. The slide mechanism 23 is mounted with springs 29 that are extended when the solenoid is engaged and provides the force to pull slide 23 back into position under cup lip 25 when the solenoid is disengaged. With slide component 23 now locked under lip 25 of the second from bottom cup, gripper 5 is moved vertically downward pulling bottom cup 7 of stack 27 away. The major benefit of this slide locking mechanism is the low force required by gripper 5 to remove bottom cup 7. Slide lock mechanism 23 enables gripper 5 to squeeze cup 7 with any level of force and still pull just one cup every time. As shown in
a-b are schematic representations of the actuation of the scissor clamping (levers 51) singulation wedge mechanism embodiment according to the present disclosure. Similar to
a-e are a schematic representations of the actuation of a dual slide 5 singulation wedge mechanism according to yet another embodiment of the present disclosure. The double slider mechanism results in locking of the second from bottom cup while allowing the bottom cup to be pulled from the bottom of the stack. Alternative, the dual slider mechanism provides for a top slider that supports the entire cup stack minus the bottom most cup, i.e. it could be used without the aid of a linear slide actuator/gripper mechanism so as to allow consistent dispensing of a single cup manually.
While we have shown and described several embodiments in accordance with our invention, it is to be clearly understood that the same may be susceptible to numerous changes apparent to one skilled in the art. Therefore, we do not wish to be limited to the details shown and described but intend to show all changes and modifications that come within the scope of the appended claims.
The present disclosure claims the benefit and priority of U.S. Provisional Application No. 61/665,269, filed on Jun. 27, 2012, which is herein incorporated by reference.
Number | Date | Country | |
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61665269 | Jun 2012 | US |