The present invention relates to a vending machine and, in particular, to a rotary dispensing mechanism and a rotary dispensing arm for a vending machine, and thereby a vending item can be stored or conveyed by rotation.
For more convenient shopping, a variety of vending machines are available in the market, like the conventional vending machine for vending cold drinks and the recently available vending machine for vending hot soups and foods.
Vending items are directly listed in a track-type display area of the vending machine. After selection is made by a customer through a user interface of the vending machine, a control circuit inside the vending machine actuates a robot arm movable in two directions (X, Y coordinates) or three directions (X, Y, Z coordinates). The X-Y or X-Y-Z coordinate robot arm thereby moves to the display area to get the item, and then the robot arm conveys the item to a slide track to let the item automatically slide to an outlet of the vending machine, or directly conveys the item to the outlet of the vending machine, so a customer can take the item.
To get the item by using the X-Y or X-Y-Z coordinate robot arm, it is required to have a sufficient space inside the vending machine to allow movement of the X-Y or X-Y-Z coordinate robot arm. Therefore, the vending machine needs to be large enough in its size.
Besides, although the X-Y or X-Y-Z coordinate robot arm can convey the vending item chosen by the customer to the outlet of the vending machine, the robot arm can only convey bottles, canned drinks, or items packaged in bags or boxes, and the robot arm is not suitable for conveying items with hot soups inside. The reason is that the X-Y or X-Y-Z coordinate robot arm moves rapidly and tends to spill the hot soups inside the items while moving rapidly. Therefore, in order to convey hot soups, a different conveying mechanism for properly conveying items with hot soups inside is required.
It is an object of the present invention to provide a rotary dispensing mechanism for storing a vending item and discharging the vending item chosen by a customer by rotation.
It is another object of the present invention to provide a rotary arm mechanism, whereby a vending item can be hooked out from an adjacent mechanism at one side and conveyed stably to an adjacent mechanism at another side.
It is still another object of the present invention to provide a rotary arm mechanism, wherein a gap between adjacent mechanisms is covered by a transition module, so that the rotary arm mechanism can covey stably a vending item from an adjacent mechanism to a drawing plate of the rotary arm mechanism.
Accordingly, the present invention provides a rotary dispensing mechanism for a vending machine, installed in the vending machine, comprising: a fixed frame, a rotary base and a stepper motor device. The fixed frame includes a plurality of inlets and one outlet. The rotary base is pivotally connected inside the fixed frame. The rotary base includes an upper rotary disk, a lower rotary disk and a plurality of connection elements. The upper rotary disk and the lower rotary disk both include a plurality of through holes, and the through holes of the upper rotary disk are arranged corresponding to the through holes of the lower rotary disk. The connection elements are fixed to peripheries of the through holes, so that the connection elements are arranged around the through hole to form an accommodating space. The stepper motor device is disposed on the fixed frame, and the stepper motor device is connected to the lower rotary disk to drive the same. When the stepper motor device is actuated, the stepper motor device drives rotation of the rotary base, so that the accommodating space is rotated to above the outlet to discharge a vending item.
According to one embodiment of the present invention, the fixed frame includes an upper cover plate, a lower bottom plate and a plurality of support rods.
According to one embodiment of the present invention, the upper cover plate and the lower bottom plate each include a pivot hole.
According to one embodiment of the present invention, the inlets are disposed on the upper cover plate, and the outlet is disposed on the lower bottom plate.
According to one embodiment of the present invention, the upper rotary disk and the lower rotary disk each include a shaft pivotally connected to the corresponding pivot hole.
According to one embodiment of the present invention, a periphery of the lower rotary disk includes a gear tooth surface, and the gear tooth surface is engaged with the stepper motor device.
According to one embodiment of the present invention, the stepper motor device is disposed on the lower bottom plate, and the stepper motor device includes a transmission gear to be engaged with the gear tooth surface of the lower rotary disk.
According to one embodiment of the present invention, the stepper motor device is a stepper motor.
Accordingly, the present invention further provides a rotary arm mechanism for a vending machine, installed in the vending machine, comprising: a fixed base, a stepper motor device, a drawing plate, a transmission module, and a rotary arm. The stepper motor device is fixed onto the fixed base. The drawing plate is disposed on the fixed base. The transmission module is disposed on the fixed base and connected to the stepper motor device. The rotary arm is connected to the transmission module. The rotary arm includes an arm member, and a hook portion extends from one end of the arm member, wherein the stepper motor device is actuated by the vending machine, the stepper motor device drives the rotary arm to hook out and convey a vending item in the vending machine.
According to one embodiment of the present invention, the fixed base includes an upper plate, a lower plate and a plurality of support plates connected between the upper plate and the lower plate. A transverse plate is connected between the two support plates, and the upper plate and the transverse plate each include a penetrating hole.
According to one embodiment of the present invention, the stepper motor device is fixed at one side of the transverse plate, the stepper motor device includes a rotary shaft, and the rotary shaft is inserted through the penetrating hole of the transverse plate.
According to one embodiment of the present invention, the stepper motor device is a stepper motor.
According to one embodiment of the present invention, the drawing plate is one-fourth circle shaped and is disposed on the upper plate of the fixed base.
According to one embodiment of the present invention, the drawing plate consists of stainless steel.
According to one embodiment of the present invention, the transmission module includes a bearing base, a bearing and a transmission shaft, the bearing base is disposed on the penetrating hole of the upper plate, the bearing is disposed in the bearing base, and the transmission shaft is inserted through the bearing to fixedly connect the stepper motor device.
According to one embodiment of the present invention, an opening is defined on the other end of the arm member, and the rotary arm is fixed onto the transmission module via the opening.
According to one embodiment of the present invention, the hook portion is in a bent blade shape.
According to one embodiment of the present invention, the rotary arm mechanism further comprises a transition module, the transition module is disposed in the fixed base, the transition module includes two pivot portions disposed symmetrical to each other, and a movable plate is pivotally connected between the two pivot portions.
According to one embodiment of the present invention, the transition module returns to its original position by a magnet.
The disclosure will become more fully understood from the detailed description, and the drawings given herein below is for illustration only, and thus does not limit the disclosure, wherein:
Detailed descriptions and technical contents of the present invention are illustrated below in conjunction with the accompany drawings.
Please refer to
The rotary dispensing mechanism 100 includes a fixed frame 10, a rotary base 20 and a stepper motor device 30. The fixed frame 10 is disposed inside the vending machine. The fixed frame 10 includes an upper cover plate 11, a lower bottom plate 12 and a plurality of support rods 13. The upper cover plate 11 and the lower bottom plate 12 have two pivot holes 14, 15 respectively. The two pivot holes 14, 15 are adapted to be pivotally connected with the rotary base 20. The upper cover plate 11 includes a plurality of inlets 16, and the inlet 16 is provided for the vending item to be loaded therethrough into the rotary base 20. The lower bottom plate 12 includes one outlet thereon. The outlet 17 is provided so that the rotary base 20 can rotate to discharge therethrough the vending item. The rotary base 20 is pivotally connected inside the fixed frame 10; the rotary base 20 includes an upper rotary disk 21, a lower rotary disk 22 and a plurality of connection elements 23. The upper rotary disk 21 and the lower rotary disk 22 both include a plurality of through holes 24, the through holes 24 of the upper rotary disk 21 are arranged corresponding to the through holes 24 of the lower rotary disk 22. The connection elements 23 are fixed to peripheries of the through holes 24, and the connection elements 23 are arranged around the through hole 24 to form an accommodating space 28 for receiving the vending item (not illustrated). Furthermore, the upper rotary disk 21 and the lower rotary disk 22 each include a shaft 25, 26 pivotally connected to the corresponding pivot hole 14, 15. Moreover, a periphery of the lower rotary disk 22 includes a gear tooth surface 27, and the gear tooth surface 27 is engaged with the stepper motor device 30. The stepper motor device 30 is disposed on the lower bottom plate 12, and the stepper motor device 30 includes a transmission gear 31 to be engaged with the gear tooth surface 27 of the lower rotary disk 22. In the drawing, the stepper motor device 30 is a stepper motor.
The rotary arm mechanism 200 includes a fixed base 40, a stepper motor device 50, a drawing plate 60, a transmission module 70, a rotary arm 80, and a transition module 90. The fixed base 40 includes an upper plate 41, a lower plate 42 and a plurality of support plates 43 connected between the upper plate 41 and the lower plate 42. A transverse plate 44 is connected between the two support plates 43. The upper plate 41 and the transverse plate 44 each include a penetrating hole 45, 46. The stepper motor device 50 is fixed at one side of the transverse plate 44, the stepper motor device 50 includes a rotary shaft 51, and the rotary shaft 51 is inserted through the penetrating hole 46 of the transverse plate 44 to be connected to the transmission module 70. In the drawing, the stepper motor device 50 is a stepper motor. The drawing plate 60 is one-fourth circle shaped and is disposed on the upper plate 41 of the fixed base 40. The drawing plate 60 is adapted to hold the item hooked out by the rotary arm 80. In the drawing, the drawing plate 60 consists of stainless steel. The transmission module 70 is disposed on the upper plate 41 and is connected to the rotary shaft 51 of the stepper motor device 50. The transmission module 70 includes a bearing base 71, a bearing 72 and a transmission shaft 73. The bearing base 71 is disposed on the penetrating hole 45 of the upper plate 41, the bearing 72 is disposed in the bearing base 71, and the transmission shaft 73 is inserted through the bearing 72 to fixedly connect the rotary shaft 51 of the stepper motor device 50. The transmission shaft 73 is driven to rotate by the stepper motor device 50. The rotary arm 80 is connected to the transmission module 70. The rotary arm 80 includes an arm member 81. An opening 82 is defined on the other end of the arm member 81, the rotary arm 80 is fixed onto the transmission shaft 73 via the opening 82. A hook portion 83 in a bent blade shape extends from the other end of the arm member 81. The hook portion 83 hooks out the vending item discharged by the rotary dispensing mechanism 100. The transition module 90 is disposed at one side of the upper plate 41 of the fixed base 40. The transition module 90 includes two pivot portions 91 disposed symmetrical to each other, and a movable plate 92 is pivotally connected between the two pivot portions 91. The transition module 90 returns to its original position by means of a magnet. The transition module 90 serves to cover a gap between an adjacent mechanism and the drawing plate 60, so that the item hooked out can be conveyed stably onto the drawing plate 60.
After a selection is made by the customer through a user interface of the vending machine (not illustrated), the control circuit inside the vending machine actuates rotation of the stepper motor device 30, so that the transmission gear 31 of the stepper motor device 30 drives rotation of the lower rotary disk 22 to rotate the bowl 300 chosen by the customer to above the outlet 17 of the lower bottom plate 12. At this point, the mechanism coming to receive the bowl 300 can get the bowl 300 and convey it to other mechanism for subsequent processes.
Please refer to
When the rotary arm mechanism 100 hooks and conveys the bowl 300 to the drawing plate 60, the movable plate 92 of the transition module 90 moves in response to the movement of the rotary arm mechanism 100 to cover the gap between the adjacent mechanism and the drawing plate 60, so that the item hooked out can be stably conveyed to the drawing plate 60.
This rotation design, which enables the vending item to be rotated out, not only has a simple structure, but also takes up no storage space inside the vending machine. Accordingly, more different items with various flavors can be stored inside the vending machine.
It is to be understood that the above descriptions are merely the preferable embodiment of the present invention and are not intended to limit the scope of the present invention. Equivalent changes and modifications made in the spirit of the present invention are regarded as falling within the scope of the present invention.
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Number | Date | Country | |
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20180308307 A1 | Oct 2018 | US |