CN210871098U

CN210871098U - Automatic beverage capsule distributing device and automatic beverage vending machine with same

Info

Publication number: CN210871098U
Application number: CN201921641066.3U
Authority: CN
Inventors: 屠强; 彭峻; 黄小杰
Original assignee: Shenzhen Colibri Technologies Co ltd
Current assignee: Shenzhen Colibri Technologies Co ltd
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2020-06-30
Anticipated expiration: 2029-09-27

Abstract

The application provides an automatic beverage capsule distribution device and an automatic beverage vending machine with the same, wherein the device comprises a mounting frame, a storage barrel, a limiting charging barrel, an isolating rotating shaft, an isolating sheet, a material placing sheet and a rotary driver; the spacing material barrel is arranged under the material storage barrel in a clearance-opening mode, the isolation rotating shaft is vertically pivoted on the mounting frame, the isolation sheet is horizontally fixed at the upper end of the isolation rotating shaft, the discharging sheet is horizontally fixed at the lower end of the isolation rotating shaft, and the isolation rotating shaft is in transmission connection with the output end of the rotary driver; when the isolating sheet rotates and exits from an outlet at the lower end of the material storage barrel, the discharging sheet rotates and extends into and blocks the outlet at the lower end of the limiting charging barrel; when the isolating piece rotates to stretch into and blocks at the outlet of the lower end of the storage barrel, the isolating piece is isolated and inserted between the top of the beverage capsule in the limiting charging barrel and the bottom of the beverage capsule at the lowest position in the storage barrel, and at the moment, the discharging piece rotates to retreat and avoid the beverage capsule in the limiting charging barrel to be released and fall at the outlet of the lower end of the limiting charging barrel.

Description

Automatic beverage capsule distributing device and automatic beverage vending machine with same

Technical Field

The utility model relates to a technical field of equipment is sold to the beverage, especially relates to an automatic feed divider of drink capsule and have device's drink vending machine.

Background

The existing beverage vending machine such as a coffee vending machine usually needs to throw coffee capsules one by one onto a coffee capsule extraction and brewing device in a manual operation throwing mode or a mechanical throwing mode to extract and brew coffee beverages.

The mode of manually putting the coffee capsules has the defects of labor consumption, high labor cost and low efficiency.

In addition, for the mode of mechanically delivering the coffee capsule, the existing mechanical delivery structure is extremely complex, the volume is large, the manufacturing cost is high, the maintenance is difficult, the situation of coffee capsule jamming or accidental falling is easy to occur when the coffee capsule is delivered, and the defect of low efficiency also exists.

Therefore, there is a need for an automatic beverage capsule distribution device and a beverage vending machine having the same to overcome the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of this application is to provide an automatic feed divider of beverage capsule, this automatic feed divider of beverage capsule has simple structure, small, low in manufacturing cost, easy to maintain, need not to consume labour, efficient and can prevent the advantage that beverage capsule jamming and accident drop.

Another object of the embodiment of this application is to provide a beverage vending machine, this beverage vending machine has simple structure, small, low in manufacturing cost, easy to maintain, need not to consume labour, efficient and can prevent that beverage capsule jamming and unexpected advantage that drops.

In order to achieve the above object, a first aspect of the embodiments of the present application provides an automatic beverage capsule distribution device, which is suitable for releasing beverage capsules one by one, wherein the automatic beverage capsule distribution device includes: the device comprises a mounting frame, a material storage barrel, a limiting material barrel, an isolating rotating shaft, an isolating sheet, a material placing sheet and a rotary driver;

the storage barrel and the limiting charging barrel are fixed on the mounting frame along the vertical direction, and the limiting charging barrel is arranged under the storage barrel in a clearance manner;

the isolation rotating shaft is vertically pivoted on the mounting frame, the isolation sheet is horizontally fixed at the upper end of the isolation rotating shaft, and the material placing sheet is horizontally fixed at the lower end of the isolation rotating shaft;

the rotary driver is vertically fixed on the mounting rack, and the isolation rotating shaft is in transmission connection with the output end of the rotary driver;

the isolating sheet can horizontally rotate to extend into or withdraw from an outlet at the lower end of the material storage barrel, and the material placing sheet can horizontally rotate to extend into or withdraw from an outlet at the lower end of the limiting material barrel;

when the isolating piece rotates, exits and avoids an outlet at the lower end of the storage barrel, the discharging piece rotates, extends and blocks the outlet at the lower end of the limiting charging barrel, and at the moment, one beverage capsule falls from the storage barrel into the limiting charging barrel and is supported on the discharging piece;

when the isolating piece rotates to extend into and block at the outlet at the lower end of the storage barrel, the isolating piece is inserted between the top of the beverage capsule in the limiting charging barrel and the bottom of the beverage capsule at the lowest position in the storage barrel in an isolating way, and at the moment, the discharging piece rotates to retreat and avoid at the outlet at the lower end of the limiting charging barrel to release the beverage capsule in the limiting charging barrel to drop.

Optionally, the spacing block is of a disc-shaped structure, a first avoidance notch is formed in the spacing block, and the first avoidance notch can be used for the beverage capsule to vertically drop.

Optionally, the material placing sheet is of a disc-shaped structure, a second avoiding notch is formed in the material placing sheet, the second avoiding notch can be used for allowing the beverage capsule to vertically drop through, and the first avoiding notch and the second avoiding notch are arranged in a mode of deviating from each other.

Optionally, the first avoidance gap and the second avoidance gap are both fan-shaped structures.

Optionally, a first guide inclined surface is formed at an edge of the first avoidance notch.

Optionally, a second guide inclined surface is formed at an edge of the second avoidance gap.

Optionally, the mounting frame comprises: the device comprises a base, a pillar, a first mounting seat and a second mounting seat; the pillar is vertically fixed on the base, the first mounting seat and the second mounting seat are fixed on the pillar, the second mounting seat is located below the first mounting seat, the storage barrel is fixed on the first mounting seat, and the limiting material barrel is fixed on the second mounting seat.

Optionally, the isolation rotating shaft is pivoted to the second mounting base, and the isolation rotating shaft is fixedly connected to the output end of the rotary driver.

Optionally, the mounting frame further comprises: mounting a plate; the mounting plate is horizontally fixed on the support, is positioned below the limiting charging barrel and is provided with an avoidance hole which is right opposite to the limiting charging barrel and through which the beverage capsule passes; the rotary driver is fixed on the mounting plate.

A second aspect of embodiments of the present application provides a beverage vending machine, wherein the beverage vending machine comprises the automatic beverage capsule distribution device of any one of the preceding claims.

The storage barrel and the limiting material barrel of the automatic beverage capsule distributing device are fixed on the mounting frame along the vertical direction, and the limiting material barrel is arranged right below the storage barrel in a clearance manner; the isolation rotating shaft is vertically pivoted on the mounting frame, the isolating sheet is horizontally fixed at the upper end of the isolation rotating shaft, and the discharging sheet is horizontally fixed at the lower end of the isolation rotating shaft; the rotary driver is vertically fixed on the mounting frame, and the isolation rotating shaft is in transmission connection with the output end of the rotary driver; the isolating sheet can horizontally rotate to extend into or withdraw from an outlet at the lower end of the material storage barrel, and the material placing sheet can horizontally rotate to extend into or withdraw from an outlet at the lower end of the limiting material barrel; when the isolating piece rotates and exits from an outlet at the lower end of the material storage cylinder, the discharging piece rotates and extends into the outlet blocked at the lower end of the limiting charging barrel, and at the moment, a beverage capsule falls from the material storage cylinder into the limiting charging barrel and is supported on the discharging piece; when the isolating piece rotates to stretch into and blocks at the outlet of the lower end of the storage barrel, the isolating piece is isolated and inserted between the top of the beverage capsule in the limiting charging barrel and the bottom of the beverage capsule at the lowest position in the storage barrel, and at the moment, the discharging piece rotates to retreat and avoid the beverage capsule in the limiting charging barrel to be released and fall at the outlet of the lower end of the limiting charging barrel. Then, a plurality of beverage capsules are stacked in the storage barrel one by one, the rotary driver drives the isolation rotating shaft to drive the isolation sheet and the discharging sheet to synchronously rotate, when the isolation sheet rotates and exits from the outlet at the lower end of the storage barrel, the discharging sheet rotates and extends into the outlet at the lower end of the limiting material barrel, and at the moment, one beverage capsule falls from the storage barrel into the limiting material barrel and is supported on the discharging sheet; and then, when the isolating piece rotates to extend into and block the outlet at the lower end of the storage barrel, the isolating piece is isolated and inserted between the top of the beverage capsule in the limiting charging barrel and the bottom of the beverage capsule at the lowest position in the storage barrel, at the moment, the discharging piece rotates to retreat and avoid the outlet at the lower end of the limiting charging barrel to release the beverage capsule in the limiting charging barrel to drop, and the mechanical and automatic release of the beverage capsules one by one can be realized through the circular motion. The manual operation throwing mode is replaced, labor force does not need to be consumed, labor cost is reduced, and efficiency is improved; and the structure is greatly simplified, and is simpler, the volume is greatly reduced, the manufacturing cost is reduced, the maintenance is easier, and the conditions of clamping stagnation and accidental falling of the beverage capsules can be prevented. Because the drink vending machine of this application has the automatic feed divider of the foretell drink capsule of this application, the drink vending machine of this application also has simple structure, small, low in manufacturing cost, easy to maintain, need not to consume labour, efficient and can prevent the advantage that drink capsule jamming and accident drop.

Drawings

Fig. 1 is a combined perspective view of an embodiment of an automatic beverage capsule distribution device in the embodiment of the present application.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a sectional view taken along line a-a of fig. 2.

Detailed Description

The present application will be further described with reference to the accompanying drawings and preferred embodiments, but the embodiments of the present application are not limited thereto.

Referring to fig. 1 to 3, the automatic beverage capsule distribution device 100 of the present application is adapted to release beverage capsules one by one, wherein the automatic beverage capsule distribution device 100 of the present application includes: the device comprises a mounting rack 10, a storage barrel 20, a limiting material barrel 30, an isolating rotating shaft 40, an isolating sheet 50, a material placing sheet 60 and a rotary driver 70; the storage barrel 20 and the limiting barrel 30 are both fixed on the mounting frame 10 along the vertical direction, and the limiting barrel 30 is arranged under the storage barrel 20 in a clearance manner; the isolation rotating shaft 40 is vertically pivoted on the mounting frame 10, the isolation sheet 50 is horizontally fixed at the upper end of the isolation rotating shaft 40, and the discharge sheet 60 is horizontally fixed at the lower end of the isolation rotating shaft 40; the rotary driver 70 is preferably a motor, but not limited thereto, the rotary driver 70 is vertically fixed on the mounting frame 10, and the isolation rotating shaft 40 is in transmission connection with the output end of the rotary driver 70; the isolating sheet 50 can horizontally rotate to extend into or withdraw from an outlet at the lower end of the storage barrel 20, and the discharging sheet 60 can horizontally rotate to extend into or withdraw from an outlet at the lower end of the limiting charging barrel 30; when the isolating sheet 50 rotates and exits from the outlet at the lower end of the storage barrel 20, the discharging sheet 60 rotates and extends into the outlet blocked at the lower end of the limiting charging barrel 30, and at the moment, a beverage capsule falls from the storage barrel 20 into the limiting charging barrel 30 and is supported on the discharging sheet 60; when the isolating piece 50 rotates to extend into and block the outlet at the lower end of the storage barrel 20, the isolating piece 50 is isolated and inserted between the top of the beverage capsule in the limiting charging barrel 30 and the bottom of the beverage capsule at the lowest position in the storage barrel 20, and at the moment, the material placing piece 60 rotates to retreat and avoid the outlet at the lower end of the limiting charging barrel 30 so as to release the beverage capsule in the limiting charging barrel 30 to drop. Then, a plurality of beverage capsules are stacked one by one in the storage barrel 20, the rotary driver 70 drives the isolation rotating shaft 40 to drive the isolation sheet 50 and the discharging sheet 60 to synchronously rotate, when the isolation sheet 50 rotates and exits from the outlet at the lower end of the storage barrel 20, the discharging sheet 60 rotates and extends into the outlet at the lower end of the limiting material barrel 30, and at the moment, one beverage capsule falls from the storage barrel 20 into the limiting material barrel 30 and is supported on the discharging sheet 60; then, when the isolating piece 50 extends into and blocks the outlet at the lower end of the storage barrel 20, the isolating piece 50 is isolated and inserted between the top of the beverage capsule in the limiting material barrel 30 and the bottom of the beverage capsule at the lowest position in the storage barrel 20, at the moment, the material placing piece 60 rotates and exits from the outlet at the lower end of the limiting material barrel 30 to release the beverage capsule in the limiting material barrel 30 to drop, and the mechanical and automatic release of the beverage capsules one by one can be realized through the circular operation. The manual operation throwing mode is replaced, labor force does not need to be consumed, labor cost is reduced, and efficiency is improved; and the structure is greatly simplified, and is simpler, the volume is greatly reduced, the manufacturing cost is reduced, the maintenance is easier, and the conditions of clamping stagnation and accidental falling of the beverage capsules can be prevented. Specifically, the following:

wherein, the spacing block 50 is disc structure, and has seted up first dodge breach 51 on the spacing block 50, and first dodge breach 51 can supply the drink capsule vertical to drop to pass through. Meanwhile, the material placing sheet 60 is also of a disc-shaped structure, a second avoiding notch 61 is formed in the material placing sheet 60, the second avoiding notch 61 can be used for allowing the beverage capsules to vertically drop through, and the first avoiding notch 51 and the second avoiding notch 61 are arranged in a mode of deviating from each other in the facing direction. So as to realize the alternately matched blocking and releasing of the beverage capsules by the isolating sheets 50 and the emptying sheets 60, and the structure is simpler and more compact. Preferably, in this embodiment, the first avoidance notch 51 and the second avoidance notch 61 are both fan-shaped structures, so that the structure is simpler, and the difficulty of production and processing is reduced. Preferably, in the present embodiment, the edge of the first avoiding notch 51 is provided with a first guiding inclined surface 52, so as to conveniently guide the isolating sheet 50 to be inserted between the top of the beverage capsule in the limiting material cylinder 30 and the bottom of the beverage capsule at the lowest position in the material storage cylinder 20, and prevent scratching or jamming of the beverage capsule. Meanwhile, a second guide inclined surface 62 is also formed at the edge of the second avoiding notch 61, so that when the discharging sheet 60 rotates to retreat from the outlet at the lower end of the limiting material cylinder 30, the beverage capsule is guided by the second guide inclined surface 62 to slowly slide out of the limiting material cylinder 30, and the beverage capsule is prevented from being scratched or stuck.

Further, in the present embodiment, the mount 10 includes: a base 11, a pillar 12, a first mounting base 13 and a second mounting base 14; pillar 12 is vertical to be fixed in on the base 11, and first mount pad 13 and second mount pad 14 are all fixed in on pillar 12, and second mount pad 14 is located the below of first mount pad 13, and storage cylinder 20 is fixed in on the first mount pad 13, and spacing feed cylinder 30 is fixed in on the second mount pad 14, and simple structure is compact. Preferably, in the present embodiment, the isolation rotating shaft 40 is pivoted on the second mounting seat 14, and the isolation rotating shaft 40 is fixedly connected to the output end of the rotary driver 70, so as to realize a structure that the isolation rotating shaft 40 is vertically pivoted on the mounting frame 10 and the isolation rotating shaft 40 is in transmission connection with the output end of the rotary driver 70, and the structure is simpler and more compact.

Preferably, in this embodiment, the mounting frame 10 further includes: a mounting plate 15; the mounting panel 15 is fixed in on the pillar 12 horizontally, and the mounting panel 15 is located the below of spacing feed cylinder 30, has seted up on the mounting panel 15 just to spacing feed cylinder 30 and supply the hole 151 of dodging that the drink capsule passes through, and one dodges the drink capsule and drops. The rotary driver 70 is fixed to the mounting plate 15, so that the installation layout of the rotary driver 70 is more reasonable.

The working principle of the automatic beverage capsule distribution device 100 of the present application will be described in detail with reference to the accompanying drawings:

firstly, beverage capsules with required quantity are stacked one by one in the storage barrel 20, the rotary driver 70 drives the isolation rotating shaft 40 to drive the isolation sheet 50 and the discharging sheet 60 to synchronously rotate, when the isolation sheet 50 rotates and exits from an outlet at the lower end of the storage barrel 20, the discharging sheet 60 rotates and extends into the outlet blocked at the lower end of the limiting charging barrel 30, and at the moment, one beverage capsule falls from the storage barrel 20 into the limiting charging barrel 30 and is supported on the discharging sheet 60; then, when the isolating piece 50 extends into and blocks the outlet at the lower end of the storage barrel 20, the isolating piece 50 is isolated and inserted between the top of the beverage capsule in the limiting material barrel 30 and the bottom of the beverage capsule at the lowest position in the storage barrel 20, at the moment, the material placing piece 60 rotates and exits from the outlet at the lower end of the limiting material barrel 30 to release the beverage capsule in the limiting material barrel 30 to drop, and the mechanical and automatic release of the beverage capsules one by one can be realized through the circular operation.

Optionally, in this embodiment, the automatic dispensing device 100 for beverage capsules is disposed in a beverage vending machine (not shown), so as to complete the operation steps of storing and releasing beverage capsules one by one in the beverage vending machine. In detail, the beverage vending machine of the present application may be selected as a coffee vending machine, and the beverage capsule corresponds to a coffee capsule, but not limited thereto.

The storage barrel 20 and the limiting material barrel 30 of the automatic beverage capsule distribution device 100 are both fixed on the mounting frame 10 along the vertical direction, and the limiting material barrel 30 is arranged under the storage barrel 20 in a clearance manner; the isolation rotating shaft 40 is vertically pivoted on the mounting frame 10, the isolation sheet 50 is horizontally fixed at the upper end of the isolation rotating shaft 40, and the discharge sheet 60 is horizontally fixed at the lower end of the isolation rotating shaft 40; the rotary driver 70 is vertically fixed on the mounting frame 10, and the isolation rotating shaft 40 is in transmission connection with the output end of the rotary driver 70; the isolating sheet 50 can horizontally rotate to extend into or withdraw from an outlet at the lower end of the storage barrel 20, and the discharging sheet 60 can horizontally rotate to extend into or withdraw from an outlet at the lower end of the limiting charging barrel 30; when the isolating sheet 50 rotates and exits from the outlet at the lower end of the storage barrel 20, the discharging sheet 60 rotates and extends into the outlet blocked at the lower end of the limiting charging barrel 30, and at the moment, a beverage capsule falls from the storage barrel 20 into the limiting charging barrel 30 and is supported on the discharging sheet 60; when the isolating piece 50 rotates to extend into and block the outlet at the lower end of the storage barrel 20, the isolating piece 50 is isolated and inserted between the top of the beverage capsule in the limiting charging barrel 30 and the bottom of the beverage capsule at the lowest position in the storage barrel 20, and at the moment, the material placing piece 60 rotates to retreat and avoid the outlet at the lower end of the limiting charging barrel 30 so as to release the beverage capsule in the limiting charging barrel 30 to drop. Then, a plurality of beverage capsules are stacked one by one in the storage barrel 20, the rotary driver 70 drives the isolation rotating shaft 40 to drive the isolation sheet 50 and the discharging sheet 60 to synchronously rotate, when the isolation sheet 50 rotates and exits from the outlet at the lower end of the storage barrel 20, the discharging sheet 60 rotates and extends into the outlet at the lower end of the limiting material barrel 30, and at the moment, one beverage capsule falls from the storage barrel 20 into the limiting material barrel 30 and is supported on the discharging sheet 60; then, when the isolating piece 50 extends into and blocks the outlet at the lower end of the storage barrel 20, the isolating piece 50 is isolated and inserted between the top of the beverage capsule in the limiting material barrel 30 and the bottom of the beverage capsule at the lowest position in the storage barrel 20, at the moment, the material placing piece 60 rotates and exits from the outlet at the lower end of the limiting material barrel 30 to release the beverage capsule in the limiting material barrel 30 to drop, and the mechanical and automatic release of the beverage capsules one by one can be realized through the circular operation. The manual operation throwing mode is replaced, labor force does not need to be consumed, labor cost is reduced, and efficiency is improved; and the structure is greatly simplified, and is simpler, the volume is greatly reduced, the manufacturing cost is reduced, the maintenance is easier, and the conditions of clamping stagnation and accidental falling of the beverage capsules can be prevented. Because the drink vending machine of this application has the automatic feed divider 100 of the foretell drink capsule of this application, the drink vending machine of this application also has simple structure, small, low in manufacturing cost, easy to maintain, need not to consume labour, efficient and can prevent the advantage that drink capsule jamming and accident drop.

The present application has been described in connection with the embodiments, but the present application is not limited to the embodiments disclosed above, and various modifications and equivalent combinations that are made according to the essence of the present application should be covered.

Claims

1. An automatic feed divider of beverage capsule is applicable to release beverage capsule one by one, its characterized in that, automatic feed divider of beverage capsule includes: the device comprises a mounting frame, a material storage barrel, a limiting material barrel, an isolating rotating shaft, an isolating sheet, a material placing sheet and a rotary driver;

2. The automatic beverage capsule distribution device of claim 1, wherein the separation sheet is in a disc shape, and a first avoiding gap is formed in the separation sheet, and the first avoiding gap allows the beverage capsule to vertically drop through.

3. The automatic beverage capsule distribution device as claimed in claim 2, wherein the material placing sheet is of a disc-shaped structure, and a second avoiding notch is formed in the material placing sheet, the second avoiding notch can allow the beverage capsule to vertically drop through, and the first avoiding notch and the second avoiding notch are arranged in a manner of deviating from each other in the direction of orientation.

4. The automatic beverage capsule distribution device as claimed in claim 3, wherein the first avoiding gap and the second avoiding gap are both fan-shaped.

5. The automatic beverage capsule distribution device of claim 2, wherein the edge of the first avoiding notch is provided with a first guiding inclined surface.

6. The automatic beverage capsule distribution device as claimed in claim 3, wherein the edge of the second avoiding gap is provided with a second guiding inclined surface.

7. The automatic beverage capsule distribution device of claim 1, wherein the mounting bracket comprises: the device comprises a base, a pillar, a first mounting seat and a second mounting seat; the pillar is vertically fixed on the base, the first mounting seat and the second mounting seat are fixed on the pillar, the second mounting seat is located below the first mounting seat, the storage barrel is fixed on the first mounting seat, and the limiting material barrel is fixed on the second mounting seat.

8. The automatic dispensing device for beverage capsules according to claim 7, wherein the isolating shaft is pivotally connected to the second mounting seat and is fixedly connected to the output end of the rotary driver.

9. The automatic beverage capsule distribution device of claim 7, wherein the mounting frame further comprises: mounting a plate; the mounting plate is horizontally fixed on the support, is positioned below the limiting charging barrel and is provided with an avoidance hole which is right opposite to the limiting charging barrel and through which the beverage capsule passes; the rotary driver is fixed on the mounting plate.

10. A beverage vending machine, characterized in that it comprises an automatic beverage capsule distribution device according to any one of claims 1 to 9.