CN110844147A - Capping mechanism of intelligent extraction drinking machine - Google Patents

Abstract

An intelligent beverage extraction machine based on beverage capsules comprises a machine cabinet, wherein an automatic transmission extraction system is arranged in the machine cabinet; the method is characterized in that: the automatic conveying and extracting system comprises a capsule storage rack; the capsule transition storage device is arranged below the capsule storage rack, and a prepositioning structure for locking the beverage capsule is arranged in the storage hole; the capsule conveying device is arranged below the capsule transition storage device; the capsule receiving cup is arranged at the lower part in front of the capsule conveying device and can slide left and right under the driving of the first driving structure; the beverage extraction group is arranged at the tail end of the moving path of the capsule receiving cup, and the side part of the beverage extraction group is provided with an opening for the capsule receiving cup to enter; a capsule removing device for separating the extracted capsule from the capsule receiving cup; the beverage cup tray is used for placing beverage cups, is arranged below the beverage extraction group and is driven by the second driving structure to slide back and forth. This intelligence is extracted drink machine through the reasonable layout of each mechanism, and with the cooperation of beverage extraction group use for this machine can realize that the vending provides probably based on the beverage of extraction mode acquisition.

Description

Capping mechanism of intelligent extraction drinking machine

Technical Field

The invention relates to a beverage vending machine, in particular to a gland mechanism of an intelligent beverage extracting machine.

Background

A beverage capsule based extractor, which is an extraction device for extracting the contents of a container with a corresponding juice by rapidly heating water under high pressure, is suitable for processing the container (capsule) containing the ingredients which, after interaction with a liquid introduced into the capsule, such as hot pressurized water, are capable of producing a beverage or an edible juice. The capsule is a circular truncated cone-shaped ring which can be filled with ingredients such as coffee powder, tea leaves or the like and is closed by a foil-shaped tear face cover welded or crimped to an annular rim extending radially from the side wall of the ring. A common extraction and drinking machine is a capsule coffee machine.

There are also a great variety of traditional beverage vending machines, and if juice vending machines, the existing beverage vending machines are not beverage capsule based machine devices. The existing fruit juice vending machine cannot realize automatic capping, a user takes out a cup with beverage after the beverage is prepared, and then takes out the cup cover, and the user needs to cover the cup cover by himself. The operation is troublesome, and the beverage is easy to spill in the manual capping process.

Disclosure of Invention

The invention aims to solve the technical problem of providing a gland mechanism of an intelligent beverage extraction machine, which has a compact and reasonable structure and can automatically and firmly press a cup cover on the cup mouth of a beverage cup, aiming at the current situation of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a capping mechanism of intelligence extraction drink machine which characterized in that: comprises a fixed base, a cover-falling through hole for the cup cover to pass through; the movable machine base is provided with a gland perforation for the cup cover to pass through, the periphery of the cup cover is provided with a raised annular edge, and the movable machine base is arranged below the fixed machine base and can move up and down relatively; the plurality of cover feeding parts are arranged at intervals along the circumference and positioned at the periphery of the gland perforation, the cover feeding parts are restricted in the moving machine seat and can rotate around the axis of the cover feeding parts, the lower part of the peripheral wall of each cover feeding part is provided with a transmission threaded section matched with the annular edge, and the transmission threaded section can clamp the cup cover and move downwards along with the rotation of the cover feeding parts; a first driving structure for synchronously driving the cap conveying parts to synchronously rotate; and the second driving structure is used for driving the movable base to move up and down relative to the fixed base.

Preferably, the first driving structure comprises a first ring gear constrained in the movable machine base, a first gear engaged with the first ring gear is arranged at the bottom of each cover conveying component, and the first ring gear is in transmission engagement with a first output gear on an output shaft of the first motor. The driving structure can well ensure that each cover feeding part synchronously rotates and is beneficial to control.

Preferably, the second drive structure comprises a transmission screw thread section provided on an upper portion of the circumferential wall of the lid-carrying member, the transmission screw thread section extending upwardly into the stationary housing and being in driving engagement with the transmission screw thread on the inner bore wall of the stationary housing. The driving mechanism and the first driving mechanism share one motor and one transmission part, so that the structure is simplified, the cost is reduced, and the consistency of the actions of the parts is also ensured. Of course, a separate driving structure can be used to drive the movable base to move up and down, such as an electric push rod.

In order to control the stroke of the movable base moving up and down and ensure that the movable base can accurately reset after being pressed once, a first switch used for controlling the working state of a first motor is installed on the movable base, a boss matched with a trigger elastic sheet of the first switch is arranged on the fixed base, the first motor works in the state that the trigger elastic sheet is positioned on the boss, and the first motor stops working or reversely works in the state that the trigger elastic sheet leaves the boss. When the movable base moves downwards to the lowest position, the elastic sheet is triggered to leave the boss downwards, the first motor rotates reversely, the movable base moves upwards until the movable base moves upwards to the highest position (initial position), the elastic sheet is triggered to leave the boss upwards, and the first motor stops working. In order to facilitate assembly, the movable base is formed by connecting a first upper shell and a first lower shell in an involutory manner, the first motor is fixed on the first lower shell, and the first switch is arranged on the first upper shell.

In order to control the stroke of the up-and-down movement of the movable base and ensure that the movable base can accurately reset after being pressed for one time, a switch base is fixed on the movable base, a first upper switch and a first lower switch which are arranged at intervals up and down and used for controlling the working state of a first motor are arranged on the switch base, a trigger plate is fixed on the movable base, and the trigger plate is positioned between the first upper switch and the first lower switch; when the mobile machine base moves upwards to a state that the trigger plate triggers the first upper switch, the first motor stops working; when the movable machine base moves downwards to the state that the trigger plate triggers the first lower switch, the first motor works reversely.

In a further improvement, a plurality of guide pads are arranged on the inner hole wall of the gland perforation at intervals along the circumference, each guide pad is provided with a guide surface which inclines towards the central direction from top to bottom, and the periphery of the cup cover moves downwards along the guide surfaces. The arrangement of the guide pad can ensure that the cup cover can be centered and moved to a preset position every time the cup cover descends, the cup cover is ensured to be accurately aligned with a cup below the gland mechanism,

in order to facilitate assembly, the movable base is formed by connecting a first upper shell and a first lower shell in an involutory mode, the first motor is fixed on the first lower shell, the switch base is installed on the first upper shell, and the guide cushion is arranged on the convex portion of the first lower shell and is pressed by the first upper shell.

In order to ensure that the cup covers are conveyed downwards one by one intermittently, the improvement is further that a cover separating device is arranged in the fixed machine base and comprises a plurality of cover separating parts, the cover separating parts are arranged above the cover conveying parts, the cover separating parts and the cover conveying parts are in one-to-one correspondence and coaxial arrangement and are arranged at intervals along the circumference and positioned at the periphery of the through hole of the falling cover, the cover separating parts are restrained in the fixed machine base and can rotate around the axis of the cover separating parts, conveying thread sections matched with the annular edges are arranged on the peripheral walls of the cover separating parts, and the conveying thread sections can press the annular edges along with the rotation of the cover separating parts so as; and the third driving structure is used for driving each part cover part to rotate. The cooperation of conveying screw thread section and annular step portion guarantees that the rotation of dividing the lid part can only separate the bowl cover one by one, and when a bowl cover fell down the back, divides the lid part stall, realizes sending the bowl cover one by one intermittent type.

Preferably, the third driving structure comprises a second motor and a second ring gear constrained in the fixed base, the bottom of each sub-cover part is provided with a second gear meshed with the second ring gear, and the second ring gear is in transmission meshing with a second output gear on an output shaft of the second motor. The driving structure can well ensure that each sub-cover part synchronously rotates and is beneficial to control.

In order to realize intermittent control on the rotation of the cover dividing component, a second switch used for controlling whether the second motor works or not is installed on the fixed base, a triggering part matched with a triggering elastic sheet of the second switch is arranged on the second output gear, the peripheral surface of the triggering part is provided with an annular surface part and a plane part, the second motor works under the condition that the triggering elastic sheet is positioned on the annular surface part, and the second motor stops working under the condition that the triggering elastic sheet is positioned on the plane part.

In order to make the layout compact, the sub-cover parts and the cover sending parts are arranged coaxially in one-to-one correspondence.

The fixed base is fixed with a storage cylinder for storing a plurality of cup covers which are overlapped together in sequence.

Compared with the prior art, the invention has the advantages that: the mechanism can realize that the cup cover is automatically pressed at the cup mouth of the beverage cup, the beverage cup is arranged below the movable base, the cup cover falls into the gland perforation of the movable base from the cover falling perforation of the fixed base, the edge of the cup cover is placed on the annular edge, the cup cover rotates around the axis of the cup cover along with each cover feeding part, the annular edge of the cup cover can be clamped by the transmission thread section along with the rotation of the cover feeding part, the second driving structure drives the movable base to move downwards relative to the fixed base, the cup cover can move downwards along with the movable base, when the cover feeding part rotates in place, the cup cover can be better and firmly pressed on the beverage cup through the pressing of the movable base, and meanwhile, the cup cover is separated from the clamping of the transmission thread section.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention (with the mobile station in a depressed position);

FIG. 2 is a cross-sectional view of a first embodiment of the present invention (with the mobile chassis in a depressed position);

FIG. 3 is a partial exploded perspective view of the first embodiment of the present invention;

FIG. 4 is a schematic perspective view of the first embodiment of the present invention with a portion of the housing removed;

FIG. 5 is a schematic perspective view of a stationary base according to a first embodiment of the present invention;

FIG. 6 is a perspective view of a second output gear according to the first embodiment of the present invention;

FIG. 7 is a perspective view of a second embodiment of the present invention (the mobile station is at an upward moving initial position);

FIG. 8 is a sectional view of a second embodiment of the present invention (the mobile station is in an upward moving initial position);

FIG. 9 is a schematic perspective view of a second embodiment of the present invention (with the mobile station in a depressed position);

FIG. 10 is a cross-sectional view of a second embodiment of the present invention (with the mobile station in a depressed position);

FIG. 11 is a perspective view of a moving bed portion of a second embodiment of the present invention;

fig. 12 is an exploded perspective view of a moving housing portion according to a second embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in FIGS. 1 to 6, a first embodiment of the present invention is described.

A capping mechanism of an intelligent extraction drinking machine comprises

The fixed base 1 is provided with a cover falling through hole 11 for the cup cover 2 to pass through, and the fixed base 1 is fixed in the extraction and drinking machine.

The movable machine base 3 is provided with a gland perforation 31 for the cup cover 2 to pass through, the periphery of the cup cover 2 is provided with a raised annular edge 21, and the movable machine base 3 is arranged below the fixed machine base 1 and can move up and down relatively.

The plurality of cap sending parts 5 are arranged at intervals along the circumference and are positioned at the periphery of the gland perforation 31, the sub-cap parts 9 are arranged above the cap sending parts 5, the sub-cap parts 9 and the cap sending parts 5 are in one-to-one correspondence and are coaxially arranged, the cap sending parts 5 are restricted in the movable machine base 3 and can rotate around the axis of the sub-cap parts, the lower part of the peripheral wall of each cap sending part 5 is provided with a transmission threaded section 51 matched with the annular edge 21, and the transmission threaded section 51 can clamp the cup cover 2 along with the rotation of the cap sending parts 5 and can move downwards along with the movable machine base 3.

A first driving structure for driving the cap conveying members 5 to rotate synchronously.

And the second driving structure is used for driving the movable base 3 to move up and down relative to the fixed base 1.

The first driving structure comprises a first motor 6a and a first inner gear ring 7a constrained in the movable machine base 3, the bottom of each cover sending part 5 is provided with a first gear 5a meshed with the first inner gear ring 7a, and the first inner gear ring 7a is in transmission meshing with a first output gear 61a on the output shaft of the first motor 6 a.

The second driving structure comprises a transmission threaded section 52 arranged on the upper part of the peripheral wall of the cover sending part 5, and the transmission threaded section 52 extends upwards into the fixed base 1 and is in transmission engagement with the transmission internal thread 12 on the inner hole wall of the fixed base 1.

The movable base 3 is provided with a first switch 8a for controlling the working state of the first motor 6a, the fixed base 1 is provided with a boss 13 matched with a trigger elastic sheet of the first switch 8a, the first motor 6a works in the state that the trigger elastic sheet is positioned on the boss 13, and the first motor 6a stops working or works reversely in the state that the trigger elastic sheet leaves the boss 13. The movable base 3 is formed by involutory connection of a first upper shell 3a and a first lower shell 3b, the first motor 6a is fixed on the first lower shell 3b, and the first switch 8a is installed on the first upper shell 3 a.

The fixed base 1 is fixed with a storage cylinder 10 for storing a plurality of cup lids 2 which are overlapped together in sequence. A cover separating device is arranged in the fixed machine seat 1 and comprises

And a plurality of sub-cover parts 9 which are arranged at intervals along the circumference and are positioned at the periphery of the cover falling through hole 11, the sub-cover parts 9 are restricted in the fixed machine base 1 and can rotate around the axis of the sub-cover parts 9, and the sub-cover parts 9 and the cover feeding parts 5 are in one-to-one correspondence and are coaxially arranged. The peripheral wall of each sub-cover part 9 is provided with a conveying threaded section 91 matched with the annular edge 21, and the conveying threaded section 91 can press the annular edge 21 along with the rotation of the sub-cover part 9 so as to convey the cup covers 2 downwards one by one;

and a third driving structure for synchronously driving the cover dividing parts 9 to synchronously rotate.

The third driving structure comprises a second motor 6b and a second inner gear ring 7b constrained in the fixed base 1, a second gear 5b engaged with the second inner gear ring 7b is arranged at the bottom of each cover part 9, and the second inner gear ring 7b is in transmission engagement with a second output gear 61b on the output shaft of the second motor 6 b.

The fixed base 1 is provided with a second switch 8b for controlling the second motor 6b to work or not, the second output gear 61b is provided with a trigger part 62 matched with a trigger elastic sheet of the second switch 8b, the peripheral surface of the trigger part 62 is provided with an annular surface part 621 and a plane part 622, the second motor 6b works under the condition that the trigger elastic sheet is positioned on the annular surface part 621, and the second motor 6b stops working under the condition that the trigger elastic sheet is positioned on the plane part 622.

The working process and principle of the embodiment are as follows.

1. The second motor 6b works, the second output gear 61b drives the second inner gear ring 7b to rotate, the second inner gear ring 7b drives the sub-cover parts 9 to rotate, the conveying thread sections 91 on the peripheral wall of each sub-cover part 9 press the annular edges 21 along with the rotation of the sub-cover parts 9 so as to convey the cup covers 2 downwards one by one, and when the trigger elastic piece of the second switch 8b is positioned on the plane part 622, the second motor 6b stops working and just sends one cup cover 2 to the conveying thread section 51 on the peripheral wall of the cover conveying part 5.

2. The first motor 6a works, the first output gear 61a drives the first inner gear ring 7a to rotate, the first inner gear ring 7a drives the cover feeding part 5 to rotate, the transmission thread sections 51 on the peripheral wall of each cover feeding part 5 can clamp the cup cover 2 along with the rotation of the cover feeding part 5, meanwhile, the transmission thread sections 52 on the peripheral wall of each cover feeding part 5 are in transmission engagement with the transmission inner threads 12, under the action of a thread transmission principle, the whole moving base 3 is driven to move downwards, the moving base 3 moves downwards to clamp the annular edge 21 clamping the cup cover 2 and moves downwards together, and when the cover feeding part 5 rotates to a position, the cup cover 2 is just pressed on the beverage cup 4, and the cup cover 2 is separated from the clamping of the transmission thread sections 51.

3. The trigger elastic sheet of the first switch 8a leaves the boss 13 from the lower part, the first motor 6a works reversely to drive the moving base 3 to move upwards for resetting, after the trigger elastic sheet of the first switch 8a leaves the boss 13 from the upper part, the first motor 6a stops working, and the resetting is completed to wait for the next cover pressing.

As shown in FIGS. 7 to 12, a preferred embodiment of the present invention is shown.

The present embodiment is different from the first embodiment in that: a switch seat 8 is fixed on the movable machine base 3, a first upper switch 8a1 and a first lower switch 8a2 which are arranged at intervals up and down and used for controlling the working state of the first motor 6a are installed on the switch seat 8, a trigger plate 81 is fixed on the movable machine base 3, and the trigger plate 81 is positioned between the first upper switch 8a1 and the first lower switch 8a 2; in a state where the movable base 3 moves up to the trigger plate 81 to trigger the first upper switch 8a1, the first motor 6a stops operating; in a state where the moving body 3 moves down to the trigger plate 81 to trigger the first lower switch 8a2, the first motor 6a operates in reverse.

The inner hole wall of the gland through hole 31 is provided with a plurality of guide pads 32 at intervals along the circumference, the guide pads 32 are provided with guide surfaces 321 which incline towards the central direction from top to bottom, and the periphery of the cup cover 2 moves downwards along the guide surfaces 321.

The movable base 3 is formed by involutory connection of a first upper shell 3a and a first lower shell 3b, the first motor 6a is fixed on the first lower shell 3b, the switch base 8 is installed on the first upper shell 3a, and the guide pad 32 is sleeved on the convex part 3b1 of the first lower shell 3b and pressed by the first upper shell 3 a.

It should be noted that in the description of the present embodiment, the terms "front, back", "left, right", "up, down", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of describing the present invention and simplifying the description, but does not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. The terms "mounted," "connected," and "coupled" are to be construed broadly and may, for example, be fixedly coupled, detachably coupled, or integrally coupled; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (10)

1. The utility model provides a capping mechanism of intelligence extraction drink machine which characterized in that: comprises that

The fixed base (1) is provided with a cover falling through hole (11) for the cup cover (2) to pass through;

the moving base (3) is provided with a gland perforation (31) for the cup cover (2) to pass through, the periphery of the cup cover (2) is provided with a raised annular edge (21), and the moving base (3) is arranged below the fixed base (1) and can move up and down relatively;

the plurality of cover feeding parts (5) are arranged at intervals along the circumference and are positioned on the periphery of the gland perforation (31), the cover feeding parts (5) are restricted in the moving base (3) and can rotate around the axis of the cover feeding parts, the lower part of the peripheral wall of each cover feeding part (5) is provided with a transmission threaded section (51) matched with the annular edge (21), and the transmission threaded section (51) can clamp the cup cover (2) along with the rotation of the cover feeding parts (5) and can move downwards along with the moving base (3);

a first drive structure for driving each of the cap feeding members (5) to rotate;

the second driving structure is used for driving the movable base (3) to move up and down relative to the fixed base (1).

2. The capping mechanism of an intelligent extraction and drinking machine according to claim 1, wherein: the first driving structure comprises a first motor (6a) and a first inner gear ring (7a) constrained in the moving base (3), a first gear (5a) meshed with the first inner gear ring (7a) is arranged at the bottom of each cover conveying component (5), and the first inner gear ring (7a) is in transmission meshing with a first output gear (61a) on an output shaft of the first motor (6 a).

3. The capping mechanism of an intelligent extraction and drinking machine according to claim 2, wherein: the second driving structure comprises a transmission threaded section (52) arranged on the upper part of the peripheral wall of the cover sending part (5), and the transmission threaded section (52) extends upwards into the fixed base (1) and is in transmission engagement with the transmission internal thread (12) on the inner hole wall of the fixed base (1).

4. The capping mechanism of an intelligent extraction and drinking machine according to claim 2, wherein: the movable base (3) is provided with a first switch (8a) used for controlling the working state of the first motor (6a), the fixed base (1) is provided with a boss (13) matched with a trigger elastic sheet of the first switch (8a), the first motor (6a) works in the state that the trigger elastic sheet is positioned on the boss (13), and the first motor (6a) stops working or works reversely in the state that the trigger elastic sheet leaves the boss (13); the movable base (3) is formed by oppositely connecting a first upper shell (3a) and a first lower shell (3b), the first motor (6a) is fixed on the first lower shell (3b), and the first switch (8a) is installed on the first upper shell (3 a).

5. The capping mechanism of an intelligent extraction and drinking machine according to claim 2, wherein: a switch seat (8) is fixed on the movable machine base (3), a first upper switch (8a1) and a first lower switch (8a2) which are arranged at intervals up and down and used for controlling the working state of a first motor (6a) are mounted on the switch seat (8), a trigger plate (81) is fixed on the movable machine base (3), and the trigger plate (81) is positioned between the first upper switch (8a1) and the first lower switch (8a 2); under the condition that the movable base (3) moves upwards to the trigger plate (81) to trigger the first upper switch (8a1), the first motor (6a) stops working; when the moving base (3) moves downwards to the state that the trigger plate (81) triggers the first lower switch (8a2), the first motor (6a) works reversely.

6. The capping mechanism of intelligent beverage extractor according to claim 5, wherein: the inner hole wall of the gland perforation hole (31) is provided with a plurality of guide pads (32) at intervals along the circumference, the guide pads (32) are provided with guide surfaces (321) which incline towards the central direction from top to bottom, and the periphery of the cup cover (2) moves downwards along the guide surfaces (321).

7. The capping mechanism of intelligent beverage extractor according to claim 6, wherein: the movable machine base (3) is formed by oppositely connecting a first upper shell (3a) and a first lower shell (3b), a first motor (6a) is fixed on the first lower shell (3b), a switch base (8) is installed on the first upper shell (3a), and a guide pad (32) is sleeved on a convex part (3b1) of the first lower shell (3b) and is pressed by the first upper shell (3 a).

8. The capping mechanism of an intelligent extraction and drinking machine according to claim 1, wherein: the fixed base (1) is internally provided with a cover separating device which comprises

The cup cover comprises a plurality of sub-cover parts (9), a plurality of cup cover conveying parts (9) and a plurality of cup cover conveying parts (2), wherein the sub-cover parts (9) are arranged at intervals along the circumference and are positioned at the periphery of a cup cover falling through hole (11), the sub-cover parts (9) are arranged above a cup cover conveying part (5), the sub-cover parts (9) correspond to the cup cover conveying parts (5) one by one and are coaxially arranged, the sub-cover parts (9) are restricted in a fixed base (1) and can rotate around the axis of the sub-cover parts, conveying thread sections (91) matched with the annular edges (21) are arranged on the peripheral wall of each sub-cover part (9), and the conveying thread sections;

and the third driving structure is used for synchronously driving the cover dividing parts (9) to synchronously rotate.

9. The capping mechanism of an intelligent extraction and drinking machine according to claim 8, wherein: the third driving structure comprises a second motor (6b) and a second inner gear ring (7b) constrained in the fixed base (1), a second gear (5b) meshed with the second inner gear ring (7b) is arranged at the bottom of each sub-cover part (9), and the second inner gear ring (7b) is in transmission meshing with a second output gear (61b) on an output shaft of the second motor (6 b); the fixed base (1) is provided with a second switch (8b) used for controlling whether the second motor (6b) works or not, the second output gear (61b) is provided with a triggering part (62) matched with a triggering elastic sheet of the second switch (8b), the peripheral surface of the triggering part (62) is provided with an annular surface part (621) and a plane part (622), the second motor (6b) works in the state that the triggering elastic sheet is positioned on the annular surface part (621), and the second motor (6b) stops working in the state that the triggering elastic sheet is positioned on the plane part (622).

10. The capping mechanism of an intelligent extraction and drinking machine according to claim 1, wherein: the fixed base (1) is fixed with a storage cylinder (10) used for storing a plurality of cup lids (2) which are overlapped together in sequence.

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