CN218350938U - Full-automatic yard payment all-in-one of sending out dishes of sweeping - Google Patents

Abstract

The utility model discloses a full-automatic code scanning payment dish discharging integrated machine, which comprises a storage bin, wherein one side of the storage bin is communicated with a transition bin, and the transition bin is connected with a meal pushing device; a first opening is formed in one side of the transition bin, an outer barrel and an inner rotating barrel which are mutually sleeved are arranged outside the first opening, and a first discharge hole is formed in the side wall of the inner rotating barrel; the outer barrel is fixed relative to the transition bin, the inner rotary drum is in rotating fit with the outer barrel, and a second discharge hole is formed in the lower portion of the outer barrel; one end of the inner rotary drum is provided with a second opening, and a front and back food cutting structure is arranged between the first opening and the second opening. The utility model provides a full-automatic yard payment all-in-one of sending out dishes of sweeping can reduce the cost of labor, can realize the accurate ejection of compact moreover, reduces the contact of personnel and dish, and is more sanitary.

Description

Full-automatic yard payment all-in-one of sending out dishes of sweeping

Technical Field

The utility model relates to a meal selling equipment field especially relates to a full-automatic yard payment all-in-one of sweeping goes out dish.

Background

More and more people choose to solve the eating problem by buying fast food because fast food has the advantages of price deviation and convenience and rapidness. At present, the business model of fast food restaurants is to make quantitative meals in advance and sell the meals to people who buy fast food at the breakfast, the lunch and the supper. However, the distribution of the food in the fast food restaurant is still manually completed, so that the labor cost is high, the contact between people and food materials is more, and the risk of spreading bacteria and viruses is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic sign indicating number payment all-in-one of going out dishes of sweeping can reduce the cost of labor, can realize the accurate ejection of compact moreover.

In order to realize the purpose, the utility model provides a full-automatic code scanning payment dish discharging integrated machine, which comprises a storage bin, wherein one side of the storage bin is communicated with a transition bin, and the transition bin is connected with a meal pushing device; a first opening is formed in one side of the transition bin, an outer barrel and an inner rotating barrel which are mutually sleeved are arranged outside the first opening, and a first discharge hole is formed in the side wall of the inner rotating barrel; the outer barrel is fixed relative to the transition bin, the inner rotary drum is in rotating fit with the outer barrel, and a second discharge hole is formed in the lower portion of the outer barrel; one end of the inner rotary drum is provided with a second opening, and a front and back food cutting structure is arranged between the first opening and the second opening.

As a further improvement of the present invention, the front and rear food cutting structure comprises a first cutting portion and a second cutting portion, the first cutting portion is disposed at the middle lower portion of the first opening of the transition bin, and the second cutting portion is disposed at the second opening of the inner rotary drum; the first cutout includes a first inclined surface.

As a further improvement of the present invention, the second cutting portion includes a second inclined surface.

As a further improvement, the meal ejecting device is a screw conveyer, and it includes the motor and the first pivot of linkage mutually, and first pivot is located transition bin and both normal running fit, is equipped with the spiral leaf on the first pivot.

As a further improvement of the present invention, a first sleeve is sleeved outside the first rotating shaft, the spiral blade is arranged on the first sleeve, and the first sleeve and the first rotating shaft are linked through a first one-way transmission structure; the first rotating shaft is linked with the inner rotating cylinder through a second one-way transmission structure; the first one-way transmission structure and the second one-way transmission structure are opposite in transmission direction.

As a further improvement of the utility model, a quantitative control structure is arranged on the inner rotary drum and comprises a quantitative baffle, a guide rod and a direction limiting part which are connected in sequence, the quantitative baffle is positioned in the inner rotary drum, the guide rod passes through one end of the inner rotary drum and is in sliding fit with the inner rotary drum, and the direction limiting part is positioned outside the inner rotary drum; a spring is connected between the quantitative baffle and the inner rotary drum; the guide rod is also connected with a first shifting block; the outer barrel is provided with a first touch switch and a second touch switch, and the first shifting block is positioned between the first touch switch and the second touch switch; the first touch switch, the second touch switch and the motor are all connected with the controller.

As a further improvement of the utility model, the quantitative baffle is connected with an upper stop block; the outer side wall of the upper stop block is arranged adjacent to the inner wall of the inner rotary drum; the upper stop block corresponds to the first discharge hole; and a third inclined surface is arranged on one side, facing the second opening, of the upper blocking block.

As a further improvement, the utility model also comprises a payment code which is arranged on the storage bin or the outer cylinder.

As a further improvement of the utility model, a heating and heat-preserving structure is arranged outside the transition bin; the heating and heat-insulating structure comprises a box body, the box body is connected with the transition bin, and a heating pipe is arranged in the box body.

As a further improvement, the storage bin is internally provided with a heating lighting lamp.

Advantageous effects

Compared with the prior art, the utility model discloses a full-automatic sign indicating number payment of sweeping goes out dish all-in-one's advantage does:

1. after the yard is swept, the meal push-out device pushes the meal in the transition bin to the direction of the first opening, and the meal enters the inner rotary drum through the second opening. After the interior rotary drum was filled with, interior rotary drum rotated, and the passageway between front and back food cutting structure will first opening and the second opening is sealed, cuts off the food that is located between, and the meal in the interior rotary drum drops through first discharge gate and second discharge gate. This process need not manual operation, both can reduce the cost of labor, and during the blanking moreover, owing to the blockking of front and back food cutting structure, the meal in the transition bin can not enter interior rotary drum and drop from the second discharge gate, can also realize the accurate ejection of compact. In the process, the contact of a plurality of people is not needed, and the sanitary and convenient effects are achieved.

2. The front and back food cutting structure comprises a first cutting part and a second cutting part which can rotate mutually, and when the first cutting part and the second cutting part are positioned at the same side, the first opening is communicated with the second opening; when the second shearing part rotates to the upper part of the first shearing part, the first opening and the second opening are sealed, the food in the transition bin is prevented from entering the inner rotary drum, the structure is simple, and the blocking effect is good. The first cutting part comprises a first inclined surface, so that the meal can move upwards towards the first opening through the first inclined surface conveniently.

3. The first sleeve is linked with the first rotating shaft through a first one-way transmission structure; the first rotating shaft and the inner rotating cylinder are linked through a second one-way transmission structure. When the motor rotates in the positive direction, the inner rotary drum is not moved, and the spiral blade rotates; when the motor rotates reversely, the spiral blade does not rotate, the inner rotary drum rotates, the two directions rotate positively and negatively, and the two directions are controlled by the one-way transmission structure, so that the function of controlling two structures by a single motor is realized, the structure is simple, and the energy consumption is low.

4. After the meal enters the inner rotary drum, the quantitative baffle of the quantitative control structure is pushed to move backwards until the quantitative control structure contacts the first touch switch, the controller receives a signal and enables the inner rotary drum to rotate, the front food cutting structure and the rear food cutting structure are closed, and the meal is discharged from the second discharge hole. The quantitative control structure can ensure that the amount of the food dropped each time is consistent.

5. The meal can be heated and insulated through the heating and insulating structure.

The invention will become more apparent from the following description when taken in conjunction with the accompanying drawings which illustrate embodiments of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is one of cross-sectional views of a fully automatic code scanning, payment and dish serving all-in-one machine;

FIG. 2 is a cross-sectional view of the inner drum;

FIG. 3 is a partial enlarged view of the first cutout and the second cutout;

fig. 4 is a second cross-sectional view of the full-automatic code-scanning payment dish-discharging all-in-one machine.

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Examples

The utility model discloses a concrete embodiment is as shown in fig. 1 to fig. 4, a full-automatic yard payment all-in-one of sending out dishes of sweeping, including storage silo 1, 1 bottom intercommunication of storage silo has transition bin 2, and transition bin 2 is connected with meal ejecting device 5. The right side of the transition bin 2 is provided with a first opening 22, and an outer barrel 3 and an inner barrel 4 which are mutually sleeved are arranged outside the first opening 22. The side wall of the inner rotary drum 4 is provided with a first discharge hole 43. The outer cylinder 3 is fixed relative to the transition bin 2, and in the embodiment, the two are fixedly connected. The inner rotating drum 4 is in running fit with the outer drum 3, and a bearing 6 is sleeved between the inner rotating drum and the outer drum. The lower part of the outer cylinder 3 is provided with a second discharge port 31, and the second discharge port 31 corresponds to the first discharge port 43. The left end of the inner rotary drum 4 is provided with a second opening 41, and a front and back food cutting structure is arranged between the first opening 22 and the second opening 41.

In the present embodiment, the front and rear food cutting structure includes the first cutting portion 21 and the second cutting portion 42, the first cutting portion 21 is disposed at the lower portion of the first opening 22 of the transition bin 2, and the second cutting portion 42 is disposed at the second opening 41 of the inner drum 4. The first cutout 21 includes a first slope. The second cutout 42 receives a half or more of the second opening 41, and the first cutout 21 receives a half or more of the first opening 22. When the second cutting portion 42 is rotated to the first cutting portion 21 and the heights of the two are substantially flush, the first opening 22 is communicated with the second opening 41, and when the second cutting portion 42 rotates with the inner rotary drum 4 to be positioned above the first cutting portion 21, the first opening 22 is disconnected from the second opening 41. The second cutout 42 may include a second slope.

The meal push-out device 5 is a spiral conveying device and comprises a motor 53 and a first rotating shaft 51, wherein the motor 53 and the first rotating shaft 51 are linked, the first rotating shaft 51 is positioned in the transition bin 2 and is in running fit with the transition bin, and spiral blades 52 are arranged on the first rotating shaft 51.

In this embodiment, the first sleeve 54 is sleeved on the first rotating shaft 51, the spiral blade 52 is disposed on the first sleeve 54, and the first sleeve 54 and the first rotating shaft 51 are linked through the first unidirectional transmission structure 10. The first rotating shaft 51 and the inner rotary drum 4 are linked through the second one-way transmission structure 13. The transmission directions of the first one-way transmission structure 10 and the second one-way transmission structure 13 are opposite. The one-way transmission structure 10 may employ a ratchet structure. In the present embodiment, the second one-way transmission structure 13 is provided on the second cutting portion 42 of the inner drum 4. The first unidirectional transmission structure 10 and the second unidirectional transmission structure 13 are both ratchet transmission mechanisms and comprise ratchets and pawls, and the ratchet directions of the first unidirectional transmission structure 10 and the second unidirectional transmission structure 13 are opposite.

Be equipped with quantitative control structure 7 on interior rotary drum 4, quantitative control structure 7 is including the quantitative baffle 71, guide bar 73 and the limit to portion 74 that connect gradually, and quantitative baffle 71 is located interior rotary drum 4, and guide bar 73 passes interior rotary drum 4 one end and both sliding fit, and limit to portion 74 is located outside interior rotary drum 4. In this embodiment, the guiding rod 73 is cylindrical and sleeved on the outer side of the first rotating shaft 51, and the two are in sliding fit.

A spring 72 for returning the fixed-amount shutter 71 is connected between the fixed-amount shutter 71 and the inner drum 4. A first shifting block 76 is also connected to the guide rod 73. The outer cylinder 3 is provided with a first touch switch 78 and a second touch switch 77, and the first dial 76 is located between the first touch switch 78 and the second touch switch 77. The first touch switch 78, the second touch switch 77 and the motor 53 are connected to the controller. In this embodiment, the first touch switch 78 is located on the right side of the second touch switch 77.

The quantitative baffle 71 is connected to an upper stopper 75. The outer side wall of the upper stopper 75 is disposed adjacent to the inner wall of the inner drum 4. The upper stopper 75 corresponds to the first discharging hole 43. A third inclined surface is provided on the upper stopper 75 on a side facing the second opening 41.

The device also comprises a second rotating shaft 15, and the second rotating shaft 15 and the first rotating shaft 51 are coaxially arranged. The right end of the second rotating shaft 15 is fixedly connected with the outer cylinder 3. The second rotation shaft 15 penetrates the upper stopper 75, the quantitative baffle 71 and the guide bar 73. The upper stopper 75, the quantitative baffle 71 and the guide rod 73 do not rotate relative to the second rotating shaft 15, but the upper stopper 75, the quantitative baffle 71 and the guide rod 73 can slide along the direction of the second rotating shaft 15.

The full-automatic code scanning, paying and dish discharging all-in-one machine further comprises a payment code 14, and the payment code 14 can be arranged on the storage bin 1 or the outer barrel 3. In the present embodiment, the payment code 14 is provided on the outer tub 3.

A heating and heat-insulating structure 8 is arranged below the transition bin 2. The heating and heat-preserving structure 8 comprises a box body 81, the box body 81 is connected with the transition bin 2, and a heating pipe 82 is arranged in the box body 81. The heating pipe 82 can be a steam pipe or an electric heating pipe, and a water body is arranged in the box body 81. The heating pipe 82 heats the water in the box body 81, and then the box body 81 uniformly conducts heat to the food in the storage bin 1 and the transition bin 2, so that heating and heat preservation are realized.

The storage bin 1 is internally provided with a heating and illuminating lamp 9 for heating food. The wall body of the storage bin 1 is provided with a door body 11 and an observation window 12.

When the food storage bin is used, cooked food is poured into the storage bin 1 through the door body 11, and the food falls into the transition bin 2. When the inner rotary drum 4 is not started, the first discharge hole 43 faces upwards, the upper block 75 of the quantitative baffle 71 is blocked inside the first discharge hole 43, and the first opening 22 of the transition bin 2 is communicated with the second opening 41 of the inner rotary drum 4. When a person scans the payment code 14 by using a mobile phone to pay, the controller starts the motor 53 to rotate forward, the first rotating shaft 51 drives the spiral blade 52 to rotate through the first one-way transmission structure 10, and the meal in the transition bin 2 is conveyed to the inner rotating cylinder 4, at this time, the inner rotating cylinder 4 does not rotate because the second one-way transmission structure 13 does not play a transmission role, as shown in fig. 1. At this time, the food introduced into the inner rotary drum 4 does not enter the first discharge hole 43 due to the blocking action of the upper stopper 75.

When the food in the inner rotary drum 4 reaches a certain amount and pushes the quantitative baffle 71 rightwards until the first touch switch 78 is triggered, the controller enables the motor 53 to rotate reversely, at the moment, the second one-way transmission structure 13 plays a transmission role, the first one-way transmission structure 10 does not play a transmission role, the first rotating shaft 51 and the inner rotary drum 4 both rotate 180 degrees, and the first opening 22 of the transition bin 2 is disconnected with the second opening 41 of the inner rotary drum 4. In this process, the quantitative baffle 71 and the upper stopper 75 do not rotate relative to the outer cylinder 3, and the upper stopper 75 is always located at the middle upper portion of the quantitative baffle 71. When the inner drum 4 rotates by exactly 180 °, a second dial (not shown) provided at one end of the outer wall of the inner drum 4 triggers a rotation-to-position touch switch (not shown) provided on the outer drum 3, and the motor 53 stops. The first discharge port 43 of the inner drum 4 faces downwards and is communicated with the second discharge port 31 of the outer drum 3, and at the moment, the meal of the inner drum 4 falls from the second discharge port 31, so that the discharge is realized. After blanking for a period of time, the number of the dishes in the inner rotary drum 4 is reduced, the quantitative baffle 71 moves leftwards under the reset action of the spring 72, the first shifting block 76 leaves the first touch switch 78, the first shifting block 76 moves leftwards until touching the second touch switch 77, the motor 53 is started and drives the first rotary shaft 51 and the inner rotary drum 4 to continue to rotate reversely for 180 degrees, and the first discharge hole 43 faces upwards again. The first opening 22 of the transition bin 2 is communicated with the second opening 41 of the inner rotary drum 4 again to wait for the next work.

The present invention has been described above with reference to the preferred embodiments, but the present invention is not limited to the above-disclosed embodiments, and various modifications, equivalent combinations, which are made according to the essence of the present invention, should be covered.

Claims (10)

1. A full-automatic code scanning, payment and dish discharging integrated machine comprises a storage bin (1), and is characterized in that one side of the storage bin (1) is communicated with a transition bin (2), and the transition bin (2) is connected with a meal push-out device (5); a first opening (22) is formed in one side of the transition bin (2), an outer barrel (3) and an inner rotary barrel (4) which are sleeved with each other are arranged outside the first opening (22), and a first discharge hole (43) is formed in the side wall of the inner rotary barrel (4); the outer cylinder (3) is fixed relative to the transition bin (2), the inner rotary cylinder (4) is in running fit with the outer cylinder (3), and a second discharge hole (31) is formed in the lower portion of the outer cylinder (3); one end of the inner rotary drum (4) is provided with a second opening (41), and a front and back food cutting structure is arranged between the first opening (22) and the second opening (41).

2. A fully automatic code scanning payment dish outlet machine as claimed in claim 1, wherein the front and rear food cutting structure comprises a first cutting part (21) and a second cutting part (42), the first cutting part (21) is arranged at the middle lower part of the first opening (22) of the transition bin (2), the second cutting part (42) is arranged at the second opening (41) of the inner rotary drum (4); the first cutout (21) includes a first slope.

3. A fully automatic code scanning payment dish outlet machine as claimed in claim 2, wherein said second cutting portion (42) comprises a second slope.

4. The full-automatic code scanning, paying and dish discharging all-in-one machine is characterized in that the meal pushing device (5) is a spiral conveying device and comprises a motor (53) and a first rotating shaft (51) which are linked, the first rotating shaft (51) is located in the transition bin (2) and is in running fit with the transition bin, and spiral blades (52) are arranged on the first rotating shaft (51).

5. The full-automatic code scanning, paying and dish discharging all-in-one machine is characterized in that a first sleeve (54) is sleeved outside the first rotating shaft (51), the spiral blade (52) is arranged on the first sleeve (54), and the first sleeve (54) is linked with the first rotating shaft (51) through the first one-way transmission structure (10); the first rotating shaft (51) is linked with the inner rotary drum (4) through a second one-way transmission structure (13); the transmission directions of the first one-way transmission structure (10) and the second one-way transmission structure (13) are opposite.

6. The full-automatic code-scanning, paying and dish-serving all-in-one machine as claimed in claim 5, wherein a quantitative control structure (7) is arranged on the inner rotary drum (4), the quantitative control structure (7) comprises a quantitative baffle (71), a guide rod (73) and a direction-limiting part (74) which are sequentially connected, the quantitative baffle (71) is located in the inner rotary drum (4), the guide rod (73) penetrates through one end of the inner rotary drum (4) and is in sliding fit with the inner rotary drum, and the direction-limiting part (74) is located outside the inner rotary drum (4); a spring (72) is connected between the quantitative baffle (71) and the inner rotary drum (4); the guide rod (73) is also connected with a first shifting block (76); a first touch switch (78) and a second touch switch (77) are arranged on the outer barrel (3), and the first shifting block (76) is positioned between the first touch switch (78) and the second touch switch (77); the first touch switch (78), the second touch switch (77) and the motor (53) are all connected with the controller.

7. The full-automatic code scanning, paying and dish discharging all-in-one machine as claimed in claim 6, wherein an upper stop block (75) is connected to the quantitative baffle (71); the outer side wall of the upper stop block (75) is arranged adjacent to the inner wall of the inner drum (4); the upper stop block (75) corresponds to the first discharge hole (43); a third inclined surface is arranged on one side, facing the second opening (41), of the upper stop block (75).

8. The full-automatic code scanning, paying and dish discharging all-in-one machine is characterized by further comprising a payment code (14), wherein the payment code (14) is arranged on the storage bin (1) or the outer barrel (3).

9. The full-automatic code scanning, payment and dish discharging all-in-one machine as claimed in claim 1, wherein a heating and heat insulating structure (8) is arranged outside the transition bin (2); the heating and heat-preserving structure (8) comprises a box body (81), the box body (81) is connected with the transition bin (2), and a heating pipe (82) is arranged in the box body (81).

10. The full-automatic code scanning, paying and dish discharging all-in-one machine as claimed in claim 1, wherein a heating and illuminating lamp (9) is arranged in the storage bin (1).

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