CN110858432A

CN110858432A - Meal box supply method of food vending machine

Info

Publication number: CN110858432A
Application number: CN201810958163.9A
Authority: CN
Inventors: 游本俊
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-08-22
Filing date: 2018-08-22
Publication date: 2020-03-03

Abstract

The invention provides a meal box supply method of a food vending machine, which sequentially comprises the following steps: conveying a box along a conveying path of a food vending machine; a cover fixed to the box to form a lunch box; and the meal box is conveyed to a meal outlet of the food vending machine. Wherein the prepared food is placed in the cartridge during the transport of the cartridge. The invention has the advantages that the box body and the cover body which form the lunch box can be stored separately, and the lunch box is assembled by the food vending machine. The cover body can be internally packaged with fruits, sauces and dining tools and can be stored in a refrigeration mode, so that the sanitation can be kept and the mutual pollution of the cover body and the box body can be avoided. In addition, the invention can fix the cover body on the box body to seal the box body, so that consumers do not need to cover the cover body and the chance of food in the box body leaking outside can be reduced.

Description

Meal box supply method of food vending machine

Technical Field

The present invention relates to a method for supplying meal boxes, and more particularly, to a method for supplying meal boxes in a food vending machine.

Background

In the prior art, there is a food vending machine having a function of conditioning food materials. In other words, the food vending machine processes the food materials inside the vending machine, and then manufactures the food materials into lunch boxes and sells the food materials, so that consumers can enjoy fresh and ready-made meals.

In the food vending machine for automatically cooking food materials to prepare the lunch boxes, the prepared food is placed in a container, and after all the cooked food is placed in the container, the food and the container are conveyed to a meal outlet of the food vending machine. However, a complete lunch box should include a cover to seal the container, so as to prevent the food from being contaminated by the invasion of foreign matters, and prevent the food inside the box from leaking out of the box during the movement of the user.

In the food vending machine in the prior art, the container cover is provided at the meal outlet of the food vending machine, so that a consumer needs to take the container cover again after taking out the container containing food, and cover the container cover on the container. Therefore, it is inconvenient for consumers to manually cover the container cover after purchasing the lunch box. In addition, the use process of automatically covering the container cover on the container increases the chance that a consumer can contact the unsealed lunch box, thereby increasing the chance that food is polluted.

In view of the above, a better solution is proposed, and a problem to be solved is needed in the art.

Disclosure of Invention

The main objective of the present invention is to provide a meal box supplying method for a food vending machine, which can make a complete meal box, thereby reducing the chance of food contamination or food leakage caused by the consumer contacting the unsealed meal box.

To achieve the above object, the meal box supplying method of the food vending machine according to the present invention sequentially comprises the following steps:

conveying a box along a conveying path of a food vending machine; wherein, in the conveying process of the box body, the prepared food is put into the box body;

a cover fixed to the case; thus, a lunch box is formed; and

the meal box is conveyed to a meal outlet of the food vending machine.

Therefore, the invention has the advantages that the box body and the cover body which form the lunch box can be stored separately and assembled into the lunch box by the food vending machine. The cover body can be internally packaged with fruits, sauces and dining tools and can be stored in a refrigeration mode, so that the sanitation can be kept and the mutual pollution of the cover body and the box body can be avoided. In addition, the invention can automatically fix the cover body on the box body to seal the box body, so that consumers do not need to cover the cover body and the chance of food in the box body leaking outside can be reduced.

In the meal box supplying method, the food vending machine is provided with a discharging mechanism, and a plurality of the box bodies are stacked on the discharging mechanism; the discharging mechanism is provided with a first gate and a second gate which are spaced, the distance between the first gate and the second gate is equal to or less than the distance between the outer convex parts of the box bodies of two adjacent stacks, and one of the box bodies is abutted against the first gate; before the process of conveying the box along the conveying path of the food vending machine, the process further comprises a process of placing one box in the conveying path, and the process of placing one box in the conveying path sequentially comprises the following steps:

the first gate is opened, and one box body moves and abuts against the second gate;

the first gate is closed, and the periphery of the first gate is positioned between the outer convex part of one box body and the outer convex part of the other box body adjacent to the one box body;

the second gate is opened, and one box body is separated from the second gate and moves to the conveying path; at the moment, the other box body is abutted against the first gate; and

the second gate is closed.

In the lunch box supply method as described above:

the first gate is opened, and the step of moving one box body to abut against the second gate is that the external convex part of one box body abuts against the second gate; and

the second gate is opened, and the step of separating one box body from the second gate and moving the box body to the conveying path is that the external convex part of the other box body is abutted against the first gate.

In the lunch box supply method as described above:

after the step of opening the first gate and moving one of the cartridges against the second gate, the first gate and the second gate are opened, and before the step of separating one of the cartridges from the second gate and moving the one of the cartridges to the transport path, the method further comprises the following steps:

a suction head is absorbed on one box body; and is

The second gate is opened, and the one box body is separated from the second gate and moves to the conveying path, so that the suction head guides the one box body to move to the conveying path.

In the foregoing method for supplying meal boxes, the food vending machine has a discharging mechanism, and a plurality of cover bodies are stacked on the discharging mechanism; the discharging mechanism is provided with a first gate and a second gate which are spaced, the distance between the first gate and the second gate is equal to or less than the distance between the outer convex parts of the cover bodies of two adjacent stacks, and one of the cover bodies is abutted against the first gate; before the process of fixing the cover body on the box body, the process of placing one cover body on the box body is further included, and the process of placing one cover body on the box body sequentially includes the following steps:

the first gate is opened, and one of the cover bodies moves and abuts against the second gate;

the first gate is closed, and the periphery of the first gate is positioned between the outer convex part of one cover body and the outer convex part of the other cover body adjacent to the one cover body;

the second gate is opened, and one cover body moves to the box body and is separated from the second gate; at this time, the other cover body is abutted against the first gate; and

the second gate is closed.

In the meal box supplying method, the process of fixing the cover to the box body includes the following steps:

the box body is pushed to enable the box body to push against the cover body, and the cover body pushes against the second gate, so that the box body and the cover body are fixed.

In the meal box supplying method, the food vending machine further comprises a lifting component, the lifting component is arranged on the conveying path and can lift the box body; wherein:

placing one of the cover bodies in the box body:

before the step of opening the second gate and moving one of the cover bodies to the box body and separating the cover body from the second gate, the lifting assembly lifts the box body to be adjacent to the first gate; and is

In the step of opening the second gate and moving one of the cover bodies to the box body and separating the cover body from the second gate, after one of the cover bodies moves to the box body, the lifting assembly drives the box body and one of the cover bodies to descend, so that one of the cover bodies is separated from the second gate; while

In the process that the cover body is fixed on the box body, the lifting assembly lifts the box body and one of the cover bodies, and the box body and the second gate extrude the one of the cover bodies, so that the one of the cover bodies is embedded with the box body.

In the method for supplying the lunch box, before the cover is fixed to the box, the cover is pre-packaged with tableware or partially-conditioned food.

In the meal box supplying method, the cover is stored in a refrigerating way before being fixed on the box body.

In the meal box supplying method, the food put into the box body is put into the box body after being conditioned by the food vending machine.

Drawings

FIG. 1 is a flow chart of the present invention.

Fig. 2 is a schematic view of the lunch box of the present invention.

Fig. 3 is a schematic view of the cover and the accommodating space thereof according to the present invention.

Fig. 4 is a schematic view of the cover body stacked on the feeding mechanism according to the present invention.

Fig. 5 is a schematic view showing the opening of the first shutter of the feeding mechanism of the present invention.

Fig. 6 is a schematic view showing the feeding mechanism of the present invention with the first shutter closed again.

Fig. 7 is a schematic view showing the opening of the second shutter of the feeding mechanism of the present invention.

Fig. 8 is a schematic view showing the feeding mechanism of the present invention with the second shutter closed again.

Fig. 9 is a schematic view of the suction head adsorbing cartridge of the present invention.

Detailed Description

Please refer to fig. 1 to fig. 3. The invention provides a lunch box supply method for a food vending machine. The food vending machine can be provided with a plurality of boxes 11 and a plurality of covers 12, and can be provided with a conveying mechanism. The transport mechanism can transport the magazine 11 along a transport path. A box 11 and a lid 12 can be fixed together to form a lunch box 10. The food vending machine can cook food materials into food in a steaming, boiling, frying, marinating, etc., and then put the food into the box body 11, thereby providing the lunch box 10 with fresh cooked food. On the other hand, as shown in fig. 3, a plurality of accommodating spaces 121 may be formed in the lid body 12, and tableware or partially-conditioned food, such as fruits, sauces, pickles, and the like, may be packaged in each accommodating space 121, and a garbage bag, napkin, toothpick, and the like may be packaged.

The method for supplying the lunch box 10 of the present invention sequentially comprises the following processes:

p1: separating a box 11 from other boxes 11 and placing the box in a conveying path of a food vending machine;

p2: conveying the box body 11 along a conveying path, and simultaneously putting cooked food into the box body 11;

p3: separating a cover 12 from other covers 12 and placing on the box 11;

p4: fixing the cover 12 on the box 11 to form a lunch box 10; and

p5: the meal box 10 is transported to the meal outlet of the food vending machine.

Please refer to fig. 4 and fig. 9. In the processes P1 and P3, in order to separate the boxes 11 and the covers 12 of the food vending machine one by one for feeding, the food vending machine may have two discharging mechanisms 20, wherein the boxes 11 are stacked and stored in one discharging mechanism 20, the discharging mechanism 20 is used for separating the boxes 11, the covers 12 are stacked and stored in the other discharging mechanism 20, and the other discharging mechanism is used for separating the covers 12. However, the number thereof is not limited thereto; in order to make the food vending machine capable of supplying more lunch boxes 10 (as shown in fig. 2), more than two discharging mechanisms 20 may be provided to store more boxes 11 or covers 12.

Each discharging mechanism 20 may have a first gate 21 and a second gate 22 spaced apart from each other, and a distance between the first gate 21 and the second gate 22 is equal to or smaller than a distance between the outer protrusions of the two adjacent stacked box bodies 11 or cover bodies 12, and one of the stacked box bodies 11 or one of the stacked cover bodies 12 abuts against the corresponding first gate 21 of the discharging mechanism 20. In this embodiment, the first gate 21 and the second gate 22 are spaced up and down, and the box 11 or the cover 12 is stacked up and down; in other embodiments, the first gate 21 and the second gate 22 are laterally spaced, and the box 11 or the cover 12 is stacked laterally, and the box 11 or the cover 12 is pushed toward the discharging mechanism 20 by a pushing assembly to abut against the discharging mechanism 20.

Please refer to fig. 4 to 8. The following is an exemplary process P3 for separating the discharging mechanism 20 of the lid 12, and the discharging process P1 of the box 11 is similar to the discharging process of the lid 12, but is not limited to the following steps, and is not limited to the above discharging mechanism 20, such as a clamping device or a suction device for moving the lids 12 one by one.

In this embodiment, when a box 11 moves along the conveying path to pass through the discharging mechanism 20 with the cover 12, the process P3 is executed, and the process P3 includes the following steps:

the first gate 21 is opened, and the cover 12 originally abutted against the first gate 21 is separated from the first gate 21 and moves to abut against the second gate 22 (as shown in fig. 5); in this embodiment, the outer convex portion of the cover 12 abuts against the second gate 22, but not limited thereto, and other portions may abut against the second gate 22;

the first gate 21 is closed, and the periphery of the first gate 21 is located between the outer convex part of the cover 12 and the outer convex part of another cover 12 adjacent to the cover 12 (as shown in fig. 6);

the second gate 22 is opened, and the cover 12 is moved to the box 11 to be separated from the second gate 22 (as shown in fig. 7); at this time, the other cover 12 abuts against the first gate 21, and in the embodiment, the outer convex portion of the other cover 12 abuts against the first gate 21, but not limited thereto; and

the second gate 22 is closed (as shown in fig. 8).

Thus, similar to the process P3, the process P1 of the separation cartridge 11 comprises the following steps:

the first gate 21 is opened, and the box body 11 originally abutted against the first gate 21 is separated from the first gate 21 and moves to abut against the second gate 22; in this embodiment, the outer convex portion of the box body 11 abuts against the second gate 22, but not limited thereto, and other portions may abut against the second gate 22;

the first gate 21 is closed, and the periphery of the first gate 21 is positioned between the external convex part of the box body 11 and the external convex part of another box body 11 adjacent to the box body 11;

the second gate 22 is opened, and the cassette 11 is separated from the second gate 22 and moved to the conveying path; at this time, the other box 11 abuts against the first gate 21, and in the embodiment, the outer protrusion of the other box 11 abuts against the first gate 21, but not limited thereto; and

the second shutter 22 is closed.

Specifically, after the process P1, one cartridge 11 is separated from the other cartridges 11 and placed in the conveying path. However, in the process P1, the empty cassette 11 is placed on the conveying path, and the empty cassette 11 is light and is easily deviated by various external forces, so that it may not be correctly placed on the conveying path. Therefore, in this embodiment, the process P1 further includes "adsorbing the cartridge 11 by the suction head 23" after the step of "opening the first gate 21 and abutting the body against the second gate 22" and before the step of "opening the second gate 22 and separating the cartridge 11 from the second gate 22 and moving the cartridge to the transport path". In other words, the time point when the cassette 11 is sucked by the suction head 23 may be between the steps of opening the first shutter 21 and opening the second shutter 22, and may be before or after the first shutter 21 is closed.

Please refer to fig. 1 and fig. 9. In this embodiment, the conveying mechanism has two conveying belts and one sucking head 23, but not limited thereto. Thus, in this embodiment, the two conveyor belts extend along the conveying path, and the suction head 23 is located between the two conveyor belts and can move up and down, and move down onto the two conveyor belts after the box 11 is separated from the discharging mechanism 20. In the step of "the second shutter 22 is opened and the cartridge 11 is separated from the second shutter 22 to the transport path" by the suction head 23 which can move up and down, the cartridge 11 is guided by the suction head 23 to move down to the transport path. In other embodiments, the relative position relationship of the components is not limited to this, and the box 11 may be moved to the conveying belt by being laterally driven by the suction head 23.

In other words, the process P1 of the present embodiment may more specifically include the following steps:

s1-1: the first gate 21 is opened, and the box body 11 originally abutted against the first gate 21 is separated from the first gate 21 and moves to abut against the second gate 22;

s1-2: the first gate 21 is closed, and the periphery of the first gate 21 is positioned between the external convex part of the box body 11 and the external convex part of another box body 11 adjacent to the box body 11;

s1-3: sucking the cartridge 11 with a suction head 23;

s1-4: the second gate 22 is opened, and the cassette 11 is guided by the suction head 23 to be separated from the second gate 22 and moved to the conveying path; the other box 11 is against the first gate 21; and

s1-5: the second shutter 22 is closed.

Please refer to fig. 1. After the aforementioned process P1, the process P2 is performed. In the process P2, the box 11 is transported by the transporting mechanism along the transporting path (in this embodiment, the box 11 is transported by a transporting belt), and the food materials are cooked by the cooking mechanism of the food vending machine while the box 11 is transported. After the food material is cooked into food, the food is put into the box body 11. In order to make a meal box 10 (as shown in fig. 2) with rich dishes, the food vending machine may have a plurality of cooking mechanisms to properly condition different food materials, and the conveying path may pass through the plurality of cooking mechanisms, so that the plurality of cooked food materials can be received by the plurality of cooking mechanisms when the box 11 moves along the conveying path. The movement of the case 11 may be continuously maintained while passing through the cooking mechanisms, or may be suspended during the movement and continued after the cooked food is actually received.

Please refer to fig. 1, fig. 4 and fig. 7. After the box 11 receives all the cooked food, the process P3 is executed, i.e. one cover 12 is separated from the other covers 12 and placed on the box 11. In this embodiment, the cover 12 is stored in the food vending machine in a refrigerating manner before being fixed to the box 11. Similarly to the box 11, the cover 12 is light, so to avoid the cover 12 being unable to move onto the box 11 correctly after being separated from the discharging mechanism 20, the box 11 will move to the adjacent discharging mechanism 20, so that the cover 12 falls onto the box 11 after being separated from the discharging mechanism 20.

Specifically, the conveyor mechanism further has a channel, a robot arm, and a lift assembly 24, the channel is connected to the end of the conveyor belt and extends along the conveyor path, and the channel passes under the discharge mechanism 20 where the cover 12 is stored. The robot is able to slide along the channel with the lift assembly 24 positioned in the channel. Therefore, when the box 11 is moved to be separated from the conveyor belt, the box is moved to the channel, and the robot arm pushes the box 11 on the channel to move. When the box 11 moves above the lifting assembly 24, the robot stops, and the lifting assembly 24 moves upward to drive the box 11 to move upward close to the discharging mechanism 20 storing the cover 12. Therefore, when the cover 12 is detached from the discharging mechanism 20, the cover can be accurately placed on the box 11.

Please refer to fig. 1, fig. 7 and fig. 8. When the cover 12 is seated on the box 11, the process P4 is executed. The process P4 includes the following steps: the box 11 is pushed to push the box 11 against the cover 12 and the cover 12 against the second gate 22, so that the box 11 and the cover 12 are fixed to form a lunch box 10. In this embodiment, the lifting assembly 24 pushes the box 11 upwards, and pushes the box 11 upwards twice, but not limited thereto. Specifically, the lifting assembly 24 pushes the box 11 upward for the first time in the process P3, and pushes the box 11 upward for the second time in the process P4, and the second time before pushing the box 11 upward may include moving the box 11 downward once, so as to ensure that the cover 12 on the box 11 is completely separated from the discharging mechanism 20. Specifically, in the present example, in the process P3, before the second shutter 22 is opened, the first pushing up of the box 11 is performed, and after the second shutter 22 is opened and before the second shutter 22 is closed, the box 11 is moved down together with the cover 12 on the box 11.

In other words, in the present embodiment, the process P3 may more specifically include the following steps:

s3-1: the first gate 21 is opened, and the cover 12 originally abutted against the first gate 21 is separated from the first gate 21 and moves to abut against the second gate 22 (as shown in fig. 5);

s3-2: the first gate 21 is closed, and the periphery of the first gate 21 is located between the outer convex part of the cover 12 and the outer convex part of another cover 12 adjacent to the cover 12 (as shown in fig. 6);

s3-3: lifting the box body 11 for the first time by the lifting assembly 24, and enabling the box body 11 to be adjacent to the second gate 22 (as shown in fig. 6);

s3-4: the second gate 22 is opened and the cover 12 is moved to the box 11; the other cover 12 abuts against the first shutter 21 (as shown in fig. 7);

s3-5: the lifting assembly 24 drives the box 11 and the cover 12 to move downward until the cover 12 is separated from the second gate 22 (as shown in fig. 7); and

s3-6: the second gate 22 is closed (as shown in fig. 8).

As shown in fig. 8, the process P4 is executed after the second gate 22 is closed (i.e., after the process P3 is completed). In the process P4, when the lifting assembly 24 lifts the box 11 for the second time, the cover 12 on the box 11 abuts against the lower side of the second gate 22, so that the cover 12 is pressed by the box 11 and the second gate 22, and the cover 12 and the box 11 are forced to be engaged with each other, thereby completing the fixing between the cover 12 and the box 11.

Please refer to fig. 2 and fig. 3. In this embodiment, the cover 12 is packaged with tableware and some food before being stored in the food vending machine, but in other embodiments, the tableware or food can be placed into the cover 12 one by one only when the cover 12 is fixed to the box 11, and then the cover 12 is sealed; or the tableware or the partially-conditioned food can be put into the cover body 12 after the cover body 12 is fixed to the box body 11, and then the cover body 12 is sealed; the tableware and food may be placed in the lid 12 before the lid 12 is fixed to the box 11, and the lid 12 may be sealed after the lid 12 is fixed to the box 11. In this embodiment, a film 122 is attached to the cover 12 to seal the accommodating space 121 of the cover 12 and the tableware or food therein.

After the cover 12 is fixed to the box 11 and the box 11 is sealed, a lunch box 10 is formed, and then the process P5 is executed to transport the lunch box 10 to a meal outlet of the food vending machine, so that the consumer can take the lunch box 10 through the meal outlet.

As described above, in the present invention, the box body 11 and the cover body 12 forming the lunch box 10 can be separately stored in the food vending machine, and the lunch box 10 can be automatically assembled by the food vending machine. The cover body 12 can be internally packaged with fruits, sauces and dining tools and can be stored in a refrigeration mode, so that the sanitation can be kept and the mutual pollution of the cover body 12 and the box body 11 can be avoided. In addition, the invention can automatically fix the cover body 12 on the box body 11 to seal the box body 11, so that a consumer does not need to cover the cover body 12, and the chance that the consumer contacts to pollute food or cause the food in the box body 11 to leak is reduced.

Claims

1. A meal box supply method for a food vending machine, the method comprising the following steps in sequence:

a cover fixed to the case; thus, a lunch box is formed; and

the meal box is conveyed to a meal outlet of the food vending machine.

2. A lunch box supply method as claimed in claim 1, wherein the food vending machine has a discharge mechanism, and a plurality of the boxes are stacked on the discharge mechanism; the discharging mechanism is provided with a first gate and a second gate which are spaced, the distance between the first gate and the second gate is equal to or less than the distance between the outer convex parts of the box bodies of two adjacent stacks, and one of the box bodies is abutted against the first gate; before the process of conveying the box bodies along the conveying path of the food vending machine, the process of placing one of the box bodies on the conveying path is also included, and the process of placing one of the box bodies on the conveying path sequentially includes the following steps:

the second gate is closed.

3. A lunch box supply method as claimed in claim 2, wherein:

4. A lunch box supply method as claimed in claim 2, wherein:

the first gate is opened, and after the step of moving one of the box bodies to abut against the second gate, the first gate and the second gate are opened, and before the step of separating one of the box bodies from the second gate and moving the one of the box bodies to the conveying path, the method also comprises the following steps:

a suction head is absorbed on one box body; and is

5. The meal box supplying method according to claim 1, wherein the food vending machine has a discharging mechanism, and the plurality of lid bodies are stacked on the discharging mechanism; the discharging mechanism is provided with a first gate and a second gate which are spaced, the distance between the first gate and the second gate is equal to or less than the distance between the outer convex parts of the cover bodies of two adjacent stacks, and one of the cover bodies is abutted against the first gate; before the process of fixing the cover body on the box body, the process of placing one cover body on the box body is also included, and the process of placing one cover body on the box body sequentially comprises the following steps:

the second gate is closed.

6. A method for supplying cutlery boxes according to claim 5 wherein the process of securing the cover to the box comprises the steps of:

7. A cutlery box supply method as claimed in claim 6, wherein the food vending machine further comprises a lifting assembly disposed on the conveying path and capable of lifting the box; wherein:

placing one of the cover bodies in the box body:

8. A method as claimed in any one of claims 1 to 7 wherein the lid is pre-packaged with cutlery or partially conditioned food prior to being secured to the box.

9. A method of serving cutlery boxes according to claim 8 wherein the lid is stored in a refrigerated manner before being secured to the box.

10. A lunch box supply method as in any one of claims 1 through 7, wherein the food put in the box is put in the box after being conditioned by the food vending machine.