阅读说明：本技术 一种用于自助智能制售汤粉或汤面设备的高效出餐方法 (efficient meal delivery method for self-service intelligent soup powder or soup noodle making and selling equipment ) 是由 洪金文 于 2019-11-18 设计创作，主要内容包括：一种用于自助智能制售汤粉或汤面设备的高效出餐方法,它涉及智能制售汤粉或汤面设备技术领域。自助智能制售汤粉或汤面设备内设置有若干个加工时间不同的加工工序,且若干个加工时间不同的加工工序按照顺序依次连接以形成汤粉或汤面的制作流水线,方法包括以下步骤：S1,划分加工单元；S2,确定共用单元和非共用单元；S3,复制非共用单元并复用共用单元,根据出餐速度需求,对非共用单元进行复制且与共用单元进行并接,复制后的非共用单元与共用单元皆形成一条完整的汤粉或汤面的制作流水线。采用上述高效出餐方法的自助智能制售汤粉或汤面设备具有出餐效率高,平均出餐时间短,设备成本低、体积小的优势。(A high-efficiency food serving method for a self-service intelligent soup powder or noodle making device relates to the technical field of the intelligent soup powder or noodle making device, wherein a plurality of processing procedures with different processing times are arranged in the self-service intelligent soup powder or noodle making device and are sequentially connected in sequence to form a soup powder or noodle making assembly line.)

The utility model provides a high-efficient meal delivery method that is used for self-service intelligent system to sell soup powder or soup noodle equipment, be provided with the different manufacturing procedure of a plurality of process time in self-service intelligent system is sold soup powder or the soup noodle equipment, and a plurality of different manufacturing procedure of process time connect gradually according to the order in order to form the preparation assembly line of soup powder or soup noodle, its characterized in that, the method includes the following step:

s1, dividing the processing units, and dividing the processing procedures related in sequence into a plurality of processing units;

s2, determining a shared unit (1) and a non-shared unit (2), selecting processing units from a plurality of processing units, determining the processing unit and all the processing units behind the processing unit as the non-shared unit (2), and determining the rest as the shared unit (1);

s3, copying the non-shared unit (2) and multiplexing the shared unit (1), copying the non-shared unit (2) and connecting the non-shared unit (2) with the shared unit (1) in parallel according to the requirement of meal delivery speed, wherein the copied non-shared unit (2) and the copied shared unit (1) form complete soup powder or soup noodle production pipelines, so that the shared unit (1) continuously works when the non-shared unit (2) is producing meal and forms complete soup powder or soup noodle production pipelines with other non-shared units (2), and multiplexing of the shared unit (1) is achieved and meal delivery efficiency is improved.

2. The efficient meal delivery method for the self-service intelligent soup powder or noodle making and selling equipment according to claim 1, wherein the processing unit selected in the step S2 is the processing unit which consumes the longest processing time and is selected according to the time consumption of each processing unit.

3. The efficient meal serving method for a self-service intelligent soup powder or noodle making device according to claim 2, wherein the non-shared unit (2) comprises at least processing units.

4. The efficient meal delivery method for the self-service intelligent soup powder or noodle making and selling equipment according to claim 3, wherein the processing unit which consumes the longest time at least comprises processing procedures.

5. The efficient meal serving method for a self-service intelligent soup powder or noodle making device according to claim 4, characterized in that the shared unit (1) supports at least two of the unshared units (2).

6. The efficient meal delivery method for the self-service intelligent soup powder or noodle making and selling equipment according to any of claims 1-5, wherein the shared unit (1) comprises at least two station segments, and at least two station segments are controlled by independent switches and are connected according to the sequence of the soup powder or noodle making process.

7. The efficient meal delivery method for self-service intelligent soup powder or noodle making equipment according to claim 6, characterized in that each station segment comprises at least processes in the common unit (1), and at least two station segments are connected in sequence to form the common unit (1).

Technical Field

The invention relates to the technical field of self-service intelligent soup powder or soup noodle making and selling equipment, in particular to an efficient meal delivery method for the self-service intelligent soup powder or soup noodle making and selling equipment, which comprises varieties of devices.

Background

The self-service intelligent soup powder or soup noodle making and selling equipment is used for processing dry food into corresponding cooked food making and selling equipment which can be eaten by users according to the requirements of the users. The automatic intelligent soup powder or soup noodle making and selling equipment is mainly used for automatically and intelligently making and selling soup powder or soup noodles, a traditional method for manually making soup powder or soup noodles has a plurality of steps, and different functions are realized through different stations according to the making steps of the soup powder or the soup noodles by the self-service intelligent soup powder or soup noodle making equipment in a flow line mode, so that the soup powder or the soup noodle making and selling through the equipment are realized.

However, most of devices for intelligently making and selling soup powder or soup noodles on the market are channels meal outlets, and the time for heating the devices in the process of making the soup powder or the soup noodles is long, so that a user can prepare meals after the preparation of the first meals is finished when the user uses the existing devices for self-help ordering.

Disclosure of Invention

The invention aims to provide efficient meal delivery methods for self-service intelligent soup powder or soup noodle making and selling equipment, which divide procedures in the process of making soup powder or soup noodle into shared units and non-shared units, and support a plurality of non-shared units through a single shared unit, so that the intelligent soup powder or soup noodle making and selling equipment can make other meals while making th meal, thereby improving the meal delivery efficiency of the intelligent soup powder or soup noodle making and selling equipment, reducing the average meal delivery time, reducing the equipment cost, reducing the equipment volume, and having the advantages of high meal delivery efficiency, short average meal delivery time, low equipment cost and small volume.

In order to achieve the purpose, the invention adopts the technical scheme that high-efficiency meal delivery methods for self-service intelligent soup powder or soup noodle making and selling equipment are provided with a plurality of processing procedures with different processing time, and the processing procedures with different processing time are sequentially connected according to the sequence to form a soup powder or soup noodle making assembly line, and the method comprises the following steps:

s1, dividing the processing units, and dividing the processing procedures related in sequence into a plurality of processing units;

s2, determining a shared unit and a non-shared unit, selecting processing units from a plurality of processing units, determining the processing unit and all the processing units behind the processing unit as the non-shared unit, and the rest as the shared unit;

and S3, copying the non-shared unit and multiplexing the shared unit, copying the non-shared unit and connecting the non-shared unit with the shared unit in parallel according to the requirement of the meal delivery speed, wherein the copied non-shared unit and the copied shared unit form complete soup powder or soup noodle production pipelines, so that the shared unit continuously works when the non-shared unit is in the process of meal production and forms complete soup powder or soup noodle production pipelines with other non-shared units, thereby realizing multiplexing of the shared unit and improving the meal delivery efficiency.

Further , the processing unit selected in step S2 is the processing unit that takes the longest processing time and is selected according to the time taken by each processing unit.

, the non-shared cell includes at least process cells.

, the processing unit which takes the longest time at least comprises processing procedures.

, the shared cell supports at least two of the non-shared cells.

, the shared unit at least comprises two station sections, and at least two station sections are controlled by independent switches and are connected according to the sequence of the making process of soup powder or soup noodles.

, each station segment includes at least processes within the common cell, and at least two of the station segments are connected in series to form the common cell.

After the technical scheme is adopted, the intelligent soup powder or soup noodle making and selling equipment has the advantages of high soup powder or soup noodle making efficiency, short average meal time, low equipment cost and small equipment volume by adopting the meal delivery method, so that the multiple soup powder or soup noodle making and selling equipment has the advantages of being capable of achieving the simultaneous making of multiple portions of soup powder or soup noodle through the parallel connection of the multiple non-shared units and the continuous working of the shared units and forming another pieces of soup powder or soup noodle making processes with other non-shared units when the non-shared units make meals, effectively improving the meal delivery efficiency, effectively reducing the equipment cost and reducing the equipment volume through the multiplexing of the shared units, meanwhile, dividing the station sections in the shared units, and arranging corresponding control switches on each station section to enable the processes in each station section to work independently, ensuring the processes in different station sections of the shared units to work simultaneously when the shared units are put into use, and improving the meal delivery efficiency of the equipment by steps.

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 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 a block flow diagram of the method of the present embodiment;

FIG. 2 is a block diagram of an th implementation of the present embodiment;

fig. 3 is a second implementation block diagram of the present embodiment.

Reference numeral 1, shared unit, 2, unshared unit, 3, th station segment, 4, second station segment.

Detailed Description

The present invention is further described in detail below with reference to the attached figures.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

The embodiment relates to efficient meal delivery methods for self-service intelligent soup powder or noodle making and selling equipment, as shown in fig. 1-3, wherein a plurality of processing procedures with different processing times are arranged in the self-service intelligent soup powder or noodle making and selling equipment, and the processing procedures with different processing times are sequentially connected in sequence, so that a soup powder or noodle making assembly line is formed, as shown in fig. 1, the method comprises the following steps:

s1, dividing the processing units, and dividing the processing procedures related in sequence into a plurality of processing units;

s2, determining a shared unit 1 and an unshared unit 2, selecting processing units from a plurality of processing units, determining the processing unit and all the processing units behind the processing unit as the unshared unit 2, and determining the rest as the shared unit 1;

s3, the non-shared unit 2 is copied and the shared unit 1 is multiplexed, the non-shared unit 2 is copied and connected with the shared unit 1 in parallel according to the requirement of meal serving speed, complete soup powder or soup noodle production pipelines are formed by the copied non-shared unit 2 and the shared unit 1, so that the shared unit 1 continuously works when the non-shared unit 2 is serving and forms complete soup powder or soup noodle production pipelines with other non-shared units 2, multiplexing of the shared unit 1 is achieved, and meal serving efficiency is improved.

And , the processing unit selected in the step S2 is the processing unit which takes the longest processing time and is selected according to the time taken by each processing unit.A non-shared unit 2 comprises at least processing units.A processing unit which takes the longest processing time comprises at least processing procedures.A shared unit 1 supports at least two non-shared units 2.

Preferably, the shared unit 1 at least comprises two station sections, at least two station sections are controlled by independent switches and are connected according to the sequence of the making process of the soup powder or the soup noodles, each station section comprises at least processes in the shared unit 1, and at least two station sections are connected in sequence to form the shared unit 1.

The processing steps and the corresponding approximate time in the self-service intelligent soup powder or noodle making and selling equipment are distributed as the following steps of ①, food box placing (about 3 seconds), ②, powder or noodle placing (about 3 seconds), ③, solid seasoning placing (about 3 seconds), ④, dried vegetable placing (about 3 seconds), ⑤, liquid seasoning placing (about 3 seconds), ⑥, water adding and heating (about 45 seconds) step ⑦, and sealing for meal placing (about 5 seconds).

complete production processes arranged inside the traditional soup powder or noodle making and selling equipment are that ① lower lunch boxes (about 3 seconds) → ② lower powder or noodle (about 3 seconds) → ③ lower solid seasonings (about 3 seconds) → ④ lower dried vegetables (about 3 seconds) → ⑤ lower liquid seasonings (about 3 seconds) → ⑥ water heating (about 60 seconds) → ⑦ sealing and meal delivery (about 5 seconds), and meals are delivered according to the complete process flow in about 80 seconds to 100 seconds.

In the present embodiment, as shown in fig. 2, first, the single process is set to processing units, and the processing process included in the processing unit that takes the longest time is selected as process ⑥, and then, the process ⑦ following the process ⑥ is divided into an unshared unit 2, and the meal outlet corresponding to the unshared unit 2 is designated as the th meal outlet, and the unshared unit 2 is copied and the meal outlet corresponding thereto is designated as the second meal outlet, and the remaining processes ①, ②, ③, ④, and 0 are divided into shared units 1.

The intelligent control module is used for controlling the shared unit 1 and the corresponding non-shared unit 2, the intelligent control modules are multiple, intelligent control modules are correspondingly arranged at each meal outlet for ordering by a user, when a meal outlet orders meal and the meal is ordered immediately after the second meal outlet, the intelligent control module corresponding to the meal outlet controls the shared unit 1 to carry out meal making work of meals, after the meal making step of the shared unit 1 is completed, semi-finished products of meals are sent to the non-shared module corresponding to the intelligent control module to be made subsequently, meals which are made are sent to the meal outlet, when the meals are made in the non-shared unit 2 to be processed, the intelligent control module corresponding to the second meal outlet controls the shared module to carry out second meal making work, and after the meals are made in the non-shared unit 2, the semi-finished products and the semi-finished products are sent to the second meal outlet, and the semi-finished products are sent to the second meal making unit 2.

As shown in fig. 3, the internal processes of the shared unit 1 are further divided into two stations, specifically, the processes ① and ② are divided into the th station 3, and the processes ③, ④ and 0 are divided into the second station 4, when the shared unit 1 is processed, the th meal is processed through the th station 3, and after the th processing station is processed, the th meal enters the second station 4 for processing, at this time, the th processing station starts to process the second meal, so that the shared unit 1 can process at least two meals simultaneously, and the meal delivery efficiency of the automatic intelligent soup powder or noodle making equipment is greatly improved.

The working principle of the embodiment is that by adopting the meal delivery method, the plurality of non-shared units 2 can be connected to the shared unit 1 in parallel, so that when the non-shared units 2 are used for making meals, the shared unit 1 can continuously work and is connected with other non-shared units 2 in parallel to form another pieces of soup powder or soup noodle making processes, and multiple portions of soup powder or soup noodle can be made simultaneously, the meal delivery method not only can effectively improve the meal delivery efficiency, but also can effectively reduce the cost of equipment and reduce the volume of the equipment through the multiplexing of the shared unit 1, meanwhile, the station sections are divided in the shared unit 1, and corresponding control switches are arranged on each station section, so that the processes in each station section can work independently, when the shared unit 1 is put into use, the processes in different station sections can work simultaneously, the meal delivery efficiency of the equipment is improved by steps, and the intelligent soup powder or soup noodle making equipment has the advantages of high meal delivery efficiency, short average meal delivery time, low equipment cost and small volume.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.