阅读说明：本技术 一种分布式存储数据用区块链标记系统 (Block chain marking system for distributed storage data ) 是由 陈江 于 2021-08-17 设计创作，主要内容包括：本发明公开了一种分布式存储数据用区块链标记系统,包括餐盒标记模块、细菌分析模块和回收模块,所述餐盒标记模块用于对可回收餐盒进行定位,在用户用餐结束后对餐盒进行回收,所述细菌分析模块用于分析可回收餐盒的细菌繁殖程度,所述回收模块用于餐盒回收端在回收餐盒时对餐盒进行预消毒处理,所述餐盒标记模块包括定位模块和信号发射模块,所述细菌分析模块包括时间分析模块和温度分析模块,所述回收模块包括高压蒸汽模块、功率调节模块和数据存储模块,所述信号发射模块与数据存储模块电连接,所述时间分析模块与温度分析模块与功率调节模块电连接；本发明,具有根据对可回收餐盒进行预消毒处理的特点。(The invention discloses a block chain marking system for distributed storage data, which comprises a lunch box marking module, a bacteria analysis module and a recovery module, wherein the lunch box marking module is used for positioning a recoverable lunch box, the meal box is recovered after the user finishes eating, the bacteria analysis module is used for analyzing the bacteria propagation degree of the recoverable meal box, the recycling module is used for pre-disinfecting the lunch box when the lunch box recycling end recycles the lunch box, the meal box marking module comprises a positioning module and a signal transmitting module, the bacteria analysis module comprises a time analysis module and a temperature analysis module, the recovery module comprises a high-pressure steam module, a power regulation module and a data storage module, the signal transmitting module is electrically connected with the data storage module, and the time analysis module is electrically connected with the temperature analysis module and the power regulation module; the invention has the characteristic of pre-disinfecting the recyclable lunch box.)

1. The utility model provides a distributed storage is block chain mark system for data, includes cutlery box mark module, bacterium analysis module and recovery module, its characterized in that: the cutlery box marking module is used for locating recoverable cutlery box, retrieves the cutlery box after the user has a meal, the bacterium analysis module is used for analyzing the bacterium reproduction degree of recoverable cutlery box, the recovery module is used for cutlery box recovery end to carry out disinfection processing in advance to the cutlery box when retrieving the cutlery box.

2. The system according to claim 1, wherein the system further comprises: the meal box marking module comprises a positioning module and a signal transmitting module, the bacteria analysis module comprises a time analysis module and a temperature analysis module, the recovery module comprises a high-pressure steam module, a power regulation module and a data storage module, the signal transmitting module is electrically connected with the data storage module, and the time analysis module is electrically connected with the temperature analysis module and the power regulation module;

the positioning module is used for positioning the recyclable lunch box, the signal transmitting module is used for transmitting signals to the lunch box recycling end to remind the lunch box recycling end to return a user to recycle the lunch box, the time analysis module is used for analyzing the propagation time of bacteria in the recyclable lunch box, the temperature analysis module is used for analyzing the temperature of the environment where the bacteria propagate in the lunch box, the high-pressure steam module is used for pre-disinfecting the lunch box in a high-pressure steam mode, the power adjusting module is used for dynamically adjusting the working power of the high-pressure steam module according to the bacteria propagation degree of the recyclable lunch box, and the data storage module is used for storing data.

3. The system according to claim 2, wherein the system further comprises: the data storage module comprises a signal receiving unit, the signal receiving unit is used for receiving the reminding signal transmitted by the signal transmitting module, and the specific working process of the block chain marking system comprises the following steps:

s1, after the user takes a take-out meal, the take-out delivery end delivers the take-out for each user, the take-out uses a recyclable lunch box, the positioning module and the signal transmitting module are installed on each recyclable lunch box, after the user finishes the meal, the user uses the signal transmitting module to send a signal of finishing the meal, and the signal receiving unit receives the signal and reminds the recycling end of the lunch box to go to the user to recycle the lunch box;

s2, the time analysis module records the time when the user finishes dining and the time when the recycling end of the lunch box reaches the user, the bacterial reproduction degree in the time period is calculated, the result is a bacterial reproduction time value T, the temperature analysis module records the temperature k in the lunch box in real time after the user finishes dining, and the reproduction rate V of bacteria at the temperature is calculated according to the change condition of the temperature in the lunch box;

s3, calculating the propagation degree F of the bacteria by the bacteria analysis module according to the propagation time value of the bacteria and the propagation rate of the bacteria, and uploading data to the data storage module;

and S4, when the recycling end of the lunch box reaches the user position, retrieving the recyclable lunch box and putting the lunch box into the high-pressure steam module to sterilize the lunch box, accessing the bacterial reproduction degree of the lunch box in the data storage module by the power adjusting module at the moment, adjusting the working power of the high-pressure steam module, recycling the lunch box from the front of the recycling end of the lunch box to the next user position and putting the lunch box into the high-pressure steam module to perform pre-sterilization treatment, and so on.

4. The system according to claim 3, wherein the system further comprises: the time analysis module includes a timing unit, the timing unit is used for recording time t, and the specific working process of the time analysis module in the step S2 includes the following steps:

s2-1, the timing unit records the time t after the user finishes dining₁And the time t for the recycling end of the meal box to reach the user₂The time analysis unit calculates the bacterial reproduction time value T ═ T₂-t₁；

S2-2, the suitable propagation temperature K of the bacteria in the lunch box is (K)₁,K₂) The temperature analysis module records the real-time temperature k of bacteria in the meal box and calculates the reproduction rate V of the bacteria at the current temperature:

V＝(k-K₁)×(k-K₂)

and uploading the data to the data storage module.

5. The system according to claim 4, wherein the system further comprises: the bacteria analysis module accesses the bacteria reproduction time value T and the bacteria reproduction rate V in the data storage module, and calculates the total bacteria reproduction degree F of the lunch box when the lunch box is recovered by the lunch box recovery end, wherein the bacteria reproduction degree F in the step S3 is in direct proportion to the recovery time, and specifically comprises the following steps:

and storing the calculation result to the data storage module.

6. The system according to claim 5, wherein the system further comprises: in the step S4, the power adjusting module adjusts the working power of the high-pressure steam module according to the bacterial reproduction degree, and the specific working process includes the following steps:

s4-1, using initial power W for high-pressure steam module₀Pre-disinfecting the lunch box, and recycling the lunch box when the lunch box recycling end goes to a user;

s4-2, stopping the meal box marking module, putting the meal box into the high-pressure steam module after the meal box is recovered by the meal box recovery end, and accessing the calculation result of the bacterial reproduction degree in the data storage module by the power adjusting module;

s4-3, the power adjusting module increases the working power of the high-pressure steam module according to the reproduction degree of bacteria, the power increment is W, and specifically, W is W₀X μ x F, where μ is an empirical parameter, is relevant to calculating the working power from the extent of bacterial growth.

7. The system according to claim 6, wherein the system further comprises: operating power W of the high-pressure steam module_hAccording to the time reduces gradually, timing unit record is put into the accumulative total disinfection time h of high pressure steam module every time cutlery box, and this accumulative total time h can refresh after the cutlery box is retrieved every time, specifically is:

wherein W_iThe new working power of the high-pressure steam module is obtained after the meal box is recovered each time.

8. The system according to claim 7, wherein the system further comprises: in the step S4, the power adjustment module accesses the bacteria reproduction degree of the lunch box in the data storage module, at this time, the power adjustment module increases the operating power of the high-pressure steam module, the lunch box is recovered from the front of the lunch box recovery end to the next user and the lunch box is put into the high-pressure steam module for pre-disinfection, the power adjustment module gradually decreases the operating power of the high-pressure steam module along with the traveling time of the lunch box recovery end, and the operating power of the high-pressure steam module in the whole process of the system is W ═ W_h+w。

9. The system according to claim 8, wherein the system further comprises: the meal box marking module comprises a protection unit, and the protection unit is used for protecting the positioning module and the signal transmitting module so that the positioning module and the signal transmitting module can keep dry in a high-pressure steam sterilization environment.

10. The system according to claim 9, wherein the system further comprises: the power adjusting module comprises a manual unit, and the manual unit is used for manually adjusting the working power of the high-pressure steam module according to the distribution end of the lunch boxes.

Technical Field

The invention relates to the technical field of block chain marking, in particular to a block chain marking system for distributed storage data.

Background

In the current society, environmental protection consciousness is deep and popular, the development of the take-out industry also causes a plurality of environmental problems, a large amount of waste lunch boxes not only cause resource waste but also damage the environment, and along with the prominent take-out environmental protection problem, the recyclable lunch boxes are gradually popular with consumers.

According to investigation and research, a large amount of bacteria can breed in the recovery process of the recyclable lunch box, and after the lunch box returns to a merchant, the pungent smell sent by the lunch box can influence the health of cleaning workers when the cleaning workers disinfect the recyclable lunch box, so that it is necessary to design a block chain marking system for distributed storage data, which can pre-disinfect the recyclable lunch box.

Disclosure of Invention

The present invention is directed to a block chain marking system for distributed storage data, so as to solve the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a distributing type is block chain mark system for storage data, includes cutlery box mark module, bacterium analysis module and recovery module, cutlery box mark module is used for fixing a position recoverable cutlery box, retrieves the cutlery box after the user has a meal, bacterium analysis module is used for the bacterium of recoverable cutlery box of assay to breed the degree, recovery module is used for cutlery box recovery end to carry out disinfection treatment in advance to the cutlery box when retrieving the cutlery box.

According to the technical scheme, the meal box marking module comprises a positioning module and a signal transmitting module, the bacteria analysis module comprises a time analysis module and a temperature analysis module, the recovery module comprises a high-pressure steam module, a power regulation module and a data storage module, the signal transmitting module is electrically connected with the data storage module, and the time analysis module and the temperature analysis module are electrically connected with the power regulation module;

the positioning module is used for positioning the recyclable lunch box, the signal transmitting module is used for transmitting signals to the lunch box recycling end to remind the lunch box recycling end to return a user to recycle the lunch box, the time analysis module is used for analyzing the propagation time of bacteria in the recyclable lunch box, the temperature analysis module is used for analyzing the temperature of the environment where the bacteria propagate in the lunch box, the high-pressure steam module is used for pre-disinfecting the lunch box in a high-pressure steam mode, the power adjusting module is used for dynamically adjusting the working power of the high-pressure steam module according to the bacteria propagation degree of the recyclable lunch box, and the data storage module is used for storing data.

According to the technical scheme, the data storage module comprises a signal receiving unit, the signal receiving unit is used for receiving the reminding signal transmitted by the signal transmitting module, and the specific working process of the block chain marking system comprises the following steps:

s1, after the user takes a take-out meal, the take-out delivery end delivers the take-out for each user, the take-out uses a recyclable lunch box, the positioning module and the signal transmitting module are installed on each recyclable lunch box, after the user finishes the meal, the user uses the signal transmitting module to send a signal of finishing the meal, and the signal receiving unit receives the signal and reminds the recycling end of the lunch box to go to the user to recycle the lunch box;

s2, the time analysis module records the time when the user finishes dining and the time when the recycling end of the lunch box reaches the user, the bacterial reproduction degree in the time period is calculated, the result is a bacterial reproduction time value T, the temperature analysis module records the temperature k in the lunch box in real time after the user finishes dining, and the reproduction rate V of bacteria at the temperature is calculated according to the change condition of the temperature in the lunch box;

s3, calculating the propagation degree F of the bacteria by the bacteria analysis module according to the propagation time value of the bacteria and the propagation rate of the bacteria, and uploading data to the data storage module;

and S4, when the recycling end of the lunch box reaches the user position, retrieving the recyclable lunch box and putting the lunch box into the high-pressure steam module to sterilize the lunch box, accessing the bacterial reproduction degree of the lunch box in the data storage module by the power adjusting module at the moment, adjusting the working power of the high-pressure steam module, recycling the lunch box from the front of the recycling end of the lunch box to the next user position and putting the lunch box into the high-pressure steam module to perform pre-sterilization treatment, and so on.

According to the above technical solution, the time analysis module includes a timing unit, the timing unit is configured to record time t, and the specific working process of the time analysis module in the step S2 includes the following steps:

s2-1, the timing unit records the time t after the user finishes dining₁And the time t for the recycling end of the meal box to reach the user₂The time analysis unit calculates the bacterial reproduction time value T ═ T₂-t₁；

S2-2, the suitable propagation temperature K of the bacteria in the lunch box is (K)₁,K₂) The temperature analysis module records the real-time temperature k of bacteria in the meal box and calculates the reproduction of the bacteria at the current temperatureReproduction rate V:

V＝(k-K₁)×(k-K₂)

and uploading the data to the data storage module.

According to the above technical solution, the bacteria analysis module accesses the bacteria reproduction time value T and the bacteria reproduction rate V in the data storage module, and calculates the total bacteria reproduction degree F of the lunch box when the lunch box is recovered by the recovery end of the lunch box, and the bacteria reproduction degree F in the step S3 is directly proportional to the recovery time, specifically:

and storing the calculation result to the data storage module.

According to the technical scheme, the power adjusting module in the step S4 adjusts the working power of the high-pressure steam module according to the bacterial reproduction degree, and the specific working process comprises the following steps:

s4-1, using initial power W for high-pressure steam module₀Pre-disinfecting the lunch box, and recycling the lunch box when the lunch box recycling end goes to a user;

s4-2, stopping the meal box marking module, putting the meal box into the high-pressure steam module after the meal box is recovered by the meal box recovery end, and accessing the calculation result of the bacterial reproduction degree in the data storage module by the power adjusting module;

s4-3, the power adjusting module increases the working power of the high-pressure steam module according to the reproduction degree of bacteria, the power increment is W, and specifically, W is W₀X μ x F, where μ is an empirical parameter, is relevant to calculating the working power from the extent of bacterial growth.

According to the technical scheme, the working power W of the high-pressure steam module_hAccording to the time reduces gradually, timing unit record is put into the accumulative total disinfection time h of high pressure steam module every time cutlery box, and this accumulative total time h can refresh after the cutlery box is retrieved every time, specifically is:

wherein W_iThe new working power of the high-pressure steam module is obtained after the meal box is recovered each time.

According to the above technical solution, the power regulation module in step S4 accesses the bacteria reproduction degree of the lunch box in the data storage module, at this time, the power regulation module increases the operating power of the high pressure steam module, the lunch box is recovered from the front of the lunch box recovery end to the next user and is put into the high pressure steam module for pre-disinfection, the power regulation module gradually decreases the operating power of the high pressure steam module along with the traveling time of the lunch box recovery end, and the operating power of the high pressure steam module in the whole process of the system is W ═ W_h+w。

According to the technical scheme, the meal box marking module comprises a protection unit, and the protection unit is used for protecting the positioning module and the signal transmitting module so that the positioning module and the signal transmitting module can keep dry in a high-pressure steam sterilization environment.

The power adjusting module comprises a manual unit, and the manual unit is used for manually adjusting the working power of the high-pressure steam module according to the distribution end of the lunch boxes.

Compared with the prior art, the invention has the following beneficial effects: the invention pre-disinfects the lunch box in the recycling process of the recyclable lunch box, reduces the working content of subsequent lunch box cleaning, protects the health of cleaning personnel, dynamically adjusts the working power during disinfection according to the bacterial reproduction degree of the lunch box, saves energy when the work is finished efficiently, and reduces the operation cost of enterprises.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a system block diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a distributed storage is block chain mark system for data, includes cutlery box mark module, bacterium analysis module and recovery module, its characterized in that: the meal box marking module is used for positioning the recyclable meal box and recycling the meal box after a user finishes eating, the bacteria analyzing module is used for analyzing the bacteria propagation degree of the recyclable meal box, and the recycling module is used for pre-disinfecting the meal box when the meal box is recycled by the meal box recycling end;

the meal box marking module comprises a positioning module and a signal transmitting module, the bacteria analysis module comprises a time analysis module and a temperature analysis module, the recovery module comprises a high-pressure steam module, a power regulation module and a data storage module, the signal transmitting module is electrically connected with the data storage module, and the time analysis module is electrically connected with the temperature analysis module and the power regulation module;

the system comprises a positioning module, a signal transmitting module, a time analyzing module, a temperature analyzing module, a high-pressure steam module, a power adjusting module and a data storage module, wherein the positioning module is used for positioning a recyclable lunch box, the signal transmitting module is used for transmitting a signal to a recycling end of the lunch box to remind the recycling end of the lunch box to return to a user to recycle the lunch box, the time analyzing module is used for analyzing the propagation time of bacteria in the recyclable lunch box, the temperature analyzing module is used for analyzing the temperature of the environment in which the bacteria in the lunch box are propagated, the high-pressure steam module is used for pre-sterilizing the lunch box in a high-pressure steam mode, the power adjusting module is used for dynamically adjusting the working power of the high-pressure steam module according to the bacterial propagation degree of the recyclable lunch box, and the data storage module is used for storing data;

the data storage module comprises a signal receiving unit, the signal receiving unit is used for receiving the reminding signal transmitted by the signal transmitting module, and the specific working process of the block chain marking system comprises the following steps:

s1, after the user takes a take-out meal, the take-out delivery end carries out take-out delivery to each user, the take-out uses a recyclable lunch box, the positioning module and the signal transmitting module are installed on each recyclable lunch box, after the user finishes eating, the user uses the signal transmitting module to send a signal of finishing eating, the signal receiving unit receives the signal and reminds the recycling end of the lunch box to go to the user to recycle the lunch box, the cost is saved, and the waste is reduced;

s2, the time analysis module records the time when the user finishes dining and the time when the recycling end of the lunch box reaches the user, the bacterial reproduction degree in the time period is calculated, the result is a bacterial reproduction time value T, the temperature analysis module records the temperature k in the lunch box in real time after the user finishes dining, and the reproduction rate V of bacteria at the temperature is calculated according to the change condition of the temperature in the lunch box;

s3, calculating the propagation degree F of bacteria by the bacteria analysis module according to the propagation time value and the propagation rate of the bacteria, uploading the data to the data storage module, and calculating the bacteria degree in the lunch box according to the propagation time and the propagation rate of the bacteria, so that the pre-disinfection process is accurate and efficient;

s4, when the recycling end of the lunch box reaches the user position, the recyclable lunch box is taken back and put into the high-pressure steam module to sterilize the lunch box, at the moment, the power adjusting module accesses the bacterial reproduction degree of the lunch box in the data storage module and adjusts the working power of the high-pressure steam module, the lunch box is recycled from the front of the recycling end of the lunch box to the next user position and put into the high-pressure steam module to be pre-sterilized, and therefore the steps are repeated, the pre-sterilization treatment is carried out on the lunch box, the subsequent working pressure is reduced, and the health of cleaning personnel is protected when a merchant cleans the lunch box;

the time analysis module includes a timing unit, the timing unit is configured to record time t, and the specific working process of the time analysis module in step S2 includes the following steps:

s2-1, the timing unit records the time t after the user finishes dining₁And the time t for the recycling end of the meal box to reach the user₂The time analysis unit calculates the bacterial reproduction time value T ═ T₂-t₁Calculating the propagation time of bacteria;

s2-2 lunch boxThe suitable propagation temperature K of the endophytes is within the interval (K)₁,K₂) The temperature analysis module records the real-time temperature k of bacteria in the meal box and calculates the reproduction rate V of the bacteria at the current temperature:

V＝(k-K₁)×(k-K₂)

uploading the data to a data storage module;

the bacteria analysis module accesses the bacteria reproduction time value T and the bacteria reproduction rate V in the data storage module, and calculates the total bacteria reproduction degree F of the lunch box when the lunch box is recovered by the lunch box recovery end, and the bacteria reproduction degree F in the step S3 is in direct proportion to the recovery time, specifically:

the calculation result is stored in a data storage module, and the propagation degree of the bacteria in the meal box is analyzed according to the propagation time and the propagation speed of the bacteria, so that the pre-disinfection process has high efficiency;

in the step S4, the power adjusting module adjusts the working power of the high-pressure steam module according to the bacterial reproduction degree, and the specific working process includes the following steps:

s4-1, using initial power W for high-pressure steam module₀The meal box is pre-sterilized, and the meal box recovery end goes to a user to recover the meal box, so that the meal box is recycled, the operation cost of an enterprise is saved, the waste of takeout meal boxes is reduced, and the environment is protected;

s4-2, stopping the meal box marking module, putting the meal box into the high-pressure steam module after the meal box is recovered by the meal box recovery end, and accessing the calculation result of the bacterial reproduction degree in the data storage module by the power adjusting module;

s4-3, the power adjusting module increases the working power of the high-pressure steam module according to the reproduction degree of bacteria, the power increment is W, and specifically, W is W₀X mu x F, where mu is an empirical parameter related to calculating the working power based on the propagation level of the bacteria, and dynamically adjusting the working power based on the propagation level of the bacteria to achieve accurate and efficient sterilizationEnergy sources;

operating power W of the high-pressure steam module_hAccording to the time reduces gradually, timing unit record is put into the accumulative total disinfection time h of high pressure steam module every time cutlery box, and this accumulative total time h can refresh after the cutlery box is retrieved every time, specifically is:

wherein W_iThe working power is gradually reduced in the disinfection process for the new working power of the high-pressure steam module after the lunch box is recovered every time, so that the energy is saved;

in the step S4, the power adjustment module accesses the bacteria reproduction degree of the lunch box in the data storage module, at this time, the power adjustment module increases the operating power of the high-pressure steam module, the lunch box is recovered from the front of the lunch box recovery end to the next user and the lunch box is put into the high-pressure steam module for pre-disinfection, the power adjustment module gradually decreases the operating power of the high-pressure steam module along with the traveling time of the lunch box recovery end, and the operating power of the high-pressure steam module in the whole process of the system is W ═ W_h+w；

The meal box marking module comprises a protection unit, and the protection unit is used for protecting the positioning module and the signal transmitting module so that the positioning module and the signal transmitting module can be kept dry in a high-pressure steam sterilization environment;

the power adjusting module comprises a manual unit which is used for manually adjusting the working power of the high-pressure steam module according to the distribution end of the meal boxes.

Example (b): after the user has a meal, the lunch box is retrieved the end and is gone to user department and retrieve the lunch box, and bacterium reproduction time value T is 0.5h when arriving user department, and the temperature analysis module calculates the reproduction rate of bacterium and calculates the reproduction degree F of bacterium and is 0.2, and high pressure steam module is with initial power W₀When the lunch box is put into the high-pressure steam module, the power regulating module regulates the working power W to be 60W according to the bacterial reproduction degree of the lunch box, the recycling end of the lunch box moves to the next user, the accumulated disinfection time h of the high-pressure steam module is 0.1h on the way, and the lunch box is usedPower W of high pressure steam module at home_h55W, the bacteria propagation degree F of the lunch box of the second user is 0.15, when the lunch box is put in, the power adjusting module continues to adjust the working power W of the high-pressure steam module to 62W according to the bacteria propagation degree of the lunch box, and the lunch box recycling module continues to go to the next user, so that the operation is repeated.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.