CN111915255B - Intelligent refrigeration house management and information sharing platform - Google Patents

Abstract

The invention belongs to the technical field of refrigeration house management, and particularly relates to an intelligent refrigeration house management and information sharing platform, which comprises the following components: the plurality of acquisition ends are respectively arranged in different partitions of the refrigeration house, and each acquisition end is provided with a respective number; the processing end is used for receiving the data acquired by the acquisition end, and a corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end; the management end is used for checking the environmental data in the corresponding subarea according to the area code of the subarea of the refrigeration house; the management end is also used for inputting or modifying the standard temperature of each cold storage partition, and the processing end is also used for storing or updating the standard temperature of each cold storage partition. By using the system, when a manager wants to check the environmental data of a certain refrigerator partition, the manager can check the environmental data directly through the management end.

Description

Intelligent refrigeration house management and information sharing platform

Technical Field

The invention belongs to the technical field of refrigeration house management, and particularly relates to an intelligent refrigeration house management and information sharing platform.

Background

The refrigerator is mainly used for constant temperature storage of foods, dairy products, meats, aquatic products and the like, plays roles in facilitating refrigeration processing and storage tasks of perishable foods, promotes agricultural and sideline fishery production, regulates market season supply and demand, and completes export tasks in a matched mode, and is a main component of food refrigeration processing enterprises. At present, the market of the refrigeration houses in China is a stage of comparison, and along with the importance of people on the quality of life, especially the explosion of fresh electricity suppliers and cold chain logistics in recent years, the market demand of the refrigeration houses is also continuously increased.

Because the area of freezer is very big, in order to make reasonable use of the inner space of freezer, can divide into a plurality of subregion with the freezer generally, every subregion can be used for storing different article. In order to ensure the normal operation of the refrigeration house, workers need to visit the refrigeration house regularly to check whether the performance (temperature) is stable or not, and timely maintain the refrigeration house when the performance is fluctuated or abnormal.

However, such a patrol method is low in efficiency, and besides, the temperature of the refrigerator is low, the air permeability is generally guaranteed, the refrigerator is generally large, a plurality of partitions are completely patrol once, and workers need to frequently go in and out of the refrigerator, so that the physical health of the workers can be negatively influenced to a certain extent.

Therefore, an intelligent refrigeration house management and information sharing platform is needed, and management personnel can conveniently and rapidly know the working condition of the refrigeration house.

Disclosure of Invention

The invention aims to provide an intelligent refrigeration house management and information sharing platform which can enable management staff to conveniently and rapidly know the working condition of a refrigeration house.

The basic scheme provided by the invention is as follows:

intelligent freezer management and information sharing platform includes:

the collection ends are used for collecting environmental data in the refrigeration house, the number of the collection ends is the same as that of the refrigeration house partitions, each collection end is provided with a respective number, and the collection ends are respectively arranged in different refrigeration house partitions;

the processing end is used for receiving the data acquired by the acquisition end, and a corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end;

the management end is used for checking the environmental data in the corresponding subarea according to the area code of the subarea of the refrigeration house;

the management end is also used for inputting or modifying the standard temperature of each cold storage partition, and the processing end is also used for storing or updating the standard temperature of each cold storage partition.

Basic scheme theory of operation and beneficial effect:

the plurality of collection ends and the freezer subregion are in one-to-one correspondence respectively, are equivalent to, and every subregion of freezer has a collection end to gather environmental data. Thus, the working conditions of each partition in the refrigeration house can be completely known. Because the refrigeration temperatures needed when different articles are put into the refrigeration house are different, after the refrigerated articles are put into the refrigeration house, the refrigeration temperatures suitable for the refrigerated articles are input according to the refrigeration house partition into which the refrigerated articles are put.

When the refrigerator formally works, after each acquisition end acquires the environment data of the corresponding refrigerator partition, the environment data are uploaded to the processing end, the corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end, and after the data of each processing end are received, the data are associated with each partition of the refrigerator.

When a manager wants to check the environmental data of a certain refrigerator partition, the manager can check the environmental data directly through the management end. When the refrigerator is put into the refrigerator for storage, the standard temperature (optimal refrigeration temperature) of the refrigerator is input through the management end and is stored by the processing end, and when the management personnel check the environment data of the refrigerator partition, the management personnel can compare with the standard temperature of the refrigerator partition, so that whether the current temperature of the refrigerator partition is proper or not is known. When the current temperature and the standard temperature have a larger difference, the temperature can be adjusted in time.

By using the system, a manager can quickly know the conditions of each partition of the refrigeration house on the management end.

Further, the environmental data that gathering end gathered includes the temperature value, and processing end still is used for comparing the temperature value that gathering end gathered with standard temperature, when the difference is greater than the difference of predetermineeing, sends adjustment signal to the management end, and adjustment signal includes the subregion number of freezer subregion.

After the processing end receives the environmental data acquired by the acquisition end, comparing the temperature value with the standard temperature of the refrigerator partition, and if the difference value of the two temperature values is larger than the preset difference value, indicating that the current temperature of the refrigerator partition is too high or too low for the stored object, and needing to be adjusted. Thus, the processing end sends an adjustment signal to the management end. The manager receives the adjustment signal through the management end, so that the manager knows that the refrigerator partition needing to be temperature-adjusted exists. After the adjusting signal comprises the subareas of the refrigeration house, the management personnel can quickly lock the subareas of the refrigeration house to be adjusted and process the subareas in time after checking the adjusting signal.

Further, the management end is a smart phone loaded with a corresponding APP; after receiving the adjusting signal for X minutes, the management end sends out a voice prompt and a vibration prompt if the state of the adjusting signal is still unread.

After the management end receives the adjusting signal for X minutes, the state of the adjusting signal is still unread, which indicates that the management personnel does not know the information yet and can not process the refrigerator partition with abnormal temperature in time. Therefore, the management end sends out voice prompt and vibration prompt, and the management end makes the management personnel notice the adjustment signal and process abnormal refrigerator partitions as soon as possible through the mode of large irritation of sound and vibration.

Further, the processing end stores the coordinates of each partition of the refrigerator; the processing end is also used for analyzing whether the management end is advancing towards the refrigerator partition related to the adjustment signal according to the historical coordinate information of the management end after the state of the adjustment signal is changed into the read state for Y minutes, and if the analysis result is negative, the processing end sends an urging signal to the management end.

The status of the adjustment signal becomes read indicating that the manager has knowledge of the relevant information of the anomaly. Because the management end is a smart phone, and the processing end stores the coordinates of each partition of the refrigeration house, after the state of the adjustment signal is changed into read Y minutes, the processing end can analyze whether the adjustment signal is advancing towards the refrigeration house partition related to the adjustment signal according to the historical coordinate information of the management end. If the analysis result is no, the manager does not go to the refrigeration house analysis with problems to solve the problems. In order to solve the problems in time, the quality of the refrigerated goods in the subarea is guaranteed, and the processing end sends an urging signal to the management end, so that management staff can remove the problems as soon as possible, and the quality of the relevant refrigerated goods is guaranteed.

And the processing end is further used for analyzing whether the refrigerator is advancing towards the refrigerator partition related to the adjustment signal according to the historical coordinate information of the management end after the processing end is used for sending the prompting signal for N minutes, and if the analysis result is negative, the processing end sends the prompting signal to the management end again.

Upon receiving the urging signal, the manager may be distracted by other things and forget to deal with the abnormal refrigerator partition. After the arrangement, when the situation occurs, the processing end can send an urging signal to the management end again, so that an administrator can process the abnormal cold storage partition.

Further, the adjustment signal also includes a current standard temperature of the freezer compartment.

When the temperature of the refrigeratory partition with temperature problems is regulated by the management personnel, the management personnel can refer to the current standard temperature of the refrigeratory partition, so that the refrigeratory partition reaches a temperature suitable for storing the refrigeratory as much as possible.

Further, the processing end stores the position distribution diagram of each partition; the management end is also used for viewing the position distribution map.

And the target partition can be conveniently and quickly found through the position distribution diagram.

Further, the acquisition end is also used for acquiring image data in the refrigeration house; the management end is also used for checking the images in the corresponding subareas according to the area numbers of the subareas of the refrigeration houses.

Besides the environment data, the manager can directly check the image data of each partition, so that the manager can intuitively and comprehensively know the current running condition of each refrigerator partition.

Further, the environmental data includes temperature, humidity, brightness, and dust concentration.

Through the environmental data, the current environmental state of the refrigerated object can be comprehensively known.

Further, the processing end is a cloud server.

The cloud server has the function of data backup, and even if hardware has a problem, the data cannot be affected or lost.

Drawings

FIG. 1 is a logic block diagram of an intelligent refrigeration storage management and information sharing platform according to an embodiment of the present invention.

Detailed Description

The following is a further detailed description of the embodiments:

example 1

As shown in FIG. 1, the intelligent refrigeration house management and information sharing platform comprises an acquisition end, a processing end and a management end.

The number of the collecting ends is the same as the number of the subareas of the refrigerator, the collecting ends are respectively arranged in the subareas of the refrigerator, and each collecting end is provided with a respective number. The acquisition end comprises a temperature sensor, a humidity sensor, a brightness sensor, a dust concentration sensor and a low-temperature-resistant camera. The acquisition end is used for acquiring environmental data of the refrigeration house and also used for acquiring image data in the refrigeration house.

In this embodiment, the processing end is a cloud server, specifically, a messenger cloud server, and in other embodiments, a hua cloud server may also be used. The processing end is used for receiving the data acquired by the acquisition end, and a corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end.

In this embodiment, the management end is a smart phone loaded with a corresponding APP. The management end is used for checking the environmental data in the corresponding subarea according to the area code of the subarea of the refrigeration house; the management end is also used for checking the images in the corresponding subareas according to the area numbers of the subareas of the refrigeration houses. The management end is also used for inputting or modifying the standard temperature of each cold storage partition, and the processing end is also used for storing or updating the standard temperature of each cold storage partition.

The processing end is also used for comparing the temperature value acquired by the acquisition end with the standard temperature, and sending an adjusting signal to the management end when the difference value is larger than the preset difference value, wherein the adjusting signal comprises the partition number of the refrigerator partition and the current standard temperature of the refrigerator partition. The processing end also stores the position distribution diagram of each partition; the management end is also used for viewing the position distribution map.

The specific implementation process is as follows:

the collection ends are multiple and correspond to the partitions of the refrigeration house one by one, and each partition of the refrigeration house is provided with one collection end for collecting environmental data. Thus, the working conditions of each partition in the refrigeration house can be completely known. Because the refrigeration temperatures needed when different articles are put into the refrigeration house are different, after the refrigerated articles are put into the refrigeration house, the refrigeration temperatures suitable for the refrigerated articles are input according to the refrigeration house partition into which the refrigerated articles are put.

When the refrigerator formally works, after each acquisition end acquires the environment data of the corresponding refrigerator partition, the environment data are uploaded to the processing end, the corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end, and after the data of each processing end are received, the data are associated with each partition of the refrigerator.

When a manager wants to check the environmental data of a certain refrigerator partition, the manager can check the environmental data directly through the management end. By looking up the environmental data, the manager can more comprehensively understand the current environmental state of the refrigerated object. In addition, the manager can check the image in the corresponding partition according to the area code of the refrigerator partition through the management end. The current running condition of each refrigerator partition is intuitively and comprehensively known.

When the refrigerator is put into the refrigerator for storage, the standard temperature (optimal refrigeration temperature) of the refrigerator is input through the management end and is stored by the processing end, and when the management personnel check the environment data of the refrigerator partition, the management personnel can compare with the standard temperature of the refrigerator partition, so that whether the current temperature of the refrigerator partition is proper or not is known. When the current temperature and the standard temperature have a larger difference, the temperature can be adjusted in time.

Besides the management side actively checks the environment data acquired by the acquisition side, the processing side compares the temperature value with the standard temperature of the refrigerator partition after receiving the environment data acquired by the acquisition side, and if the difference value of the two temperature values is larger than the preset difference value, the current temperature of the refrigerator partition is too high or too low for the stored objects, and adjustment is needed. Thus, the processing end sends an adjustment signal to the management end. The manager receives the adjustment signal through the management end, so that the manager knows that the refrigerator partition needing to be temperature-adjusted exists. After the adjusting signal comprises the subareas of the refrigeration house, the management personnel can quickly lock the subareas of the refrigeration house to be adjusted and process the subareas in time after checking the adjusting signal.

Because the processing end stores the position distribution diagram of each partition, the manager can check the position distribution diagram through the management end to quickly find the target partition. Besides, the adjusting signal also comprises the current standard temperature of the cold storage partition, and when the temperature of the cold storage partition with temperature problem is adjusted by a manager, the manager can refer to the current standard temperature of the cold storage partition, so that the cold storage partition can reach a temperature which is suitable for storing cold storage.

By using the system, a manager can quickly know the conditions of each partition of the refrigeration house on the management end.

Example two

Compared with the first embodiment, in this embodiment, after receiving the adjustment signal for X minutes, if the state of the adjustment signal is still unread, the management end sends out a voice prompt and a vibration prompt.

The processing end stores the coordinates of each partition of the refrigeration house; the processing end is also used for analyzing whether the management end is advancing towards the refrigerator partition related to the adjustment signal according to the historical coordinate information of the management end after the state of the adjustment signal is changed into the read state for Y minutes, and if the analysis result is negative, the processing end sends an urging signal to the management end. The processing end is also used for analyzing whether the refrigerator is advancing towards the refrigerator partition related to the adjusting signal according to the historical coordinate information of the management end after the processing end sends the prompting signal for N minutes, and if the analysis result is negative, the processing end sends the prompting signal to the management end again. X, Y and N, the values of X, Y and N in this example are 10, depending on the specific equipment of the refrigerator.

After the management end receives the adjusting signal for X minutes, the state of the adjusting signal is still unread, which indicates that the management personnel does not know the information yet and can not process the refrigerator partition with abnormal temperature in time. Therefore, the management end sends out voice prompt and vibration prompt, and the management end makes the management personnel notice the adjustment signal and process abnormal refrigerator partitions as soon as possible through the mode of large irritation of sound and vibration.

The status of the adjustment signal becomes read indicating that the manager has knowledge of the relevant information of the anomaly. Because the management end is a smart phone, and the processing end stores the coordinates of each partition of the refrigeration house, after the state of the adjustment signal is changed into read Y minutes, the processing end can analyze whether the adjustment signal is advancing towards the refrigeration house partition related to the adjustment signal according to the historical coordinate information of the management end. If the analysis result is no, the manager does not go to the refrigeration house analysis with problems to solve the problems. In order to solve the problems in time, the quality of the refrigerated goods in the subarea is guaranteed, and the processing end sends an urging signal to the management end, so that management staff can remove the problems as soon as possible, and the quality of the relevant refrigerated goods is guaranteed.

Upon receiving the urging signal, the manager may be distracted by other things and forget to deal with the abnormal refrigerator partition. After the arrangement, when the situation occurs, the processing end can send an urging signal to the management end again, so that an administrator can process the abnormal cold storage partition.

Example III

Different from the first embodiment, the cold store in the embodiment further comprises a transition room, wherein an intelligent air conditioner is arranged in the transition room and is communicated with the processor through a router; the body measurement device also comprises a body measurement end, wherein the body measurement end is an intelligent bracelet and is used for collecting physical sign data and exercise quantity of management personnel, and the physical sign data comprise body temperature, heart rate and blood oxygen saturation; the body measurement end and the management end are communicated through Bluetooth;

the management end is also used for positioning, coordinates between transitions are prestored in the management end, and when a manager moves towards the direction between the transitions and the distance between the coordinates of the manager and the coordinates between the transitions is not more than M kilometers, the management end sends an acquisition signal to the body measurement end, and the body measurement end acquires the quantity of motion of the manager; when the coordinate of the manager and the coordinate between the transition are not more than Q meters, the management end control value body measurement end collects physical sign data of the manager; the management end calculates the transition temperature currently suitable for the management personnel according to the collected motion quantity and sign data;

the management end is also used for controlling the intelligent air conditioner to supply air through the controller; the management end is also used for inputting the temperature of the air conditioner; the management end is also used for controlling the air conditioner to supply air after the input temperature is adjusted to the minimum value of the recommended temperature when the temperature is input by a manager and the time between the input time and the arrival transition is less than P minutes and the input temperature value is less than the minimum value of the recommended temperature.

Wherein the values of M, Q and P can be set by one skilled in the art. In this example, M is 2, Q is 70, and P is 10.

The specific implementation process comprises the following steps:

because the temperature in the freezer is very low, the manager directly enters the freezer to check the specific condition of the internal goods, and the manager body can be influenced negatively to a certain extent. In order to reduce such negative effects as much as possible, in this embodiment, a transition room is provided in the refrigerator, and before entering the low temperature area of the refrigerator, a manager can adjust the transition room to a suitable temperature, and after a period of time, the manager enters the low temperature area of the refrigerator again.

However, if the temperature setting between the transition rooms is improper (the temperature is too low), the situation that the manager just sweats out just happens is just met, and the transition rooms can also cause serious adverse effects on the bodies of the manager. Therefore, before the intelligent air conditioner of the transition room is turned on, the manager needs to know whether the manager is suitable for blowing the air conditioner or not, and what the suitable temperature is, and besides the sign data of the manager when the manager arrives at the transition room, the manager needs to know the movement condition of the manager before the manager arrives at the transition room. Since even if the sign data at the time of reaching the transition is the same, if the movement situation before reaching the transition is different, the physical state is different in the period of time following the arrival of the transition.

In order to better understand the physical condition of the manager, in this embodiment, when the manager moves in the direction between transitions and the distance between the coordinates of the manager and the coordinates between transitions is not greater than 2 km, the body measurement end starts to collect the movement amount of the manager; and when the coordinate of the manager and the coordinate between the transition are not more than 70 meters, the body measurement end collects physical sign data of the manager. And the control end calculates the recommended temperature currently suitable for the management personnel according to the collected motion quantity and sign data. The suggested temperature thus obtained enables the manager to make a transition and adaptation of the temperature between transitions at a later time period with confidence.

When the manager inputs the temperature, if the input time and the arrival transition time are less than 10 minutes, and the input temperature value is less than the minimum value of the recommended temperature. The physical state of the manager is still in a more exciting state at the moment, if the input temperature value is smaller than the minimum value of the recommended temperature, the body of the manager can be greatly and negatively influenced if the air conditioner is controlled to supply air according to the input temperature. Therefore, after the management end adjusts the input temperature to the minimum value of the recommended temperature, the control end controls the air conditioner to supply air. Therefore, the situation that the manager is cooled after reaching the transition room after exercise, and the manager is ill because the manager does not recover completely can be avoided.

The foregoing is merely an embodiment of the present invention, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present invention, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (6)

1. Intelligent freezer management and information sharing platform, its characterized in that includes:

the collection ends are used for collecting environmental data in the refrigeration house, the number of the collection ends is the same as that of the refrigeration house partitions, each collection end is provided with a respective number, and the collection ends are respectively arranged in different refrigeration house partitions;

the processing end is used for receiving the data acquired by the acquisition end, and a corresponding relation table of the acquisition end number and the refrigerator partition is stored in the processing end;

the management end is used for checking the environmental data in the corresponding subarea according to the area code of the subarea of the refrigeration house;

the management end is also used for inputting or modifying the standard temperature of each cold storage partition, and the processing end is also used for storing or updating the standard temperature of each cold storage partition;

the environment data acquired by the acquisition end comprises a temperature value, the processing end is further used for comparing the temperature value acquired by the acquisition end with a standard temperature, and when the difference value is larger than a preset difference value, an adjustment signal is sent to the management end, wherein the adjustment signal comprises a partition number of a refrigerator partition;

the management end is a smart phone loaded with a corresponding APP; after receiving the adjusting signal for X minutes, the management end sends out a voice prompt and a vibration prompt if the state of the adjusting signal is still unread;

the processing end stores the coordinates of each partition of the refrigeration house; the processing end is also used for analyzing whether the adjustment signal is advancing towards the refrigerator partition related to the adjustment signal according to the historical coordinate information of the management end after the state of the adjustment signal is changed into the read state for Y minutes, and if the analysis result is negative, the processing end sends an urging signal to the management end;

the processing end is also used for analyzing whether the refrigerator is advancing towards the refrigerator partition related to the adjusting signal according to the historical coordinate information of the management end after the processing end sends the prompting signal for N minutes, and if the analysis result is negative, the processing end sends the prompting signal to the management end again.

2. The intelligent refrigeration storage management and information sharing platform according to claim 1, wherein: the adjustment signal also includes the current standard temperature of the freezer compartment.

3. The intelligent refrigeration storage management and information sharing platform according to claim 1, wherein: the processing end stores the position distribution map of each partition; the management end is also used for viewing the position distribution map.

4. The intelligent refrigeration storage management and information sharing platform according to claim 1, wherein: the acquisition end is also used for acquiring image data in the refrigeration house; the management end is also used for checking the images in the corresponding subareas according to the area numbers of the subareas of the refrigeration houses.

5. The intelligent refrigeration storage management and information sharing platform according to claim 1, wherein: environmental data includes temperature, humidity, brightness, and dust concentration.

6. The intelligent refrigeration storage management and information sharing platform according to claim 1, wherein: the processing end is a cloud server.

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