CN208639056U - A kind of monomer vacuum tank grain storage system - Google Patents

Abstract

The utility model provides a kind of monomer vacuum tank grain storage system, which includes vacuumizing pedestal, monomer vacuum tank, server and mobile terminal.It is described to vacuumize pedestal, for the first data of setting, the second data and third data, and realizes and the monomer vacuum tank is vacuumized, charging operations；The monomer vacuum tank possesses unique number, for storing grain, and the first data of display, internal vacuum and electricity；The server, for sending and receiving the first data, the second data, third data, internal vacuum and electricity；The mobile terminal is wirelessly connected with the server, the information sent for receiving the server.The system realizes the information management to monomer vacuum tank, and the information of grain is checked convenient for user；It realizes that intelligent reminding user carries out vacuumize process, has ensured the vacuum storage environment of grain, increased the storage cycle of grain, avoided the waste of grain.

Description

Single vacuum tank grain storage system

Technical Field

The utility model relates to a store up grain technical field, in particular to monomer vacuum tank stores up grain system.

Background

With the development of society and the busy life of people, the current family user often can purchase multiclass grain and put in the kitchen in order to satisfy long-time user demand, avoids spending the plenty of time everyday and carries out food material shopping. The mode of storing grains in the vacuum tank is gradually accepted and used by users, and the vacuum tank has the advantages of long grain storage time, difficulty in mildewing and the like.

Once the required food is bought from the market by most users and unpacked, the food can be exposed to the environment of moisture for a long time, so that the food is moldy, vermin and disordered. Users eat moldy and disordered grains carelessly and have the risks of carcinogenesis and poisoning. When using ordinary vacuum bag to store up grain, grain is in the vacuum state before only can guaranteeing to open the bag, in case unpack the vacuum bag apart, just can not realize the effect that vacuum seal preserved grain once more to influence the preservation of grain, cause the waste of grain, increase carcinogenic risk, and be not convenient for manage. The user may thus choose to use a monomer vacuum canister.

However, at present, when a user takes out needed grains from the single vacuum tank, the vacuumizing base needs to be reused for vacuumizing the single vacuum tank so as to achieve the effect of storing the grains in a vacuum sealing manner. However, users sometimes place the vacuum tank at any place or forget to vacuumize the single vacuum tank, which affects the storage of grains and causes waste of grains.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art not enough, the utility model provides a monomer vacuum tank stores up grain system, the user takes out the back with required grain from monomer vacuum tank in, forgets when the monomer vacuum tank evacuation, the utility model discloses just can remind the user to carry out evacuation treatment to monomer vacuum tank, reach the purpose of storing grain under vacuum environment for a long time.

In order to achieve the above object, the present invention provides the following technical solutions:

a single vacuum tank grain storage system comprises a vacuumizing base, a single vacuum tank, a server and a mobile terminal.

The vacuumizing base is connected with the single vacuum tank, is wirelessly connected with the server and is used for setting first data, second data and third data and realizing the operations of vacuumizing and charging the single vacuum tank.

The single vacuum tank is connected with the vacuumizing base, is in wireless connection with the server and is used for storing grains and displaying first data, internal vacuum degree and electric quantity.

The server is in wireless connection with the vacuumizing base, the single vacuum tank and the mobile terminal respectively and is used for receiving and sending first data, second data, third data, internal vacuum degree and electric quantity.

And the mobile terminal is in wireless connection with the server and is used for receiving the information sent by the server.

Preferably, the number of the single vacuum tanks is at least one, and the single vacuum tanks are used for storing different kinds of grains.

Preferably, each of the monomer vacuum tanks has a unique number, and the number is used for identity comparison of the monomer vacuum tanks.

Preferably, the vacuumizing base comprises a main control chip, a wireless module, a weight module, a charging module, a power module, an electromagnetic valve module, a vacuumizing module, a display module, a key module and a voice module;

wherein,

the main control chip is respectively coupled with the wireless module, the weight module, the charging module, the power module, the electromagnetic valve module, the vacuumizing module, the display module, the key module and the voice module, and is used for calculating and processing information transmitted by each module, analyzing the information according to the information and transmitting the information to the server through the wireless module;

the wireless module is coupled with the main control chip and used for transmitting information to the server;

the weight module is coupled with the main control chip and used for measuring the weight of the grain in real time;

the charging module is coupled with the main control chip and used for charging the monomer vacuum tank;

the power supply module is coupled with the main control chip and used for providing power supply for each module;

the electromagnetic valve module is coupled with the main control chip and used for recovering the air pressure of the vacuumizing base;

the vacuumizing module is coupled with the main control chip and used for vacuumizing the monomer vacuum tank;

the display module is coupled with the main control chip and used for displaying and setting various information;

the key module is coupled with the main control chip and used for modifying various information;

the voice module is coupled with the main control chip and used for modifying various information in a voice mode.

Preferably, the single vacuum tank comprises a main control chip, a wireless module, a power module, a detection module, a gyroscope module, an indicator light module, a display module and a key module;

wherein,

the main control chip is respectively coupled with the wireless module, the power supply module, the detection module, the gyroscope module, the indicator light module, the display module and the key module, and is used for calculating and processing information transmitted by each module, analyzing the information according to the information and transmitting the information to the server through the wireless module;

the power supply module is coupled with the main control chip and used for supplying power to each module;

the detection module is coupled with the main control chip and used for detecting the vacuum degree in the single vacuum tank;

the gyroscope module is coupled with the main control chip and is used for maintaining horizontal display of various information;

the indicator light module is coupled with the main control chip and used for reminding a user of paying attention to the state of the monomer vacuum tank;

the display module is coupled with the main control chip and used for displaying various information;

the key module is coupled with the main control chip and used for checking various information.

Preferably, the display module is a touch display screen, so that a user can directly operate the system conveniently.

Preferably, the indicator light module has at least 3 color modes for displaying the corresponding states of the individual vacuum tanks.

The utility model also provides a monomer vacuum tank stores up grain system operation method, including following step:

firstly, a server identifies the serial number of a monomer vacuum tank;

secondly, setting first data, second data and third data on a vacuumizing base by a user, and sending the data to a server for storage by the vacuumizing base;

thirdly, detecting the real-time vacuum degree of the monomer vacuum tank, and sending the real-time vacuum degree to the vacuumizing base and the server;

and fourthly, the server detects the time of taking the monomer vacuum tank out of the vacuumizing base and sends the time information to the mobile terminal.

Preferably, in the first step, if the server does not recognize the number or the number is wrong, the system will stop operating.

Preferably, in the third step, when the real-time vacuum degree exceeds the second data, the vacuumizing base performs vacuumizing treatment on the monomer vacuum tank.

To sum up, owing to adopted above-mentioned technical scheme, compare with prior art, the utility model discloses following beneficial effect has at least:

1. the information management of the single vacuum tank is realized, a user can conveniently read grain information, and the safety of the single vacuum tank is improved;

2. realize that intelligence reminds the user to carry out evacuation processing to monomer vacuum tank, guarantee that grain can carry out the sealed save of long-time vacuum environment, the life of extension grain reduces the cost of life.

Description of the drawings:

fig. 1 is a schematic structural diagram of a single vacuum tank grain storage system according to an exemplary embodiment of the present invention.

Fig. 2 is a block diagram of the vacuum base shown in fig. 1.

Fig. 3 is a block diagram illustrating the construction of the single vacuum tank shown in fig. 1.

Fig. 4 is a schematic flow chart of an operation method of the single vacuum tank grain storage system according to an exemplary embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples and specific embodiments. However, it should not be understood that the scope of the above-mentioned subject matter is limited to the following embodiments, and all the technologies realized based on the present invention are within the scope of the present invention.

Fig. 1 shows a block diagram of a single vacuum tank grain storage system of an exemplary embodiment, which includes a vacuum base 1, a single vacuum tank 2, a server 3 and a mobile terminal 4.

The vacuumizing base 1 is connected with the monomer vacuum tank 2 (can be separately and independently placed). The vacuumizing base 1 is used for receiving or setting first data (grain weight, name, production date and production place) and sending the first data to the server 3 through a wireless communication network (such as wifi); which is used for setting and storing second data required by grains(i.e., degree of vacuum, 5X 10)³Pa～3×10⁴Pa) to carry out vacuum-pumping treatment on the monomer vacuum tank 2 in time; which is used to set third data (i.e. the time required to take out the individual vacuum tanks 2 until the evacuation base 1 is replaced) and to send the third data to the server 3.

The number of the single vacuum tanks 2 is at least one, and the single vacuum tanks are used for storing grains, displaying first data, the internal vacuum degree and the electric quantity of the single vacuum tanks 2 and respectively sending the information to the vacuumizing base 1 and the server 3. The user can select many monomer vacuum tanks according to the kind of storing grain, and every monomer vacuum tank possesses unique serial number (for example digital label) to the user distinguishes and improves the security. For example, when a user needs to perform vacuum pumping, the vacuum pumping base 1 reads the serial number of the single vacuum tank 2 and sends the serial number to the server 3, and the serial number is compared with the reserved serial number, and only if the serial number is consistent with the reserved serial number, the system performs vacuum pumping.

The server 3 is in wireless connection with the vacuumizing base 1, the single vacuum tank 2 and the mobile terminal 4, and is used for receiving the first data, the second data and the third data and sending the first data to the mobile terminal 4 so that a user can check the data at any time. For example, when the user takes out the grain from the single vacuum tank 2, the single vacuum tank 2 is not put back to the vacuum base 1 for vacuum-pumping, and once the usage time exceeds the third data, the server 3 sends time information to the mobile terminal 4 to remind the user of vacuum-pumping the single vacuum tank 2.

The mobile terminal 4 is bound with the server 3 through APP, so that a user can receive information and know the storage states of the monomer vacuum tank 2 and the grains.

Referring to fig. 2 again, fig. 2 is a structural block diagram of the vacuum base according to the present invention. The vacuumizing base 1 comprises a main control chip 10, a wireless module 11, a weight module 12, a charging module 13, a power supply module 14, an electromagnetic valve module 15, a vacuumizing module 16, a display module 17, a key module 18 and a voice module 19, wherein all the modules work in a coordinated mode to guarantee normal operation of the vacuumizing base 1.

The main control chip 10, as a central "CPU" of the vacuum pumping base 1, is responsible for calculating and processing data transmitted from each functional module, analyzing the data according to the data, and transmitting the processed data to the corresponding module. The main control chip 10 may be a digital signal processor, a single chip or a programmable logic device. Which are respectively coupled with the wireless module 11, the weight module 12, the charging module 13, the power module 14, the electromagnetic valve module 15, the vacuum pumping module 16, the display module 17, the key module 18 and the voice module 19.

The wireless module 11 is coupled to the main control chip 10, and configured to transmit information (the first data, the second data, the third data, the vacuum degree inside the single vacuum tank 2, and the electric quantity) to the server 3. The wireless module 11 may support wifi connectivity.

The weight module 12, which may be a weight sensor, is coupled to the main control chip 10 for measuring the weight of the grain in real time, so that the user can know the remaining amount of the grain in time and plan the grain.

The charging module 13, which can be a charging device, is coupled to the main control chip 10, and is configured to charge the individual vacuum tanks 2, so as to ensure normal operation of the individual vacuum tanks 2.

The power module 14, which may be a power button, is coupled to the main control chip 10, and is configured to turn on or off the vacuum pumping base 1, so as to avoid waste of electric quantity.

The electromagnetic valve module 15, which may be an electromagnetic valve, is coupled to the main control chip 10 and is configured to recover the air pressure of the vacuum base 1. When the vacuumizing base 1 is used for vacuumizing the monomer vacuum tank 2, the pipeline for gas circulation in the vacuumizing base 1 is also in a vacuum state, so that the internal air pressure of the vacuumizing base 1 is required to be consistent with the external atmospheric pressure for ensuring the next vacuumizing operation.

The vacuum pumping module 16, which may be a vacuum pump, is coupled to the main control chip 10 and configured to pump vacuum to the monomer vacuum tank 2, so as to provide a vacuum environment for storing grains.

The display module 17 is coupled to the main control chip 10. It can adopt touch display screen for show information (first data, second data, third data, 2 inside vacuum degrees of monomer vacuum tank and electric quantity) and to first data, second data, third data modify, let the user can in time know the information of storing grain.

The key module 18, which may be a metal key, is coupled to the main control chip 10 for modifying information.

The voice module 19 is coupled to the main control chip 10. The microphone can be adopted for recording grain information in voice, and operation by a user is facilitated.

Referring to fig. 3 again, fig. 3 is a block diagram of the single vacuum tank of the present invention. The single vacuum tank 2 comprises a main control chip 20, a wireless module 21, a power module 22, a detection module 23, a gyroscope module 24, an indicator light module 25, a display module 26 and a key module 27.

The main control chip 20, as a central "CPU" of the single vacuum tank 2, is responsible for calculating and processing data transmitted from each functional module, analyzing the data according to the data, and transmitting the processed data to the corresponding module. The main control chip 20 may be a digital signal processor, a single chip, or a programmable logic device. Which are coupled to the wireless module 21, the power module 22, the detection module 23, the gyroscope module 24, the indicator light module 25, the display module 26, and the key module 27, respectively.

The wireless module 21 is coupled to the main control chip 20 and configured to transmit information (the first data, the second data, the third data, the vacuum degree inside the single vacuum tank 2, and the electric quantity) to the server 3. The wireless module 11 may support wifi connectivity.

The power module 22, which may be a built-in rechargeable battery, is coupled to the main control chip 20 and configured to provide stable operating power to each module.

The detection module 23, which may be a vacuum degree sensor, is coupled to the main control chip 20 and configured to detect a vacuum degree inside the single vacuum tank 2. When the vacuum degree is higher than the set second data, the vacuumizing base 1 controls the vacuum pump to vacuumize the monomer vacuum tank 2 until the vacuum degree in the monomer vacuum tank 2 meets the requirement of the second data.

The gyroscope module 24, which may be an electronic gyroscope, is coupled to the main control chip 20, and is configured to maintain horizontal display of information on the display module 26, so as to facilitate viewing by a user.

The indicator light module 25, which may be an LED indicator light, is coupled to the main control chip 20 for reminding a user of an abnormal state. For example, when the monomer vacuum tank 2 is operating normally, the indicator lamp is displayed in green; when the detection module 23 detects that the vacuum degree in the monomer vacuum tank 2 is higher than the set second data, the indicator lamp displays red color to remind a user of vacuumizing; when the electric quantity of the monomer vacuum tank 2 is insufficient, the indicating lamp displays yellow to remind a user of charging.

The display module 26, which may be an electronic display screen, is coupled to the main control chip 20 for displaying the first data, the vacuum degree inside the single vacuum tank 2, and the electric quantity, so that a user can check the data conveniently.

The key module 27, which may be a metal key, is coupled to the main control chip 20 and configured to check the first data, the vacuum degree inside the single vacuum tank 2, and the electric quantity.

The utility model also provides a monomer vacuum tank stores up grain system operation method, including following step:

s1, the server identifies the number of the monomer vacuum tank;

s2, setting first data, second data and third data on the vacuum base by the user, and sending the data to a server for storage by the vacuum base;

s3, detecting the real-time vacuum degree inside the monomer vacuum tank, and sending the real-time vacuum degree to the vacuumizing base and the server;

and S4, the server detects the time when the monomer vacuum tank is taken out of the vacuumizing base and sends the time information to the mobile terminal.

Referring to fig. 4 in particular, fig. 4 is a schematic flow chart of an operation method of a grain storage system of a single vacuum tank according to an exemplary embodiment.

The server needs to identify the serial number of the monomer vacuum tank 2, and if the serial number cannot be identified or the serial number is wrong, the system stops running. After the server recognizes the correct serial number, the user can set the first data, the second data and the third data on the vacuumizing base 1, the vacuumizing base 1 sends the data to the server 3 through the wireless module 11 for storage, and meanwhile, the server 3 sends the first data to the mobile terminal 4 to facilitate the user to check. The detection module 23 of monomer vacuum tank 2 will carry out real-time detection to the interior vacuum degree of jar to send real-time vacuum degree to evacuation base 1 and server 3 through wireless module 21, if real-time vacuum degree has exceeded the second data, evacuation base 1 will carry out evacuation processing to monomer vacuum tank 2, and the required vacuum degree of guarantee grain storage satisfies the second data. When the user takes out monomer vacuum tank 2 from evacuation base 1 and uses, server 3 will begin the timing from taking out constantly, if the timing time exceeds third data, server 3 will send time information to mobile terminal 4, remind the user in time to put back monomer vacuum tank 2 evacuation base 1, carry out evacuation processing.

Claims (7)

1. A single vacuum tank grain storage system is characterized by comprising a vacuumizing base, a single vacuum tank, a server and a mobile terminal;

wherein,

the vacuumizing base is connected with the monomer vacuum tank, is wirelessly connected with the server, and is used for setting first data, second data and third data and realizing vacuumizing and charging operations of the monomer vacuum tank;

the single vacuum tank is connected with the vacuumizing base, is in wireless connection with the server, and is used for storing grains and displaying first data, internal vacuum degree and electric quantity;

the server is in wireless connection with the vacuumizing base, the single vacuum tank and the mobile terminal respectively and is used for receiving and sending first data, second data, third data, internal vacuum degree and electric quantity;

and the mobile terminal is in wireless connection with the server and is used for receiving the information sent by the server.

2. The vacuum tank grain storage system of claim 1, wherein the number of the vacuum tanks is at least one, and the vacuum tanks are used for storing different kinds of grains.

3. The vacuum tank grain storage system of claim 1, wherein each vacuum tank has a unique number for comparing the identity of the vacuum tank.

4. The grain storage system of the single vacuum tank of claim 1, wherein the vacuumizing base comprises a main control chip, a wireless module, a weight module, a charging module, a power supply module, an electromagnetic valve module, a vacuumizing module, a display module, a key module and a voice module;

wherein,

the main control chip is respectively coupled with the wireless module, the weight module, the charging module, the power module, the electromagnetic valve module, the vacuumizing module, the display module, the key module and the voice module, and is used for calculating and processing information transmitted by each module, analyzing the information according to the information and transmitting the information to the server through the wireless module;

the wireless module is coupled with the main control chip and used for transmitting information to the server;

the weight module is coupled with the main control chip and used for measuring the weight of the grain in real time;

the charging module is coupled with the main control chip and used for charging the monomer vacuum tank;

the power supply module is coupled with the main control chip and used for providing power supply for each module;

the electromagnetic valve module is coupled with the main control chip and used for recovering the air pressure of the vacuumizing base;

the vacuumizing module is coupled with the main control chip and used for vacuumizing the monomer vacuum tank;

the display module is coupled with the main control chip and used for displaying and setting various information;

the key module is coupled with the main control chip and used for modifying various information;

the voice module is coupled with the main control chip and used for modifying various information in a voice mode.

5. The grain storage system of the single vacuum tank of claim 1, wherein the single vacuum tank comprises a main control chip, a wireless module, a power module, a detection module, a gyroscope module, an indicator light module, a display module and a key module;

wherein,

the main control chip is respectively coupled with the wireless module, the power supply module, the detection module, the gyroscope module, the indicator light module, the display module and the key module, and is used for calculating and processing information transmitted by each module, analyzing the information according to the information and transmitting the information to the server through the wireless module;

the power supply module is coupled with the main control chip and used for supplying power to each module;

the detection module is coupled with the main control chip and used for detecting the vacuum degree in the single vacuum tank;

the gyroscope module is coupled with the main control chip and is used for maintaining horizontal display of various information;

the indicator light module is coupled with the main control chip and used for reminding a user of paying attention to the state of the monomer vacuum tank;

the display module is coupled with the main control chip and used for displaying various information;

the key module is coupled with the main control chip and used for checking various information.

6. The single vacuum tank grain storage system of claim 4, wherein the display module is a touch display screen, which facilitates direct operation of the system by a user.

7. The single vacuum tank grain storage system of claim 5, wherein the indicator light module has at least 3 color display modes.