CN216561565U - Material warehouse environmental monitoring system - Google Patents

Abstract

The application provides a material warehouse environment monitoring system, which comprises a monitoring platform, a data gateway, a sensor assembly and an execution terminal; the data gateway is in communication connection with the monitoring platform through the Ethernet, the sensor component is in wireless encryption communication connection with the data gateway, and the execution terminal is in wireless encryption communication connection with the data gateway; each warehouse is provided with a sensor assembly and an execution terminal, wherein the sensor assembly comprises a temperature and humidity sensing terminal, a smoke detection terminal, an electricity consumption monitoring terminal and/or a warehouse door detection terminal; the execution terminal comprises an alarm device and a negative pressure ventilator which are arranged in the warehouse. The monitoring system improves the safety of warehouse information network communication, well controls the temperature and the humidity of the warehouse environment, reduces the manpower labor and reduces the deployment cost.

Description

Material warehouse environmental monitoring system

Technical Field

The application relates to the technical field of monitoring systems, in particular to a material warehouse environment monitoring system.

Background

Factors such as warehouse ambient temperature, ambient humidity, electricity utilization safety, fire, personnel access and the like have great influence on material storage safety, and if the material management is not proper, accidents such as mildew, rusting, fire or theft of the materials can be caused. Therefore, the real-time monitoring of the above elements is significant for material storage.

Along with the continuous development of the internet of things technology, the sensing equipment is continuously developed towards miniaturization, networking and intelligence, a plurality of sensing equipment can be directly connected into an internet cloud platform through a wireless network, the user line erection cost and the maintenance cost of a monitoring platform are reduced, the gathering and early warning linkage of sensing data is realized, and great convenience is brought to the monitoring of the storage environment. However, in consideration of confidentiality and security, the communication network cannot be connected to the internet, and a wired communication mode is adopted completely, which greatly increases the deployment cost and the deployment difficulty.

In the aspect of warehouse environment temperature and humidity control, the self-heating ventilation method is adopted in the existing warehouse to cool and dehumidify the warehouse, namely, a proper time is selected to open doors and windows of the warehouse, and the exchange of air inside and outside the warehouse is realized by utilizing the pressure difference caused by the fact that the temperature and the humidity inside and outside the warehouse are different, so that the effect of reducing the temperature and the humidity of the warehouse is achieved. The cooling and dehumidifying method adopting an automatic windowing mode is available in the market, the area of a warehouse window is limited, the ventilation efficiency is low, and the cooling and dehumidifying effect is poor; the method of cooling and dehumidifying by adopting an air conditioner is also adopted, the cooling and dehumidifying effect is the best, but the power consumption is large, and the equipment cost is high. The monitoring interface is not visual and vivid enough, the alarm mode is relatively single, and personnel are required to watch the server.

Therefore, how to ensure the communication safety of the warehouse information network, well control the temperature and humidity of the warehouse environment, reduce the labor intensity, and reduce the deployment cost is a technical problem which needs to be solved urgently at present.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a goods and materials warehouse environmental monitoring system, this monitored control system has improved the security of warehouse information network communication, carries out good control, has reduced the human labor to warehouse environment humiture, and has reduced the deployment cost.

In order to achieve the purpose, the application provides a material warehouse environment monitoring system which comprises a monitoring platform, a data gateway, a sensor assembly and an execution terminal; the data gateway is in communication connection with the monitoring platform through Ethernet, the sensor component is in wireless encryption communication connection with the data gateway, and the execution terminal is in wireless encryption communication connection with the data gateway;

each warehouse is provided with the sensor assembly and the execution terminal, and the sensor assembly comprises a temperature and humidity sensing terminal, a smoke detection terminal, an electricity utilization monitoring terminal and/or a warehouse door detection terminal; the execution terminal comprises an alarm device and a negative pressure ventilator which are arranged in the warehouse.

As above, the temperature and humidity sensing terminal includes an indoor temperature and humidity sensor and an outdoor temperature and humidity sensor, the indoor temperature and humidity sensor is disposed in the warehouse, and the outdoor temperature and humidity sensor is disposed outside the warehouse.

The negative pressure ventilator is characterized in that one end of the air inlet of the negative pressure ventilator is communicated with the interior environment of the warehouse, the other end of the air inlet of the negative pressure ventilator is communicated with the exterior environment of the warehouse, one end of the air outlet of the negative pressure ventilator is communicated with the interior environment of the warehouse, and the other end of the air outlet of the negative pressure ventilator is communicated with the exterior environment of the warehouse; and the negative pressure ventilator is started or stopped according to the data difference value acquired by the indoor temperature and humidity sensor and the outdoor temperature and humidity sensor.

As above, the negative pressure ventilator is connected with a blower controller for controlling the negative pressure ventilator to start and stop, and the blower controller is in wireless communication connection with the data gateway.

The alarm device comprises an audible and visual alarm and/or a short message alarm.

As above, the data gateways include a plurality of data gateways, the plurality of data gateways are all in communication connection with the monitoring platform through ethernet, and each warehouse is correspondingly provided with one data gateway, and the data gateways are in communication connection with the sensor components and the execution terminals of the corresponding warehouse.

The system of above, wherein said monitoring platform has a local database storing data for said data gateway.

The system as above, wherein the monitoring platform has a monitoring display screen.

The above, wherein the monitoring platform has a negative pressure ventilator start-stop indicator light for indicating the start or stop of the negative pressure ventilator.

As above, wherein the negative pressure ventilator is installed at a window of the warehouse.

The beneficial effect that this application realized is as follows:

(1) this application laminating warehouse actual demand adopts the network structure that short distance wireless encryption communication and ethernet combined together, is convenient for dispose fast, improves the communication security.

(2) This application is on cooling dehumidification's mode, according to the inside and outside humiture data in warehouse, and automatic control negative pressure ventilation blower ventilates, has improved cooling dehumidification efficiency, realizes that the warehouse consumes slowly, efficient cooling dehumidification, makes the warehouse be in good humiture environment all the time, has avoided the reliance of natural draft method to personnel, has reduced equipment cost and energy resource consumption.

(3) This application utilizes data gateway to move forward with intelligence for the calculation, analysis and the processing of data are close to the front end, have avoided far-end monitoring platform to handle the time delay of response and the jam of data channel, have reduced the sensing terminal consumption, have realized the detection of the condition such as warehouse humiture, warehouse door switching, warehouse power consumption, conflagration.

(4) When the alarm condition occurs, the alarm can be given through sound and light, short messages and a monitoring platform in a multi-channel mode, the reliable transmission of the alarm condition is guaranteed, a solid foundation is laid for the storage safety of materials, in addition to displaying alarm information on a camp map in an animation mode, the alarm mode also has the mode of mobile phone short messages and telephone alarm, and the alarm can be received by personnel at the first time when the personnel temporarily go out or have a rest, so that the reliability of the alarm is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic general framework diagram of a material warehouse environment monitoring system according to an embodiment of the present application.

Fig. 2 is a schematic view of a monitoring interface of a monitoring platform according to an embodiment of the present disclosure.

Fig. 3 is a schematic view illustrating a data query interface of a monitoring platform according to an embodiment of the present disclosure.

Fig. 4 is a schematic flowchart of a main program of a data gateway according to an embodiment of the present application.

Reference numerals: 1-a monitoring platform; 2-a data gateway; 3-a sensor assembly; 4-executing the terminal; 5-a warehouse; 11-alert situation type animation display interface; 12-camp plan display interface; 13-warehouse selection menu interface; 14-a label bar; 15-current time display interface; 16-negative pressure ventilator animation display interface; 17-temperature and humidity animation display interface; 18-real-time temperature and humidity curve graph display interface; 19-an indicator light; 21-a first data gateway; 22-a second data gateway; 31-temperature and humidity sensing terminal; 32-a smoke detection terminal; 33-a power consumption monitoring terminal; 34-warehouse door detection terminal; 41-audible and visual alarm; 42-short message alarm; 43-negative pressure ventilator; 51-a first warehouse; 52-a second warehouse; 61-humidity curve display interface; 62-temperature curve display interface; 63-query starting time operation interface; 64-query deadline operation interface; 65-warehouse number selection menu interface; 66-plot button; 67-data Table creation button; 68-print button.

Detailed Description

The technical solutions in the embodiments of the present application are clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.

As shown in fig. 1, the present application provides a material warehouse environment monitoring system, which includes a monitoring platform 1, a data gateway 2, a sensor component 3 and an execution terminal 4; the data gateway 2 is in communication connection with the monitoring platform 1 through Ethernet, the sensor component 3 is in wireless encryption communication connection with the data gateway 2, and the execution terminal 4 is in wireless encryption communication connection with the data gateway 2; each warehouse 5 is provided with a sensor component 3 and an execution terminal 4, and the sensor component 3 comprises a temperature and humidity sensing terminal 31, a smoke detection terminal 32, an electricity consumption monitoring terminal 33 and/or a warehouse door detection terminal 34; the execution terminal 4 comprises alarm means arranged in the warehouse 5.

As a specific embodiment of the present invention, the temperature and humidity sensing terminal 31, the smoke detection terminal 32, the electricity monitoring terminal 33, and the warehouse door detection terminal 34 of the present application realize detection of the temperature and humidity of the warehouse, electricity consumption of the warehouse, opening and closing of the warehouse door, fire, and the like.

As a specific embodiment of the present invention, each sensor component 3 sends the acquired data to the data gateway 2, the data gateway 2 performs normalization processing, filtering and compression processing on the received data, and sends the processed data to the monitoring platform 1, and the monitoring platform 1 stores the received data in a local database and graphically displays the data; the monitoring platform 1 issues a control instruction to the data gateway 2 according to the received data, the data gateway 2 sends a corresponding control instruction to the execution terminal 4, and the execution terminal 4 performs corresponding response operation according to the control instruction.

As a specific embodiment of the present invention, the temperature and humidity sensing terminal 31 includes an indoor temperature and humidity sensor and an outdoor temperature and humidity sensor, the indoor temperature and humidity sensor is disposed in the warehouse 5, and the outdoor temperature and humidity sensor is disposed outside the warehouse 5.

As shown in fig. 1, the execution terminal 4 further includes a negative pressure ventilator 43, one end of an air inlet of the negative pressure ventilator 43 is communicated with the internal environment of the warehouse 5, the other end is communicated with the external environment of the warehouse 5, one end of an air outlet of the negative pressure ventilator 43 is communicated with the internal environment of the warehouse 5, and the other end is communicated with the external environment of the warehouse 5; the negative pressure ventilator 43 is started or stopped according to the data difference value acquired by the indoor temperature and humidity sensor and the outdoor temperature and humidity sensor. In the cooling and dehumidifying mode, according to the temperature and humidity data inside and outside the warehouse 5, the negative pressure ventilator 43 is automatically controlled to be started, the negative pressure ventilator 43 is utilized to realize the rapid exchange of different temperature and humidity air inside and outside the warehouse 5, the cooling and dehumidifying purpose of the warehouse 5 is achieved, the cooling and dehumidifying efficiency is improved, the dependence of a natural ventilation method on personnel is avoided, and the equipment cost and the energy consumption are reduced.

As an embodiment of the present invention, the negative pressure ventilator 43 is connected to a fan controller, and the fan controller is connected to the data gateway 2 in a wireless communication manner. The fan controller controls the operation or the closing of the negative pressure fan 43 according to the instruction of the data gateway 2, and can also realize the operation of the negative pressure fan 43 by manual control.

As shown in fig. 1, the alarm device includes an audible and visual alarm 41 and/or a short message alarm 42. In the alarm mode, the alarm information is displayed on the camp map in an animation mode, and the alarm mode of short message and telephone alarm is provided, so that the personnel can receive the alarm at the first time when going out temporarily or having a rest, and the reliability of the alarm is improved.

As a specific embodiment of the present invention, the data gateway 2 includes a plurality of data gateways 2, the plurality of data gateways 2 are all in communication connection with the monitoring platform 1 through ethernet, and one data gateway 2 is correspondingly arranged in each warehouse 5, and the data gateway 2 is in communication connection with the sensor component 3 and the execution terminal 4 of the corresponding warehouse 5. The data gateway 2 is responsible for storing, processing and reporting data acquired by the sensor assembly 3, automatically controlling the negative pressure ventilator 43, sending mobile phone alarm information and the like. The data gateway 2 can be independent from the monitoring platform 1 to operate through the local data storage capacity and the calculation control capacity, and the problems of time delay, congestion and terminal power consumption of the Ethernet are effectively solved.

As shown in fig. 1, the data gateway 2 includes a first data gateway 21 and a second data gateway 22; the warehouse 5 includes a first warehouse 51 and a second warehouse 52; the first data gateway 21 is communicatively coupled to the first repository 51 and the second data gateway 22 is communicatively coupled to the second repository 52.

As a specific embodiment of the present invention, the functions of the data gateway 2 include: first, network access management of the sensor assembly 3; secondly, data acquisition, storage and processing of the sensor assembly 3 are carried out, and data are subjected to standardized processing, filtering and compression; thirdly, directly controlling the negative pressure ventilator 43 to start and stop according to the difference of indoor and outdoor temperature and humidity; according to the smoke detection data and the detection condition of the warehouse door, an alarm signal is sent out in the modes of sound and light, short messages/telephones and the like; fourthly, communication with the monitoring platform 1 is achieved, normalized temperature and humidity data, state information and alarm information are transmitted to the platform, and a control instruction of the monitoring platform 1 is received.

As a specific embodiment of the present invention, the monitoring platform 1 has a local database storing data of the data gateway 2. The monitoring platform 1 has a monitoring display screen. The monitoring platform 1 is provided with a start-stop indicator lamp of the negative pressure ventilator 43 for indicating the start or stop of the negative pressure ventilator 43.

As a specific embodiment of the present invention, the monitoring platform 1 mainly functions as: firstly, receiving data of each data gateway 2, storing the data into a local database, and carrying out data display and query in a graphical mode; secondly, control commands are issued to the data gateways 2.

Preferably, the negative pressure ventilator 43 is installed at a window of the warehouse 5.

Preferably, short-distance wireless encrypted data transmission is adopted between the sensor component 3 and the execution terminal 4 and the data gateway 2, so that rapid deployment of old warehouses is facilitated.

As shown in fig. 2, a schematic view of a monitoring interface of a monitoring platform is provided, which specifically includes:

the system comprises an alarm situation type animation display interface 11, a camp plan display interface 12, a warehouse selection menu interface 13, a label bar 14 (used for switching a monitoring interface and a data inquiry interface), a current time display interface 15, a negative pressure ventilator animation display interface 16, a temperature and humidity animation display interface 17, a real-time temperature and humidity curve graph display interface 18 and an indicator lamp 19 (a warehouse door opening and closing indicator lamp, a fire situation indicator lamp, a warehouse power utilization indicator lamp and a ventilator start and stop state indicator lamp).

As shown in fig. 3, a schematic diagram is formed for a monitoring platform data query interface, and specifically includes:

a humidity curve display interface 61, a temperature curve display interface 62, a tab bar 14 (for switching between a monitoring interface and a data query interface), a query start time operation interface 63, a query deadline operation interface 64, a library number selection menu interface 65, a plot line button 66, a data report generation button 6, and a print button 68.

The main program flow of the data gateway 2 comprises the following steps: after the system is started, the system is initialized, each port parameter is set, and each status flag bit is reset. And then entering a main program, inquiring whether the smoke detection terminal 32 in the warehouse sends smoke alarm information or not, if so, carrying out sound-light, short message and/or animation alarm, if not, sequentially inquiring the temperature and humidity in the warehouse 5 and the temperature and humidity outside the warehouse 5, and controlling the start and stop of the negative pressure ventilator 43 according to the difference value of the temperature and humidity inside and outside the warehouse 5. Specifically, if the temperature and humidity in the warehouse is higher than the temperature and humidity outside the warehouse, the negative pressure ventilator 43 is turned on, otherwise, the negative pressure ventilator 43 is not turned on. And then checking the electricity utilization condition of the warehouse and the opening and closing condition of a warehouse door in sequence, arranging the data and storing the data in a data storage chip, and finally checking whether the data need to be reported according to the setting parameters of the service platform.

As shown in fig. 4, a main program flow of the data gateway 2 specifically includes the following steps:

starting system initialization;

inquiring whether a fire signal exists at a smoke detection terminal of the warehouse, if so, sending a fire alarm of the warehouse, and if not, acquiring temperature and humidity data inside and outside the warehouse;

judging whether the negative pressure ventilator needs to be started or not according to the temperature and humidity data inside and outside the warehouse; controlling the starting and stopping of the negative pressure ventilator according to the judgment result;

checking the electricity utilization condition of the warehouse and the opening and closing condition of a warehouse door;

judging whether a warehouse door is opened or not, and if so, sending an intrusion alarm signal; otherwise, the warehouse door is closed, whether the warehouse is powered off or not is judged, if the warehouse is powered off, the data is reported or not, and whether a fire signal exists at the smoke detection terminal of the warehouse or not is inquired in a returning mode.

The beneficial effect that this application realized is as follows:

(1) this application laminating warehouse actual demand adopts the network structure that short distance wireless encryption communication and ethernet combined together, is convenient for dispose fast, improves the communication security.

(2) This application is on cooling dehumidification's mode, according to the inside and outside humiture data in warehouse, and automatic control negative pressure ventilation blower ventilates, has improved cooling dehumidification efficiency, realizes that the warehouse consumes slowly, efficient cooling dehumidification, makes the warehouse be in good humiture environment all the time, has avoided the reliance of natural draft method to personnel, has reduced equipment cost and energy resource consumption.

(3) This application utilizes data gateway to move forward with intelligence for the calculation, analysis and the processing of data are close to the front end, have avoided far-end monitoring platform to handle the time delay of response and the jam of data channel, have reduced the sensing terminal consumption, have realized the detection of the condition such as warehouse humiture, warehouse door switching, warehouse power consumption, conflagration.

(4) When the alarm condition occurs, the alarm can be given through sound and light, short messages and a monitoring platform in a multi-channel mode, the reliable transmission of the alarm condition is guaranteed, a solid foundation is laid for the storage safety of materials, in addition to displaying alarm information on a camp map in an animation mode, the alarm mode also has the mode of mobile phone short messages and telephone alarm, and the alarm can be received by personnel at the first time when the personnel temporarily go out or have a rest, so that the reliability of the alarm is improved.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A material warehouse environment monitoring system is characterized by comprising a monitoring platform, a data gateway, a sensor component and an execution terminal; the data gateway is in communication connection with the monitoring platform through Ethernet, and the sensor assembly and the execution terminal are in wireless encryption communication connection with the data gateway;

each warehouse is provided with the sensor assembly and the execution terminal, and the sensor assembly comprises a temperature and humidity sensing terminal, a smoke detection terminal, an electricity utilization monitoring terminal and/or a warehouse door detection terminal; the execution terminal comprises an alarm device and a negative pressure ventilator which are arranged in the warehouse.

2. The material warehouse environment monitoring system of claim 1, wherein the temperature and humidity sensing terminal comprises an indoor temperature and humidity sensor and an outdoor temperature and humidity sensor, the indoor temperature and humidity sensor is disposed inside the warehouse, and the outdoor temperature and humidity sensor is disposed outside the warehouse.

3. The material warehouse environment monitoring system of claim 2, wherein an air inlet of the negative pressure ventilator has one end in communication with the warehouse interior environment and another end in communication with the warehouse exterior environment, and an air outlet of the negative pressure ventilator has one end in communication with the warehouse interior environment and another end in communication with the warehouse exterior environment; and the negative pressure ventilator is started or stopped according to the data difference value acquired by the indoor temperature and humidity sensor and the outdoor temperature and humidity sensor.

4. The material warehouse environment monitoring system of claim 3, wherein the negative pressure ventilator is connected with a fan controller for controlling the negative pressure ventilator to start and stop, and the fan controller is in wireless communication connection with the data gateway.

5. The material warehouse environment monitoring system of claim 1, wherein the data gateways include a plurality of data gateways, the plurality of data gateways are all in communication connection with the monitoring platform through Ethernet, one data gateway is correspondingly arranged on each warehouse, and the data gateways are in communication connection with sensor components and execution terminals of the corresponding warehouse.

6. The material warehouse environment monitoring system of claim 1, wherein the alarm device comprises an audible and visual alarm and/or a short message alarm.

7. The materials warehouse environmental monitoring system of claim 1, wherein the monitoring platform has a local database that stores data for the data gateway.

8. The material warehouse environmental monitoring system of claim 1, wherein the monitoring platform has a monitoring display screen.

9. The material warehouse environmental monitoring system of claim 1, wherein the monitoring platform has a negative pressure ventilator start-stop indicator light that indicates whether the negative pressure ventilator is started or stopped.

10. The material warehouse environmental monitoring system of claim 3, wherein the negative pressure ventilator is mounted at a window of the warehouse.

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