CN211287039U - Intelligent lead sealing system of Internet of things - Google Patents

Abstract

The utility model relates to a thing networking intelligence lead sealing system, including controlling means and data detection part, controlling means include explosion-proof casing and with explosion-proof casing fixed connection and sealed complex upper cover plate, be provided with controller, collision sensor, wireless communication module and storage hard disk in the explosion-proof casing, be provided with the display screen on the upper cover plate, data detection part includes voltage sensor, current sensor, temperature sensor and smoke concentration sensor. The wireless communication module can be accessed to the Internet of things, communication interaction with other equipment in the Internet of things is realized, and when abnormality occurs, the wireless communication module can immediately send abnormal conditions to relevant equipment in the Internet of things, so that relevant measures can be taken in time. This thing networking intelligence lead sealing system can carry out the omnidirectional control to filling station, and the reliability is higher, guarantees filling station's safe operation.

Description

Intelligent lead sealing system of Internet of things

Technical Field

The utility model relates to a thing networking intelligence lead sealing system.

Background

At present, the application of the internet of things is more and more extensive, such as the application to gas stations. The lead sealing device of the gas station still adopts the traditional monitoring mode, the reliability is poor, and the demand cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thing networking intelligence lead sealing system for solve the current lead sealing device's of filling station problem that the reliability is not high.

In order to solve the problem, the utility model relates to a thing networking intelligence lead sealing system adopts following technical scheme:

an intelligent lead sealing system of the Internet of things comprises a control device and a data detection part, wherein the control device comprises an explosion-proof shell and an upper cover plate which is fixedly connected with the explosion-proof shell and is in sealing fit with the explosion-proof shell, a controller, a collision sensor, a wireless communication module and a storage hard disk are arranged in the explosion-proof shell, a display screen is arranged on the upper cover plate, and the collision sensor, the wireless communication module, the storage hard disk and the display screen are connected with the controller;

the data detection part comprises a voltage sensor for detecting the voltage of a main power supply line of the refueling station, a current sensor for detecting the current of the main power supply line, a temperature sensor for detecting the ambient temperature of the refueling station and a smoke concentration sensor for detecting the smoke concentration of the ambient smoke of the refueling station, and the voltage sensor, the current sensor, the temperature sensor and the smoke concentration sensor are connected with the controller through communication lines;

the explosion-proof shell is provided with a through hole for the communication line to pass through.

Optionally, a control key is further arranged on the upper cover plate, and the control key is connected with the controller.

Optionally, a card swiping sensor is further arranged on the upper cover plate and connected with the controller.

Optionally, a card swiping sensing indicator lamp and an electronic lead sealing state indicator lamp are further arranged on the upper cover plate.

Optionally, the intelligent lead sealing system of the internet of things further comprises a damping device and a fixed base, the explosion-proof shell is fixed on the damping device, and the damping device is fixed on the fixed base.

Optionally, the damping device includes five damping springs, wherein the top ends of four damping springs are fixed at four corners of the bottom surface of the explosion-proof housing, the top end of a fifth damping spring is fixed at the middle position of the bottom surface of the explosion-proof housing, and the bottom ends of the five damping springs are fixed on the fixed base.

Optionally, the outer side of the explosion-proof shell is coated with a magnesium oxychloride fireproof coating, a polyvinyl chloride waterproof coating and a silicon nitride heat-resistant coating in sequence.

Optionally, at least two latches for fixing the explosion-proof housing and the upper cover plate are arranged between the explosion-proof housing and the upper cover plate.

Optionally, the data detection part further comprises a state detection module for detecting state data of the electronic lead block, and the state detection module is connected with the controller.

The utility model has the advantages as follows: the explosion-proof shell can improve the safety of the control device, meet the requirement of high safety of a gas station and improve the reliability of the control device; the wireless communication module can be accessed to the Internet of things to realize communication interaction with other equipment (such as a background server) in the Internet of things; the storage hard disk is used for storing detected data information, the collision sensor can detect the collision strength of the control device in real time, and when the control device is abnormal, the wireless communication module can immediately send the abnormal condition to other equipment in the Internet of things, so that relevant measures can be taken in time; the voltage sensor and the current sensor can detect the running condition of a main power supply line of the refueling station in real time, and when the abnormality occurs, the wireless communication module can immediately send the abnormal condition to other equipment in the Internet of things, so that related measures can be taken conveniently in time, the related measures can be taken before an electrical fire occurs, and the safety of the refueling station is ensured; temperature sensor and smog concentration sensing can real-time detection filling station environmental data, and when the temperature was too high or smog concentration was too high, other equipment of thing networking can learn immediately, are convenient for in time take relevant measure, guarantee filling station's safety. Therefore, the intelligent lead sealing system of the Internet of things can carry out all-round monitoring on the gas station, is high in reliability and guarantees safe operation of the gas station.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly described as follows:

fig. 1 is an appearance structure diagram of a control device of the intelligent lead sealing system of the internet of things of the present invention;

fig. 2 is a top view of the control device of the intelligent lead sealing system of the internet of things of the present invention;

fig. 3 is a schematic structural diagram of an upper cover plate of a control device of the intelligent lead sealing system of the internet of things of the present invention;

fig. 4 is a schematic structural diagram of the intelligent lead sealing system of the internet of things of the utility model;

FIG. 5 is a schematic view of a damper spring arrangement;

FIG. 6 is a schematic view of the coating layer on the outside of the explosion proof housing.

Detailed Description

In order to make the technical purpose, technical solutions and advantageous effects of the present invention clearer, the technical solutions of the present invention are further described below with reference to fig. 1 to 6 and specific embodiments.

The embodiment provides an intelligent lead sealing system of the Internet of things, which comprises a control device and a data detection part.

As shown in fig. 1, the control device includes an explosion-proof housing 1 and an upper cover plate 2 fixedly connected to the explosion-proof housing 1 and hermetically engaged with the explosion-proof housing 1, wherein a sealing rubber ring 3 is disposed between the explosion-proof housing 1 and the upper cover plate 2, and generally, the sealing rubber ring 3 is made of rubber, so as to achieve the sealing property between the explosion-proof housing 1 and the upper cover plate 2. Moreover, in order to further improve the sealing performance between the explosion-proof housing 1 and the upper cover plate 2, at least two latches 4 are arranged between the explosion-proof housing 1 and the upper cover plate 2, of course, the latches 4 are arranged along the circumference of the explosion-proof housing 1, and as shown in fig. 2, the latches 4 are used for fixing the explosion-proof housing 1 and the upper cover plate 2. The number of the lock catches 4 is set according to actual needs, and the larger the number is, the higher the fixing degree is, and the higher the sealing performance is. The structure of the lock catch 4 and the assembly relationship between the explosion-proof housing 1 and the upper cover plate 2 belong to the prior art, and are not described in detail.

As shown in fig. 3, the upper cover plate 2 is provided with a display screen 8, a control button 9, a card swiping sensor 10, a card swiping sensing indicator lamp 11 and an electronic lead sealing state indicator lamp 12. Wherein, display screen 8, control button 9, the inductor of punching the card 10, the response pilot lamp 11 and the electron lead sealing state pilot lamp 12 of punching the card all inlay on upper cover plate 2, and the mode of inlaying and establishing is conventional arrangement mode, no longer gives unnecessary details. Moreover, the positions of the display screen 8, the control keys 9, the card swiping sensor 10, the card swiping sensing indicator lamp 11 and the electronic lead sealing state indicator lamp 12 on the upper cover plate 2 are not unique and are set by actual conditions, and a specific arrangement mode is given in fig. 3. The display screen 8 is used for displaying relevant data information, and the size is determined by actual needs; the control keys 9 are used for realizing input of related control signals, such as switching different data displays and inquiring related historical data, so that the control keys 9 comprise left and right switching keys and return and confirmation keys; the card swiping sensor 10 is used for sensing card swiping information, such as an RFID sensor; the card swiping induction indicator lamp 11 is used for indicating the card swiping state, and the card swiping induction indicator lamp 11 is lightened when the card is swiped; the electronic lead sealing state indicator lamp 12 is used for indicating the state of electronic lead sealing, such as: when the electronic lead sealing state is abnormal, the electronic lead sealing state indicating lamp 12 is lighted. The card swiping induction indicator lamp 11 and the electronic lead sealing state indicator lamp 12 are both LED lamps, and the two lamps can be indicator lamps with different colors. In the above, the control key 9, the card swiping sensor 10, the card swiping sensing indicator lamp 11 and the electronic lead sealing state indicator lamp 12 are optimized embodiments, and as other embodiments, these components may not be provided or partially provided.

A controller 13, a wireless communication module 14, a collision sensor 15 and a storage hard disk 16 are provided in the explosion-proof housing 1.

As shown in fig. 4, the display screen 8, the control keys 9, the card swiping sensor 10, the card swiping sensing indicator light 11, the electronic lead sealing status indicator light 12, the wireless communication module 14, the collision sensor 15 and the storage hard disk 16 are connected to the controller 13, and the specific connection mode is determined by actual conditions, such as: the signal output end of the control key 9, the signal output end of the card swiping sensor 10 and the signal output end of the collision sensor 15 are connected with the signal input end of the controller 13, the signal output end of the controller 13 is connected with the display screen 8, the card swiping sensing indicator lamp 11 and the electronic lead sealing state indicator lamp 12, and the controller 13 is in interactive connection with the wireless communication module 14 and the storage hard disk 16 to achieve data interaction. Therefore, each device connected to the controller 13 is electrically connected.

The controller 13 is a conventional control chip, such as a single chip or a PLC. The wireless communication module 14 is a conventional wireless communication device, such as a 4G communication device or a GPRS device, and the wireless communication module 14 can be accessed to the internet of things to realize communication interaction with other devices in the internet of things, such as a background server, so as to realize intelligent control. The crash sensor 15 is used for implementing crash detection, and may be a conventional three-axis acceleration sensor for detecting the crash strength to which the explosion-proof housing 1 is subjected. The storage hard disk 16 is a conventional storage device.

The data detection portion includes a state detection module 17, a voltage sensor 18, a current sensor 19, a temperature sensor 20, and a smoke concentration sensor 21. The state detection module 17, the voltage sensor 18, the current sensor 19, the temperature sensor 20, and the smoke concentration sensor 21 are connected to the controller 13 through communication lines. In order to facilitate the communication line, as shown in fig. 1, the explosion-proof housing 1 is provided with a through hole 5 for the communication line to pass through, and the position and size of the through hole 5 are set according to actual needs.

The state detection module 17 is used for detecting the state of the electronic lead sealing lock, and the state detection module 17 is implemented in various ways, such as a proximity switch, which is arranged at the lead sealing position and detects the lead sealing state through the on-off state of the proximity switch; or, in a normal case, the electronic lead sealing lock body includes a lead sealing body and a stainless steel wire body connected to the lead sealing body, then, a copper wire is embedded in the stainless steel wire body, the state detection module 17 is a wire breakage detection circuit, one end of the wire breakage detection circuit is connected to the copper wire for determining whether the copper wire is broken, and the other end of the wire breakage detection circuit is connected to the controller 13 for sending a signal to the controller 13 after detecting that the copper wire is broken.

The gas station has a main power supply line for supplying power to the electrical equipment of the gas station, and then the voltage sensor 18 is used for detecting the voltage of the main power supply line of the gas station, and the voltage sensor 18 can be a conventional voltage detection device; the current sensor 19 is used to detect the current of the main power supply line, and the current sensor 19 may be a conventional current detection device. The arrangement of the voltage sensor 18 and the current sensor 19 on the line is conventional and will not be described in detail. Whether normal operating of main power supply line can be judged through voltage and electric current that voltage sensor 18 and current sensor 19 detected, and then judge whether there is fire hazard, for example: when the current is too high, the main power supply circuit is in fault and needs to be maintained in time to prevent fire.

The temperature sensor 20 is used for detecting the ambient temperature of the gas station, the setting position is determined by actual needs, for example, the temperature sensor 20 is arranged at the top of a certain support column of the gas station, and the temperature sensor 20 can be a conventional temperature detection device; the smoke concentration sensor 21 is used for detecting the smoke concentration of the environment of the gas station, the setting position is determined by actual needs, for example, the smoke concentration sensor 21 is arranged at the top end of a certain support column of the gas station, and the smoke concentration sensor 21 can be a conventional smoke concentration detection device. Whether the gas station has a fire can be judged through the temperature data and the smoke concentration data detected by the temperature sensor 20 and the smoke concentration sensor 21, for example, when the temperature is too high or the smoke concentration is too high, the gas station is judged to have a fire.

In order to improve the anti-collision capacity of the explosion-proof housing 1, as shown in fig. 1, the intelligent lead sealing system of the internet of things further comprises a damping device 6 and a fixed base 7, the explosion-proof housing 1 is fixed on the damping device 6, the damping device 6 is fixed on the fixed base 7, and the fixed base 7 is used for being fixed at a certain position of a gas station, such as in a gas station monitoring room. The damping device 6 is a mechanism with certain elasticity, in this embodiment, the damping device 6 includes five damping springs 22, as shown in fig. 5, wherein the top ends of four damping springs 22 are fixed at four corners of the bottom surface of the explosion-proof housing 1, and the top end of the fifth damping spring 22 is fixed at the middle position of the bottom surface of the explosion-proof housing 1, and this uniform arrangement can ensure that the stress of the five damping springs 22 is uniform, and improve the anti-impact capability. The bottom ends of the five damping springs 22 are fixed on the fixed base 7.

In order to improve the waterproof and fireproof performance of the explosion-proof shell 1, the outer side of the explosion-proof shell 1 is coated with a magnesium oxychloride fireproof coating 23, a polyvinyl chloride waterproof coating 24 and a silicon nitride heat-resistant coating 25 in sequence, as shown in fig. 6. The thickness of each coating is determined by the actual need.

In addition, each component in the intelligent lead sealing system of the Internet of things can be supplied with power by a main power supply circuit of a gas station, and the main power supply circuit of the gas station is connected with an AC/DC converter and then is output to the intelligent lead sealing system of the Internet of things; or, alternatively, by a specially configured energy storage system.

The explosion-proof shell 1 can improve the safety of the control device, meet the requirement of high safety of a gas station and improve the reliability of the control device. The wireless communication module 14 is used for being in wireless communication connection with the background server, the storage hard disk 16 is used for storing detected data information, the collision sensor 15 can detect the collision strength of the control device in real time, and when abnormality occurs, the wireless communication module 14 can immediately send the abnormal condition to the background server, so that the background server can take relevant measures in time; the state detection module 17 can detect the state data of the electronic lead blockade of the gas station in real time, and when the abnormality occurs, the wireless communication module 14 can immediately send the abnormal condition to the background server, so that the background server can take relevant measures in time, and the safety of the gas station is ensured; the voltage sensor 18 and the current sensor 19 can detect the running condition of a main power supply line of the refueling station in real time, when abnormality occurs, the wireless communication module 14 can immediately send the abnormal condition to the background server, so that the background server can take relevant measures in time, the relevant measures can be taken before an electrical fire happens, and the safety of the refueling station is ensured; the temperature sensor 20 and the smoke concentration sensor 21 can detect environmental data of the gas station in real time, and when the temperature is too high or the smoke concentration is too high, the background server can immediately know the environmental data, so that the background server can take relevant measures in time, and the safety of the gas station is ensured. Therefore, the intelligent lead sealing system of the Internet of things can carry out all-round monitoring on the gas station, is high in reliability and guarantees safe operation of the gas station.

Finally, it should be noted that: the above-mentioned embodiments are only used for illustrating but not limiting the technical solution of the present invention, and any equivalent replacement and modification or partial replacement which do not depart from the spirit and scope of the present invention should be covered within the protection scope of the claims of the present invention.

Claims (9)

1. An intelligent lead sealing system of the Internet of things is characterized by comprising a control device and a data detection part, wherein the control device comprises an explosion-proof shell and an upper cover plate which is fixedly connected with the explosion-proof shell and is in sealing fit with the explosion-proof shell, a controller, a collision sensor, a wireless communication module and a storage hard disk are arranged in the explosion-proof shell, a display screen is arranged on the upper cover plate, and the collision sensor, the wireless communication module, the storage hard disk and the display screen are connected with the controller;

the data detection part comprises a voltage sensor for detecting the voltage of a main power supply line of the refueling station, a current sensor for detecting the current of the main power supply line, a temperature sensor for detecting the ambient temperature of the refueling station and a smoke concentration sensor for detecting the smoke concentration of the ambient smoke of the refueling station, and the voltage sensor, the current sensor, the temperature sensor and the smoke concentration sensor are connected with the controller through communication lines;

the explosion-proof shell is provided with a through hole for the communication line to pass through.

2. The intelligent lead sealing system of the internet of things according to claim 1, wherein a control key is further arranged on the upper cover plate, and the control key is connected with the controller.

3. The intelligent lead sealing system of the internet of things according to claim 1, wherein a card swiping sensor is further arranged on the upper cover plate and connected with the controller.

4. The intelligent lead sealing system of the internet of things according to claim 3, wherein a card swiping sensing indicator lamp and an electronic lead sealing state indicator lamp are further arranged on the upper cover plate.

5. The intelligent lead sealing system of the internet of things according to claim 1, further comprising a damping device and a fixed base, wherein the explosion-proof shell is fixed on the damping device, and the damping device is fixed on the fixed base.

6. The intelligent lead sealing system of the internet of things as claimed in claim 5, wherein the damping device comprises five damping springs, wherein the top ends of four damping springs are fixed at four corners of the bottom surface of the explosion-proof housing, the top end of a fifth damping spring is fixed at the middle position of the bottom surface of the explosion-proof housing, and the bottom ends of the five damping springs are fixed on the fixed base.

7. The intelligent lead sealing system of the internet of things according to claim 1, wherein a magnesium oxychloride fireproof coating, a polyvinyl chloride waterproof coating and a silicon nitride heat-resistant coating are sequentially coated on the outer side of the explosion-proof shell.

8. The intelligent lead sealing system of the internet of things of claim 1, wherein at least two latches for fixing the explosion-proof housing and the upper cover plate are arranged between the explosion-proof housing and the upper cover plate.

9. The intelligent lead sealing system of the internet of things according to claim 1, wherein the data detection part further comprises a state detection module for detecting state data of the electronic lead sealing lock, and the state detection module is connected with the controller.

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