CN114895583B - Engineering machinery Internet of things monitoring system and method based on block chain - Google Patents

Abstract

The invention discloses a block chain-based engineering machinery Internet of things monitoring system and a block chain-based engineering machinery Internet of things monitoring method, which comprise an engineering machinery platform, a mobile terminal and a monitoring terminal which can be respectively communicated with the engineering machinery platform and the mobile terminal and is arranged on mechanical equipment. The method is beneficial to promoting fair transactions of the leasing parties, standardizing the leasing market, avoiding illegal operations of the leasing parties and promoting virtuous circle development of the leasing market.

Description

Engineering machinery Internet of things monitoring system and method based on block chain

Technical Field

The invention belongs to the technical field of engineering machinery monitoring, and particularly relates to a block chain-based engineering machinery Internet of things monitoring system and method.

Background

With the rapid development of information technology, the internet of things (IoT) has entered into various industries, and digitization is becoming a new engine of engineering machinery development. Because engineering machinery equipment is high in price and the use frequency of a single engineering manufacturer is low, equipment renting mode is mainly adopted in the engineering industry to improve equipment use rate and save engineering investment sum.

As the rental market of engineering machines expands gradually, there is a certain rental risk for both parties: the renter can rent engineering machinery and then use the engineering machinery by the user, and some users with poor reputation often have the phenomenon of deliberately damaging the machinery and using the machinery beyond the scope; in addition, the phenomenon that equipment is lost or stolen due to the fact that a user takes care of the equipment is unfavorable is caused, so that the interest of a renter is lost; the using method comprises the following steps: when the leased engineering machinery is a foreign machine, especially a large machine or is leased for a long distance, the mechanical performance verification cannot be performed in time, some leasers with poor credit lease the faulty machine, and then the use damage of the user is taken as the claim of the user, so that the benefit loss of the user is caused.

In order to solve the technical problems, a great deal of effort is made, chinese patent discloses a monitoring system for internet of things of post-installation of engineering machinery, publication No. CN111435232B, which proposes to install a monitoring terminal on each engineering machinery, then pair-connect the monitoring terminal with a monitoring center and a mobile terminal, set a usage range in the monitoring center, the monitoring terminals identify a location position to solve the problem of over-range usage of a user, and the monitoring terminals can communicate with each other, when long-distance transmission is invalid, short-distance wireless signals can be sent to other machines around through a third transmission device, thereby eliminating the monitoring blind area and finding lost equipment. However, the foregoing solution still has some drawbacks, for example, the foregoing solution must install a monitoring terminal on the rental device, and the claimed effect cannot be achieved without the monitoring terminal, and when the monitoring mobile terminal is easily removed, the lost/stolen device cannot be recovered. In addition, the above solution does not really solve the problem of mechanical renting of the fault, and although the initial performance inspection is mentioned, firstly, the monitoring terminal is mastered by the renter, is easy to be controlled by the renter, is easy to cheat, and is unfair to the user; secondly, the performance inspection can only check the running performance, can be used for checking whether the equipment is in good operation at present, and can not ensure whether the equipment is in fault before, and secondary faults are easy to occur if the places in fault are not well processed, and can only be used for checking some basic performance information, can not check the appearance, and the damage of the monitored parts, and the like, and the users are required to perform manual inspection before renting, so that the additional maintenance cost of the same renting object and the same problem is repeatedly collected by bad renters for different users due to different familiarity degree and inspection means of renters and users to the renting equipment.

The blockchain is a technical scheme for storing, verifying, transmitting and communicating network data through self-distributed nodes without depending on a third party. Blockchain technology enables participants to agree without intervention of any third party center, solves the problem of reliable transfer of trust and value with extremely low cost, and is mainly applied to the financial industry at present. In the field of engineering machinery, there is also a technology for providing engineering machinery monitoring based on a blockchain, but at present, the blockchain is utilized only in a traditional automatic recording mode of the blockchain, that is, transmission data of each node in a monitoring system is automatically uploaded to the blockchain, for example, a distributed engineering machinery monitoring system based on the blockchain disclosed in China patent publication No. CN112653770A.

Disclosure of Invention

The invention aims to solve the problems and provides a block chain-based engineering machinery Internet of things monitoring system and method.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an engineering machine tool thing networking monitored control system based on blockchain, includes engineering machine tool platform, mobile terminal and can communicate with engineering machine tool platform and mobile terminal respectively and install the monitor terminal on mechanical equipment, its characterized in that still includes equipment producer platform and blockchain platform, equipment producer platform connect in engineering machine tool platform in order to send equipment information to engineering machine tool platform, blockchain platform connect in monitor terminal for record monitor terminal uploads gather information.

In the engineering machinery internet of things monitoring system based on the blockchain, the equipment information comprises data, instructions and communication capacity of corresponding equipment;

the engineering machinery platform judges the communication capacity of corresponding equipment according to the equipment information, and if the equipment has wireless communication capacity capable of communicating with the engineering machinery platform and the mobile terminal, the equipment controller of the corresponding equipment is used as a monitoring terminal to acquire information;

and if the equipment does not have the wireless communication capability capable of communicating with the engineering machinery platform and the mobile terminal, the monitoring terminal is connected with the equipment controller.

In the engineering machinery internet of things monitoring system based on the blockchain, the engineering machinery platform is further used for judging the protocol form of the corresponding equipment according to the equipment information so as to instruct the monitoring terminal to communicate with the equipment controller according to the corresponding protocol.

In the engineering machinery internet of things monitoring system based on the blockchain, the monitoring terminal comprises a monitoring controller, a power module, a positioning module, a wireless module and a storage module, and the monitoring terminal is connected with the engineering machinery platform, the blockchain platform and the mobile terminal through the wireless module;

the monitoring terminal is also connected with the equipment power supply of the equipment to form a double-power system consisting of the equipment power supply and the self power supply.

In the engineering machinery internet of things monitoring system based on the blockchain, the blockchain platform is further connected to the engineering machinery cloud platform, so that equipment problems can be recorded, and lease contracts with all equipment problems of corresponding equipment can be provided for both parties to sign.

In the engineering machinery internet of things monitoring system based on the blockchain, the monitoring terminal is provided with the disassembly sensing module and is used for reporting disassembly information to the engineering machinery platform when the disassembly action is sensed, and locally sending an acousto-optic warning instruction to the equipment controller so as to control the equipment to carry out acousto-optic warning.

In the engineering machinery internet of things monitoring system based on the blockchain, the starting condition is sent to the equipment controller every time the monitoring terminal is connected with the equipment controller, and the starting condition is that the current monitoring terminal is connected, so that the equipment can be used only when the current monitoring terminal is connected.

A block chain-based engineering machinery Internet of things monitoring method comprises the following steps:

the equipment manufacturer platform sends the equipment information of the corresponding equipment to the engineering machinery platform of the corresponding renter;

the engineering machinery platform judges the protocol form of the corresponding equipment according to the equipment information so as to instruct the monitoring terminal to communicate with the equipment controller by the corresponding protocol;

the monitoring terminal sends control information to the equipment controller according to control instructions of the engineering machinery cloud platform and/or the mobile terminal so as to participate in the control of the equipment;

when the monitoring terminal senses the disassembly action, the disassembly information is reported to the engineering machinery platform, and an audible and visual alarm instruction is locally sent to the equipment controller so as to operate the equipment to carry out audible and visual alarm.

The engineering machinery internet of things monitoring method based on the blockchain further comprises a device checking method based on the mobile terminal:

the mobile terminal receives an equipment list issued by an engineering machinery platform;

traversing the equipment list by the mobile terminal, acquiring the identity information of the monitoring terminal at each equipment, and broadcasting the broadcasting instruction carrying the identity information acquired by traversing in sequence;

after receiving the broadcast instruction, the monitoring terminal checks the identity information, and if the identity information is consistent with the identity information check of the monitoring terminal, the monitoring terminal returns a broadcast response and controls the equipment to carry out acousto-optic response;

after receiving the broadcast response, the mobile terminal performs color change treatment on the row of the corresponding equipment in the equipment list, and simultaneously sends out prompt tones.

The engineering machinery Internet of things monitoring method based on the blockchain further comprises a monitoring terminal disassembly prevention method:

transmitting a starting condition to the equipment controller every time the monitoring terminal is connected with the equipment controller, wherein the starting condition is that the current monitoring terminal is connected;

detecting whether the equipment controller is connected with a corresponding monitoring terminal at present or not when the equipment controller is started each time, if yes, considering that the starting condition is met, starting successfully, otherwise, not meeting the starting condition, and prompting that the monitoring terminal is disassembled;

the engineering machinery platform sends a release instruction signed by the private key to the equipment controller, the equipment controller verifies the release instruction, and after verification is passed, the release instruction is executed to release the starting condition.

The method also comprises a mechanical equipment leasing responsibility authentication method based on the blockchain:

when the user returns mechanical equipment and generates compensation responsibility, the renter records the compensation responsibility containing equipment ID and equipment problems causing compensation to the blockchain through the engineering mechanical platform to form a payment bill, and the user checks the compensation responsibility through the mobile terminal and completes compensation payment in the blockchain;

when the equipment problem which is not recorded to the blockchain is found before the mechanical equipment is rented by a user, the renter records the newly found equipment problem to the corresponding equipment ID name in the blockchain through the engineering mechanical platform;

when a user rents mechanical equipment, a renting contract containing all equipment problems of corresponding equipment is generated in a blockchain, and the two parties check the renting contract through respective mobile terminals and complete electronic signature.

The invention has the advantages that:

1. the engineering machinery platform is connected with the equipment manufacturer platform, and the data, the instruction and the communication capacity of the equipment are obtained, so that the configuration of the equipment can be utilized, and each mechanical equipment does not need to be provided with a monitoring terminal;

2. the anti-disassembly mechanism of the monitoring terminal is provided, and a double-superposition anti-disassembly effect is provided, so that the equipment cannot be used after the monitoring terminal is disassembled, thereby breaking the concept of unauthorized disassembly of the monitoring terminal;

3. the verification method based on broadcast and broadcast response is provided by utilizing short-distance wireless communication, so that the equipment can be rapidly verified in the equipment renting and returning process, the engineering machinery industry is energized, and the renting transaction convenience is improved;

4. the block chain is utilized to provide a highly-trusted equipment problem responsibility confirmation mechanism, so that the business reliability is ensured, repeated claims on the same equipment problem by a renter through unfamiliar of the renter on the equipment are effectively avoided, fair transactions of the renter and the renter are facilitated, the renting market is standardized, and virtuous circle development of the renting market is promoted.

Drawings

FIG. 1 is a block diagram of a system architecture of a blockchain-based engineering machine Internet of things monitoring system in accordance with an embodiment of the present invention;

FIG. 2 is a flowchart of a method for determining whether a monitoring terminal is installed on a machine according to a first embodiment of the present invention;

FIG. 3 is a flow chart of a method for achieving the anti-disassembly objective in a second embodiment of the invention;

fig. 4 is a flowchart of a method for implementing a blockchain-based mechanical equipment rental responsibility authentication method in accordance with the third embodiment of the present invention.

Description of the drawings: a construction machine platform 1; a mobile terminal 2; a monitor terminal 3; an equipment manufacturer platform 4; a blockchain platform 5; a device power supply 6; a device controller 7; a device action assembly 8.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The scheme provides a targeted solution to some problems existing in the existing engineering machinery leasing market, and mainly aims at providing an engineering machinery Internet of things monitoring system based on a blockchain.

Example 1

As shown in fig. 1, the system includes a work machine platform 1, a mobile terminal 2, and a machine-mounted monitoring terminal 3 capable of communicating with the work machine platform 1 and the mobile terminal 2. The system is characterized by further comprising an equipment manufacturer platform 4 and a blockchain platform 5, wherein the equipment manufacturer platform 4 is connected with the engineering machinery platform 1 to send equipment information to the engineering machinery platform 1, and the blockchain platform 5 is connected with the monitoring terminal 3 and is used for recording acquired information comprising equipment states and the like uploaded by the monitoring terminal 3 and realizing equipment operation information credible recording.

Specifically, the equipment information provided by the equipment manufacturer platform 4 to the engineering machine platform 1 includes data, instructions and communication capability of the corresponding equipment, and when the renter purchases equipment from the equipment manufacturer by himself or in a financing and renting mode, the equipment manufacturer sends the equipment information of the corresponding equipment to the engineering machine platform 1 of the corresponding renter through the equipment manufacturer platform 4.

As shown in fig. 2, the engineering machine platform 1 determines the communication capability of the corresponding device according to the device information, if the device has a wireless communication capability capable of communicating with the engineering machine platform 1 and the mobile terminal 2, the device controller 7 of the corresponding device is used as the monitoring terminal 3 to collect information, the engineering machine platform 1 is directly connected with the corresponding device controller 7 in a wireless manner, the device controller 7 is a controller of the device itself, and is connected with the device action component 8 of the device, such as a sound box, a loudspeaker, a motor, and the like. The system can utilize the configuration of the mechanical equipment without installing a monitoring terminal on each mechanical equipment.

If the equipment does not have wireless communication capability capable of communicating with the engineering mechanical platform 1 and the mobile terminal 2, the monitoring terminal 3 is connected to the equipment controller 7, the engineering mechanical platform 1 judges the protocol form of the corresponding equipment according to the equipment information, and instructs the monitoring terminal 3 to communicate with the equipment controller 7 in the corresponding protocol, for example, through the standard CAN protocol, through the connection with the equipment controller, the sound box, the loudspeaker and other controlled equipment such as a motor of the equipment CAN be controlled; . The engineering machinery platform 1 records the number of the monitoring terminal 3 and binds the corresponding relation between the monitoring terminal 3 and the equipment.

Likewise, the monitoring terminal 3 includes a monitoring controller, a power module, a positioning module, a wireless module and a storage module, and the monitoring terminal 3 is connected to the engineering machinery platform 1, the blockchain platform 5 and the mobile terminal 2 through the wireless module. There may be two kinds of wireless modules, one is a remote wireless module, such as Wifi, GPRS, etc., for communicating with the engineering machinery platform 1 and the blockchain platform 5, and one is a short-range wireless module, such as local area network Wifi, bluetooth, lora, etc., for communicating with the mobile terminal 2. The mobile terminal 2 has two communication capabilities, one is a remote communication capability for communicating with the engineering machinery platform 1, the other is a short-distance communication capability for communicating with the monitoring terminal 3, the mobile terminal 2 comprises a mobile terminal used by a renter and a mobile terminal used by a user, and the engineering machinery platform 1 records the corresponding relation between the mobile terminal and the mobile terminal user.

Preferably, the monitor terminal 3 is also connected to the device power supply 6 of the device to form a dual power supply system composed of the device power supply 6 and its own power supply.

Taking the installation of the monitoring terminal 3 as an example, after one device is installed and bound with the monitoring terminal 3, the monitoring terminal 3 can send control information to the device controller 7 according to the control instructions of the engineering machinery cloud platform 1 and the mobile terminal 2 so as to participate in the control of the device, for example, language intelligent broadcasting, horn car searching, remote locking, low-electricity intelligent voice prompt and the like can be realized under corresponding renting and using scenes, for example, data acquisition can be carried out according to the acquisition instructions issued by the engineering machinery cloud platform 1, and the data acquisition can be reported to the blockchain platform 5 and the corresponding engineering machinery cloud platform 1 according to a designated period, and in an application scene, the engineering machinery cloud platform 1 can monitor and record the working state of the device according to the position information, working condition information, alarm information and other information reported by the monitoring terminal 3, and trigger corresponding processing logic according to the business rules so as to prompt a user to carry out various remote instruction treatments. Space-time use restrictions of the mechanical device and the like can also be set through the mobile terminal 2 and the mechanical cloud platform.

Preferably, the monitor terminal 3 has a disassembly sensing module, which is configured to report disassembly information to the engineering machinery platform 1 when a disassembly motion is sensed, and locally send an audible and visual alarm command to the device controller 7 to operate the device to perform an audible and visual alarm, for example, to control the sound box to perform an audible and visual alarm. In this way, the monitor terminal 3 can be prevented from being detached. The disassembly sensing module may be a pressure sensing module installed between the monitoring terminal and the mechanical device and connected to the monitoring terminal controller, and when the monitoring terminal 3 is disassembled, sensing data of the pressure sensing module may change. Of course, the disassembly sensing module can also take other forms, such as a photoelectric sensing module.

Example two

As shown in fig. 3, the embodiment is similar to the embodiment, and is different in that the embodiment can further play a role in preventing disassembly, and the specific implementation method is as follows:

and sending a starting condition to the equipment controller every time the monitoring terminal is connected with the equipment controller, wherein the starting condition is that the current monitoring terminal is connected.

And detecting whether the equipment controller 7 is connected with the corresponding monitoring terminal 3 at present when the equipment controller 7 is started each time, if so, considering that the starting condition is met, starting successfully, and if not, prompting that the monitoring terminal 3 is disassembled. It should be understood by those skilled in the art that if the device controller 7 is connected to the monitor terminal 3, the two parties can detect each other, and this embodiment uses this to achieve the anti-disassembly purpose, once the device controller 7 is connected to the monitor terminal 3, the device controller 7 recognizes that the monitor terminal 3 is calibrated, detects the monitor terminal 3 once every time, and the device controller 7 cannot be successfully started without detecting the monitor terminal 3 before receiving the instruction for releasing the start condition, thereby achieving the anti-disassembly purpose. In this embodiment, when the disassembly action is detected, words such as "the disassembly monitoring terminal 3 will cause the device to be unusable" may be uttered in voice to prevent disassembly.

The embodiment is improved on the basis of the first embodiment, when the monitoring terminal 3 is detached, firstly, the detachment information is reported, and the audible and visual alarm is sent out to prevent the detachment, so that the detachment can be prevented in a general way, but the detachment can not be prevented, at this time, the method of the embodiment has the second line-proof effect, so that the device cannot be used after the monitoring terminal 3 is detached, and the bad user can be prevented from maliciously detaching the monitoring terminal 3.

If the monitoring terminal 3 is to be disassembled, the engineering machinery platform sends an instruction for releasing the starting condition to the equipment controller through the monitoring terminal 3, the equipment controller 7 verifies whether the instruction is sent by the engineering machinery platform 1, if yes, the instruction is executed to release the starting condition, and at the moment, the monitoring terminal can be disassembled. Preferably, the instruction is verified by adopting a signature key pair mode, the engineering machinery platform signs the instruction by using a private key, and the equipment controller decrypts by using a corresponding public key to complete the identity verification of the engineering machinery platform.

Example III

The embodiment is similar to the embodiment, and the engineering machinery internet of things monitoring system of the embodiment further includes a device searching method based on the mobile terminal 2:

the mobile terminal 2 receives the equipment number input by the user, and the identity information of the monitoring terminal 3 at the corresponding equipment is called according to the equipment number;

the mobile terminal 2 broadcasts a broadcast instruction carrying identity information;

after receiving the broadcast instruction, the monitoring terminal 3 checks the identity information, and if the identity information is consistent with the identity information of the monitoring terminal, the monitoring terminal returns a broadcast response and controls the equipment to perform an acousto-optic response;

the mobile terminal 2 transmits a prompt tone after receiving the broadcast response.

When the mechanical equipment cannot be found, the user can use the terminal equipment 3 to inform the factory mechanical platform 1 of remotely issuing instructions to enable the factory mechanical platform to perform acousto-optic response, such as playing car searching audio, car-mounted loudspeaker and the like. When the equipment is located in a remote wireless blind area, the position cannot be reported, and a remote instruction cannot be received, the mode can be used for searching the vehicle. By utilizing a short-distance wireless communication mode, even if equipment enters a remote wireless network blind area, lost equipment can be found out rapidly. In addition, as the information such as the state information of the equipment is uploaded to the blockchain platform, the leasing parties can fairly divide responsibility according to the final audible and visual alarm, the positioning position and the like, and real-time, high-precision accuracy and fine management of the equipment are realized.

In addition, the device check can be performed based on the mobile terminal 2, and the specific implementation method is as follows:

the mobile terminal 2 receives an equipment list issued by an engineering machinery platform;

the mobile terminal 2 traverses the equipment list to acquire the identity information of the monitoring terminal 3 at each equipment and sequentially broadcasts a broadcast instruction carrying the identity information acquired by traversing;

after receiving the broadcast instruction, the monitoring terminal 3 checks the identity information, and if the identity information is consistent with the identity information check of the monitoring terminal, the monitoring terminal returns a broadcast response and controls the equipment to perform an acousto-optic response;

after receiving the broadcast response, the mobile terminal 2 performs color change processing on the row of the corresponding equipment in the equipment list, and simultaneously sends out a prompt tone. The method can be used for checking the lease list in the lease and return process, and many times, a user can lease various devices to a lease company at one time and return various devices during return, and the lease objects need to be checked when the devices are taken away and returned.

Example IV

The present embodiment is similar to the embodiment in that the blockchain platform 5 is further connected to a engineering machinery cloud platform for recording equipment problems and providing lease contracts with all equipment problems of the corresponding equipment for both parties to sign. As shown in fig. 4, the engineering machinery internet of things monitoring system of the embodiment further includes a mechanical equipment leasing responsibility authentication method based on blockchain:

checking the equipment before renting the equipment by the user, checking whether the problems existing in the equipment are recorded in the blockchain at the mobile terminal 2 of the user;

if a new equipment problem which is not recorded is found, recording the newly found equipment problem to the corresponding equipment ID name in the blockchain by a renter through the engineering machinery platform 1; if no new equipment problem exists, directly entering a contract signing step;

uploading a first draft of a lease contract to a blockchain by a lease merchant through own terminal equipment, generating a complete lease contract containing all equipment problems of corresponding equipment in the blockchain, and if one lease contract contains a plurality of equipment, having all the problems of all the equipment in the complete lease contract;

both sides check the lease contract through the respective mobile terminals 2 and complete the electronic signature;

returning the equipment after the user uses the equipment;

checking whether the mechanical equipment generates a new problem by a leasing merchant before the handover;

if no new problem is found, signing the equipment, completing the leasing service, and recording in a blockchain;

if a new problem is found, compensation responsibility is generated, the renter uses the mobile terminal to record the compensation responsibility containing the equipment ID and the equipment problem causing compensation to the blockchain through the engineering mechanical platform 1 to form a payment bill, and the user checks the compensation responsibility through the mobile terminal 2 and completes compensation payment in the blockchain;

the rental agency then signs the device, completes the rental service, and records in the blockchain.

The block chain is utilized to provide a highly-trusted equipment problem responsibility confirmation mechanism, so that the business reliability is ensured, repeated claims on the same equipment problem by a renter through unfamiliar of the renter on the equipment are effectively avoided, fair transactions of the renter and the renter are facilitated, the renting market is standardized, and virtuous circle development of the renting market is promoted.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The block chain-based engineering machinery Internet of things monitoring system comprises an engineering machinery platform (1), a mobile terminal (2) and a monitoring terminal (3) which is arranged on mechanical equipment and can be respectively communicated with the engineering machinery platform (1) and the mobile terminal (2), and is characterized by also comprising an equipment manufacturer platform (4) and a block chain platform (5), wherein the equipment manufacturer platform (4) is connected with the engineering machinery platform (1) to send equipment information to the engineering machinery platform (1), and the block chain platform (5) is connected with the monitoring terminal (3) and is used for recording acquired information uploaded by the monitoring terminal (3);

the monitoring terminal (3) sends control information to the equipment controller (7) according to control instructions of the engineering machinery cloud platform and/or the mobile terminal (2) so as to participate in the control of the equipment, and the control method comprises the steps of equipment checking:

the mobile terminal (2) receives an equipment list issued by the engineering machinery platform;

the mobile terminal (2) traverses the equipment list to acquire the identity information of the monitoring terminal (3) at each equipment, and sequentially broadcasts a broadcast instruction carrying the identity information acquired by traversing;

after receiving the broadcast instruction, the monitoring terminal (3) checks the identity information, and if the identity information is matched with the identity information, the monitoring terminal returns a broadcast response and controls the equipment to carry out acousto-optic response;

after receiving the broadcast response, the mobile terminal (2) performs color change treatment on the corresponding equipment in the equipment list, and simultaneously sends out a prompt tone;

the method also comprises the following steps of:

the monitoring terminal (3) is connected with the equipment controller (7), and detects whether the monitoring terminal is connected with the corresponding monitoring terminal (3) at present when the equipment controller (7) is started each time, if yes, the starting condition is considered to be met, the monitoring terminal (3) is successfully started, and if not, the starting condition is not met, the monitoring terminal (3) is prompted to be disassembled.

2. The blockchain-based engineering machine internet of things monitoring system of claim 1, wherein the device information includes data, instructions and communication capabilities of the corresponding device;

the engineering machinery platform (1) judges the communication capacity of corresponding equipment according to the equipment information, and if the equipment has wireless communication capacity capable of communicating with the engineering machinery platform (1) and the mobile terminal (2), the equipment controller (7) of the corresponding equipment is used as a monitoring terminal (3) to acquire information;

if the equipment does not have wireless communication capability capable of communicating with the engineering machinery platform (1) and the mobile terminal (2), the monitoring terminal (3) is connected with the equipment controller (7).

3. The blockchain-based engineering machine internet of things monitoring system according to claim 2, wherein the engineering machine platform (1) is further configured to determine a protocol form of a corresponding device according to the device information, so as to instruct the monitoring terminal (3) to communicate with the device controller (7) in the corresponding protocol.

4. The blockchain-based engineering machinery internet of things monitoring system according to claim 2, wherein the monitoring terminal (3) comprises a monitoring controller, a power module, a positioning module, a wireless module and a storage module, and the monitoring terminal (3) is connected with the engineering machinery platform (1), the blockchain platform (5) and the mobile terminal (2) through the wireless module;

the monitoring terminal (3) is also connected with the equipment power supply (6) of the equipment to form a double-power system consisting of the equipment power supply (6) and the self power supply.

5. The blockchain-based engineering machine internet of things monitoring system according to any of claims 1-4, wherein the blockchain platform (5) is further connected to a engineering machine cloud platform for recording equipment problems and providing rental contracts with all equipment problems of the corresponding equipment for both parties to sign.

6. The blockchain-based engineering machinery internet of things monitoring system according to any one of claims 1 to 4, wherein the monitoring terminal (3) is provided with a disassembly sensing module, and is configured to report disassembly information to the engineering machinery platform (1) when a disassembly action is sensed, and send an audible and visual alarm command locally to the equipment controller (7) to operate the equipment to perform audible and visual alarm.

7. The blockchain-based engineering machinery internet of things monitoring system according to any one of claims 1-4, wherein the engineering machinery platform (1) sends a release instruction signed by a private key to the device controller (7), the device controller (7) verifies the release instruction, and after the verification is passed, the release instruction is executed to release the starting condition; the method also comprises a mechanical equipment leasing responsibility authentication method based on the blockchain:

when the user returns mechanical equipment and generates compensation responsibility, the renter records the compensation responsibility containing equipment ID and equipment problems causing compensation to the blockchain through the engineering mechanical platform (1) to form a payment bill, and the user checks the compensation responsibility through the mobile terminal (2) and completes compensation payment in the blockchain;

when the equipment problem which is not recorded to the blockchain is found before the mechanical equipment is rented by a user, the renter records the newly found equipment problem to the corresponding equipment ID name in the blockchain through the engineering mechanical platform (1);

when a user rents mechanical equipment, a renting contract containing all equipment problems of corresponding equipment is generated in a blockchain, and the two parties check the renting contract through respective mobile terminals (2) and complete electronic signature.