CN211931089U - IOT inductor based on block chain - Google Patents

Abstract

The utility model discloses a block chain based IOT sensor, which comprises a sensing protective cover, a protective cover and a sensing machine body, wherein the front end of the sensing machine body is buckled with the protective cover, and the sensing protective cover is embedded and buckled at the middle part of the protective cover, the utility model has the advantages that the device can automatically switch the battery power supply when the circuit is cut off or power off by arranging an electrifying plate driven by an electromagnet and an electrifying plate and a battery box for supplying power to the circuit and the battery behind the sensing core plate of the device, thereby preventing the inconvenience caused by stopping the device when the circuit is cut off or power off, and the automatic electrifying switching mechanism of the device is arranged behind the sensing core plate, so that the battery power supply of the device can have better hiding effect, and the network transmission area of the device is linked, and is provided with independent binding serial number and check code setting, thereby preventing the login control of other users when the device is used, the use safety is ensured.

Description

IOT inductor based on block chain

Technical Field

The utility model belongs to the technical field of, in particular to IOT inductor based on block chain.

Background

The sensor is a device for receiving signals or stimulation and reacting, can convert physical quantity or chemical quantity to be measured into another device corresponding to output, and is used for automation control, security equipment and the like, in order to carry out safety inspection of a place, a detector for alarming is often needed, and transmission notification for alarming can be carried out through a network and the like after alarm is triggered, so that the effect of place safety protection is achieved.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, the IOT sensor based on the block chain is provided, so that the problem that when the IOT sensor is used in the prior art, when a power supply line of equipment is cut off or powered off, the equipment can be stopped to be used, the function which needs to be used is lost, inconvenience is caused, and when the IOT sensor is used, the IOT sensor is easily controlled by other users in a login mode due to the fact that the equipment does not carry out special encryption protection due to the fact that network transmission is used by the equipment, and inconvenience is caused.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a block chain-based IOT sensor, which comprises a sensing shield, a protective cover and a sensing machine body, wherein the protective cover is buckled at the front end of the sensing machine body, and the sensing shield is embedded and buckled at the middle part of the protective cover;

the induction machine body comprises an assembly seat, a communication clamping groove, an electric connector, an induction core plate, an electromagnetic assembly plate, an electromagnet, an absorption plate, an extension spring, an insulating connecting rod, a switching assembly plate, a power supply electric connector, a battery electric connector, an electric connector and a battery assembly box, wherein the electric connector is fixedly connected to the upper side of the front end of the induction core plate, the electromagnetic assembly plate is arranged at the rear end of the induction core plate, the induction core plate is locked with the electromagnet through the electromagnetic assembly plate, the electromagnet is electrically connected with the electric connector, the switching assembly plate is fixedly connected with the assembly seat, the switching assembly plate is arranged at the rear side of the induction core plate, the switching assembly plate is positioned below the electromagnet, the bottom end of the absorption plate is fastened with the switching assembly plate through the extension spring, the middle part of the bottom end of the absorption plate is fixedly connected with one end of the insulating connecting rod, the other end of the insulating connecting rod penetrates, the power supply connecting plate is electrically connected with the connecting head and the induction core plate, the battery connecting plate is positioned below the power supply connecting plate and electrically connected with the battery assembling box, the induction core plate is embedded and buckled in the assembling seat, the rear end of the induction core plate is provided with a communication clamping groove, and the battery assembling box is arranged at the rear side of the assembling seat;

the induction core board comprises a block chain system, the block chain system comprises a database, an alarm module, a user module, an equipment binding module, an equipment setting module and a state detection module, the user module is in network connection with the equipment binding module, the equipment binding module is in network connection with the equipment setting module, the equipment setting module is in network connection with the user module through the state detection module, and the database is in network connection with the equipment setting module and the alarm module respectively.

Furthermore, the attraction plate is made of steel and is positioned under the electromagnet so as to ensure that the electromagnet can attract the attraction plate when electrified.

Furthermore, the insulating connecting rod and the switching assembly plate are both made of non-conductive insulating materials, so that short circuit between the suction plate and the electromagnet through the insulating connecting rod and the switching assembly plate and the conducting plate is prevented.

Furthermore, the battery connects the electric board to be equipped with 2, 2 batteries connect the electric board to locate the circular telegram board front and back both sides respectively, and 2 batteries connect the electric board to be connected with battery assembly box, induction core board electricity respectively to guarantee that equipment can carry out the power supply line and switch on when circular telegram board descends and use.

Furthermore, the power supply connection board is provided with 2 power supply connection boards, the 2 power supply connection boards are correspondingly arranged right above the battery connection board, and the 2 power supply connection boards are respectively electrically connected with the power connection head and the induction core board so as to ensure that the power supply line can be electrified and used when the power connection board rises.

Furthermore, the distance between the battery power-on plate and the power supply power-on plate is consistent with the distance between the electromagnet and the attraction plate, so that the power supply can be switched when the power-on plate moves along with the attraction plate.

Furthermore, the front end and the rear end of the electrifying plate are both arc-shaped, so that the electrifying plate can be smoothly connected with the battery electrifying plate and the power supply electrifying plate when being switched.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) the utility model discloses a power supply device, including the power supply board, the power supply board is connected with the power supply board, for solving prior art is novel when using, when the equipment power supply line is cut off or cut off the power supply, equipment meeting out of service, lead to losing the function that should have, cause inconvenience, through being equipped with circular telegram board and circuit power supply and the battery powered of electro-magnet drive behind the response core board of equipment and connect electric board and battery case, make equipment can be when the circuit is cut off or the outage can the automatic switch-over battery power supply, prevent the inconvenience that equipment out of service caused when the circuit cuts off or cuts off the power supply, and the automatic circular telegram switching mechanism of equipment locates behind the response.

2) The device is characterized in that the device is connected with a network transmission area through a serial number binding device, the network transmission area is connected with a check code through a serial number binding device, and the check code is connected with a check code through a serial number binding device.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic perspective view of an IOT sensor based on a block chain according to the present invention;

fig. 2 is a schematic side sectional structure diagram of an IOT sensor based on a block chain according to the present invention;

FIG. 3 is an enlarged schematic view of A in FIG. 2 according to the present invention;

fig. 4 is a schematic network flow diagram of an IOT sensor based on a blockchain according to the present invention;

in the figure: the device comprises an induction shield-1, a protective cover-2, an induction machine body-3, an assembly seat-a, a communication card slot-b, an electric connector-c, an induction core plate-d, an electromagnetic assembly plate-e, an electromagnet-f, an attraction plate-g, a tension spring-h, an insulating connecting rod-i, a switching assembly plate-j, a power supply electric connection plate-k, a battery electric connection plate-l, an electric connection plate-m, a battery assembly box-n, a database-d 1, an alarm module-d 2, a user module-d 3, an equipment binding module-d 4, an equipment setting module-d 5 and a state detection module-d 6.

Detailed Description

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a block chain-based IOT sensor: the induction machine comprises an induction shield, a protective cover and an induction machine body, wherein the protective cover is buckled at the front end of the induction machine body, and the induction shield is embedded and buckled in the middle of the protective cover;

the induction machine body comprises an assembly seat, a communication clamping groove, an electric connector, an induction core plate, an electromagnetic assembly plate, an electromagnet, an absorption plate, an extension spring, an insulating connecting rod, a switching assembly plate, a power supply electric connector, a battery electric connector, an electric connector and a battery assembly box, wherein the electric connector is fixedly connected to the upper side of the front end of the induction core plate, the electromagnetic assembly plate is arranged at the rear end of the induction core plate, the induction core plate is locked with the electromagnet through the electromagnetic assembly plate, the electromagnet is electrically connected with the electric connector, the switching assembly plate is fixedly connected with the assembly seat, the switching assembly plate is arranged at the rear side of the induction core plate, the switching assembly plate is positioned below the electromagnet, the bottom end of the absorption plate is fastened with the switching assembly plate through the extension spring, the middle part of the bottom end of the absorption plate is fixedly connected with one end of the insulating connecting rod, the other end of the insulating connecting rod penetrates, the power supply connecting plate is electrically connected with the connecting head and the induction core plate, the battery connecting plate is positioned below the power supply connecting plate and electrically connected with the battery assembling box, the induction core plate is embedded and buckled in the assembling seat, the rear end of the induction core plate is provided with a communication clamping groove, and the battery assembling box is arranged at the rear side of the assembling seat;

the induction core board comprises a block chain system, the block chain system comprises a database, an alarm module, a user module, an equipment binding module, an equipment setting module and a state detection module, the user module is in network connection with the equipment binding module, the equipment binding module is in network connection with the equipment setting module, the equipment setting module is in network connection with the user module through the state detection module, and the database is in network connection with the equipment setting module and the alarm module respectively.

The suction plate is made of steel and is positioned under the electromagnet so as to ensure that the suction plate can be sucked when the electromagnet is electrified.

The insulating connecting rod and the switching assembling plate are both made of non-conductive insulating materials, and short circuit between the suction plate and the electromagnet through the insulating connecting rod and the switching assembling plate is prevented when the suction plate is in contact with the electromagnet.

The battery electricity connecting plate is provided with 2 batteries, the 2 batteries are respectively arranged on the front side and the rear side of the electricity connecting plate, and the 2 batteries are respectively electrically connected with the battery assembling box and the induction core plate so as to ensure that the equipment can be powered on by a power supply line when the electricity connecting plate descends.

The power supply connection board is provided with 2 power supply connection boards, the 2 power supply connection boards are correspondingly arranged right above the battery connection board, and the 2 power supply connection boards are respectively electrically connected with the power connection head and the induction core board so as to ensure that the power supply circuit can be electrified and used when the power connection board rises.

The distance between the battery power-on plate and the power supply power-on plate is consistent with the distance between the electromagnet and the attraction plate, so that the power supply can be switched when the power-on plate moves along with the attraction plate.

The front end and the rear end of the electrifying plate are both arc-shaped, so that the electrifying plate can be smoothly connected with the battery electrifying plate and the power supply electrifying plate when being switched.

The working principle is as follows: when the normal circuit of the equipment supplies power, the electromagnet is electrified and started due to the power supply of the power supply line, so that the electromagnet attracts the attraction plate to drive the attraction plate to ascend, the attraction plate can enter between the two power supply plates, a passage is formed between the induction core plate and the circuit of the equipment for use, when the power supply line is powered off, the attraction plate loses the attraction force of the electromagnet and is pulled back by the stretching spring, so that the attraction plate enters between the battery plates, the passage is formed between the induction core plate and the battery box of the equipment for use, the equipment can automatically enter a battery power supply state when the power supply line of the equipment is powered off, and the battery box and the switching mechanism of the equipment are arranged in the equipment and positioned behind the induction core plate, so that the power supply mechanism of the equipment has better hiding property, and when the equipment is connected into the network for use, the equipment passes through the block chain network, when the equipment is used, user registration login is required, serial number binding of a unique user of the equipment is required after login, when the equipment is not bound, the equipment can be set and bound, when the equipment is bound, the equipment cannot be bound any more, the use safety of the equipment is improved, when the equipment is set, check code setting is required, when a subsequent user checks the equipment state, secondary protection can be carried out, after the setting is finished, the binding information of the equipment is sent to a database, user mobile phone information is sent to a sensing core board from the database, when an alarm is triggered, the sensor can transmit the alarm through a network, meanwhile, information can be sent to the bound user mobile phone, wherein after the binding is confirmed, when the user wants to check the equipment, the check of the equipment check code is required, and after the check is passed, the automatic timing detection of the check state can be carried out, and after no action is performed for a certain time, the user automatically quits the account of the user, so that the use safety of the user is ensured.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. An IOT sensor based on a blockchain, comprising: the induction protective cover comprises an induction protective cover (1), a protective cover (2) and an induction machine body (3), wherein the protective cover (2) is buckled at the front end of the induction machine body (3), and the induction protective cover (1) is embedded and buckled in the middle of the protective cover (2);

the induction machine body (3) comprises an assembly seat (a), a communication clamping groove (b), an electric connector (c), an induction core plate (d), an electromagnetic assembly plate (e), an electromagnet (f), an attraction plate (g), a tension spring (h), an insulating connecting rod (i), a switching assembly plate (j), a power supply electric connector plate (k), a battery electric connector plate (l), an electric connector plate (m) and a battery assembly box (n), wherein the upper side of the front end of the induction core plate (d) is fixedly connected with the electric connector (c), the rear end of the induction core plate (d) is provided with the electromagnetic assembly plate (e), the induction core plate (d) is locked and connected with the electromagnet (f) through the electromagnetic assembly plate (e), the electromagnet (f) is electrically connected with the electric connector (c), the switching assembly plate (j) is fixedly connected with the assembly seat (a), the switching assembly plate (j) is arranged on the rear side of the induction core plate (d), and the switching assembly plate (j) is positioned below, the bottom end of the suction plate (g) is buckled with the switching assembly plate (j) through an extension spring (h), the middle part of the bottom end of the suction plate (g) is fixedly connected with one end of an insulating connecting rod (i), the other end of the insulating connecting rod (i) penetrates through the switching assembly plate (j) from top to bottom and is locked with the electrifying plate (m), the power supply electrifying plate (k) is positioned below the switching assembly plate (j), the power supply electrifying plate (k) is electrically connected with an electric connector (c) and an induction core plate (d), the battery electrifying plate (l) is positioned below the power supply electrifying plate (k), the battery electrifying plate (l) is electrically connected with a battery assembly box (n), the induction core plate (d) is inlaid and buckled in the assembly seat (a), the rear end of the induction core plate (d) is provided with a communication clamping groove (b), and the battery assembly box (n) is arranged on the rear side of;

the induction core board (d) comprises a block chain system, the block chain system comprises a database (d1), an alarm module (d2), a user module (d3), an equipment binding module (d4), an equipment setting module (d5) and a state detection module (d6), the user module (d3) is in network connection with the equipment binding module (d4), the equipment binding module (d4) is in network connection with the equipment setting module (d5), the equipment setting module (d5) is in network connection with the user module (d3) through the state detection module (d6), and the database (d1) is in network connection with the equipment setting module (d5) and the alarm module (d2) respectively.

2. The blockchain-based IOT sensor of claim 1, wherein: the absorbing plate (g) is made of steel and is positioned under the electromagnet (f).

3. The blockchain-based IOT sensor of claim 1, wherein: the insulating connecting rod (i) and the switching assembling plate (j) are both made of non-conductive insulating materials.

4. The blockchain-based IOT sensor of claim 1, wherein: the battery connects electroplax (l) to be equipped with 2, and 2 batteries connect electroplax (l) to locate respectively circular telegram board (m) front and back both sides, and 2 batteries connect electroplax (l) to be connected with battery assembly box (n), response core board (d) electricity respectively.

5. The blockchain-based IOT sensor of claim 1, wherein: the power connects electroplax (k) to be equipped with 2, and 2 power connect electroplax (k) to correspond to locate the battery and connect directly over electroplax (l), and 2 power connect electroplax (k) are connected with electrical connector (c), response core (d) electricity respectively.

6. The blockchain-based IOT sensor of claim 1, wherein: the distance between the battery power-on board (l) and the power-on board (k) is consistent with the distance between the electromagnet (f) and the attraction board (g).

7. The blockchain-based IOT sensor of claim 1, wherein: the front end and the rear end of the electrifying plate (m) are both arc-shaped.

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