CN113484929A

CN113484929A - Intelligent termite monitoring system

Info

Publication number: CN113484929A
Application number: CN202110544603.8A
Authority: CN
Inventors: 吕朝晖
Original assignee: Ningbo Chunye Metal Products Co ltd
Current assignee: Ningbo Chunye Metal Products Co ltd
Priority date: 2021-05-19
Filing date: 2021-05-19
Publication date: 2021-10-08

Abstract

The invention discloses an intelligent termite monitoring system, which comprises a termite detector, a monitor, a monitoring sensor, an intelligent mobile terminal and a server, wherein the termite detector is connected with the monitor; the termite detecting device comprises a termite detecting instrument, a termite detecting sensor and a termite detecting controller, wherein the termite detecting instrument is arranged in the termite detecting instrument; the monitor detects the trigger state of the monitoring sensor in real time, and after receiving the trigger signal, the monitor processes the trigger signal and transmits the trigger signal through the communication module to broadcast the ant situation information in real time; when the intelligent mobile terminal enters the sensing range of the monitor, the broadcast sent by the monitor can be received, and the intelligent mobile terminal reads the ant condition information sent by the monitor and transmits the ant condition information to the server. This intelligent termite monitoring system can realize automatic monitoring, can in time transmit ant condition information, improves monitoring efficiency, and greatly reduced working strength avoids appearing the misjudgment.

Description

Intelligent termite monitoring system

Technical Field

The invention relates to the technical field of termite monitoring, in particular to an intelligent termite monitoring system.

Background

Termites have great harm to house buildings, particularly damage to brick-wood structure buildings is obvious, when a support structure of a house is damaged by the termites or bearing points of the support structure are damaged, the house is prone to collapse suddenly, the termites are high in diffusibility, large in colony and quick in damage, and huge losses can be caused in a short period. In order to prevent the termite from happening in the bud, the termite colony on the construction site is generally killed when the building is built, and the killing means comprises drug killing and the like, however, the construction site generally occupies a large area, and the termites are generally hidden in the ground or the interior of a wooden structure, if the drug is sprayed in a large area, the cost for killing the termites is increased, and the environment pollution is caused, so the prior art has appeared a termite induction monitoring device, the monitoring device is placed in a preset area, the monitoring device comprises an outer layer, the surface wall of the outer layer is provided with a pore for the termite to come in and go out, an induction strip for inducing the termites is placed in the outer layer, then the monitoring device is buried in the ground of the construction site, after several days, the monitoring device is taken out, the outer layer is opened, the inner induction strip is taken out for observation, if the termite bite trace exists or the interior contains a certain amount of termites, the bait strips are taken out and replaced by the medicated rolls containing the drug capable of killing the termites and the substances capable of attracting the termites, namely the termites at the positions can be killed, and because the bait strips which are low in cost and environment-friendly are adopted in advance to monitor the ground of the construction site, the use amount of the drug which is high in cost and can pollute the environment is reduced, and the monitoring device is a technology which is worthy of popularization. However, in the automatic termite monitoring and attracting device in the prior art, whether termites exist in the device is judged through human eye observation, namely, after the attractant strips in the monitoring device are bitten off by the termites, the axis of the monitoring device can be popped out. The monitoring device and the monitoring method have low working efficiency and high working strength, and are easy to misjudge.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent termite monitoring system which can realize automatic monitoring, can transmit termite information in time, improve monitoring efficiency, greatly reduce working strength and avoid misjudgment.

The invention provides an intelligent termite monitoring system with the following structure, which comprises a termite detector, a monitor, a monitoring sensor, an intelligent mobile terminal and a server, wherein the termite detector is connected with the monitor; the termite detecting device comprises a termite detecting instrument, a termite detecting sensor and a termite detecting controller, wherein the termite detecting instrument is arranged in the termite detecting instrument; the monitor detects the trigger state of the monitoring sensor in real time, and after receiving the trigger signal, the monitor processes the trigger signal and transmits the trigger signal through the communication module to broadcast the ant situation information in real time; when the intelligent mobile terminal enters the sensing range of the monitor, the broadcast sent by the monitor can be received, and the intelligent mobile terminal reads the ant condition information sent by the monitor and transmits the ant condition information to the server.

After adopting the structure, compared with the prior art, the intelligent termite monitoring system has the following advantages:

the monitoring sensor of the intelligent termite monitoring system is used for monitoring whether termites exist in the termite detector or not, when the monitoring sensor monitors that the termites exist in the termite detector, the monitoring sensor transmits signals to the monitor, the monitor processes the signals and then transmits the signals to the intelligent mobile terminal, and the intelligent mobile terminal transmits the information to the server; in the using process, the monitor can broadcast the ant condition information in real time, when the intelligent termite monitoring mobile terminal passes by near the monitoring system, the broadcast can be received, the ant condition information is sensed, the ant condition information can be transmitted in time, the monitoring efficiency is improved, the working strength is greatly reduced, and misjudgment is avoided.

As an improvement, the monitor comprises a control module, a power supply module and a communication module; the control module is used for being connected with the monitoring sensor; the power supply module is connected between the power supply and the control module, and the communication module is connected with the control module; the communication module is used for being in communication connection with the intelligent mobile terminal. After adopting this kind of structure, simple structure, circuit assembly is convenient.

As an improvement, the control module comprises a control chip, and one pin of the control chip is connected with the communication module.

As an improvement, the communication module comprises a first capacitor, a second capacitor and a third capacitor; one end of the first capacitor is connected with one pin of the control chip, the other end of the first capacitor is connected with one end of the second capacitor, and the other end of the second capacitor is connected with an antenna; one end of the third capacitor is connected between the first capacitor and the second capacitor, and the other end of the third capacitor is grounded. After adopting this kind of structure, communication module circuit structure is simple, and communication effect is better.

As an improvement, the monitoring sensor comprises a magnetic control switch and a magnet; the magnetic control switch is arranged in the termite detector, the magnet is arranged on a lure bar of the termite detector, one end of the lure bar is connected to one end of the termite detector, and an elastic piece is arranged between the other end of the lure bar and the other end of the termite detector; when the lure strip is broken by being gnawed by termites, the magnet can trigger the magnetic control switch to transmit signals to the monitor. After the structure is adopted, the monitoring sensor has a simple structure, and can effectively monitor whether termites exist in the termite detector.

As an improvement, one end of the lure strip, which is close to the elastic piece, is provided with a connecting column, a shell of the termite detector is provided with a through hole for the connecting column to pass through, and the elastic piece is arranged between the connecting column and the shell; when the lure strip is broken by being gnawed by termites, the end part of the connecting column penetrates through the through hole and is exposed outside the shell. After adopting this kind of structure, simple structure, the equipment is convenient, and the spliced pole tip passes the through-hole and exposes outside the casing after the lure strip is gnawed the fracture, can make the user observe in time.

As an improvement, the magnet is a magnetic ring which is fixedly connected to one end of the connecting column close to the lure strip; the connecting column is of a hollow structure, the end part of the lure strip is clamped in the end part of the connecting column, and the magnetic ring is sleeved outside the end part of the lure strip; after the lure strip is broken, the magnetic ring is attracted on the magnetic control switch. After the structure is adopted, the connecting column and the lure strip are convenient to assemble, and the lure strip is convenient to replace.

As an improvement, an installation plate is arranged in the end part of the shell close to the magnetic ring, the trigger end of the magnetic control switch is connected to the installation plate, and the trigger end is used for sucking the magnetic ring. After adopting this kind of structure, simple structure, the equipment is convenient.

As an improvement, a clamping ring is arranged on the surface of one side, close to the shell cover, of the mounting plate, and the trigger end of the magnetic control switch is clamped in the clamping ring. After adopting this kind of structure, during the equipment, as long as with the trigger end insert in the rand alright, simple structure, the equipment is convenient.

As an improvement, a wiring groove is arranged on the side wall of the mounting plate and used for wiring the electric wire of the magnetic control switch. After adopting this kind of structure, simple structure, the equipment is convenient.

Drawings

Fig. 1 is a schematic perspective view of a termite detector of the intelligent termite monitoring system of the present invention.

FIG. 2 is a schematic diagram of an explosion configuration of a termite detector of the intelligent termite monitoring system of the present invention.

Fig. 3 is a schematic perspective view of a termite detector of the intelligent termite monitoring system of the present invention with the housing removed.

Fig. 4 is a schematic perspective view of a mounting plate of a termite detector of the intelligent termite monitoring system of the present invention.

Fig. 5 is a schematic diagram of the circuit configuration of the intelligent termite monitoring system of the present invention.

Shown in the figure: 1. the induction type wire-drawing device comprises a shell, 2, a shell cover, 3, an induction bar, 4, a connecting column, 5, a magnetic ring, 6, a first clamping ring, 601, a quincunx through hole, 7, a second clamping ring, 8, a spring, 9, a magnetic control switch, 901, a control end, 902, a trigger end, 903, a wire, 10, a mounting plate, 1001, a clamping ring, 1002 and a wiring groove.

Detailed Description

For a better understanding of the present application, various aspects of the present application will be described in more detail with reference to the accompanying drawings. It should be understood that the detailed description is merely illustrative of exemplary embodiments of the present application and does not limit the scope of the present application in any way. Like reference numerals refer to like elements throughout the specification.

In the drawings, the thickness, size, and shape of an object have been slightly exaggerated for convenience of explanation. The figures are purely diagrammatic and not drawn to scale.

It will be further understood that the terms "comprises," "comprising," "includes," "including," "has," "having," "contains," "including," and/or "containing," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

As shown in fig. 1 to 4, the present invention discloses an intelligent termite monitoring system, which includes a termite detector, a monitor, a monitoring sensor, an intelligent mobile terminal and a server. The termite detection device comprises a termite detector, a termite detection device, a termite detection sensor, a termite detection device and an intelligent mobile terminal, wherein the termite detection device is used for detecting whether termites exist in the termite detector or not; the intelligent mobile terminal is in communication connection with the server; when the monitoring sensor monitors that termites exist in the termite detector, the monitoring sensor transmits signals to the monitor, the monitor processes the signals and then transmits the signals to the intelligent mobile terminal, and the intelligent mobile terminal transmits the information to the server.

The termite detector comprises a shell 1, a shell cover 2, a lure strip 3 and a connecting column 4.

The upper end of the shell 1 is provided with an opening, the bottom wall of the shell 1 is provided with a through hole, and the shell cover 2 covers the opening end of the shell 1. The middle part of the shell cover 2 is also provided with a through hole.

The connecting column 4 is arranged in the shell 1, and the upper end of the connecting column 4 is in sliding fit with the through hole of the shell cover 2. The connecting column 4 is of a hollow structure, the lower end of the connecting column 4 is fixedly connected with a magnetic ring 5, in the embodiment, the number of the magnetic rings 5 is two, and the two magnetic rings 5 are stacked downwards and installed together. The end face of the magnetic ring 5 far away from the connecting column 4 is fixedly connected with a first snap ring 6, a quincunx through hole 601 is formed in the inner side of the first snap ring 6, the upper end of the lure strip 3 penetrates through the first snap ring 6 and the two magnetic rings 5 and then extends into the lower end of the connecting column 4, the first snap ring 6 is made of elastic materials, the inner diameter of the first snap ring 6 is smaller than the outer diameter of the lure strip 3, and the first snap ring 6 can clamp the upper end of the lure strip 3. The through hole of the bottom wall of the shell 1 is provided with a second snap ring 7, the structure of the second snap ring 7 is similar to that of the first snap ring 6, the lower end of the lure strip 3 penetrates through the first snap ring 6 and the through hole and then is exposed outside the lower end of the shell 1, and the second snap ring 7 can clamp the lower end of the lure strip 3.

The connecting column 4 is sleeved with an elastic part, and the elastic part is a spring 8. The lower end of the spring 8 is connected to the lower end of the connecting column 4, the upper end of the spring 8 is connected to the lower end of the shell cover 2, and the spring 8 is in a stretching state.

The monitoring sensor comprises a magnetic control switch and a magnet, the magnetic control switch 9 comprises a control end 901 and a trigger end 902, and the control end 901 and the trigger end 902 are connected through an electric wire 903. The inside of the shell cover 2 is provided with a mounting plate 10, the middle part of the mounting plate 10 is provided with a through hole, the mounting plate 10 is sleeved outside the upper end of the spring 8, and the mounting plate 10 is clamped in the gap of the steel wire ring of the spring 8. A collar 1001 is arranged on the surface of the mounting plate 10 close to one side of the housing cover 2, and the trigger end 902 of the magnetic switch 9 is clamped in the collar 1001. A wiring groove 1002 is arranged on the side wall of the mounting plate 10, and the wiring groove 1002 is used for wiring the electric wire 903 of the magnetic control switch 9.

As shown in fig. 5, the monitor includes a control module, a power module and a communication module. The control module is used for being connected with the termite monitoring sensor; the power supply module is connected between the power supply and the control module, and the communication module is connected with the control module; the communication module is used for being in communication connection with the termite monitoring intelligent mobile terminal.

The control module comprises a control chip U1. The communication module comprises a first capacitor C10, a second capacitor C9 and a third capacitor C11; one end of the first capacitor C10 is connected with one pin of the control chip U1, the other end of the first capacitor C10 is connected with one end of the second capacitor C9, and the other end of the second capacitor C9 is connected with an antenna ANT 1; one end of the third capacitor C11 is connected between the first capacitor C1 and the second capacitor C9, and the other end of the third capacitor C11 is grounded. The communication module continuously broadcasts information packets outwards at intervals of 3 seconds (time length can be set).

The power supply module comprises a power switch circuit, a voltage stabilizing circuit and a power connector; the power connector is used for being connected with a power supply, the power switch circuit is connected between the power connector and the voltage stabilizing circuit, and the voltage stabilizing circuit is connected with two pins of the control chip. After the power connector is connected into the lithium battery, the voltage stabilizing circuit processes the input power to obtain a 3.3V power supply to supply power to the control module. The voltage stabilizing circuit comprises a voltage stabilizing chip U2, a fourth capacitor C1, a fifth capacitor C3 and a sixth capacitor C6; one pin of the voltage stabilizing chip U2 is connected with a power supply connector J2, two pins of the voltage stabilizing chip U2 are connected with two pins of the control chip U1, and three pins of the voltage stabilizing chip U2 are grounded; one end of the fourth capacitor C1 is connected between the two pins of the voltage stabilizing chip U2 and the two pins of the control chip U1, and the other end of the fourth capacitor C1 is grounded; one pin of the fifth capacitor C3 and one pin of the sixth capacitor C6 are both connected between one pin of the voltage stabilizing chip U2 and the power supply connector J2, and the other pin of the fifth capacitor C3 and the other pin of the sixth capacitor C6 are both grounded.

The power switch controls the working state of the intelligent termite monitoring system. The power switch comprises a field effect transistor Q4 and a switch transistor Q1; the D pole of the field effect transistor is connected with a power supply connector J2, the S pole of the field effect transistor is connected with one pin of the voltage stabilizing circuit, the G pole of the field effect transistor is connected with the C pole of the switch tube after being connected with a first resistor R3 in series, the B pole of the switch tube Q1 is connected with a second resistor R1 in series and then is connected with the three pins of a control chip U1, and the three pins of the control chip U1 provide trigger signals for the switch tube Q1; the E pole of the switching tube Q1 is grounded.

The working principle of the intelligent termite monitoring system is as follows: when termites exist in the termite detector, when the termites bite off the lure strip 3, the spring 8 can contract without the pulling force of the lure strip 3 to drive the connecting column 4 and the magnetic ring 5 to move upwards, the upper end of the connecting column 4 is exposed outside the shell cover 2 through the through hole of the shell cover 2, the magnetic ring 5 is absorbed on the trigger end 902 of the magnetic control switch 9, and the magnetic control switch 9 triggers a signal and transmits the signal to the monitor through the control end 901; the monitor processes the trigger signal after receiving the trigger signal, and transmits the trigger signal through the communication module to broadcast the ant situation information in real time; when the intelligent mobile terminal enters the sensing range of the monitor, the broadcast sent by the monitor can be received, and the intelligent mobile terminal reads the ant condition information sent by the monitor and transmits the ant condition information to the server.

The device of the invention is characterized in that:

the routing inspection route can be preset, when routing inspection is carried out according to the preset routing inspection route, all devices are automatically and sequentially connected, and after the connection is successful and data is read, the corresponding connection is disconnected until the routing inspection of the whole route is completed. The method can greatly improve the connection speed between the device and the mobile terminal, effectively avoid the broadcast collision between the devices and improve the reliability of the system.

The design of an ultra-low power consumption scheme is adopted, the average working current is 50UA, and when a 1200MAH lithium battery is adopted, the continuous working time can reach more than 3 years.

The volume of the whole circuit module is only 2.5 × 1.5CM3, and the circuit module can be conveniently embedded in a bait bin of the device.

The design of adjustable wireless transmission power can meet different embedding requirements and is suitable for earthing embedding (5-10 CM of earthing can be achieved).

Claims

1. An intelligent termite monitoring system, characterized by: the termite detection system comprises a termite detector, a monitor, a monitoring sensor, an intelligent mobile terminal and a server; the termite detecting device comprises a termite detecting instrument, a termite detecting sensor and a termite detecting controller, wherein the termite detecting instrument is arranged in the termite detecting instrument; the monitor detects the trigger state of the monitoring sensor in real time, and after receiving the trigger signal, the monitor processes the trigger signal and transmits the trigger signal through the communication module to broadcast the ant situation information in real time; when the intelligent mobile terminal enters the sensing range of the monitor, the broadcast sent by the monitor can be received, and the intelligent mobile terminal reads the ant condition information sent by the monitor and transmits the ant condition information to the server.

2. The intelligent termite monitoring system set forth in claim 1 wherein: the monitor comprises a control module, a power supply module and a communication module; the control module is used for being connected with the monitoring sensor; the power supply module is connected between the power supply and the control module, and the communication module is connected with the control module; the communication module is used for being in communication connection with the intelligent mobile terminal.

3. The intelligent termite monitoring system set forth in claim 2 wherein: the control module comprises a control chip, and one pin of the control chip is connected with the communication module.

4. The intelligent termite monitoring system set forth in claim 3 wherein: the communication module comprises a first capacitor, a second capacitor and a third capacitor; one end of the first capacitor is connected with one pin of the control chip, the other end of the first capacitor is connected with one end of the second capacitor, and the other end of the second capacitor is connected with an antenna; one end of the third capacitor is connected between the first capacitor and the second capacitor, and the other end of the third capacitor is grounded.

5. The intelligent termite monitoring system according to any one of claims 1 to 4 wherein: the monitoring sensor comprises a magnetic control switch and a magnet; the magnetic control switch is arranged in the termite detector, the magnet is arranged on a lure bar of the termite detector, one end of the lure bar is connected to one end of the termite detector, and an elastic piece is arranged between the other end of the lure bar and the other end of the termite detector; when the lure strip is broken by being gnawed by termites, the magnet can trigger the magnetic control switch to transmit signals to the monitor.

6. The intelligent termite monitoring system set forth in claim 5 wherein: one end of the lure strip, which is close to the elastic part, is provided with a connecting column, a shell of the termite detector is provided with a through hole for the connecting column to pass through, and the elastic part is arranged between the connecting column and the shell; when the lure strip is broken by being gnawed by termites, the end part of the connecting column penetrates through the through hole and is exposed outside the shell.

7. The intelligent termite monitoring system set forth in claim 6 wherein: the magnet is a magnetic ring which is fixedly connected to one end of the connecting column close to the lure strip; the connecting column is of a hollow structure, the end part of the lure strip is clamped in the end part of the connecting column, and the magnetic ring is sleeved outside the end part of the lure strip; after the lure strip is broken, the magnetic ring is attracted on the magnetic control switch.

8. The intelligent termite monitoring system set forth in claim 7 wherein: the end part of the shell, which is close to the magnetic ring, is internally provided with a mounting plate, the triggering end of the magnetic control switch is connected to the mounting plate, and the triggering end is used for sucking the magnetic ring.

9. The intelligent termite monitoring system set forth in claim 8 wherein: the surface of one side of the mounting plate close to the shell cover is provided with a clamping ring, and the triggering end of the magnetic control switch is clamped in the clamping ring.

10. The intelligent termite monitoring system set forth in claim 9 wherein: and a wiring groove is arranged on the side wall of the mounting plate and used for wiring the electric wire of the magnetic control switch.