CN113347353A - Capture system using remote monitoring system and control method thereof - Google Patents

Abstract

A catching system using a remote monitoring system and a control method thereof comprise catching equipment, wherein the catching equipment is provided with an electronic door frame, the electronic door frame is connected with a side panel, and the side panel and the electronic door frame enclose a place for limiting the movement of animals. The electronic door frame is connected with the electromagnetic device, and an electronic hanging door which can be adsorbed by the electromagnetic device is arranged on the electronic door frame. The electromagnetic device is used for controlling the opening and closing of the electronic hanging door. In order to remotely monitor and control the opening and closing of the electronic hanging door, the electromagnetic device is electrically connected with the first WIFI intelligent socket. First WIFI smart jack connects first wiring board, and small-size electronic box is connected to first wiring board. The capture system using the remote monitoring system and the control method thereof have the following advantages: the method saves manpower and material resources, remotely selects the species of the captured animals, and remotely captures the animals without damaging the animals.

Description

Capture system using remote monitoring system and control method thereof

Technical Field

The invention belongs to the field of animal capture equipment, and particularly relates to a capture system utilizing a remote monitoring system and a control method thereof.

Background

There is no good way to capture species when studying wild animal population structure today. The current mainstream method is to capture the animal by means of anesthesia or trapping. In the prior art, anaesthesia capture requires researchers to enter mountainous areas to search for target wild animals, and manpower and material resources are consumed. And direct exposure of researchers to wildlife can create unforeseeable risks. The trap capture in the prior art needs researchers to observe whether animals are captured or not at any time, and the trap capture easily damages wild animals. Therefore, the prior art has the problems of manpower and material resource waste and easy damage to wild animals.

Disclosure of Invention

The invention aims to provide a capture system utilizing a remote monitoring system and a control method thereof, which are used for solving the technical problems of waste of manpower and material resources and easiness in damage to wild animals.

In order to solve the technical problems, the specific technical scheme of the invention is as follows: the utility model provides an utilize remote monitering system's seizure system includes seizure equipment 1, seizure equipment 1 has electron door frame 7, and side panel 22 is connected to electron door frame 7, and electromagnetic means 17 is connected to electron door frame 7, is equipped with the electron overhead door 8 that can be adsorbed by electromagnetic means 17 on the electron door frame 7, and the first WIFI smart jack 9 of electromagnetic means 17's the first WIFI smart jack 9 of electricity connection, first wiring board 16 is connected to first WIFI smart jack 9, and miniature electronic box 10 is connected to first wiring board 16. The capture device can be remotely manipulated to capture wildlife.

Furthermore, an induction device is attached to the door entrance of the electronic door frame 7, so that whether wild animals enter the catching device or not can be reminded at any time.

Further, the sensing device is a pressure sensing device 24.

Further, the sensing device is an infrared sensing device 25.

Furthermore, electron overhead door 8 is last to have extension 18, and extension 18 stretches out spout 26, and spout 26 sets up the both sides at electron door frame 7, extension 18 and the cooperation of clamping part 27, clamping part 27 set up on hydraulic telescoping device 19, and hydraulic telescoping device 19 laminating is in electron door frame 7 both sides, and switch board 6 is connected to hydraulic telescoping device 19's electric wire 15 electricity for long-range opening electron overhead door 8.

Further, the small-sized electric box 10 is provided on a monitoring pole 12 of the monitoring apparatus 2, and a monitoring camera 11 is provided on the monitoring pole 12. The monitoring camera 11 is connected with a first cable 13, and the first cable 13 is connected with a fourth cable 100 in the power distribution cabinet 6. The fourth cable 100 is connected to the central processing terminal 4. The monitoring data may be communicated remotely.

Further, the side panel 22 has a shock absorbing layer 30 to prevent collision of wild animals.

Further, the catching device 1 has a screen 28, which screen 28 has a large number of holes. A net 28 is attached to the side panel 22 at the end remote from the ground for catching animals that may climb up.

The invention also provides a control method of the capture system by using the remote monitoring system, wherein the central processing terminal receives data; judging whether wild animals entering the catching equipment are caught or not; if not, repeating the observation; if the WIFI intelligent socket is captured, controlling the WIFI intelligent socket to be powered off by using the mobile communication terminal; and determining whether to capture the WIFI image or not again, and if not, controlling the two WIFI intelligent sockets to be powered on by using the mobile communication terminal.

Furthermore, the central processing terminal receives the data sent by the sensing device and gives a prompt; if the central processing terminal can not receive the control of the researcher within a certain time, the central processing terminal intercepts the monitoring video and sends the monitoring video to the mobile communication terminal; judging whether to capture the wild animals or not according to the information of the mobile communication terminal; if not, not processing; if the WIFI intelligent socket is captured, controlling the WIFI intelligent socket to be powered off by using the mobile communication terminal; and determining whether to capture the WIFI image or not again, and if not, controlling the WIFI intelligent socket to be powered on by using the mobile communication terminal.

The capture system using the remote monitoring system and the control method thereof have the following advantages: the method saves manpower and material resources, remotely selects the species of the captured animals, and remotely captures the animals without damaging the animals.

Drawings

Fig. 1 is an overall structural schematic diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 3 is a schematic diagram of a specific structure of the remote monitoring device of the present invention;

FIG. 4 is a schematic diagram of a specific structure of the capturing device of the present invention;

FIG. 5 is a schematic cross-sectional structural view of an extension of the present invention;

fig. 6 is a schematic structural view of the electric distribution box of the present invention;

FIG. 7 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a third embodiment of the present invention;

FIG. 9 is a schematic view showing a detailed structure of the side panel of the present invention;

FIG. 10 is a schematic diagram of a control method of the present invention;

FIG. 11 is a flow chart illustrating a control method according to the present invention;

the notation in the figure is: 1. a capture device; 2. monitoring equipment; 3. a WIFI router 4 and a central processing terminal; 5. a mobile communication terminal; 6. A power distribution cabinet; 7. an electronic door frame; 8. an electronic overhead door; 9. a first WIFI smart socket; 10. a small-sized distribution box; 11. a surveillance camera; 12. a monitoring lever; 13. a first cable; 14. a second cable; 15. an electric wire; 16. a first patch panel; 17. An electromagnetic device; 18. a protruding portion; 19. a hydraulic telescopic device; 20. a third patch panel; 21. A second patch panel; 22. A side panel; 23. a pressure sensing device fixing part; 24 a pressure sensing device; 25. an infrared sensing device; 26. a chute; 27. a clamping member; 28. sealing a net; 29. a second WIFI smart jack; 30. a shock-absorbing layer; 100. and a fourth cable.

Detailed Description

In order to better understand the purpose, structure and function of the present invention, a capture system using a remote monitoring system and a control method thereof according to the present invention will be described in further detail with reference to the accompanying drawings.

A catching system using a remote monitoring system comprises a catching device 1, wherein the catching device 1 is provided with an electronic door frame 7, the electronic door frame 7 is connected with a side panel 22, and the side panel 22 and the electronic door frame 7 enclose a place for limiting the movement of animals. The electronic door frame 7 is connected with an electromagnetic device 17, and an electronic hanging door 8 which can be adsorbed by the electromagnetic device 17 is arranged on the electronic door frame 7. The electromagnetic device 17 is used for controlling the opening and closing of the electronic hanging door 8.

In order to remotely monitor and control the opening and closing of the electronic hanging door 8, the electromagnetic device 17 is electrically connected with the first WIFI intelligent socket 9. First WIFI smart jack 9 connects first wiring board 16, and small-size electronic box 10 is connected to first wiring board 16.

When the system is used, the facilities are placed in the monitoring area, and the monitoring equipment in the monitoring area can remotely view video pictures in the facilities. The monitoring area covers a wireless network, preferably a WIFI network provided by a router. The WIFI network of the place is accessed to the first WIFI intelligent socket 9, and the first WIFI intelligent socket 9 controls the electromagnetic device 17 to be powered on and powered off.

The method and the system can be applied to the area covered by the mobile communication network, and researchers can remotely connect with the WIFI network of the monitoring area through the data network of the mobile communication terminal. The WIFI network controls the first WIFI intelligent socket 9 to be powered on. The first powered WIFI intelligent socket 9 controls the control electromagnetic device 17 to be powered on, and the control electromagnetic device 17 is powered on to adsorb the electronic hanging door 8. The adsorbed electronic drop door 8 opens the passage of the catching facility 1 so that the animal can freely enter and exit.

When the wild animals enter the capturing facility 1 in the visual field of the monitoring area, the user is remotely connected with the WIFI network of the monitoring area through the data network of the mobile communication terminal. The WIFI network controls the first WIFI intelligent socket 9 to be powered off. Electromagnetic means 17 loses magnetic force after first WIFI smart jack 9 outage, and electromagnetic means 17 loses electron overhead door 8 descends rapidly behind the magnetic force, closes the animal in catching facility 1. The descending speed of the electronic hanging door 8 adsorbed by the magnetic force is higher than that of a common hydraulic telescopic mechanism, and the animal just in the door frame cannot be seriously injured by the force generated by the electronic hanging door 8 falling freely.

As shown in FIGS. 1 to 6, a first embodiment of the present invention is shown. A capture system using a remote monitoring system includes a capture device 1, the capture device 1 having an electronic doorframe 7. The electronic door frame 7 is connected with the side panel 22, and the side panel 22 is provided with a through hole and a shock absorption layer 30 as shown in figure 9. The through hole is used for observing and anaesthetizing animals through an anaesthesia gun, and the aperture of the through hole is most preferably larger than 10 CM. The shock absorbing layer 30 may be any material having cushioning, and most preferably rubber. The side panels 22 and the electronic door frame 7 enclose a place where the animals are restricted from moving. The frame of the electronic door frame 7 far away from the ground is connected with an electromagnetic device 17, and the electromagnetic device 17 is an electromagnet. The electromagnet adsorbs the electronic hanging door 8, and the electronic hanging door 8 is provided with a protruding part 18, and the cross section of the protruding part 18 is shaped as shown in fig. 4. The extension 18 extends out of a chute 26, and the chute 26 is provided on both sides of the electronic door frame 7. The fractal shape of the groove part extending out of the extending part 18 is matched with the groove part shape of the clamping part 27, the clamping part 27 is arranged on the hydraulic telescopic device 19, the hydraulic telescopic device 19 is attached to two sides of the electronic door frame 7, and the electric wire 15 of the hydraulic telescopic device 19 is electrically connected with the power distribution cabinet 6.

In order to remotely monitor and control the opening and closing of the electronic hanging door, the electromagnetic device 17 is electrically connected with the first WIFI intelligent socket 9. First WIFI smart jack 9 connects first wiring board 16, and small-size electronic box 10 is connected to first wiring board 16. The small-sized electronic box 10 and the electromagnetic device 17 are arranged in a contraposition mode, the small-sized electronic box 10 is arranged on a monitoring rod 12 of the monitoring equipment 2, and a monitoring camera 11 is arranged on the monitoring rod 12. The monitoring camera 11 is connected with a first cable 13, the first cable 13 is connected with a fourth cable 100 in the power distribution cabinet 6, and the fourth cable 100 is connected with the central processing terminal 4.

In order to provide a WIFI network, the fourth cable 100 of the power distribution cabinet 6 is connected to the WIFI router 3, and the WIFI router 3 is preferably disposed in the power distribution cabinet 6.

For a safe connection between the devices, the circuit connected to the electric box is most preferably connected by means of a buried wire.

In order to control the opening and closing of the electronic hanging door 8 outside the monitoring room, a fourth cable 100 in the power distribution cabinet 6 is further connected with a second cable 14, the second cable 14 is connected with a pressure sensing device 24, the pressure sensing device 24 is fixed in a pressure sensing device fixing part 23 as shown in fig. 1, and the pressure sensing device fixing part 23 is attached to the door entrance part of the electronic door frame 7.

The monitoring camera 11 is fixed at the height of 10 meters of the monitoring rod, the monitoring picture is fixed in the area of the spring eye for a long time, and the observation sampling range is preferably 150 square meters. The monitoring camera 11 is preferably an optical zoom infrared ball machine, in particular Haikangwei 2DF 8431. The monitoring video signal of the monitoring camera is transmitted to the central processing terminal 4 through a cable, and researchers acquire data by using monitoring software and decide whether to close the capturing device 1.

In use, if the investigator is in the surveillance room, the decision is made by surveillance video from the surveillance room as to whether to capture a wild animal entering the capture device 1. If the researcher decides to switch off the capture device 1, the WIFI network of the monitored area is remotely connected with the data network of the mobile communication terminal 5. The WIFI network controls the first WIFI intelligent socket 9 to be powered off. After the first WIFI intelligent socket 9 is powered off, the electromagnetic device 17 loses magnetic force, and after the electromagnetic device 17 loses magnetic force, the electronic hanging door 8 quickly falls down to close the catching facility 1, so that animals are closed in the catching facility 1.

If the researcher is not in the monitoring room, when the wild animal enters the capturing device 1, the pressure sensing device 24 senses the gravity and transmits a signal to the central processing terminal 4 through a cable, the central processing terminal 4 processes data through software, the processed data are sent to the mobile communication terminal 5 of the external researcher, and the researcher determines whether to close the capturing device 1 or not through the data. If the researcher decides to switch off the capture device 1, the WIFI network of the monitored area is remotely connected with the data network of the mobile communication terminal. The WIFI network controls the first WIFI intelligent socket 9 to be powered off. After the first WIFI intelligent socket 9 is powered off, the electromagnetic device 17 loses magnetic force, and after the electromagnetic device 17 loses magnetic force, the electronic hanging door 8 quickly falls down to close the catching facility 1, so that animals are closed in the catching facility 1.

If the researcher wants to release the captured animal, the WIFI network in the monitoring area can be remotely connected through the mobile communication terminal 5. The WIFI network controls the second WIFI intelligent socket 29 to be powered on, the powered WIFI intelligent socket 29 controls the second patch board 21 of the third patch board 20 to be powered on, the second patch board 21 controls the hydraulic telescopic device 19 to rise, and the clamping component 27 on the hydraulic telescopic device 19 is matched with the extension part 18 to jack up the electronic hanging door 8.

As shown in fig. 7, a second embodiment of the present invention. The capturing system using the remote monitoring system according to the first embodiment further includes an infrared sensing device 25, and a cable of the infrared sensing device 25 is connected to the fourth cable 100. As shown in fig. 3, the infrared sensor 25 is attached to the entrance of the electronic doorframe 7.

When a wild animal enters the catching device 1, the body of the wild animal is in the infrared region of the infrared sensing means 25. The infrared light reflected from the infrared light emitting tube of the infrared sensing device 25 is received by the infrared receiving tube of the infrared sensing device 25. The infrared receiving tube receives the reflected light and transmits the signal to the central processing terminal 4 through the cable. The central processing terminal 4 processes the data through software, and sends the processed data to the mobile communication terminal of an external researcher. The researcher decides whether to turn off the capture device 1 by means of the video data.

As shown in fig. 8, a third embodiment of the present invention. In order to capture the climbing animals, the capturing system using the remote monitoring system comprises the first embodiment and the second embodiment, and further comprises a sealing net 28 without influencing the monitoring visual field, wherein the sealing net 28 is provided with a large number of meshes. A screen 28 is attached to the side panel 22 at the end remote from the ground, said screen 28 enclosing the side panel 22 and the electronic door frame 7 as a roof covering of the site limiting the movement of the animals. The material of the screen 28 may be any high strength material, most preferably nylon. The mesh of the screen 28 serves to ventilate and prevent the monitoring sight from being blocked by a large area.

The invention also provides a control method of the capture system by using the remote monitoring system, which comprises the following steps: under the condition that no induction device is installed, the monitoring camera monitors the capturing device in real time, and the central processing terminal receives real-time video transmitted by the monitoring camera through the cable. And if the researchers are in the monitoring room, whether wild animals entering the capturing device are captured or not is judged through the monitoring video of the central processing terminal. If the researcher decides not to capture, then the monitoring video is repeatedly observed. If the researchers decide to capture, the mobile communication terminal is used for starting a WIFI network which is provided with a WIFI intelligent socket and a self-contained software remote connection monitoring area, the WIFI network controls the first WIFI intelligent socket to be powered off, the first WIFI intelligent socket controls the electromagnetic device to be powered off, and the electromagnetic device controls the electronic hanging door to be closed. And the researcher determines whether to capture the data again, and if not, the mobile communication terminal is used for starting the APP remote connection monitoring area WIFI network of the WIFI intelligent socket using the data network. The WIFI network controls the first WIFI intelligent socket and the second WIFI intelligent socket to be powered on, the first WIFI intelligent socket controls the electromagnet to be powered on, and the second WIFI intelligent socket controls the hydraulic telescopic rod to lift the electronic hanging door to be adsorbed on the powered electromagnet.

Since the investigator was unable to stay in the monitoring room for 24 hours, a further control method was provided: and under the condition of installing the sensing device, the monitoring camera monitors the capturing equipment in real time. And S1/T1, the central processing terminal receives the real-time video transmitted by the monitoring camera through the cable. When the wild animal enters the capturing device, the sensing device transmits data to the central processing terminal. And S2/T2, the central processing terminal sends a prompt when receiving the data, and if the central processing terminal can not receive the control of the researcher within a certain time, the central processing terminal judges that the researcher is not in the monitoring room. And S3, if the researcher is in the monitoring room, judging whether to capture the wild animal entering the capture equipment. If the researcher decides not to capture, then the monitoring video is repeatedly observed. S4, if the researcher decides to capture, the mobile communication terminal is used for starting a WIFI network of an APP remote connection monitoring area of which the data network uses the WIFI intelligent socket, and the WIFI network controls the first WIFI intelligent socket to be powered off. S5, the first WIFI intelligent socket controls the electromagnetic device to be powered off, and the electromagnetic device controls the electronic hanging door to be closed. If the researcher feels to discard the animal after capture, the researcher can again decide whether to capture as a rescue measure. S6, if the mobile communication terminal is determined not to capture, starting a WIFI network of the APP remote connection monitoring area of the WIFI intelligent socket using the data network by using the mobile communication terminal, and controlling the first WIFI intelligent socket and the second WIFI intelligent socket to be powered on by the WIFI network. S7, the first WIFI intelligent socket controls the electromagnet to be electrified, and the second WIFI intelligent socket controls the hydraulic telescopic rod to lift the electronic hanging door to be adsorbed on the electrified electromagnet. S8, the capture device 1 is started, and the process is finished.

And T3, when the researcher is judged not to be in the monitoring room, the central processing terminal processes the monitoring video and intercepts the video of about 10s of wild animals entering the capturing equipment. After the video is intercepted, the central processing terminal sends the video to the mobile communication terminal through software, mails and the like. And T4, judging whether to capture the wild animal entering the capturing device or not by the researchers through the received video. If the researcher decides not to capture, then it is left untreated. And T5, if the researcher decides to capture, starting a WIFI network of the APP remote connection monitoring area of the WIFI intelligent socket using the data network by using the mobile communication terminal, and controlling the first WIFI intelligent socket to be powered off by using the WIFI network. T6, the first WIFI intelligent socket controls the electromagnetic device to be powered off, and the electromagnetic device controls the electronic hanging door to be closed. If the researcher feels to discard the animal after capture, the researcher can again decide whether to capture as a rescue measure. And T7, if the mobile communication terminal is determined not to capture, starting a WIFI network of the APP remote connection monitoring area of the WIFI intelligent socket using the data network by using the mobile communication terminal, and controlling the first WIFI intelligent socket and the second WIFI intelligent socket to be powered on by the WIFI network. T8. the first WIFI intelligent socket controls the electromagnet to be electrified, and the second WIFI intelligent socket controls the hydraulic telescopic rod to lift the electronic hanging door to be adsorbed on the electrified electromagnet. T9. Capture device 1 is turned on and the process ends.

In summary, the capture system using the remote monitoring system and the control method thereof of the present invention have the following advantages: the method saves manpower and material resources, remotely selects the species of the captured animals, and remotely captures the animals without damaging the animals.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides an utilize remote monitering system's seizure system, including seizure equipment (1), a serial communication port, seizure equipment (1) has electron door frame (7), side board (22) are connected in electron door frame (7), electromagnetic means (17) are connected in electron door frame (7), be equipped with on electron door frame (7) and can be by adsorbed electron overhead door (8) of electromagnetic means (17), first WIFI smart jack (9) are connected to electromagnetic means (17) electricity, first wiring board (16) is connected in first WIFI smart jack (9), miniature electronic box (10) are connected in first wiring board (16).

2. A catching system with remote monitoring system according to claim 1 characterized by that the induction device is attached to the entrance of the electronic doorframe (7).

3. A capture system using a remote monitoring system according to claim 2, characterised in that the sensing means is a pressure sensing means (24).

4. A capturing system using a remote monitoring system according to claim 2, characterised in that the sensing means is an infrared sensing means (25).

5. A catching system with remote monitoring system according to claim 1 characterized in that the electronic hanging door (8) has a protrusion (18), the protrusion (18) extends out of a sliding groove (26), the sliding groove (26) is set on both sides of the electronic door frame (7), the protrusion (18) cooperates with a clamping part (27), the clamping part (27) is set on a hydraulic telescopic device (19), the hydraulic telescopic device (19) is attached on both sides of the electronic door frame (7), the electric wire (15) of the hydraulic telescopic device (19) is electrically connected with the switch board (6).

6. A capture system using a remote monitoring system according to claim 1, characterized in that the small electric box (10) is arranged on a monitoring rod (12) of the monitoring device (2), a monitoring camera (11) is arranged on the monitoring rod (12), the monitoring camera (11) is connected with a first cable (13), the first cable (13) is connected with a fourth cable (100) in the power distribution cabinet (6), and the fourth cable (100) is connected with the central processing terminal (4).

7. A capture system using a remote monitoring system according to claim 1 characterized in that the side panel (22) has a shock absorbing layer (30).

8. A capturing system using a remote monitoring system according to claim 1, characterized in that the capturing device (1) has a cover net (28), the cover net (28) having a mesh, the cover net (28) being attached to the side panel (22) at the end remote from the ground.

9. A control method of a capture system using a remote monitoring system is characterized in that a central processing terminal receives data after a wild animal enters capture equipment; judging whether wild animals entering the catching equipment are caught or not; if not, repeating the observation; if the WIFI intelligent socket is determined to be captured, controlling the WIFI intelligent socket to be powered off by using the mobile communication terminal; and determining whether to capture the WIFI image or not again, and if not, controlling the two WIFI intelligent sockets to be powered on by using the mobile communication terminal.

10. The system according to claim 9, wherein the central processing terminal receives the data from the sensing device and gives a prompt; if the central processing terminal can not receive the control signal of the researcher within a certain time, the central processing terminal intercepts the monitoring video and sends the monitoring video to the mobile communication terminal; judging whether to capture the wild animals or not according to the information of the mobile communication terminal; if not, not processing; if the WIFI intelligent socket is determined to be captured, controlling the WIFI intelligent socket to be powered off by using the mobile communication terminal; and determining whether to capture the WIFI image or not again, and if not, controlling the two WIFI intelligent sockets to be powered on by using the mobile communication terminal.

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