CN217388700U - Hunting camera data collection system - Google Patents

Abstract

The utility model discloses a hunting camera data collection system, which comprises a hunting camera and an unmanned aerial vehicle, wherein the hunting camera comprises an image processing module, a CPU, a control module and a first wireless communication module which are electrically connected in sequence; the unmanned aerial vehicle is provided with a second wireless communication module which is used for being in communication connection with the first wireless communication module; be equipped with the inductor on the camera of hunting, it is equipped with the trigger piece to correspond the inductor on the unmanned aerial vehicle. This camera data collection system hunts accessible operation unmanned aerial vehicle is close to the camera of hunting that sets up in the field, make the second wireless communication module on the unmanned aerial vehicle and the first wireless communication module communication connection who hunts the camera, and then utilize unmanned aerial vehicle to collect the image data on the camera of hunting, the information acquisition problem of the position that has solved mobile signal disappearance and is difficult to reach has reduced the work degree of difficulty that the user collected the camera data, degree of automation is high, the intelligent operation for hunting the camera provides the basis.

Description

Hunting camera data collection system

Technical Field

The utility model relates to a digital photography, the product field of making a video recording especially relate to a hunt camera data collection system.

Background

The hunting camera is used for security monitoring and animal control, and can be provided with a sensor to acquire local environmental information such as temperature, humidity, air pressure and the like. The user needs to know the heartbeat information of the camera to confirm the working state of the camera. The existing solutions are of two types, namely, the existing solutions are obtained on site periodically; and the second is realized through a wireless public network or a private network. The hunting cameras are far away in installation position, the workload of acquiring information on site is large, many areas in remote areas cannot be covered by mobile communication, and the cost of building a private network is high.

Therefore, we propose a temporary networking hunting camera data collection system.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: a hunting camera data collection system temporarily networked is provided.

In order to solve the technical problem, the utility model discloses a technical scheme be: a hunting camera data collection system comprises a hunting camera and an unmanned aerial vehicle, wherein the hunting camera comprises an image processing module, a CPU, a control module and a first wireless communication module which are sequentially and electrically connected; the unmanned aerial vehicle is provided with a second wireless communication module which is used for being in communication connection with the first wireless communication module; be equipped with the inductor on the camera of hunting, it is equipped with the trigger piece to correspond the inductor on the unmanned aerial vehicle.

Further, still include big dipper server side, big dipper server side includes big dipper basic station and terminal equipment, first wireless communication module still includes big dipper short message module and the big dipper antenna of electricity connection.

Further, the image processing module comprises an image processor and an image sensor which are electrically connected, and the image processor is electrically connected with the CPU.

Further, the image processing module further comprises a memory electrically connected with the CPU.

Furthermore, the control module comprises an MCU and an infrared sensor which are electrically connected, and the MCU is electrically connected with the CPU.

Furthermore, the hunting camera further comprises a battery, and the battery is used for supplying power to the image processing module, the CPU, the first wireless communication module and the control module.

Furthermore, an NPU module is further arranged in the hunting camera and electrically connected with the CPU.

Furthermore, still be equipped with light filling lamp and the photosensitive sensor of electricity connection on the camera of hunting, photosensitive sensor with the CPU electricity is connected.

Furthermore, the hunting camera further comprises a waterproof shell which covers the image processing module, the CPU, the control module and the first wireless communication module.

Furthermore, the hunting camera further comprises a battery compartment for mounting the battery, the waterproof shell comprises a front shell and a rear shell which are connected in an opening and closing manner, and the front shell and the rear shell surround to form a containing cavity for containing the battery compartment; the battery compartment is provided with a hook, and the rear shell is internally provided with a hanging hole matched with the hook; still be equipped with the elastic component in the backshell, the elastic component is contradicted the battery compartment is in order to order about the battery compartment towards the backshell is outer to be removed.

The beneficial effects of the utility model reside in that: this camera data collection system accessible operation unmanned aerial vehicle of hunting is close to the camera of hunting that sets up in the field, make second wireless communication module on the unmanned aerial vehicle and the first wireless communication module communication connection of camera of hunting, and then utilize unmanned aerial vehicle to collect the image data on the camera of hunting, the information acquisition problem of the position that the removal signal lacks and is difficult to reach has been solved, the work degree of difficulty that the user collected the camera data has been reduced, the degree of automation is high, provide the basis for the intelligent operation of camera of hunting.

Drawings

Fig. 1 is a block diagram of a hunting camera data collection system according to a first embodiment of the present invention;

fig. 2 is a block diagram of the internal module structure of a hunting camera in a hunting camera data collection system according to a first embodiment of the present invention;

fig. 3 is a first schematic structural diagram of a hunting camera in a hunting camera data collection system according to a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a hunting camera in the data collecting system of the hunting camera according to the first embodiment of the present invention;

fig. 5 is a schematic structural diagram of a battery compartment of a hunting camera in a hunting camera data collection system according to a first embodiment of the present invention.

Description of reference numerals:

1. a hunting camera; 11. a central processing unit; 12. a battery; 13. an NPU module; 14. a waterproof housing; 141. a front housing; 142. a rear housing; 143. hanging holes; 144. an elastic member; 15. a battery compartment; 151. hooking; 16. an antenna; 17. buckling;

2. an unmanned aerial vehicle;

31. a Beidou base station; 32. a terminal device;

41. a Beidou short message module; 42. a Beidou antenna;

51. an image processor; 52. an image sensor; 53. a memory;

61. MCU; 62. an infrared sensor;

71. a photosensitive sensor; 72. and a light supplement lamp.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 5, a hunting camera data collecting system includes a hunting camera 1 and an unmanned aerial vehicle 2, wherein the hunting camera 1 includes an image processing module, a CPU11, a control module and a first wireless communication module which are electrically connected in sequence; the unmanned aerial vehicle 2 is provided with a second wireless communication module which is in communication connection with the first wireless communication module; be equipped with the inductor on the camera 1 of hunting, unmanned aerial vehicle 2 is last to correspond the inductor and is equipped with the trigger piece.

From the above description, the beneficial effects of the present invention are: this camera data collection system of hunting accessible operation unmanned aerial vehicle 2 is close to and sets up in open-air camera 1 of hunting, make second wireless communication module on the unmanned aerial vehicle 2 and the first wireless communication module communication connection of camera 1 of hunting, and then utilize unmanned aerial vehicle 2 to collect the image data on the camera 1 of hunting, the information acquisition problem of the position that the removal signal lacks and is difficult to reach has been solved, the work degree of difficulty that the user collected the camera data has been reduced, the degree of automation is high, provide the basis for the intelligent operation of camera 1 of hunting.

Further, still include big dipper server, big dipper server includes big dipper basic station 31 and terminal equipment 32, first wireless communication module still includes big dipper short message module 41 and the big dipper antenna 42 of electricity connection.

As can be seen from the above description, the hunting camera 1 can also send heartbeat information and environmental information to the user in the form of a short message through the beidou satellite. The user can also actively send a short message to the hunting camera 1 to ask for the heartbeat information and the environmental information.

Further, the image processing module comprises an image processor 51 and an image sensor 52 which are electrically connected, and the image processor 51 is electrically connected with the CPU 11.

Further, the image processing module further includes a memory 53 electrically connected to the CPU 11.

As is apparent from the above description, the memory 53 is used to store image data of the camera.

Further, the control module comprises an MCU61 and an infrared sensor 62 which are electrically connected, and the MCU61 is electrically connected with the CPU 11.

As can be seen from the above description, a foreign object can trigger the operation of hunting camera 1 through infrared sensor 62.

Further, the hunting camera 1 further comprises a battery 12, wherein the battery 12 is used for supplying power to the image processing module, the CPU11, the first wireless communication module and the control module.

Further, an NPU module 13 is further disposed in the hunting camera 1, and the NPU module 13 is electrically connected to the CPU 11.

From the above description, under the condition of network break or poor signal, the hunting camera 1 can automatically identify the image content, reduce the images shot by false triggering due to environmental factors such as treeing and shaking, raining and the like, improve the utilization rate of the storage space, and reduce the difficulty of subsequent image arrangement work.

Further, a light supplement lamp 72 and a photosensitive sensor 71 which are electrically connected are also arranged on the hunting camera 1, and the photosensitive sensor 71 is electrically connected with the CPU 11.

As can be seen from the above description, when the hunting camera 1 is triggered under the condition of weak light intensity, the light supplement lamp 72 can be turned on to enhance the brightness of the front area, so as to improve the quality of the captured image.

Further, the hunting camera 1 further includes a waterproof case 14 enclosing the image processing module, the CPU11, the control module, and the first wireless communication module.

As is apparent from the above description, the waterproof case 14 protects the internal components of the hunting camera 1 from short-circuiting or failure due to rain or moisture in the air.

Further, the hunting camera 1 further comprises a battery compartment 15 for mounting the battery 12, the waterproof housing 14 comprises a front shell 141 and a rear shell 142 which are connected in an opening and closing manner, and the front shell 141 and the rear shell 142 surround to form a containing cavity for containing the battery compartment 15; a hook 151 is arranged on the battery compartment 15, and a hanging hole 143 matched with the hook 151 is arranged in the rear shell 142; an elastic member 144 is further disposed in the rear housing 142, and the elastic member 144 abuts against the battery compartment 15 to drive the battery compartment 15 to move toward the outside of the rear housing 142.

As can be seen from the above description, the installation of the battery 12 is simple and convenient; the elastic member 144 can enable the battery compartment 15 to be ejected out of the rear shell 142, so that the battery compartment can be conveniently detached by a user, meanwhile, the elastic member 144 can also apply pretightening force to the mounted battery compartment 15, and the battery compartment 15 is prevented from being separated from a contact on the rear shell 142 under the action of external force to cause the power failure of the hunting camera 1.

Example one

Referring to fig. 1 to 5, a first embodiment of the present invention is: a hunting camera data collection system, accessible unmanned aerial vehicle 2 collects the image data who sets up in open-air hunting camera 1.

The hunting camera data collecting system comprises a hunting camera 1 and an unmanned aerial vehicle 2, wherein the hunting camera 1 comprises an image processing module, a CPU11, a control module and a first wireless communication module which are sequentially and electrically connected; the unmanned aerial vehicle 2 is provided with a second wireless communication module which is in communication connection with the first wireless communication module; be equipped with the inductor on the camera 1 of hunting, unmanned aerial vehicle 2 is last to correspond the inductor and is equipped with the trigger piece. Specifically, in this embodiment, the sensor is preferably a pyroelectric infrared sensor 62, and the sensor is disposed on the top of the hunting camera 1 to sense the unmanned aerial vehicle 2 entering the upper space of the hunting camera 1. The housing of the drone 2 acts as its trigger.

As shown in fig. 1, the hunting camera data collection system further comprises a beidou service end, the beidou service end comprises a beidou base station 31 and a terminal device 32, and the first wireless communication module further comprises a beidou short message module 41 and a beidou antenna 42 which are electrically connected. Specifically, the terminal device 32 may be an intelligent electronic device such as a mobile phone and a computer.

As shown in fig. 2, the image processing module includes an image processor 51 and an image sensor 52 electrically connected, and the image processor 51 is electrically connected to the CPU 11. The image processing module further includes a memory 53 electrically connected to the CPU 11.

As shown in FIG. 2, the control module comprises an MCU61 and an infrared sensor 62 which are electrically connected, and the MCU61 is electrically connected with the CPU 11. Specifically, in this embodiment, the infrared sensor 62 is preferably a pyroelectric infrared sensor 62.

As shown in fig. 2, the hunting camera 1 further comprises a battery 12, wherein the battery 12 is used for supplying power to the image processing module, the CPU11, the first wireless communication module and the control module. Specifically, the bottom of the hunting camera 1 is also provided with a DC hole for external power supply.

As shown in fig. 2, an NPU module 13 is further disposed in the hunting camera 1, and the NPU module 13 is electrically connected to the CPU 11.

As shown in fig. 2, the hunting camera 1 is further provided with a light supplement lamp 72 and a light sensor 71 which are electrically connected, and the light sensor 71 is electrically connected with the CPU 11.

As shown in fig. 3, the hunting camera 1 further includes a waterproof case 14 enclosing the image processing module, CPU11, control module, and first wireless communication module.

As shown in fig. 4 and 5, the hunting camera 1 further includes a battery compartment 15 for mounting the battery 12, the waterproof housing 14 includes a front shell 141 and a rear shell 142 which are connected in an opening and closing manner, and the front shell 141 and the rear shell 142 surround to form a containing cavity for containing the battery compartment 15; a hook 151 is arranged on the battery compartment 15, and a hanging hole 143 matched with the hook 151 is arranged in the rear shell 142; the rear shell 142 is further provided with an elastic member 144, and the elastic member 144 abuts against the battery compartment 15 to drive the battery compartment 15 to move towards the outside of the rear shell 142. Specifically, the front shell 141 and the rear shell 142 are rotatably connected, and the front shell 141 and the rear shell 142 are respectively provided with a lock catch and a latch which are matched with each other. In this embodiment, the cross section of the hook 151 is L-shaped, and the hanging hole 143 is rectangular; the three hooks 151 are arranged on the battery compartment 15 in a delta shape. The elastic member 144 is preferably a spring plate, and two elastic members are provided. In other embodiments, the elastic member 144 may be a spring, a silicone pad or a silicone cap.

As shown in fig. 3, a front lens glass, a front acrylic plate and a fresnel lens are sequentially disposed from top to bottom on a surface of the front casing 141 of the hunting camera 1 away from the rear casing 142. A camera is arranged on the inner side of the front glass sheet of the lens; a light supplement lamp 72 is arranged on the inner side of the acrylic plate in front of the lamp; the infrared sensor 62 is arranged inside the fresnel lens. The front shell 141 is also provided with a middle shell on the side close to the rear shell 142, and the side of the middle shell is provided with keys, functional interfaces such as a TF card slot opening, a USB interface and a Sim card slot opening. After the front shell 141 and the rear shell 142 are folded, the middle shell is placed in the installation cavity. The top of preceding shell 141 is equipped with antenna 16, and antenna 16 includes articulated first section, second section and third section in proper order, first section and preceding shell 141 fixed connection. After the antenna 16 is folded, the third section is close to the side surface of the front casing 141, and the side surface of the front casing 141 is provided with a buckle 17 for clamping the third section, so as to fix the folded antenna 16 and facilitate carrying by a user.

To sum up, the utility model provides a hunt camera data collection system accessible operation unmanned aerial vehicle is close to and sets up in open-air hunt camera, make second wireless communication module on the unmanned aerial vehicle and the first wireless communication module communication connection who hunts the camera, and then utilize unmanned aerial vehicle to collect the image data on the hunt camera, the information acquisition problem of the position that has solved mobile signal and has lacked and be difficult to reach has reduced the work degree of difficulty that the user collected the camera data, degree of automation is high, provide the basis for the intelligent operation of hunt camera.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. A hunting camera data collection system characterized by: the unmanned aerial vehicle comprises a hunting camera and an unmanned aerial vehicle, wherein the hunting camera comprises an image processing module, a CPU, a control module and a first wireless communication module which are sequentially and electrically connected; the unmanned aerial vehicle is provided with a second wireless communication module which is used for being in communication connection with the first wireless communication module; be equipped with the inductor on the camera of hunting, it is equipped with the trigger piece to correspond the inductor on the unmanned aerial vehicle.

2. The hunting camera data collection system according to claim 1, wherein: the first wireless communication module further comprises a Beidou short message module and a Beidou antenna which are electrically connected.

3. The hunting camera data collection system according to claim 1, wherein: the image processing module comprises an image processor and an image sensor which are electrically connected, and the image processor is electrically connected with the CPU.

4. The hunting camera data collection system according to claim 3, wherein: the image processing module also comprises a memory electrically connected with the CPU.

5. The hunting camera data collection system according to claim 1, wherein: the control module comprises an MCU and an infrared sensor which are electrically connected, and the MCU is electrically connected with the CPU.

6. The hunting camera data collection system according to claim 1, wherein: the hunting camera further comprises a battery, and the battery is used for supplying power to the image processing module, the CPU, the first wireless communication module and the control module.

7. The hunting camera data collection system according to claim 1, wherein: an NPU module is further arranged in the hunting camera and is electrically connected with the CPU.

8. The hunting camera data collection system according to claim 1, wherein: the hunting camera is also provided with a light supplement lamp and a photosensitive sensor which are electrically connected, and the photosensitive sensor is electrically connected with the CPU.

9. The hunting camera data collection system according to claim 6, wherein: the hunting camera further comprises a waterproof shell which covers the image processing module, the CPU, the control module and the first wireless communication module.

10. The hunting camera data collection system according to claim 9, wherein: the hunting camera further comprises a battery compartment for mounting the battery, the waterproof shell comprises a front shell and a rear shell which are connected in an opening-closing manner, and the front shell and the rear shell surround to form a containing cavity for containing the battery compartment; the battery compartment is provided with a hook, and the rear shell is internally provided with a hanging hole matched with the hook; still be equipped with the elastic component in the backshell, the elastic component is contradicted the battery compartment is in order to order about the battery compartment towards the backshell is outer to be removed.

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