CN115437198A

CN115437198A - Multifunctional hunting camera

Info

Publication number: CN115437198A
Application number: CN202211247912.XA
Authority: CN
Inventors: 慕小丽; 田静; 田运
Original assignee: Shenzhen Olympic Technology Co ltd
Current assignee: Shenzhen Olympic Technology Co ltd
Priority date: 2022-10-12
Filing date: 2022-10-12
Publication date: 2022-12-06

Abstract

The invention relates to a multifunctional hunting camera, which comprises a shell, wherein the top of the shell is provided with a shooting hole, and the multifunctional hunting camera is characterized in that: the middle part of the shell is provided with a partition plate, a sealing cavity and a driving cavity are arranged in the shell through the partition plate, a transmission mechanism is arranged in the sealing cavity, a telescopic mechanism and a driving unit are arranged in the driving cavity, a plurality of cameras distributed in an array are further arranged in the sealing cavity, and lenses are arranged at the tops of the cameras; the driving unit drives the transmission mechanism to rotate intermittently through rotation, and then the telescopic mechanism drives the camera corresponding to the shooting hole to extend out of the sealing cavity.

Description

Multifunctional hunting camera

Technical Field

The invention relates to the technical field of hunting cameras, in particular to a multifunctional hunting camera.

Background

Hunting cameras (also known as infrared induction cameras) are a novel product which is arranged between a camera and a monitoring camera and can form a system by itself, and high-definition pictures or videos are automatically shot by adopting infrared DSP intelligent operation, namely a low-false-alarm automatic human body (animal) identification technology. The camera can automatically start to shoot or shoot video clips when sensing an infrared heat source according to the setting of the camera.

Chinese patent CN214067552U discloses a camera of hunting with waterproof function, belongs to the camera structure field of hunting, including the camera main part of hunting, the surface assembly of the camera main part of hunting has the face-piece, be equipped with the display screen in the camera main part of hunting, the drain pan has been cup jointed to the bottom of the camera main part of hunting, the fixed limit has been cup jointed on the surface of drain pan, it has the water barrier to lay and bond on the inner wall of drain pan, one side of water barrier is equipped with the strengthening layer, the surface of face-piece is equipped with protection machanism. The utility model discloses a face-piece part to hunting camera is optimized, can cooperate baffle and guiding gutter to avoid the drop of water to remain near the camera lens, and then avoid steam to cause the influence to the shooting effect.

However, the device only waterproof the display screen on the surface of the hunting camera, and the lens part of the camera is still exposed in the air and interfered by external pollution, thereby affecting the shooting effect.

Therefore, there is a need for a multifunctional hunting camera to solve the above problems.

Disclosure of Invention

The invention aims to provide a multifunctional hunting camera to solve the problem that the lens part of the camera proposed in the background art is still exposed in the air and interfered by external pollution, so that the shooting effect is influenced.

Based on the above thought, the invention provides the following technical scheme:

a multifunctional hunting camera comprises a shell, wherein the top of the shell is provided with a shooting hole, the middle of the shell is provided with a partition plate, the inside of the shell is provided with a sealing cavity and a driving cavity through the partition plate, the sealing cavity is internally provided with a transmission mechanism, and the driving cavity is internally provided with a telescopic mechanism and a driving unit; a plurality of cameras distributed in an array are further arranged in the sealing cavity, and lenses are arranged at the tops of the cameras; the driving unit drives the transmission mechanism to intermittently rotate through rotation, and then drives the camera corresponding to the shooting hole to extend out of the sealed cavity through the telescopic mechanism.

Further, an output shaft is fixedly connected to the bottom of the camera, the output shaft is connected with the transmission mechanism in a sliding mode, and the output shaft is connected with the telescopic mechanism in a rotating mode.

Further, the driving unit includes: the driving shaft drives one of the output shafts to rotate to the bottom of the shooting hole through a transmission mechanism, and the driving shaft drives the output shaft to drive the camera to extend out of the shooting hole through a telescopic mechanism.

Further, the telescopic mechanism includes: the movable gear, the threaded rod, the torsion spring, the connecting rod and the annular groove are arranged on the base; the drive shaft is kept away from the one end at drive chamber center is connected with through the gear engagement mode remove the gear, remove the gear and set up to complete gear, it is connected with through the thread engagement mode to remove gear rotation central point and put the threaded rod, the top of threaded rod is run through the drive chamber and is extended to sealed intracavity portion, the threaded rod top is connected with the connecting rod, the end of connecting rod corresponds shoot one of them of hole bottom the output shaft sets up, remove the gear with be provided with between the diapire in drive chamber the torsional spring, the torsional spring sets up to the reset torsion spring.

Furthermore, the annular groove is formed in the bottom of the outer side of the output shaft, and when one of the output shafts rotates to the bottom of the shooting hole, one end, far away from the threaded rod, of the connecting rod is attached to the inner wall of the annular groove.

Further, the telescopic mechanism further comprises: a vertical rod and a limiting ring; the bottom of the movable gear is symmetrically provided with the vertical rods, the bottom wall of the driving cavity is provided with the limiting ring, and the vertical rods are arranged inside the limiting ring in a sliding mode.

Further, the driving unit further includes: the side, away from the drive shaft the removal gear, of the drive shaft is connected with the rotating gear through a gear meshing mode, the rotating gear is set to be a complete gear, the rotating gear is arranged at the rotating center, and the top of the rotating shaft penetrates through the driving cavity and extends to the inside of the sealed cavity.

Further, the transmission mechanism includes: the central gear, planetary gear and drive gear, sealed intracavity portion is provided with the central gear, the central gear cover is located the outside of axis of rotation, still the fixed planetary gear that is provided with in sealed intracavity, the central gear with be connected with a plurality ofly through the gear engagement mode between the planetary gear drive gear, drive gear uses the central gear is array evenly distributed as the center, and is a plurality of the drive gear middle part all is provided with the output shaft.

Further, the transmission mechanism further comprises: the transmission gear is characterized by comprising a rotating groove and a rotating key, wherein the rotating center of the transmission gear is symmetrically and fixedly connected with the rotating key, the rotating groove is symmetrically formed in the middle of the outer wall of the output shaft, the rotating key is arranged inside the rotating groove in a sliding mode, and the length of the rotating groove is larger than that of the rotating key.

Further, the transmission mechanism further comprises: the sliding key is arranged at the bottom of the output shaft, the sliding ring is arranged at the bottom of the sealing cavity, and the sliding key is arranged inside the sliding ring in a sliding mode.

Furthermore, the shell outside symmetry is provided with hang the ear, it is used for fixed to hang the ear the shell.

Further, the casing corresponds the side symmetry of shooing the hole is provided with the protection strip, it is provided with to slide in the protection strip the shrouding, shrouding sliding seal shoots the hole, keep away from in the protection strip the one end of shooing the hole is fixedly connected with still the fixing base, the fixing base with be provided with between the shrouding extension spring, extension spring makes the shrouding has the trend of keeping away from the fixing base, bottom fixedly connected with fixed rope, the other end of fixed rope runs through the casing extends to the casing top, the other end of fixed rope run through the fixing base and with shrouding fixed connection.

Furthermore, the top of the shell is also provided with the water outlet groove which is in an inverted U shape and is surrounded on the outer side of the protection strip.

Compared with the prior art, the invention has the beneficial effects that:

1. when an infrared sensing device senses a biological activity trace, the infrared sensing device drives the motor to work, the motor rotates to drive the driving shaft to rotate, so that after the incomplete gear is meshed with the rotating gear firstly, the rotating gear drives the rotating shaft to rotate intermittently, the rotating shaft rotates through the star gear of the central gear, one of the output shafts rotates to the bottom of the shooting hole, and the rotating shaft stops rotating at the moment, so that the automatic replacement of the camera is realized;

2. when one of the output shafts rotates to the bottom of the shooting hole, one end, far away from the threaded rod, of the connecting rod is attached to the inner wall of the annular groove, the incomplete gear is meshed with the movable gear, then the threaded rod is driven to ascend, the connecting rod is further driven to ascend, and then the connecting rod drives the output shaft to ascend, so that the output shaft extends out of the shooting hole; after shooting is finished, the motor continues to rotate to drive the incomplete gear to unlock the movable gear, the movable gear rotates reversely in the torsion spring to further drive the threaded rod to descend, then the camera is reset, the camera is always positioned in the sealed cavity when not shooting, and the camera automatically extends out of the sealed cavity to shoot when shooting;

3. in the process, when the infrared sensing device senses the biological activity trace, the infrared sensing device drives the driving unit to rotate, then the transmission mechanism is driven to rotate intermittently through rotation, and a proper camera can be selected according to different distances; then the camera corresponding to the shooting hole is driven by the telescopic mechanism to extend out of the sealed cavity, so as to shoot organisms; make the camera is when inoperative state for inside being in sealed intracavity, protecting camera and lens, reach waterproof dustproof antifog effect.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention with the housing removed;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of the structure within the drive chamber of the present invention;

FIG. 5 is a schematic bottom view of the driving chamber of the present invention;

FIG. 6 is a schematic top view of the chamber of the present invention;

FIG. 7 is a schematic top view of the present invention with the shield assembly removed;

FIG. 8 is a schematic view of the driving unit and the telescoping mechanism of the present invention;

FIG. 9 is a schematic view of the output shaft and the camera head according to the present invention;

fig. 10 is a schematic structural view of the transmission mechanism of the present invention.

In the figure: 11. a housing; 12. sealing the cavity; 13. a drive chamber; 14. a partition plate; 15. shooting holes; 16. suspending the lug; 21. a motor; 22. a drive shaft; 23. an incomplete gear; 24. a rotating gear; 25. a rotating shaft; 31. a camera; 32. a lens; 41. a sun gear; 42. a planetary gear; 43. a transmission gear; 44. an output shaft; 45. a sliding key; 46. a slip ring; 51. a moving gear; 52. a threaded rod; 53. a torsion spring; 54. a connecting rod; 55. an annular groove; 56. a rotating groove; 57. a rotating key; 61. erecting a rod; 62. a limiting ring; 71. fixing a rope; 72. closing plates; 73. a protective strip; 74. an extension spring; 75. a fixed seat; 76. a water outlet groove.

Detailed Description

Example 1:

referring to fig. 1-10, a multifunctional hunting camera includes a housing 11, a shooting hole 15 is formed at the top of the housing 11, a partition plate 14 is arranged at the middle part of the housing 11, a sealed cavity 12 and a driving cavity 13 are arranged in the housing 11 through the partition plate 14, the transmission mechanism is arranged in the sealed cavity 12, and a telescopic mechanism and a driving unit are arranged in the driving cavity 13; a plurality of cameras 31 distributed in an array are further arranged in the sealed cavity 12, and a lens 32 is arranged at the top of each camera 31;

in this embodiment, an infrared sensing device (not shown in the figure) is further disposed in the driving cavity 13, the infrared sensing device is electrically connected to the driving unit, and the infrared sensing device is also electrically connected to the camera.

In this embodiment, preferably, a plurality of the cameras 31 can be set to be cameras with different focal lengths, so as to adapt to creatures with different distances.

In this embodiment, preferably, an output shaft 44 is fixedly connected to the bottom of the camera 31, the output shaft 44 is slidably connected to the transmission mechanism, and the output shaft 44 is rotatably connected to the telescopic mechanism.

In this embodiment, it is preferable that the suspension lugs 16 are symmetrically disposed outside the housing 11, and the suspension lugs 16 are used for fixing the housing 11.

In this embodiment, when the infrared sensing device senses the trace of the biological activity, the infrared sensing device drives the driving unit to rotate, and then drives the transmission mechanism to rotate intermittently through rotation, so that the appropriate camera 31 can be selected according to different distances; then the camera 31 corresponding to the shooting hole 15 is driven by the telescopic mechanism to extend out of the sealed cavity 12, so as to shoot organisms; make camera 31 for be in sealed intracavity 12 inside when the off-working condition, protect camera 31 and lens 32, reach the effect that waterproof dustproof antifog hits and beat.

Example 2:

the driving unit includes: motor 21, drive shaft 22 and incomplete gear 23, drive chamber 13 is inside to be kept away from one side of shooing hole 15 is provided with motor 21, motor 21 corresponds shoot hole 15 setting, the motor 21 output is connected with drive shaft 22, drive shaft 22 corresponds shoot hole 15 setting, drive shaft 22 outside cover is equipped with incomplete gear 23, incomplete gear 23 with drive shaft 22 fixed connection, infrared induction device with motor 21 electric connection.

Preferably, the number of teeth of the incomplete gear 23 corresponds to the number of the cameras 31, for example, as shown in the figure, there are four cameras 31, and the incomplete gear 23 is set to be a quarter of teeth, so that after the motor 21 rotates for one circle, one camera 31 must rotate to pass through the bottom of the shooting hole 15 or just be located at the position of the shooting hole; when setting the initial position, one of them camera 31 is in shooting hole 15 bottom, can realize, and after motor 21 rotated the round, must have one camera 31 to rotate and be located shooting hole 15 bottom.

As a further aspect of this embodiment, the driving unit further includes: the driving mechanism comprises a rotating gear 24 and a rotating shaft 25, wherein one side, far away from the moving gear 51, of the driving shaft 22 is connected with the rotating gear 24 in a gear meshing mode, the rotating gear 24 is set to be a complete gear, the rotating shaft 25 is arranged at the rotating center of the rotating gear 24, the top of the rotating shaft 25 penetrates through the driving cavity 13 and extends into the sealed cavity 12, the incomplete gear 23 is driven to rotate by the driving shaft 22, and then the rotating shaft 25 can be driven to rotate intermittently through the rotating gear 24, so that intermittent motion of the driving mechanism is achieved.

As a further aspect of the present embodiment, the transmission mechanism includes: the camera comprises a central gear 41, a planetary gear 42 and a transmission gear 43, wherein the central gear 41 is arranged in the sealed cavity 12, the central gear 41 is sleeved outside the rotating shaft 25, the planetary gear 42 is fixedly arranged in the sealed cavity 12, a plurality of transmission gears 43 are connected between the central gear 41 and the planetary gear 42 in a gear engagement mode, the transmission gears 43 are uniformly distributed in an array mode by taking the central gear 41 as a center, the output shafts 44 are arranged in the middle of the plurality of transmission gears 43, the camera 31 is rotated and replaced by the arrangement of a planetary gear train, and the camera 31 is further stable in the rotating process.

As a further scheme of this embodiment, the transmission mechanism further includes: the sliding key 45 and the sliding ring 46 are arranged at the bottom of the output shaft 44, the sliding key 45 is arranged at the bottom of the sealed cavity 12, the sliding ring 46 is arranged at the bottom of the sealed cavity 12, the sliding key 45 is arranged inside the sliding ring 46 in a sliding mode, and the rotating shaft 44 rotates more stably through the arrangement of the sliding key 45 and the sliding ring 46.

In this embodiment, the driving shaft 22 drives the rotating shaft 25 to rotate intermittently through the incomplete gear 23, then the output shaft 44 is driven to rotate to the bottom of the shooting hole 15 through the cooperation of the planetary gear train, the motor 31 rotates for a circle, and the camera 31 is replaced once, so as to replace the camera 31.

Example 3:

the transmission mechanism further includes: the camera module comprises a rotating groove 56 and a rotating key 57, the rotating center of the transmission gear 43 is symmetrically and fixedly connected with the rotating key 57, the rotating groove 56 is symmetrically formed in the middle of the outer wall of the output shaft 44, the rotating key 57 is slidably arranged in the rotating groove 56, the length of the rotating groove 56 is larger than that of the rotating key 57, and the possibility of sliding of the camera 31 is provided through the arrangement of the rotating groove 56 and the rotating key 57.

As a further scheme of this embodiment, the telescopic mechanism includes: a moving gear 51, a threaded rod 52, a torsion spring 53, a connecting rod 54 and an annular groove 55; the drive shaft 22 is kept away from the one end at drive chamber 13 center is connected with through the gear engagement mode moving gear 51, moving gear 51 sets up to complete gear, moving gear 51 rotation center position is connected with through the thread engagement mode threaded rod 52, the top of threaded rod 52 is run through drive chamber 13 and is extended to inside the sealed chamber 12, the threaded rod 52 top is connected with connecting rod 54, the end of connecting rod 54 corresponds one of them of shooting hole 15 bottom output shaft 44 sets up, moving gear 51 with be provided with between the diapire of drive chamber 13 torsional spring 53, torsional spring 53 sets up to the reset torsion spring.

As a further solution of this embodiment, the annular groove 55 is opened at the bottom of the outer side of the output shaft 44, and when one of the output shafts 44 rotates to the bottom of the shooting hole 15, one end of the connecting rod 54 away from the threaded rod 52 abuts against the inner wall of the annular groove 55.

In this embodiment, on the basis of embodiments 1 and 2, the motor 21 rotates, and after the incomplete gear 23 is meshed with the rotating gear 24, when one of the output shafts 44 rotates to the bottom of the shooting hole 15, the connecting rod 54 is attached to the annular groove 55 on the output shaft 44, and at this time, the rotating unit stops moving; the incomplete gear 23 is meshed with the movable gear 51 again, then drives the threaded rod 52 to ascend, further causes the connecting rod 54 to ascend, and then the connecting rod 54 drives the output shaft 44 to ascend, further extending out of the shooting hole 15; after shooting is finished, the motor 21 continues to rotate to drive the incomplete gear 23 to unlock the movable gear 51, the movable gear 51 rotates reversely in the torsion spring 53, the threaded rod 52 is driven to descend, then the camera 31 is reset, the camera 31 is always located inside the sealed cavity 12 when not shooting, and when shooting is carried out, the camera automatically extends out of the sealed cavity 12 to carry out shooting.

In this embodiment, it is preferable that the telescopic mechanism further includes: a vertical rod 61 and a limit ring 62; the bottom of the moving gear 51 is symmetrically provided with the upright rod 61, the bottom wall of the driving cavity 13 is provided with the limit ring 62, the upright rod 61 is slidably arranged inside the limit ring 62, and feasibility is provided for the sliding of the threaded rod 52 by arranging the upright rod 61 and the limit ring 62.

Example 4:

casing 11 corresponds the side symmetry of shooing hole 15 is provided with protection strip 73, it is provided with to slide in protection strip 73 shrouding 72, shrouding 72 sliding seal shoots hole 15, keep away from in the protection strip 73 shoot hole 15's one end fixedly connected with still fixing base 75, fixing base 75 with be provided with between the shrouding 72 extension spring 74, extension spring 74 makes shrouding 72 has the trend of keeping away from fixing

base

75, 52 bottom fixedly connected with fixed rope 71, the other end of fixed rope 71 runs through casing 11 and extend to casing 11 top, the other end of fixed rope 71 runs through fixing base 75 and with shrouding 72 fixed connection.

In this embodiment, on the basis of first to third embodiment, set up shrouding 72 and fixed rope 71, when having realized that the device does not use, shrouding 72 automatic seal shoots hole 15 under extension spring 74's effect, and the device is after the activation of infrared induction system, and under the drive of motor 21, when threaded rod 52 rose, drive fixed rope 71 and remove, and then realize shrouding 72 automatic opening, provide the feasibility that camera 31 stretches out, and simultaneously, sealed guard effect is better.

In this embodiment, the fixing rope 71 does not pass through the sealing chamber 12, which is preferable, and further enhances the strength

In this embodiment, preferably, the fixing rope 71 can pass through the limiting ring 62, and the vertical rod 61 rotates to drive the fixing rope 71 to wind, so as to further enhance the effect of automatically opening the sealing plate 72.

In this embodiment, preferably, the top of the housing 11 is further provided with the water outlet groove 76, the water outlet groove 76 is arranged in an inverted U shape and surrounds the outer side of the protection strip 73, and through the protection strip 73 arranged in a protruding manner and the water outlet groove 76 arranged in a recessed manner, when raining, rainwater cannot enter the sealing cavity 12 from the sealing plate 72, so as to further protect the camera 31.

The working principle of the invention is as follows: when an infrared sensing device senses a biological activity trace, the infrared sensing device drives the motor 21 to work, the motor 21 rotates to drive the driving shaft 22 to rotate, so that after the incomplete gear 23 is firstly meshed with the rotating gear 24, the rotating gear 24 drives the rotating shaft 25 to rotate intermittently, the rotating shaft 25 is arranged through a middle planetary gear train to realize the rotating replacement of the camera 31, the rotating shaft 25 rotates through the star gear 42 of the central gear 41, so that one output shaft 44 rotates to the bottom of the shooting hole 15, at the moment, the rotating shaft 25 stops rotating, and the automatic replacement of the camera 31 is realized; when one of the output shafts 44 rotates to the bottom of the shooting hole 15, one end of the connecting rod 54, which is far away from the threaded rod 52, is attached to the inner wall of the annular groove 55, the incomplete gear 23 is meshed with the movable gear 51 again, then the threaded rod 52 is driven to ascend, the connecting rod 54 is further driven to ascend, and then the connecting rod 54 drives the output shaft 44 to ascend, so as to extend out of the shooting hole 15; after shooting is finished, the motor 21 continues to rotate to drive the incomplete gear 23 to unlock the movable gear 51, the movable gear 51 rotates reversely in the torsion spring 53, the threaded rod 52 is driven to descend, then the camera 31 is reset, the camera 31 is always located inside the sealed cavity 12 when not shooting, and when shooting is carried out, the camera automatically extends out of the sealed cavity 12 to carry out shooting. In the process, when the infrared sensing device senses the biological activity trace, the infrared sensing device drives the driving unit to rotate, then the transmission mechanism is driven to rotate intermittently through rotation, and a proper camera 31 can be selected according to different distances; then the camera 31 corresponding to the inside of the shooting hole 15 is driven by the telescopic mechanism to extend out of the sealed cavity 12, so as to shoot organisms; make camera 31 for be in sealed chamber 12 inside when the inoperative state, protect camera 31 and lens 32, reach the effect that waterproof dustproof antifog was prevented hitting. Furthermore, when the threaded rod 52 ascends, the fixing rope 71 is driven to move, so that the closing plate 72 is automatically opened, the feasibility of extending the camera 31 is provided, and meanwhile, the sealing protection effect is good.

In conclusion, the multifunctional hunting camera integrating waterproof, dustproof and antifogging functions and achieving automatic opening and closing and shooting functions is achieved.

Claims

1. The utility model provides a multi-functional camera of hunting, includes the casing, the shooting hole has been seted up at the top of casing, its characterized in that: the middle part of the shell is provided with a partition plate, the inside of the shell is provided with a sealed cavity and a driving cavity through the partition plate, the sealed cavity is internally provided with a transmission mechanism, the driving cavity is internally provided with a telescopic mechanism and a driving unit,

a plurality of cameras distributed in an array are further arranged in the sealing cavity, and lenses are arranged at the tops of the cameras;

the driving unit drives the transmission mechanism to rotate intermittently through rotation, and then drives the camera corresponding to the shooting hole to extend out of the sealed cavity through the telescopic mechanism.

2. The multifunctional hunting camera according to claim 1, characterized in that: also comprises an output shaft, a power output shaft,

the bottom of the camera is fixedly connected with an output shaft, the output shaft is connected with the transmission mechanism in a sliding mode, and the output shaft is connected with the telescopic mechanism in a rotating mode.

3. The multifunctional hunting camera according to claim 2, characterized in that: the driving unit includes: a motor, a driving shaft and an incomplete gear,

the motor is arranged on one side of the interior of the driving cavity, which is far away from the shooting hole, the motor is arranged corresponding to the shooting hole, the output end of the motor is connected with the driving shaft, the driving shaft is arranged corresponding to the shooting hole, the incomplete gear is sleeved on the outer side of the driving shaft and is fixedly connected with the driving shaft,

after the driving shaft drives one of the output shafts to rotate to the bottom of the shooting hole through the transmission mechanism, the driving shaft drives the output shaft to drive the camera to extend out of the shooting hole through the telescopic mechanism.

4. The multifunctional hunting camera according to claim 3, characterized in that: the telescopic mechanism comprises: the movable gear, the threaded rod, the torsion spring, the connecting rod and the annular groove;

the drive shaft is kept away from the one end at drive chamber center is connected with through the gear engagement mode remove the gear, remove the gear and set up to complete gear, it is connected with through the thread engagement mode to remove gear rotation central point and put the threaded rod, the top of threaded rod is run through the drive chamber and is extended to sealed intracavity portion, the threaded rod top is connected with the connecting rod, the end of connecting rod corresponds shoot one of them of hole bottom the output shaft sets up, remove the gear with be provided with between the diapire in drive chamber the torsional spring, the torsional spring sets up to the reset torsion spring.

5. The multifunctional hunting camera according to claim 4, characterized in that:

the annular groove is formed in the bottom of the outer side of the output shaft, and when one of the output shafts rotates to the bottom of the shooting hole, one end, far away from the threaded rod, of the connecting rod is attached to the inner wall of the annular groove.

6. The multifunctional hunting camera according to claim 4, characterized in that: the telescopic machanism still includes: a vertical rod and a limiting ring;

the bottom of the movable gear is symmetrically provided with the vertical rods, the bottom wall of the driving cavity is provided with the limiting ring, and the vertical rods are arranged inside the limiting ring in a sliding mode.

7. The multifunctional hunting camera according to claim 3, characterized in that:

the driving unit further includes: a rotating gear and a rotating shaft are arranged on the frame,

one side of the driving shaft, which is far away from the moving gear, is connected with the rotating gear in a gear meshing mode, the rotating gear is set to be a complete gear, the rotating gear is arranged at the rotating center, and the top of the rotating shaft penetrates through the driving cavity and extends to the inside of the sealing cavity.

8. The multifunctional hunting camera according to claim 7, characterized in that:

the transmission mechanism includes: a central gear, a planetary gear and a transmission gear, a rotating groove and a rotating key,

the central gear is arranged in the sealing cavity, the central gear is sleeved outside the rotating shaft, the planetary gear is fixedly arranged in the sealing cavity, a plurality of transmission gears are connected between the central gear and the planetary gear in a gear meshing manner, the transmission gears are uniformly distributed in an array by taking the central gear as a center, the output shafts are arranged in the middle of the transmission gears,

the rotating center of the transmission gear is symmetrically and fixedly connected with the rotating key, the middle of the outer wall of the output shaft is symmetrically provided with the rotating groove, the rotating key is arranged inside the rotating groove in a sliding mode, and the length of the rotating groove is larger than that of the rotating key.

9. The multifunctional hunting camera according to claim 8, wherein:

the transmission mechanism further includes: a sliding key and a sliding ring are arranged on the sliding block,

the bottom of the output shaft is provided with the sliding keys, the bottom of the sealing cavity is provided with the sliding ring, and the sliding keys are arranged inside the sliding ring in a sliding mode.

10. The multifunctional hunting camera according to claim 3, characterized in that:

the shell outside symmetry is provided with hang the ear, hang the ear and be used for fixing the shell.