CN219934888U - Modeling monitoring equipment for outdoor granary - Google Patents

Abstract

The utility model discloses modeling monitoring equipment for an outdoor granary, belongs to the technical field of monitoring equipment, and solves the problem that the existing monitoring equipment for the outdoor granary cannot model grains in the granary; the automatic grain bin comprises a mounting bracket fixed on a grain bin, wherein one end of the mounting bracket is provided with a U-shaped plate, two sides of an opening of the U-shaped plate are in threaded connection with a rotating frame through butterfly screws, the upper end of the rotating frame is fixedly connected with a radar component, and the lower end of the rotating frame is in rotary connection with a camera component. According to the utility model, the radar component and the camera component are fixed by adopting the mounting bracket, and the radar component and the camera component are matched with each other, so that grains in an outdoor granary can be modeled, and meanwhile, the grains can be monitored, and the grains are prevented from being stolen; utilize butterfly screw can be when fixed radar subassembly and camera subassembly, manual regulation swivel mount's every single move angle to synchronous regulation radar subassembly and camera subassembly's every single move angle, simple structure does benefit to the realization.

Description

Modeling monitoring equipment for outdoor granary

Technical Field

The utility model relates to the technical field of monitoring equipment, in particular to modeling monitoring equipment for an outdoor granary.

Background

The existing monitoring equipment is generally beneficial to collecting granary reserves information through optical imaging of a camera, but the imaging of the camera is easily affected by the environment and cannot model grains in the granary, and the outdoor granary also needs to monitor vehicles coming and going through the camera to prevent the grains from being stolen.

The laser radar is used for granary modeling, has the advantages of high ranging precision, strong anti-interference capability and the like, but the existing outdoor granary is inconvenient to fix the laser radar and the camera at the same time, and is inconvenient to adjust the pitching angles of the laser radar and the camera.

Disclosure of Invention

The utility model provides modeling monitoring equipment for an outdoor granary, aiming at the problems in the prior art, and solves the problem that the existing monitoring equipment for the outdoor granary cannot model grains in the granary.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a modeling monitoring facilities of outdoor granary, including fixing the installing support on the granary, the one end of installing support is equipped with the U template, and the opening both sides of U template are through butterfly screw and swivel mount threaded connection, and the upper end and the radar subassembly fixed connection of swivel mount, the lower extreme and the camera subassembly swivelling joint of swivel mount, radar subassembly and camera subassembly all are connected with the master control box electricity.

In the scheme, the radar component and the camera component are fixed by adopting the mounting bracket, and the radar component and the camera component are mutually matched, so that grains in an outdoor granary can be modeled, and meanwhile, the grains can be monitored, and the grains are prevented from being stolen; utilize butterfly screw can be when fixed radar subassembly and camera subassembly, manual regulation swivel mount's every single move angle to synchronous regulation radar subassembly and camera subassembly's every single move angle, simple structure does benefit to the realization.

Further, the mounting bracket is L-shaped, one end of the mounting bracket far away from the U-shaped plate is fixedly provided with a rain shielding eave, and the main control box is positioned below the rain shielding eave and fixedly arranged on the mounting bracket; outdoor rainwater can be shielded by adopting the rain shielding eave, so that the main control box, the radar component and the camera component are prevented from being washed by rainwater, the environment of an outdoor granary is adapted, and the service life is prolonged.

Further, the radar component comprises a mounting shell, wherein a laser radar is arranged in the mounting shell, and a bottom plate of the mounting shell is fixedly connected with the rotating frame; the laser radar is convenient to fix by adopting the mounting shell.

Further, the installation shell is cuboid, one end of the installation shell is opened, and an outer eave is arranged at the opening of the installation shell; the outer eaves on the installation shell can shield the ambient light above, and the outdoor ambient light interference is reduced.

Further, the laser radar is connected with the mounting shell through bolts, one end of the laser radar is a transmitting end, and the transmitting end is positioned at the opening of the mounting shell; two aviation plugs are arranged at the other end of the laser radar, are respectively embedded into two through holes of the installation shell and are electrically connected with the main control box; and the aviation plug is adopted to facilitate the circuit connection between the laser radar and the main control box.

Further, the rotating frame comprises a cylinder with two open ends, the ring surface of the cylinder is in threaded connection with a butterfly screw, the top of the cylinder is provided with a fixed plate, one surface of the fixed plate is in bolt connection with the radar component, the other surface of the fixed plate is fixedly connected with a speed reducing motor, and the speed reducing motor is in rotary connection with the camera component; the speed reducing motor is adopted to drive the camera component to rotate, so that the visual field range of the camera component is improved.

Further, the camera component comprises a camera bracket, the top of the camera bracket is fixedly connected with the output end of the gear motor, two sides of the camera bracket are in threaded connection with a camera shell through butterfly screws, and a camera is fixed in the camera shell; the camera is convenient to fix by adopting the camera shell.

Further, the camera shell is ellipsoidal, one end of the camera shell is open, an annular plate is arranged at the opening of the camera shell, and a plurality of light supplementing lamps are uniformly distributed on the annular plate; the adoption light filling lamp is convenient for improve camera formation of image picture quality, makes the camera formation of image picture clear under the not enough circumstances of light.

Further, a camera base is connected in the camera shell through bolts, and the camera base is connected with a camera through bolts; and the bolts are used for connection, so that the fixing is convenient.

Further, one end of the camera is a lens, and one end of the lens is positioned in the inner ring of the annular plate; two aviation plugs are arranged at the other end of the camera, are respectively embedded into two through holes of the camera shell and are electrically connected with the main control box; the aviation plug is adopted to facilitate the circuit connection between the camera and the main control box.

The utility model discloses modeling monitoring equipment for an outdoor granary, which has the beneficial effects that:

1. according to the utility model, the radar component is used for modeling grains in the outdoor granary, and compared with the traditional optical imaging, the radar component has high ranging precision and strong anti-interference capability; and utilize the camera subassembly can monitor grain, prevent stolen.

2. The radar and the camera can manually adjust the pitching angle through the butterfly screw on the rotating frame, and the structure is simple and convenient to adjust.

3. The speed reducing motor can drive the camera component to rotate, and the visual field range of the camera component is improved.

Drawings

FIG. 1 is a schematic diagram of a modeling monitoring device for an outdoor barn;

FIG. 2 is a rear view of a modeled monitoring device of an outdoor grain bin;

FIG. 3 is a cross-sectional view of a modeled monitoring device of an outdoor grain bin;

FIG. 4 is an exploded view of a modeled monitoring device for an outdoor grain bin;

FIG. 5 is a schematic diagram of a camera head assembly;

wherein: 1. a mounting bracket; 2. rain shielding eave; 3. a master control box; 4. a radar assembly; 5. a rotating frame; 6. a camera assembly; 7. a butterfly screw; 41. a mounting shell; 42. a laser radar; 51. a fixing plate; 52. a speed reducing motor; 53. a cylinder; 61. a camera bracket; 62. a camera housing; 63. an annular plate; 64. a light supplementing lamp; 65. a camera; 66. a camera base; 651. and a lens.

Detailed Description

The following description of the embodiments of the present utility model is provided to facilitate understanding of the present utility model by those skilled in the art, but it should be understood that the present utility model is not limited to the scope of the embodiments, and all the utility models which make use of the inventive concept are protected by the spirit and scope of the present utility model as defined and defined in the appended claims to those skilled in the art.

Example 1

The embodiment provides modeling monitoring equipment for an outdoor granary, which aims to solve the problem that the existing monitoring equipment for the outdoor granary cannot model grains in the granary, and components of the monitoring equipment are shown in detail below.

Referring to fig. 1 and 2, the modeling monitoring device for an outdoor granary of the present embodiment includes a mounting bracket 1, a rain-shielding eave 2, a main control box 3, a radar assembly 4, a rotating frame 5 and a camera assembly 6.

The installing support 1 bolt fastening is on the wall or the post roof beam of outdoor granary, and installing support 1 is L type, is fixed with on the one end that installing support 1 kept away from the U template and hides rain eaves 2, hides rain eaves 2's below and is equipped with master control box 3, and master control box 3 is fixed on installing support 1, and master control box 3 is connected with radar subassembly 4 and camera subassembly 6 electricity respectively.

The orthographic projection of the rain shielding eave 2 is trapezoidal, and the length and the width of the rain shielding eave 2 are both larger than those of the main control box 3, the radar part and the camera component 6, and the rain shielding eave 2 can shield outdoor rainwater, so that the main control box 3, the radar component 4 and the camera component 6 are prevented from being washed by rainwater, the environment of an outdoor granary is adapted, and the service life is prolonged.

One end of the mounting bracket 1 is provided with a U-shaped plate, two sides of an opening of the U-shaped plate are in threaded connection with the rotating frame 5 through butterfly screws 7, and the pitching angle of the rotating frame 5 can be manually adjusted when the radar component 4 and the camera component 6 are fixed by utilizing the butterfly screws 7, so that the pitching angles of the radar component 4 and the camera component 6 are synchronously adjusted, and the mounting bracket is simple in structure and beneficial to realization.

The upper end of swivel mount 5 and radar subassembly 4 fixed connection, the lower extreme and the camera subassembly 6 swivelling joint of swivel mount 5.

In this embodiment, adopt installing support 1 to fix radar subassembly 4 and camera subassembly 6 simultaneously, radar subassembly 4 and camera subassembly 6 mutually support can model the grain in the outdoor granary, also can monitor the grain simultaneously, prevent stolen.

In this embodiment, the host computer is installed in the main control box 3, and the host computer may be a single chip microcomputer, an ARM chip or a Linux development board, which is preferably a Linux development board in this embodiment, and is electrically connected with the laser radar 42 and the camera 65.

As a further aspect of the present embodiment, referring to fig. 3, the radar assembly 4 includes a mounting case 41, the mounting case 41 is in a rectangular parallelepiped shape, one end of the mounting case 41 is open and the mounting case 41 is provided with an external eave at the opening; the outer eave on the mounting case 41 can shield the ambient light above, and reduce the interference of the ambient light outdoors.

The laser radar 42 is arranged in the mounting shell 41, and the bottom plate of the mounting shell 41 is fixedly connected with the rotating frame 5; the use of the mounting case 41 facilitates the fixation of the lidar 42.

The laser radar 42 is connected with the mounting shell 41 through bolts, one end of the laser radar 42 is a transmitting end, and the transmitting end is positioned at the opening of the mounting shell 41; two aviation plugs are arranged at the other end of the laser radar 42, are respectively embedded into two through holes of the mounting shell 41 and are electrically connected with the main control box 3; the use of an aviation plug facilitates the electrical connection of the lidar 42 to the master control box 3.

As a further scheme of the embodiment, referring to fig. 4, the rotating frame 5 comprises a cylinder 53 with two open ends, the ring surface of the cylinder 53 is in threaded connection with two butterfly screws 7, a fixing plate 51 is arranged at the top of the cylinder 53, one surface of the fixing plate 51 is in bolt connection with the radar component 4, the other surface of the fixing plate 51 is fixedly connected with a gear motor 52, and the gear motor 52 is in rotary connection with the camera component 6; the gear motor 52 is adopted to drive the camera assembly 6 to rotate, so that the visual field range of the camera assembly 6 is improved.

The working principle of the embodiment is as follows:

manually adjusting butterfly screws 7 on two sides of the U-shaped plate, adjusting the pitching angle of the rotating frame 5, aligning the laser radar 42 and the camera assembly 6 with grains in an outdoor granary, modeling the grains by the laser radar 42, and monitoring the grains by the camera assembly 6.

Example 2

The present embodiment provides a specific construction of the camera assembly 6, the purpose of which is to monitor grain in an outdoor grain bin.

Referring to fig. 5, the camera assembly 6 includes a camera bracket 61, the top of the camera bracket 61 is fixedly connected with the output end of the gear motor 52, two sides of the camera bracket 61 are in threaded connection with a camera housing 62 through butterfly screws 7, and a camera 65 is fixed in the camera housing 62; the use of the camera housing 62 facilitates the fixing of the camera 65.

As a further scheme of the embodiment, the camera housing 62 is ellipsoidal, one end of the camera housing 62 is open, the camera housing 62 is provided with an annular plate 63 at the opening, and a plurality of light supplementing lamps 64 are uniformly distributed on the annular plate 63; the adoption of the light supplementing lamp 64 is convenient for improving the imaging picture quality of the camera 65, and the imaging picture of the camera 65 is clear under the condition of insufficient light.

As a further scheme of the embodiment, a camera base 66 is connected in the camera housing 62 by bolts, and the camera base 66 is connected with the camera 65 by bolts; and the bolts are used for connection, so that the fixing is convenient.

One end of the camera 65 is a lens 651, and one end of the lens 651 is positioned in the inner ring of the annular plate 63; two aviation plugs are arranged at the other end of the camera 65, are respectively embedded into two through holes of the camera shell 62 and are electrically connected with the main control box 3; the adoption of aviation plug is convenient for the circuit connection of the camera 65 and the main control box 3.

Although specific embodiments of the utility model have been described in detail with reference to the accompanying drawings, it should not be construed as limiting the scope of protection of the present patent. Various modifications and variations which may be made by those skilled in the art without the creative effort are within the scope of the patent described in the claims.

Claims (10)

1. The modeling monitoring equipment of outdoor granary, its characterized in that: including fixing installing support (1) on the granary, the one end of installing support (1) is equipped with the U template, the opening both sides of U template are through butterfly screw (7) and swivel mount (5) threaded connection, the upper end and the radar subassembly (4) fixed connection of swivel mount (5), the lower extreme and the camera subassembly (6) swivelling joint of swivel mount (5), radar subassembly (4) with camera subassembly (6) all are connected with master control box (3) electricity.

2. The outdoor grain bin modeling monitoring device of claim 1, wherein: the mounting bracket (1) is L-shaped, a rain shielding eave (2) is fixed on one end, far away from the U-shaped plate, of the mounting bracket (1), and the main control box (3) is located below the rain shielding eave (2) and fixed on the mounting bracket (1).

3. The outdoor grain bin modeling monitoring device of claim 1, wherein: the radar assembly (4) comprises a mounting shell (41), a laser radar (42) is mounted in the mounting shell (41), and a bottom plate of the mounting shell (41) is fixedly connected with the rotating frame (5).

4. A modeling monitoring device for an outdoor grain bin according to claim 3, wherein: the mounting shell (41) is cuboid, one end of the mounting shell (41) is open, and the mounting shell (41) is provided with an outer eave at the opening.

5. The outdoor barn modeling monitoring apparatus of claim 4, wherein: the laser radar (42) is connected with the mounting shell (41) through bolts, one end of the laser radar (42) is a transmitting end, and the transmitting end is positioned at the opening of the mounting shell (41); two aviation plugs are arranged at the other end of the laser radar (42), are respectively embedded into two through holes of the mounting shell (41), and are electrically connected with the main control box (3).

6. The outdoor grain bin modeling monitoring device of claim 1, wherein: the rotating frame (5) comprises a cylinder (53) with two open ends, the ring surface of the cylinder (53) is in threaded connection with the butterfly screw (7), a fixing plate (51) is arranged at the top of the cylinder (53), one surface of the fixing plate (51) is in bolt connection with the radar component (4), the other surface of the fixing plate (51) is fixedly connected with a gear motor (52), and the gear motor (52) is in rotary connection with the camera component (6).

7. The outdoor grain bin modeling monitoring device of claim 6, wherein: the camera assembly (6) comprises a camera support (61), the top of the camera support (61) is fixedly connected with the output end of the gear motor (52), two sides of the camera support (61) are in threaded connection with a camera shell (62) through butterfly screws (7), and a camera (65) is fixed in the camera shell (62).

8. The outdoor grain bin modeling monitoring device of claim 7, wherein: the camera shell (62) is ellipsoidal, one end of the camera shell (62) is provided with an opening, the camera shell (62) is provided with an annular plate (63) at the opening, and a plurality of light supplementing lamps (64) are uniformly distributed on the annular plate (63).

9. The outdoor grain bin modeling monitoring device of claim 8, wherein: the camera is characterized in that a camera base (66) is connected in the camera shell (62) through bolts, and the camera base (66) is connected with the camera (65) through bolts.

10. The outdoor grain bin modeling monitoring device of claim 8, wherein: one end of the camera (65) is a lens (651), and one end of the lens (651) is positioned in the inner ring of the annular plate (63); two aviation plugs are arranged at the other end of the camera (65), are respectively embedded into two through holes of the camera shell (62), and are electrically connected with the main control box (3).