CN110475057B - Video monitoring realization method and monitoring equipment - Google Patents

Abstract

The invention belongs to the technical field of video monitoring, and particularly relates to a video monitoring realization method and a video monitoring device.

Description

Video monitoring realization method and monitoring equipment

Technical Field

The invention belongs to the technical field of video monitoring, and particularly relates to a video monitoring implementation method and monitoring equipment.

Background

The most important equipment in the video monitoring equipment is a camera which can be divided into a network digital camera and an analog camera and can be used for collecting front-end video image signals, the video monitoring system is a comprehensive system with stronger precaution capacity, and the video monitoring is widely applied to many occasions due to intuition, accuracy, timeliness and rich information content; in recent years, with the rapid development of computers, networks, image processing and transmission technologies, video monitoring technologies have been developed greatly, and the application of network cameras is becoming more and more widespread.

When shooting the life habit of some wild animals, often will pretend the camera, if when shooing the daily life habit of polar bear, need use pretend ball camera, nevertheless after some pretend ball cameras are discovered, the camera shell often receives the trampling of polar bear and destroys, leads to the fitting surface and the connection face of shell to suffer destruction easily to cause the damage to the camera that is located inside, seriously influence the shooting effect and the life of camera.

In view of this, the invention provides a method for implementing video monitoring and a monitoring device, which improve the shooting effect and the service life of a camera by enhancing the locking force inside the camera shell.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a video monitoring realization method and monitoring equipment, which improve the shooting effect and the service life of a camera by strengthening the locking force in the camera shell.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to monitoring equipment for video monitoring, which comprises a camera, a wireless network bridge and a shell, wherein the camera is arranged in the shell; the shell consists of a first hemispherical shell and a second hemispherical shell which have the same diameter, cavities with the same size are arranged in the first hemispherical shell and the second hemispherical shell, a first central rod is arranged in the middle of the first hemispherical shell, a first arc-shaped hook is arranged at the outer end of the first central rod, a support plate is fixedly connected to the middle of the first central rod, a group of arc-shaped support rods are annularly distributed and connected on the side surface of the support plate, and the other ends of the support rods are connected with the inner surface of the first hemispherical shell; the middle part of the second hemispherical shell is provided with a second central rod, the outer end of the second central rod is provided with a second arc-shaped hook matched with the first central rod, the second arc-shaped hook is lower than the opening end face of the second hemispherical shell, the middle part of the second central rod is fixedly connected with a supporting plate which is the same as that on the first central rod, the side surface of the supporting plate is also connected with a group of supporting rods, the other end of each supporting rod is connected with the inner surface of the second hemispherical shell, the surface of the second hemispherical shell at the end part of the second central rod is provided with a first notch, an elastic layer is arranged in the first notch, and the outer surfaces of the first hemispherical shell and the second hemispherical shell are all; when the device works, the elastic layer on the top surface of the second hemispherical shell is extruded, the inner end of the second central rod on one side of the elastic layer is simultaneously extruded, so that the second central rod moves towards the opening end surface of the second hemispherical shell, when the second arc-shaped hook at the outer end of the second central rod extends to the opening end surface of the second hemispherical shell, the second arc-shaped hook is hung on the first arc-shaped hook at the outer end of the first central rod, so that the first hemispherical shell and the second hemispherical shell are assembled into an integral shell, the first central rod and the second central rod are mutually tensioned, the first central rod and the second central rod move towards the middle part of the shell under the action of mutual tension, so that the support rods on the two rods are respectively tensioned towards the middle part of the shell, the first shell and the second shell which are connected are tensioned towards the middle part of the shell by the support rods, the locking force for assembling the first hemispherical shell and the second hemispherical shell is enhanced, and the fracture damage caused by the impact of a polar bear on the matching surface of, thereby great improvement the shell to the protectiveness of camera, and the snow white that the shell surface set up has strengthened the disguise nature of shell, greatly reduced the probability that the shell was discovered and was destroyed.

Preferably, a group of clamping plates with arc-shaped cross sections are uniformly distributed on the opening end surface of the first hemispherical shell, a group of clamping grooves with arc-shaped cross sections are uniformly distributed in the opening end surface of the second hemispherical shell, the clamping grooves circumferentially extend at the opening end surface by taking the spherical center of the second hemispherical shell as the center, the opening depth of the clamping grooves in the extending direction is shallow and deep, and the clamping plates are positioned at the inlets of the clamping grooves in the extending direction; when the clamping device works, when the first hemispherical shell and the second hemispherical shell are assembled in a closed mode, the first hemispherical shell is connected with the second hemispherical shell in a rotating mode, the first hemispherical shell rotates to drive the clamping plates at the opening end faces to rotate simultaneously, the clamping plates are gradually screwed into the tail ends of the extending directions of the clamping grooves from the inlets of the clamping grooves, in the process of screwing the clamping plates into the clamping grooves, the opening depths of the clamping grooves are gradually increased, the clamping plates are gradually pressed into the clamping grooves, pressure is applied to the outer surfaces of the clamping plates by the side walls of the clamping grooves at the moment, the clamping plates are tightly locked in the clamping grooves, the end faces of the first hemispherical shell at the clamping plates and the end faces of the second hemispherical shell at the clamping grooves are tightly extruded together, and the locking force of the matching surfaces of the; and at hemisphere shell pivoted in-process No. one, bracing piece on hemisphere shell internal surface rotates thereupon, thereby make the bracing piece drive No. one well core rod rotate, drive No. two well core rods of connecting when well core rod rotates and twist reverse thereupon, make the bracing piece on No. two well core rods twist reverse thereupon, the bracing piece length growth pulling force grow when twisting, thereby make the bracing piece exert bigger straining force to the internal surface of hemisphere shell No. one and No. two hemisphere shells, the locking force of hemisphere shell and No. two hemisphere shell fitting surfaces has been strengthened, reduce the harm of breaking that the fitting surface of hemisphere shell and No. two hemisphere shells takes place when receiving the striking.

Preferably, a second notch is formed in the top of the first hemispherical shell, an elastic ring is installed in the second notch, a support ring is installed inside the elastic ring, the tail of the camera penetrates through the support ring and is inserted into the first hemispherical shell, the support ring is used for supporting and fixing the head of the camera, a group of connecting ropes is connected to the inner surface of the elastic ring, and the other end of each connecting rope is connected with the inner end of the first central rod; during operation, pass the lock ring with camera tail and insert inside the hemisphere shell No. one, at the in-process of hemisphere shell and hemisphere shell assembly No. two, No. one when center rod moves to hemisphere shell opening terminal surface, a center rod is taut to connecting the rope, and drive the connecting rope when center rod is rotatory and twist into the twist form, make the connecting rope take-up to the elastic ring of the other end, the elastic ring atress compresses tightly the lock ring that is located its inside this moment, thereby make the elastic ring closely wrap up outside the lock ring, play fixed effect to the lock ring, thereby indirectly play fixed effect to the inside camera head of lock ring, make the camera have more stability at the in-process of work.

Preferably, an arc-shaped elastic plate is arranged on the inner surface of the top of the first hemispherical shell, a fixing groove is formed in the inner surface of the middle of the elastic plate, and the outer surface of the middle of the elastic plate is connected with the inner end of the first center rod; during operation, insert a hemisphere shell when inside at the camera afterbody, the afterbody of camera this moment inserts in the fixed slot of elastic plate, when well core rod when moving to hemisphere shell opening terminal surface No. one, a core rod is taut to the elastic plate middle part, make the elastic plate take place to warp to the in-process of hemisphere shell opening terminal surface direction motion No. one, when the elastic plate middle part takes place to warp, the elastic plate side of fixed slot both sides extrudees the camera surface that is located wherein in the face of the elastic plate side, play the effect of fixed camera afterbody, the stability of camera work has been strengthened, on the other hand elastic plate is to the in-process of hemisphere shell opening terminal surface direction motion No. one, the camera in the elastic plate pulling fixed slot is to shell inside motion No. one, make the camera more convenient and fast install inside hemisphere shell No. one.

Preferably, the first central rod and the second central rod are both made of a medium acrylonitrile rubber material, and the first hemispherical shell and the second hemispherical shell are made of a PP plastic material; during operation, half spherical shell and No. two half spherical shells meet cold contraction under the arctic cold environment, strengthen the locking force of half spherical shell and No. two half spherical shell fitting surfaces, and the shrink proportion of center rod and No. two center rods is greater than the shrink proportion of half spherical shell and No. two half spherical shells, make center rod and No. two center rods shrink for half spherical shell and No. two half spherical shells, strengthen the straining of half spherical shell and No. two half spherical shell internal surfaces when center rod and No. two center rods shrink, and then strengthen the locking force of half spherical shell and No. two half spherical shell fitting surfaces, further reduce the fracture harm that the shell fitting surface takes place when receiving the striking.

Preferably, the periphery of the matching surface of the first hemispherical shell and the second hemispherical shell is set to be a smooth surface, and the rest spherical surfaces are set to be rough surfaces; during operation, when the shell was found to the polar bear, the polar bear claw was put in the fitting surface department of a hemisphere shell and No. two hemisphere shells, and this regional smooth surface makes the claw of polar bear slide to on the rough surface of both sides to reduce the polar bear and directly extrude destruction to the fitting surface department of a hemisphere shell and No. two hemisphere shells, further strengthened the protectiveness of shell to the camera.

The invention relates to a method for realizing video monitoring, which comprises the following steps:

s1: assembling and locking a first hemispherical shell and a second hemispherical shell to form a shell for mounting a camera, mounting the camera inside the shell, and enabling the head of the camera to be flush with the outer surface of the shell;

s2: after the camera is arranged inside the shell in the S1, workers fully understand and investigate the polar bear moving area and select the best shooting placement point;

s3: after the best shooting placement point is selected in S2, the housing of the camera is placed at the specific placement point, and the head of the camera is aligned with the shooting area;

s4: after the camera housing is placed in S3, the camera is opened, and the captured video is transmitted to the network terminal through the wireless bridge inside the camera.

The invention has the technical effects and advantages that:

1. the camera shell comprises a first hemispherical shell and a second hemispherical shell, a first central rod and a second central rod are respectively arranged in the first hemispherical shell and the second hemispherical shell, and the first hemispherical shell and the second hemispherical shell are tightly matched in a mode of connecting the first central rod and the second central rod, so that the locking force in the shell is enhanced, and the fracture damage of the matching surface of the shell when the shell is impacted is reduced.

2. According to the camera, the clamping plate is arranged on the first hemispherical shell, the clamping groove matched with the first hemispherical shell is formed in the second hemispherical shell, the first hemispherical shell drives the clamping plate to be screwed into the clamping groove when rotating, and the locking force of the matching surface of the first hemispherical shell and the second hemispherical shell is increased through screwing of the clamping plate and the clamping groove, so that the protection capability of the shell on the camera is enhanced.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a cross-sectional view of a first hemispherical shell of the present invention;

FIG. 2 is a cross-sectional view of a second hemispherical shell of the present invention;

FIG. 3 is a cross-sectional view of the first and second hemispherical shells of the present invention after assembly;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is a schematic view of the engagement of a card board and a card slot of the present invention;

FIG. 6 is a diagram of the steps of the method;

in the figure: camera 1, hemisphere shell 4, No. one central rod 41, No. one curved hook 411, backup pad 42, bracing piece 43, cardboard 44, No. two notches 45, elastic ring 46, support ring 47, connect rope 48, elastic plate 49, fixed slot 491, hemisphere shell 5, No. two central rods 51, No. two curved hooks 52, No. one notch 53, elastic layer 54, draw-in groove 55, cavity 6.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 6, the monitoring device for video monitoring according to the present invention includes a camera 1, a wireless network bridge and a housing, wherein the camera 1 is installed inside the housing, the wireless network bridge is installed inside the camera 1, and the wireless network bridge is used for transmitting a video of the camera 1; the outer shell consists of a first hemispherical shell 4 and a second hemispherical shell 5 which have the same diameter, cavities 6 which are the same in size are arranged in the first hemispherical shell 4 and the second hemispherical shell 5, a first central rod 41 is arranged in the middle of the first hemispherical shell 4, a first arc-shaped hook 411 is arranged at the outer end of the first central rod 41, a support plate 42 is fixedly connected to the middle of the first central rod 41, a group of arc-shaped support rods 43 are annularly distributed and connected on the side surface of the support plate 42, and the other ends of the support rods 43 are connected with the inner surface of the first hemispherical shell 4; the middle part of the second hemispherical shell 5 is provided with a second central rod 51, the outer end of the second central rod 51 is provided with a second arc-shaped hook 52 matched with the first central rod 41, the second arc-shaped hook 52 is lower than the opening end surface of the second hemispherical shell 5, the middle part of the second central rod 51 is fixedly connected with a support plate 42 which is the same as that of the first central rod 41, the side surface of the support plate 42 is also connected with a group of support rods 43, the other end of each support rod 43 is connected with the inner surface of the second hemispherical shell 5, the surface of the second hemispherical shell 5 at the end part of the second central rod 51 is provided with a first notch 53, the first notch 53 is internally provided with an elastic layer 54, and the outer surfaces of the first hemispherical shell 4 and the second hemispherical shell 5 are; when the device works, the elastic layer 54 on the top surface of the second hemispherical shell 5 is extruded, so that the inner end of the second central rod 51 at one side of the elastic layer 54 is simultaneously extruded, the second central rod 51 moves towards the opening end surface of the second hemispherical shell 5, when the second arc-shaped hook 52 at the outer end of the second central rod 51 extends to the opening end surface of the second hemispherical shell 5, the second arc-shaped hook 52 is hung on the first arc-shaped hook 411 at the outer end of the first central rod 41, so that the first hemispherical shell 4 and the second hemispherical shell 5 are assembled into an integral shell, the first central rod 41 and the second central rod 51 are mutually tensioned, the first central rod 41 and the second central rod 51 move towards the middle part of the shell under the action of mutual tension, so as to drive the supporting rods 43 on the two rods to be respectively tensioned towards the middle part of the shell, so that the supporting rods 43 tension the first hemispherical shell 4 and the second hemispherical shell 5 which are connected, and strengthen the locking force for assembling the first hemispherical shell 4 and the second hemispherical, reduce the breakage damage that the striking of polar bear to No. one hemisphere shell 4 and No. two hemisphere shell 5 fitting surfaces caused to great improvement the shell to camera 1's protectiveness, and the snow white that the shell surface set up has strengthened the disguise of shell, greatly reduced the shell discover and the probability of destruction.

As an embodiment of the present invention, a set of clamping plates 44 with an arc-shaped cross section are uniformly distributed on the opening end surface of the first hemispherical shell 4, a set of clamping grooves 55 with an arc-shaped cross section are uniformly distributed in the opening end surface of the second hemispherical shell 5, the clamping grooves 55 circumferentially extend at the opening end surface by taking the spherical center of the second hemispherical shell 5 as the center, the opening depth of the clamping grooves 55 in the extending direction is shallow and deep, and the clamping plates 44 are located at the inlet of the clamping grooves 55 in the extending direction; when the first hemispherical shell 4 and the second hemispherical shell 5 are assembled in a closed mode, the first hemispherical shell 4 is screwed relative to the second hemispherical shell 5, the first hemispherical shell 4 rotates to drive the clamping plate 44 at the opening end face to rotate simultaneously, the clamping plate 44 is gradually screwed into the tail end of the extending direction of the clamping groove 55 from the inlet of the clamping groove 55, in the process that the clamping plate 44 is screwed into the clamping groove 55, the opening depth of the clamping groove 55 is gradually increased, the clamping plate 44 is gradually pressed into the clamping groove 55, and at the moment, the side wall of the clamping groove 55 exerts pressure on the outer surface of the clamping plate 44, so that the clamping plate 44 is tightly locked in the clamping groove 55, the end face of the first hemispherical shell 4 at the clamping plate 44 and the end face of the second hemispherical shell 5 at the clamping groove 55 are tightly extruded together, and the locking force of the matching face of the first hemispherical shell 4 and the second; and at hemisphere shell 4 pivoted in-process, bracing piece 43 on the hemisphere shell 4 internal surface rotates thereupon, thereby make bracing piece 43 drive center rod 41 and rotate in one, center rod 41 drives No. two center rod 51 of connecting when rotating and twists reverse, make bracing piece 43 on center rod 51 twist reverse thereupon in two, bracing piece 43 increases the pulling force grow during the torsion, thereby make bracing piece 43 exert bigger straining force to the internal surface of hemisphere shell 4 and No. two hemisphere shells 5, the locking force of hemisphere shell 4 and No. two hemisphere shell 5 fitting surfaces has been strengthened, reduce the fracture harm that the fitting surface of hemisphere shell 4 and No. two hemisphere shells 5 takes place when receiving the striking.

As an embodiment of the invention, a second notch 45 is formed in the top of the first hemispherical shell 4, an elastic ring 46 is installed in the second notch 45, a support ring 47 is installed inside the elastic ring 46, the tail of the camera 1 penetrates through the support ring 47 and is inserted into the first hemispherical shell 4, the support ring 47 is used for supporting and fixing the head of the camera 1, a group of connecting ropes 48 is connected to the inner surface of the elastic ring 46, and the other end of the connecting ropes 48 is connected with the inner end of the first central rod 41; during operation, pass the support ring 47 with camera 1 afterbody and insert inside hemisphere shell 4, at the in-process of hemisphere shell 4 with the assembly of No. two hemisphere shells 5, when central rod 41 moves to hemisphere shell 4 opening end face, central rod 41 strains connecting rope 48 No. one, and central rod 41 is rotatory drives connecting rope 48 and twists into the twist form, make connecting rope 48 strain to the elastic ring 46 of the other end, elastic ring 46 atress compresses tightly the support ring 47 that is located its inside this moment, thereby make elastic ring 46 closely wrap up in support ring 47 outside, play fixed effect to support ring 47, thereby indirectly play fixed effect to the camera 1 head of support ring 47 inside, make camera 1 have more stability at the in-process of work.

As an embodiment of the present invention, an arc-shaped elastic plate 49 is disposed on the inner surface of the top of the first hemispherical shell 4, a fixing groove 491 is disposed on the inner surface of the middle portion of the elastic plate 49, and the outer surface of the middle portion of the elastic plate 49 is connected to the inner end of the first central rod 41; when the camera 1 is inserted into the first hemispherical shell 4 during operation, the tail part of the camera 1 is inserted into the fixing groove 491 of the elastic plate 49, when the first central rod 41 moves towards the opening end surface of the first hemispherical shell 4, the first central rod 41 tensions the middle part of the elastic plate 49, so that the elastic plate 49 is deformed in the curved direction in the process of moving towards the opening end surface of the first hemispherical shell 4, when the middle part of the elastic plate 49 is deformed in the curved direction on one hand, the side surfaces of the elastic plates 49 at the two sides of the fixing groove 491 extrude the outer surface of the camera 1 positioned therein, which plays a role of fixing the tail part of the camera 1, enhances the working stability of the camera 1, on the other hand, in the process that the elastic plates 49 move towards the opening end surface direction of the first hemispherical shell 4, the elastic plate 49 pulls the camera 1 in the fixing groove 491 to move towards the inside of the first hemispherical shell 4, so that the camera 1 can be more conveniently and quickly installed in the first hemispherical shell 4.

As an embodiment of the present invention, the first central rod 41 and the second central rod 51 are both made of a medium acrylonitrile rubber material, and the first hemispherical shell 4 and the second hemispherical shell 5 are made of a PP plastic material; during operation, No. one hemisphere shell 4 and No. two hemisphere shells 5 meet cold contraction under the arctic cold environment, strengthen the locking force of No. one hemisphere shell 4 and No. two hemisphere shell 5 fitting surface, and the contraction ratio of No. one central rod 41 and No. two central rods 51 is greater than the contraction ratio of No. one hemisphere shell 4 and No. two hemisphere shells 5, make No. one central rod 41 and No. two central rods 51 contract for No. one hemisphere shell 4 and No. two hemisphere shells 5, strengthen the straining of No. one hemisphere shell 4 and No. two hemisphere shell 5 internal surface when No. one central rod 41 and No. two central rods 51 contract, and then strengthen the locking force of No. one hemisphere shell 4 and No. two hemisphere shell 5 fitting surface, further reduce the shell fitting surface and be in the fracture harm that takes place when receiving the striking.

As an embodiment of the invention, the periphery of the matching surface of the first hemispherical shell 4 and the second hemispherical shell 5 is set to be a smooth surface, and the rest spherical surfaces are set to be rough surfaces; during operation, when the shell was found to the polar bear, the polar bear claw was put in the fitting surface department of a hemisphere shell 4 and No. two hemisphere shells 5, and this regional smooth surface makes the claw of polar bear slide to on the rough surface of both sides to reduce the polar bear and directly extrude destruction to the fitting surface department of a hemisphere shell 4 and No. two hemisphere shells 5, further strengthened the protectiveness of shell to camera 1.

The invention relates to a method for realizing video monitoring, which comprises the following steps:

s1: assembling and locking a first hemispherical shell and a second hemispherical shell to form a shell for mounting a camera, mounting the camera inside the shell, and enabling the head of the camera to be flush with the outer surface of the shell;

s2: after the camera is arranged inside the shell in the S1, workers fully understand and investigate the polar bear moving area and select the best shooting placement point;

s3: after the best shooting placement point is selected in S2, the housing of the camera is placed at the specific placement point, and the head of the camera is aligned with the shooting area;

s4: after the camera housing is placed in S3, the camera is opened, and the captured video is transmitted to the network terminal through the wireless bridge inside the camera.

When the device works, the elastic layer 54 on the top surface of the second hemispherical shell 5 is extruded, so that the inner end of the second central rod 51 at one side of the elastic layer 54 is simultaneously extruded, the second central rod 51 moves towards the opening end surface of the second hemispherical shell 5, when the second arc-shaped hook 52 at the outer end of the second central rod 51 extends to the opening end surface of the second hemispherical shell 5, the second arc-shaped hook 52 is hung on the first arc-shaped hook 411 at the outer end of the first central rod 41, so that the first hemispherical shell 4 and the second hemispherical shell 5 are assembled into an integral shell, the first central rod 41 and the second central rod 51 are mutually tensioned, the first central rod 41 and the second central rod 51 move towards the middle part of the shell under the action of mutual tension, so as to drive the supporting rods 43 on the two rods to be respectively tensioned towards the middle part of the shell, so that the supporting rods 43 tension the first hemispherical shell 4 and the second hemispherical shell 5 which are connected, and strengthen the locking force for assembling the first hemispherical shell 4 and the second hemispherical, reduce the breakage damage that the striking of polar bear to No. one hemisphere shell 4 and No. two hemisphere shell 5 fitting surfaces caused to great improvement the shell to camera 1's protectiveness, and the snow white that the shell surface set up has strengthened the disguise of shell, greatly reduced the shell discover and the probability of destruction.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The monitoring equipment for video monitoring comprises a camera (1), a wireless network bridge and a shell, wherein the camera (1) is installed inside the shell, the wireless network bridge is installed inside the camera (1), and the wireless network bridge is used for transmitting videos of the camera (1); the method is characterized in that: the shell consists of a first hemispherical shell (4) and a second hemispherical shell (5) which have the same diameter, cavities (6) with the same size are arranged in the first hemispherical shell (4) and the second hemispherical shell (5), a first central rod (41) is arranged in the middle of the first hemispherical shell (4), a first arc-shaped hook (411) is arranged at the outer end of the first central rod (41), a supporting plate (42) is fixedly connected to the middle of the first central rod (41), a group of arc-shaped supporting rods (43) are annularly distributed and connected on the side surface of the supporting plate (42), and the other ends of the supporting rods (43) are connected with the inner surface of the first hemispherical shell (4); no. two hemisphere shells (5) middle parts are equipped with No. two well core rods (51), No. two well core rods (51) outer end is provided with No. two arc hook (52) of core rod (41) matched with in one, No. two arc hook (52) are less than No. two hemisphere shell (5) opening terminal surface, No. two well core rods (51) middle part has linked firmly backup pad (42) the same with on No. one well core rod (41), and this backup pad (42) side surface is connected with a set of bracing piece (43) equally, and this bracing piece (43) other end links to each other with No. two hemisphere shell (5) internal surface, No. two hemisphere shell (5) surfaces of core rod (51) tip have seted up No. one notch (53), be equipped with elastic layer (54) in notch (53), the surface of No. one hemisphere shell (4) and No. two hemisphere shells (5) all sets to snow white.

2. A video surveillance monitoring device according to claim 1, characterized in that: a set of clamping plates (44) with arc-shaped cross sections are uniformly arranged on the opening end face of the first hemispherical shell (4), a set of clamping grooves (55) with arc-shaped cross sections are uniformly arranged in the opening end face of the second hemispherical shell (5), the clamping grooves (55) circumferentially extend at the opening end face by taking the spherical center of the second hemispherical shell (5) as the center, the opening depth of the extending direction of the clamping grooves (55) is shallow and deep, and the clamping plates (44) are located at the inlets of the extending direction of the clamping grooves (55).

3. A video surveillance monitoring device according to claim 2, characterized in that: the top of a hemisphere shell (4) is provided with No. two notches (45), install elastic ring (46) in No. two notches (45), elastic ring (46) internally mounted has lock ring (47), camera (1) afterbody passes lock ring (47) and inserts hemisphere shell (4) inside, lock ring (47) are used for the support and the fixing of camera (1) head, elastic ring (46) internal surface is connected with a set of connecting rope (48), connecting rope (48) other end links to each other with a well core rod (41) inner.

4. A video surveillance monitoring device according to claim 3, characterized in that: an arc-shaped elastic plate (49) is arranged on the inner surface of the top of the first hemispherical shell (4), a fixing groove (491) is arranged on the inner surface of the middle of the elastic plate (49), and the outer surface of the middle of the elastic plate (49) is connected with the inner end of the first central rod (41).

5. A video surveillance monitoring device according to claim 1, characterized in that: the first central rod (41) and the second central rod (51) are both made of medium acrylonitrile rubber materials, and the first hemispherical shell (4) and the second hemispherical shell (5) are made of PP plastic materials.

6. A video surveillance monitoring device according to claim 1, characterized in that: the periphery of the matching surface of the first hemispherical shell (4) and the second hemispherical shell (5) is provided with a smooth surface, and the rest spherical surfaces are provided with rough surfaces.

7. A method for implementing video surveillance, the method being suitable for use in a surveillance device as claimed in any one of claims 1 to 6, the method comprising the steps of:

s1: assembling and locking a first hemispherical shell and a second hemispherical shell to form a shell for mounting a camera, mounting the camera inside the shell, and enabling the head of the camera to be flush with the outer surface of the shell;

s2: after the camera is arranged inside the shell in the S1, workers fully understand and investigate the polar bear moving area and select the best shooting placement point;

s3: after the best shooting placement point is selected in S2, the housing of the camera is placed at the specific placement point, and the head of the camera is aligned with the shooting area;

s4: after the camera housing is placed in S3, the camera is opened, and the captured video is transmitted to the network terminal through the wireless bridge inside the camera.

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