CN111701897A - Novel monitoring camera - Google Patents

Abstract

The invention discloses a novel monitoring camera, which structurally comprises a sunshade cover, a linking nut, a fixed seat, a support frame and a camera body, wherein the sunshade cover is arranged at the top of the camera body, the fixed seat is welded with the support frame, the camera body is hinged with the support frame through the linking nut, a mirror surface can slide inwards along a frame body through the impact force of moths, thereby the swinging rods at the two sides can swing outwards along the connecting block and can push the swinging rods to swing repeatedly through the elastic sheet when the mirror surface is reset, thereby enabling the impact ball on the swinging rod to repeatedly strike the mirror surface, so that the vibration and the sound generated by the impact ball striking the mirror surface can drive the moths, the lower swing plate can be pushed to slightly swing through the vibration waves generated by the impact balls impacting the two sides of the mirror surface, therefore, the pressurized ball inside the lower swing plate can roll forwards, and the moth powder on the outer surface of the mirror surface can be erased by the erasing block on the lower swing plate.

Description

Novel monitoring camera

Technical Field

The invention relates to the field of security, in particular to a novel monitoring camera.

Background

The monitoring camera is mainly used for shooting and monitoring a specific area, can shoot the specific area twenty-four hours, and can store the shot video for a long time, so that a user can look up the video, and the monitoring camera is common equipment in life, and based on the description, the inventor finds that the existing novel monitoring camera mainly has the following defects, for example:

because the night vision lamp can be opened automatically to surveillance camera machine when night, and the insect that appears and disappears at night such as moth all has phototaxis, collides the camera lens of surveillance camera machine easily, stops the surface of surveillance camera machine even, leads to causing the condition of sheltering from to surveillance camera machine's the scope of making a video recording.

Disclosure of Invention

In view of the above problems, the present invention provides a novel monitoring camera.

In order to achieve the purpose, the invention is realized by the following technical scheme: a novel monitoring camera structurally comprises a sun-shading cover, a connecting nut, a fixed seat, a supporting frame and a camera body, wherein the sun-shading cover is installed at the top of the camera body, the fixed seat is welded with the supporting frame, and the camera body is hinged with the supporting frame through the connecting nut; the organism includes sliding block, night-vision lamp, framework, camera, guide block, resilience piece, striking mechanism, mirror surface, protection face, the one end and the mirror surface of sliding block are set firmly and are connected, and the other end and the guide block activity block of sliding block, the night-vision lamp is connected with the framework electricity, the camera is installed in the left side position of framework, the guide block is connected with the framework, it is fixed in between sliding block and the guide block to return the shell fragment, striking mechanism is equipped with two, and laminates with the upper and lower both sides of mirror surface respectively, mirror surface and framework clearance fit, protection face and framework structure as an organic whole.

As a further optimization of the invention, the knocking mechanism comprises an outer frame, an impact ball, elastic pieces, a swinging rod and connecting blocks, wherein the impact ball is fixedly connected with the swinging rod in an embedded manner, the elastic pieces are installed between the swinging rod and the inner wall of the outer frame, the swinging rod is hinged with the connecting blocks, the connecting blocks and the outer frame are of an integrated structure, and the two swinging rods are uniformly and symmetrically distributed on two sides of the connecting blocks.

As a further optimization of the invention, the striking ball comprises a movable strip, two guide rails, a force-bearing surface, a first expansion plate, a second expansion plate and a boosting frame, wherein the movable strip is movably clamped with the guide rails, the two guide rails are arranged, the guide rails at the upper end are connected with the second expansion plate, the guide rails at the lower end are fixed on the first expansion plate, the force-bearing surface is fixedly embedded between the first expansion plate and the second expansion plate, the first expansion plate is hinged with the second expansion plate, the boosting frame and the force-bearing surface are in an integrated structure, and the boosting frame is in an arc structure.

As a further optimization of the invention, the stress surface comprises a reset sheet, a plate surface and two extending blocks, wherein the reset sheet is fixedly embedded in the extending blocks, the extending blocks are movably clamped with the plate surface, and the two extending blocks are uniformly and symmetrically distributed in the plate surface.

As a further optimization of the invention, the mirror surface comprises a mirror body, a lower swinging plate, a rebound ring, a force transmission block and a pressurizing ball, wherein the lower swinging plate is hinged with the mirror body through the rebound ring, the force transmission block and the mirror body are of an integrated structure, the pressurizing ball is arranged in the inner position of the lower swinging plate, and the force transmission block is made of alloy steel with higher density.

As a further optimization of the invention, the lower swing plate comprises a bearing block, an ascending block, a linkage plate, a deformation sheet and an erasing block, wherein the ascending block is in clearance fit with the bearing block, the linkage plate is movably clamped with the ascending block, the deformation sheet is fixedly connected with the linkage plate in an embedded manner, the erasing block is arranged at the bottom of the deformation sheet, and the erasing block is made of polyester sponge with low density.

As a further optimization of the invention, the receiving block comprises a water permeable port, a shell, a plugging block, a lifting rod and connecting rods, the water permeable port and the shell are of an integrated structure, the plugging block is fixedly connected with the lifting rod in an embedded manner, one end of each connecting rod is movably clamped with the lifting rod, the connecting rods are connected with the shell, and the four water permeable ports are uniformly distributed on the top of the shell in parallel.

The invention has the following beneficial effects:

1. when the moth strikes the mirror surface on the organism, through the impact of moth, can make the mirror surface along the framework inwards slide to make the mirror surface can extrude rocking lever on the knocking mechanism to both sides, so make the rocking lever on both sides can expand along linking piece outwards swing, and when the mirror surface resets, can promote the rocking lever through the elastic sheet and swing repeatedly, thereby make the impact ball on the rocking lever can strike the mirror surface repeatedly, so make the impact ball strike vibration and the sound that the mirror surface produced can drive the moth.

2. Through the shock wave that striking ball striking mirror surface both sides produced, can promote the lower hem board and carry out the pendulum a little to make the inside pressure boost ball of lower hem board can roll forward, so make forward rolling pressure boost ball can promote the lower hem board through the gravity of self and continue the downward swing, so that wipe the piece on the lower hem board and can wipe the moth powder of mirror surface external surface.

Drawings

Fig. 1 is a schematic structural diagram of a novel monitoring camera according to the present invention.

Fig. 2 is a schematic structural diagram of a partial side view section of the machine body of the present invention.

Fig. 3 is a schematic structural view of a front section of the knocking mechanism according to the present invention.

Fig. 4 is a schematic structural view of an impact ball in front section in accordance with the present invention.

FIG. 5 is a schematic structural diagram of a front view cross section of a force-bearing surface of the present invention.

FIG. 6 is a front view of the mirror of the present invention.

FIG. 7 is a partial side view of the bottom swing plate of the present invention in a half-section configuration.

FIG. 8 is a schematic structural diagram of a side view cross section of the receiving block of the present invention.

In the figure: sunshade cover-1, connecting nut-2, fixing seat-3, supporting frame-4, machine body-5, sliding block-51, night vision lamp-52, frame-53, camera-54, guide block-55, rebound sheet-56, knocking mechanism-57, mirror surface-58, protective surface-59, outer frame-a 1, striking ball-a 2, elastic sheet-a 3, swinging rod-a 4, connecting block-a 5, movable strip-a 21, guide strip-a 22, stressed surface-a 23, first unfolding plate-a 35 24, second unfolding plate-a 25, boosting frame-a 26, resetting sheet-b 1, plate surface-b 2, extending block-b 3, mirror body-c 1, lower swinging plate-c 2, rebound ring-c 3, force-c 4, boosting ball-c 5, The device comprises a bearing block-c 21, a rising block-c 22, a linkage plate-c 23, a deformation sheet-c 24, an erasing block-c 25, a water permeable port-d 1, a shell-d 2, a blocking block-d 3, a lifting rod-d 4 and a connecting rod-d 5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides a novel monitoring camera, which structurally comprises a sun-shading cover 1, a linking nut 2, a fixed seat 3, a support frame 4 and a machine body 5, wherein the sun-shading cover 1 is arranged at the top position of the machine body 5, the fixed seat 3 is welded with the support frame 4, and the machine body 5 is hinged with the support frame 4 through the linking nut 2; the body 5 comprises a sliding block 51, a night vision lamp 52, a frame body 53, a camera 54, guide blocks 55, a return spring piece 56, a knocking mechanism 57, a mirror surface 58 and a protective surface 59, wherein one end of the sliding block 51 is fixedly connected with the mirror surface 58, the other end of the sliding block 51 is movably clamped with the guide blocks 55, the night vision lamp 52 is electrically connected with the frame body 53, the camera 54 is installed at the left side position of the frame body 53, the guide blocks 55 are connected with the frame body 53, the return spring piece 56 is fixed between the sliding block 51 and the guide blocks 55, the knocking mechanism 57 is provided with two parts which are respectively attached to the upper side and the lower side of the mirror surface 58, the mirror surface 58 is in clearance fit with the frame body 53, and the protective surface 59 and the frame body 53 are.

Wherein the knocking mechanism 57 comprises an outer frame a1, a knocking ball a2, an elastic sheet a3, a swinging rod a4 and an engaging block a5, the striking ball a2 is fixedly connected with the swinging rod a4, the elastic sheet a3 is arranged between the swinging rod a4 and the inner wall of the outer frame a1, the swing rod a4 is hinged with the joining block a5, the joining block a5 and the outer frame a1 are of an integrated structure, two swinging rods a4 are arranged and are evenly distributed symmetrically on two sides of the connecting block a5, through the impact force generated by the collision of the moth to the object, the object can generate extrusion force to the swinging rods a4 on the two sides in the inward contraction process, so that the swinging rod a4 can swing outwards along the connecting block a5, when the object is reset, the swinging rod a4 can repeatedly swing back and forth through the elastic sheet a3, so that the striking ball a2 on the swinging lever a4 can repeatedly make multiple turns to strike the side of the object.

Wherein the impact ball a2 comprises a movable bar a21, a guide rail bar a22, a force bearing surface a23, a first expansion plate a24, a second expansion plate a25 and a boosting frame a26, the movable bar a21 is movably clamped with the guide rail bar a22, two guide rail bars a22 are provided, and the guide rail bar a22 at the upper end is connected with the second spreader plate a25, the guide rail bar a22 at the lower end is fixed on the first spreader plate a24, the bearing surface a23 is embedded between the first expansion plate a24 and the second expansion plate a25, the first unfolding plate a24 is hinged with the second unfolding plate a25, the boosting frame a26 and the stress surface a23 are of an integrated structure, the boosting frame a26 is of an arc structure, when the boosting frame a26 strikes an object, the object generates a reverse thrust on the boosting frame a26, so that the second expansion plate a25 and the first expansion plate a24 can be expanded in a swinging way, since the booster frame a26 can be straightened, the force of the booster frame a26 hitting an object can be absorbed.

Wherein, stress surface a23 includes piece b1 that resets, face b2, stretches out piece b3, piece b1 that resets with stretch out piece b3 and inlay solid and be connected, stretch out piece b3 and face b2 activity block, it is equipped with two to stretch out piece b3, and even inside at face b2 is the symmetric distribution, when face b2 is flare-out, through the mechanism to the thrust that stretches out piece b3 and produce, can make and stretch out piece b3 along the outside roll-off of face b2, piece b1 that resets adopts the spring steel material that elasticity is stronger, can restore the back pulling and stretch out piece b3 and reset at face b 2.

The detailed use method and action of the embodiment are as follows:

in the invention, because the night-vision lamp 52 is automatically turned on by the machine body 5 at night, and insects such as moths and the like which appear or disappear at night have phototaxis, the insects are easy to collide with the mirror surface 58 on the machine body 5 and even stay on the outer surface of the mirror surface 58, so that the camera shooting range of the camera 54 is shielded, the problem can be effectively solved through the knocking mechanism 57 on the machine body 5, when the moths collide with the mirror surface 58 on the machine body 5, the mirror surface 58 can slide inwards along the guide block 55 under the matching of the sliding block 51 through the collision force of the moths, so that the mirror surface 58 can extrude the oscillating rod a4 on the knocking mechanism 57 towards two sides, the oscillating rods a4 at two sides can swing outwards along the connecting blocks a5, and when the mirror surface 58 slides inwards, the guard surface 59 can be extruded through the side surface of the mirror surface 58, so that the guard surface 59 can stretch along the diameter of the mirror surface 58, and the small moths can enter the machine body 5 through a gap between the frame body 53 and the mirror surface 58, and the sliding block 51 can be pushed forward by the resilient piece 56 to drive the mirror surface 58 to slide and reset, so that the resilient piece a3 can push the swinging rod a4 to swing repeatedly, the impact ball a2 on the swinging rod a4 can strike two sides of the mirror surface 58 repeatedly, so that the impact ball a2 can strike the mirror surface 58 to generate vibration and sound to drive the moths, the moths can be effectively prevented from staying on the outer surface of the mirror surface 58 to influence the shooting range of the camera 54, and when the impact ball a2 strikes the side surface of the mirror surface 58, the first expansion plate a24 and the bearing surface a23 can swing and expand along the central point by the counter thrust generated by the side surface of the mirror surface 58 when the impact ball a2 strikes, so that the bearing surface a23 can be pulled and expanded by the first expansion plate a24 and the second expansion plate a25, therefore, impact force generated when the impact ball a2 impacts the mirror surface 58 can be buffered, the situation that the impact force is too large when the impact ball a2 impacts the mirror surface 58 for the first time, so that the glass mirror surface 58 is broken is avoided, and when the force-bearing surface a23 is pulled and unfolded, the boosting frame a26 can abut against the outer surfaces of the first unfolding plate a24 and the second unfolding plate a25, so that the boosting frame a26 can push the extension block b3 outwards to slide out along the plate surface b2, so that the mirror surface 58 can generate sound downwards when the extension block b3 is knocked, and the situation that vibration and sound generated when the impact ball a2 impacts the mirror surface 58 due to too large power consumption after the impact ball a2 impacts the mirror surface 58 for multiple times is effectively avoided.

Example 2

As shown in fig. 6-8:

the mirror surface 58 comprises a mirror body c1, a lower swinging plate c2, a rebounding ring c3, a force transmission block c4 and a pressurizing ball c5, the lower swinging plate c2 is hinged to the mirror body c1 through the rebounding ring c3, the force transmission block c4 and the mirror body c1 are of an integrated structure, the pressurizing ball c5 is installed at the inner position of the lower swinging plate c2, the force transmission block c4 is made of alloy steel with high density, the lower swinging plate c2 can be slightly swung through thrust generated when an object impacts the left side and the right side of the mirror body c1, and the pressurizing ball c5 in the lower swinging plate c2 can roll forwards along the force of the mirror body, so that the lower swinging plate c2 can continuously swing downwards under the driving of the self gravity of the pressurizing ball c 5.

Wherein the lower swinging plate c2 comprises a bearing block c21, a rising block c22, a linkage plate c23, a deformation sheet c24 and an erasing block c25, the rising block c22 is in clearance fit with the bearing block c21, the linkage plate c23 is movably clamped with the rising block c22, the deformation sheet c24 is fixedly connected with the linkage plate c23, the erasing block c25 is arranged at the bottom of the deformation sheet c24, the erasing block c25 is made of polyester sponge with low density, when the mechanism is jointed and swung on an object, the reverse thrust generated by the friction of the object on the erasing block c25 can make the rising block c22 slide upwards along the receiving block c21, so that the bearing block c21 can push the linkage plate c23 to slide downwards along the rising block c22, and the linkage plate c23 can push the deformation sheet c24 to deform and unfold, so that the deformed and unfolded deformation sheet c24 can drive the erasing block c25 to deform and unfold until the bottom of the erasing block c25 is completely attached to the surface of the object.

The receiving block c21 comprises a water permeable port d1, a housing d2, a blocking block d3, a lifting rod d4 and a connecting rod d5, the water permeable port d1 and the housing d2 are of an integrated structure, the blocking block d3 is fixedly connected with the lifting rod d4 in an embedding mode, one end of the connecting rod d5 is movably clamped with the lifting rod d4, the connecting rod d5 is connected with the housing d2, four water permeable ports d1 are arranged, the four water permeable ports are uniformly distributed in parallel on the top of the housing d2, partial rainwater can be stored when the external rain falls through the water permeable port d1, and the blocking block d3 is pushed upwards through an object to ascend, so that the water in the housing d2 can flow into the object through a gap generated between the blocking block d3 and the housing d 2.

The detailed use method and action of the embodiment are as follows:

in the invention, because the wings of the moths carry a large amount of powder, when the moths impact the outer surface of the mirror surface 58, the powder is easy to remain on the outer surface of the mirror surface 58, and the situation that the visual field of the camera 54 is fuzzy due to long-term accumulation is caused, the vibration waves generated by the impact ball a2 impacting the two sides of the mirror surface 58 can push the lower swinging plate c2 to slightly swing, so that the pressurizing ball c5 in the lower swinging plate c2 can roll forwards, therefore, the pressurizing ball c5 rolling forwards can push the lower swinging plate c2 to continuously swing downwards through the self gravity, and when the lower swinging plate c2 is attached to the outer surface of the mirror body c1 to swing, the counter thrust generated by the friction between the outer surface of the mirror body c1 and the bottom of the lower swinging plate c2 can enable the rising block c22 to slide upwards along the bearing block c21, so that the bearing block c21 can push the linkage plate 23 to slide downwards along the rising block c22, and enable the 23 to push the linkage plate c24 to deform, so that the deforming sheet c24 which is deformed and unfolded can drive the erasing block c25 to deform and unfold until the bottom of the erasing block c25 is completely attached to the outer surface of the mirror surface 58, the erasing block c25 which is completely attached to the outer surface of the mirror surface 58 can erase moth powder attached to the outer surface of the mirror surface 58 when the lower swinging plate c2 swings, part of rainwater can be stored when rains outside through the water permeable port d1, and then the blocking block d3 is pushed to ascend when the rising block c22 slides upwards along the bearing block c21, so that the moisture in the shell d2 can flow into the linkage plate c23 through a gap generated between the blocking block d3 and the shell 2, and therefore, the linkage plate c23 can guide the moisture into the erasing block c25, so that the erasing block c25 can clear away the moth powder which is mixed with the rainwater and adhered to the outer surface of the mirror surface 58, and the moisture contained in the outer surface of the mirror surface 58 is effectively prevented from being completely dried by air after rains, the moth powder is easily bonded with rain water, and the moth powder is adhered to the outer surface of the mirror surface 58 after air drying, so that the moth powder is not easily erased.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides a novel surveillance camera machine, its structure includes sunshade lid (1), linking nut (2), fixing base (3), support frame (4), organism (5), install in the top position of organism (5) sunshade lid (1), fixing base (3) and support frame (4) weld mutually, its characterized in that: the machine body (5) is hinged with the support frame (4) through a connecting nut (2);

the body (5) comprises a sliding block (51), a night vision lamp (52), a frame body (53), a camera (54), a guide block (55), a rebound sheet (56), a knocking mechanism (57), a mirror surface (58) and a protective surface (59), one end of the sliding block (51) is fixedly connected with the mirror surface (58), the other end of the sliding block (51) is movably clamped with the guide block (55), the night vision lamp (52) is electrically connected with the frame body (53), the camera (54) is arranged at the left position of the frame body (53), the guide block (55) is connected with the frame body (53), the return spring pieces (56) are fixed between the sliding block (51) and the guide block (55), two knocking mechanisms (57) are arranged, and the protective surface is respectively attached to the upper side and the lower side of the mirror surface (58), the mirror surface (58) is in clearance fit with the frame body (53), and the protective surface (59) and the frame body (53) are of an integrated structure.

2. The new surveillance camera as claimed in claim 1, wherein: the knocking mechanism (57) comprises an outer frame (a 1), a striking ball (a 2), an elastic sheet (a 3), a swinging rod (a 4) and a connecting block (a 5), wherein the striking ball (a 2) is fixedly embedded with the swinging rod (a 4), the elastic sheet (a 3) is installed between the inner walls of the swinging rod (a 4) and the outer frame (a 1), the swinging rod (a 4) is hinged with the connecting block (a 5), and the connecting block (a 5) and the outer frame (a 1) are of an integrated structure.

3. A novel surveillance camera as claimed in claim 2, characterized in that: the striking ball (a 2) comprises a movable bar (a 21), a guide rail bar (a 22), a force-bearing surface (a 23), a first expansion plate (a 24), a second expansion plate (a 25) and a boosting frame (a 26), wherein the movable bar (a 21) is movably clamped with the guide rail bar (a 22), the number of the guide rail bars (a 22) is two, the guide rail bar (a 22) at the upper end is connected with the second expansion plate (a 25), the guide rail bar (a 22) at the lower end is fixed on the first expansion plate (a 24), the force-bearing surface (a 23) is embedded between the first expansion plate (a 24) and the second expansion plate (a 25), the first expansion plate (a 24) is hinged with the second expansion plate (a 25), and the boosting frame (a 26) and the force-bearing surface (a 23) are of an integrated structure.

4. A novel surveillance camera as claimed in claim 3, characterized in that: the stress surface (a 23) comprises a reset piece (b 1), a plate surface (b 2) and an extension block (b 3), the reset piece (b 1) is fixedly connected with the extension block (b 3) in an embedded mode, and the extension block (b 3) is movably clamped with the plate surface (b 2).

5. The new surveillance camera as claimed in claim 1, wherein: the mirror surface (58) comprises a mirror body (c 1), a lower swinging plate (c 2), a rebounding ring (c 3), a force transmission block (c 4) and a pressurizing ball (c 5), wherein the lower swinging plate (c 2) is hinged to the mirror body (c 1) through the rebounding ring (c 3), the force transmission block (c 4) and the mirror body (c 1) are of an integrated structure, and the pressurizing ball (c 5) is installed at the inner position of the lower swinging plate (c 2).

6. The new surveillance camera as claimed in claim 5, wherein: the lower swinging plate (c 2) comprises a bearing block (c 21), a lifting block (c 22), a linkage plate (c 23), a deformation sheet (c 24) and an erasing block (c 25), the lifting block (c 22) is in clearance fit with the bearing block (c 21), the linkage plate (c 23) is movably clamped with the lifting block (c 22), the deformation sheet (c 24) is fixedly connected with the linkage plate (c 23), and the erasing block (c 25) is installed at the bottom position of the deformation sheet (c 24).

7. The new surveillance camera as claimed in claim 6, wherein: the bearing block (c 21) comprises a water permeable port (d 1), a shell (d 2), a blocking block (d 3), a lifting rod (d 4) and a connecting rod (d 5), the water permeable port (d 1) and the shell (d 2) are of an integrated structure, the blocking block (d 3) is fixedly connected with the lifting rod (d 4) in an embedding manner, one end of the connecting rod (d 5) is movably clamped with the lifting rod (d 4), and the connecting rod (d 5) is connected with the shell (d 2).

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