CN112672013B

CN112672013B - Security monitoring high-definition camera

Info

Publication number: CN112672013B
Application number: CN202011519154.3A
Authority: CN
Inventors: 单昂
Original assignee: Central South Information Technology Shenzhen Co ltd
Current assignee: Central South Information Technology Shenzhen Co ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2022-06-10
Anticipated expiration: 2040-12-21
Also published as: CN112672013A

Abstract

The invention relates to a security monitoring high-definition camera which comprises a camera body, an embedded frame, a lens sheet, a defogging device and an adsorption device, wherein the embedded frame is installed at the front end of the camera body, the lens sheet is installed on the embedded frame, the defogging device is installed at the left end of the embedded frame, and the adsorption device is installed at the right end of the embedded frame. The invention can solve the problems that the lens sheet of the traditional security monitoring high-definition camera is easy to generate fog, people need to disassemble the lens to take down the lens sheet inside for cleaning, and when the lens sheet is disassembled and cleaned outdoors, the lens sheet is easily influenced by surrounding environments (dust and wind power), so that the lens sheet is easily cleaned out of place or broken, and the like.

Description

Security monitoring high-definition camera

Technical Field

The invention relates to the field of security monitoring, in particular to a security monitoring high-definition camera.

Background

In the application scenes of smart homes, smart hospitals, unmanned convenience stores, stations and the like of the current hot house, the application of intelligent security monitoring is mainly embodied in the aspects of monitoring, theft prevention, fire early warning, access control, big data analysis and the like, the method greatly improves the safety and travel satisfaction of public places, and the security monitoring high-definition camera belongs to security monitoring equipment and has the advantages of high sensitivity, strong light resistance, small distortion, small size, long service life, vibration resistance and the like.

However, the lens sheet of the traditional security monitoring high-definition camera is easy to generate fog, people need to disassemble the lens to take off the lens sheet inside for cleaning, and when the lens sheet is disassembled and cleaned outdoors, the lens sheet is easily affected by the surrounding environment (dust and wind power), so that the condition that the lens sheet is not cleaned in place or is broken is easily caused.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a security protection control high definition digtal camera, includes camera body, embedding frame, lens sheet, defogging device and adsorption equipment, the front end of camera body install the embedding frame, install the lens sheet on the embedding frame, the defogging device is installed to the left end of embedding frame, adsorption equipment is installed to the right-hand member of embedding frame.

Defogging device include electronic slider, the sliding plate, the connecting rod, withhold the frame, defogging mechanism, locking mechanical system, the reference column, sealed lid, connect the rope and the embedding piece, electronic slider installs the upper end at the embedding frame, be equipped with the sliding plate on the electronic slider, install the connecting rod on the sliding plate, evenly install withhold the frame on the lateral wall of connecting rod, be connected for sliding fit between connecting rod and the embedding frame, even there is locking mechanical system between connecting rod and the defogging mechanism, the lower extreme embedding of embedding frame has the embedding piece, seted up on the embedding piece and passed the hole, it is provided with the reference column to pass the downthehole, the lower extreme embedding that passes the hole has sealed lid, even there is the connection rope between sealed lid and the embedding piece.

Defogging mechanism include the locating plate, reset telescopic link, connecting plate, defogging cloth and correspond the frame, evenly install on the lateral wall of locating plate and correspond the frame, and detain the frame and correspond and be connected for the joint between the frame, the locating plate is connected with the connecting plate through the telescopic link that resets, the telescopic link that resets plays elastic connection's effect, the connecting plate passes through the double faced adhesive tape and is connected with the defogging cloth, the bonding of double faced adhesive tape is convenient for the change of defogging cloth.

Locking mechanical system include the posting, the extrusion piece, the screens piece, built-in spring, the extrusion pole, sliding plate and locating piece, the embedded groove has been seted up to the lower extreme of connecting rod, the upper end of posting is located the embedded groove, the sliding tray has been seted up on the posting, be sliding fit connection between the middle part of sliding tray and the extrusion piece, the screens piece is installed to the left end of extrusion piece, screens piece and the mutual joint of embedded groove, even there is built-in spring between extrusion piece and the sliding tray, built-in spring plays the effect that resets, the middle part of posting is connected with the extrusion pole through sliding fit's mode, the lower extreme of posting is connected with the sliding plate through sliding fit's mode, install the locating piece on the posting, the lower extreme of locating plate is connected with the locating piece.

When in operation, the electric slide block drives the demisting mechanism to treat the fog on the lens sheet, the defogging cloth is always attached to the lens sheet under the elastic connection of the reset telescopic rod, and during the moving process of the defogging cloth, the defogging cloth which is moved to the rightmost side is dried by the adsorption device, when the defogging cloth is replaced, the sealing cover is opened, the hand-held screwdriver is inserted into the cross groove to rotate the positioning column, the rotating positioning column is connected with the threaded hole, the spiral type ascending rotating positioning column extrudes the sliding plate upwards, thereby extruding the extrusion rod, then the clamping block is extruded to drive the clamping block to retract into the sliding groove, at the moment, the positioning frame and the connecting rod are unlocked, and the positioning column is in threaded connection with the positioning frame, the embedded block, the positioning column, the locking mechanism and the defogging mechanism are integrally moved downwards and taken out, and then the defogging cloth on the defogging mechanism which is taken out is replaced.

Preferably, the upper end of the extrusion rod is connected with a roller through a pin shaft, and the roller is attached to the inclined surface of the extrusion block.

Preferably, a connecting spring is connected between the upper end surface of the sliding plate and the positioning frame.

Preferably, the lower end of the positioning frame is provided with a threaded hole, the positioning column corresponds to the threaded hole in position, the upper end of the positioning column is of a threaded structure, the lower end of the positioning column is provided with a cross groove, and the positioning column at the initial position is separated from the threaded hole.

Preferably, the adsorption device comprises a sealing plate, an embedding piece, a connecting frame, a guide block and a sponge layer, the sealing plate is connected with the right end of the embedding frame in an embedding manner, the lower end of the embedding piece penetrates through the embedding frame and then is embedded into the upper end of the sealing plate, the connecting frame is connected between the sealing plate and the guide block, and the sponge layer is paved on the guide block.

Preferably, the inclined surface of the guide block is gradually inclined backwards from left to right.

(II) advantageous effects

1. According to the security monitoring high-definition camera, the defogging device is additionally arranged in the embedded frame to clean the inner surface of the lens sheet, the lens sheet does not need to be taken down for cleaning, the sealed environment does not cause the lens sheet to be polluted again or broken during cleaning, meanwhile, the defogging device is dried by the corresponding adsorption device, so that the defogging device is always dry, the lens sheet can be wiped circularly for a long time, and meanwhile, the defogging device, the adsorption device and the embedded frame are detachably connected, so that defogging cloth and a sponge layer can be conveniently replaced;

2. according to the security monitoring high-definition camera, the lens piece is cleaned in an in-situ mode through the defogging device, the lens piece does not need to be detached, the defogging mechanism is connected with the connecting rod through the locking mechanism, when the defogging cloth is replaced, the embedded block, the positioning column, the locking mechanism and the defogging mechanism are integrally moved downwards and taken out only through a linkage type extrusion unlocking mode, and then the defogging cloth on the taken defogging mechanism is replaced;

3. according to the security monitoring high-definition camera, the adsorption device is used for drying the defogging cloth moving to the right side, and when the defogging cloth moves to the right side after contacting with the sponge layer, the thickness of the guide block is gradually increased, so that the defogging cloth is more closely attached to the sponge layer under the elastic extrusion of the reset telescopic rod, and the dry absorption of the extruded sponge layer on the defogging cloth is facilitated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure between the insert frame, the lens sheet, the defogging device and the adsorption device according to the present invention;

FIG. 3 is a cross-sectional view of FIG. 2 of the present invention;

FIG. 4 is a cross-sectional view (from above) of the defogging mechanism of the present invention;

FIG. 5 is a cross-sectional view (from above looking down) of the seal plate, link, guide block and sponge layer of the present invention;

FIG. 6 is an enlarged view of a portion of the invention at X of FIG. 3;

FIG. 7 is an enlarged view of a portion of the invention at Y of FIG. 3;

fig. 8 is an enlarged view of the invention at Z of fig. 3.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the widths of lines or the sizes of components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 8, a security monitoring high definition digtal camera comprises a camera body 1, an embedding frame 2, a lens sheet 3, a defogging device 4 and an adsorption device 5, wherein the embedding frame 2 is installed at the front end of the camera body 1, the lens sheet 3 is installed on the embedding frame 2, the defogging device 4 is installed at the left end of the embedding frame 2, and the adsorption device 5 is installed at the right end of the embedding frame 2.

Defogging device 4 include electronic slider 41, sliding plate 42, connecting rod 43, withhold frame 44, defogging mechanism 45, locking mechanical system 46, reference column 47, sealed lid 48, connect rope 49 and embedded block 50, electronic slider 41 is installed in the upper end of embedding frame 2, be equipped with sliding plate 42 on the electronic slider 41, install connecting rod 43 on the sliding plate 42, evenly install withhold frame 44 on the lateral wall of connecting rod 43, be connected for sliding fit between connecting rod 43 and the embedding frame 2, even there is locking mechanical system 46 between connecting rod 43 and the defogging mechanism 45, the lower extreme embedding of embedding frame 2 has embedded block 50, the hole has been seted up on the embedded block 50, be provided with reference column 47 in the hole, the lower extreme embedding that passes the hole has sealed lid 48, even there is connecting rope 49 between sealed lid 48 and the embedded block 50.

Defogging mechanism 45 include locating plate 451, the telescopic link 452 that resets, connecting plate 453, defogging cloth 454 and correspond frame 455, evenly install on the lateral wall of locating plate 451 and correspond frame 455, and detain and be connected for the joint between frame 44 and the corresponding frame 455, locating plate 451 is connected with connecting plate 453 through the telescopic link 452 that resets, the telescopic link 452 that resets plays elastic connection's effect, connecting plate 453 is connected with defogging cloth 454 through the double faced adhesive tape, the bonding of double faced adhesive tape is convenient for defogging cloth 454's change.

The locking mechanism 46 comprises a positioning frame 461, a pressing block 462, a clamping block 463, a built-in spring 464, a pressing rod 465, a sliding plate 466 and a positioning block 467, wherein the lower end of the connecting rod 43 is provided with an embedded groove, the upper end of the positioning frame 461 is positioned in the embedded groove, the positioning frame 461 is provided with a sliding groove, the middle part of the sliding groove is connected with the pressing block 462 in a sliding fit manner, the clamping block 463 is arranged at the left end of the pressing block 462, the clamping block 463 is clamped with the embedded groove, the built-in spring 464 is connected between the pressing block 462 and the sliding groove and plays a role in resetting, the middle part of the positioning frame 461 is connected with the pressing rod 465 in a sliding fit manner, the lower end of the positioning frame 461 is connected with the sliding plate 466 in a sliding fit manner, the positioning block 467 is arranged on the positioning frame 461, the lower end of the positioning plate 451 is connected with the positioning block 467, the upper end of the pressing rod is connected with a roller through a pin shaft, the roller is attached to the inclined surface of the extrusion block 462, so that difficulty in extruding the extrusion block 462 is reduced, a connecting spring is connected between the upper end surface of the sliding plate 466 and the positioning frame 461 to play a role in resetting, a threaded hole is formed in the lower end of the positioning frame 461, the positioning column 47 corresponds to the threaded hole in position, the upper end of the positioning column 47 is of a threaded structure, a cross groove is formed in the lower end of the positioning column 47 to facilitate screwing of a screwdriver, the positioning column 47 in the initial position is separated from the threaded hole, and the separated state ensures that the positioning column 47 cannot obstruct the defogging mechanism 45 from moving left and right.

During the specific operation, during defogging, the electric slider 41 drives the defogging mechanism 45 to treat the fog on the lens sheet 3, the defogging cloth 454 is always attached to the lens sheet 3 under the elastic connection of the reset telescopic rod 452, the defogging cloth 454 is dried by the adsorption device 5 during the moving process, the defogging cloth 454 moving to the rightmost side is replaced, the sealing cover 48 is opened, the handheld screwdriver is inserted into the cross groove to rotate the positioning column 47, the rotating positioning column 47 is connected with the threaded hole, the spiral-type ascending and rotating positioning column 47 extrudes the sliding plate 466 upwards, so as to extrude the extrusion rod 465, the clamping block 463 is extruded to drive the clamping block 463 to retract into the sliding groove, at the moment, the positioning frame 461 is unlocked with the connecting rod 43, the positioning column 47 is in threaded connection with the positioning frame 461, the embedded block 50, the positioning column 47, the locking mechanism 46, The defogging mechanism 45 is moved down and taken out, and then the defogging cloth 454 on the taken-out defogging mechanism 45 is replaced.

The adsorption device 5 comprises a sealing plate 51, an embedding piece 52, a connecting frame 53, a guide block 54 and a sponge layer 55, wherein the sealing plate 51 is connected with the right end of the embedding frame 2 in an embedding manner, the lower end of the embedding piece 52 penetrates through the embedding frame 2 and then is embedded into the upper end of the sealing plate 51, the connecting frame 53 is connected between the sealing plate 51 and the guide block 54, the sponge layer 55 is paved on the guide block 54, the inclined surface of the guide block 54 is of a structure which is gradually inclined backwards from left to right, during specific work, when the defogging cloth 454 is contacted with the sponge layer 55 and then moves to the right, as the thickness of the guide block 54 is gradually increased, the defogging cloth 454 is more closely attached to the sponge layer 55 under the elastic extrusion of a reset telescopic rod 452, the drying is more facilitated, during specific work, when the defogging cloth 454 moves to the rightmost side, the defogging cloth 454 can closely attach to the sponge layer 55, a small amount of water drops on the defogging cloth 454 are absorbed through the adsorption effect of the sponge layer 55, thereby carry out the drying, and when needs are changed sponge layer 55, only need extract insert 52, detain closing plate 51 right and can wholly take out adsorption equipment 5, change sponge layer 55.

When in work:

demisting: the electric slide block 41 drives the demisting mechanism 45 to treat the fog on the lens sheet 3, the demisting cloth 454 is always attached to the lens sheet 3 under the elastic connection of the reset telescopic rod 452, and the demisting cloth 454 moving to the rightmost side is dried by the adsorption device 5 in the moving process of the demisting cloth 454;

the defogging cloth 454 is replaced: the sealing cover 48 is opened, the hand-held screwdriver is inserted into the cross groove to rotate the positioning column 47, the rotating positioning column 47 is connected with the threaded hole, the spiral type ascending rotating positioning column 47 upwards extrudes the sliding plate 466, so as to extrude the extrusion rod 465, then the clamping block 463 is extruded to drive the clamping block 463 to retract into the sliding groove, at this time, the positioning frame 461 and the connecting rod 43 are unlocked, the positioning column 47 is in threaded connection with the positioning frame 461, the embedded block 50, the positioning column 47, the locking mechanism 46 and the defogging mechanism 45 are integrally moved downwards to be taken out, and then the defogging cloth 454 on the taken-out defogging mechanism 45 is replaced;

sponge layer 55 replacement: the insert 52 is pulled out upward, and the sealing plate 51 is pulled out rightward, so that the whole adsorption device 5 can be taken out, and the sponge layer 55 can be replaced.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A security monitoring high-definition camera comprises a camera body (1), an embedded frame (2), a lens sheet (3), a defogging device (4) and an adsorption device (5), and is characterized in that the embedded frame (2) is installed at the front end of the camera body (1), the lens sheet (3) is installed on the embedded frame (2), the defogging device (4) is installed at the left end of the embedded frame (2), and the adsorption device (5) is installed at the right end of the embedded frame (2);

defogging device (4) including electronic slider (41), sliding plate (42), connecting rod (43), detain frame (44), defogging mechanism (45), locking mechanical system (46), reference column (47), sealed lid (48), connect rope (49) and embedding piece (50), electronic slider (41) are installed in the upper end of embedding frame (2), be equipped with sliding plate (42) on electronic slider (41), install connecting rod (43) on sliding plate (42), evenly install on the lateral wall of connecting rod (43) and detain frame (44), be sliding fit between connecting rod (43) and embedding frame (2) and be connected, even there is locking mechanical system (46) between connecting rod (43) and defogging mechanism (45), the lower extreme embedding of embedding frame (2) has embedding piece (50), the hole has been seted up on embedding piece (50), be provided with reference column (47) in the hole, a sealing cover (48) is embedded into the lower end of the through hole, and a connecting rope (49) is connected between the sealing cover (48) and the embedded block (50);

the defogging mechanism (45) comprises a positioning plate (451), a reset telescopic rod (452), a connecting plate (453), defogging cloth (454) and a corresponding frame (455), the corresponding frame (455) is uniformly arranged on the side wall of the positioning plate (451), the buckling frame (44) is connected with the corresponding frame (455) in a clamping manner, the positioning plate (451) is connected with the connecting plate (453) through the reset telescopic rod (452), and the connecting plate (453) is connected with the defogging cloth (454) through a double-sided adhesive tape;

the locking mechanism (46) comprises a positioning frame (461), an extrusion block (462), a clamping block (463), a built-in spring (464), an extrusion rod (465), a sliding plate (466) and a positioning block (467), wherein the lower end of the connecting rod (43) is provided with an embedded groove, the upper end of the positioning frame (461) is positioned in the embedded groove, the positioning frame (461) is provided with a sliding groove, the middle part of the sliding groove is connected with the extrusion block (462) in a sliding fit manner, the left end of the extrusion block (462) is provided with the clamping block (463), the clamping block (463) is mutually clamped with the embedded groove, the built-in spring (464) is connected between the extrusion block (462) and the sliding groove, the middle part of the positioning frame (461) is connected with the extrusion rod (465) in a sliding fit manner, the lower end of the positioning frame (461) is connected with the sliding plate (466) in a sliding fit manner, the positioning block (467) is arranged on the positioning frame (461), the lower end of the positioning plate (451) is connected with the positioning block (467).

2. The security monitoring high-definition camera according to claim 1, characterized in that: the upper end of the extrusion rod (465) is connected with a roller through a pin shaft, and the roller is attached to the inclined surface of the extrusion block (462).

3. The security monitoring high-definition camera according to claim 1, characterized in that: and a connecting spring is connected between the upper end surface of the sliding plate (466) and the positioning frame (461).

4. The security monitoring high-definition camera according to claim 1, characterized in that: the lower end of the positioning frame (461) is provided with a threaded hole, the positioning column (47) corresponds to the threaded hole in position, the upper end of the positioning column (47) is of a threaded structure, the lower end of the positioning column (47) is provided with a cross groove, and the positioning column (47) at the initial position is separated from the threaded hole.

5. The security monitoring high-definition camera according to claim 1, characterized in that: the adsorption device (5) comprises a sealing plate (51), an embedding piece (52), a connecting frame (53), a guiding block (54) and a sponge layer (55), the sealing plate (51) is connected with the right end of the embedding frame (2) in an embedding mode, the lower end of the embedding piece (52) penetrates through the embedding frame (2) and then is embedded into the upper end of the sealing plate (51), the connecting frame (53) is connected between the sealing plate (51) and the guiding block (54), and the sponge layer (55) is paved on the guiding block (54).

6. The security monitoring high-definition camera according to claim 5, characterized in that: the inclined plane of the guide block (54) is in a structure of gradually inclining backwards from left to right.