CN220286826U

CN220286826U - Ball-type surveillance camera

Info

Publication number: CN220286826U
Application number: CN202320853796.XU
Authority: CN
Inventors: 韩春晓
Original assignee: Biyang Chunxiao Electronic Technology Co ltd
Current assignee: Biyang Chunxiao Electronic Technology Co ltd
Priority date: 2023-04-17
Filing date: 2023-04-17
Publication date: 2024-01-02
Anticipated expiration: 2033-04-17

Abstract

The utility model discloses a spherical monitoring camera, which comprises a camera clamping seat; the camera cassette: the lower surface of the rotary shell is sequentially provided with a round groove, a slot and a rotary round groove from bottom to top, the round groove is communicated with the rotary round groove through the slot, the inner lower end of the rotary round groove is provided with a clamping groove, the clamping groove is vertically staggered with the slot, the inner part of the clamping groove is clamped with a plug-in clamping column, the lower end of the plug-in clamping column is provided with a shield, the shield is positioned in the round groove, the lower surface of the shield is rotationally connected with a rotary shell through a first rotating shaft, a rotating shaft is rotationally connected between the left wall and the right wall of the rotary shell through a first bearing, the middle part of the rotating shaft is slidably connected with a camera shell, and the front surface of the camera shell is provided with a camera; the spherical monitoring camera realizes the fixed installation of the monitoring camera through the spring force and the clamping connection relationship, the dismounting efficiency of the device is high, and meanwhile, the device can absorb the external impact force through the spring force and the sliding friction damping, and the protection performance is good.

Description

Ball-type surveillance camera

Technical Field

The utility model relates to the technical field of cameras, in particular to a spherical monitoring camera.

Background

The spherical camera is the most complex of monitored system and the best camera front end of comprehensive performance, the spherical camera is a product that the integrated level is fairly high, cloud platform system, communication system, and camera system have been integrated, cloud platform system is the rotation part that the motor drove, communication system is the control to the motor and to the processing part of image and signal, camera system is the integral machine core that adopts, camera casing upper end is connected through screw and mount pad when current part spherical monitored camera when using, when the camera breaks down and overhauls, need unscrew a large amount of fastening screw, complex operation is inconvenient for the dismouting of camera, influence the dismouting efficiency of camera, simultaneously the device receives external impact in the use when easily leading to the inside electronic equipment of device to break down, for this reason, we propose a spherical monitored camera.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the spherical monitoring camera, the device is fixedly mounted on the monitoring camera through the spring force and the clamping relation, the dismounting efficiency of the device is high, the device can absorb the external impact force through the spring force and the sliding friction damping, the protection performance is good, and the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a ball-type monitoring camera comprises a camera clamping seat;

the camera cassette: the lower surface of the rotary shell is sequentially provided with a round groove, a slot and a rotary round groove from bottom to top, the round groove is communicated with the rotary round groove through the slot, the inner lower end of the rotary round groove is provided with a clamping groove, the clamping groove is vertically staggered with the slot, the inner part of the clamping groove is clamped with a plug-in clamping column, the lower end of the plug-in clamping column is provided with a shield, the shield is positioned in the round groove, the lower surface of the shield is rotationally connected with a rotary shell through a first rotating shaft, a rotating shaft is rotationally connected between the left wall and the right wall of the rotary shell through a first bearing, the middle part of the rotating shaft is slidably connected with a camera shell, and the front surface of the camera shell is provided with a camera;

wherein: the camera is characterized by further comprising a singlechip, wherein the singlechip is positioned outside the camera clamping seat, the input end of the singlechip is electrically connected with an external power supply, the output end of the singlechip is electrically connected with the input end of the camera, the device realizes the fixed installation of the monitoring camera through spring force and clamping connection, the dismounting efficiency of the device is high, and meanwhile, the device can absorb the received external impact force through spring force and sliding friction damping, and the protection performance is good.

Further, the diapire of guard shield is equipped with first motor, and the input and the output electricity of singlechip of first motor are connected, and first motor is established at the diapire of guard shield, and the pivot of first motor is fixed connection with the upper end of first pivot, drives the camera and carries out horizontal rotation.

Further, the right side of camera shell is equipped with the second motor, and the input of second motor is connected with the output electricity of singlechip, and the output shaft of second motor is connected with the right-hand member fixed connection of rotation axis, and the guide way has been seted up to the lateral surface of rotation axis, and the camera shell passes through guide bar and guide way sliding connection, drives the camera and carries out vertical angle adjustment.

Further, the front surface of camera shell is equipped with the light filling lamp, and the input of light filling lamp is connected with the output electricity of singlechip, improves the image definition of surveillance camera.

Further, the upper end of rotatory circular slot is through flexible post and first spring fixedly connected with top tight piece, and first spring cup joints with the outer activity of flexible post, and the lower surface of top tight piece contacts with the upper surface of grafting card post, carries out vertical spacing to the grafting card post.

Further, the left and right ends symmetry of rotation axis is equipped with solid fixed ring, and the lateral surface transverse symmetry sliding connection of rotation axis has the sliding ring, all through evenly distributed's telescopic link and second spring fixed connection between gu fixed ring and the transverse adjacent sliding ring, and the second spring all cup joints with the outer end activity of adjacent telescopic link, and the relative medial surface of two sliding rings all contacts with the side of camera casing, carries out the striking protection to the device.

Further, the upper end of the camera clamping seat is provided with a connecting rod, and the right end of the connecting rod is provided with a mounting seat for fixedly mounting the device.

Compared with the prior art, the utility model has the beneficial effects that: the spherical monitoring camera has the following advantages:

1. when the device is installed, the shield vertically slides upwards along the inner wall of the circular groove, the plug-in clamping column is vertically aligned with the slot, the shield continuously moves upwards to move the plug-in clamping column upwards along the slot to the inside of the rotary circular groove, the plug-in clamping column extrudes the telescopic end of the telescopic column and the first spring to shrink simultaneously, then the plug-in clamping column horizontally rotates to vertically align the lower end of the plug-in clamping column with the clamping groove along the rotary circular groove, then the upward movement force applied to the rotary shell is released, the plug-in clamping column vertically moves downwards to be clamped with the clamping groove through the compression elasticity of the first spring, so that the camera is connected with the installation seat, the spherical monitoring camera is fixedly installed through the spring elasticity and the clamping relation, and the dismounting efficiency of the spherical monitoring camera is high.

2. When the camera shell is collided, the impact force acts on the fixed ring along the rotary shell, the elastic shrinkage of the second spring and the sliding friction damping generated by the sliding of the telescopic end and the fixed end are used for absorbing, the camera is collided and protected, and the spherical monitoring camera can absorb the external impact force received through the elastic force and the sliding friction damping of the spring, so that the spherical monitoring camera has good protection performance.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the rear side structure of the present utility model;

fig. 3 is an enlarged schematic view of the structure of the present utility model at a.

In the figure: 1 mount pad, 2 connecting rods, 3 camera cassette, 4 singlechip, 5 circular slot, 6 grafting draw-in columns, 7 guard shields, 8 rotatory circular slot, 9 telescopic column, 10 first spring, 11 top tight piece, 12 slot, 13 first motor, 14 rotatory shell, 15 rotation axis, 16 solid fixed ring, 17 telescopic link, 18 second spring, 19 sliding ring, 20 camera shell, 21 light filling lamp, 22 cameras, 23 guide way, 24 second motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present embodiment provides a technical solution: a ball-type monitoring camera comprises a camera clamping seat 3;

camera cassette 3: the lower surface of the rotary round slot is sequentially provided with a round slot 5, a slot 12 and a rotary round slot 8 from bottom to top, the round slot 5 is communicated with the rotary round slot 8 through the slot 12, the inner lower end of the rotary round slot 8 is provided with a clamping slot, the clamping slot is vertically staggered with the slot 12, the inside of the clamping slot is clamped with an inserting clamping column 6, the lower end of the inserting clamping column 6 is provided with a shield 7, the shield 7 is positioned inside the round slot 5, the lower surface of the shield 7 is rotationally connected with a rotary shell 14 through a first rotating shaft, a rotating shaft 15 is rotationally connected between the left wall and the right wall of the rotary shell 14 through a first bearing, the middle part of the rotating shaft 15 is slidingly connected with a camera shell 20, the front surface of the camera shell 20 is provided with a camera 22, the upper end of the rotary round slot 8 is fixedly connected with a jack-up piece 11 through a telescopic column 9 and a first spring 10, the first spring 10 is movably sleeved with the outer end of the telescopic column 9, the lower surface of the jack-up piece 11 is contacted with the upper surface of the inserting clamping column 6, when the spherical monitoring camera is used, the device is fixed to a designated position through a mounting hole on the mounting seat 1 by bolts, when the device is mounted, the shield 7 vertically slides upwards along the inner wall of the circular groove 5, meanwhile, the plug-in clamping column 6 is vertically aligned with the slot 12, the shield 7 continuously moves upwards to the inside of the rotary circular groove 8 along the slot 12, the plug-in clamping column 6 presses the propping piece 11 to enable the telescopic end of the telescopic column 9 and the first spring 10 to shrink simultaneously, then the plug-in clamping column 6 horizontally rotates 90 degrees along the rotary circular groove 8 to enable the lower end of the plug-in clamping column 6 to vertically align with the clamping groove, then the upward moving force applied to the rotary shell 14 is released, the plug-in clamping column 6 vertically moves downwards to be clamped with the clamping groove through the compression elasticity of the first spring 10, the camera device is connected with the camera clamping seat 3, the operation is convenient, the spherical monitoring camera realizes the fixed installation of the monitoring camera through the spring force and the clamping relation, and the dismounting efficiency of the device is high;

wherein: the camera also comprises a singlechip 4, the singlechip 4 is positioned outside the camera clamping seat 3, the input end of the singlechip 4 is electrically connected with an external power supply, the output end of the singlechip 4 is electrically connected with the input end of the camera 22, the bottom wall of the shield 7 is provided with a first motor 13, the input end of the first motor 13 is electrically connected with the output end of the singlechip 4, the first motor 13 is arranged on the bottom wall of the shield 7, the rotating shaft of the first motor 13 is fixedly connected with the upper end of the first rotating shaft, the right side of the camera shell 20 is provided with a second motor 24, the input end of the second motor 24 is electrically connected with the output end of the singlechip 4, the output shaft of the second motor 24 is fixedly connected with the right end of the rotating shaft 15, the outer side surface of the rotating shaft 15 is provided with a guide groove 23, the camera shell 20 is in sliding connection with the guide groove 23 through a guide bar, the front surface of the camera shell 20 is provided with a light supplementing lamp 21, the input end of the light supplementing lamp 21 is electrically connected with the output end of the singlechip 4, the single chip microcomputer 4 starts the camera 22, the camera 22 collects images of the surrounding environment and transmits the images to the single chip microcomputer 4 in an electric signal mode, the single chip microcomputer 4 starts the light supplementing lamp 21 to provide brightness for the camera 22 so as to improve the definition of the images shot by the camera 22, the first motor 13 and the second motor 26 both adopt braking motors, after the braking motors are electrified, the inner armatures of the braking motors are attracted by electromagnetism so as to enable the braking disc to be in a rotatable state and enable the braking motors to rotate freely, when the braking motors lose electricity, the electromagnets lose electricity, the armatures are immediately supported by springs so that the braking disc and a motor rear end cover are pressed together to stop rotating, the single chip microcomputer 4 starts the first motor 13, the first motor 13 drives the rotating shell 14 to rotate, the rotating shell 14 drives the camera 22 to adjust the horizontal shooting angle, the single chip microcomputer 4 starts the second motor 24, and the rotating shaft 15 of the second motor 24 rotates, the rotating shaft 15 is in sliding connection with the guide groove 23 through the guide bar to drive the camera shell 20 to vertically rotate so as to carry out vertical angle adjustment on the camera 22, the forward and reverse rotation of the rotating shaft 15 and the first rotating shaft are not more than 180 degrees, the horizontal and vertical angle adjustment is carried out on the camera shooting angle of the device, and the camera shooting view of the device is wide;

the left end and the right end of the rotating shaft 15 are symmetrically provided with fixed rings 16, the outer side faces of the rotating shaft 15 are transversely and symmetrically connected with sliding rings 19 in a sliding mode, the fixed rings 16 are fixedly connected with transversely adjacent sliding rings 19 through evenly distributed telescopic rods 17 and second springs 18, the second springs 18 are movably sleeved with the outer ends of the adjacent telescopic rods 17, the opposite inner side faces of the two sliding rings 19 are contacted with the side faces of the camera shell 20, impact force acts on the fixed rings 16 along the rotating shell 14 when the camera shell 20 is impacted, the impact protection is carried out on the camera 22 through elastic shrinkage of the second springs 18 and sliding friction damping generated by sliding of the telescopic ends of the telescopic rods 17, and the spherical monitoring camera can absorb the external impact force received through spring force and sliding friction damping.

The working principle of the spherical monitoring camera provided by the utility model is as follows: when the spherical monitoring camera is used, firstly, the device is fixed at a designated position through the mounting hole on the mounting seat 1 by using the bolt, the singlechip 4 starts the camera 22, the camera 22 collects images of the surrounding environment and transmits the images to the singlechip 4 in an electric signal mode, the singlechip 4 starts the light supplementing lamp 21 to provide brightness for the camera 22 so as to improve the definition of the images shot by the camera 22, the first motor 13 and the second motor 26 both adopt braking motors, after the braking motors are electrified, the armature inside the braking motors is attracted by the electromagnetic, the braking disc is in a rotatable state, the braking motor is enabled to rotate freely, when the braking motor is powered off, the electromagnet is powered off, the armature is immediately propped against by the spring, the braking disc and the motor rear end cover are pressed together, the rotation is stopped, the singlechip 4 starts the first motor 13, the first motor 13 drives the rotary shell 14 to rotate, the rotating shell 14 drives the camera 22 to carry out horizontal shooting angle adjustment, the singlechip 4 starts the second motor 24, the rotating shaft 15 of the second motor 24 rotates, the rotating shaft 15 drives the camera shell 20 to vertically rotate through the guide strip and the guide groove 23 so as to carry out vertical angle adjustment on the camera 22, the rotating shaft 15 and the first rotating shaft are not more than 180 degrees in forward and reverse rotation, when the camera shell 20 is collided, the impact force acts on the fixed ring 16 along the rotating shell 14, the impact protection is carried out on the camera 22 through the elastic contraction of the second spring 18 and the sliding friction damping generated by the sliding of the telescopic end of the telescopic rod 17 and the fixed end, the shield 7 vertically slides upwards along the inner wall of the circular groove 5 when the device is installed, meanwhile, the plugging clamping column 6 is vertically aligned with the slot 12, the shield 7 continuously moves upwards to the inside of the rotating circular groove 8 along the slot 12, the jack-in clamping column 6 extrudes the jacking piece 11 to enable the telescopic end of the telescopic column 9 and the first spring 10 to shrink simultaneously, then the jack-in clamping column 6 is enabled to horizontally rotate by 90 degrees along the rotary round groove 8 to enable the lower end of the jack-in clamping column 6 to be vertically aligned with the clamping groove, then the upward moving force applied to the rotary shell 14 is released, the jack-in clamping column 6 is enabled to vertically move downwards to be clamped with the clamping groove through the compression elastic force of the first spring 10, and therefore the camera shooting device is connected with the camera clamping seat 3, and operation is convenient.

It should be noted that, in the above embodiment, the single-chip microcomputer 4 may employ COP8CBE9, the first motor 13 and the second motor 26 may each employ YEJ6324, the light-compensating lamp 21 may employ DH-PFM512P, the camera 22 may employ MVT-AH36P, and the single-chip microcomputer 4 controls the first motor 13, the second motor 26, the light-compensating lamp 21 and the camera 22 to operate in a manner commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims

1. A spherical surveillance camera, characterized in that: comprises a camera clamping seat (3);

camera cassette (3): round grooves (5), slots (12) and rotary round grooves (8) are sequentially formed in the lower surface of the rotary round groove (8) from bottom to top, the round grooves (5) are communicated with the rotary round grooves (8) through the slots (12), clamping grooves are formed in the lower ends of the inner parts of the rotary round grooves (8), the clamping grooves are vertically staggered with the slots (12), inserting clamping columns (6) are clamped in the clamping grooves, a shield (7) is arranged at the lower end of each inserting clamping column (6), the shield (7) is located inside the round grooves (5), a rotary shell (14) is connected to the lower surface of the shield (7) through first rotating shafts, rotating shafts (15) are connected between the left wall and the right wall of the rotary shell (14) through first bearings, camera shells (20) are slidably connected to the middle parts of the rotary shafts (15), and cameras (22) are arranged on the front surfaces of the camera shells (20);

wherein: the camera also comprises a singlechip (4), wherein the singlechip (4) is positioned outside the camera card seat (3), the input end of the singlechip (4) is electrically connected with an external power supply, and the output end of the singlechip (4) is electrically connected with the input end of the camera (22).

2. A spherical surveillance camera according to claim 1, characterized in that: the bottom wall of the shield (7) is provided with a first motor (13), the input end of the first motor (13) is electrically connected with the output end of the singlechip (4), the first motor (13) is arranged on the bottom wall of the shield (7), and the rotating shaft of the first motor (13) is fixedly connected with the upper end of the first rotating shaft.

3. A spherical surveillance camera according to claim 1, characterized in that: the right side of camera shell (20) is equipped with second motor (24), and the input of second motor (24) is connected with the output electricity of singlechip (4), and the output shaft of second motor (24) is connected with the right-hand member fixed connection of rotation axis (15), and guide slot (23) have been seted up to the lateral surface of rotation axis (15), and camera shell (20) pass through guide bar and guide slot (23) sliding connection.

4. A spherical surveillance camera according to claim 1, characterized in that: the front surface of camera shell (20) is equipped with light filling lamp (21), and the input of light filling lamp (21) is connected with the output electricity of singlechip (4).

5. A spherical surveillance camera according to claim 1, characterized in that: the upper end of the rotary round groove (8) is fixedly connected with a jacking piece (11) through a telescopic column (9) and a first spring (10), the first spring (10) is movably sleeved with the outer end of the telescopic column (9), and the lower surface of the jacking piece (11) is in contact with the upper surface of the plugging clamping column (6).

6. A spherical surveillance camera according to claim 1, characterized in that: the left end and the right end of the rotating shaft (15) are symmetrically provided with fixed rings (16), the outer side faces of the rotating shaft (15) are transversely and symmetrically connected with sliding rings (19) in a sliding mode, the fixed rings (16) are fixedly connected with transversely adjacent sliding rings (19) through evenly distributed telescopic rods (17) and second springs (18), the second springs (18) are movably sleeved with the outer ends of the adjacent telescopic rods (17), and the opposite inner side faces of the two sliding rings (19) are in contact with the side faces of a camera shell (20).

7. A spherical surveillance camera according to claim 1, characterized in that: the upper end of the camera clamping seat (3) is provided with a connecting rod (2), and the right end of the connecting rod (2) is provided with a mounting seat (1).