CN217470086U - Rifle ball integral type developments people face snapshot camera - Google Patents

Abstract

The utility model discloses a gun-ball integrated dynamic human face snapshot camera, which comprises a mounting seat, wherein a rotating seat is arranged on the mounting seat, a bottom shell is arranged on the rotating seat, a spherical second camera module is arranged at the bottom of the bottom shell, and a gun-shaped first camera module is arranged on the side surface of the bottom shell; the first camera module comprises a gun-shaped camera body and a waterproof and antifogging device; the second camera module comprises a spherical shell arranged on the bottom shell and a cleaning device used for cleaning the spherical shell, and a spherical camera body is arranged in the spherical shell. The utility model discloses a rifle ball integral type developments people face snapshot camera's two modules of making a video recording all can carry out the rotation of horizontal direction along with the rotation of rotating the seat, and the direction scope of control is bigger, realizes the waterproof antifogging of first module of making a video recording through setting up waterproof anti-fogging device simultaneously, realizes the cleanness of the spherical shell of second module of making a video recording through setting up cleaning device, has guaranteed the quality of shooting.

Description

Rifle ball integral type developments people face snapshot camera

Technical Field

The utility model relates to a camera technical field especially relates to a rifle ball integral type developments people face snapshot camera.

Background

To the people's face snapshot demand on a large scale, remote and high definition, utility model patent that publication number is CN206302489U provides a novel camera structure of rifle ball integral type, and it utilizes the rifle type camera to carry out the collection of big scene image, utilizes the ball-type camera to track moving object and snapshot, has realized basically on a large scale, remote and high definition's face snapshot function, but it still exists following not enoughly:

1. the gun-shaped camera module is fixed on the bracket, the angle of the gun-shaped camera module cannot be adjusted, namely, after the gun-shaped camera module is installed, only pictures in one direction can be monitored all the time, and the gun-shaped camera module is troublesome when the monitoring direction needs to be adjusted;

2. the lens of the gun-type camera module and the dome camera module may be contaminated in long-term use, which affects the quality of shooting.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the prior art, the utility model provides a rifle ball integral type developments people's face snapshot camera, this rifle ball integral type developments people's face snapshot camera sets up the first camera module group of rifle type in the side of drain pan, set up the second camera module group of ball-type in the bottom of drain pan, drain pan integral erection is on rotating the seat, the rotation of horizontal direction all can be carried out along with the rotation that rotates the seat to the first camera module group of rifle type and the second camera module group of ball-type promptly, the direction scope of control is bigger, simultaneously through setting up the waterproof antifog device and realizing the waterproof antifog of first camera module group, realize the cleanness of the spherical shell of second camera module group through setting up cleaning device, can avoid the camera lens of first camera module group and second camera module to be polluted, can guarantee the quality of developments people's face snapshot.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a gun-ball integrated dynamic human face snapshot camera, which comprises a mounting seat, wherein a rotating seat is arranged on the mounting seat, a bottom shell is arranged on the rotating seat, a spherical second camera module is arranged at the bottom of the bottom shell, and a gun-shaped first camera module is arranged on the side surface of the bottom shell;

the first camera module comprises a gun-shaped camera body and a waterproof and antifogging device;

the second camera module comprises a spherical shell arranged on the bottom shell and a cleaning device for cleaning the spherical shell, and a spherical camera body is arranged in the spherical shell;

the camera also comprises a first driving component for driving the rotating seat to rotate in the horizontal direction and a second driving component for driving the spherical camera body to rotate in the longitudinal direction.

The working principle of the utility model is as follows: through the mount pad carries out holistic installation fixedly, the camera installation is accomplished the back, can gather big scene image through the first module of making a video recording of rifle type, and the second of ball-type makes a video recording the module and trails moving object and take a candid photograph, the second of ball-type makes a video recording the module and has the rotational degree of freedom of two directions of horizontal direction and longitudinal direction, tracking range is wide, the first module of making a video recording of rifle type has the rotational degree of freedom of horizontal direction, monitoring range is big, simultaneously in daily use, the waterproof anti-fog device of accessible realizes the waterproof antifog of first module of making a video recording and cleans the spherical shell of the module of making a video recording through cleaning device, the shooting quality of the first module of making a video recording and the second module of making a video recording has been guaranteed, the quality of taking a candid photograph of dynamic people's face has been guaranteed.

The utility model discloses a rifle ball integral type developments people face snapshot camera sets up the first module of making a video recording of rifle type in the side of drain pan, make a video recording the module setting in the bottom of drain pan with the second of ball-type, drain pan integral mounting is on rotating the seat, the first module of making a video recording of rifle type and the second of ball-type make a video recording the module all can carry out the rotation of horizontal direction along with the rotation of rotating the seat promptly, the direction scope of control is bigger, simultaneously through setting up the waterproof antifogging that waterproof anti-fogging device realized the first module of making a video recording, through setting up the cleanness of the spherical shell that cleaning device realized the second module of making a video recording, can avoid the camera lens of first module of making a video recording and second module of making a video recording to be contaminated, can guarantee the quality of developments people face snapshot.

In a further technical scheme, an opening is arranged in the corresponding longitudinal direction of the spherical shell, and a transparent ring is arranged in the opening.

Because the spherical shell is synchronous revolution when the second camera module carries out horizontal rotation, the spherical shell only has the rotation of the longitudinal direction of the spherical camera body for the motion of the spherical camera body, therefore, as long as set up the annular transparent ring on the spherical shell, can satisfy the shooting visual angle demand of spherical camera, and the non-whole transparent spherical shell also only needs to clean to the transparent ring, needs the clear scope littleer, the setting of the cleaning device of being convenient for more.

In a further technical scheme, a rack ring and a ring groove are embedded in the side face of the spherical shell corresponding to the opening, the circle centers of the rack ring, the ring groove and the transparent ring are on the same straight line, and the cleaning device comprises a third driving assembly for driving the spherical shell to rotate through the rack ring, a hoisting assembly for hoisting the spherical shell through the ring groove and a cleaning assembly matched with the transparent ring;

the third driving assembly, the hoisting assembly and the cleaning assembly are all arranged in the bottom shell;

the spherical camera body is connected with an installation rod in the diameter direction perpendicular to the transparent ring, the other end of the installation rod extends out of the side face of the spherical shell and is fixedly connected with the bottom shell or the rotating seat, and a gap is formed in the spherical shell corresponding to the installation rod.

The rack ring and the annular groove are formed in the position, located on the side face of the transparent ring, of the spherical shell, and the circle centers of the rack ring, the annular groove and the transparent ring are on the same straight line, namely when the third driving assembly drives the spherical shell to rotate through the rack ring, the rotating direction of the third driving assembly is overlapped with the extending direction of the transparent ring, the transparent ring also rotates around the circle center of the third driving assembly when the spherical shell rotates, the transparent ring sequentially passes through the cleaning assembly in the bottom shell, and the cleaning assembly sequentially cleans all parts of the transparent ring; because the spherical shell of this camera need carry out rotary motion, therefore the spherical shell relies on the hoist and mount subassembly to realize the stability of spherical shell itself, hoist and mount subassembly lifts the spherical shell through the annular on the spherical shell, and the mounting means of spherical camera body also distinguishes with traditional, and the direction of rotation of spherical shell is the extending direction of transparent ring promptly, and the spherical camera body is installed through the installation pole of the diametric (al) of the transparent ring of perpendicular to, and the installation pole is located the center of rotation of spherical shell, and the installation pole reconnection can realize the installation of spherical camera body on the drain pan or on rotating the seat.

Through set up third drive assembly in the drain pan, the drive spherical shell is rotatory along the extending direction of transparent ring, set up again in the drain pan with transparent ring matched with clean subassembly, when the spherical shell is rotatory, clean subassembly cleans transparent ring, clean effect is better, the assurance of cleanliness is provided for the shooting quality of ball-type camera body, can guarantee the quality of developments people's face candid photograph, third drive assembly and clean subassembly all hide inside the drain pan simultaneously, and is safer, whole outward appearance is also more succinct.

In a further technical scheme, the rack ring and the ring groove are arranged on two side faces of the spherical shell corresponding to the opening.

Due to the existence of the transparent ring, the rack ring and the ring groove can only be arranged at two sides of the transparent ring, namely the non-central position of the spherical shell, and the stability of the spherical shell and the rotation stability of the spherical shell are better by respectively arranging the rack ring and the ring groove on the spherical shells at two sides of the transparent ring.

In a further technical scheme, the third driving assembly comprises a driving motor, an output shaft of the driving motor is connected with a driving gear in a transmission manner, and the driving gear is matched with a rack of the rack ring.

The driving gear is driven to rotate through the driving motor to drive the spherical shell to rotate, and the structure is simple and convenient to arrange.

In a further technical scheme, the ring groove is formed in the side wall of the ball shell at the position of the notch where the rack ring is embedded.

The ring groove is arranged on the side wall of the corresponding notch position of the rack ring, so that the structure is more compact.

In a further technical scheme, the hoisting assembly comprises a hanging rod and a guide wheel arranged at the end part of the hanging rod, and the guide wheel is matched with the annular groove in shape.

The suspender can play good supporting effect to the spherical shell, and the setting of guide pulley for the spherical shell guide pulley can become rolling friction with sliding friction when rotatory, and frictional force is littleer, and the spin resistance of spherical shell is littleer, and rotatory action is more steady.

In a further technical scheme, the waterproof and antifogging device comprises a waterproof and antifogging sleeve sleeved on the gun-shaped camera body, one end of the waterproof and antifogging sleeve extends out of the gun-shaped camera body, and one end of the waterproof and antifogging sleeve, which extends out of the gun-shaped camera body, is a sleeve opening and corresponds to the camera head of the gun-shaped camera body;

the internal surface of linking up is encircleed and is provided with the hole of airing exhaust, the hole slope of airing exhaust sets up, waterproof antifog sheathe in is provided with the fan, the inside of waterproof antifog cover is provided with the wind channel, the both ends in wind channel are connected with hole and fan air outlet of airing exhaust respectively.

The fan inhales the wind channel with external air to extend the wind channel and move to the exhaust hole department of cuff and discharge, the exhaust hole slope sets up, and the exhaust hole encircles the internal surface at the cuff, and the combustion gas can form an air curtain in the camera head of rifle type camera body before from the exhaust hole promptly, and the air curtain can prevent external water smoke, the water droplet that the breeze blown and dust and camera head contact, protection camera head.

Through establishing waterproof antifog cover at this external cover of rifle type camera, the pullover cover of waterproof antifog cover is established outside camera head, utilizes the fan to make wind, and wind is discharged from the hole of airing exhaust from fan, wind channel at last, forms one air curtain in the place ahead of camera head, avoids external water smoke and water droplet to be close to camera head, plays good protection effect to camera head.

In a further technical scheme, the tip of rifle type camera body is extended to the one end of keeping away from the running-on of waterproof antifog cover, the fan sets up the one end tip of keeping away from the running-on at waterproof antifog cover.

The fan sets up the tip at waterproof antifog cover, and the air that the fan blew off can be even gets into the cross section and be annular wind channel, and the wind of discharging from each hole of airing exhaust is more even.

In a further technical scheme, the waterproof and antifogging sleeve is provided with a conical air inducing mechanism in an air duct close to the end part of one end of the fan.

The cross section of the waterproof antifogging sleeve is annular, namely the cross section of the air channel is also annular, and the wind blown out by the fan basically faces the end face of the gun-shaped camera body, so that the wind blown out by the fan can be guided into the annular air channel by arranging the conical wind-inducing mechanism. The waste of wind power is avoided.

In a further technical scheme, the cross-sectional area of the air duct from the fan to the air exhaust hole is gradually reduced.

The design that diminishes gradually in wind channel for the velocity of flow of gas is the grow gradually in the wind channel, is favorable to forming the gas curtain more.

Has the advantages that:

1. the utility model discloses a rifle ball integral type developments people face snapshot camera sets up the first module of making a video recording of rifle type in the side of drain pan, make a video recording the module setting in the bottom of drain pan with the second of ball-type, drain pan integral mounting is on rotating the seat, the first module of making a video recording of rifle type and the second of ball-type make a video recording the module all can carry out the rotation of horizontal direction along with the rotation of rotating the seat promptly, the direction scope of control is bigger, simultaneously through setting up the waterproof antifogging that waterproof anti-fogging device realized the first module of making a video recording, through setting up the cleanness of the spherical shell that cleaning device realized the second module of making a video recording, can avoid the camera lens of first module of making a video recording and second module of making a video recording to be contaminated, can guarantee the quality of developments people face snapshot.

2. Because the spherical shell is synchronous revolution when the second camera module carries out horizontal rotation, the spherical shell only has the rotation of the longitudinal direction of the spherical camera body for the motion of the spherical camera body, therefore, as long as set up the annular transparent ring on the spherical shell, can satisfy the shooting visual angle demand of spherical camera, and the non-whole transparent spherical shell also only needs to clean to the transparent ring, needs the clear scope littleer, the setting of the cleaning device of being convenient for more.

3. Through set up third drive assembly in the drain pan, the drive spherical shell is rotatory along the extending direction of transparent ring, set up again in the drain pan with transparent ring matched with clean subassembly, when the spherical shell is rotatory, clean subassembly cleans transparent ring, clean effect is better, the assurance of cleanliness is provided for the shooting quality of ball-type camera body, can guarantee the quality of developments people's face candid photograph, third drive assembly and clean subassembly all hide inside the drain pan simultaneously, and is safer, whole outward appearance is also more succinct.

4. Due to the existence of the transparent ring, the rack ring and the ring groove can only be arranged at two sides of the transparent ring, namely the non-central position of the spherical shell, and the stability of the spherical shell and the rotation stability of the spherical shell are better by respectively arranging the rack ring and the ring groove on the spherical shells at two sides of the transparent ring.

5. The driving gear is driven to rotate through the driving motor to drive the spherical shell to rotate, and the structure is simple and convenient to arrange.

6. The ring groove is arranged on the side wall of the gap position corresponding to the rack ring, so that the structure is more compact.

7. The suspender can play good supporting effect to the spherical shell, and the setting of guide pulley for the spherical shell guide pulley can become rolling friction with sliding friction when rotatory, and frictional force is littleer, and the spin resistance of spherical shell is littleer, and rotatory action is more steady.

8. Through establishing waterproof antifog cover at this external cover of rifle type camera, the pullover cover of waterproof antifog cover is established outside camera head, utilizes the fan to make wind, and wind is discharged from the hole of airing exhaust from fan, wind channel at last, forms one air curtain in the place ahead of camera head, avoids external water smoke and water droplet to be close to camera head, plays good protection effect to camera head.

9. The fan sets up the tip at waterproof antifog cover, and the air that the fan blew off can be even gets into the cross section and be annular wind channel, and the wind of discharging from each hole of airing exhaust is more even.

10. The cross section of the waterproof antifogging sleeve is annular, namely the cross section of the air channel is also annular, and the wind blown out by the fan basically faces the end face of the gun-shaped camera body, so that the wind blown out by the fan can be guided into the annular air channel by arranging the conical wind-inducing mechanism. The waste of wind power is avoided.

Drawings

Fig. 1 is a schematic view of a main view structure of a gun-ball integrated dynamic face snapshot camera according to an embodiment of the present invention;

fig. 2 is the utility model discloses rifle ball integral type developments people face snapshot camera's third drive assembly's drive structure sketch map

Fig. 3 is a schematic view of a hoisting structure of a hoisting assembly of the gun-ball integrated dynamic face snapshot camera in the embodiment of the present invention;

fig. 4 is a schematic view of the installation states of the hoisting assembly and the third driving assembly of the gun-ball integrated dynamic human face snapshot camera and the spherical shell in the embodiment of the present invention;

fig. 5 is a schematic structural diagram of a cleaning assembly of the gun-ball integrated dynamic face capture camera according to the embodiment of the present invention;

fig. 6 is a schematic view of the installation structure of the dome camera body of the gun-ball integrated dynamic face capture camera according to the embodiment of the present invention;

fig. 7 is a schematic cross-sectional structure diagram of a gun-ball integrated dynamic face snapshot camera according to an embodiment of the present invention;

fig. 8 is a schematic view of a partially enlarged structure at the air outlet of the gun-ball integrated dynamic face snapshot camera according to the embodiment of the present invention;

figure 9 is the utility model discloses a gun ball integral type developments people face snapshot camera's structural sketch map of linking

Fig. 10 is a schematic overall structure diagram of a gun-ball integrated dynamic face snapshot camera according to an embodiment of the present invention;

fig. 11 is a schematic cross-sectional structure view of a gun-ball integrated dynamic face snapshot camera according to another embodiment of the present invention.

Reference numerals:

10. a mounting seat; 20. a rotating seat; 30. a bottom case; 40. a first camera module; 41. a gun-shaped camera body; 42. a waterproof antifogging sleeve; 421. a fan; 422. looping; 423. an air duct; 424. an air exhaust hole; 425. an air induction plate; 43. a rain cover; 50. a second camera module; 51. a spherical shell; 511. a transparent ring; 512. a rack ring; 513. a ring groove; 52. a third drive assembly; 53. hoisting the assembly; 54. a cleaning assembly; 541. cleaning the plate; 542. a cleaning brush; 55. the dome camera body.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

example (b):

a gun-ball integrated dynamic human face snapshot camera is shown in figure 1 and comprises a mounting seat 10, wherein a rotating seat 20 is arranged on the mounting seat 10, a bottom shell 30 is arranged on the rotating seat 20, a spherical second camera module 50 is arranged at the bottom of the bottom shell 30, and a gun-shaped first camera module 40 is arranged on the side surface of the bottom shell 30;

as shown in fig. 7, the first camera module 40 includes a gun-shaped camera body 41 and a waterproof and antifogging device;

as shown in fig. 4, the gun type camera body 41 is mounted on the side of the bottom case 30 by a mounting bracket.

In this embodiment, the side surface of the bottom case 30 is recessed inward, and the gun type camera body 41 is mounted in the recess, so that the overall structure of the camera is more compact, and the bottom case 30 itself can play a certain role in protecting the gun type camera body 41.

As shown in fig. 1, the second camera module 50 includes a spherical shell 51 disposed on the bottom shell 30 and a cleaning device for cleaning the spherical shell 51, wherein a spherical camera body 55 is disposed in the spherical shell 51;

and further comprises a first driving component for driving the rotating seat 20 to rotate in the horizontal direction and a second driving component for driving the ball-type camera body 55 to rotate in the longitudinal direction.

The working principle of the utility model is as follows: carry out holistic installation fixedly through mount pad 10, the camera installation is accomplished the back, can gather big scene image through the first module of making a video recording 40 of rifle type, and the second of ball-type makes a video recording module 50 trails moving object and candids, the second of ball-type makes a video recording module 50 has the rotational degree of freedom of two directions of horizontal direction and longitudinal direction, tracking range is wide, the first module of making a video recording 40 of rifle type has the rotational degree of freedom of horizontal direction, monitoring range is big, simultaneously in daily use, the waterproof anti-fog device of accessible realizes the waterproof antifog of first module of making a video recording 40 and cleans spherical shell 51 of module 50 of making a video recording through cleaning device to the second, the shooting quality of first module of making a video recording 40 and second module of making a video recording 50 has been guaranteed, the quality of dynamic people face candid photograph has been guaranteed.

The utility model discloses a rifle ball integral type developments people face snapshot camera sets up the first module of making a video recording 40 of rifle type in the side of drain pan 30, make a video recording 50 the setting in the bottom of drain pan 30 with the second of ball-type, drain pan 30 integral mounting is on rotating seat 20, the second of the first module of making a video recording 40 of rifle type and ball-type makes a video recording 50 all can carry out the rotation of horizontal direction along with rotating seat 20's rotation promptly, the direction scope of control is bigger, simultaneously through setting up waterproof anti-fog device and realizing the waterproof antifog of first module of making a video recording 40, through setting up the cleanness of cleaning device realization second module of making a video recording 50's spherical shell 51, can avoid the camera lens of first module of making a video recording 40 and second module of making a video recording 50 to be contaminated, can guarantee the quality of developments people face snapshot.

In another embodiment, as shown in fig. 1, 4 and 6, an opening is provided in the longitudinal direction corresponding to the spherical shell 51, and a transparent ring 511 is provided in the opening.

Because the spherical shell 51 is synchronously rotated when the second camera module 50 horizontally rotates, and the spherical shell 51 only rotates in the longitudinal direction of the spherical camera body 55 relative to the movement of the spherical camera body 55, the requirement of the shooting visual angle of the spherical camera body 55 can be met as long as the annular transparent ring 511 is arranged on the spherical shell 51, but the non-integral transparent spherical shell 51 is also cleaned only by aiming at the transparent ring 511, the cleaning range is smaller, and the cleaning device is more convenient to arrange.

In another embodiment, as shown in fig. 1-4, the spherical shell 51 is provided with a rack ring 512 and a ring groove 513 embedded in the side surface corresponding to the opening, the centers of the rack ring 512, the ring groove 513 and the transparent ring 511 are on the same straight line, the cleaning device includes a third driving assembly 52 for driving the spherical shell 51 to rotate through the rack ring 512, a hoisting assembly 53 for hoisting the spherical shell 51 through the ring groove 513, and a cleaning assembly 54 engaged with the transparent ring 511;

the third driving assembly 52, the hoisting assembly 53 and the cleaning assembly 54 are all arranged in the bottom shell 30;

the dome camera body 55 is connected with a mounting rod in a direction perpendicular to the diameter direction of the transparent ring 511, the other end of the mounting rod extends out of the side surface of the dome shell 51 and is fixedly connected with the bottom shell 30 or the rotating base 20, the dome shell 51 is provided with a gap corresponding to the mounting rod, and the second driving assembly in this embodiment is arranged in the dome shell 51 and directly drives the dome camera body 55 to rotate longitudinally. The wiring of the components such as the dome camera body 55 is routed from the mounting pole.

In the present embodiment, the third driving assembly 52, the lifting assembly 53 and the cleaning assembly 54 are all installed inside the bottom case 30, and it is understood that the third driving assembly 52, the lifting assembly 53 and the cleaning assembly 54 can also be fixedly installed at the bottom of the rotating base 20.

A rack ring 512 and a ring groove 513 are formed in the position, located on the side surface of the transparent ring 511, of the spherical shell 51, and the centers of the rack ring 512, the ring groove 513 and the transparent ring 511 are on the same straight line, that is, when the third driving component 52 drives the spherical shell 51 to rotate through the rack ring 512, the rotating direction of the third driving component coincides with the extending direction of the transparent ring 511, the arrow direction in fig. 4 is the rotating direction of the spherical shell 51, the transparent ring 511 also rotates around the center of the circle of the third driving component 511 when the spherical shell 51 rotates, the transparent ring 511 sequentially passes through the cleaning component 54 in the bottom shell 30, and the cleaning component 54 sequentially cleans all parts of the transparent ring 511; because the spherical shell 51 of the camera needs to rotate, the spherical shell 51 is stabilized by the hoisting component 53, the hoisting component 53 hoists the spherical shell 51 through the annular groove 513 on the spherical shell 51, and the installation mode of the spherical camera body 55 is different from the traditional mode, the rotation direction of the spherical shell 51 is the extension direction of the transparent ring 511, the spherical camera body 55 is installed through the installation rod perpendicular to the diameter direction of the transparent ring 511, the installation rod is located at the rotation center of the spherical shell 51, and the installation of the spherical camera body 55 can be realized by connecting the installation rod on the bottom shell 30 or the rotating base 20.

Since the shooting direction of the dome camera body 55 always faces the transparent ring 511, the structure on the dome shell 51 on the side of the transparent ring 511 does not obstruct the shooting of the dome camera body 55.

The utility model discloses a spherical shell 51 of camera itself is shell structure, and plastics can be chooseed for use to the material simultaneously, and consequently its dead weight is less, and consequently stable hoist and mount can be realized to hoist and mount subassembly 53.

In this embodiment, the transparent ring 511 is a complete ring body, i.e. no matter how the spherical shell 51 rotates, the shooting of the spherical camera body 55 will not be blocked. When cleaning is needed, the third driving assembly 52 is started to drive the spherical shell 51 to rotate until cleaning is stopped.

Through set up third drive assembly 52 in bottom shell 30, drive spherical shell 51 is rotatory along transparent ring 511's extending direction, set up again in bottom shell 30 with transparent ring 511 matched with clean subassembly 54, when spherical shell 51 is rotatory, clean subassembly 54 cleans transparent ring 511, clean effect is better, the assurance of the cleanliness is provided for the shooting quality of dome camera body 55, can guarantee the quality of dynamic people's face snapshot, third drive assembly 52 and clean subassembly 54 all hide inside bottom shell 30 simultaneously, and is safer, the whole outward appearance is also more succinct.

In another embodiment, as shown in fig. 6, the bottom shell 30 extends downward to a position of a mounting rod, and the mounting rod is connected to the bottom shell 30, so that the bottom shell 30 can hide a gap of the ball shell 51 corresponding to the mounting rod, and prevent external dust and the like from entering the ball shell 51.

In another embodiment, as shown in fig. 5, the cleaning assembly 54 includes a cleaning plate 541, a cleaning brush 542 is disposed on a bottom surface of the cleaning plate 541, the bottom surface of the cleaning brush 542 is an arc surface matched with the outer annular surface of the transparent ring 511, the cleaning brush 542 is used for cleaning the transparent ring 511, the cleaning effect is good, the cleaning brush 542 can be made of flexible materials such as sponge, the transparent ring 511 cannot be damaged, and the width of the cleaning brush 542 is greater than the width of the transparent ring 511, so as to ensure the cleaning effect.

In another embodiment, as shown in fig. 1, the rack ring 512 and the ring groove 513 are disposed on both sides of the ball shell 51 corresponding to the opening.

In this embodiment, the rack ring 512 and the ring groove 513 on both sides of the opening of the spherical shell 51 are symmetrically disposed, so that the gravity applied to the spherical shell 51 is more dispersed.

Due to the transparent ring 511, the rack ring 512 and the ring groove 513 can only be disposed on two sides of the transparent ring 511, i.e. the non-central position of the spherical shell 51, and the rack ring 512 and the ring groove 513 are respectively disposed on the spherical shell 51 on two sides of the transparent ring 511, so that the stability of the spherical shell 51 itself and the stability of the spherical shell 51 in rotation are better.

In another embodiment, as shown in fig. 2, the third driving assembly 52 comprises a driving motor, and an output shaft of the driving motor is drivingly connected with a driving gear, and the driving gear is engaged with the rack of the rack ring 512.

The driving gear is driven to rotate by the driving motor to drive the spherical shell 51 to rotate, and the structure is simple and convenient to arrange.

In another embodiment, as shown in fig. 3, the annular groove 513 is formed on the sidewall of the ball housing 51 at the position of the notch where the rack ring 512 is inserted.

The ring groove 513 is formed in the side wall of the notch position corresponding to the rack ring 512, so that the structure is more compact.

In another embodiment, as shown in FIG. 3, the hoist assembly 53 includes a boom and a guide wheel disposed at an end of the boom, the guide wheel cooperating with the shape of the groove 513.

In this embodiment, the opening of the ring groove 513 does not set a horizontal limit to the guide wheel, and when the hoisting assemblies 53 are set on both sides of the transparent ring 511, the two guide wheels are oppositely set, so that the mutual horizontal limit is realized, and if only one set of hoisting assemblies 53 is set, the guide wheels need to be horizontally limited.

The jib can play good support effect to spherical shell 51, and the setting of guide pulley for spherical shell 51 can become rolling friction with sliding friction when rotatory, and frictional force is littleer, and spherical shell 51's rotation resistance is littleer, and the rotation action is more steady.

In another embodiment, as shown in fig. 4, the third driving assembly 52 is disposed at the top center of the spherical shell 51, and a plurality of lifting rods are disposed on the annular grooves 513 in the front and rear directions of the third driving assembly 52, so that the spherical shell 51 is lifted from a plurality of points, and the spherical shell 51 is more stable.

In another embodiment, as shown in fig. 7, the waterproof and antifogging device includes a waterproof and antifogging sleeve 42 sleeved on the gun-shaped camera body 41, one end of the waterproof and antifogging sleeve 42 extends out of the gun-shaped camera body 41, and one end of the waterproof and antifogging sleeve 42 extending out of the gun-shaped camera body 41 is a sleeve opening 422 and corresponds to a camera head of the gun-shaped camera body 41;

as shown in fig. 8 and 9, the inner surface of the cuff 422 is provided with an air exhaust hole 424 in a surrounding manner, the air exhaust hole 424 is arranged in an inclined manner, as shown in fig. 7, the waterproof and antifogging sleeve 42 is provided with a fan 421, an air duct 423 is arranged inside the waterproof and antifogging sleeve 42, and two ends of the air duct 423 are respectively connected with air outlets of the air exhaust hole 424 and the fan 421.

In the present embodiment, as shown in fig. 4, the gun type camera body 41 is disposed obliquely and partially outside the bottom case 30, and therefore, as shown in fig. 10, a rain cover 43 is disposed on the top of the gun type camera body 41.

In this embodiment, as shown in fig. 7, the blower 421 is disposed on the top of the waterproof and antifogging jacket 42.

In this embodiment, as shown in fig. 7, the top of the waterproof and antifogging sleeve 42 is provided with a through hole corresponding to the rainproof cover 43, the bottom of the waterproof and antifogging sleeve 42 is also provided with a through hole corresponding to the mounting bracket, and the air duct 423 in the waterproof and antifogging sleeve 42 bypasses the corresponding through hole. The installation of the rain cover 43 and the gun camera body 41 itself is realized by the through hole.

The fan 421 sucks the outside air into the air duct 423, and extend the air duct 423 and move to the exhaust hole 424 of the cuff 422 and discharge, the exhaust hole 424 is obliquely arranged, and the exhaust hole 424 surrounds the inner surface of the cuff 422, as shown by the arrow in fig. 7, an air curtain is formed in front of the camera head of the gun-type camera body 41 by exhaust gas from the exhaust hole 424, and the air curtain can prevent the outside water mist, the water drops blown by breeze and dust from contacting the camera head, so as to protect the camera head.

In this embodiment, the waterproof and antifogging sleeve 42 covers more than half of the position of the gun-shaped camera body 41, the length of the waterproof and antifogging sleeve 42 is long, so as to prolong the length of the air duct 423, because the fan 421 is arranged on the side surface of the waterproof and antifogging sleeve 42, if the air duct 423 is too short, the wind power is concentrated on one side of the sleeve opening 422, and the wind power cannot be dispersed and blown out from the air outlet 424, and the air duct 423 is long, so that the wind power concentration can be avoided.

The length of the cuff 422 extending out of the camera head need not be very long, as long as the air outlet 424 can be arranged, and therefore, interference with shooting of the camera head is not caused.

Through at the antifog cover 42 of gun type camera body 41 overcoat water proof, the pullover cover of antifog cover 42 of water proof is established outside the camera head, utilizes fan 421 to make wind, and wind is discharged from air exit 424 from fan 421, wind channel 423 at last, forms an air curtain in the place ahead of camera head, avoids external water smoke and water droplet to be close to the camera head, plays good protection effect to the camera head.

In another embodiment, as shown in fig. 7 and 8, the inner surface of the cuff 422 is obliquely disposed, and the exhaust holes 424 are disposed perpendicular to the inner surface of the cuff 422.

The inner surface of the sleeve opening 422 is obliquely arranged, so that the air exhaust holes 424 meeting requirements can be perpendicular to the inner surface of the sleeve opening 422, and the air exhaust holes 424 are vertically drilled when being machined, so that the machining cost is lower compared with that of oblique drilling.

In another embodiment, as shown in fig. 11, one end of the waterproof and antifogging sleeve 42 away from the sleeve opening 422 extends out of the end of the gun-type camera body 41, and the blower 421 is disposed at one end of the waterproof and antifogging sleeve 42 away from the sleeve opening 422.

The fan 421 is arranged at the end of the waterproof and antifogging sleeve 42, and the air blown out by the fan 421 can uniformly enter the air duct 423 with an annular cross section, so that the air discharged from the air discharge holes 424 is more uniform.

In another embodiment, as shown in fig. 11, the waterproof and antifogging sleeve 42 is provided with a tapered induced draft fan 421 in the air duct 423 near one end of the air fan 421, and in this embodiment, the induced draft fan 421 is an induced draft plate 425.

Because the cross section of the waterproof and antifogging sleeve 42 is annular, that is, the cross section of the air duct 423 is also annular, and the wind blown out by the fan 421 basically faces the end face of the gun-shaped camera body 41, the wind blown out by the fan 421 can be guided into the annular air duct 423 by arranging the conical induced draft fan 421. The waste of wind power is avoided.

In this embodiment, in order to set the air guide plate 425, the end of the waterproof and antifogging sleeve 42 extends backwards a distance beyond the gun-shaped camera body 41 and then is provided with the fan 421, the section is an air guide section, the inside of the section is the air duct 423 with the largest diameter, when the position of the air duct 423 close to the gun-shaped camera body 41 is a plane, part of the air blown out by the fan 421 will impact on the plane, which causes waste of wind power, and therefore, by setting the tapered air guide plate 425, the air blown out by the fan 42121 is guided into the annular air duct 423.

In another embodiment, as shown in fig. 8, the air channel 423 has a cross-sectional area gradually decreasing from the blower 421 to the air discharge hole 424.

The gradually-reduced design of the air channel 423 enables the flow velocity of the air in the air channel 423 to be gradually increased, and is more beneficial to forming an air curtain.

In another embodiment, an angle adjusting device is disposed at the mounting bracket of the gun-shaped camera body 41, so that the mounting angle of the gun-shaped camera body 41 can be adjusted, and the monitoring requirement of more angles can be met.

The bracket with angle adjustment belongs to the technology known by the person skilled in the art, and the specific structure and working principle thereof are not described in detail herein.

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 above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. A gun-ball integrated dynamic human face snapshot camera is characterized by comprising an installation seat, wherein a rotating seat is arranged on the installation seat, a bottom shell is arranged on the rotating seat, a spherical second camera shooting module is arranged at the bottom of the bottom shell, and a gun-shaped first camera shooting module is arranged on the side surface of the bottom shell;

the first camera module comprises a gun-shaped camera body and a waterproof and antifogging device;

the second camera module comprises a spherical shell arranged on the bottom shell and a cleaning device for cleaning the spherical shell, and a spherical camera body is arranged in the spherical shell;

the camera also comprises a first driving component for driving the rotating seat to rotate in the horizontal direction and a second driving component for driving the spherical camera body to rotate in the longitudinal direction.

2. The gun and ball integrated dynamic human face snapshot camera of claim 1, wherein an opening is arranged on the spherical shell in the corresponding longitudinal direction, and a transparent ring is arranged in the opening.

3. The gun and ball integrated dynamic human face snapshot camera as claimed in claim 2, wherein the side surface of the spherical shell corresponding to the opening is embedded with a rack ring and a ring groove, the centers of the rack ring, the ring groove and the transparent ring are on the same straight line, and the cleaning device comprises a third driving component for driving the spherical shell to rotate through the rack ring, a hoisting component for hoisting the spherical shell through the ring groove, and a cleaning component matched with the transparent ring;

the third driving assembly, the hoisting assembly and the cleaning assembly are all arranged in the bottom shell;

the spherical camera body is connected with an installation rod in the diameter direction perpendicular to the transparent ring, the other end of the installation rod extends out of the side face of the spherical shell and is fixedly connected with the bottom shell or the rotating seat, and a gap is formed in the spherical shell corresponding to the installation rod.

4. The gun-ball integrated dynamic human face snapshot camera of claim 3, wherein the rack ring and the ring groove are disposed on both sides of the corresponding opening of the spherical shell.

5. The gun and ball integrated dynamic human face snapshot camera as claimed in claim 3, wherein the third driving assembly comprises a driving motor, an output shaft of the driving motor is connected with a driving gear in a transmission manner, and the driving gear is matched with a rack of the rack ring.

6. The gun and ball integrated dynamic human face snapshot camera of claim 3, wherein the ring groove is formed on the side wall of the spherical shell at the position of the gap where the rack ring is embedded.

7. The gun and ball integrated dynamic face snapshot camera of claim 3, wherein the hoisting assembly comprises a boom and a guide wheel arranged at an end of the boom, and the guide wheel is matched with the shape of the ring groove.

8. The gun and ball integrated dynamic human face snapshot camera according to claim 1, wherein the waterproof and antifogging device comprises a waterproof and antifogging sleeve sleeved on the gun-shaped camera body, one end of the waterproof and antifogging sleeve extends out of the gun-shaped camera body, and one end of the waterproof and antifogging sleeve extending out of the gun-shaped camera body is a sleeve opening and corresponds to a camera head of the gun-shaped camera body;

the internal surface of linking up is encircleed and is provided with the hole of airing exhaust, the hole slope of airing exhaust sets up, waterproof antifog sheathe in is provided with the fan, the inside of waterproof antifog cover is provided with the wind channel, the both ends in wind channel are connected with hole and fan air outlet of airing exhaust respectively.

9. The gun and ball integrated dynamic human face snapshot camera as claimed in claim 8, wherein one end of the waterproof anti-fog sleeve far away from the sleeve opening extends out of an end portion of the gun type camera body, and the fan is arranged at one end portion of the waterproof anti-fog sleeve far away from the sleeve opening.

10. The gun and ball integrated dynamic human face snapshot camera as claimed in claim 9, wherein the waterproof and antifogging sleeve is provided with a conical air inducing mechanism in an air duct inside the end part close to one end of the fan.

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