CN114576531A

CN114576531A - Radiation-resistant pan-tilt camera structure

Info

Publication number: CN114576531A
Application number: CN202210151226.6A
Authority: CN
Inventors: 斯雯
Original assignee: Hangzhou Jingshang Technology Co ltd
Current assignee: Hangzhou Jingshang Technology Co ltd
Priority date: 2022-02-15
Filing date: 2022-02-15
Publication date: 2022-06-03

Abstract

The invention discloses a radiation-resistant pan-tilt camera structure which comprises a base, a first rotating assembly, a second rotating assembly, a third rotating assembly, a lens module, a light supplementing module, a first shell and a second shell, wherein the first rotating assembly comprises a fixed rod, the base is fixedly provided with the fixed rod, the fixed rod is fixedly provided with a first worm wheel, the base is rotatably provided with a rotating disc, the rotating disc is fixedly provided with a chassis, the rotating disc is fixedly provided with the chassis, the chassis is internally provided with a through groove, and the fixed rod penetrates through the through groove. According to the invention, the angle of the lens module is adjusted through the first rotating assembly, the second rotating assembly and the third rotating assembly, so that the lens module can capture a larger range, and meanwhile, the light supplementing function is realized through the light supplementing module, so that the lens module is convenient to use.

Description

Radiation-resistant pan-tilt camera structure

Technical Field

The invention relates to the technical field of camera structures, in particular to a radiation-resistant pan-tilt camera structure.

Background

A camera is an apparatus for forming an image by using an optical imaging principle and recording the image using a negative film, and is an optical instrument for photographing.

Most of pan-tilt cameras in the prior art are fixedly mounted on equipment or a wall for use, and a camera lens is not rotatable, for example, the camera is fixed on the wall, so that a monitoring function can be realized.

Disclosure of Invention

In order to solve the technical problems mentioned in the background art, a radiation-resistant pan-tilt camera structure is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a resistant radiation cloud platform camera structure, includes base, first runner assembly, second runner assembly, third runner assembly, camera lens module, light filling module, first casing and second casing, first runner assembly includes the dead lever, fixed mounting has the dead lever on the base, fixed mounting has first worm wheel on the dead lever, rotate on the base and install the rolling disc, fixed mounting has the chassis on the rolling disc, logical groove has been seted up in the chassis, the dead lever passes logical groove, fixed mounting has two first mounting panels on the chassis, two rotate between the first mounting panel and install first axis of rotation, fixed mounting has the first worm of being connected with first worm wheel meshing on the first axis of rotation, fixed mounting has the second casing on the rolling disc, be equipped with a actuating mechanism on the rolling disc.

As a further description of the above technical solution:

the second runner assembly includes the dwang, fixed mounting has the curb plate in the second casing, the round hole has been seted up in the curb plate, the dwang is installed to the round hole internal rotation, fixed mounting has the second worm wheel on the dwang, fixed mounting has two second mounting panels, two on the curb plate rotate between the second mounting panel and install the second axis of rotation, fixed mounting has the second worm of being connected with second worm wheel meshing in the second axis of rotation, be equipped with second actuating mechanism on the curb plate, first casing fixed mounting is on the dwang.

As a further description of the above technical solution:

the third rotating assembly comprises an installation support, a mounting support is fixedly installed in the first shell, an installation cylinder is installed in the mounting support in a rotating mode, the mounting support is fixedly installed on the installation support, a second fixing frame is fixedly installed on the mounting support, a fixing block is fixedly installed on the second fixing frame, a first annular tooth is fixedly installed at the bottom of the fixing block, a third driving motor is fixedly installed on the installation cylinder, and a first gear meshed with the first annular tooth is connected to an output shaft of the third driving motor in a transmission mode.

As a further description of the above technical solution:

the lens module comprises a lens, and the bottom of the mounting cylinder is fixedly provided with the lens.

As a further description of the above technical solution:

the light filling module includes the lamp plate support, fixed mounting has the lamp plate support on the installing support, fixed mounting has the lamp cup on the lamp plate support, be equipped with the lamp pearl in the lamp cup.

As a further description of the above technical solution:

first actuating mechanism includes a driving motor, fixed mounting has the link on the rolling disc, fixed mounting has a driving motor on the link, the transmission is connected with first rotation wheel on a driving motor's the output shaft, the one end fixed mounting of first rotation axis has the second to rotate the wheel, first rotation wheel and second rotate and are connected through a belt transmission between the wheel.

As a further description of the above technical solution:

the second driving mechanism comprises a second driving motor, a first fixing frame is fixedly mounted on the side plate, a second driving motor is fixedly mounted on the first fixing frame, a third rotating wheel is connected to an output shaft of the second driving motor in a transmission mode, a fourth rotating wheel is fixedly mounted at one end of a second rotating shaft, and the third rotating wheel and the fourth rotating wheel are connected through a second belt in a transmission mode.

As a further description of the above technical solution:

first light trap and second light trap have been seted up on the first casing, fixed mounting has first printing opacity piece in the first light trap, fixed mounting has second printing opacity piece in the second light trap, first printing opacity piece corresponds with light filling module position, second printing opacity piece corresponds with camera lens module position.

As a further description of the above technical solution:

the improved shell structure is characterized in that a top cover is fixedly mounted on the first shell, the top cover and the first shell are hermetically mounted through a sealing ring, a mounting cover is fixedly mounted on the second shell, and the second shell and the mounting cover are hermetically mounted through the sealing ring.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the angle of the lens module is adjusted through the first rotating assembly, the second rotating assembly and the third rotating assembly, so that the lens module can capture a larger range, and meanwhile, the light supplementing function is realized through the light supplementing module, so that the lens module is convenient to use.

2. According to the invention, the second driving motor is started to drive the third rotating wheel to rotate, the fourth rotating wheel is driven to rotate through the second belt to drive the second worm to rotate, the second worm wheel is driven to rotate around the axis of the rotating rod according to the meshing transmission principle of the clamping teeth, and the first shell is driven to rotate, so that the angle of the lens module is adjusted, and the lens module is convenient to use.

3. According to the invention, the second driving motor is started to drive the third rotating wheel to rotate, the fourth rotating wheel is driven to rotate through the second belt to drive the second worm to rotate, the second worm wheel is driven to rotate around the axis of the rotating rod according to the meshing transmission principle of the clamping teeth, and the first shell is driven to rotate, so that the angle of the lens module is adjusted, and the lens module is convenient to use.

Drawings

Fig. 1 illustrates a first angle schematic diagram of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 2 is a second schematic angle diagram of a radiation-tolerant pan-tilt camera structure according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram illustrating a part of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 4 is a first angle schematic diagram of a first rotating assembly of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 5 is a second angle schematic diagram of the first rotating component of the radiation-resistant pan-tilt camera structure provided in accordance with the embodiment of the present invention;

fig. 6 is a first angle schematic diagram of a second rotating assembly of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 7 is a second angle schematic diagram of a second rotating assembly of the radiation-resistant pan-tilt camera structure according to the embodiment of the present invention;

fig. 8 is a schematic structural diagram illustrating a first housing of a radiation-tolerant pan-tilt camera structure according to an embodiment of the present invention;

fig. 9 is a first angle schematic diagram of a third rotating assembly of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 10 is a schematic front view illustrating a third rotating assembly of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram illustrating a light supplement module of a radiation-resistant pan-tilt camera structure according to an embodiment of the present invention.

Illustration of the drawings:

1. a base; 2. a first rotating assembly; 201. fixing the rod; 202. a first worm gear; 203. rotating the disc; 204. a chassis; 205. a through groove; 206. a connecting frame; 207. a first drive motor; 208. a first rotating wheel; 209. a second rotating wheel; 210. a first belt; 211. a first mounting plate; 212. a first rotating shaft; 213. a first worm; 3. a second rotating assembly; 301. rotating the rod; 302. a second worm gear; 303. a side plate; 304. a circular hole; 305. a first fixing frame; 306. a second drive motor; 307. a third rotating wheel; 308. a fourth rotating wheel; 309. a second belt; 310. a second mounting plate; 311. a second rotating shaft; 312. a second worm; 4. a third rotating assembly; 401. mounting a bracket; 402. a second fixing frame; 403. a fixed block; 404. mounting the cylinder; 405. a first ring gear; 407. a third drive motor; 408. a first gear; 5. a lens module; 501. a lens; 6. a light supplement module; 601. a lamp panel bracket; 602. a lamp cup; 603. a lamp bead; 7. a first housing; 701. a first light-transmitting hole; 702. a second light-transmitting hole; 703. a first light transmissive sheet; 704. a second light transmissive sheet; 8. a second housing; 9. a top cover; 10. and (6) installing a cover.

Detailed Description

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

Examples

Referring to fig. 1-11, the present invention provides a technical solution: a radiation-resistant pan-tilt camera structure comprises a base 1, a first rotating component 2, a second rotating component 3 and a third rotating component 4, lens module 5, light filling module 6, first casing 7 and second casing 8, first rotation assembly 2 includes dead lever 201, fixed mounting has dead lever 201 on the base 1, fixed mounting has first worm wheel 202 on the dead lever 201, rotate on the base 1 and install rolling disc 203, fixed mounting has chassis 204 on the rolling disc 203, logical groove 205 has been seted up in the chassis 204, dead lever 201 passes logical groove 205, fixed mounting has two first mounting panels 211 on the chassis 204, rotate between two first mounting panels 211 and install first rotation axis 212, fixed mounting has the first worm 213 of being connected with first worm wheel 202 meshing on the first rotation axis 212, fixed mounting has second casing 8 on the rolling disc 203, be equipped with a actuating mechanism on the rolling disc 203.

Second rotating assembly 3 includes dwang 301, fixed mounting has curb plate 303 in the second casing 8, round hole 304 has been seted up in the curb plate 303, dwang 301 is installed to the round hole 304 internal rotation, fixed mounting has second worm wheel 302 on dwang 301, fixed mounting has two second mounting panels 310 on the curb plate 303, rotate between two second mounting panels 310 and install second axis of rotation 311, fixed mounting has the second worm 312 of being connected with second worm wheel 302 meshing on the second axis of rotation 311, be equipped with second actuating mechanism on the curb plate 303, first casing 7 fixed mounting is on dwang 301.

The third rotating assembly 4 comprises a mounting bracket 401, the mounting bracket 401 is fixedly mounted in the first shell 7, a mounting cylinder 404 is rotatably mounted in the mounting bracket 401, the mounting bracket 401 is fixedly mounted on the mounting bracket 401, a second fixing frame 402 is fixedly mounted on the mounting bracket 401, a fixing block 403 is fixedly mounted on the second fixing frame 402, a first annular tooth 405 is fixedly mounted at the bottom of the fixing block 403, a third driving motor 407 is fixedly mounted on the mounting cylinder 404, a first gear 408 meshed and connected with the first annular tooth 405 is connected to an output shaft of the third driving motor 407 in a transmission manner, the lens module 5 comprises a lens 501, the lens 501 is fixedly mounted at the bottom of the mounting cylinder 404, cerium metal ions and lead metal are added into the material of the lens 501, and thus the radiation resistance function can be realized;

in nature, a cerium metal ion has a unique characteristic, wherein the English abbreviation of cerium is Ce, and the ion of the cerium metal generally has a positive charge with a valence of 4 and is written as Ce4⁺. Introduction of Ce4 into glass⁺Ions capable of capturing negative ions e generated by ionization of glass when irradiated by high-energy rays such as gamma rays^-To prevent the color center from generating inside of the glass to reduce the transmittance. The resulting reaction formula is: ce4⁺+e^->Ce3⁺，Ce4⁺The larger the amount of (A) incorporated, the stronger the irradiation resistance of the glass.

In addition, the metal lead can shield X and gamma radiation, and the internal mechanism is that the larger the atomic number of the lead is, the larger the density of the lead is. In the process of X, gamma high-energy photon radiation, lead can enable high energy to have higher probability and interact with itself, thereby achieving the effect of shielding radiation. Of course many heavy elements have the effect of shielding radiation. Lead is a relatively common metal among heavy elements, and can be directly added to optical glass. Note that lead is a non-environmentally friendly metal that is only allowed to be used in certain situations.

Light filling module 6 includes lamp plate support 601, fixed mounting has lamp plate support 601 on installing support 401, fixed mounting has lamp cup 602 on lamp plate support 601, be equipped with lamp pearl 603 in the lamp cup 602, a drive mechanism includes first driving motor 207, fixed mounting has link 206 on the rolling disc 203, fixed mounting has first driving motor 207 on the link 206, the transmission is connected with first rotation wheel 208 on first driving motor 207's the output shaft, the one end fixed mounting of first rotation axis 212 has second rotation wheel 209, be connected through first belt 210 transmission between first rotation wheel 208 and the second rotation wheel 209.

The second driving mechanism comprises a second driving motor 306, a first fixed frame 305 is fixedly installed on the side plate 303, a second driving motor 306 is fixedly installed on the first fixed frame 305, an output shaft of the second driving motor 306 is in transmission connection with a third rotating wheel 307, one end of a second rotating shaft 311 is fixedly installed with a fourth rotating wheel 308, and the third rotating wheel 307 and the fourth rotating wheel 308 are in transmission connection through a second belt 309.

First light hole 701 and second light hole 702 have been seted up on first casing 7, and fixed mounting has first printing opacity piece 703 in first light hole 701, and fixed mounting has second printing opacity piece 704 in the second light hole 702, and first printing opacity piece 703 corresponds with the 6 positions of light filling module, and second printing opacity piece 704 corresponds with 5 positions of camera lens module.

A top cover 9 is fixedly installed on the first shell 7, the top cover 9 and the first shell 7 are installed in a sealing mode through a sealing ring, an installation cover 10 is fixedly installed on the second shell 8, and the second shell 8 and the installation cover 10 are installed in a sealing mode through the sealing ring.

The base 1 is fixedly installed on equipment or a wall body, the first driving motor 207 is started to drive the first rotating wheel 208 to rotate, the second rotating wheel 209 is driven to rotate through the first belt 210, the first worm 213 is driven to rotate, the first worm wheel 202 is driven to rotate according to the meshing transmission principle of the latch, the chassis 204 is driven to rotate around the axis of the fixed rod 201, the second shell 8 is driven to rotate, the angle of the lens module 5 is adjusted, and the use is convenient;

the second driving motor 306 is started to drive the third rotating wheel 307 to rotate, the fourth rotating wheel 308 is driven to rotate through the second belt 309, the second worm 312 is driven to rotate, the second worm wheel 302 is driven to rotate around the axis of the rotating rod 301 according to the meshing transmission principle of the latch, the first shell 7 is driven to rotate, the angle of the lens module 5 is adjusted, and the use is convenient.

The third driving motor 407 is started to drive the first gear 408 to rotate, and the mounting barrel 404 is driven to rotate according to the meshing transmission principle of the latch, so that the angle of the lens module 5 is adjusted, and the use is convenient.

Realize the regulation of 5 angles of camera lens module through first rotating assembly 2, second rotating assembly 3 and third rotating assembly 4, make camera lens module 5 can catch bigger scope, realize the light filling function, convenient to use through light filling module 6 simultaneously.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A radiation-resistant pan-tilt camera structure is characterized by comprising a base (1), a first rotating assembly (2), a second rotating assembly (3), a third rotating assembly (4), a lens module (5), a light supplementing module (6), a first shell (7) and a second shell (8);

the first rotating component (2) comprises a fixed rod (201), the fixed rod (201) is fixedly arranged on the base (1), a first worm wheel (202) is fixedly arranged on the fixed rod (201), a rotating disc (203) is rotatably arranged on the base (1), a chassis (204) is fixedly arranged on the rotating disc (203), a through groove (205) is arranged in the chassis (204), the fixed rod (201) penetrates through the through groove (205), two first mounting plates (211) are fixedly mounted on the chassis (204), a first rotating shaft (212) is rotatably mounted between the two first mounting plates (211), a first worm (213) meshed with the first worm wheel (202) is fixedly arranged on the first rotating shaft (212), and a second shell (8) is fixedly mounted on the rotating disc (203), and a first driving mechanism is arranged on the rotating disc (203).

2. A radiation tolerant pan/tilt head camera structure according to claim 1, wherein the second rotation assembly (3) comprises a rotation rod (301), a side plate (303) is fixedly arranged in the second shell (8), a round hole (304) is arranged in the side plate (303), a rotating rod (301) is rotatably arranged in the round hole (304), a second worm wheel (302) is fixedly arranged on the rotating rod (301), two second mounting plates (310) are fixedly mounted on the side plate (303), a second rotating shaft (311) is rotatably mounted between the two second mounting plates (310), a second worm (312) meshed with the second worm wheel (302) is fixedly arranged on the second rotating shaft (311), and a second driving mechanism is arranged on the side plate (303), and the first shell (7) is fixedly installed on the rotating rod (301).

3. The radiation-resistant pan-tilt camera structure according to claim 2, wherein the third rotating assembly (4) comprises a mounting bracket (401), the mounting bracket (401) is fixedly mounted in the first housing (7), a mounting cylinder (404) is rotatably mounted in the mounting bracket (401), a second fixing frame (402) is fixedly mounted on the mounting bracket (401), a fixing block (403) is fixedly mounted on the second fixing frame (402), a first ring gear (405) is fixedly mounted at the bottom of the fixing block (403), a third driving motor (407) is fixedly mounted on the mounting cylinder (404), and a first gear (408) engaged with the first ring gear (405) is connected to an output shaft of the third driving motor (407) in a transmission manner.

4. A radiation-resistant pan-tilt camera structure according to claim 3, wherein the lens module (5) comprises a lens (501), and the lens (501) is fixedly installed at the bottom of the installation cylinder (404).

5. The radiation-resistant pan-tilt camera structure according to claim 4, wherein the light supplement module (6) comprises a lamp panel support (601), the lamp panel support (601) is fixedly mounted on the mounting support (401), a lamp cup (602) is fixedly mounted on the lamp panel support (601), and a lamp bead (603) is arranged in the lamp cup (602).

6. The radiation-resistant pan-tilt camera structure according to claim 5, wherein the first driving mechanism comprises a first driving motor (207), the rotating disc (203) is fixedly provided with a connecting frame (206), the connecting frame (206) is fixedly provided with a first driving motor (207), an output shaft of the first driving motor (207) is in transmission connection with a first rotating wheel (208), one end of the first rotating shaft (212) is fixedly provided with a second rotating wheel (209), and the first rotating wheel (208) and the second rotating wheel (209) are in transmission connection through a first belt (210).

7. The radiation-resistant pan-tilt camera structure according to claim 6, wherein the second driving mechanism comprises a second driving motor (306), the side plate (303) is fixedly provided with a first fixing frame (305), the first fixing frame (305) is fixedly provided with a second driving motor (306), an output shaft of the second driving motor (306) is in transmission connection with a third rotating wheel (307), one end of the second rotating shaft (311) is fixedly provided with a fourth rotating wheel (308), and the third rotating wheel (307) and the fourth rotating wheel (308) are in transmission connection through a second belt (309).

8. The radiation-resistant pan-tilt camera structure according to claim 7, wherein the first housing (7) is provided with a first light hole (701) and a second light hole (702), a first light transmissive sheet (703) is fixedly installed in the first light hole (701), a second light transmissive sheet (704) is fixedly installed in the second light transmissive hole (702), the first light transmissive sheet (703) corresponds to the light supplement module (6), and the second light transmissive sheet (704) corresponds to the lens module (5).

9. A radiation-resistant pan-tilt camera structure according to claim 8, wherein the first shell (7) is fixedly provided with a top cover (9), the top cover (9) and the first shell (7) are hermetically installed through a sealing ring, the second shell (8) is fixedly provided with a mounting cover (10), and the second shell (8) and the mounting cover (10) are hermetically installed through a sealing ring.