CN211981986U

CN211981986U - Telescopic rotating network camera

Info

Publication number: CN211981986U
Application number: CN202021053322.XU
Authority: CN
Inventors: 黄鑫松
Original assignee: Foshan Qizheng Network Technology Co ltd
Current assignee: Foshan Qizheng Network Technology Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2020-11-20
Anticipated expiration: 2030-06-09

Abstract

The utility model discloses a flexible network camera that rotates. The telescopic rotating network camera comprises a camera shell and a camera, wherein a telescopic rainproof device is arranged at the top of the camera shell and comprises a telescopic adjusting bin, a fixed plate and a telescopic plate are arranged in the telescopic adjusting bin, the fixed plate and the telescopic adjusting bin are fixedly installed, the telescopic plate is in sliding fit with the fixed plate, and the extending position of the telescopic plate is obliquely above the camera; still including the flexible complex telescopic adjustment structure of drive expansion plate and flexible regulation storehouse, camera housing bottom is equipped with rotates the seat, rotates the seat top and is equipped with and rotates a seat fixed plate, rotates the inside rotation drive structure that is equipped with of seat. The utility model discloses flexible network camera that rotates through setting up flexible regulation structure and expansion plate, realizes the flexible action of expansion plate, under the heavy rain weather condition, stretches out the expansion plate, effectively shelters from the rainwater and protects the camera.

Description

Telescopic rotating network camera

Technical Field

The utility model relates to a network camera field, in particular to flexible network camera that rotates.

Background

The webcam is a new generation of webcam produced by combining traditional webcams and web technologies, and can transmit images to the other end of the earth through the web, and a remote browser can monitor the images without any specialized software, as long as the standard web browser (such as "Microsoft IE or Netscape") is used.

At present, a dust cover is usually arranged above a camera of a common network camera, but under general conditions, in order to avoid influencing the camera shooting effect, the dust cover is short, and rainwater is easily poured into equipment to cause damage in the face of some heavy rain weather; therefore, how to meet the requirement of daily use without shielding a visual angle and protect the camera in severe weather such as heavy rain is the technical problem to be solved by the application;

at present, the camera rotating structure on the market adopts a motor or a motor to control rotation, but the rotating force provided by the rotation is insufficient, and the camera is easily blocked in an outdoor environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a scalable rain insensitive device, and have powerful rotation function, the flexible network camera that rotates that adjusts that stretches out and draws back to dustproof rain-proof apron.

In order to achieve the purpose, the utility model adopts the following technical scheme that the telescopic rotating network camera comprises a camera shell and a camera, a telescopic rainproof device is arranged at the top of the camera shell and comprises a telescopic adjusting bin, a fixed plate and a telescopic plate are arranged in the telescopic adjusting bin, the fixed plate and the telescopic adjusting bin are fixedly arranged, the telescopic plate is in sliding fit with the fixed plate, and the extending position of the telescopic plate is obliquely above the camera;

the network camera rotating structure comprises a camera shell, wherein a rotating seat is arranged at the bottom of the camera shell, a rotating seat fixing plate is arranged at the top end of the rotating seat, a rotating driving structure is arranged in the rotating seat, the rotating driving structure comprises a rotating shaft, the rotating shaft penetrates through the rotating seat fixing plate, and the rotating shaft is in rotating fit with the bottom of the camera shell;

the rotation driving structure comprises a driving cylinder, a first transmission rod, a second transmission rod and a driving rod which are matched with each other, the driving cylinder is driven to be connected with a rotating seat and driven to be connected with the driving rod, one end of the driving rod is connected with the driving cylinder, the other end of the driving rod is a contraction rod and is fixedly installed with the rotating seat, the first transmission rod is provided with a first sliding groove, one end of the first transmission rod is fixedly connected with a rotating shaft, one end of the second transmission rod is hinged to the rotating seat, the other end of the second transmission rod is provided with a first sliding block, the first sliding block is in sliding fit with the first sliding groove, the driving rod is provided with a driving sliding groove, the.

The telescopic adjusting structure comprises a telescopic cylinder, a first connecting rod and a second connecting rod, one end of the first connecting rod is riveted with the fixed plate, the other end of the first connecting rod is riveted with an output shaft of the telescopic cylinder, one end of the second connecting rod is riveted with the telescopic plate, and the other end of the second connecting rod is riveted with the output shaft of the telescopic cylinder;

the camera control system further comprises a control chip, wherein the control chip is arranged in the camera shell and is electrically connected with the driving cylinder and the telescopic cylinder.

The utility model discloses flexible network camera that rotates through setting up flexible regulation structure and expansion plate, realizes the flexible action of expansion plate, under the heavy rain weather condition, stretches out the expansion plate, effectively shelters from the rainwater and protects the camera; through setting up mechanical rotation drive structure, realize one hundred eighty degrees rotations of camera through the cylinder drive, the rotation process is stable powerful, and the supporting role is strong, does not rock, has ensured the precision and the picture stability of rotation process.

In some embodiments, the fixed plate is provided with a sliding groove, and the riveting part of the second connecting rod and the telescopic plate is provided with a sliding block which is in sliding fit with the sliding groove.

In some embodiments, the first link is shorter in length than the second link.

In some embodiments, the camera housing is provided with side protection plates on both sides, and the side protection plates are fixedly connected with the telescopic rainproof device.

In some embodiments, the expansion plate expands and contracts in a range of 0CM to 10 CM.

In some embodiments, the first and second runners are semi-circular keyways therethrough, and the first and second blocks are cylindrical blocks mating with the semi-circular keyways. The cylinder piece has injectd the slip stroke with semicircle keyway sliding fit, slides and has certain resistance.

In some embodiments, the rotatable base includes a flange, and the rotatable shaft is mounted within the flange. The flange is arranged and fixed through the flange, and the rotating shaft penetrates through a round hole in the middle of the flange to realize the limiting and positioning of the rotating shaft.

In some embodiments, the driving rod is driven by the driving cylinder to move horizontally, the first sliding chute is a horizontal sliding chute, and the driving sliding chute is a vertical sliding chute.

The utility model has the advantages that: the utility model discloses flexible network camera that rotates, through set up flexible regulation storehouse at camera shell top to set up flexible regulation structure and expansion plate in flexible regulation storehouse, realize the flexible control of expansion plate, when the expansion plate stretches out, the effectual influence that shelters from the rainwater to the camera, when daily use, the expansion plate retracts, can not cause the influence to angle of making a video recording and field of vision; through setting up mechanical rotation drive structure, realize that one hundred eighty degrees of camera rotate through the cylinder drive, the rotation process is stable powerful, and the supporting role is strong, does not rock, has ensured the precision and the picture stability that the camera rotated the process.

Drawings

Fig. 1 is a schematic structural view of the telescopic rotating network camera of the present invention;

FIG. 2 is a schematic structural view of the telescopic adjustment structure of the present invention;

fig. 3 is a schematic structural view of the rotation driving structure of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, the telescopic rotating network camera comprises a camera housing 1 and a camera 2, a telescopic rain-proof device 3 is arranged at the top of the camera housing 1, the telescopic rain-proof device 3 comprises a telescopic adjusting bin 31, a fixing plate 32 and a telescopic plate 33 are arranged in the telescopic adjusting bin 31, the fixing plate 32 and the telescopic adjusting bin 31 are fixedly installed, the telescopic plate 33 is in sliding fit with the fixing plate 32, and the extending position of the telescopic plate 33 is obliquely above the camera 2;

still including the flexible regulation structure 4 of the flexible complex of drive expansion plate 33 and flexible regulation storehouse 31, flexible regulation structure 4 includes telescopic cylinder 41, first connecting rod 42 and second connecting rod 43, and first connecting rod 42 one end is riveted with fixed plate 32, and the other end is riveted with telescopic cylinder 41 output shaft, and second connecting rod 43 one end is riveted with expansion plate 33, and the other end is riveted with telescopic cylinder 41 output shaft.

The fixed plate 32 is provided with a sliding groove 34, and the riveting part of the second connecting rod 43 and the expansion plate 33 is provided with a sliding block which is in sliding fit with the sliding groove 34.

The first link 42 is shorter in length than the second link 43.

The two sides of the camera shell 1 are provided with side protection plates 11, and the side protection plates 11 are fixedly connected with the telescopic rainproof device 3.

The expansion range of the expansion plate 33 is 0-10 CM.

In a normal state, the telescopic plate 33 is retracted in the telescopic adjusting bin 31, so that the normal use of the camera 2 is not influenced, and the shooting angle and the visual field of the camera 2 are ensured;

the bottom of camera shell 1 is equipped with rotates seat 5, rotates 5 tops of seat and is equipped with and rotates seat fixed plate 51, rotates 5 inside rotation drive structures that are equipped with of seat, rotates drive structure and includes axis of rotation 52, and axis of rotation 52 runs through and rotates seat fixed plate 51, axis of rotation 52 and camera shell 1 bottom normal running fit.

The camera housing 1 is provided with a rain-shielding cap 11, and the rain-shielding cap 11 is arranged at the top of the housing 1 and extends to the front end.

The rotation driving structure comprises a driving cylinder 61, a first driving rod 62, a second driving rod 63 and a driving rod 64 which are matched with each other, the driving cylinder 61 is fixedly installed on a rotating seat 5 and is in driving connection with the driving rod 64, one end of the driving rod 64 is connected with the driving cylinder 61, the other end of the driving rod 64 is a contraction rod and is fixedly installed on the rotating seat 5, the first driving rod 62 is provided with a first sliding groove 65, one end of the first driving rod 62 is fixedly connected with the rotating shaft 52, one end of the second driving rod 63 is hinged to the rotating seat 5, the other end of the second driving rod is provided with a first sliding block 66, the first sliding block 66 is in sliding fit with the first sliding groove 65, the driving rod 64 is provided with a driving sliding groove 67, the second driving rod 63 is provided.

The first sliding groove 65 and the driving sliding groove 67 are semi-circular key grooves which penetrate through the sliding groove, and the first sliding block 66 and the second sliding block 68 are cylindrical blocks matched with the semi-circular key grooves.

The rotary base 5 includes a flange 53, and the rotary shaft 52 is installed in the flange 53.

The driving rod 64 is driven by the driving cylinder 61 to move horizontally, the first chute 65 is a horizontal chute, and the driving chute 67 is a vertical chute.

Still include control chip sets up in camera shell 1, control chip and the electric connection of driving cylinder 61 and telescopic cylinder 41.

As shown in fig. 2, the expansion plate 33 is expanded to the maximum position; when the protection needs to be strengthened, the driving rod of the telescopic cylinder 41 moves upwards (in the direction shown in fig. 2), the first connecting rod 42 and the second connecting rod 43 rotate under the driving of the driving rod, because one end of the first connecting rod 42 is riveted with the fixed plate 32, the horizontal displacement does not occur, the right end of the second connecting rod 43 is riveted with the sliding block, the sliding block is embedded in the sliding groove 34 and can only move in the horizontal direction, and therefore, in the process of pushing up the telescopic cylinder 41, the right end of the second connecting rod 43 moves towards the right horizontal direction, namely, the telescopic plate 33 is driven to extend out of the telescopic adjusting bin 31 towards the right. When the retractable plate needs to be retracted, the retractable cylinder 41 drives the rod to move downwards, which drives the right end of the second connecting rod 43 to move horizontally leftwards, and drives the retractable plate 33 to retract into the retractable adjustment bin 31 leftwards.

In operation, as shown in fig. 3, the driving rod 64 is at the leftmost side, the driving cylinder 61 drives the driving rod 64 to move horizontally to the right, the right end of the driving rod 64 contracts, the driving rod 64 is in transmission with the second slide block 68 through the driving slide slot 67, the second slide block 68 moves upwards and rightwards, and slide upwards in the driving slide groove 67, the second transmission rod 63 rotates clockwise with the hinged part with the rotating seat 1 as a fulcrum, the first transmission rod 62 is driven to rotate clockwise by the first slide block 66 fixedly connected with the second transmission rod 63 in the rotating process of the second transmission rod 63, at this time, the first slide block 66 slides rightwards in the first slide groove 65, the rotating shaft 52 is driven to rotate clockwise while the first transmission rod 62 rotates clockwise, when the driving lever 64 reaches the rightmost side, the second slider 68 reaches the uppermost position in the driving slide groove 67, the first slider 66 reaches the rightmost position of the first slide groove 65, and the rotating shaft 52 rotates 180 degrees, completing one 180-degree rotation.

The driving rod 64 is driven back and forth by the driving cylinder 61, and the clockwise-anticlockwise sequential 180-degree rotation of the rotating shaft 52 is realized.

When the rotating shaft 52 rotates, the camera can be driven to rotate by being fixedly installed at the bottom of the camera shell 1.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The telescopic rotating network camera comprises a camera shell (1) and a camera (2), and is characterized in that a telescopic rainproof device (3) is arranged at the top of the camera shell (1), the telescopic rainproof device (3) comprises a telescopic adjusting bin (31), a fixing plate (32) and a telescopic plate (33) are arranged in the telescopic adjusting bin (31), the fixing plate (32) and the telescopic adjusting bin (31) are fixedly installed, the telescopic plate (33) is in sliding fit with the fixing plate (32), and the extending position of the telescopic plate (33) is obliquely above the camera (2);

the bottom of the camera shell (1) is provided with a rotating seat (5), the top end of the rotating seat (5) is provided with a rotating seat fixing plate (51), a rotating driving structure is arranged in the rotating seat (5), the rotating driving structure comprises a rotating shaft (52), the rotating shaft (52) penetrates through the rotating seat fixing plate (51), and the rotating shaft (52) is in rotating fit with the bottom of the camera shell (1);

the rotary driving structure comprises a driving cylinder (61), a first transmission rod (62), a second transmission rod (63) and a driving rod (64) which are matched with each other, the driving cylinder (61) is fixedly installed on a rotating seat (5) and is in drive connection with the driving rod (64), one end of the driving rod (64) is connected with the driving cylinder (61), the other end of the driving rod (64) is a contraction rod and is fixedly installed on the rotating seat (5), the first transmission rod (62) is provided with a first sliding groove (65), one end of the first transmission rod (62) is fixedly connected with a rotating shaft (52), one end of the second transmission rod (63) is hinged with the rotating seat (5), the other end of the second transmission rod is provided with a first sliding block (66), the first sliding block (66) is in sliding fit with the first sliding groove (65), the driving rod (64) is provided with a driving sliding groove (67), the second transmission rod (63) is provided with a second sliding block, the second sliding block (68) is in sliding fit with the driving sliding groove (67);

the telescopic adjusting mechanism comprises a telescopic adjusting structure (4) which drives a telescopic plate (33) to be in telescopic fit with a telescopic adjusting bin (31), wherein the telescopic adjusting structure (4) comprises a telescopic cylinder (41), a first connecting rod (42) and a second connecting rod (43), one end of the first connecting rod (42) is riveted with a fixing plate (32), the other end of the first connecting rod is riveted with an output shaft of the telescopic cylinder (41), one end of the second connecting rod (43) is riveted with the telescopic plate (33), and the other end of the second connecting rod is riveted with the output shaft of the telescopic cylinder (41);

the camera control system is characterized by further comprising a control chip, wherein the control chip is arranged in the camera shell (1), and is electrically connected with the driving cylinder (61) and the telescopic cylinder (41).

2. The telescopic rotary network camera head according to claim 1, wherein the fixing plate (32) is provided with a sliding groove (34), and a sliding block is arranged at the riveting position of the second connecting rod (43) and the telescopic plate (33), and is in sliding fit with the sliding groove (34).

3. A telescopic rotary network camera according to claim 1, in which the first link (42) is shorter in length than the second link (43).

4. The telescopic rotary network camera according to claim 1, wherein side protection plates (11) are arranged on two sides of the camera housing (1), and the side protection plates (11) are fixedly connected with the telescopic rainproof device (3).

5. The telescopic rotary network camera according to claim 1, wherein the telescopic range of the telescopic plate (33) is 0-10 CM.

6. The telescopic rotary network camera according to claim 1, wherein the first runner (65) and the driving runner (67) are through semicircular keyways, and the first slider (66) and the second slider (68) are cylindrical blocks matched with the semicircular keyways.

7. A telescopic rotary network camera according to claim 1, in which the rotary mount (5) comprises a flange (53), the rotary shaft (52) being mounted in the flange (53).

8. The telescopic rotary network camera according to claim 1, wherein the driving rod (64) is driven by a driving cylinder (61) to move horizontally, the first sliding chute (65) is a horizontal sliding chute, and the driving sliding chute (67) is a vertical sliding chute.