CN114143434A

CN114143434A - Anti-shaking device of tower monitoring camera

Info

Publication number: CN114143434A
Application number: CN202111490497.6A
Authority: CN
Inventors: 余盛达; 韩旭君; 黄强; 孔祥良; 沈文科; 林玉妮
Original assignee: Wenchang Power Supply Bureau of Hainan Power Grid Co Ltd
Current assignee: Wenchang Power Supply Bureau of Hainan Power Grid Co Ltd
Priority date: 2021-12-08
Filing date: 2021-12-08
Publication date: 2022-03-04
Anticipated expiration: 2041-12-08
Also published as: CN114143434B

Abstract

The invention provides an anti-shaking device of a tower monitoring camera, which comprises a camera, a fixed seat, a buffer rail and a mounting frame, wherein the mounting frame is fixed on a tower angle plate, the fixed seat is fixed on the mounting frame, a group of buffer grooves are symmetrically arranged on the fixed seat, two ends of the buffer rail are correspondingly and slidably connected into the group of buffer grooves, a first buffer spring is arranged between the buffer rail and the buffer grooves, the camera is slidably connected with the buffer rail through a fixed rod, the buffer rail, the first buffer spring and the group of buffer grooves are mutually matched to buffer shaking of the camera caused by wind from multiple directions, a wind-proof component is fixedly connected with the buffer rail, and the wind-proof component covers the upper part of the camera. The invention can buffer the shaking of the camera caused by wind power in all directions by the matching of the buffer rail and the buffer groove, improve the definition of the shot picture of the camera and enlarge the shooting range of the camera.

Description

Anti-shaking device of tower monitoring camera

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to an anti-shaking device of a tower monitoring camera.

Background

Along with the change of the intelligent power transmission inspection mode, the traditional manual inspection mode is primarily changed into intelligent video inspection mode, and a large number of online video monitoring devices are installed and deployed by power companies in Hainan province for monitoring the power transmission and transformation states and the operating environment, and the intelligent video inspection system is mainly designed for monitoring the power transmission line to prevent an external tower base from being broken, a tower crane in a construction site and a vehicle from passing through an overhead line. The power transmission video monitoring device realizes real-time video of a monitoring station, regularly shoots high-definition images and uploads alarm pictures to a monitoring center by utilizing the 4G/CDMA/GPRS technology of an operator. But video monitoring device is along with zooming multiple increase and electric power and patrol and examine the demand now, no longer satisfies in the passageway object and detects, and accessible video monitoring device can see clearly body of the tower accessory behavior, for example circuit pin, insulator chain, wire conductor spacer etc. but along with camera focus more, can enlarge the influence that external shake caused, the dynamic is trembled to the aggravation picture.

The existing camera is generally installed on a crosspiece support of a power transmission line, the thickness of the crosspiece support and the wind resistance level of the crosspiece support are relatively small, the nearby parts of a power transmission line iron tower are not shielded due to accessories, the wind speed is large, the ball machine is installed on the crosspiece support under the action of wind, physical shaking occurs, the anti-shaking effect of the existing anti-shaking equipment is not good, for example, the optical anti-shaking camera based on a multimedia server is disclosed as CN202120161907.1 and comprises an installation frame, a camera and an anti-shaking device, the installation frame is inserted into the anti-shaking device, one end of the installation frame is fixedly connected with the camera, the camera is of an internal cavity structure and is fixedly connected with the installation frame, the anti-shaking device is arranged on the side surface of the installation frame, the anti-shaking device is connected with the installation frame, shaking caused by wind power in all directions cannot be buffered, and the shooting effect of the camera is not good.

Disclosure of Invention

Therefore, the invention provides the anti-shaking device of the tower monitoring camera, which can buffer shaking of the camera caused by wind power in all directions through the matching of the buffer rail and the buffer groove, improve the definition of pictures shot by the camera and enlarge the shooting range of the camera.

The technical scheme of the invention is realized as follows:

the utility model provides a shaft tower surveillance camera head's anti-shake device, includes camera, fixing base, buffering rail and mounting bracket, the mounting bracket is fixed in on the shaft tower scute, be fixed with on the mounting bracket the fixing base, the fixing base symmetry is provided with a set of dashpot, sliding connection is corresponding in a set of at the both ends of buffering rail in the dashpot, the buffering rail with be equipped with first buffer spring between the dashpot, the camera pass through the dead lever with buffering rail sliding connection, the buffering rail first buffer spring and a set of the dashpot is mutually supported, and the buffering is right from the wind of a plurality of directions the shake that the camera produced, buffering rail fixedly connected with prevent wind the subassembly, prevent wind the subassembly cover in the upper portion of camera.

Furthermore, the buffer rail comprises a slide rail and a guide rod A, two ends of the slide rail are correspondingly connected in the buffer grooves in a sliding mode, the guide rod A is connected inside the slide rail, one end of the fixing rod is connected with the guide rod A in a sliding mode, and the guide rod A is sleeved with a second buffer spring A located on two sides of one end of the fixing rod.

Furthermore, one end of the fixed rod is provided with a through groove, the guide rod A penetrates through the through groove to be connected with the sliding rail, and the second buffer spring A is located on two sides of the through groove.

Furthermore, the sliding rail, the guide rod A and the second buffer spring A are all arc-shaped.

Further, the buffer slot and the first buffer spring are both arc-shaped.

Further, the mounting bracket includes mount pad, installation pole, first V type mounting panel and second V type mounting panel, the both ends of installation pole respectively with the mount pad with first V type mounting panel is connected, first V type mounting panel with the cooperation of second V type mounting panel will the mounting bracket is fixed in on the shaft tower scute.

Furthermore, slots are respectively arranged at two ends of the first V-shaped mounting plate and the second V-shaped mounting plate, reinforcing plates are inserted in the slots, and the reinforcing plates are provided with elastic clamping blocks.

Furthermore, the buffer rail further comprises a guide rod B, the guide rod B is connected to the inside of the sliding rail, the windproof component is connected with the guide rod B in a sliding mode, and second buffer springs B located on two sides of the windproof component are sleeved on the guide rod B in a sleeved mode.

Further, prevent wind the subassembly and include windshield, sleeve, swivel becket and connecting rod, connecting rod one end with guide arm B sliding connection, the free end of connecting rod with muffjoint, the sleeve cup joint in the outside of dead lever, the swivel becket with the sleeve rotates to be connected, the swivel becket with the windshield is connected, the windshield in the upper portion of camera.

Further, the windshield is an oval windshield.

Compared with the prior art, the invention has the beneficial effects that:

according to the anti-shaking device for the tower monitoring camera, the buffer rail can play a role in buffering the camera in the horizontal direction, the buffer groove plays a role in buffering the camera in the circumferential direction, and through the matching of the buffer groove, the first buffer spring and the buffer rail, the shaking of the camera caused by wind power in various directions can be buffered, so that the stability of the camera is improved, and the definition of a picture shot by the camera is maintained; the camera shake is buffered, and meanwhile, the shooting range of the camera can be expanded by the displacement of the camera; the windproof component covers the upper part of the camera, so that the shooting of the camera is not influenced, the wind area of the camera can be reduced, and the resistance to wind power is reduced; the camera is installed on the tower angle plate through the installation frame, and the stability of the camera in physical installation is improved.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of an anti-shaking device of a tower monitoring camera according to the present invention;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a buffer rail according to the present invention;

FIG. 4 is a schematic structural diagram of a fixing rod according to the present invention;

FIG. 5 is a schematic cross-sectional view of the fixing base of the present invention;

FIG. 6 is a schematic cross-sectional view of a buffer rail according to the present invention;

in the figure, 1 camera, 2 fixing seats, 3 buffer rails, 4 sliding rails, 5 guide rods A, 6 second buffer springs A, 7 mounting frames, 8 mounting seats, 9 mounting rods, 10 first V-shaped mounting plates, 11 second V-shaped mounting plates, 12 inserting grooves, 13 reinforcing plates, 14 elastic clamping blocks, 15 through grooves, 16 buffer grooves, 17 first buffer springs, 18 fixing rods, 19 windproof components, 20 windproof covers, 21 sleeves, 22 connecting rods, 23 rotating rings, 24 second buffer springs B and 25 guide rods B.

Detailed Description

In order to better understand the technical content of the invention, specific embodiments are provided below, and the invention is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 5, the anti-shaking device for the tower monitoring camera provided by the invention comprises a camera 1, a fixed seat 2, a buffer rail 3 and a mounting frame 7, wherein the mounting frame 7 is fixed on a tower angle plate, the anti-shaking device is mounted on the tower angle plate through the mounting frame 7, the mounting stability is improved, the fixed seat 2 is fixed on the mounting frame 7, a group of buffer grooves 16 are symmetrically arranged on the fixed seat 2, two ends of the buffer rail 3 are correspondingly and slidably connected in the group of buffer grooves 16, the buffer grooves 16 are arc-shaped, so that the buffer rail 3 can do circular motion in the buffer grooves 16, the arc length of the buffer grooves 16 is small, the camera 1 is prevented from excessively rotating upwards during buffering, a first buffer spring 17 is arranged between the buffer rail 3 and the buffer grooves 16, and the camera 1 can play a role of buffering when shaking due to wind, the definition of pictures shot by the camera 1 is improved, the camera 1 is in sliding connection with the buffer rail 3 through the fixing rod 18, the buffer rail 3, the first buffer spring 17 and the buffer groove 16 are matched with each other to buffer the shaking of the camera 1 caused by wind from multiple directions, the shaking caused by the wind from multiple directions is buffered through the matching of the buffer groove 16, the first buffer spring 17 and the buffer rail 3, the applicability is high, the buffer rail 3 is fixedly connected with the windproof component 19, the windproof component 19 covers the upper part of the camera 1, the size of the camera 1 is large, the windproof component 19 can reduce the wind area of the camera 1, and the shaking degree of the camera 1 is further reduced.

The working principle is as follows: the invention can be fixed on a tower angle plate through the mounting rack 7, so that the contact area of the mounting rack 7 is increased, and the mounting stability of the camera 1 is improved to a certain extent; when the camera 1 shakes by wind, the buffer rail 3 can play a buffer effect on the camera 1 in the horizontal direction, and has an anti-shaking effect, and the two ends of the buffer rail 3 are provided with the buffer grooves 16, and can play a buffer effect on the buffer rail 3 in the circumferential direction, so as to play a buffer effect in the circumferential direction on the camera 1 connected to the buffer rail 3 through the fixing rod 18, through the cooperation of the buffer rail 3 and the buffer grooves 16, the buffer effect can be played on the shaking caused by wind force in all directions of the camera 1, the definition of a picture shot by the camera 1 is improved, and in the buffer process, the shooting range of the camera 1 can be enlarged by the position change of the camera 1.

Specifically, buffer rail 3 includes slide rail 4 and guide arm A5, the both ends of slide rail 4 correspond sliding connection in a set of in the dashpot 16, guide arm A5 connect in inside the slide rail 4, the one end of dead lever 18 with guide arm A5 sliding connection, cup joint on the guide arm A5 and be located the second buffer spring A6 of dead lever 18 one end both sides. When the camera 1 shakes due to wind, the fixing rod 18 can move in the slide rail 4 along the guide rod a5, and the second buffer spring a6 arranged in the slide rail 4 can buffer the movement of the fixing rod 18, so that the shaking degree of the camera 1 can be reduced in the horizontal direction.

Specifically, one end of the fixing rod 18 is provided with a through slot 15, the guide rod a5 passes through the through slot 15 to be connected with the slide rail 4, and the second buffer spring a6 is located at two sides of the through slot 15. The through groove 15 is matched with the guide rod A5 to play a role in guiding.

Specifically, the slide rail 4, the guide rod a5 and the second buffer spring a6 are all arc-shaped. The fixing lever 18 is made to move in the direction of the arc guide a5 in the horizontal direction, which improves the shooting range of the video camera 1 while reducing the shake.

Specifically, the buffer slot 16 and the first buffer spring 17 are both arc-shaped. The buffer rail 3 makes circular motion in the buffer groove 16, and the vibration of the camera 1 caused by wind power in all directions is reduced by matching with the buffer effect of the buffer rail 3.

Example 2

Referring to fig. 1 to 2, the present embodiment differs from embodiment 1 in that: mounting bracket 7 includes mount pad 8, installation pole 9, first V type mounting panel 10 and second V type mounting panel 11, the both ends of installation pole 9 respectively with mount pad 8 with first V type mounting panel 10 is connected, first V type mounting panel 10 with the cooperation of second V type mounting panel 11 will mounting bracket 7 is fixed in on the shaft tower scute. The angle plate fixing device is fixed on a tower angle plate through the first V-shaped mounting plate 10 and the second V-shaped mounting plate 11, so that the contact area is increased, and the mounting stability of the angle plate fixing device is improved.

Specifically, slots 12 are respectively arranged at two ends of the first V-shaped mounting plate 10 and the second V-shaped mounting plate 11, a reinforcing plate 13 is inserted into the slots 12, and the reinforcing plate 13 is provided with an elastic clamping block 14. The distance between the first V-shaped mounting plate 10 and the second V-shaped mounting plate 11 can be limited by the reinforcing plate 13, so that the first V-shaped mounting plate 10 is prevented from being separated from the second V-shaped mounting plate 11 due to loosening of bolts after long-time use, and the reinforcing plate 13 can be prevented from being separated from the elastic clamping block 14 of the slot 12.

Example 3

Referring to fig. 1 and 6, the present embodiment is different from embodiment 1 in that: the buffer rail 3 further comprises a guide rod B25, the guide rod B is connected to the inside of the slide rail 4, the windproof component 19 is connected with the guide rod B in a sliding manner, and second buffer springs B24 located on two sides of the windproof component 19 are sleeved on the guide rod B25. The buffering function is achieved, the buffering direction is consistent with the buffering direction of the camera 1, and meanwhile the camera 1 and the windproof component 19 are kept to have the synchronous buffering function.

Specifically, the windproof component 19 includes a windproof cover 20, a sleeve 21, a rotating ring 23 and a connecting rod 22, one end of the connecting rod 22 is slidably connected to the guide rod B, a free end of the connecting rod 22 is connected to the sleeve 21, the sleeve 21 is sleeved on the outer side of the fixing rod 18, the rotating ring 23 is rotatably connected to the sleeve 21, the rotating ring 23 is connected to the windproof cover 20, and the windproof cover 20 covers the upper portion of the camera 1. On wind-force can direct action windshield 20, windshield 20 can rotate along with the wind, reduces the resistance, reduces camera 1's the area that receives the wind, and does not influence camera 1's shooting, and sleeve 21 cup joints outside dead lever 18, and is not connected with dead lever 18.

Specifically, the windshield 20 is an elliptical windshield 20. Fitting the shape of the camera 1 and reducing drag.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a shaft tower surveillance camera head's anti-shake moves device which characterized in that: including camera, fixing base, buffering rail and mounting bracket, the mounting bracket is fixed in on the shaft tower scute, be fixed with on the mounting bracket the fixing base, the fixing base symmetry is provided with a set of dashpot, the both ends of buffering rail correspond sliding connection in a set of in the dashpot, the buffering rail with be equipped with first buffer spring between the dashpot, the camera pass through the dead lever with buffering rail sliding connection, the buffering rail first buffer spring and a set of the dashpot is mutually supported, and the buffering comes from the wind of a plurality of directions right the shake that the camera produced, buffering rail fixedly connected with prevent wind the subassembly, prevent wind the subassembly cover in the upper portion of camera.

2. The anti-shaking device for the tower monitoring camera according to claim 1, wherein: the buffer rail comprises a slide rail and a guide rod A, the two ends of the slide rail are correspondingly connected in the buffer grooves in a sliding mode, the guide rod A is connected inside the slide rail, one end of the fixed rod is connected with the guide rod A in a sliding mode, and the guide rod A is sleeved with a second buffer spring A located on two sides of one end of the fixed rod.

3. The anti-shaking device for the tower monitoring camera according to claim 2, wherein: one end of the fixed rod is provided with a through groove, the guide rod A penetrates through the through groove to be connected with the sliding rail, and the second buffer spring A is located on two sides of the through groove.

4. The anti-shaking device for the tower monitoring camera according to claim 3, wherein: the sliding rail, the guide rod A and the second buffer spring A are all arc-shaped.

5. The anti-shaking device for the tower monitoring camera according to claim 1, wherein: the buffer slot and the first buffer spring are both arc-shaped.

6. The anti-shaking device for the tower monitoring camera according to claim 1, wherein: the mounting bracket comprises a mounting seat, a mounting rod, a first V-shaped mounting plate and a second V-shaped mounting plate, wherein the two ends of the mounting rod are respectively connected with the mounting seat and the first V-shaped mounting plate, and the first V-shaped mounting plate is matched with the second V-shaped mounting plate to fix the mounting bracket on the tower angle plate.

7. The anti-shaking device for the tower monitoring camera according to claim 6, wherein: the two ends of the first V-shaped mounting plate and the two ends of the second V-shaped mounting plate are respectively provided with a slot, a reinforcing plate is inserted in the slot, and the reinforcing plate is provided with an elastic clamping block.

8. The anti-shaking device for the tower monitoring camera according to claim 2, wherein: the buffer rail further comprises a guide rod B, the guide rod B is connected to the inside of the sliding rail, the windproof component is connected with the guide rod B in a sliding mode, and second buffer springs B located on two sides of the windproof component are sleeved on the guide rod B in a sleeved mode.

9. The anti-shaking device for the tower monitoring camera according to claim 8, wherein: the windproof component comprises a windproof cover, a sleeve, a rotating ring and a connecting rod, one end of the connecting rod is in sliding connection with the guide rod B, the free end of the connecting rod is in sleeve connection, the sleeve is sleeved on the outer side of the fixing rod, the rotating ring is in rotating connection with the sleeve, the rotating ring is connected with the windproof cover, and the windproof cover is arranged on the upper portion of the camera.

10. The anti-shake apparatus for a tower surveillance camera of claim 9, wherein: the windshield is an oval windshield.