CN213484966U - Signal tower high altitude self-detection device - Google Patents

Abstract

The application relates to a high-altitude self-detection device of a signal tower, which belongs to the technical field of wireless communication and is installed at the top of a tower body, an operation platform is fixedly connected with the top of the tower body, a camera is installed on the upper side of the operation platform, and a driving mechanism for driving the camera to rotate is fixedly connected onto the operation platform. The signal tower top real-time monitoring system has the effect of being convenient for carry out real-time monitoring on the electrical components at the top of the signal tower.

Description

Signal tower high altitude self-detection device

Technical Field

The application relates to the technical field of wireless communication, in particular to a signal tower high altitude self-detection device.

Background

The signal tower for wireless communication is disclosed by the prior Chinese utility model patent with the authorization bulletin number of CN211776293U, which comprises a signal tower main body, a spacing section of thick bamboo is installed to signal tower main body outside bottom, the installation base is installed to the lower extreme of a spacing section of thick bamboo, the upper end surface mounting of the installation base in the outside of a spacing section of thick bamboo has the reinforced rib plate, be provided with two sets of stop gear between a spacing section of thick bamboo and the signal tower main body, the lightning rod is installed to the upper end of signal tower main body, be provided with coupling mechanism between signal tower main body and the lightning rod.

In view of the above-mentioned related technologies, the inventor believes that there are usually many electrical components placed on the top of the signal tower, and it is difficult to monitor the usage of the electrical components in real time during the usage process because the electrical components are located at relatively high positions.

SUMMERY OF THE UTILITY MODEL

In order to facilitate real-time monitoring of electrical components at the top of the signal tower, the application provides a signal tower altitude self-detection device.

The application provides a high latitude of signal tower is from detection device adopts following technical scheme:

the utility model provides a high latitude of signal tower is from detection device, installs at tower body top, tower body top fixedly connected with operation platform, the camera is installed to operation platform's upside, fixedly connected with drive camera carries out pivoted actuating mechanism on the operation platform.

Through adopting above-mentioned technical scheme, when needs examine the electrical components on the operation platform, utilize actuating mechanism to drive the camera and rotate, can the omnidirectional when the camera rotates monitor operation platform to can realize subaerial detecting operation platform.

Optionally, the driving mechanism comprises a driving motor fixedly connected to the operating platform, a bevel gear set is installed on a motor shaft of the driving motor, a vertically-arranged rotating shaft is installed on the bevel gear set, and the top of the rotating shaft is fixedly connected with an installation frame used for installing the camera.

Through adopting above-mentioned technical scheme, when needs are monitored operation platform, start driving motor and drive the axis of rotation and rotate, can drive the mounting bracket when the axis of rotation rotates and rotate, because the camera is installed on the mounting bracket to can realize driving the camera and rotate together.

Optionally, the mounting bracket includes the bottom plate with axis of rotation fixed connection, the both sides of bottom plate are the fixed plate of the vertical setting of fixedly connected with respectively, the camera slides with the bottom plate and pegs graft and fix.

Through adopting above-mentioned technical scheme, when the camera is installed, through simple slip grafting, can conveniently install the camera.

Optionally, the upper surface of the base plate is fixedly connected with a guide post, a guide groove in sliding insertion connection with the guide post is formed in the bottom of the camera, and the camera penetrates through the guide groove and is provided with a positioning assembly in mutual insertion connection with the camera.

Through adopting above-mentioned technical scheme, when installing the camera, at first aim at the guide post on the bottom plate with the guide way of camera body bottom, then with the camera slip grafting on the bottom plate, utilize locating component to fix the position of camera at last to avoid rotating in-process camera and mounting bracket separation.

Optionally, the positioning assembly comprises a positioning pin penetrating through the fixing plate and mutually inserted into the camera, the positioning pin is located on the fixing block fixedly connected with the end part of the outer side of the fixing plate, and a spring with two ends respectively fixed with the fixing plate and the fixing block is sleeved on the positioning pin at a position between the fixing plate and the fixing block.

Through adopting above-mentioned technical scheme, when fixing the camera, the pulling fixed block moves towards the direction of keeping away from the fixed plate, when the locating pin is located the outside of fixed plate, slides the camera and pegs graft on the mounting bracket, not hard up fixed block this moment, and the locating pin can be pegged graft under the spring action of spring and pass the fixed plate and peg graft on the camera to the realization is fixed the camera.

Optionally, the top of the fixing plate is fixedly connected with a cover plate for shielding the camera.

Through adopting above-mentioned technical scheme, can play the effect of keeping out rain through setting up the apron to can shelter from the rainwater as far as in rainy day, reduce the possibility that the rainwater falls on the camera lens, guarantee the cleanliness of camera lens.

Optionally, one end of the cover plate close to the camera lens is fixedly connected with a downward-inclined baffle.

Through adopting above-mentioned technical scheme, can further promote the effect of keeping out the rain through setting up the baffle to guarantee the cleanliness of camera lens as far as.

Optionally, an electric heating wire is mounted on the side wall of the baffle plate close to the camera.

Through adopting above-mentioned technical scheme, in the cold winter of weather, the condition of frosting probably appears on the camera lens, can promote the temperature around the camera through setting up electric heating wire to can reduce the possibility of frosting on the camera lens.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the rotatable camera is arranged on the upper side of the operating platform, so that the electrical components on the operating platform can be monitored in real time;

2. the cover plate is arranged on the upper side of the camera, so that the effect of shielding rain can be achieved, rainwater can be shielded as much as possible in rainy days, the possibility that the rainwater falls on the camera lens is reduced, and the cleanliness of the camera lens is guaranteed;

3. in the cold winter of weather, the condition of frosting may appear on the camera lens, can promote the temperature around the camera through setting up electric heating wire to can reduce the possibility of frosting on the camera lens.

Drawings

Fig. 1 is a schematic structural diagram showing a tower body and an overhead self-detection device in the embodiment.

Fig. 2 is a schematic structural diagram of the high altitude self-detection apparatus in this embodiment.

Fig. 3 is a schematic structural diagram showing the camera head mounted on the mounting bracket in this embodiment.

Description of reference numerals: 1. a tower body; 2. an operating platform; 3. a lightning rod; 4. a camera; 41. a guide groove; 5. a drive mechanism; 51. a drive motor; 52. a storage battery; 53. a bevel gear set; 54. a rotating shaft; 55. a mounting frame; 551. a base plate; 5511. a guide post; 552. a fixing plate; 56. a positioning assembly; 561. positioning pins; 562. a fixed block; 563. a spring; 6. a housing; 7. a cover plate; 8. a baffle plate; 81. an electric heating wire.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses high-altitude self-detection device for signal tower. Referring to fig. 1 and 2, the signal tower altitude self-detection device is arranged at the top of the tower body 1, an operating platform 2 is fixedly connected to the top of the tower body 1, and a lightning rod 3 is fixedly mounted at the circle center of the operating platform 2. A camera 4 for detecting electrical components is arranged above the operating platform 2 and outside the lightning rod 3, a driving mechanism 5 for driving the camera 4 to rotate is arranged on the operating platform 2, and a shell 6 fixedly connected with the operating platform 2 is arranged outside the driving mechanism 5.

Referring to fig. 2, the driving mechanism 5 includes a driving motor 51 fixedly mounted on the operation platform 2, a storage battery 52 is connected to the driving motor 51, and a power supply for charging the storage battery 52 is further disposed outside the housing 6. A bevel gear set 53 is mounted on a motor shaft of the driving motor 51, a vertically arranged rotating shaft 54 is connected through the bevel gear set 53, the top end of the rotating shaft 54 penetrates through the upper surface of the shell 6, and a mounting frame 55 for mounting the camera 4 is fixedly connected to the top end of the rotating shaft 54, which is located on the outer side of the shell 6.

Referring to fig. 2 and 3, the mounting bracket 55 includes a base plate 551 horizontally disposed, fixing plates 552 vertically disposed and fixedly connected to both sides of an upper surface of the base plate 551, guide posts 5511 fixedly connected to the base plate 551 and disposed along a length direction of the fixing plates 552, guide grooves 41 slidably inserted into the guide posts 5511 and formed in a mounting seat of the camera 4, and a positioning assembly 56 for locking the camera 4 is mounted on an outer wall of the fixing plates 552.

When the camera 4 is plugged on the guide post 5511 of the mounting bracket 55, the position of the camera 4 is locked and fixed by the positioning component 56. The positioning assembly 56 includes a positioning pin 561 passing through the fixing plate 552 and being inserted into the camera 4, a fixing block 562 with a diameter larger than that of the positioning pin 561 is fixedly connected to an end of the positioning pin 561 located outside the fixing plate 552, a spring 563 is sleeved on the positioning pin 561 located between the fixing block 562 and the fixing plate 552, and two ends of the spring 563 are fixed to the fixing block 562 and the fixing plate 552 respectively.

When the camera 4 needs to be fixed, the fixing block 562 is pulled first to move the positioning pin 561 to the outer side of the fixing plates 552, at this time, the spring 563 is stretched, and the camera 4 can move to a position between the two fixing plates 552; then, the fixing block 562 is loosened, and the positioning pin 561 penetrates the fixing plate 552 under the elastic force of the spring 563 and is inserted into the camera 4, so that the camera 4 can be fixed. After camera 4 is fixed, start driving motor 51, driving motor 51 drives axis of rotation 54 through bevel gear 53 and rotates, and axis of rotation 54 drives the camera 4 at top when rotating and rotates to can realize the effect of electric elements on subaerial omnidirectional control operation platform 2.

Referring to fig. 3, top fixedly connected with at two fixed plates 552 shelters from camera 4 and is arched apron 7, can play the effect of sheltering from rain through setting up apron 7 to can shelter from the rainwater as far as in rainy day, reduce the rainwater and fall the possibility on camera 4 camera lens. Be located the baffle 8 that is close to the tip fixedly connected with downward sloping of camera lens at apron 7, can further promote the effect of sheltering from rain through setting up baffle 8 to guarantee the cleanliness of camera lens as far as.

In cold winter, frosting may occur on the lens, thereby affecting the detection effect of the camera 4. Therefore, the electric heating wire 81 needs to be installed on the side wall of the baffle plate 8 close to the body of the camera 4, and the temperature around the camera 4 can be raised by arranging the electric heating wire 81, so that the possibility of frosting on the lens can be reduced.

The implementation principle of the signal tower high altitude self-detection device in the embodiment of the application is as follows: when the electrical components on the operating platform 2 need to be detected, the camera 4 is firstly inserted onto the mounting frame 55 in a sliding manner, and then the positioning pin 561 is inserted onto the camera 4 through the fixing plate 552, so that the camera 4 is fixed. After the installation of camera 4 is finished, start driving motor 51 and drive axis of rotation 54 and rotate, axis of rotation 54 can drive mounting bracket 55 and camera 4 when rotating and rotate to can realize carrying out all-round detection to operation platform 2 subaerial.

Claims (8)

1. The utility model provides a high latitude of signal tower is from detection device installs at tower body (1) top, tower body (1) top fixedly connected with operation platform (2), its characterized in that: camera (4) are installed to the upside of operation platform (2), fixedly connected with drive camera (4) carry out pivoted actuating mechanism (5) on operation platform (2).

2. The signal tower high altitude self-detection device according to claim 1, wherein: actuating mechanism (5) are including driving motor (51) of fixed connection on operation platform (2), install bevel gear group (53) on the motor shaft of driving motor (51), the axis of rotation (54) of installing vertical setting on bevel gear group (53), the top fixedly connected with of axis of rotation (54) is used for installing mounting bracket (55) of camera (4).

3. The signal tower high altitude self-detection device according to claim 2, wherein: the mounting rack (55) comprises a bottom plate (551) fixedly connected with the rotating shaft (54), two sides of the bottom plate (551) are respectively fixedly connected with a vertically arranged fixing plate (552), and the camera (4) is slidably inserted into and fixed with the bottom plate (551).

4. The signal tower high altitude self-detection device according to claim 3, wherein: the upper surface of the bottom plate (551) is fixedly connected with a guide post (5511), the bottom of the camera (4) is provided with a guide groove (41) which is in sliding insertion connection with the guide post (5511), and a positioning assembly (56) which is in mutual insertion connection with the camera (4) is arranged through the fixing plate (552).

5. The signal tower high altitude self-detection device according to claim 4, wherein: locating component (56) is including passing fixed plate (552) and locating pin (561) of pegging graft each other with camera (4), locating pin (561) are located fixed block (562) of the tip fixed connection in fixed plate (552) outside, the position that lies in between fixed plate (552) and fixed block (562) on locating pin (561) cup joints spring (563) that both ends are fixed mutually with fixed plate (552) and fixed block (562) respectively.

6. A signal tower high altitude self-detection device according to any one of claims 3-5, wherein: the top of the two fixing plates (552) is fixedly connected with a cover plate (7) for shielding the camera (4).

7. The signal tower high altitude self-detection device according to claim 6, wherein: one end of the cover plate (7) close to the lens of the camera (4) is fixedly connected with a baffle (8) which inclines downwards.

8. The signal tower high altitude self-detection device according to claim 7, wherein: and an electric heating wire (81) is arranged on the side wall of the baffle (8) close to the camera (4).

Images