阅读说明：本技术 一种基于物联网的智能监控联动控制装置 (Intelligent monitoring linkage control device based on Internet of things ) 是由 李亭 于 2021-07-19 设计创作，主要内容包括：本发明公开了一种基于物联网的智能监控联动控制装置,包括安装卡环,所述安装卡环内安装有固定装置,所述固定装置包含两个T形卡块,两个所述T形卡块之间对称安装有两个连接板结构,两个所述连接板结构上均对称设置有两个防脱挡板,两个所述T形卡块之间且位于两个连接板结构之间安装有一个防脱弹簧,所述安装卡环上安装有连接结构,所述连接结构的一端设置有环形连接板。本发明所述的一种基于物联网的智能监控联动控制装置,属于物联网领域,通过设置驱动电机、驱动齿轮以及转动结构,使其相互配合,可以对监控主体进行三百六十度转动调节,从而使得监控主体能够对其所监控区域无死角监控覆盖,进而最终降低了使用者的使用成本。(The invention discloses an intelligent monitoring linkage control device based on the Internet of things, which comprises an installation snap ring, wherein a fixing device is installed in the installation snap ring, the fixing device comprises two T-shaped clamping blocks, two connecting plate structures are symmetrically installed between the two T-shaped clamping blocks, two anti-falling baffles are symmetrically arranged on the two connecting plate structures, an anti-falling spring is installed between the two T-shaped clamping blocks and between the two connecting plate structures, a connecting structure is installed on the installation snap ring, and an annular connecting plate is arranged at one end of the connecting structure. The invention relates to an intelligent monitoring linkage control device based on the Internet of things, which belongs to the field of the Internet of things.)

1. The utility model provides an intelligent monitoring coordinated control device based on thing networking, includes installation snap ring (1), its characterized in that: the anti-falling device is characterized in that a fixing device (2) is installed in the installation clamping ring (1), the fixing device (2) comprises two T-shaped clamping blocks (14), two connecting plate structures (18) are symmetrically installed between the two T-shaped clamping blocks (14), two anti-falling baffles (19) are symmetrically arranged on the two connecting plate structures (18), an anti-falling spring (20) is installed between the two T-shaped clamping blocks (14) and between the two connecting plate structures (18), the installation clamping ring (1) is provided with a connecting structure (3), one end of the connecting structure (3) is provided with an annular connecting plate (23), one end of the annular connecting plate (23) is provided with an annular anti-falling plate (24), the connecting structure (3) is provided with a rotating structure (4), a driving motor (5) is installed inside the connecting structure (3), and a driving gear (6) is installed on the driving motor (5), protective heating panel (7) are installed to the one end of rotating-structure (4), two anti-disengaging structure (8) are installed to the inside symmetry of rotating-structure (4), anti-disengaging structure (8) contain mounting substrate (33), the outer end of mounting substrate (33) is provided with fixed fixture block (35), the inner of mounting substrate (33) is provided with chucking spring (36), the below of rotating-structure (4) is provided with control main part (9).

2. The intelligent monitoring linkage control device based on the Internet of things according to claim 1, wherein: be provided with toper piece (10) on the outer wall of installation snap ring (1), be provided with two mounting panels (11) on installation snap ring (1), two a T shape mounting groove (12), two have all been seted up to the inner of mounting panel (11) all be provided with an anticreep dog (13) on the inner wall of T shape mounting groove (12).

3. The intelligent monitoring linkage control device based on the Internet of things as claimed in claim 2, wherein: two T-shaped fixture blocks (14) on the fixing device (2) are respectively arranged in two T-shaped mounting grooves (12) formed in the inner ends of two mounting plates (11), the outer ends of the two T-shaped fixture blocks (14) are respectively provided with an anti-falling clamping groove (15), the two T-shaped fixture blocks (14) are respectively clamped on two anti-falling stop blocks (13) arranged in the two T-shaped mounting grooves (12) through the anti-falling clamping grooves (15) formed in the two T-shaped fixture blocks, two accommodating cavities (16) are symmetrically formed in the two T-shaped fixture blocks (14), two communicating penetrating grooves (17) are symmetrically formed in the inner ends of the two T-shaped fixture blocks (14), the four communicating penetrating grooves (17) respectively penetrate the inner ends of the two T-shaped fixture blocks (14) and the four accommodating cavities (16), the four anti-falling baffle plates (19) arranged on the two connecting plate structures (18) are respectively positioned in the four accommodating cavities (16) symmetrically formed in the two T-shaped fixture blocks (14), the connecting plate structure (18) penetrates through a communicating penetrating groove (17) formed in the inner end of the T-shaped clamping block (14) to be connected with the anti-falling baffle (19), and the anti-falling spring (20) is fixedly connected with the two T-shaped clamping blocks (14) through viscose respectively.

4. The intelligent monitoring linkage control device based on the Internet of things according to claim 3, wherein: install acousto-optic sensor (21) on connection structure (3), an installation draw-in groove (22) has been seted up to the one end of connection structure (3), an installation draw-in groove (22) is located the inboard of annular connecting plate (23).

5. The intelligent monitoring linkage control device based on the Internet of things according to claim 4, wherein: the driving motor (5) is installed in a first installation clamping groove (22) formed in one end of the connecting structure (3), a connecting block (30) is arranged at one end of the driving motor (5), and the connecting block (30) is located on the outer side of the connecting structure (3).

6. The intelligent monitoring linkage control device based on the Internet of things according to claim 5, wherein: four supporting plates (31) are symmetrically arranged on the inner wall of the driving gear (6), and the driving gear (6) is installed on a connecting block (30) arranged on the driving motor (5) through the four supporting plates (31) symmetrically arranged on the inner wall of the driving gear.

7. The intelligent monitoring linkage control device based on the Internet of things as claimed in claim 6, wherein: the rotating structure (4) is an annular structure, a plurality of gear wheel pinching grooves (25) are uniformly formed in the inner wall of the rotating structure (4), the rotating structure (4) is installed on the driving gear (6) through the plurality of gear wheel pinching grooves (25) formed in the inner wall of the rotating structure, an annular anti-falling groove (28) is formed in the rotating structure (4), an annular communicating groove (29) is formed in one end of the rotating structure (4), one end of the rotating structure (4) is penetrated through the annular communicating groove (28) by the annular communicating groove (29), the rotating structure (4) is installed on an annular anti-falling plate (24) and an annular connecting plate (23) which are arranged on the connecting structure (3) through the annular anti-falling groove (28) and the annular communicating groove (29) which are formed in the rotating structure (4), and two spring installation grooves (26) are symmetrically formed in the other end of the rotating structure (4), and the two spring mounting grooves (26) are internally provided with a mounting column (27).

8. The intelligent monitoring linkage control device based on the Internet of things according to claim 7, wherein: two anti-disengaging structure (8) are installed respectively in two spring mounting groove (26) that the symmetry was seted up on rotating-structure (4), two an installation through-hole (34), two have all been seted up on two mounting substrate (33) on anti-disengaging structure (8) installation through-hole (34) run through the inside and outside both ends of two anti-disengaging structure (8) respectively, two mounting substrate (33) are all installed respectively through mounting through-hole (34) of seting up on it and are set up on two spring mounting groove (26) all two erection columns (27), two chucking spring (36) are installed respectively and are set up on two spring mounting groove (26) all two erection columns (27), two fixed fixture block (35) all are located the outside of rotating-structure (4).

9. The intelligent monitoring linkage control device based on the internet of things as claimed in claim 8, wherein: two second installation clamping grooves (32) are symmetrically formed in the protective heat dissipation plate (7), the inner end and the outer end of the protective heat dissipation plate (7) are penetrated through the second installation clamping grooves (32), and the protective heat dissipation plate (7) is installed on two fixing clamping blocks (35) arranged on the two anti-falling structures (8) through the two second installation clamping grooves (32) symmetrically formed in the protective heat dissipation plate.

10. The intelligent monitoring linkage control device based on the internet of things as claimed in claim 9, wherein: the upper end of control main part (9) is provided with connecting rod (37), the upper end of connecting rod (37) links to each other with the outer wall of revolution mechanic 4.

Technical Field

The invention relates to the field of Internet of things, in particular to an intelligent monitoring linkage control device based on the Internet of things.

Background

The technology of internet of things originates from the field of media and is the third revolution of information technology industry. The internet of things is that any object is connected with a network through information sensing equipment according to an agreed protocol, and the object performs information exchange and communication through an information transmission medium so as to realize functions of intelligent identification, positioning, tracking, supervision and the like. The internet of things refers to ubiquitous terminal equipment and facilities, including sensors with 'internal intelligence', mobile terminals, industrial systems, numerical control systems, household intelligent facilities, video monitoring systems and the like, and 'external enabling' such as various assets attached with RFID, intelligent objects or animals or 'intelligent dust' of individuals and vehicles carrying wireless terminals and the like, modes of interconnection and intercommunication, application large integration, SaaS operation based on cloud computing and the like are realized through various wireless or wired long-distance or short-distance communication networks, and under the environments of an intranet, a private network and/or the internet, a proper information security guarantee mechanism is adopted to provide safe, controllable and personalized real-time online monitoring, positioning, alarm linkage, scheduling command, plan prediction management, remote control, security, remote maintenance, online upgrade, statistical reports, real-time tracking and tracking, The management and service functions of decision support, desktop leadership and the like realize the integration of ' management, control and camp ' of ' all things ' with high efficiency, energy conservation, safety and environmental protection '. The network technology is applied to all things to form the Internet of things, such as embedding the sensor into objects such as an oil net, a power grid, a road net, a water net, a building, a dam and the like, and then integrating the Internet of things and the Internet to realize the integration of the human society and the physical system. The super computer group implements real-time management control on personnel, machine equipment and infrastructure of the 'integration network'. The monitoring camera is a semiconductor imaging device and has the advantages of high sensitivity, strong light resistance, small distortion, small volume, long service life, vibration resistance and the like. The linkage control device of the intelligent monitoring camera can rotate and adjust the intelligent monitoring camera according to the condition of the monitored area, and further enables the intelligent monitoring camera to capture more useful information. However, when the existing linkage control device of the intelligent monitoring camera is used, the intelligent monitoring camera can only be adjusted at a certain angle, so that a certain monitoring dead angle still exists in a monitored area, more intelligent monitoring cameras are required to be arranged to cover the dead angle of the monitored area, and the use cost of a user is finally increased; meanwhile, the linkage control device of the existing intelligent monitoring camera is installed through a plurality of screws, and the installation mode is complicated, so that the installation efficiency of the linkage control device of the intelligent monitoring camera can be reduced.

Disclosure of Invention

The invention mainly aims to provide an intelligent monitoring linkage control device based on the Internet of things, which can effectively solve the problems in the background technology.

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

an intelligent monitoring linkage control device based on the Internet of things comprises an installation snap ring, wherein a fixing device is installed in the installation snap ring, the fixing device comprises two T-shaped clamping blocks, two connecting plate structures are symmetrically installed between the two T-shaped clamping blocks, two anti-falling baffles are symmetrically arranged on the two connecting plate structures, an anti-falling spring is installed between the two T-shaped clamping blocks and between the two connecting plate structures, a connecting structure is installed on the installation snap ring, an annular connecting plate is arranged at one end of the connecting structure, an annular anti-falling plate is arranged at one end of the annular connecting plate, a rotating structure is installed on the connecting structure, a driving motor is installed inside the connecting structure, a driving gear is installed on the driving motor, a protective heat dissipation plate is installed at one end of the rotating structure, and two anti-falling structures are symmetrically installed inside the rotating structure, the anti-disengaging structure contains mounting substrate, mounting substrate's outer end is provided with fixed fixture block, mounting substrate's inner is provided with chucking spring, revolution mechanic's below is provided with the control main part.

Preferably, be provided with the toper piece on the outer wall of installation snap ring, be provided with two mounting panels on the installation snap ring, two a T shape mounting groove, two have all been seted up to the inner of mounting panel all be provided with an anticreep dog on the inner wall of T shape mounting groove.

Preferably, two T-shaped fixture blocks on the fixing device are respectively arranged in two T-shaped mounting grooves formed in the inner ends of the two mounting plates, the outer ends of the two T-shaped fixture blocks are respectively provided with an anti-falling clamping groove, the two T-shaped fixture blocks are respectively clamped on two anti-falling stop blocks arranged in the two T-shaped mounting grooves through the anti-falling clamping grooves formed in the T-shaped fixture blocks, two accommodating cavities are symmetrically formed in the two T-shaped fixture blocks, two communicating through grooves are symmetrically formed in the inner ends of the two T-shaped fixture blocks, the four communicating through grooves respectively penetrate the inner ends of the two T-shaped fixture blocks and the four accommodating cavities, the four anti-falling baffle plates arranged on the two connecting plate structures are respectively positioned in the four accommodating cavities symmetrically formed in the two T-shaped fixture blocks, the connecting plate structure penetrates through the communicating penetrating groove formed in the inner end of the T-shaped clamping block to be connected with the anti-falling baffle, and the anti-falling spring is fixedly connected with the two T-shaped clamping blocks through viscose respectively.

Preferably, the connecting structure is provided with an acousto-optic sensor, one end of the connecting structure is provided with a first mounting clamping groove, and the first mounting clamping groove is positioned on the inner side of the annular connecting plate.

Preferably, the driving motor is installed in a first installation clamping groove formed in one end of the connecting structure, a connecting block is arranged at one end of the driving motor, and the connecting block is located on the outer side of the connecting structure.

Preferably, four supporting plates are symmetrically arranged on the inner wall of the driving gear, and the driving gear is arranged on a connecting block arranged on the driving motor through the four supporting plates symmetrically arranged on the inner wall of the driving gear.

The rotating structure is an annular structure, a plurality of gear pinching grooves are evenly formed in the inner wall of the rotating structure, the rotating structure is installed on a driving gear through the plurality of gear pinching grooves formed in the inner wall of the rotating structure, the annular anti-falling groove is formed in the rotating structure, the annular communicating groove is formed in one end of the rotating structure, one end of the rotating structure is penetrated through the annular communicating groove, the rotating structure is installed on the annular anti-falling plate and the annular connecting plate which are arranged on the connecting structure through the annular anti-falling groove and the annular communicating groove which are formed in the rotating structure, the other end of the rotating structure is symmetrically provided with two spring mounting grooves, and the spring mounting grooves are internally provided with a mounting column.

Two anti-disengaging structure installs respectively in two spring mounting grooves that the symmetry was seted up on the rotating-structure, two an installation through-hole has all been seted up on two mounting substrate on the anti-disengaging structure, two the installation through-hole runs through two anti-disengaging structure's inside and outside both ends respectively, two mounting substrate all installs respectively through the installation through-hole of seting up on it on two spring mounting grooves set up all two erection columns, two chucking spring installs respectively on setting up on two spring mounting grooves all two erection columns, two fixed fixture block all is located rotating-structure's the outside.

Two second installation clamping grooves are symmetrically formed in the protection heat dissipation plate, the two second installation clamping grooves penetrate through the inner end and the outer end of the protection heat dissipation plate, and the protection heat dissipation plate is installed on two fixed clamping blocks arranged on the two anti-falling structures through the two second installation clamping grooves symmetrically formed in the protection heat dissipation plate.

The upper end of control main part is provided with the connecting rod, the upper end and the outer wall of revolution mechanic of connecting rod link to each other.

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

1. through the arrangement of the driving motor, the driving gear and the rotating structure, the driving gear and the rotating structure are matched with each other, and the monitoring main body can be rotationally adjusted by three hundred and sixty degrees, so that the monitoring main body can monitor and cover the monitored area without dead angles, and the use cost of a user is finally reduced;

2. the protective heat dissipation plate is arranged, so that the interior of the equipment can be protected, dust and sundries are prevented from entering the interior of the equipment, the service life of the equipment is prolonged, and the failure rate of the equipment is reduced;

3. by arranging the anti-falling structure, the protective heat dissipation plate can be conveniently and quickly mounted and dismounted, so that the equipment is convenient to maintain and overhaul;

4. by arranging the fixing device, the installation steps of the equipment can be simplified, so that the installation complexity of the equipment is reduced, and the installation efficiency of the equipment is finally improved;

5. through set up the anticreep spring on fixing device, can fix fixing device in the installation snap ring to prevent that fixing device from dropping out from the installation snap ring.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the rotating structure and the monitoring body of the present invention;

FIG. 3 is a schematic view of the connection structure, the driving motor and the driving gear of the present invention;

FIG. 4 is a schematic structural diagram of a protective heat dissipation plate according to the present invention;

FIG. 5 is a schematic cross-sectional view of the rotating structure of the present invention;

FIG. 6 is a partial schematic view of the present invention showing the mounting collar;

FIG. 7 is a schematic view of the fixing device of the present invention;

fig. 8 is a schematic structural view of the anti-separation structure of the present invention.

In the figure: 1. installing a snap ring; 2. a fixing device; 3. a connecting structure; 4. a rotating structure; 5. a drive motor; 6. a drive gear; 7. a protective heat dissipation plate; 8. an anti-falling structure; 9. monitoring the subject; 10. a conical block; 11. mounting a plate; 12. a T-shaped mounting groove; 13. an anti-drop stop block; 14. a T-shaped fixture block; 15. an anti-drop clamping groove; 16. a receiving cavity; 17. the through groove is communicated; 18. a connection plate structure; 19. an anti-drop baffle plate; 20. an anti-drop spring; 21. an acousto-optic sensor; 22. a first mounting clamping groove; 23. an annular connecting plate; 24. an annular anti-drop plate; 25. a gear kneading groove; 26. a spring mounting groove; 27. mounting a column; 28. an annular anti-drop groove; 29. an annular communicating groove; 30. connecting blocks; 31. a support plate; 32. a second mounting clamping groove; 33. a mounting substrate; 34. mounting a through hole; 35. fixing the fixture block; 36. a chucking spring; 37. a connecting rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, an intelligent monitoring linkage control device based on the internet of things comprises an installation snap ring 1, a fixing device 2 is installed in the installation snap ring 1, the fixing device 2 comprises two T-shaped clamping blocks 14, two connecting plate structures 18 are symmetrically installed between the two T-shaped clamping blocks 14, two anti-falling baffles 19 are symmetrically arranged on each of the two connecting plate structures 18, an anti-falling spring 20 is installed between the two T-shaped clamping blocks 14 and between the two connecting plate structures 18, a connecting structure 3 is installed on the installation snap ring 1, an annular connecting plate 23 is arranged at one end of the connecting structure 3, an annular anti-falling plate 24 is arranged at one end of the annular connecting plate 23, a rotating structure 4 is installed on the connecting structure 3, a driving motor 5 is installed inside the connecting structure 3, a driving gear 6 is installed on the driving motor 5, and a protective heat-dissipating plate 7 is installed at one end of the rotating structure 4, two anti-disengaging structures 8 are symmetrically installed in rotating structure 4, and anti-disengaging structure 8 contains mounting substrate 33, and mounting substrate 33's outer end is provided with fixed fixture block 35, and mounting substrate 33's inner is provided with chucking spring 36, and rotating structure 4's below is provided with control main part 9.

In this embodiment, be provided with conical block 10 on the outer wall of installation snap ring 1, be provided with two mounting panels 11 on the installation snap ring 1, a T shape mounting groove 12 has all been seted up to the inner of two mounting panels 11, all is provided with an anticreep dog 13 on the inner wall of two T shape mounting grooves 12.

In the embodiment, in order to simplify the installation steps of the equipment, thereby reducing the installation complexity of the equipment and further finally improving the installation efficiency of the equipment, the fixing device 2 is provided, two T-shaped fixture blocks 14 on the fixing device 2 are respectively installed in two T-shaped installation grooves 12 formed in the inner ends of two installation plates 11, the outer ends of the two T-shaped fixture blocks 14 are respectively provided with one anti-falling clamp groove 15, the two T-shaped fixture blocks 14 are respectively clamped on two anti-falling stop blocks 13 arranged in the two T-shaped installation grooves 12 through the anti-falling clamp grooves 15 formed thereon, two accommodating cavities 16 are symmetrically formed in the two T-shaped fixture blocks 14, two communicating through grooves 17 are symmetrically formed in the inner ends of the two T-shaped fixture blocks 14, the four communicating through grooves 17 respectively penetrate the inner ends of the two T-shaped fixture blocks 14 and the four accommodating cavities 16, four anti-falling baffles 19 arranged on the two connecting plate structures 18 are respectively located in the four accommodating cavities 16 symmetrically formed in the two T-shaped fixture blocks 14, the connecting plate structure 18 penetrates through a communicating through groove 17 formed in the inner end of the T-shaped fixture block 14 to be connected with an anti-falling baffle 19, and the anti-falling spring 20 is fixedly connected with the two T-shaped fixture blocks 14 through viscose respectively.

In this embodiment, the connecting structure 3 is provided with the acoustic-optical sensor 21, one end of the connecting structure 3 is provided with a first installation clamping groove 22, and the first installation clamping groove 22 is located on the inner side of the annular connecting plate 23.

In the embodiment, in order to perform three hundred sixty degree rotation adjustment on the monitoring main body 9, so that the monitoring main body 9 can monitor and cover the monitored area without dead angles, and further, the use cost of the user is finally reduced, a driving motor 5, a driving gear 6 and a rotating structure 4 are provided, the driving motor 5 is installed in a first installation clamping groove 22 formed in one end of a connecting structure 3, one end of the driving motor 5 is provided with a connecting block 30, the connecting block 30 is positioned outside the connecting structure 3, four supporting plates 31 are symmetrically arranged on the inner wall of the driving gear 6, the driving gear 6 is installed on the connecting block 30 arranged on the driving motor 5 through the four supporting plates 31 symmetrically arranged on the inner wall of the driving gear 6, the rotating structure 4 is of an annular structure, a plurality of gear pinching grooves 25 are uniformly formed on the inner wall of the rotating structure 4, the rotating structure 4 is installed on the driving gear 6 through the plurality of gear pinching grooves 25 formed on the inner wall of the rotating structure 4, annular anticreep groove 28 has been seted up to rotating-structure 4's inside, annular intercommunication groove 29 has been seted up to rotating-structure 4's one end, annular intercommunication groove 29 runs through rotating-structure 4's one end and annular anticreep groove 28, rotating-structure 4 is through the annular anticreep groove 28 that sets up on it, annular intercommunication groove 29 is installed on annular anticreep plate 24 and the annular connecting plate 23 that sets up on connection structure 3, two spring mounting groove 26 have been seted up to rotating-structure 4's other end symmetry, the inside of two spring mounting groove 26 all is provided with a erection column 27.

In this embodiment, in order to facilitate the quick installation and the quick dismantlement of protection heating panel 7, thereby the maintenance and the maintenance of the equipment of being convenient for, anti-disengaging structure 8 has been set up, two anti-disengaging structure 8 are installed respectively in two spring mounting grooves 26 that the symmetry was seted up on rotating-structure 4, an installation through-hole 34 has all been seted up on two mounting substrate 33 on two anti-disengaging structure 8, two installation through-holes 34 run through two anti-disengaging structure 8's inside and outside both ends respectively, two mounting substrate 33 all install respectively through the installation through-hole 34 that sets up on it and set up on two spring mounting grooves 26 and all set up on two erection columns 27, two chucking springs 36 are installed respectively and are set up on two erection columns 27 in two spring mounting grooves 26, two fixed fixture blocks 35 all are located rotating-structure 4's the outside.

In this embodiment, for the inside to equipment is protected, thereby prevent that dust debris from entering into the inside of equipment, and then final lifting means's life and the fault rate that reduces equipment, protective heat dissipation plate 7 has been set up, two No. two installation card grooves 32 have been seted up to the symmetry on protective heat dissipation plate 7, two No. two installation card grooves 32 run through protective heat dissipation plate 7's inside and outside both ends, protective heat dissipation plate 7 is installed on two fixed fixture blocks 35 that set up on two anti-disengaging structure 8 through two No. two installation card grooves 32 that the symmetry was seted up on it.

In this embodiment, the upper end of the monitoring body 9 is provided with a connecting rod 37, and the upper end of the connecting rod 37 is connected with the outer wall of the rotating structure 4.

The invention is an intelligent monitoring linkage control device based on the internet of things, when the intelligent monitoring linkage control device is used and installed, firstly, an installation clamping ring 1 surrounds a supporting column, installation plates 11 on the installation clamping ring 1 are contacted with each other, then a fixing device 2 can be extruded, T-shaped fixture blocks 14 on the fixing device 2 are enabled to be close to each other, then the fixing device 2 is installed in a T-shaped installation groove 12 formed in the installation plate 11, after the fixing device 2 is completely installed in the T-shaped installation groove 12, the fixing device 2 is loosened, at the moment, an anti-falling spring 20 on the fixing device 2 pushes the two T-shaped fixture blocks 14 outwards, and finally an anti-falling stop block 13 arranged in the T-shaped installation groove 12 is clamped into an accommodating cavity 16, so that the installation of equipment is finally completed; when the device works, a signal received by the acousto-optic sensor 21 is sent to the processing module, the processing module starts the driving motor 5 according to the collected information, the driving motor 5 drives the driving gear 6 to rotate when working, the driving gear 6 drives the rotating structure 4 to rotate when rotating, and then the rotating structure 4 drives the monitoring main body 9 to move, so that the monitoring main body 9 is finally positioned at a proper position, and the monitoring main body 9 can monitor a specified area; due to the existence of the driving motor 5, the driving gear 6 and the rotating structure 4, the driving gear and the rotating structure are mutually matched, and the monitoring main body 9 can be rotationally adjusted by three hundred and sixty degrees, so that the monitoring main body 9 can monitor and cover the monitored area without dead angles, and the use cost of a user is finally reduced; when needs overhaul the equipment and maintain, can push anti-disengaging structure 8 to the inboard, can dismantle protection heating panel 7 after that, can overhaul the equipment and maintain this moment, after the overhaul of the equipment maintenance finishes, again with protection heating panel 7 install on anti-disengaging structure 8 can.

Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.