CN113677157A

CN113677157A - Cloud platform formula intelligent sensing terminal of high reliability

Info

Publication number: CN113677157A
Application number: CN202110955204.0A
Authority: CN
Inventors: 王维良; 王林
Original assignee: Shandong Tongguang Electronics Co ltd
Current assignee: Zibo Tongguang Electronics Co ltd
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-11-19
Anticipated expiration: 2041-08-19
Also published as: CN113677157B

Abstract

The invention provides a cloud deck type intelligent sensing terminal with high reliability. The cloud deck type intelligent sensing terminal with high reliability comprises a main body; a mounting frame; a connecting mechanism; the cooling mechanism comprises a first metal rod, a convex block, a second metal rod, a stop block and a fixing ball, wherein the first metal rod and the second metal rod are respectively and symmetrically arranged at two ends of the interior of the main body, the hemispherical convex blocks are respectively arranged on the side walls of the first metal rod and the second metal rod at equal intervals, and the convex blocks are abutted against the interior of the main body; the side wall of the second metal rod is of a U-shaped structure, the fixed ball is mounted at the joint of the first metal rod and the second metal rod, and the stop block with a conical side wall is mounted inside one end of the fixed ball; an adsorption mechanism. The cloud deck type intelligent sensing terminal with high reliability has the advantage that dust is prevented from entering the intelligent sensing terminal.

Description

Cloud platform formula intelligent sensing terminal of high reliability

Technical Field

The invention relates to the technical field of power equipment monitoring, in particular to a high-reliability holder type intelligent sensing terminal.

Background

The power equipment is a power production and consumption system which consists of links of power generation, power transmission, power transformation, power distribution, power utilization and the like. The primary energy in the nature is converted into electric power by a power generation device, and then the electric power is supplied to each user through power transmission, power transformation and power distribution. The power generation equipment mainly comprises power generation equipment and power supply equipment, wherein the power generation equipment mainly comprises a power station boiler, a steam turbine, a gas turbine, a water turbine, a generator, an ignition machine, a transformer and the like, and the power supply equipment mainly comprises power transmission lines, mutual inductors, contactors and the like with various voltage grades.

When carrying out intelligent monitoring to power equipment, often use intelligent sensing terminal, the heat that intelligent sensing terminal produced in the operation process is through the louvre in giving off the air, but the dust in the air gets into the internal portion of ware through the louvre, influences intelligent sensing terminal operating speed.

Therefore, there is a need to provide a new cloud deck type intelligent sensing terminal with high reliability to solve the above technical problems.

Disclosure of Invention

The invention solves the technical problem of providing a cloud deck type intelligent sensing terminal with high reliability, which can prevent dust from entering the intelligent sensing terminal.

In order to solve the technical problem, the cloud deck type intelligent sensing terminal with high reliability provided by the invention comprises: a main body; the mounting rack is fixed at one end of the main body; the connecting mechanism is arranged at the other end of the main body; the cooling mechanisms are symmetrically arranged at the bottom end of the main body; the driving mechanism is mounted at the top end of the cooling mechanism; the heat dissipation mechanism comprises a first metal rod, a convex block, a second metal rod, a stop block and a fixing ball, wherein the first metal rod and the second metal rod are symmetrically arranged at two ends of the interior of the main body respectively, the hemispherical convex blocks are arranged on the side walls of the first metal rod and the second metal rod respectively at equal intervals, and the convex blocks are abutted against the interior of the main body; the side wall of the second metal rod is of a U-shaped structure, the fixed ball is mounted at the joint of the first metal rod and the second metal rod, the stop block with the conical side wall is mounted inside one end of the fixed ball, and the cooling mechanism is connected inside the other end of the fixed ball; and the adsorption mechanism is fixed in the cooling mechanism.

Preferably, the main body comprises an antenna, a converter, a housing and a central processing unit, the mounting rack is mounted on the side wall of the housing, and the central processing unit is mounted inside the housing; the antenna and the converter are installed on the side wall of the shell, and the converter is electrically connected with the antenna and the central processing unit respectively.

Preferably, the cooling mechanism comprises storage boxes, connecting pipes, communicating pipes, mounting pipes and filter balls, the storage boxes are symmetrically mounted at the bottom ends of the shells, and the communicating pipes are mounted at the bottom ends of the two storage boxes; the side wall of one storage box is provided with the connecting pipe, one end of the connecting pipe is provided with the filter ball, and the filter ball is positioned in the storage box; the lateral wall equidistance installation of bin the installation pipe, the top of installation pipe is connected the filter bowl.

Preferably, the first metal rod and the second metal rod are wound on the side wall of the central processing unit, and the side wall of the central processing unit abuts against the projection; the center of the mounting tube is aligned with the center of the stop.

Preferably, the driving mechanism comprises a fixed cylinder, a rubber pad and a hydraulic rod, wherein the connecting pipe is installed at one end of the fixed cylinder, and the elastic rubber pad in a truncated cone shape is slidably connected inside the fixed cylinder; the side wall of the fixed cylinder is provided with the hydraulic rod, and the hydraulic rod is connected with the rubber pad.

Preferably, the adsorption mechanism comprises a cross bar, an absorption pipe and a fixed pipe, the side wall of the other storage box is respectively provided with the cross bar and the fixed cylinder, the other end of the fixed cylinder is provided with the fixed pipe, and the fixed pipe is connected with the cross bar; the lateral wall equidistance installation of horizontal pole the suction tube, one end is the infundibulate the suction tube with the bottom of installation pipe is aimed at.

Preferably, the connecting mechanism comprises a metal sheet, a cover plate, a magnet and a USB interface, the USB interface is arranged on the side wall of the shell at equal intervals, and the USB interface is electrically connected with the central processing unit; the side wall of the shell is rotatably connected with the cover plate, and the cover plate abuts against the side wall of the USB interface; the lateral wall symmetry of shell is installed the sheetmetal, the lateral wall symmetry of apron is installed magnet, magnet adsorbs the sheetmetal, just the USB interface is located two between the sheetmetal.

Compared with the related art, the cloud deck type intelligent sensing terminal with high reliability provided by the invention has the following beneficial effects:

the invention provides a cloud deck type intelligent sensing terminal with high reliability, when a central processing unit runs, heat generated in the running process of the central processing unit is dissipated into the shell, a driving mechanism is opened, the driving mechanism moves to blow air into refrigerant liquid in a cooling mechanism, the air moves upwards in the refrigerant liquid to drive a small amount of refrigerant liquid to enter a fixing ball at one end of the shell, the center of an installation pipe is aligned with the center of a stop block, the side wall of the stop block is arc-shaped, the air and the refrigerant liquid entering the fixing ball slide into the first metal rod and the second metal rod from the side wall of the stop block, the heat conductivity of metal is good, the heat in the shell enters the first metal rod and the second metal rod, and the air and the refrigerant liquid continuously move in the first metal rod and the second metal rod to absorb the heat, air and refrigerant fluid absorb the heat and then get into the shell other end in the fixed ball, inside the fixed ball the dog blocks air and refrigerant fluid and is in mutually collide in the fixed ball, make air and refrigerant fluid pass through the fixed ball gets into the inside of cooling mechanism makes the heat get into in the air is scattered once more behind the inside of cooling mechanism, thereby reduces the inside temperature of shell avoids the dust to get into simultaneously the inside of shell is convenient for central processing unit is in the inside operation of shell.

Drawings

Fig. 1 is a schematic structural diagram of a cloud deck type intelligent sensing terminal with high reliability provided by the invention;

FIG. 2 is a view showing the internal structure of the casing shown in FIG. 1;

FIG. 3 is a rear view of the housing structure shown in FIG. 2;

FIG. 4 is an enlarged view of the structure shown at B in FIG. 2;

FIG. 5 is an enlarged view of the structure at A shown in FIG. 1;

fig. 6 is a schematic diagram of a circuit structure provided by the present invention.

Reference numbers in the figures: 1. the main part, 11, the antenna, 12, the converter, 13, the shell, 14, central processing unit, 2, coupling mechanism, 21, the sheetmetal, 22, the apron, 23, magnet, 24, the USB interface, 3, the mounting bracket, 4, cooling mechanism, 41, the bin, 42, the connecting pipe, 43, communicating pipe, 44, the installation pipe, 45, filter ball, 5, heat dissipation mechanism, 51, first metal pole, 52, the lug, 53, the second metal pole, 54, the dog, 55, the fixed ball, 6, adsorption mechanism, 61, the horizontal pole, 62, the suction tube, 63, fixed pipe, 7, actuating mechanism, 71, the fixed cylinder, 72, the rubber pad, 73, the hydraulic stem.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6 in combination, wherein fig. 1 is a schematic structural diagram of a high-reliability pan-tilt intelligent sensing terminal provided by the present invention; FIG. 2 is a view showing the internal structure of the casing shown in FIG. 1; FIG. 3 is a rear view of the housing structure shown in FIG. 2; FIG. 4 is an enlarged view of the structure shown at B in FIG. 2; FIG. 5 is an enlarged view of the structure at A shown in FIG. 1; fig. 6 is a schematic diagram of a circuit structure provided by the present invention. Cloud platform formula intelligent sensing terminal of high reliability includes: a main body 1; the mounting rack 3 is fixed at one end of the main body 1; the connecting mechanism 2 is arranged at the other end of the main body 1; the cooling mechanisms 4 are symmetrically arranged at the bottom end of the main body 1; the driving mechanism 7 is installed at the top end of the cooling mechanism 4; the heat dissipation mechanism 5 comprises a first metal rod 51, a bump 52, a second metal rod 53, a stopper 54 and a fixing ball 55, wherein the first metal rod 51 and the second metal rod 53 are respectively and symmetrically installed at two ends of the inside of the main body 1, the hemispherical bumps 52 are respectively arranged on the side walls of the first metal rod 51 and the second metal rod 53 at equal intervals, and the bumps 52 are abutted against the inside of the main body 1; the side wall of the second metal rod 53 is in a U-shaped structure, the fixed ball 55 is installed at the joint of the first metal rod 51 and the second metal rod 53, the stopper 54 with a conical side wall is installed inside one end of the fixed ball 55, and the cooling mechanism 4 is connected inside the other end of the fixed ball 55; and the adsorption mechanism 6 is fixed in the cooling mechanism 4.

The main body 1 comprises an antenna 11, a converter 12, a shell 13 and a central processing unit 14, wherein the mounting frame 3 is mounted on the side wall of the shell 13, and the central processing unit 14 is mounted inside the shell 13; the antenna 11 and the converter 12 are installed on the side wall of the shell 13, the converter 12 is electrically connected with the antenna 11 and the central processing unit 14 respectively, in order to facilitate the central processing unit 14 to operate inside the shell 13, the central processing unit 14 is connected with an intelligent diagnosis squat robot, the intelligent diagnosis squat robot operates in a transformer substation, the intelligent diagnosis squat robot collects on-site thermal imaging images and sounds in the transformer substation, carries out deep analysis, judges the operation condition of equipment and transmits the information to the central processing unit 14, and meanwhile, a partial discharge sensor, a temperature sensor and a humidity sensor transmit the information collected from the transformer substation to the central processing unit 14, so that the central processing unit 14 comprehensively monitors and automatically analyzes key state quantities such as visible light images, infrared thermal imaging, partial discharge, sounds, temperature, humidity and the like, meanwhile, the central processing unit 14 converts information through the converter 12 and then synchronizes the information transmitted by the antenna 11 to the cloud, so that workers can conveniently check and process the information, and can conveniently solve the problem and fault in the transformer substation.

The cooling mechanism 4 comprises a storage tank 41, a connecting pipe 42, a communicating pipe 43, a mounting pipe 44 and a filter ball 45, the storage tank 41 is symmetrically mounted at the bottom end of the shell 13, and the communicating pipe 43 is mounted at the bottom ends of the two storage tanks 41; the connecting pipe 42 is installed on the side wall of one of the storage boxes 41, the filter ball 45 is installed at one end of the connecting pipe 42, and the filter ball 45 is located inside the storage box 41; the mounting pipes 44 are equidistantly mounted on the side wall of the storage box 41, the top ends of the mounting pipes 44 are connected with the filter balls 45, so that in order to facilitate air to enter the inside of the filter balls 45 through the connecting pipe 42, the air enters the refrigerant liquid in the storage box 41 through the filter balls 45, the temperature of the air in the refrigerant liquid is reduced, part of the refrigerant liquid is carried upwards, and the cooled air carrying part of the refrigerant liquid is connected with the inside of the mounting pipes 44; the two storage boxes 41 are connected through the communication pipe 43, so that the movement of the refrigerant liquid in the two storage boxes 41 is facilitated, and the refrigerant liquid is uniformly and respectively in the storage boxes 41.

The first metal rod 51 and the second metal rod 53 are wound around the sidewall of the cpu 14, and the sidewall of the cpu 14 abuts against the protrusion 52, so as to facilitate the first metal rod 51 and the second metal rod 53 to absorb heat from the surface of the cpu 14; the center of the mounting tube 44 is aligned with the center of the stopper 54 to facilitate movement of air within the fixing ball 55 and to prevent air from colliding with each other within the fixing ball 55.

The driving mechanism 7 comprises a fixed cylinder 71, a rubber pad 72 and a hydraulic rod 73, wherein one end of the fixed cylinder 71 is provided with the connecting pipe 42, and the rubber pad 72 which is elastic and truncated cone-shaped is slidably connected inside the fixed cylinder 71; the hydraulic rod 73 is installed on the side wall of the fixed cylinder 71, the hydraulic rod 73 is connected with the rubber pad 72, the adsorption mechanism 6 comprises a cross rod 61, an absorption pipe 62 and a fixed pipe 63, the cross rod 61 and the fixed cylinder 71 are respectively installed on the side wall of the other storage tank 41, the fixed pipe 63 is installed on the other end of the fixed cylinder 71, and the fixed pipe 63 is connected with the cross rod 61; the side wall of the cross bar 61 is provided with the suction pipes 62 at equal intervals, and the suction pipe 62 with one funnel-shaped end is aligned with the bottom end of the mounting pipe 44; when the operating temperature of the central processing unit 14 is too high, the hydraulic rod 73 is opened, the hydraulic rod 73 moves to push the rubber pad 72 to move in the fixed cylinder 71, the rubber pad 72 slowly approaches the connecting pipe 42, the air in the fixed cylinder 71 extrudes the rubber pad 72, so that the circular truncated cone-shaped rubber pad 72 slowly expands in the fixed cylinder 71 and is tightly attached to the inner side wall of the fixed cylinder 71, along with the operation of the rubber pad 72, the rubber pad 72 enables the air in the fixed cylinder 71 to enter one of the storage boxes 41 through the connecting pipe 42, and when the rubber pad 72 pushes the air at one end of the fixed cylinder 71, the rubber pad 72 moves to enable the other end of the fixed cylinder 71 to generate suction force, so that the suction force is generated in the fixed pipe 63, the cross bar 61 and the suction pipe 62, the suction pipe 62 is aligned with the other installation pipe 44 inside the storage box 41, and the suction pipe 62 sucks the air inside the installation pipe 44, so that the air and the refrigerant liquid are increased to be in the first metal rod 51 and the moving speed inside the second metal rod 53, the stopper 54 separates the inside of the fixing ball 55, the air and the refrigerant liquid inside the first metal rod 51 and the second metal rod 53 slide into the installation pipe 44 from the side wall of the stopper 54, the air and the refrigerant liquid fall into the storage box 41 through downward inclined movement in the installation pipe 44, the refrigerant liquid is enabled to continuously circulate in the storage box 41, and meanwhile, the heat in the refrigerant liquid and the air is enabled to be rapidly diffused into the air.

The connecting mechanism 2 comprises a metal sheet 21, a cover plate 22, a magnet 23 and a USB interface 24, the USB interface 24 is installed on the side wall of the shell 13 at equal intervals, and the USB interface 24 is electrically connected with the central processor 14; the side wall of the shell 13 is rotatably connected with the cover plate 22, and the cover plate 22 abuts against the side wall of the USB interface 24; the metal sheets 21 are symmetrically installed on the side wall of the shell 13, the magnets 23 are symmetrically installed on the side wall of the cover plate 22, the magnets 23 adsorb the metal sheets 21, and the USB interface 24 is located between the two metal sheets 21, when the USB interface 24 needs to be used, the magnets 23 are held, the cover plate 22 is pulled upwards, the cover plate 22 is separated from the metal sheets 21 and the USB interface 24, the USB interface 24 is opened, other devices can be conveniently connected with the central processing unit 14 through the USB interface 24, and a worker can conveniently obtain information in the central processing unit 14; after the use is finished, the cover plate 22 rotates downwards, the magnet 23 adsorbs the side wall of the metal sheet 21, so that the cover plate 22 seals the USB interface 24, and dust is prevented from entering the USB interface 24.

The working principle of the high-reliability holder type intelligent sensing terminal provided by the invention is as follows: the main body 1 is fixed on the wall through the mounting frame 3, and the main body 1 and the hydraulic rod 73 are externally connected with a power supply. The central processing unit 14 operates inside the housing 13, the central processing unit 14 is connected with an intelligent diagnosis squat robot, the intelligent diagnosis squat robot operates in a transformer substation, the intelligent diagnosis squat robot collects field thermal imaging images and sounds in the transformer substation, performs deep analysis, judges the operation condition of equipment, transmits information to the central processing unit 14, and simultaneously transmits information collected from the transformer substation to the central processing unit 14 through a partial discharge sensor, a temperature sensor and a humidity sensor, so that the central processing unit 14 comprehensively monitors and automatically analyzes key state quantities such as visible light images, infrared thermal imaging, partial discharge, sounds, temperature, humidity and the like, and simultaneously the central processing unit 14 converts the information through the converter 12 and then synchronously transmits the antenna 11 to a cloud end, thereby facilitating a worker to check and process the information, the problem and fault that appear in the transformer substation are solved in time to the workman of being convenient for. When the operating temperature of the central processing unit 14 is too high, the hydraulic rod 73 is opened, the hydraulic rod 73 moves to push the rubber pad 72 to move inside the fixed cylinder 71, the rubber pad 72 is slowly close to the connecting pipe 42, the air inside the fixed cylinder 71 extrudes the rubber pad 72, so that the circular truncated cone-shaped rubber pad 72 is slowly unfolded inside the fixed cylinder 71 and tightly attached to the inner side wall of the fixed cylinder 71, along with the operation of the rubber pad 72, the rubber pad 72 enables the air inside the fixed cylinder 71 to enter one storage box 41 through the connecting pipe 42, the air enters the inside of the filter ball 45 through the connecting pipe 42, the air enters the refrigerant liquid in the storage box 41 through the filter ball 45, the temperature of the air is reduced in the refrigerant liquid, and the refrigerant liquid carrying part moves upwards, and the cooled air carrying part is connected with the mounting pipe 44 and the fixed ball 55, the center of the mounting tube 44 is aligned with the center of the stopper 54, the side wall of the stopper 54 is arc-shaped, the air and the refrigerant fluid entering the fixing ball 55 slide through the side wall of the stopper 54 into the inside of the first metal rod 51 and the second metal rod 53, the metal has good thermal conductivity, the heat inside the housing 13 enters the inside of the first metal rod 51 and the second metal rod 53, and the air and the refrigerant fluid continuously move inside the first metal rod 51 and the second metal rod 53 to extract the heat; and when the rubber pad 72 pushes the air at one end of the fixed cylinder 71, at this time, the rubber pad 72 is moved to generate suction inside the other end of the fixed cylinder 71, so that suction is generated inside the fixed tube 63, the cross bar 61 and the suction tube 62, the suction tube 62 is aligned with the mounting tube 44 inside the other storage box 41, the funnel-shaped suction tube 62 sucks the air inside the mounting tube 44, thereby increasing the moving speed of the air and the refrigerant liquid inside the first metal rod 51 and the second metal rod 53, and the stopper 54 separates the inside of the fixed ball 55, so that the air and the refrigerant liquid inside the first metal rod 51 and the second metal rod 53 slide through the side wall of the stopper 54 into the mounting tube 44, and the air and the refrigerant liquid move in the mounting tube 44 and fall into the inside of the storage box 41, the refrigerant fluid is continuously circulated inside the storage tank 41, and simultaneously, the heat in the refrigerant fluid and the air is rapidly dissipated into the air. When the hydraulic rod 73 drives the rubber pad 72 to move towards the fixed pipe 63, the air inside the fixed cylinder 71 presses the rubber pad 72, so that the rubber pad 72 contracts and is separated from the inner side wall of the fixed cylinder 71, and the rubber pad 72 is convenient to run in the fixed cylinder 71. As the hydraulic rod 73 moves, air and refrigerant fluid are continuously introduced into the interior of the housing 13, removing heat from the interior of the housing 13 to facilitate operation of the cpu 14 within the housing 13. When the USB interface 24 needs to be used, the magnet 23 is held, the cover plate 22 is pulled up, the cover plate 22 is separated from the metal sheet 21 and the USB interface 24, the USB interface 24 is opened, other devices can be conveniently connected with the central processing unit 14 through the USB interface 24, and a worker can conveniently obtain information in the central processing unit 14; after the use is finished, the cover plate 22 rotates downwards, the magnet 23 adsorbs the side wall of the metal sheet 21, so that the cover plate 22 seals the USB interface 24, and dust is prevented from entering the USB interface 24.

the invention provides a cloud deck type intelligent sensing terminal with high reliability, when a central processing unit 14 runs, heat generated in the running process of the central processing unit 14 is dissipated into the inside of a shell 13, a driving mechanism 7 is opened, the driving mechanism 7 moves to blow air into refrigerant liquid in a cooling mechanism 4, the air moves upwards in the refrigerant liquid, so that the air drives a small amount of refrigerant liquid to enter a fixed ball 55 at one end of the shell 13, the center of a mounting pipe 44 is aligned with the center of a stop block 54, the side wall of the stop block 54 is arc-shaped, the air and the refrigerant liquid entering the fixed ball 55 slide into the interiors of a first metal rod 51 and a second metal rod 53 from the side wall of the stop block 54, the heat conductivity of metal is good, the heat in the shell 13 enters the interiors of the first metal rod 51 and the second metal rod 53, air and refrigerant fluid are in first metal pole 51 with the inside continuous motion of second metal pole 53 absorbs the heat, and air and refrigerant fluid get into behind the heat absorption the shell 13 the other end in the fixed ball 55, fixed ball 55 is inside dog 54 blocks air and refrigerant fluid and is in mutually collide in the fixed ball 55, make air and refrigerant fluid pass through fixed ball 55 gets into the inside of cooling mechanism makes the heat get into in the inside of cooling mechanism 4 disperses into the air again behind the inside, thereby reduces the inside temperature of shell 13 avoids the dust to get into simultaneously the inside of shell 13 is convenient for central processing unit 14 is in the inside operation of shell 13.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a cloud platform formula intelligent sensing terminal of high reliability which characterized in that includes:

a main body (1);

the mounting rack (3), the mounting rack (3) is fixed at one end of the main body (1);

the connecting mechanism (2), the said connecting mechanism (2) is mounted to another end of the said body (1);

the cooling mechanisms (4) are symmetrically arranged at the bottom end of the main body (1);

the driving mechanism (7), the said driving mechanism (7) is mounted to the top of the said cooling mechanism (4);

the heat dissipation mechanism (5) comprises a first metal rod (51), a convex block (52), a second metal rod (53), a stop block (54) and a fixing ball (55), wherein the first metal rod (51) and the second metal rod (53) are respectively and symmetrically installed at two ends of the interior of the main body (1), the hemispherical convex blocks (52) are respectively arranged on the side walls of the first metal rod (51) and the second metal rod (53) at equal intervals, and the convex blocks (52) are abutted against the interior of the main body (1); the side wall of the second metal rod (53) is of a U-shaped structure, the fixed ball (55) is installed at the joint of the first metal rod (51) and the second metal rod (53), the stop block (54) with the conical side wall is installed inside one end of the fixed ball (55), and the cooling mechanism (4) is connected inside the other end of the fixed ball (55);

and the adsorption mechanism (6), wherein the adsorption mechanism (6) is fixed in the cooling mechanism (4).

2. The cloud deck type intelligent sensing terminal with high reliability according to claim 1, wherein the main body (1) comprises an antenna (11), a converter (12), a housing (13) and a central processor (14), the mounting frame (3) is mounted on the side wall of the housing (13), and the central processor (14) is mounted inside the housing (13); the antenna (11) and the converter (12) are installed on the side wall of the shell (13), and the converter (12) is electrically connected with the antenna (11) and the central processing unit (14) respectively.

3. The cloud deck type intelligent sensing terminal with high reliability according to claim 2, wherein the cooling mechanism (4) comprises storage boxes (41), connecting pipes (42), communicating pipes (43), mounting pipes (44) and filter balls (45), the storage boxes (41) are symmetrically mounted at the bottom ends of the housings (13), and the communicating pipes (43) are mounted at the bottom ends of the two storage boxes (41); the side wall of the storage box (41) is provided with the connecting pipe (42), one end of the connecting pipe (42) is provided with the filter ball (45), and the filter ball (45) is positioned inside the storage box (41); the side wall of the storage box (41) is equidistantly provided with the installation pipe (44), and the top end of the installation pipe (44) is connected with the filter ball (45).

4. The PTZ-type smart sensor terminal with high reliability as claimed in claim 3, wherein the first metal rod (51) and the second metal rod (53) are wound around the side wall of the CPU (14), and the side wall of the CPU (14) abuts against the bump (52); the center of the mounting tube (44) is aligned with the center of the stop (54).

5. The cloud deck type intelligent sensing terminal with high reliability according to claim 3, wherein the driving mechanism (7) comprises a fixed cylinder (71), a rubber pad (72) and a hydraulic rod (73), one end of the fixed cylinder (71) is provided with the connecting pipe (42), and the inner part of the fixed cylinder (71) is slidably connected with the rubber pad (72) which has elasticity and is in a truncated cone shape; the hydraulic rod (73) is installed on the side wall of the fixed cylinder (71), and the hydraulic rod (73) is connected with the rubber pad (72).

6. The cloud deck type intelligent sensing terminal with high reliability according to claim 5, wherein the adsorption mechanism (6) comprises a cross bar (61), an absorption pipe (62) and a fixed pipe (63), the side wall of the other storage box (41) is respectively provided with the cross bar (61) and the fixed cylinder (71), the other end of the fixed cylinder (71) is provided with the fixed pipe (63), and the fixed pipe (63) is connected with the cross bar (61); the lateral wall equidistance installation of horizontal pole (61) suction tube (62), one end is funnel-shaped suction tube (62) with the bottom alignment of installation pipe (44).

7. The cloud deck type intelligent sensing terminal with high reliability according to claim 2, wherein the connecting mechanism (2) comprises a metal sheet (21), a cover plate (22), a magnet (23) and a USB interface (24), the USB interface (24) is installed on the side wall of the housing (13) at equal intervals, and the USB interface (24) is electrically connected with the central processing unit (14); the side wall of the shell (13) is rotatably connected with the cover plate (22), and the cover plate (22) abuts against the side wall of the USB interface (24); the lateral wall symmetry installation of shell (13) sheetmetal (21), the lateral wall symmetry installation of apron (22) magnet (23), magnet (23) absorption sheetmetal (21), just USB interface (24) are located two between sheetmetal (21).