CN203571359U

CN203571359U - Monitoring equipment

Info

Publication number: CN203571359U
Application number: CN201320523790.2U
Authority: CN
Inventors: 谷红伟; 许文海; 王元臣; 周永旺; 李瑛�; 陈明华; 董丽丽; 缪希伟; 严魏; 白增辉
Original assignee: China Shenhua Energy Co Ltd; Shenhua Sales Group Co Ltd; Beijing Shenhua Hengyun Energy Technology Co Ltd
Current assignee: China Shenhua Energy Co Ltd; Shenhua Sales Group Co Ltd; Beijing Shenhua Hengyun Energy Technology Co Ltd
Priority date: 2013-08-26
Filing date: 2013-08-26
Publication date: 2014-04-30
Anticipated expiration: 2023-08-26

Abstract

The utility model provides monitoring equipment which comprises a clamping element, a large gear, a small gear, a drive motor and a pitching monitoring device. The clamping element is a ring body, the drive motor is installed on the outer vertical face of the clamping element, the small gear is installed on an output shaft of the drive motor, the large gear can be rotatably installed on the upper end face of the clamping element, the small gear is meshed with the large gear, and the pitching monitoring device is installed on the large gear. The monitoring equipment can rotate by 360 degrees, so that 360-degree horizontal scanning can be carried out. The monitoring equipment is not limited by the size and the structure of a rod needing to be erected, and is suitable for a round rod as well as a polygonal rod, simple in structure, convenient to install, firm, stable, high in bearing capacity, and suitable for large-range all-weather monitoring in various application environments and capable of effectively reducing equipment cost of large-range monitoring due to the fact that a protection cover and a sealing cover are arranged.

Description

A kind of monitoring equipment

Technical field

The utility model relates to monitoring equipment turntable technical field, relates in particular to a kind of no-blind area monitoring equipment.

Background technique

Along with the development of image device and system, information monitoring technology is used widely in fields such as industrial and agricultural production, military affairs, daily lifes.Vertical rod is modal monitoring system mounting type.Vertical rod monitoring normally adopts sets up A-frame setting up on bar, carries image forming apparatus be fixed sector scanning monitoring by fixed or two-dimentional electric platform.As a rule, the angle that horizontally rotates of two-dimentional electric platform is 0～350 °, and vertical rotary angle is about 90 °.But because monitoring system is erected on not mobilizable support, even if therefore electric platform can horizontally rotate at 0～350 °, still can there is the scan blind spot of 15 °～30 ° of left and right in HSC Horizon Scanner, cannot realize 360 ° of full horizontal extent scannings of a set of monitoring equipment.The existing bar that sets up need to set up the above monitoring equipment of at least two covers, just can carry out 360 ° of horizontal large area scannings, has not only increased the weight of to set up the weight of equipment on bar but also increased monitoring cost.

Model utility content

Goal of the invention of the present utility model is to overcome defect of the prior art, and a kind of no-blind area monitoring equipment that can carry out 360 ° of HSC Horizon Scanner is provided.

The technical solution of the utility model provides a kind of monitoring equipment, comprise shackle member, gearwheel, small gear, drive motor and pitching monitoring device, wherein said shackle member is cirque body, described drive motor is arranged on the outer side elevation of described shackle member, described small gear is arranged on the output shaft of described drive motor, described gearwheel is rotatably installed on the upper-end surface of described shackle member, and together with described small gear is meshed with described gearwheel, described pitching monitoring device is arranged on described gearwheel.

Further, between described gearwheel and the upper-end surface of described shackle member, be also connected with gear slide blocks.

Further, on described gear slide blocks, be provided with notch portion, the both sides up and down that are positioned at the opening of described notch portion on described gear slide blocks are respectively arranged with vertical bearing, the bottom that is positioned at described notch portion on described gear slide blocks is provided with horizontal bearing, the upper-end surface of described gear slide blocks and described gearwheel are connected together, the upper-end surface of described shackle member has the ring surface of along continuous straight runs outwardly convex, described ring surface stretches in the notch portion of described gear slide blocks, two described vertical bearings contact with the both sides up and down of described ring surface, described horizontal bearing contacts with the outer side surface of described ring surface.

Further, described pitching monitoring device comprises motor, motor base, swing arm, fitting seat and monitoring vidicon camera, described motor level is arranged on described motor base, described motor base is connected on described gearwheel by connecting plate, described motor is provided with two output terminals, two described output terminals are positioned at the both sides of described motor, each described output terminal is all connected with a described swing arm, described fitting seat is arranged between two described swing arms, and described monitoring vidicon camera is arranged on described fitting seat.

Further, on the side elevation of described shackle member, be also provided with horizontally extending mounting plate, on described mounting plate, be provided with through hole, described drive motor is arranged on the lower surface of described mounting plate, the described output shaft of described drive motor passes described through hole vertically upward, and is connected with described small gear.

Further, this monitoring equipment also comprises protective housing, described protective housing is also cirque body, described protective housing surrounds described shackle member, described gearwheel, described small gear and described drive motor, the upper-end surface of described protective housing is arranged on described gearwheel, described pitching monitoring device is arranged on described protective housing, described protective housing and the concentric setting mutually of described shackle member.

Further, on the upper-end surface of described shackle member, be also provided with seal closure, described seal closure comprises the sealing cover body portion of cirque body shape, described sealing cover body subordinate side is also provided with plane of inclination, the upper-end surface of described plane of inclination and described protective housing is connected together, and described seal closure and the concentric setting mutually of described protective housing.

Further, the internal surface of described sealing cover body portion is provided with groove.

Further, described seal closure is comprised of the diaphragm seal of two full symmetrics, on every described diaphragm seal, is provided with diaphragm seal fixed plate, and the described diaphragm seal fixed plate on two described diaphragm seals is bolted respectively together.

Further, the described shackle member of cylindrical shape is comprised of two clamping sheets of full symmetric, on every described clamping sheet, is provided with clamping sheet fixed plate, and the described clamping sheet fixed plate on two described clamping sheets is bolted respectively together.

Adopt technique scheme, there is following beneficial effect:

Drive motor is connected with small gear, and small gear engages with gearwheel, and pitching monitoring device is arranged on gearwheel.After switching on power, drive motor is started working, and output shaft drives pinion rotation, because small gear engages with gearwheel, therefore the moment of torsion that small gear transmits drives gearwheel to rotate, and gearwheel and then drive pitching monitoring device are realized 360 ° of rotations at horizontal plane, carry out 360 ° of HSC Horizon Scanner.It is not subject to required size and structural limitations of setting up bar, both be applicable to circular pin and be also applicable to polygonal bar, it is simple in structure, easy for installation, more stable and stronger, can bearing capacity strong, there is protective housing and seal closure, can be suitable for various occasions and carry out round-the-clock monitoring.And only by bar, a monitoring equipment being installed and can being realized 360 ° of HSC Horizon Scanner setting up, compared with prior art, can realize the round-the-clock monitoring on a large scale of a monitoring point, reduce the equipment cost of monitoring on a large scale.

Accompanying drawing explanation

The structural representation of a kind of monitoring equipment that Fig. 1 provides for the utility model;

Fig. 2 is the schematic diagram that a kind of monitoring equipment shown in Fig. 1 is installed protective housing and seal closure;

Fig. 3 is the structural representation of shackle member in a kind of monitoring equipment shown in Fig. 1;

Fig. 4 is the structural representation of gear slide blocks;

Fig. 5 is the structural representation of the notch portion on gear slide blocks;

Fig. 6 is the structural representation of installing bearing in the notch portion of gear slide blocks;

Fig. 7 is the schematic diagram that the motor in pitching monitoring equipment is connected with swing arm;

Fig. 8 is the structural representation of seal closure;

Fig. 9 is the stereogram of protective housing;

Figure 10 is the overall schematic of protective housing;

Figure 11 is another embodiment's of protective housing structural representation.

The reference character table of comparisons:

1-pitching monitoring device; 11-motor; 12-monitors vidicon camera;

13-swing arm; 14-motor base; 15-connecting plate;

16-output terminal; 17-fitting seat; 2-shackle member;

21-gear slide blocks; 211-substrate; 212-supporting plate;

213-notch portion; The vertical bearing of 214-; 215-horizontal bearing;

216-mounting hole; 217-mounting hole; 218-pin-and-hole;

22-mounting plate; 221-through hole; 222-screw hole;

23-upper-end surface; The outer side elevation of 24-; 25-ring surface;

26-outer side surface; 27-clamping sheet; 28-clamping sheet fixed plate;

3-gearwheel; 4-small gear; 5-drive motor;

51-output shaft; 6-seal closure; 61-sealing cover body portion;

62-plane of inclination; 63-internal surface; 64-diaphragm seal;

65-diaphragm seal fixed plate; 7-protective housing; 71-upper-end surface;

72-through hole; 73-cavity; 74-lower end surface;

75-gap portion.

Embodiment

Below in conjunction with accompanying drawing, further illustrate embodiment of the present utility model.

As shown in Figure 1-2, a kind of monitoring equipment that the utility model provides, comprise shackle member 2, gearwheel 3, small gear 4, drive motor 5 and pitching monitoring device 1, as shown in Figure 3, wherein this shackle member 2 is cirque body, drive motor 5 is arranged on the outer side elevation 24 of shackle member 2, small gear 4 is arranged on the output shaft 51 of drive motor 5, gearwheel 3 is rotatably installed on the upper-end surface 23 of shackle member 2, and together with small gear 4 is meshed with gearwheel 3, this pitching monitoring device 1 is arranged on gearwheel 3.

This monitoring equipment is mainly used in being arranged on and sets up on bar or high bar, surrounding environment is carried out comprehensive without blind monitoring.It is provided with shackle member 2, and this shackle member 2 is also referred to as to pinch and plugs with molten metal.Shackle member 2 is cirque body, and there is a through hole that runs through upper and lower surface at its middle part.During installation, this shackle member 2 is stuck in and is set up on bar or high bar, i.e. high bar or set up bar and be fastened in above-mentioned through hole, and can move up and down as required to desired location.

Drive motor 5 is arranged on the outer side elevation 24 of shackle member 2, and it is arranged vertically up and down, and the end of its output shaft 51 arranges upward, and small gear 4 is installed, together with small gear 4 is meshed with gearwheel 3.

Gearwheel 3 is rotatably installed on the upper-end surface 23 of shackle member 2, and gearwheel 3 can be on the upper-end surface of shackle member 2 23 be rotated take the central shaft of gearwheel 3 as axle.Gearwheel 3 preferably with shackle member 2 concentric setting mutually.

The gearwheel relating in the utility model and small gear are only relative appellation, and two gears are compared, and diameter is large is referred to as gearwheel, and diameter is little is referred to as gear, and the diameter of gearwheel 3 is greater than the diameter of small gear 4.

The monitoring setting of pitching monitoring device 1 for moving up and down, its monitoring vidicon camera 12 is in the vertical rotary angle of the paper above-below direction shown in Fig. 1, and it is 25 ° that the elevation angle can be set as required, and the angle of depression is 65 °, and other angle also can be set as required.This pitching monitoring device 1 is arranged on gearwheel 3, can rotate along with the rotation of gearwheel 3.

Thereby opening after drive motor 5, its output shaft 51 drives small gear 4 to rotate, and small gear 4 drives gearwheel 3 to rotate, and can make gearwheel 3 carry out 360 ° of rotations, gearwheel 3 and then drive pitching monitoring device 1 carry out 360 ° of rotations.

This monitoring equipment has solved existing vertical rod and has set up the HSC Horizon Scanner blind zone problem that formula monitoring technology exists, and it is arranged on high bar or sets up on bar, can realize 360 ° of no-blind area monitorings of level.And only by bar, a monitoring equipment being installed and can being realized 360 ° of HSC Horizon Scanner setting up, compared with prior art, alleviated the weight of equipment of setting up on bar, reduced monitoring cost.

Preferably, as shown in Figure 1-2, between gearwheel 3 and the upper-end surface 23 of shackle member 2, be also connected with gear slide blocks 21.This gear slide blocks 21 is for helping gearwheel 3 to be rotated centered by the central shaft of gearwheel 3 in the upper-end surface 23 of shackle member 2.

As Figure 4-Figure 6, on this gear slide blocks 21, be provided with notch portion 213, the both sides up and down that are positioned at the opening of notch portion 213 on gear slide blocks 21 are respectively arranged with vertical bearing 215, the bottom that is positioned at notch portion 213 on gear slide blocks 21 is provided with horizontal bearing 214, the upper-end surface of gear slide blocks 21 and gearwheel 3 are connected together, as shown in Figure 3, the upper-end surface 23 of shackle member 2 has the ring surface 25 of along continuous straight runs outwardly convex, this ring surface 25 stretches in the notch portion 213 of gear slide blocks 21, two vertical bearings 215 contact with the both sides up and down of ring surface 25, horizontal bearing 214 contacts with the outer side surface 26 of ring surface 25.Above-mentioned horizontal bearing 214 can be comprised of two bearings.

This gear slide blocks 21 comprises that

substrate

211 and 212, two blocks of supporting plates 212 of two blocks of supporting plates are vertically set on the two ends of substrate 211, thereby forms a notch portion 213 by two blocks of supporting plates 212 and a substrate 211.The opening that is positioned at notch portion 213 on upper and lower two blocks of supporting plates 212 is respectively equipped with a mounting hole 217, and above-mentioned opening is the opening part of notch portion 213, and it is the opening of a side relative with substrate 211.Mounting hole 217 is provided with vertical bearing 215, and this vertical bearing 215 is general bearing, because arranging on two blocks of supporting plates 212, for contacting with the upper and lower surface of ring surface 25 in the vertical direction, is referred to as vertical bearing.The bottom that is positioned at notch portion 213 on upper and lower two blocks of supporting plates 212 is respectively equipped with a mounting hole 216, and above-mentioned bottom is the interior position near substrate 211 of notch portion 213.The axle at the two ends of horizontal bearing 214 is arranged on respectively in upper and lower mounting hole 216.Horizontal bearing 214 is positioned at notch portion 213.This horizontal bearing 214 is general bearing, interior for contacting with the outer side surface 26 of ring surface 25 in the horizontal direction because being arranged on notch portion 213, is referred to as horizontal bearing.

The notch portion 213 of gear slide blocks 21 is arranged on ring surface 25, the upper and lower surface of ring surface 25 or upper and lower both sides contact with vertical bearing 215 respectively, its outer side surface 26 contacts with horizontal bearing 214, thereby this gear slide blocks 21 can carry out 360 ° of slips along the edge of ring surface 25 on ring surface 25, and by being set, horizontal bearing 214 reduced friction between the two with vertical bearing 215.

The upper-end surface of this gear slide blocks 21 and gearwheel 3 are connected together, and the upper surface and the gearwheel 3 that in this gear slide blocks 21, are positioned at a supporting plate 212 of ring surface 25 tops link together.Can gear slide blocks 21 be connected on the bottom surface of gearwheel 3 by pin.Pin is squeezed in the pin-and-hole 218 on the supporting plate 212 of gear slide blocks 21, be connected with the bottom surface of gearwheel 3, the head of pin is mutually concordant with the surface of supporting plate 212, has avoided as used the members such as bolt, screw, its head stretches out, and stops the generation of the situation that gearwheel 3 rotates.

When small gear 4 drives gearwheel 3 to rotate, gearwheel 3 driven gear slide blockss 21 slide along the circumference of the ring surface 25 on the upper-end surface 23 of shackle member 2, can realize 360 ° of rotations, reduced the friction between gearwheel 3 and shackle member 2, whole device can be rotated smoothly, and then drive pitching monitoring device 1 to carry out 360 ° of rotations.

Preferably, as shown in Fig. 1-2 and Fig. 7, pitching monitoring device 1 comprises motor 11, motor base 14, swing arm 13, fitting seat 17 and monitoring vidicon camera 12, these motor 11 levels are arranged on motor base 14, motor base 14 is connected on gearwheel 3 by connecting plate 15, motor 11 is provided with two output terminals 16, two output terminals 16 are positioned at the both sides of motor, each output terminal 16 is all connected with a swing arm 13, fitting seat 17 is arranged between two swing arms 13, and monitoring vidicon camera 12 is arranged on described fitting seat.

Motor base 14 is arranged on gearwheel 3 by connecting plate 15, when gearwheel 3 rotates, can drive connecting plate 15 to rotate, so drive motor 11, monitoring vidicon camera 12 rotate.Motor 11 levels are arranged on motor base 14, and its output terminal 16 is connected with one end of swing arm 13, between two swing arms 13, fitting seat 17 are installed, and monitoring vidicon camera 12 is arranged on this fitting seat 17.When motor 11 drives, output terminal 16 drives swing arm 13 swinging with paper Vertical direction shown in Fig. 7, and then drive monitoring vidicon camera 12 to swing, monitor the angle that swings up and down of vidicon camera 12, it is 25 ° that the elevation angle can be set as required, the angle of depression is 65 °, and other angle also can be set as required.

Above-mentioned motor 11 and drive motor 5 are stepper motor.Above-mentioned monitoring vidicon camera 12 can be thermal infrared imager or visible light camera etc.

Preferably, as Figure 2-3, on the side elevation of above-mentioned shackle member 2, be also provided with horizontally extending mounting plate 22, on this mounting plate 22, be provided with through hole 221, drive motor 5 is arranged on the lower surface of mounting plate 22, the output shaft 51 of drive motor 5 passes through hole 221 vertically upward, and is connected with small gear 4.On mounting plate 22, be also provided with four screw holes 222, drive motor 5 is arranged on the lower surface of mounting plate 22 by four screws.

Preferably, as shown in Fig. 2, Fig. 9-10, this monitoring equipment also comprises protective housing 7, this protective housing 7 is also cirque body, protective housing 7 surrounds above-mentioned shackle member 2, gearwheel 3, small gear 4 and drive motor 5, the upper-end surface 71 of protective housing 7 is arranged on gearwheel 3, and pitching monitoring device 1 is arranged on protective housing 7, this protective housing 7 and shackle member 2 concentric setting mutually.

Protective housing 7 can be transparent material and makes, and also can be opaque material.It has for high bar or sets up the through hole 72 that bar passes through.Between upper-end surface 71 and lower end surface 74, form a cavity 73, above-mentioned shackle member 2, gearwheel 3, small gear 4 and drive motor 5 are all positioned at this cavity 73, can effectively prevent entering of outside floating dust and rainwater.The upper-end surface 71 of protective housing 7 is screwed on gearwheel 3.Therefore this protective housing 7 can rotate along with the rotation of gearwheel 3.Pitching monitoring device 1 can be arranged on protective housing 7, is specially connecting plate 15 is bolted on the upper-end surface 71 of protective housing 7, and it can rotate along with the rotation of protective housing 7.

This pitching monitoring device 1 also can be directly installed on gearwheel 3, as shown in figure 11, to a gap portion 75 be set on the through hole of the upper-end surface of protective housing 7 71 72, connecting plate 15 is directly installed on gearwheel 3 from this gap portion 75, connecting plate 15 is positioned at gap portion 75 places, also can realize pitching monitoring device 1 along with gearwheel 3 rotates and rotates, simultaneously also synchronize together rotation with protective housing 7.Above-mentioned protective housing 7 is comprised of two protective housing sheets of full symmetric, convenient installation.

Preferably, as shown in Fig. 1-2 and Fig. 8, on the upper-end surface 23 of shackle member 2, be also provided with seal closure 6, sealing cover 6 comprises the sealing cover body portion 61 of cirque body shape, sealing cover body portion 61 belows are also provided with plane of inclination 62, this plane of inclination 62 is connected together with the upper-end surface 71 of protective housing 7, and sealing cover 6 and protective housing 7 concentric setting mutually.This plane of inclination 62 for the below that is positioned at sealing cover body portion 61 outwards-downward-sloping surface.Plane of inclination 62 contacts with protective housing 7, and the through hole of the upper-end surface of protective housing 7 71 72 is blocked, and prevents rainwater from top or side top enters inside.Protective housing 7 and seal closure 6 can carry out effective dustproof and rainproof protection to whole equipment, make its round-the-clock monitoring applicable to various application occasions.

The internal surface 63 of sealing cover body portion 61 is provided with groove (not shown), in order to install rubber pad elastomeric material additional, seals, and ensures that bar is set up in seal closure 6 and monitoring or high bar fits tightly.

Preferably, as shown in Figure 8, seal closure 6 is comprised of the diaphragm seal 64 of two full symmetrics, and the diaphragm seal fixed plate 65 being provided with on every diaphragm seal 64 on 65, two diaphragm seals 64 of diaphragm seal fixed plate is bolted respectively together.That is, sealing cover body portion 61 is combined by two diaphragm seals 64.

Its sealing cover body portion 61 is fixed on required the setting up on bar or high bar of monitoring equipment of setting up by jackscrew, and plane of inclination 62 contacts with the upper-end surface 71 of protective housing 7, and diaphragm seal fixed plate 65 is in order to connect and to fix two diaphragm seals 64.

As shown in Figure 3, the shackle member 2 of cylindrical shape is comprised of two clamping sheets 27 of full symmetric, and the clamping sheet fixed plate 28 being provided with on every clamping sheet 27 on 28, two clamping sheets 27 of clamping sheet fixed plate is bolted respectively together.On every clamping sheet 27, all there is outer side elevation 24.

Shackle member 2(pinches and plugs with molten metal) be the main connected element that bar or high bar are set up in whole equipment and monitoring.Whole shackle member 2 is comprised of two clamping sheets 27 of full symmetric, all has symmetrical clamping sheet fixed plate 28 in the junction of two clamping sheets 27, by screw, two clamping sheets 27 is fixed.Two symmetrical clamping sheets 27 are looped around monitoring and set up the position that bar or high bar need to be installed monitoring equipment, fix after clamping sheet fixed plate 28, with jackscrew, shackle member 2 are fixed on to monitoring and set up on bar or high bar.By shackle member 2 being set to two clamping sheets 27, at needs, being arranged on monitoring sets up on bar or high bar, respectively two clamping sheets 27 are fixed on to desired location, it is not subject to required size and structural limitations of setting up bar, has both been applicable to circular pin and has been applicable to polygonal bar yet.

Gearwheel 3 also forms by two of full symmetric, by the slide block fixing threaded hole on gearwheel 3, gear slide blocks 21 can be arranged on to the bottom surface of gearwheel 3.

By controlling the rotating speed of drive motor 5, can control the rotating speed of gearwheel 3, also can be by limit switch and short-distance wireless remote control equipment magnetic or optical coupling type are installed, by start-stop, presetting bit setting, speed control and the remotely-controlled operation etc. of motor controller controls drive motor 5 and motor 11.

A kind of monitoring equipment that the utility model provides, can realize 360 ° of rotations at horizontal plane, carries out 360 ° of HSC Horizon Scanner.It is not subject to required size and structural limitations of setting up bar, both be applicable to circular pin and be also applicable to polygonal bar, it is simple in structure, easy for installation, more stable and stronger, can bearing capacity strong, there is protective housing and seal closure, can be suitable for various occasions and carry out round-the-clock monitoring, compared with prior art, the round-the-clock monitoring on a large scale of a monitoring point can be realized, the equipment cost of monitoring on a large scale can be reduced.

Above-described is only principle of the present utility model and preferred embodiment.It should be pointed out that for the person of ordinary skill of the art, on the basis of the utility model principle, can also make some other modification, also should be considered as protection domain of the present utility model.

Claims

1. a monitoring equipment, is characterized in that, comprises shackle member, gearwheel, small gear, drive motor and pitching monitoring device,

Wherein said shackle member is cirque body, described drive motor is arranged on the outer side elevation of described shackle member, described small gear is arranged on the output shaft of described drive motor, described gearwheel is rotatably installed on the upper-end surface of described shackle member, and together with described small gear is meshed with described gearwheel, described pitching monitoring device is arranged on described gearwheel.

2. a kind of monitoring equipment according to claim 1, is characterized in that, between described gearwheel and the upper-end surface of described shackle member, is also connected with gear slide blocks.

3. a kind of monitoring equipment according to claim 2, it is characterized in that, on described gear slide blocks, be provided with notch portion, the both sides up and down that are positioned at the opening of described notch portion on described gear slide blocks are respectively arranged with vertical bearing, the bottom that is positioned at described notch portion on described gear slide blocks is provided with horizontal bearing, the upper-end surface of described gear slide blocks and described gearwheel are connected together, the upper-end surface of described shackle member has the ring surface of along continuous straight runs outwardly convex, described ring surface stretches in the notch portion of described gear slide blocks, two described vertical bearings contact with the both sides up and down of described ring surface, described horizontal bearing contacts with the outer side surface of described ring surface.

4. a kind of monitoring equipment according to claim 1, it is characterized in that, described pitching monitoring device comprises motor, motor base, swing arm, fitting seat and monitoring vidicon camera, described motor level is arranged on described motor base, described motor base is connected on described gearwheel by connecting plate, described motor is provided with two output terminals, two described output terminals are positioned at the both sides of described motor, each described output terminal is all connected with a described swing arm, described fitting seat is arranged between two described swing arms, described monitoring vidicon camera is arranged on described fitting seat.

5. a kind of monitoring equipment according to claim 1, it is characterized in that, on the side elevation of described shackle member, be also provided with horizontally extending mounting plate, on described mounting plate, be provided with through hole, described drive motor is arranged on the lower surface of described mounting plate, the described output shaft of described drive motor passes described through hole vertically upward, and is connected with described small gear.

6. a kind of monitoring equipment according to claim 1, it is characterized in that, this monitoring equipment also comprises protective housing, described protective housing is also cirque body, described protective housing surrounds described shackle member, described gearwheel, described small gear and described drive motor, the upper-end surface of described protective housing is arranged on described gearwheel, and described pitching monitoring device is arranged on described protective housing, described protective housing and the concentric setting mutually of described shackle member.

7. a kind of monitoring equipment according to claim 6, it is characterized in that, on the upper-end surface of described shackle member, be also provided with seal closure, described seal closure comprises the sealing cover body portion of cirque body shape, described sealing cover body subordinate side is also provided with plane of inclination, the upper-end surface of described plane of inclination and described protective housing is connected together, and described seal closure and the concentric setting mutually of described protective housing.

8. a kind of monitoring equipment according to claim 7, is characterized in that, the internal surface of described sealing cover body portion is provided with groove.

9. a kind of monitoring equipment according to claim 8, it is characterized in that, described seal closure is comprised of the diaphragm seal of two full symmetrics, on every described diaphragm seal, is provided with diaphragm seal fixed plate, and the described diaphragm seal fixed plate on two described diaphragm seals is bolted respectively together.

10. a kind of monitoring equipment according to claim 1, it is characterized in that, the described shackle member of cylindrical shape is comprised of two clamping sheets of full symmetric, on every described clamping sheet, be provided with clamping sheet fixed plate, the described clamping sheet fixed plate on two described clamping sheets is bolted respectively together.