CN212696120U - Acousto-optic directional dispersion monitoring device - Google Patents

Abstract

The utility model relates to a security protection technical field is a reputation orientation dispersion monitoring devices, and it includes that at least one front end monitors dispersion devices, and front end monitoring dispersion devices includes reputation orientation dispersion monitor, front end main control system and can 360 degrees radar positioning unit of listening, and reputation orientation dispersion monitor includes the rotatory dispersion monitoring body and fixed support piece, and the rotatory dispersion monitoring body sets up on fixed support piece's top, and radar positioning unit sets up on fixed support piece. The utility model discloses well radar positioning unit, front end main control system and rotatory dispersion monitoring body cooperate, realize automatically that the invasion target position is confirmed, the invasion target is aimed at, the invasion target broadcasting is shout, the reputation of invasion target is dispelled, the invasion target is trailed, carry out operations such as rank height processing according to the distance information, realize dispelling or refusing to the invasion target, effectively realize special place perimeter safety, advance, the efficient protection, the efficiency of work is improved, the working pressure of personnel on duty has been alleviateed.

Description

Acousto-optic directional dispersion monitoring device

Technical Field

The utility model relates to a security protection technical field is a directional monitoring arrangement that dispels of reputation.

Background

In important areas such as airports, weapons and ammunition warehouses, prisons, oil depots, factories and the like, police have to arrange a striking and dispersing device in an alarm area to find and disperse an invasion target in order to deal with events such as illegal gatherings, harassments, riots, group events, detention of the invasion target (personnel or large animals) and the like.

Present perimeter protection dispels device is mostly the video signal who passes back through the camera and judges locking invasion target, artifical angle of adjustment utilizes the mode of loudspeaker sound production to strike and dispel, this mode dispels the effect not good, be unfavorable for being applied to the great environment in scene and at big fog, sand storm, it rains, can't discover invasion target under weather such as night, the position that can not accurate locking invasion target, the distance, speed information, no intelligent linkage is reported to the police and automatic processing, and present striking dispels the device and is fixed for the structure mostly, unable real-time angle regulation, the flexibility is poor, there is certain hysteresis quality, can miss best action opportunity, cause certain loss.

Disclosure of Invention

The utility model provides a monitoring devices is dispelled in reputation orientation has overcome above-mentioned prior art not enough, and it can effectively solve easily receiving the weather influence that current dispelling device exists, can't discover the invasion target under weather such as big fog, sand storm, rainy, night, can't accurate locking invasion target carry out the problem of automatic dispelling, has further solved the fixed structure that current dispelling device exists, has installed the inflexible problem of angular adjustment.

The technical scheme of the utility model is realized through following measure: the utility model provides a monitoring arrangement is dispelled to reputation orientation, includes rear end control unit, rear end communication unit, at least one front end and keeps watch on and dispel the device, the front end is kept watch on and is dispelled the radar positioning unit that monitor, front end host computer and 360 degrees listened including reputation orientation, and reputation orientation is dispelled the monitor and is included rotatory dispersion monitoring body and fixed support piece, and rotatory dispersion monitoring body sets up on fixed support piece's top, and radar positioning unit sets up on fixed support piece, and rotatory dispersion monitoring body and radar positioning unit all are connected with the front end host computer, and every front end host computer all is connected with rear end communication unit, and rear end communication unit is connected with rear end control unit.

The following are further optimization or/and improvement of the technical scheme of the utility model:

above-mentioned radar positioning unit includes four at least radars, and four radars set up on fixed support piece along the circumference equidistant, and the detection scope of every radar is 90 degrees, and the detection distance is 0 meters to 1000 meters.

Above-mentioned front end main control system is including control mainboard, power amplifier, shout unit, front end communication unit, status indicator lamp unit and power supply unit, and the control mainboard is connected with the rotatory body of monitoring that dispels, power amplifier, shout unit, front end communication unit, status indicator lamp unit and power supply unit respectively, and the power amplifier is connected with the rotatory body of monitoring that dispels, and front end communication unit is connected with radar positioning unit, the rotatory body of monitoring that dispels and rear end communication unit respectively.

The front-end control host further comprises a first shell, a display screen, a key, an interface unit and a wireless communication unit, wherein a vent is arranged on the first shell, a control mainboard and a power amplifier are arranged in the first shell, and a front-end communication unit, a state indicator lamp unit, a shouting unit, a power supply unit, a display screen, a key, an interface unit and a wireless communication unit are arranged on the first shell.

The above-mentioned rotation is dispelled and is kept watch on body includes the cloud platform, the pickup unit, control orientation unit, reputation dispels unit and second casing, reputation dispels the unit and includes the warning light module, laser dazzles module and directional sound wave module, the cloud platform sets up the top at fixed support piece, the second casing sets up on the cloud platform, the pickup unit, control orientation unit, the warning light module, laser dazzles module and directional sound wave module and all sets up on the second casing, the cloud platform is connected with front end communication unit, directional sound wave module is connected with the power amplifier, the pickup unit, control orientation unit, warning light module and laser are dazzled the module and all are connected with front end control host computer.

The warning lamp module comprises a first warning lamp and a second warning lamp which are arranged on the second shell, and the first warning lamp and the second warning lamp are both connected with the front-end control host; or/and the laser dazzling module comprises a laser window sheet and a laser dazzling device, the laser window sheet is arranged on the second shell, the laser dazzling device is arranged in the second shell, a light source outlet of the laser dazzling device is aligned with the laser window sheet, and the laser dazzling device is connected with the front-end control host; and the directional acoustic wave module comprises an acoustic wave emitting port and a directional acoustic wave device, the acoustic wave emitting port is arranged on a second shell below the laser window sheet, the directional acoustic wave device is arranged in the second shell, an acoustic wave outlet of the directional acoustic wave device is aligned to the acoustic wave emitting port, and the directional acoustic wave device is connected with the power amplifier.

The cloud deck is hinged with a carrying support piece, and the second shell is arranged on the carrying support piece.

The sun shield is arranged at the top of the rotary dispersing monitoring body, the second handle is arranged on the rotary dispersing monitoring body, and the first handle is arranged on the front-end control host.

The utility model has flexible structure, can drive birds in a certain range of an airport runway (air route), can forcibly drive away illegal personnel constituting threats, and can also be applied to places such as public safety, military administration, economic important facilities and the like, the utility model discloses a middle rotary drive monitoring physical ability rotary drive invasion target and invasion target tracking, a radar positioning unit can complete 360 degrees of information such as position, distance, speed and the like of the invasion target, and the cooperation of the radar positioning unit, a front end control host and the rotary drive monitoring body is realized without manual operation, the operations such as invasion target position determination, invasion target alignment, invasion target broadcasting speaking warning, invasion target acousto-optic drive, invasion target tracking and the like are automatically realized, the drive or rejection of the invasion target is realized, so the utility model can effectively realize the safe, advanced and efficient protection of the perimeter of special places, the efficiency of work is improved, has alleviateed staff on duty's working pressure to can be on duty 24 hours all-weather through the mode that radar positioning element detected the invasion target, and do not receive the influence of objective factors such as heavy fog, sand storm, rainy night.

Drawings

Fig. 1 is a schematic diagram of the circuit structure of the present invention.

Fig. 2 is a schematic circuit diagram of the middle front end monitoring and dissipating device of the present invention.

Fig. 3 is a schematic view of the front-end control host according to the present invention.

Fig. 4 is a rear view structure diagram of the middle front end control host of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the middle rotating and dispersing monitor of the present invention.

The codes in the figures are respectively: 1 is the status indicator lamp unit, and 2 is first casing, and 3 are the megaphone, and 4 are button and interface unit, and 5 are the cloud platform, and 6 are the directional unit of control, and 7 are the second casing, and 8 are the warning light module, and 9 are the laser module of dazzling, and 10 are directional sound wave module, and 11 are carrying thing support piece, and 12 are the sunshading board, and 13 is the first handle, and 14 is the second handle.

Detailed Description

The utility model discloses do not receive the restriction of following embodiment, can be according to the utility model discloses a technical scheme and actual conditions determine concrete implementation.

In the present invention, for convenience of description, the description of the relative position relationship of the components is described according to the layout mode of the attached drawing 1 in the specification, such as: the positional relationship of front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of the drawings of the specification.

The invention will be further described with reference to the following examples and drawings:

as shown in fig. 1, 3 and 4, the acousto-optic directional dispersion monitoring device comprises a rear-end control unit, a rear-end communication unit and at least one front-end monitoring dispersion device, wherein the front-end monitoring dispersion device comprises an acousto-optic directional dispersion monitor, a front-end control host and a radar positioning unit capable of detecting 360 degrees, the acousto-optic directional dispersion monitor comprises a rotary dispersion monitoring body and a fixed support piece, the rotary dispersion monitoring body is arranged at the top end of the fixed support piece, the radar positioning unit is arranged on the fixed support piece, the rotary dispersion monitoring body and the radar positioning unit are both connected with the front-end control host, each front-end control host is connected with the rear-end communication unit, and the rear-end communication unit is connected with the rear-end control unit.

In the technical scheme, at least one front-end monitoring and dispersing device is arranged, the number of the front-end monitoring and dispersing devices can be adjusted according to the size and the complexity of an actual warning defense area, the front-end monitoring and dispersing devices are used for finding an invasion target entering the warning defense area, determining the position of the invasion target, and warning and dispersing the invasion target in a targeted manner through an acousto-optic means so as to realize the dispersion or rejection of the invasion target. The front-end monitoring and dispersing devices at the front end are connected with the rear-end control unit through the rear-end communication unit, so that data (position data, distance, speed, corresponding treatment execution data and the like of an intrusion target) are transmitted back to the rear-end control unit, and commands sent by the rear-end control unit are received. The back-end communication unit is a conventional technology, and can be a switch, and the front-end monitoring and dissipating device is communicated with the back-end control unit. The rear end control unit can be the total control host computer that the rear end is located total control room, and the staff can receive in real time, save, look over the data that the front end was monitored and is dispelled the device passback to through rear end control unit monitoring and dispelling device sending execution command, accomplish operations such as reputation dispelling degree control, pertinence broadcast propaganda loudly.

In the technical scheme, the front-end monitoring and dispersing device comprises an acousto-optic directional dispersing monitor, a radar positioning unit and a front-end control host, wherein the acousto-optic directional dispersing monitor comprises a rotary dispersing monitoring body and a fixed supporting piece; the height of the fixed support is determined according to the actual warning environment; the radar positioning unit is arranged on the fixed supporting piece, detects a warning defense area where the front-end monitoring and dissipating device is located, and is used for finding an intrusion target, wherein the fixed supporting piece can be a vertical rod, an armored car, a special area observation tower and the like; the front-end control host is used for determining the position, the distance and the speed of an invading target according to the data returned by the radar positioning unit, automatically controlling the rotating and dispersing monitoring body to rotate and executing a dispersing command, and the dispersing command can execute level high and low treatment according to the distance information; the rotary dispersing monitoring body is used for dispersing the invading target in a sound-light mode, tracking and monitoring the invading target in a video mode, and transmitting the implementation video information back to the front-end control host.

To sum up the utility model discloses the structure is nimble, rotatory dispersion is kept watch on the rotatory dispersion of physical stamina and is dispersed and the invasion target tracking, 360 degrees invasion target detection can be accomplished to radar positioning unit, through radar positioning unit, front end main control system and the cooperation of rotatory dispersion monitoring body, need not manually, automatic realization invasion target position is confirmed, the invasion target alignment, the invasion target broadcasting is shout to warn, invasion target reputation is dispersed, the invasion target tracking, according to the operation such as the far and near information execution level height is dealt with of distance, realize the dispersion or the refusal to the invasion target, so the utility model discloses can effectively realize special place perimeter safety, advance, the efficient protection, for example: the bird repelling device can repel birds in a certain range on an airport runway (air route), can forcibly repel and separate illegal personnel forming threats, can also be applied to places such as public safety, military administration, economic important facilities and the like, improves the working efficiency and relieves the working pressure of duty personnel.

The acousto-optic directional dispersion monitoring device can be further optimized or/and improved according to the actual requirement:

as shown in fig. 1 and 2, the radar positioning unit includes at least four radars, the four radars are arranged on the fixing support at equal intervals along the circumference, the detection range of each radar is 90 degrees, and the detection distance is 0-1000 m.

Among the above-mentioned technical scheme, the radar is current well-known technology, if it listens the scope for 90 degrees, then sets up four at least radars along circumference equidistant on fixed support piece to realize 360 degrees invasion target detection, effectively avoid the invasion target to listen the production at dead angle, guaranteed the utility model discloses a listen the precision.

As shown in the attached figures 2, 3 and 4, the front end control host comprises a control mainboard, a power amplifier, a shouting unit 3, a front end communication unit, a status indicator lamp unit and a power supply unit, wherein the control mainboard is respectively connected with a rotary dispersion monitoring body, the power amplifier, the shouting unit 3, the front end communication unit, the status indicator lamp unit and the power supply unit, the power amplifier is connected with the rotary dispersion monitoring body, and the front end communication unit is respectively connected with a radar positioning unit, the rotary dispersion monitoring body and a rear end communication unit.

Among the above-mentioned technical scheme, the control mainboard can include control chip, memory, interface control circuit, audio circuit etc. realizes that audio playback, shout in real time, monitor, laser dazzles operations such as control, sound wave drive-off control, rotation control to abundant peripheral interface is still reserved to the control mainboard, the function extension of being convenient for, wherein control chip's model can be NUC 972. The control mainboard obtains radar detection data through front end communication unit, and the control mainboard is rotatory through the rotatory monitor that dispels of front end communication unit control body, and the rotatory monitor that dispels of control mainboard direct control carries out laser emission to carry out the sound wave transmission through the rotatory monitor that dispels of power amplifier control.

In the above technical solution, the front-end communication unit includes a back-end communication interface and a front-end control interface; the back-end communication interface can be an 10/100M self-adaptive network port and is used for connecting a back-end communication unit and realizing communication with a back-end control unit; the front-end control interface can be an RS485/RS422 module and is used for connecting the radar positioning unit and the rotary dispersion monitoring body to realize the transmission of radar detection data and the transmission of rotary data (rotation angle) of the rotary dispersion monitoring body.

In the above technical solution, the status indicator light unit 1 is used for indicating various statuses of the front end control host, and may include a login indicator light, an audio play indicator light, a remote control indicator light, a power indicator light, and the like. The power supply unit may include a secondary battery and a socket for charging the secondary battery.

As shown in fig. 2, 3 and 4, the front-end control host further includes a first housing 2, a display screen, a key and interface unit 4 and a wireless communication unit, a vent is provided on the first housing 2, a control main board and a power amplifier are provided in the first housing 2, and the first housing 2 is provided with a front-end communication unit, a status indicator lamp unit 1, a shouting unit 3, a power supply unit, a display screen, a key and interface unit 4 and a wireless communication unit.

In the above technical solution, the key and interface unit 4 may include various control keys and interfaces, where the various control keys are used for manually sending control instructions to the control motherboard, and the interfaces are used for connecting various external devices. The wireless communication unit is used for communicating with the back-end control unit through a wireless link.

As shown in fig. 2 and 5, the rotational dispersion monitoring body includes a cradle head 5, a sound pickup unit, a monitoring orientation unit 6, a sound and light dispersion unit and a second housing 7, the sound and light dispersion unit includes a warning light module 8, a laser dazzling module 9 and a directional sound wave module 10, the cradle head 5 is disposed on the top end of the fixed support member, the second housing 7 is disposed on the cradle head 5, the sound pickup unit, the monitoring orientation unit 6, the warning light module 8, the laser dazzling module 9 and the directional sound wave module 10 are disposed on the second housing 7, the cradle head 5 is connected with the front-end communication unit, the directional sound wave module 10 is connected with the power amplifier, and the sound pickup unit, the monitoring orientation unit 6, the warning light module 8 and the laser dazzling module 9 are connected with the front-end control host.

Among the above-mentioned technical scheme, second casing 7 can be the aluminum alloy material, and dustproof and waterproof can effectively protect the utility model provides a various equipment increases the utility model discloses a life.

Among the above-mentioned technical scheme, the body is kept watch on in rotatory dispersion includes cloud platform 5, pickup unit, control orientation unit 6, reputation dispersion unit, and reputation dispersion unit includes warning light module 8, laser dazzles module 9 and directional sound wave module 10, effectively realizes angle rotation, reputation dispersion, invasion target tracking:

1. the front-end control host determines the position of an intrusion target and an angle to which the cloud platform 5 needs to be turned aiming at the intrusion target according to the acquired radar detection data, and controls the cloud platform 5 to rotate through a front-end communication unit;

2. the sound and light are dispersed, the front-end control host enables the directional sound wave module 10 to emit sound waves through power amplification, the front-end control host controls the intensity of the sound waves according to the preset level of the radar distance information, and level treatment is executed according to the distance information; the front-end control host directly controls the warning lamp module 8 and the laser dazzling module 9 to emit light, wherein the laser dazzling module 9 can emit green laser;

3. and tracking the invading target, wherein the monitoring and orienting unit 6 is at least one camera device and is used for tracking the invading target while dispersing the sound and light and returning video information to the front-end control host, and the front-end control host determines whether the invading target stops invading or not so as to control the orienting sound wave module 10 and the laser dazzling module 9 to stop dispersing the sound and light or enhance dispersing the sound and light according to the judgment result. The monitoring and orienting unit 6 can be matched with the radar positioning unit to jointly detect the warning defense area and discover the invasion target, so that the recognition degree of the invasion target is improved.

As shown in fig. 2 and 5, the warning light module 8 includes a first warning light and a second warning light which are arranged on the second housing 7, and the first warning light and the second warning light are both connected with the front end control host.

Among the above-mentioned technical scheme, first warning light and second warning can be blue warning light and red warning light respectively.

As shown in fig. 2 and 5, the laser dazzling module 9 includes a laser window sheet and a laser dazzler, the laser window sheet is disposed on the second housing 7, the laser dazzler is disposed in the second housing 7, a light source outlet of the laser dazzler is aligned with the laser window sheet, and the laser dazzler is connected with the front end control host.

In the above technical scheme, the laser window sheet can be coated quartz glass. The laser dazzler can be arranged on the second shell 7 through screws, and can emit high-power green laser, and the green laser is the most sensitive laser of human eyes, so the high-power green laser can stimulate the visual nerves of human eyes, so that people can temporarily blindly and dizzy, and an invasion target loses resistance, and a laser dazzling focusing mechanism can be arranged on the laser dazzler through threads. The front-end control host can adjust the spot size of the laser dazzler through the position of the invading target, so that the diameter of the laser spot irradiated near the invading target is always within a certain range (3 +/-0.5 m).

As shown in fig. 2 and 5, the directional acoustic wave module 10 includes an acoustic wave emitting port and a directional acoustic wave device, the acoustic wave emitting port is disposed on the second housing 7 below the laser window sheet, the directional acoustic wave device is disposed in the second housing 7, an acoustic wave outlet of the directional acoustic wave device is aligned with the acoustic wave emitting port, and the directional acoustic wave device is connected to the power amplifier.

In the above technical scheme, the sound wave emitting port can be composed of a plurality of meshes, the directional sound wave device can be mounted on the second shell 7 through screws, and the strength of the sound wave emitted by the directional sound wave device is controlled by the front-end control host. The sound wave emitted by the directional sound wave device has sharp directivity, and can make people feel auditory pain even lose hearing perception in a short time within the effective dispersion range of the axis of the sound beam.

As shown in fig. 5, the pan/tilt head 5 is hinged with a carrying support 11, and the second housing 7 is disposed on the carrying support 11.

As shown in fig. 3, 4 and 5, the sun visor 12, the first handle 13 and the second handle 14 are further included, the sun visor 12 is arranged on the top of the rotary dispersion monitoring body, the second handle 14 is arranged on the rotary dispersion monitoring body, and the first handle 13 is arranged on the front end control host machine.

In the above technical solution, the sun visor 12 is disposed on the top of the rotary dispersing and monitoring body, that is, on the top of the second casing 7, and the sun visor 12 is used for blocking the sun and preventing the temperature of the equipment inside the second casing 7 from being too high. The second handle 14 is arranged on the rotary dispersion monitoring body, namely can be arranged on the side surface of the second shell 7, and is convenient for workers to install the acousto-optic directional dispersion monitor. The first handle 13 is arranged on the front end control host machine and can be arranged in front of the first shell 2, so that the front end control host machine can be conveniently installed by workers.

Above technical feature constitutes the utility model discloses a best embodiment, it has stronger adaptability and best implementation effect, can increase and decrease unnecessary technical feature according to actual need, satisfies the demand of different situation.

Claims (10)

1. The utility model provides an acousto-optic directional dispersion monitoring device, its characterized in that, includes rear end control unit, rear end communication unit, at least one front end monitoring dispersion device, the front end is monitored dispersion device and is included acousto-optic directional dispersion monitor, front end main control system and can 360 degrees radar positioning unit of listening, and acousto-optic directional dispersion monitor includes rotatory dispersion monitoring body and fixed support piece, and rotatory dispersion monitoring body sets up on fixed support piece's top, and radar positioning unit sets up on fixed support piece, and rotatory dispersion monitoring body and radar positioning unit all are connected with the front end main control system, and every front end main control system all is connected with rear end communication unit, and rear end communication unit is connected with the rear end control unit.

2. The acousto-optic directional dispersion monitoring device according to claim 1, wherein the radar positioning unit comprises at least four radars, the four radars are arranged on the fixed support at equal intervals along the circumference, the detection range of each radar is 90 degrees, and the detection distance is 0m to 1000 m.

3. The acousto-optic directional dispersion monitoring device according to claim 1 or 2, wherein the front end control host comprises a control main board, a power amplifier, a shouting unit, a front end communication unit, a status indicator lamp unit and a power supply unit, the control main board is respectively connected with the rotary dispersion monitoring body, the power amplifier, the shouting unit, the front end communication unit, the status indicator lamp unit and the power supply unit, the power amplifier is connected with the rotary dispersion monitoring body, and the front end communication unit is respectively connected with the radar positioning unit, the rotary dispersion monitoring body and the rear end communication unit.

4. The acousto-optic directional dispersion monitoring device according to claim 3, wherein the front end control host further comprises a first housing, a display screen, a button and interface unit and a wireless communication unit, a vent is provided on the first housing, a control main board and a power amplifier are provided in the first housing, and a front end communication unit, a status indicator light unit, a shouting unit, a power supply unit, a display screen, a button and interface unit and a wireless communication unit are provided on the first housing.

5. The acousto-optic directional dispersion monitoring device according to claim 3, wherein the rotational dispersion monitoring body comprises a cradle head, a pickup unit, a monitoring directional unit, an acousto-optic dispersion unit and a second housing, the acousto-optic dispersion unit comprises a warning light module, a laser dazzling module and a directional sound wave module, the cradle head is arranged at the top end of the fixed support, the second housing is arranged on the cradle head, the pickup unit, the monitoring directional unit, the warning light module, the laser dazzling module and the directional sound wave module are all arranged on the second housing, the cradle head is connected with the front-end communication unit, the directional sound wave module is connected with the power amplifier, and the pickup unit, the monitoring directional unit, the warning light module and the laser dazzling module are all connected with the front-end control host.

6. The acousto-optic directional dispersion monitoring device according to claim 4, wherein the rotational dispersion monitoring body comprises a cradle head, a pickup unit, a monitoring directional unit, an acousto-optic dispersion unit and a second housing, the acousto-optic dispersion unit comprises a warning light module, a laser dazzling module and a directional sound wave module, the cradle head is arranged at the top end of the fixed support, the second housing is arranged on the cradle head, the pickup unit, the monitoring directional unit, the warning light module, the laser dazzling module and the directional sound wave module are all arranged on the second housing, the cradle head is connected with the front-end communication unit, the directional sound wave module is connected with the power amplifier, and the pickup unit, the monitoring directional unit, the warning light module and the laser dazzling module are all connected with the front-end control host.

7. The acousto-optic directional dispersion monitoring device according to claim 5 or 6, wherein the warning light module includes a first warning light and a second warning light which are arranged on the second shell, and both the first warning light and the second warning light are connected with the front-end control host; or/and the laser dazzling module comprises a laser window sheet and a laser dazzling device, the laser window sheet is arranged on the second shell, the laser dazzling device is arranged in the second shell, a light source outlet of the laser dazzling device is aligned with the laser window sheet, and the laser dazzling device is connected with the front-end control host; and the directional acoustic wave module comprises an acoustic wave emitting port and a directional acoustic wave device, the acoustic wave emitting port is arranged on a second shell below the laser window sheet, the directional acoustic wave device is arranged in the second shell, an acoustic wave outlet of the directional acoustic wave device is aligned to the acoustic wave emitting port, and the directional acoustic wave device is connected with the power amplifier.

8. The acousto-optic directional scatter monitor according to claim 5 or 6, wherein a payload support is hinged to said pan/tilt head, the second housing being disposed on the payload support.

9. The acousto-optic directional scatter monitor of claim 7, wherein a payload support is hinged to said pan/tilt head, the second housing being disposed on the payload support.

10. The acousto-optic directional dispersion monitoring device according to claim 1, 2, 4, 5, 6 or 9, characterized by further comprising a sun visor disposed on top of the rotating dispersion monitoring body, a first handle disposed on the rotating dispersion monitoring body, and a second handle disposed on the front end control host.

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