CN109417612A - Monitoring device - Google Patents
Monitoring device Download PDFInfo
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- CN109417612A CN109417612A CN201880001419.5A CN201880001419A CN109417612A CN 109417612 A CN109417612 A CN 109417612A CN 201880001419 A CN201880001419 A CN 201880001419A CN 109417612 A CN109417612 A CN 109417612A
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- monitoring area
- component
- monitoring
- monitoring device
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
- H04N7/181—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast for receiving images from a plurality of remote sources
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- Radar Systems Or Details Thereof (AREA)
Abstract
The present invention discloses a monitoring device comprising an equipment body and at least two microwave supervisory components, wherein each microwave supervisory component is installed in the equipment body, wherein a monitoring area and a hidden region can be collectively formed in the microwave supervisory component.
Description
Technical field
The present invention relates to a microwave supervisory fields, further relate to a monitoring device, wherein the monitoring system can be by dividing
The mode of area's monitoring is monitored monitored object.
Background technique
Monitoring system should widely have been had in all conglomeraties and field, existing monitoring system to monitored object into
The mode of row monitoring is broadly divided into two kinds, another one is being monitored by the way of microwave supervisory to monitored object
Kind is to be monitored by the way of picture acquisition to monitored object.
When being monitored by the way of microwave supervisory to monitored object, installation usually is debugged in monitoring system
Afterwards, the monitoring area size of formation is fixed, for be monitored object specifically monitoring system formed monitoring area that
A position in the prior art can not often supervise the monitoring system that monitored object is monitored by the way of microwave supervisory
It controls.In other words, when being monitored by the way of microwave to monitored object in the prior art, can only monitor by
Object is monitored whether in monitoring area, and can not further monitor monitored object in the approximate location of monitoring area.
In some cases, if the shifting opposite in the approximate location of monitoring area and monitored object of monitored object cannot be obtained
Dynamic direction, it is possible to unnecessary loss can be brought to user.
Such as present many family cars are substantially all and are equipped with reversing radar.The reversing radar being mounted on automobile
Whether have barrier, as barrier in rear of vehicle monitoring area if can only often monitor in the scheduled monitoring area in rear of vehicle
Which position, can not be learnt by reversing radar.User can only can be judged by observing rearview mirror at this time,
And when vehicle driving is at not sufficient enough the area of light, the result obtained by backsight sem observation often will appear deviation, because
And it is easy to happen vehicle collision accident.
While being monitored to monitored object, for information such as relative position and the pictures of learning monitored object,
User is often monitored monitored object by the way of picture acquisition.And to monitored by the way of picture acquisition
When object is monitored, monitoring system needs to be always maintained at working condition.In other words, no matter whether go out in monitored region
Monitored object is showed, monitoring system all can be presented the object occurred in monitoring area by way of picture.And for one
For a little users, they are not intended to secret place such as house, office of oneself etc. and are monitored system for a long time with picture
Mode is shot, because can be easy to expose their privacy in this way, but these users also want to having some emergency situations
When generation, monitoring system can monitor these emergency situations.It is apparent that monitoring system in the prior art can not solve above-mentioned ask
Topic.
Summary of the invention
It is an object of the present invention to provide a monitoring devices, wherein the monitoring device is capable of forming a monitoring area
With a hidden region, with can be located at the monitoring area in monitored object be monitored.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device is capable of the prison of annular
Control region and the hidden region circular by the monitoring area.
It is another object of the present invention to provide a monitoring devices, wherein in the monitoring area and the hidden region
The size of at least one can be adjusted.
It is an object of the present invention to provide a monitoring devices, wherein the monitoring device can not only be by forming extremely
A few monitoring area monitors at least one monitored object, but also can carry out partition monitor in the monitoring area, and then not
It can only judge that the monitored object whether in the monitoring area, but also can judge the monitored object described
The position of monitoring area.
It is another object of the present invention to provide a monitoring devices, wherein the monitored space that the monitoring device is formed
Domain is divided at least three regions after being partitioned, therefore by judging which sub- monitoring the monitored object is located at
Region, and then can judge that the monitored object is located at the specific location of the monitoring area.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device includes described at least two
Microwave supervisory component, wherein each microwave supervisory component forms a sub- monitoring area, and the two neighboring microwave
The part being overlapped between the sub- monitoring area that monitoring part is formed forms a sub- monitoring area of overlapping, two neighboring described micro-
The underlapped sub- monitoring area of the sub- each self-forming one in the nonoverlapping part of monitoring area that wave monitoring part is formed, in this way
Mode so that the monitoring device can carry out partition monitor to the monitored object.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device can adjust at least one
The horizontal direction direction for the sub- monitoring area that the microwave supervisory component is formed, and then the monitoring device shape can be adjusted
At the hidden region range size.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device can be by adjusting at least
The one of one harmonic plate of one microwave supervisory component and the microwave supervisory component is with reference to the angle between ground element, in turn
The size of the monitoring area can be adjusted.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device can be by adjusting at least
The quantity of one radiation source of one microwave supervisory component, and then the prison that the microwave supervisory equipment is formed can be adjusted
Control the size in region.
It is another object of the present invention to provide a monitoring devices, wherein the monitoring device can be by adjusting at least
The mode of the radiation source arrangement of one microwave supervisory component, and then can adjust what the microwave supervisory equipment was formed
The size of the monitoring area.
At least one above purpose, the present invention provide a monitoring device to realize the present invention comprising:
One equipment body;With
At least two microwave supervisory components, wherein each microwave supervisory component is installed in the equipment body,
Described in microwave supervisory component a monitoring area and a hidden region can be collectively formed.
An embodiment according to the present invention, respectively radiation forms a son at least two microwave supervisory components in one direction
Monitoring area.
An embodiment according to the present invention, the sub- monitoring area energy of two neighboring each self-forming of microwave supervisory component
Enough form the sub- monitoring area of an overlapping and a underlapped sub- monitoring area of each microwave supervisory component.
An embodiment according to the present invention, the monitoring device include at least three microwave supervisory components, wherein at least
The continuous monitoring area can be collectively formed in three microwave supervisory components.
The monitoring of annular can be collectively formed in an embodiment according to the present invention, at least three microwave supervisory components
Region and the hidden region circular by the monitoring area.
An embodiment according to the present invention, each microwave supervisory component include an article body, an at least radiation source, with
And one with reference to ground element, wherein the radiation source be arranged at it is described with reference to ground element, and formed an at least radiating slot, wherein
It is described to be arranged at the article body with reference to ground element, wherein the article body is arranged at the equipment body.
An embodiment according to the present invention, each microwave supervisory component includes an at least harmonic plate, wherein the harmonic
Plate is held in the article body, and forms a predetermined angle with reference between ground element with described.
An embodiment according to the present invention, each microwave supervisory component include at least a pair of harmonic plate.
An embodiment according to the present invention, a pair harmonic plate of each microwave supervisory component is by the vertical direction
Compartment of terrain is arranged in the article body.
An embodiment according to the present invention, at least one described harmonic plate of each microwave supervisory component with the ginseng
It examines the adjustable mode of the predetermined angle formed between ground element and is installed in the article body.
An embodiment according to the present invention, be located in each microwave component the harmonic plate on the upside of the radiation source with
The article body is installed in reference to the adjustable mode of the predetermined angle formed between ground element with described.
An embodiment according to the present invention, be located in each microwave component the harmonic plate on the downside of the radiation source with
The article body is installed in reference to the adjustable mode of the predetermined angle formed between ground element with described.
An embodiment according to the present invention, the monitoring device include an at least driving part, wherein each microwave prison
At least one described harmonic plate of control component is rotatably connected at the driving part.
The quantity of an embodiment according to the present invention, the radiation source of at least one microwave supervisory component is arranged to
At least two.
An embodiment according to the present invention, at least two radiation sources of at least one microwave supervisory component are by water
Square to compartment of terrain be arranged in it is described with reference to ground element.
An embodiment according to the present invention, at least two radiation sources of at least one microwave supervisory component are by perpendicular
Histogram is arranged in described with reference to ground element to compartment of terrain.
An embodiment according to the present invention, the article body of each microwave supervisory component is by by integrally formed
Soft board is made.
An embodiment according to the present invention, the monitoring device include an at least image acquisition component, and wherein described image obtains
Component is taken to be arranged at the equipment body in a manner of towards the monitoring area.
An embodiment according to the present invention, described image obtaining widget are connected to each microwave supervisory component, wherein
When the microwave supervisory component monitors the monitored object being located in the monitoring area, described image obtaining widget is opened
It opens, to obtain the image of the monitored object.
An embodiment according to the present invention, the monitoring device include a processing component, wherein described image obtaining widget and
Each microwave supervisory component is connected to the processing component, and wherein described image obtaining widget is rotatably installed on institute
Equipment body is stated, wherein monitoring to be located at the monitored space when the processing component receives at least one described microwave supervisory component
When a monitored object in domain, the processing component control described image obtaining widget opens and drives described image acquisition unit
Part is turned to towards the monitored object.
An embodiment according to the present invention, the equipment body includes an apparatus body and an adjustable base, wherein each institute
It states microwave supervisory component and is installed in the apparatus body, wherein the apparatus body is connected to the upper of the adjustable base
End, wherein the microwave supervisory component for being installed in the apparatus body is supported to not when the adjustable base is adjusted
With height.
An embodiment according to the present invention, the adjustable base are implemented as a telescopic rod.
Detailed description of the invention
Fig. 1 shows the structural schematic diagram of a monitoring device of one embodiment of the invention.
Fig. 2A and Fig. 2 B respectively illustrates the monitoring device two in one case of first embodiment of the invention
The schematic diagram of different working condition.
Fig. 3 A and Fig. 3 B respectively illustrate the monitoring device of first embodiment of the invention in other situations
Schematic diagram under two different working conditions.
The monitoring device that Fig. 4 shows first embodiment of the invention controls an image acquisition component under a state
The schematic diagram for two different working conditions being monitored.
Fig. 5 shows the status diagram of a monitoring device of second embodiment of the invention.
Fig. 6 shows the microwave supervisory component of at least one in the monitoring device of second embodiment of the invention and turns
Status diagram after dynamic.
Fig. 7 A and Fig. 7 B respectively illustrate the monitoring device of second embodiment of the invention in two different operating shapes
Schematic diagram under state.
Fig. 8 shows the status diagram of a monitoring device of third embodiment of the invention.
Fig. 9 A shows the schematic diagram of a monitoring device of four embodiment of the invention.
Fig. 9 B shows a harmonic plate of a microwave supervisory component in the monitoring device of four embodiment of the invention
Schematic diagram after being adjusted.
Figure 10 A shows the schematic diagram of a monitoring device of fifth embodiment of the invention.
Figure 10 B shows the monitoring device schematic diagram of the variant embodiment of fifth embodiment of the invention.
Figure 11 A shows the schematic diagram of a monitoring device of sixth embodiment of the invention.
Figure 11 B shows a harmonic plate of a microwave supervisory component in the monitoring device of sixth embodiment of the invention
Schematic diagram after being adjusted.
Figure 11 C shows another harmonic of a microwave supervisory component in the monitoring device of sixth embodiment of the invention
Plate be adjusted after schematic diagram.
Figure 12 shows the schematic diagram of a monitoring device of seventh embodiment of the invention.
Figure 13 shows the monitoring device schematic diagram of the variant embodiment of seventh embodiment of the invention.
Figure 14 shows the structural schematic diagram of the height-adjustable monitoring device of the present invention.
Specific embodiment
It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below
Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description
Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back
Other technologies scheme from the spirit and scope of the present invention.
It will be understood by those skilled in the art that in exposure of the invention, term " longitudinal direction ", " transverse direction ", "upper",
The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed
System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without referring to
Show or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore above-mentioned art
Language is not considered as limiting the invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity, in addition, "front", "rear" refers to the successive of time in some places in the present invention, certainly
Side refers to the successive of logic, and the present invention is not limited by this respect.
Referring to figs. 1 to Fig. 9, a monitoring device 100 of a preferred embodiment under this invention in following description by
It discloses and illustrates, wherein the monitoring device 100 is capable of forming an at least monitoring area 200, to positioned at the monitoring area
At least one monitored object 300 in 200 is monitored.
Specifically, in embodiments of the present invention, the monitoring device 100 includes an equipment body 10 and at least two microwaves
Monitoring part 20, wherein each microwave supervisory component 20 is installed in the equipment body 10.Each microwave supervisory
Component 20 forms a sub- monitoring area 201, and sub- monitoring area 201 described in monitoring device 100 forms the monitoring area
200。
In the present invention, the part being overlapped between the two neighboring sub- monitoring area 201 is a sub- monitoring area of overlapping
2011, underlapped part is a underlapped sub- monitoring area 2012 between the two neighboring sub- monitoring area 201.It is described heavy
It folds sub- monitoring area 2011 and the underlapped sub- monitoring area 2012 forms the monitoring area 200.In this way,
So that the monitoring device 100 is when being monitored work, can subregion be monitored.In other words, heretofore described prison
Control equipment 100 can not only be monitored the monitored object 300 for being located at the monitoring area 200, but also can
The position that the monitored object 300 is located at the monitoring area 100 is monitored, for example the monitoring device 100 can monitor
It is to be located at the sub- monitoring area 2011 of overlapping, or be located at the underlapped sub- monitoring area to the monitored object 300
2012。
Each microwave supervisory component 20 includes an article body 21, at least a radiation source 22 and at least one and one ginseng
Ground element 23 is examined, wherein the radiation source 22 is positioned apart from described with reference to ground element 23, and with described with reference to ground element
A radiating slot is formed between 23, wherein described be arranged at the article body 21 with reference to ground element 23.The article body
21 are installed in the equipment body 10.
It will be appreciated to those of skill in the art that in the present embodiment, the article body 21 and the radiation source 22
It may be implemented as including a wiring board and an agitation circuit or oscillating circuit etc., the present invention is not limited by this respect.It is worth
One is mentioned that, in the present invention, the quantity for being installed on the microwave supervisory component 20 of the equipment body 10 is unrestricted.
Such as with reference to Fig. 2A to Fig. 4 B, in one embodiment of the invention, the monitoring device 100 includes two
The microwave supervisory component 20, respectively 20a and 20b.The microwave supervisory component 20a forms a sub- monitoring area 201a, and
The microwave supervisory component 20b forms a sub- monitoring area 201b.The sub- monitoring area 201a and the sub- monitoring area
The sub- monitoring area 2011 of overlapping is formed between 201b.In the sub- monitoring area 201a with the sub- monitoring area
201b underlapped part forms a underlapped sub- monitoring area 2012a of the sub- monitoring area 201a.The sub- monitored space
The part underlapped with the sub- monitoring area 201a forms a underlapped sub- prison of the sub- monitoring area 201b in the 201b of domain
Control region 2012b.Therefore, in the present embodiment, the monitoring device 100 is by dividing the monitoring area 200 for an institute
State underlapped sub- monitoring area 2012a and a underlapped sub- monitoring area 2012b and an overlapping monitoring
Region 2011, so realized by way of partition monitor to the monitored object being located in the monitoring area 200 into
Row monitoring.
Such as shown in Figure 2 A, in an example of the present embodiment, the monitored object 300 appears in described
When being overlapped sub- monitoring area 2011, the monitoring device 100 can monitor the monitored object 300 while appear in described
The sub- monitoring that the sub- monitoring area 201a and the microwave supervisory component 20b that microwave supervisory component 20a is formed are formed
Region 201b.Therefore, the monitoring device 100 can judge that the monitored object 300 is in the monitoring area 200
The sub- monitoring area 2011 of overlapping.
As shown in Figure 3A, described when the monitored object 300 appears in the underlapped sub- monitoring area 2012a
Monitoring device 100 can monitor the monitored object 300 not while appear in what the microwave supervisory component 20a was formed
The sub- monitoring area 201b that the sub- monitoring area 201a and microwave supervisory component 20b is formed, and only occur in
The sub- monitoring area 201a that the microwave supervisory component 20a is formed.The subsequent monitoring device 100 can be judged described
Monitored object 300 is located at the underlapped sub- monitoring area 2012a of the monitoring area 200.In this way, from
And make the monitoring device 100 that can not only monitor whether the monitored object 300 appears in the monitoring area
200, but also can judge the position that the monitored object 300 is located in the monitoring area 200.
More specifically, in the present invention, the monitoring device 100 includes a processing component 30, wherein the processing component
30 are communicatively connected in a network in each microwave supervisory component 20, with receive that each microwave supervisory component 20 acquires with
The related monitoring signal in 300 position of monitored object.It is understood that the processing component 30 may be implemented as
One there is the chip of processing analytic function or the device feature including the chip, the present invention not to be limited by this respect.
Further, the monitoring device 100 includes an at least driving part 40.Each 20 quilt of microwave supervisory component
Driveably be connected to the driving part 40 so that the microwave supervisory component 20 formed radiation direction in the horizontal direction by
Adjustment, and then adjust the sub- 201 horizontal direction court of monitoring area that microwave supervisory component 20 described in wherein at least one is formed
To.It will be appreciated to those of skill in the art that when the sub- monitored space of one of them formation of microwave supervisory component 20
The horizontal direction in domain 201 is towards after being adjusted, the underlapped son that is formed between the two neighboring microwave supervisory component 20
The size of monitoring area 2011 is also adjusted accordingly.In addition, the driving part 40 is controllably connected to the processing
Component 30, wherein the processing component 30 is by the analysis monitoring signal related with monitored 300 position of object, into
And it is formed and controls the control of driving part 40 1 signal.The driving part 40 is based on the control signal and correspondingly adjusts it
In the horizontal direction direction of the sub- monitoring area 201 that is formed of at least one described microwave supervisory component 20.So that the quilt
Object 300 is monitored to keep or remove in the sub- monitoring area 201 that the two neighboring microwave supervisory component 20 is formed.
It is driveably connected it will be appreciated to those of skill in the art that the microwave supervisory component 20 is implemented as entirety
In the driving part 40, so that the horizontal direction for the sub- monitoring area 201 that the microwave supervisory component 20 is formed
Direction is adjusted.
It will be appreciated by persons skilled in the art that each driving part 40 may be implemented as a motor, wherein
The driving part 40 is communicatively connected in a network in the processing component 30, wherein the driving part 40 be arranged at it is described micro-
Wave monitoring part 20, and the control signal that the driving part 40 is formed based on the processing component 30, and then driven
To adjust the horizontal direction direction of the sub- monitoring area 201 of the formation of microwave supervisory component 20 described in wherein at least one.
It will be appreciated to those of skill in the art that in the present invention, the type of the motor of the driving part 40
It is not emphasis of the invention, not invention is not limited by this respect.
With reference to Fig. 2A to Fig. 3 B, in this example, the monitoring device 100 includes two microwave supervisory components 20,
Such as above-mentioned one embodiment.In the present embodiment, microwave described at least one of two described microwave supervisory components 20
Monitoring part 20a is connected to the driving part 40, so that the son that the microwave supervisory component 20a is formed
The horizontal direction direction of monitoring area 201a and position can be changed with the microwave supervisory component 20a by driving.
For make skilled artisans appreciate that the present invention, in the present embodiment, two microwave supervisory components 20
In the sub- monitoring area 201 that is formed of the microwave supervisory component 20 that can be driven by the driving part 40 be defined as one
Reference monitor region, and the sub- monitoring area 201 that another described microwave supervisory component 20 is formed is defined as a positioning
Monitoring area.When the monitored object 300 is located at the monitoring area 200 of the monitoring device 100, the monitoring is set
Standby 100 can judge that the monitored object 300 is to be located at the sub- monitoring area 2011 of the overlapping, the microwave supervisory first
The underlapped sub- monitoring area 2012a of component 20a or the underlapped sub- monitoring area of the microwave supervisory component 20b
2012b.The subsequent processing component 30 correspondingly forms the control signal based on the monitoring signal in relation to being formed, to drive
Microwave supervisory component 20 described in dynamic wherein at least one rotates, and then the sub- monitoring area 201 formed it into is described fixed
Seat monitoring area.
With reference to Fig. 2A and Fig. 2 B, when the monitored object 300 is located at the sub- monitoring area 2011 of the overlapping, the place
Component 30 is managed to be formed with the monitored object 300 positioned at the related control signal of the Chong Die sub- monitoring area 2011,
And the sub- monitoring area 201 for correspondingly forming one of them described microwave supervisory component 20 is defined as the locating and monitoring
Region, and control the driving part 40 and one of them described microwave supervisory component 20 is driven to rotate, to adjust the positioning prison
Control the horizontal direction direction in region.Such as in this example, the processing component 30 forms the microwave supervisory component 20a
The sub- monitoring area 201a is defined as the locating and monitoring region, the sub- prison that the microwave supervisory component 20b is formed
Control region 201b is defined as the reference monitor region.The processing component 30 correspondingly adjusts the microwave supervisory component 20a
The horizontal direction direction of the sub- monitoring area 201a formed, so that the sub- prison that the microwave supervisory component 20a is formed
Control the overlapping of lap between the sub- monitoring area 201b that the region 201a and microwave supervisory component 20b is formed
The range size of sub- monitoring area 2011 changes.
With the change of the sub- monitoring area 2011 of overlapping, the monitored object 300 will progressively move out or enter
The sub- monitoring area 2011 of overlapping.The processing component 30 passes through related after the analysis microwave supervisory component 20a rotation
Data information, so as to judge that the monitored object 300 is located at the monitoring area of the monitoring device 100 formation
200 specific location.Such as in the present embodiment, the processing component 30 is by analyzing the microwave supervisory component 20a rotation
Angle, speed, time etc., and then the monitored object 300 can be judged in the specific position of the monitoring area 200
It sets.
Such as in example as shown in Figure 3A and Figure 3B, when the monitored object 300 is located at the microwave supervisory component
When the underlapped sub- monitoring area 2012a of 20a, the processing component 30 is capable of forming the related monitored object 300
Positioned at a monitoring signal of the underlapped sub- monitoring area 2012a of the microwave supervisory component 20a.The processing component 30
A control signal is formed based on the monitoring signal, correspondingly, the processing component 30 is by one of them microwave supervisory portion
The sub- monitoring area 201 that part 20 is formed is defined as the locating and monitoring region, and controls the driving part 40 and drive it
In the microwave supervisory component 20 rotate, to adjust the horizontal direction direction in the locating and monitoring region.For example originally showing
In example, it is described fixed that the sub- monitoring area 201b that the processing component 30 forms the microwave supervisory component 20b is defined as
The microwave supervisory component 20a monitoring area 201a formed is defined as the reference monitor area by position monitoring area
Domain.The control signal that the microwave supervisory component 20a rotation is driven in relation to controlling the driving part 40 is subsequently generated, to adjust
The range size of the whole sub- monitoring area 2011 of overlapping, and then the monitored object 300 is made to move into the overlapping monitoring
Region 2011.Then, the microwave supervisory component 20b of the processing component 30 based on record mobile related data, in turn
It can judge that the monitored object 300 is located at the sub- prison formed before the microwave supervisory component 20b is not driven
Control the specific location of region 201a.
Similarly, when the monitored object 300 is located at the underlapped sub- monitored space of the microwave supervisory component 20b
When the 2012b of domain, the processing component 30 is capable of forming the related monitored object 300 and is located at the microwave supervisory component 20b
The underlapped sub- monitoring area 2012b a monitoring signal.The processing component 30 is based on the monitoring signal, then raw
At the control signal for driving the microwave supervisory component 20b rotation in relation to controlling the driving part 40.When described monitored
When object 300 appears alone in the sub- monitoring area 201 that the microwave supervisory component 20b is formed, the microwave supervisory portion
Part 20a will be driven, so that the monitored object 300 gradually moves into the son that the microwave supervisory component 20a is formed
Monitoring area 201a, wherein the microwave supervisory component 20a of the processing component 30 based on record mobile related data, into
And can judge the monitored object 300 is the tool positioned at sub- monitoring area 201b described in the microwave supervisory component 20b
Body position.
That is, in the present invention, by driving the microwave supervisory component 20a, so that monitoring device 100 was formed
The monitoring area 201a is a dynamic monitoring area so that the monitoring device 100 can not only subregion to being located at
The monitored object 300 in the monitoring area 200 is monitored, but also can monitor the monitored object
300 specific location in the monitoring area 200.
It will be further appreciated that in a preferred embodiment of the invention, each of described monitoring device 100 is described
Microwave supervisory component 20 is all driveably connected to the driving part 40, so that each microwave supervisory component 20
The sub- monitoring area 201 formed can be defined as the locating and monitoring region.Similarly, the processing component 30 is logical
It crosses and calculates separately related data after each microwave supervisory component 20 rotates, and then can judge the monitored object
300 are located at the specific location in the monitoring area 200.
As shown in Figure 4 A and 4 B shown in FIG., further, the monitoring device 100 includes an at least image acquisition component 50,
Wherein described image obtaining widget 50 is communicatively connected in a network in the processing component 30, to calculate in the processing component 30
After the specific location in the monitoring area 201, starting described image obtaining widget 50 obtains the monitored object 300
The image of the monitored object 300 in the monitoring area 201.That is, in the present invention, described image obtains
Component 50 is taken to get specific location of the monitored object 300 in the monitoring area 200 in the monitoring device 100
Before, it is at closed state.Sentence is changed to say, before the monitored object 300 occurs, described image obtaining widget 50
Any information will not be obtained.Therefore, the monitoring device 100 is while being monitored the monitored object 300,
The image of the monitored object 300 can be only obtained when the monitored object 300 occurs.
It is noted that can be in the sub- monitoring area 2011 of each overlapping and the underlapped sub- monitoring area
2012 one described image obtaining widget 50 of setting, and it is set to the sub- monitoring area 2011 of the overlapping and the underlapped son
Each described image obtaining widget 50 of monitoring area 2012 is in close state at the beginning.When the processing component 30 acquisition has
When closing the related monitoring signal in position of the monitored object 300 in the monitoring area 200, correspond to the quilt
The sub- monitoring area 2011 of the overlapping or/and the described image in the underlapped sub- monitoring area 2012 for monitoring object 300
Obtaining widget 50 is activated, to shoot to the monitored object 300.
It will be further appreciated that in another embodiment of the present invention, the monitoring device 100, which includes one, can be rotated
Described image obtaining widget 50, wherein described image obtaining widget 50 is rotatably connected at the driving part 40.When
The processing component 30 monitors the monitored object 300 and is located at the monitoring area 201 in the monitoring area 201
When the sub- monitoring area 2011 of the overlapping and/or the underlapped sub- monitoring area 2012, described image obtaining widget 50 is driven
It moves to keep horizontal direction direction to correspond to the monitored object 300 in the specific location of the monitoring area 200, to obtain
The image of the monitored object 300.Below the present invention at least one example, only to be arranged one in the monitoring area 200
Be illustrated for a rotationally described image obtaining widget 50, but it will be appreciated to those of skill in the art that this simultaneously
Non- limitation of the present invention.
It will be appreciated by those skilled in the art that the microwave supervisory component 20 is by microwave Doppler effect principle to movement
Object is detected, and known to the skilled person in the art, is detected by microwave Doppler effect principle to mobile object, energy
The enough speed and distance parameter that detected mobile object is obtained in the Doppler signal of output, therefore, in conjunction with of the invention
The angle and/or moving direction of the monitoring device 100 monitored object 300 acquired in the monitoring area 200
Parameter, and then the monitored object 300 can be generated in the relative coordinate date of the monitoring area 200, so in
The monitoring area 200 positions the specific location for monitoring object 300 and obtaining the monitored object 300.
It is understood that the monitoring device 100 can determine the monitored object first due in the present invention
300 the monitoring area 200 specific location, then, after described image obtaining widget 50 is activated, and then can be rapidly
Fixed-focus shooting is carried out to the monitored object 300.That is, the monitored object 300 for being determined position is more convenient for
Described image obtaining widget 50 carries out fixed-focus.
With reference to Fig. 5 to Fig. 7 B, in second implementation of the invention, the monitoring device 100 includes three microwaves
Monitoring part 20.In the present embodiment, three microwave supervisory components 20 are respectively a microwave supervisory component 20a, a microwave
A monitoring part 20b and microwave supervisory component 20c.In the present embodiment, the monitored space that the monitoring device 100 is formed
The range for the monitoring area 200 that the range size in domain 200 can be formed with monitoring device 100 described in above-described embodiment is big
It is small identical, it can also be different, the present invention is not limited by this respect.
In addition, in this embodiment, the institute that the microwave supervisory component 20a and the microwave supervisory component 20b are respectively formed
State microwave supervisory component 20a described in sub- monitoring area 201a, 201b and above-described embodiment and microwave supervisory component 20b points
The range size for sub- monitoring area 201a, 201b not formed may be the same or different.
To make skilled artisans appreciate that the present invention, the institute that the present embodiment is only formed with the monitoring device 100
State the range size for the monitoring area 200 that monitoring device 100 described in 200 size of monitoring area and above-described embodiment is formed
It is illustrated for difference, still, it will be appreciated to those of skill in the art that the present invention is not limited by this respect.In addition,
In the present embodiment, the sub- monitoring being only respectively formed with the microwave supervisory component 20a and the microwave supervisory component 20b
It is illustrated for the range size of region 201a, 201b are same as the previously described embodiments, but the present invention is not also by limit in this respect
System.
Specifically, in the present embodiment, the microwave supervisory component 20a is formed the sub- monitoring area 201a and described
The part for the sub- monitoring area 201b overlapping that microwave supervisory component 20b is formed is defined as the one first sub- monitoring area of overlapping
2011a.What the sub- monitoring area 201a and the microwave supervisory component 20c that the microwave supervisory component 20b is formed were formed
The part being overlapped between one sub- monitoring area 201b is defined as the one second sub- monitoring area 2011b of overlapping.The microwave supervisory
The sub- monitoring area 201a that the sub- monitoring area 201c and the microwave supervisory component 20a that component 20c is formed are formed
Between the part that is overlapped be defined as a third and be overlapped sub- monitoring area 2011c.The microwave supervisory component 20a is formed described
The sub- monitoring area 201b that the sub- monitoring area 201a and microwave supervisory component 20b is formed underlapped part is defined
For one first underlapped sub- monitoring area 2012a.The sub- monitoring area 201b and institute that the microwave supervisory component 20b is formed
The underlapped part the sub- monitoring area 201c for stating microwave supervisory component 20c formation is defined as one second underlapped sub- prison
Control region 2012b.The sub- monitoring area 201c and the microwave supervisory component 20a that the microwave supervisory component 20c is formed
The sub- monitoring area 201a formed underlapped part is defined as the underlapped sub- monitoring area 2012c of a third.
It will be appreciated to those of skill in the art that in the present embodiment, the monitoring that the monitoring device 100 is formed
Region 200 is divided into six areas, i.e., described first is overlapped sub- monitoring area 2011a, the sub- monitoring area of second overlapping
2011b, the sub- monitoring area 2011c of third overlapping, the first underlapped sub- monitoring area 2012a, described second do not weigh
Fold the sub- monitoring area 2012b and underlapped sub- monitoring area 2012c of the third.When the monitored object 300 is located at institute
When stating monitoring area 200, it is monitored since the monitoring device 100 is capable of forming six parts, so that the monitoring
Whether equipment 100 can not only monitor the monitored object 300 in the monitoring area 200, but also can judge
Specific which area of the monitored object 300 in the monitoring area 200.
It is noted that in the present embodiment, the microwave supervisory component 20a, the microwave supervisory component 20b and
It is mutually continuous, but those skilled in the art between the sub- monitoring area of each self-forming of the microwave supervisory component 20c
Member is it is understood that the microwave supervisory component 20a, the microwave supervisory component 20b and the microwave supervisory component 20c
The monitoring area 200 being collectively formed also may be implemented as a discontinuous fan-shaped region, at this point, the microwave supervisory portion
Between part 20a and the microwave supervisory component 20c monitoring area 2011c can be overlapped without the third.
Further, in embodiments of the present invention, the monitoring device 100 includes at least one described driving part
40.At least one described microwave supervisory component 20 is rotatably connected at the driving part 40.Preferably, the driving portion
Part 40 is connected to the microwave supervisory component 20b, so that the microwave supervisory component 20b can be driven by the driving part 40
It is dynamic.In addition, the monitoring device 100 include the processing component 30, wherein the processing component 30 be communicatively connected in a network in
The driving part 40 and the microwave supervisory component 20a, the microwave supervisory component 20b and the microwave supervisory component
20c.The processing component 30 get it is related with position of the monitored object 300 in the monitoring area 200
After the monitoring signal, the control signal is correspondingly formed.The processing component 30 is according to control signal control
Driving part 40 drives the microwave supervisory component 20b to rotate.When the microwave supervisory component 20b is by driving and rotates, institute
State the sub- monitoring area 2011a of the first overlapping, the sub- monitoring area 2011b of second overlapping, the first underlapped sub- monitored space
The range of domain 2012a, the second underlapped sub- monitoring area 2012b and the underlapped sub- monitoring area 2012c of the third
Size correspondingly changes.Therefore, when the monitored object 300 appear in the sub- monitoring area 2011a of first overlapping,
When the second sub- monitoring area 2011b of overlapping or the third are overlapped any one in sub- monitoring area 2011c, by institute
Driving part 40 and the processing component 30 are stated, and then can obtain removing first overlapping in the monitored object 300
When sub- monitoring area 2011a or described second is overlapped sub- monitoring area 2011b, what the microwave supervisory component 20b rotated
Related data, and then judge the specific location that the monitored object 300 is located in the monitoring area 201.
With reference to Fig. 5 and Fig. 6, when the monitored object 300 appear in that the microwave supervisory component 20a formed described the
When one underlapped sub- monitoring area 2012a, the processing component 30 is located at described first according to the related monitored object 300
The related monitoring signal of sub- monitoring area 201a, and then form the control signal.It is connected to the microwave supervisory portion
The driving part 40 of part 20b is correspondingly turned on by the control signal and the microwave supervisory component 20b is driven to turn
It is dynamic, to adjust the horizontal direction direction for the described second sub- monitoring area 201b that the microwave supervisory component 20b is formed.Gradually
Ground, when the monitored object 300 gradually enters the described second sub- monitoring area that the microwave supervisory component 20b is formed
The first overlapping son monitoring before the described first sub- monitoring area 201a that the 201b and microwave supervisory component 20a is formed
When the 2011a of region, the data that the processing component 30 is rotated by calculating in relation to the microwave supervisory component 20b, and then can
Judge the specific location of the monitored object 300.That is, the microwave supervisory component 20a formation at this time is described
The sub- monitoring area 201c of the third that the first sub- monitoring area 201a and microwave supervisory component 20c is formed will be as described
Reference monitor region, and the described second sub- monitoring area 201b that the microwave supervisory component 20b is formed will be used as the positioning
Monitoring area.
Preferably, in the present invention, the microwave supervisory component 20a, the microwave supervisory component 20b and the microwave
It is mutually continuous between the sub- monitoring area 201 that monitoring part 20c is formed, and three microwave supervisory components 20 are in shape
While at mutual continuous monitoring area 201, a hidden region 202 is formed, wherein each sub- monitoring area 201 is surround
In the hidden region 202.In other words, the monitoring device 100 not to be located at the hidden region 202 in object into
Row monitoring.Therefore, it can not only be formed using monitoring device 100 of the present invention and the monitored object 300 is monitored
The monitoring area 201, but also be capable of forming a hidden region 202, and the hidden region 202 formed is located at
The centre of the closing monitoring area 201.In other words, the monitoring area 201 of formation is to be looped around the hidden region
Around 202, therefore when being monitored using monitoring device 100 of the present invention, user can be set the private space of oneself
It is set to the hidden region 202, and then can be while realization is monitored the region except private space, it will not also be sudden and violent
Reveal the private space of oneself.
As shown in Fig. 5 to 7B, further, the monitoring device 100 includes an at least image acquisition component 50, wherein
Described image obtaining widget 50 is communicatively connected in a network in the processing component 30, in the processing component 30 according to related institute
Monitored object 300 related monitoring signals in position in the monitoring area 201 are stated, described image obtaining widget is started
50, and then the figure for the monitored object 300 for obtaining described image obtaining widget 50 in the monitoring area 201
Picture.That is, in the present invention, described image obtaining widget 50 gets the monitored object in the monitoring device 100
Body is at closed state before the specific location in the monitoring area 201.It changes sentence to say, in the monitored object
Before body 300 occurs, described image obtaining widget 50 will not obtain any information, and therefore, the monitoring device 100 can
The monitored object 300 is monitored, while only obtaining the monitored object when the monitored object 300 occurs
The image of body 300.
By above description, it will be appreciated by persons skilled in the art that if the private space of user is arranged to institute
The hidden region 202 of the formation of monitoring device 100 is stated, and the monitoring area 201 that the monitoring device 100 is formed is set
It is set to the region of other needs monitoring except user's private space, and then can be realized to other except user's private space
Segment space is into monitoring.
With reference to Fig. 7 B, it is worth mentioning at this point that, it can be in the sub- monitoring area 2011 of each overlapping and the underlapped son
A described image obtaining widget 50 is arranged in monitoring area 2012, and is set to the sub- monitoring area 2011 of the overlapping and described
Each described image obtaining widget 50 of underlapped sub- monitoring area 2012 is in close state at the beginning.When the processing component
30 when calculating position of the monitored object 300 in the monitoring area 300, corresponds to the monitored object 300
The sub- monitoring area 2011 of the overlapping or/and the underlapped sub- monitoring area 2012 in 50 quilt of described image obtaining widget
Starting, to be shot to the monitored object 300.
With reference to Fig. 5 to Fig. 7 A, it will be further appreciated that, in another embodiment of the present invention, the monitoring device 100
Including a rotationally described image obtaining widget 50, wherein described image obtaining widget 50 is rotatably connected at described
Driving part 40.It is located at the monitoring area 201 in the prison when the processing component 30 monitors the monitored object 300
When controlling the sub- monitoring area 2011 of the overlapping and/or the underlapped sub- monitoring area 2012 in region 201, described image is obtained
Component 50 is taken to be actuated to that horizontal direction direction is kept to correspond to the monitored object 300 in the tool of the monitoring area 200
Body position, to obtain the image of the monitored object 300.
With reference to Fig. 8, in another embodiment, the monitoring device 100 is implemented as including four described micro-
Wave monitoring part 20, specifically, a respectively microwave supervisory component 20a, a microwave supervisory component 20b, a microwave supervisory component
A 20c and microwave supervisory component 20d.The microwave supervisory component 20a, the microwave supervisory component 20b, the microwave supervisory
Component 20c and the microwave supervisory component 20d are respectively correspondingly respectively formed a sub- monitoring area 201a, a sub- monitoring area
201b, a sub- sub- monitoring area 201d of monitoring area 201c and one.Preferably, in the present embodiment, two neighboring described micro-
Wave monitoring part 20 is respectively formed the sub- monitoring area 2011 of an overlapping.Specifically, the sub- monitoring area 10a and the sub- monitoring
One first overlapping sub- monitoring area 2011a, the sub- monitoring area 10b and the sub- monitoring area are formed between the 10b of region
Formed between 10bc one second overlapping sub- monitoring area 2011b, the sub- monitoring area 10b and the sub- monitoring area 10c it
Between form a third and be overlapped sub- monitoring area 2011c, formed between the sub- monitoring area 10c and the sub- monitoring area 10a
One the 4th sub- monitoring area 2011d of overlapping.In addition, in the present embodiment, the sub- monitoring area 201a and the sub- monitored space
Underlapped part is one first underlapped sub- monitoring area 2012a between domain 201b and the sub- monitoring area 201d.Institute
Stating part underlapped between sub- monitoring area 201b and the sub- monitoring area 201a and the sub- monitoring area 201c is one
Second underlapped sub- monitoring area 2012b, the sub- monitoring area 201c and the sub- monitoring area 201b and the sub- monitoring
Underlapped part is the underlapped sub- monitoring area 2012c of a third, the sub- monitoring area 201d and institute between the 201d of region
Stating part underlapped between sub- monitoring area 201a and the sub- monitoring area 201c is one the 4th underlapped sub- monitoring area
2012d。
It will be appreciated by persons skilled in the art that the monitoring device 100 is by the way that the monitoring area 200 to be divided into
One annular eight region is monitored the monitored object 300, so that the monitored object can not only be monitored
Whether body 300 is located at the monitoring area 200, but also can monitor the monitored object 300 in the monitoring area
200 specific location.
In addition, each microwave supervisory component 20 is rotatably mounted by a motor respectively.The microwave supervisory
Component 20a, the microwave supervisory component 20b, the microwave supervisory component 20c and the microwave supervisory component 20d respectively by
It is communicatively coupled with the processing component 30.The processing component 30 is according in relation to the institute where the monitored object 300
The related monitoring signal in position for stating sub- monitoring area 201, correspondingly generates the control signal, by described in starting
Driving part 40 controls the microwave supervisory component 20 in turn and rotates.The processing component 30 is then right by analysis rotation front and back
The microwave supervisory component 20 answered deflects the change in location of related data and the monitored object 300, and then sentences
Disconnected specific location of the monitored object 300 in the monitoring area 200 out.
Such as in example as depicted in figure 8, when the monitored object 300 appears in the first overlapping son monitoring
After the 2011a of region, the monitoring device 100 can monitor the monitored object 300 while appear in the microwave supervisory
The sub- monitoring area 201a and the sub- monitoring area 201b that component 20a and the microwave supervisory component 20b are respectively formed.
Then, the processing component 30 correspondingly controls the microwave supervisory component 20b for forming the described second sub- monitoring area 201b,
To reduce the horizontal direction direction of the sub- monitoring area 2011a of first overlapping, so that the monitored object progressively moves out
The sub- monitoring area 2011a of first overlapping.The processing component 30 is by calculating the microwave supervisory component 20a and described micro-
The displacement that wave monitoring part 20b is generated, to judge that the monitored object 300 is specific in the monitoring area 200
Position.
It is noted that in the present embodiment, the monitoring device 100 further comprises an at least image acquisition component
50.Such as in an embodiment of the invention, the monitoring device 100 includes a described image obtaining widget 50, wherein institute
Image acquisition component 50 is stated to be implemented as being rotatably mounted and the equipment body 10.Described image obtaining widget 50 can be led to
It is connected to the processing component 30 to letter.Have what the processing component 30 obtained that multiple microwave supervisory components 20 monitor
When closing the related signal in 300 region of monitored object, the processing dress component 30 drives described image acquisition to fill 40
Rotation, so that the sub- monitoring area 201 where described image obtaining widget 50 towards the monitored object 300 obtains
Take the image of the monitored object 300.
In another embodiment of the present invention, the monitoring device 100 includes multiple described image obtaining widget 50.Than
Such as, it is preferable that described first is overlapped sub- monitoring area 2011a, the sub- monitoring area 2011b of second overlapping, the third weight
Fold sub- monitoring area 2011c, the sub- monitoring area 2011d of first overlapping, the first underlapped sub- monitoring area 2012a,
The second underlapped sub- monitoring area 2012b, the underlapped sub- monitoring area 2012c of the third and the first underlapped son
Monitoring area 2012d is designed with a described image obtaining widget 50.It is obtained in the processing component 30 related described monitored
Before the related monitoring signal in the position of object 300, it is set to and states the sub- monitoring area 2011a of the first overlapping, described second
Be overlapped sub- monitoring area 2011b, the third is overlapped sub- monitoring area 2011c, the sub- monitoring area 2011d of first overlapping,
The first underlapped sub- monitoring area 2012a, the second underlapped sub- monitoring area 2012b, the underlapped son of the third
The described image obtaining widget 50 of monitoring area 2012c and the first underlapped sub- monitoring area 2012d and without image
Obtain work.Only when the processing component 30 obtain that multiple microwave supervisory components 20 monitor it is related described monitored
After the related signal in 300 region of object, the processing component 30 is just driven where corresponding to the monitored object 300
The described image obtaining widget 50 of the sub- monitoring area 201 carries out image and obtains work.
It will be further appreciated that getting in the processing dress component 30 in relation to the institute where the monitored object 300
Before the position for stating sub- monitoring area 201, described image obtaining widget 50 is simultaneously not gated on.That is, the monitoring device
Before 100 get the affiliated specific sub- monitoring area 201 of the monitored object 300, described image acquisition unit
Part 50 will not obtain image.Therefore, the monitoring device 100 provided by the invention can not only judge the monitoring area
200 whether there is the monitored object 300, but also can appear in the monitoring area in the only described monitored object
When, the described image obtaining widget 50 for just starting the monitoring device 100 obtains image.
Further, each microwave supervisory component 20 includes at least one harmonic plate 24 in the monitoring device 100,
Wherein the harmonic plate 24 is held in the article body 21, and with described with reference to the default folder of formation one between ground element 23
Angle.The harmonic plate 24 is arranged at the path of microwave radiation, the microwave can be limited in presumptive area.
It is noted that at least one embodiment of the invention, the quantity of the harmonic plate 24 can be set to one
It is a or more than one, the present invention is not limited by this respect.
Two harmonic plates can be set referring to figs. 1 to Fig. 8 and 9A and Fig. 9 B, each microwave supervisory component 20
24, and one of them described harmonic plate 24 is arranged on the left side with reference to ground element 23, another described harmonic plate
24 are arranged on the right side with reference to ground element 23, that is to say, that two harmonic plates 24 be horizontally placed on it is described
With reference to ground element 23.Each harmonic plate 24 is driveably connected to the driving part 40, thus by described in driving
At least one of microwave supervisory component 20 harmonic plate 24, and then the harmonic plate 24 can be made with described with reference to ground element 23
Between the predetermined angle that the is formed sub- prison that is adjusted, and each microwave supervisory component 20 is enabled to be formed
The direction of control region 201 in the horizontal direction is adjusted, and then makes shape between the two neighboring microwave supervisory component 20
At sub- 2011 size of monitoring area of the overlapping be adjusted.
It is noted that in the present invention, the short transverse that the equipment body 10 extends is a vertical direction, wherein
The short transverse extended in the plane with reference to where ground element 23 and with the equipment body 10 is a horizontal direction.
It will be appreciated to those of skill in the art that each of each described microwave supervisory component 20 harmonic plate 24
It can be adjusted, to make skilled artisans appreciate that the present invention, at least one of the invention embodiment, only with wherein one
One harmonic plate 24 of a microwave supervisory component 20 and the predetermined angle quilt with reference between ground element 23
It is illustrated for adjustment.
It is noted that in the present invention, the mode that the harmonic plate 24 is adjusted can be by manually adjusting,
It can be and be adjusted by being installed on the equipment body 10 and being connected to the driving part 40 of the harmonic plate 24.More
It is noted that the harmonic plate 24 can be implemented as controlling the driving part 40 by the processing component 30 and be driven
It is dynamic to be automatically adjusted based on the feedback signal in a manner of rotating automatically.Correspondingly, in the present embodiment, when the monitored object 300 appears in
In the present embodiment, only by adjusting the number of the radiation source 22 of microwave supervisory component 20 described at least one
Amount, and then it is also possible that formed between the two neighboring microwave supervisory component 20 in the monitoring device 100 described heavy
Folded subregion 2011 is of different sizes, so that the monitoring area 200 that the monitoring device 100 is formed is of different sizes.
As shown in figs. 10 a and 10b, corresponding when setting two for the radiation source 22 of each microwave supervisory component 20
The size of the sub- monitoring area 201 that is formed of the microwave supervisory component 20 reduce so that the entire monitored space
Domain 200 becomes smaller.That is, the harmonic plate 24 can be not provided in Fig. 9 A, Figure 10 A and Figure 10 B, but only by changing
Become the quantity of radiation source 22 described in microwave supervisory component 20 described in wherein at least one, and then the monitoring area can be adjusted
200 and 202 size of hidden region.With reference to Figure 11 A, Figure 11 B and Figure 11 C, in an embodiment of the invention, Mei Gesuo
Stating microwave supervisory component 20 includes a radiation source 22, wherein the radiation source 22 is installed in reference ground element
23.And each microwave supervisory component 20 includes two harmonic plates 24, one of them described harmonic plate 24 is arranged at
The reference ground element 23 of 22 upside of radiation source, another described harmonic plate 24 are arranged at 22 downside of radiation source
It is described with reference to ground element 23.That is, in the present embodiment, two harmonic plates 24 are set in the vertical direction.
Therefore, when each microwave supervisory component 20 works, the harmonic plate 24 of each microwave supervisory component 20 is by institute
It states the microwave that the radiation of radiation source 22 is formed to be limited in scheduled region, to form the sub- monitoring area 201.
It is noted that the microwave supervisory component 20 is forming at least two institutes in any embodiment of the present invention
While stating sub- monitoring area 201, it is also formed simultaneously the hidden region 202.
Since the harmonic plate 24 of each microwave supervisory component 20 is arranged on a vertical direction, often
The sub- monitoring area 201 width in the horizontal direction that a microwave supervisory component 20 is formed is constant.
When the harmonic plate 24 of each microwave supervisory component 20 is relative to the described pre- of reference ground element 23
When clamp angle is implemented as different size, the sub- monitoring area 201 that the microwave supervisory component 20 is formed it is of different sizes.
Especially when any one described harmonic plate 24 in the reference ground element 23 for being set to 22 upside of radiation source or downside
When relative to the default angle difference with reference between ground element 23, institute that not only the microwave supervisory component 20 is formed
The of different sizes of sub- monitoring area 201 is stated, and the size in the hidden region 202 formed also can be corresponding different.
That is, in the present invention it is possible to by adjusting the harmonic plate 24 relative to it is described with reference to ground element 23 it
Between the default angle, and then be capable of forming the different size of hidden region 202 and the monitoring area 200.
In addition, in the present embodiment, the monitoring device 100 also includes at least one described driving part 40, wherein institute
It states driving part 40 and is arranged at the equipment body 10, wherein 24 quilt of harmonic plate of each microwave supervisory component 20
Driveably it is connected to the driving part 40.
Specifically, in the present embodiment, user can be by driving the driving part 40 that can automatically adjust
Harmonic plate 24 described in each microwave supervisory component 20 relative to it is described with reference to ground element 23 between the default angle,
So that the size of the monitoring area 200 and the hidden region 202 that the monitoring device 100 is formed is able to be adjusted
It is whole.
It is noted that at least one described harmonic plate 24 of each microwave supervisory component is with described with reference to ground member
The predetermined angle adjustable extent formed between part 23 is greater than 0 ° less than 90 °.
Such as in the example as shown in Fig. 1 to Fig. 8 and Fig. 9 A, when the institute of each microwave supervisory component 20
When forming the predetermined angle between element 23 with stating harmonic plate 24 and reference, the monitoring device 100 is capable of forming the prison
Control region 200 and the shielding area 202.At this point, what the monitoring area 200 was formed by each microwave supervisory component 20
The sub- monitoring area 201 of the underlapped sub- monitoring area 2012 and each self-forming of the two neighboring microwave supervisory component 20 it
Between the sub- monitoring area 2011 of the overlapping form.
On the one hand, in the present embodiment, the monitoring device 100, which can not only monitor the monitored object 300, is
It is no the monitoring device 100 formed the monitoring area 200, but also can monitor the monitored object 300 be
Form the monitoring area 200 the underlapped sub- monitoring area 2012 or the two neighboring microwave supervisory component 20
The sub- monitoring area 2011 of the overlapping between the sub- monitoring area 201 of each self-forming.Therefore, the monitoring device 100 can also
Enough realize carries out partition monitor to the monitored object 300.On the other hand, the monitoring device 100 can also be in the prison
The middle part of control equipment 100 forms the hidden region 202.Therefore, user, can when using the microwave supervisory equipment 100
It will be not desired to that the region being monitored in real-time is corresponding with the hidden region 202, and monitored region and described monitor will be needed to set
Standby 100 monitoring areas 201 formed correspond to.After the monitored object 300 appears in monitoring area 201, institute
The multiple microwave supervisory components 20 for stating monitoring device 100 can monitor described in such a way that subregion monitors first
Position where monitored object 300.Then, the processing component 30 of the monitoring device 100 can obtain described supervised
The region where object 300 is controlled, the image that described image obtaining widget 50 obtains the monitored object 300 is then controlled.
It is noted that due in the monitoring device 100, the harmonic plate 24 of the microwave supervisory component 20 with
Reference ground element 23 forms the predetermined angle and can be predetermined before making the monitoring device 100, and described micro-
It is different that the default angle is formed between the harmonic plate 24 of wave monitoring part 20 and reference ground element 23, the monitoring
It 200 position of the monitoring area that equipment 100 is formed can be different.
For example, as shown in Fig. 1 to Fig. 8 and 11B, when being located at the radiation source 22 in a microwave supervisory component 20
After the harmonic plate 24 of upside and the predetermined angle with reference between ground element 23 are turned down, the corresponding microwave
The sub- monitoring area 201 that monitoring part 20 is formed will increase, so that be made of multiple sub- monitoring areas 201
The size of the monitoring area 200 increases.Correspondingly, the size in the hidden region 202 that the monitoring device 100 is formed subtracts
It is small.
As shown in Fig. 1 to Fig. 8 and 11C, when being located at 22 downside of the radiation source in a microwave supervisory component 20
The harmonic plate 24 and it is described with reference to ground element 23 between the predetermined angle turned down after, the corresponding microwave supervisory
The sub- monitoring area 201 that component 20 is formed will increase, so that described in being made of multiple sub- monitoring areas 201
The size of monitoring area 200 increases.Correspondingly, the size in the hidden region 202 that the monitoring device 100 is formed reduces.
Also, when described predetermined between 20 downside of a microwave supervisory component harmonic plate 24 and reference ground element 23
After angle is turned down, the sub- monitoring area 201 that the corresponding microwave supervisory component 20 is formed will be closer to the component
Main body 21.
It is noted that at least one described harmonic plate 24 of each microwave supervisory component is with described with reference to ground member
The predetermined angle adjustable extent formed between part 23 is greater than 0 ° less than 90 °.
In addition, the number for the radiation source 22 that each of described monitoring device 100 microwave supervisory component 20 includes
Amount can also be different.Specifically, when the quantity difference of the radiation source 22, the corresponding formation of microwave supervisory component 20
The sub- monitoring area 201 width and size it is not only different, but also the monitoring device 100 formed the hidden region
202 size is also different.
Specifically, with reference to the quantity quilt of Figure 12, one of them described microwave supervisory component 20 radiation source 22 for including
It is embodied as including two.With reference to the quantity quilt of Figure 13, one of them described microwave supervisory component 20 radiation source 22 for including
It is embodied as including four.
With reference to Figure 12, the quantity for the radiation source 22 for including due to microwave supervisory component 20 described in one of them is carried out
It is two, wherein each radiation source 22 is arranged in reference ground element 23 by horizontal direction.When institute in Figure 11 A and Figure 12
State the predetermined angle between harmonic plate 24 described in microwave supervisory component 20 and the plane with reference to where ground element 23
In all identical situation, in the microwave supervisory component 20 in Figure 12 due to the radiation source 22 be it is polynary, Figure 12
Described in microwave supervisory component 20 radiation formed the sub- monitoring area 201 compared with microwave supervisory component 20 described in Figure 11 A
Radiate the position of article body 21 described in the distance of the sub- monitoring area 201 formed farther out, and width in the horizontal direction
It is relatively narrow.Similarly, the quantity for the radiation source 22 that the microwave supervisory component 20 as described in Figure 13 includes is implemented as four,
Therefore, the sub- monitoring area 201 that the radiation of microwave supervisory component described in Figure 13 20 is formed is compared with described in Figure 11 A and Figure 12
Position of the sub- monitoring area 201 that the radiation of microwave supervisory component 20 is formed apart from the article body 21 is farther, and in water
It is square upward wide narrower.And work as the sub- monitoring area 201 that microwave supervisory component 20 described in wherein at least one is formed
Position and width when changing, accordingly, the monitoring area 200 that the monitoring device 100 is formed and described hidden
The size in region 202 changes simultaneously.
Therefore, it when making the monitoring device 100, is radiated by adjusting described in each microwave supervisory component 20
The quantity in source 22, and then the size for the monitoring area 200 that the monitoring device 100 can be made to be formed and the hidden region
202 size changes simultaneously.
More specifically, in the present embodiment, the radiation source 22 of each microwave supervisory component 20 is horizontally arranged
In the article body 21.In addition, the microwave supervisory component 20 can also be vertically disposed in the article body 21, this hair
It is bright not limited by this respect.
Preferably, in the present embodiment, the article body 21 of each microwave supervisory component 20 is carried out by soft
Plate is made, it is highly preferred that being made of FPC soft board.Therefore, by way of bending the article body 21, and then institute can be made
The microwave for stating the formation of radiation source 22 is limited in predetermined angular by the curved article body 21 to be radiated.Therefore, by adjusting
Described 21 the degree of bending of article body is further able to adjust 200 He of the monitoring area that the monitoring device 100 is formed
The size in the hidden region 202.
With reference to Figure 14, it is highly preferred that in the present invention, the equipment body 10 of the microwave supervisory equipment 100 includes
One apparatus body 11 and an adjustable base 12, wherein the apparatus body 11 is installed in the upper end of the adjustable base 12.Institute
The height for stating adjustable base 12 is arranged to adjustable, thus by adjusting the height of the adjustable base 12, and then can incite somebody to action
The apparatus body 11 is supported to different height.
In addition, each microwave supervisory component 20 is installed in the apparatus body 11 of the equipment body 10.Cause
This is installed in each microwave of the apparatus body 10 when by adjusting the height of the adjustable base 12
The height of monitoring part 20 is also adjusted accordingly.In this way, so that each microwave supervisory component 20
Position of the sub- monitoring area 201 formed apart from the article body 21 is adjusted.Correspondingly, by each sub- prison
Position of the monitoring area 200 that control region 201 is formed apart from the article body 21 is also adjusted, so that the prison
The size in the hidden region 202 that control equipment 100 is formed is adjusted.
It will be appreciated to those of skill in the art that in the present invention, being mounted by adjusting in the equipment body 10
The height locating for the apparatus body 11 of 12 upper end of adjustable base, and then the big of the hidden region 202 can be adjusted
It is small.Preferably, the adjustable base is implemented as a telescopic rod.
The embodiment for being used to explain the present invention function and structure principle absolutely proved and described, and the present invention not by
Limitation based on the change on these embodiment basis.Therefore, the present invention includes covering in appended claims requirement
All modifications within scope and spirit.
Claims (22)
1. a monitoring device, characterized in that it comprises:
One equipment body;With
At least two microwave supervisory components, wherein each microwave supervisory component is installed in the equipment body, wherein institute
A monitoring area and a hidden region can be collectively formed by stating microwave supervisory component.
2. monitoring device according to claim 1, microwave supervisory component described in wherein at least two is respectively in one direction
Radiation forms a sub- monitoring area.
3. monitoring device according to claim 2, wherein two neighboring each self-forming of microwave supervisory component is described
Sub- monitoring area is capable of forming the sub- monitoring area of an overlapping and a underlapped sub- monitored space of each microwave supervisory component
Domain.
4. monitoring device according to claim 1, wherein the monitoring device includes at least three microwave supervisory portions
The continuous monitoring area can be collectively formed in part, microwave supervisory component described in wherein at least three.
5. monitoring device according to claim 4, ring can be collectively formed in microwave supervisory component described in wherein at least three
The monitoring area of shape and the hidden region circular by the monitoring area.
6. according to claim 1 to any monitoring device in 5, wherein each microwave supervisory component includes a component
Main body, at least a radiation source and one are with reference to ground element, wherein the radiation source is arranged at reference ground element, and shape
At an at least radiating slot, wherein described be arranged at the article body with reference to ground element, wherein the article body is set
It is placed in the equipment body.
7. monitoring device according to claim 6, wherein each microwave supervisory component includes an at least harmonic plate,
Described in harmonic plate be held in the article body, and form a predetermined angle with reference between ground element described.
8. monitoring device according to claim 7, wherein each microwave supervisory component includes at least a pair of tune
Wave plate.
9. monitoring device according to claim 8, wherein a pair harmonic plate of each microwave supervisory component exists
Compartment of terrain is arranged in the article body on vertical direction.
10. monitoring device according to claim 9, wherein at least one described harmonic of each microwave supervisory component
Plate is installed in the article body in such a way that the predetermined angle formed between reference ground element is adjustable.
11. monitoring device according to claim 10, wherein being located on the upside of the radiation source in each microwave component
The harmonic plate by it is described with reference to the predetermined angle that is formed between ground element it is adjustable in a manner of be installed in the portion
Part main body.
12. monitoring device according to claim 10, wherein being located on the downside of the radiation source in each microwave component
The harmonic plate by it is described with reference to the predetermined angle that is formed between ground element it is adjustable in a manner of be installed in the portion
Part main body.
13. monitoring device according to claim 10, wherein the monitoring device includes an at least driving part, wherein often
At least one described harmonic plate of a microwave supervisory component is rotatably connected at the driving part.
14. monitoring device according to claim 6, the radiation source of microwave supervisory component described in wherein at least one
Quantity is arranged at least two.
15. monitoring device according to claim 14, at least two institutes of microwave supervisory component described in wherein at least one
It states radiation source and reference ground element is arranged in by compartment of terrain in the horizontal direction.
16. monitoring device according to claim 15, at least two institutes of microwave supervisory component described in wherein at least one
It states radiation source and is arranged in reference ground element in vertical direction compartment of terrain.
17. monitoring device according to claim 6, wherein the article body of each microwave supervisory component is led to
Integrally formed soft board is crossed to be made.
18. according to claim 1 to any monitoring device in 5, wherein the monitoring device includes that an at least image obtains
Component is taken, wherein described image obtaining widget is arranged at the equipment body in a manner of towards the monitoring area.
19. monitoring device according to claim 18, wherein described image obtaining widget is connected to each microwave
Monitoring part, wherein when the microwave supervisory component monitors the monitored object being located in the monitoring area, the figure
As obtaining widget is turned on, to obtain the image of the monitored object.
20. monitoring device according to claim 18, wherein the monitoring device includes a processing component, wherein the figure
As obtaining widget and each microwave supervisory component are connected to the processing component, wherein described image obtaining widget can turn
It is installed on the equipment body dynamicly, wherein when the processing component receives at least one described microwave supervisory component monitoring in place
When a monitored object in the monitoring area, the processing component control described image obtaining widget opens and drives institute
Image acquisition component is stated to turn to towards the monitored object.
21. monitoring device according to claim 1, wherein the equipment body includes an apparatus body and an adjustable bottom
Seat, wherein each microwave supervisory component is installed in the apparatus body, wherein the apparatus body be connected to it is described
The upper end of adjustable base, wherein being installed in the microwave supervisory portion of the apparatus body when adjustable base is adjusted
Part is supported to different height.
22. monitoring device according to claim 21, wherein the adjustable base is implemented as a telescopic rod.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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CN201811074546 | 2018-09-14 | ||
CN2018110745466 | 2018-09-14 | ||
PCT/CN2018/106930 WO2020051942A1 (en) | 2018-09-14 | 2018-09-21 | Surveillance device |
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CN109417612A true CN109417612A (en) | 2019-03-01 |
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CN201880001419.5A Pending CN109417612A (en) | 2018-09-14 | 2018-09-21 | Monitoring device |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20030222809A1 (en) * | 2002-04-24 | 2003-12-04 | Terumi Nakazawa | Millimeter wave radar monitoring system |
CN102576483A (en) * | 2009-10-02 | 2012-07-11 | 发明人投资控股公司 | Security system and method to secure an area |
CN105376538A (en) * | 2015-12-08 | 2016-03-02 | 湖南纳雷科技有限公司 | Radar and video fused large-scale monitoring system and method |
CN205142414U (en) * | 2015-11-24 | 2016-04-06 | 陕西亿达泰电子科技有限公司 | Video linkage monitoring device based on radar |
CN107945445A (en) * | 2017-12-28 | 2018-04-20 | 克拉玛依市格恩赛电子科技有限公司 | A kind of thunder ball linkage warning monitoring system and its monitoring method with preprocessing function |
-
2018
- 2018-09-21 CN CN201880001419.5A patent/CN109417612A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20030222809A1 (en) * | 2002-04-24 | 2003-12-04 | Terumi Nakazawa | Millimeter wave radar monitoring system |
CN102576483A (en) * | 2009-10-02 | 2012-07-11 | 发明人投资控股公司 | Security system and method to secure an area |
CN205142414U (en) * | 2015-11-24 | 2016-04-06 | 陕西亿达泰电子科技有限公司 | Video linkage monitoring device based on radar |
CN105376538A (en) * | 2015-12-08 | 2016-03-02 | 湖南纳雷科技有限公司 | Radar and video fused large-scale monitoring system and method |
CN107945445A (en) * | 2017-12-28 | 2018-04-20 | 克拉玛依市格恩赛电子科技有限公司 | A kind of thunder ball linkage warning monitoring system and its monitoring method with preprocessing function |
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