CN206876155U - Dilapidated house automatic monitoring system - Google Patents
Dilapidated house automatic monitoring system Download PDFInfo
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- CN206876155U CN206876155U CN201720795618.0U CN201720795618U CN206876155U CN 206876155 U CN206876155 U CN 206876155U CN 201720795618 U CN201720795618 U CN 201720795618U CN 206876155 U CN206876155 U CN 206876155U
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Abstract
The utility model discloses dilapidated house automatic monitoring system, including building structure to tilt monitoring terminal, building cracks monitoring terminal, building structure settlement monitoring terminal, server and display terminal.Dilapidated house automatic monitoring system disclosed in the utility model, the angle of inclination in monitoring terminal monitoring house is tilted by building structure, the wall body slit in house is monitored by building cracks monitoring terminal, by the settling height in building structure settlement monitoring terminal monitoring house, shown eventually through display terminal.Technology of Internet of things is employed herein, realizes monitoring, real-time data acquisition, field condition can be understood with the very first time.
Description
Technical field
City internet of things field is the utility model is related to, more particularly to a kind of dilapidated house monitors automatically is
System.
Background technology
With the development of the social economy, people's living safety and residential security are greatly improved.However, due to city
The needs and the integrated demand of urban planning that economy progressively develops, it is impossible to which overall pulling down is carried out to all dilapidated houses in downtown area.
According to《City dilapedated building administrative provisions》, dilapidated house can be divided into four classes and be handled, and observation uses;Processing uses;Stop using;
Overall pulling down.In observation in use, to ensure the security of the lives and property, the method for science need to be used to carry out safety monitoring.
Currently, domestic building safety monitoring project mainly has:
1st, building structure tilts monitoring;
2nd, building cracks monitor;
3rd, building structure settlement monitoring;
But these current indexs mostly use artificial observation.And artificial observation has the following disadvantages:
1st, man's activity is big, and manual measurement workload is big, is influenceed, supervised by many factors such as weather, artificial, field conditions
Survey data and artificial property be present;
2nd, not in time, there is the shortcomings that every technical parameter that can not monitor dilapidated house in time in personal monitoring for monitoring;
3rd, intractability is big, when there is accident sign, it is difficult to the situation of dilapidated house structural key index is timely and accurately held,
Hidden danger timely processing, Emergency decision and evacuating personnel is difficult for gain time.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of dilapidated house and monitor automatically is
System, by technology of Internet of things, monitoring is realized, real-time data acquisition, field condition can be understood with the very first time.
To achieve the above object, the utility model provides following technical scheme:
Dilapidated house automatic monitoring system, including building structure tilt monitoring terminal, building cracks monitoring terminal, building structure
Settlement monitoring terminal, server and display terminal;
The building structure tilts monitoring terminal and is arranged on the wall in house;
The building cracks monitoring terminal is arranged on the wall in house;
The building structure settlement monitoring terminal include installed in house outside wall on multiple Laser emission terminals and
Laser pick-off terminal installed in reference position;
The building structure tilts monitoring terminal, the building cracks monitoring terminal and building structure sedimentation prison
Survey terminal and the display terminal is connected by the server respectively.
As a kind of enforceable mode, the building structure tilt monitoring terminal, the building cracks monitoring terminal, with
And the building structure settlement monitoring terminal includes GPRS module and connects the service by the GPRS module respectively
Device;
The building structure tilts monitoring terminal and is additionally operable to periodically send out to the server by the GPRS module
Send the data at the angle of inclination for being relevant to house;
The building cracks monitoring terminal is additionally operable to periodically send phase to the server by the GPRS module
Data on the wall body slit in house;
The building structure settlement monitoring terminal is additionally operable to periodically send out to the server by the GPRS module
Send the data for the settling height for being relevant to house.
As a kind of enforceable mode, include connecting the alarm terminal of the server;
The alarm terminal is used to receive the data at the angle of inclination for being relevant to house, the wall for being relevant to house
The data of the data in body crack and the settling height for being relevant to house, and at least one data wherein reach
Alarmed during preset alarm parameter.
As a kind of enforceable mode, building structure, which tilts monitoring terminal, to be included
Obliquity sensor, the obliquity sensor are arranged on metope and according to corresponding to the outputs of the inclined degree of metope
First sampled voltage,
Comparison module, connects the obliquity sensor, and the comparison module is configured with first threshold voltage, Second Threshold electricity
Pressure, and first sampled voltage is received,
When first sampled voltage is less than the first threshold voltage, the first signal is exported,
When first sampled voltage is higher than the first threshold voltage and when be less than the second threshold voltage, the is exported
Binary signal,
When first sampled voltage is higher than second threshold voltage, the 3rd signal is exported;
First indicator lamp, comparison module is coupled, worked when receiving the first signal;
Second indicator lamp, comparison module is coupled, worked when receiving secondary signal;
3rd indicator lamp, comparison module is coupled, worked when receiving three signals.
As a kind of enforceable mode, the building cracks monitoring terminal includes
Image collecting device, including a camera, for gathering image information;
Some range units, the range unit it is identical with the direction of the camera setting and around the camera it is equal
Even distribution, the range unit are used to detect its forward direction distance and generated corresponding apart from voltage;
Depth comparison circuit, the depth comparison circuit include
Levelling unit, the levelling unit are coupled to all range units and export a base according to the value apart from voltage
Quasi- voltage, the reference voltage reflect described image harvester to the vertical range of metope;
Difference unit, couple all range units and for asking for each difference apart from voltage and the reference voltage
It is worth to corresponding difference voltage;
Output unit, for exporting the difference voltage.
As a kind of enforceable mode, the range unit is arranged to infrared distance sensor.
As a kind of enforceable mode, the multiple Laser emission terminal connection server;
The multiple Laser emission terminal is used to receive the control instruction from the server, and described receiving
The control instruction laser pick-off terminal transmission laser backward;
The laser pick-off terminal is used to receive the laser from the multiple Laser emission terminal, according to multiple incident points
Change in location determine the settling height of tested building.
As a kind of enforceable mode, the quantity of the multiple Laser emission terminal is no less than 4, and equably sets
Outside wall in house;
Wherein towards the laser pick-off terminal the Laser emission terminal directly to the laser pick-off terminal transmission
Laser, wherein backwards to the laser pick-off terminal the Laser emission terminal by mirror-reflection indirectly to the laser pick-off
Terminal transmission laser.
The utility model is compared to the beneficial effect of prior art:
Dilapidated house automatic monitoring system provided by the utility model, monitoring terminal is tilted by building structure and monitors house
Angle of inclination, the wall body slit in house is monitored by building cracks monitoring terminal, passes through building structure settlement monitoring terminal monitoring
The settling height in house, is shown eventually through display terminal.Technology of Internet of things is employed herein, realizes monitoring, in real time number
According to collection, field condition can be understood with the very first time.
Brief description of the drawings
Fig. 1 is the block diagram for the dilapidated house automatic monitoring system that the utility model embodiment provides;
Fig. 2 is that the building structure that an embodiment of the dilapidated house automatic monitoring system that Fig. 1 is provided provides tilts monitoring terminal
Block diagram;
Fig. 3 is the frame for the building cracks monitoring terminal that an embodiment of the dilapidated house automatic monitoring system that Fig. 1 is provided provides
Figure;
Fig. 4 is the block diagram of the depth comparison circuit for the building cracks monitoring terminal that Fig. 3 is provided;
Fig. 5 is the building structure settlement monitoring terminal that an embodiment of the dilapidated house automatic monitoring system that Fig. 1 is provided provides
Schematic diagram;
Fig. 6 is that the building structure settlement monitoring that another embodiment for the dilapidated house automatic monitoring system that Fig. 1 is provided provides is whole
The schematic diagram at end;
Fig. 7 is the location status of the multiple Laser emission terminals for the building structure settlement monitoring terminal that Fig. 5 or Fig. 6 is provided
Schematic diagram.
Embodiment
Below in conjunction with accompanying drawing, and other technical characteristic above-mentioned to the utility model and advantage are carried out clearly and completely
Description, it is clear that described embodiment is only section Example of the present utility model, rather than whole embodiments.
Reference picture 1, dilapidated house automatic monitoring system is present embodiments provided, it includes building structure and tilts monitoring terminal
100th, building cracks monitoring terminal 200, building structure settlement monitoring terminal 300, server 400 and display terminal 500;This
In building structure tilt monitoring terminal 100 be arranged on house wall on, for monitoring the angle of inclination in house;Here room
Room Crack Monitoring terminal 200 is arranged on the wall in house, for monitoring the wall body slit in house;Here building structure sedimentation
Monitoring terminal 300 includes multiple Laser emission terminals and the laser installed in reference position on the outside wall in house and connect
Terminal is received, for monitoring the settling height in house;And building structure here tilts monitoring terminal 100, building cracks monitoring eventually
End 200 and building structure settlement monitoring terminal 300 connect display terminal 500 by server 400 respectively.
In fact, building structure tilts monitoring terminal 100, building cracks monitoring terminal 200, building structure settlement monitoring end
End 300 detects the information on house, can be in the real-time display of display terminal 500, and display terminal 500 here can be PC
Terminal, can also be mobile terminal.For example, when building structure tilts monitoring terminal 100 and detects that building structure produces inclination angle,
Can be immediately by the data-pushing of correlation to mobile phone, and resident family can be in oneself house situation of hand in-flight monitoring.Outside herein,
By this system, leader's mobile phone, inspectorate mobile phone can also obtain these information.For example, this system distribute leaflets can be passed through
To the mobile phone terminal of inspectorate, prompting inspectorate to scene is registered and inspection.Inspectorate can also be received and stored by mobile phone terminal
The information such as the dangerous spot photo of biography, video.
In one embodiment, building structure tilts monitoring terminal 100, building cracks monitoring terminal 200 and house knot
Structure settlement monitoring terminal 300 includes GPRS module and passes through GPRS module connection server 400 respectively;Here GPRS moulds
Block can also be replaced with wifi module or other kinds of wireless transport module.Here, building structure tilts monitoring terminal 100
By the GPRS module of itself, the data at the angle of inclination for being relevant to house are periodically sent to server 400;Building cracks
Monitoring terminal 200 periodically sends the number for the wall body slit for being relevant to house by the GPRS module of itself to server 400
According to;Building structure settlement monitoring terminal 300 periodically sends to server 400 by the GPRS module of itself and is relevant to room
The data of the settling height in room.Based on this, it is possible to achieve by the sensor timing acquiring data in three above terminal and upload
The data such as building structure inclination, crack, sedimentation.
In one embodiment, dilapidated house automatic monitoring system also includes the alarm terminal 600 of connection server 400;This
In alarm terminal 600 be used for receive be relevant to house angle of inclination data, be relevant to house wall body slit data,
And be relevant to the data of the settling height in house, and wherein at least one of data carry out when reaching preset alarm parameter
Alarm.Based on this, when house be present angle of inclination, the wall body slit in house, house settling height in one reach pre-
If during alarm parameters, it can be alarmed by alarm terminal 600.Accordingly, message and dilapidated house situational map push person liable
Processing.Further, grading forewarning system mechanism, alarm point historical data curve, alarm point situational map can be used intuitively to show.
Reference picture 2, present embodiments provide building structure and tilt monitoring terminal 100, it includes obliquity sensor 110, ratio
Compared with module 120 and corresponding indicator lamp.
Wherein first sampling on metope and according to corresponding to the output of the inclined degree of metope of obliquity sensor 110
Voltage, wherein comparison module 120 connect obliquity sensor 110, and comparison module 120 is configured with first threshold voltage, Second Threshold
Voltage, and receive the first sampled voltage;Its operation principle is as follows:
When the first sampled voltage is less than first threshold voltage, the first signal is exported, when the first sampled voltage is higher than first
Threshold voltage and when being less than second threshold voltage, exports secondary signal, defeated when the first sampled voltage is higher than second threshold voltage
Go out the 3rd signal;First indicator lamp 131 works when receiving the first signal;Second indicator lamp 132 works when receiving secondary signal;The
Three indicator lamps 133 work when receiving three signals.
In fact, above-mentioned indicator lamp represents a kind of inclined degree of building structure respectively, these certain information can also
Real time propelling movement is to user mobile phone.
Reference picture 3 and Fig. 4, present embodiments provide building cracks monitoring terminal 200, it include image collecting device 210,
Some range units 220 and depth comparison circuit 230.
Wherein image collecting device 210 includes a camera, for gathering image information;
Wherein range unit 220 is identical with the direction of camera sets and is uniformly distributed around camera, range unit 220
For detecting its forward direction distance and generating corresponding apart from voltage;
Wherein depth comparison circuit 230 includes levelling unit 231, difference unit 232 and output unit 233.Wherein look for
Flat unit 231 is coupled to all range units 220 and exports a reference voltage, reference voltage reflection figure according to the value apart from voltage
As the vertical range of harvester 210 to metope;Wherein difference unit 232 couples all range units 220 and for asking for often
One obtains corresponding difference voltage apart from voltage with the difference of reference voltage;Wherein output unit 233 is used to export difference voltage.
And range unit 220 is arranged to infrared distance sensor.
In fact, above-mentioned building cracks monitoring terminal 200 can monitor dilapidated house fracture width in real time, precision is up to
0.2mm。
Reference picture 5, show a kind of view of embodiment of laser ranging matrix.Two tested buildings are shown in figure
Thing, one Laser emission terminal 1 is respectively set in the corner of two tested buildings;Also go out a laser pick-off terminal 2 in figure,
This laser pick-off terminal 2 is located on the harder reference position of geology.Due to the harder position of geology relative to other positions more
Hardly possible sedimentation, therefore can select as reference position.In fact, during earth's surface normally settles, due to two tested buildings
The sedimentation degree of thing is bigger, thus in this process it relative to reference position in sedimentation state.Two are also show in figure
The Laser emission terminal 1 in the outside of individual tested building launches the state of laser to laser pick-off terminal 2, and the arrow in figure is sharp
The direction of light.
During earth's surface normally settles, the incident point position in laser pick-off terminal 2 can change, and from projection
The height that may determine whether to settle and settle during point change in location;Finally in locally-attached display screen or net
Shown on the display screen of network connection;Compared to traditional the Big Dipper technology, there is more preferable precision by laser ranging, can
To reach grade.
It is one-to-many relation between the Laser emission terminal 1 in laser pick-off terminal 2 and tested building in figure, and
And because Laser emission terminal 1 and server 400 connect.Therefore can be alternately by the control instruction from server 400
Laser emission terminal 1 on each tested building is controlled to launch laser, and the Laser emission terminal 1 on each tested building
Share a laser pick-off terminal 2.In fact, only needing to install a laser pick-off terminal 2 in a section, laser pick-off is whole
The shape at end 2 is similar to high tower, and it is used for the laser for receiving each tested building in this section;Controlled instruction
Control, the Laser emission terminal 1 on each tested building alternately launches laser to laser pick-off terminal 2, if one
Tested building settlement, then the incident point position of the laser emitted from it can also change accordingly.
Reference picture 6, show a kind of view of embodiment of laser ranging matrix.Tested building distance is shown in figure
The distance of reference position is 100m, in fact, the distance of tested building distance reference position can exceed 100m.In addition, figure
In also show position of 4 Laser emission terminals 1 on tested building, 4 Laser emission terminals 1 are equably located at tested
The outside of building.Certainly, if larger some buildings of volume, as shown in fig. 7, can be several Laser emission terminals
1 is set along the length direction of tested building, while width of several Laser emission terminals 1 along tested building is set.
Both the above situation, that fraction of laser light launch terminal 1 is blocked by building all be present, cause it direct
Launch laser to laser pick-off terminal 2.And in the present embodiment, there is provided medium of the minute surface 3 as reflection.Minute surface 3 is fixed on
The outside of building, there is provided for the angle of laser reflection, make the Laser emission terminal 1 backwards to laser pick-off terminal 2 pass through mirror
Face 3 is reflected launches laser to laser pick-off terminal 2 indirectly;And towards laser pick-off terminal 2 Laser emission terminal 1 directly to swash
Optical receiver terminal 2 launches laser.
In the present embodiment, because laser pick-off terminal 2 receives the laser of diverse location on building, according to diverse location
Laser incident point change in location, it may be determined that how the building settles down.For example, the left side of building is first
The phase amplitude of sedimentation is larger, but the right side of building is kept up with the amplitude of posterior settlement, building is generally held in vertically
The state of sedimentation.Therefore, the field of building settlement can be reduced according to the incident point change in location data of the laser of diverse location
Scape.
Reference picture 5 and Fig. 6, laser pick-off terminal 2 include being used for the setting for receiving the laser from each tested building
Annular screen.In fact, laser pick-off terminal 2 will receive the laser of each tested building in a section, therefore annular
Screen is advantageous to actually use.
In one embodiment, laser pick-off terminal 2 generates position according to the change in location in multiple incident points in the unit interval
Coordinate curve is put, and position coordinates curve is sent to mobile terminal;Wherein, the unit interval length of position coordinates curve early stage
The degree big unit interval in the near future.
In this embodiment, can visually see the settling phase of building by this position coordinates curve.Example
Such as the data of early stage, it can suitably increase unit interval length, be embodied accordingly on the coordinate curve of position
It is the settling phase of building early stage, relatively understands.To data in the near future, it can suitably reduce unit interval length, phase
Answer embodied on the coordinate curve of position be priority construction thing settling phase, suitable for data analysis.
In one embodiment, the connection server 400 of laser pick-off terminal 2, and be used for the sedimentation of tested building
The data upload server 400 of height.
In this embodiment, user can directly download data from high in the clouds, obtain the Deposition Situation of this building.
Particular embodiments described above, the purpose of this utility model, technical scheme and beneficial effect are carried out to enter one
The detailed description of step, it will be appreciated that the foregoing is only specific embodiment of the utility model, be not used to limit this reality
With new protection domain.Particularly point out, to those skilled in the art, it is all the spirit and principles of the utility model it
It is interior, any modification, equivalent substitution and improvements done etc., it should be included within the scope of protection of the utility model.
Claims (8)
1. dilapidated house automatic monitoring system, it is characterised in that tilt monitoring terminal (100), building cracks prison including building structure
Survey terminal (200), building structure settlement monitoring terminal (300), server (400) and display terminal (500);
The building structure tilts monitoring terminal (100) and is arranged on the wall in house;
The building cracks monitoring terminal (200) is arranged on the wall in house;
The building structure settlement monitoring terminal (300) includes multiple Laser emission terminals on the outside wall in house
And the laser pick-off terminal (2) installed in reference position (1);
The building structure tilts monitoring terminal (100), the building cracks monitoring terminal (200) and the building structure
Settlement monitoring terminal (300) connects the display terminal (500) by the server (400) respectively.
2. dilapidated house automatic monitoring system according to claim 1, it is characterised in that the building structure tilts monitoring eventually
End (100), the building cracks monitoring terminal (200) and the building structure settlement monitoring terminal (300) include GPRS
Module and pass through the GPRS module respectively and connect the server (400);The building structure tilts monitoring terminal (100)
It is additionally operable to periodically send the number at the angle of inclination for being relevant to house to the server (400) by the GPRS module
According to;
The building cracks monitoring terminal (200) is additionally operable to by the GPRS module periodically to the server (400)
Send the data for the wall body slit for being relevant to house;
The building structure settlement monitoring terminal (300) is additionally operable to by the GPRS module periodically to the server
(400) data for the settling height for being relevant to house are sent.
3. dilapidated house automatic monitoring system according to claim 2, it is characterised in that also include connecting the server
(400) alarm terminal (600);
The alarm terminal (600) is used to receiving the data at the angle of inclination for being relevant to house, the house that is relevant to
The data of the data of wall body slit and the settling height for being relevant to house, and at least one data wherein reach
Alarmed during to preset alarm parameter.
4. according to the dilapidated house automatic monitoring system described in claim 1 or 2 or 3, it is characterised in that building structure tilts monitoring
Terminal (100) includes
Obliquity sensor (110), the obliquity sensor (110) are arranged on metope and exported according to the inclined degree of metope
Corresponding first sampled voltage,
Comparison module (120), connects the obliquity sensor (110), and the comparison module (120) is configured with first threshold electricity
Pressure, second threshold voltage, and first sampled voltage is received,
When first sampled voltage is less than the first threshold voltage, the first signal is exported,
When first sampled voltage is higher than the first threshold voltage and is less than the second threshold voltage, the letter of output second
Number,
When first sampled voltage is higher than second threshold voltage, the 3rd signal is exported;
First indicator lamp (131), coupling comparison module (120), worked when receiving the first signal;
Second indicator lamp (132), coupling comparison module (120), worked when receiving secondary signal;
3rd indicator lamp (133), coupling comparison module (120), worked when receiving three signals.
5. according to the dilapidated house automatic monitoring system described in claim 1 or 2 or 3, it is characterised in that the building cracks monitoring
Terminal (200) includes
Image collecting device (210), including a camera, for gathering image information;
Some range units (220), the range unit (220) is identical with the direction of the camera to be set and is taken the photograph around described
As head is uniformly distributed, the range unit (220) is used to detecting its forward direction distance and corresponding to generating apart from voltage;
Depth comparison circuit (230), the depth comparison circuit (230) include
Levelling unit (231), the levelling unit (231) are coupled to all range units (220) and according to described apart from voltage
Value export a reference voltage, the vertical range of reference voltage reflection described image harvester (210) to metope;
Difference unit (232), couple all range units (220) and for ask for it is each it is described apart from voltage and the benchmark electricity
The difference of pressure obtains corresponding difference voltage;
Output unit (233), for exporting the difference voltage.
6. dilapidated house automatic monitoring system according to claim 5, it is characterised in that the range unit (220) is set
For infrared distance sensor.
7. according to the dilapidated house automatic monitoring system described in claim 1 or 2 or 3, it is characterised in that the multiple Laser emission
Terminal (1) connection server (400);
The multiple Laser emission terminal (1) is used to receive the control instruction from the server (400), and is receiving
The laser pick-off terminal (2) launches laser to the control instruction backward;
The laser pick-off terminal (2) is used to receive the laser from the multiple Laser emission terminal (1), according to multiple projections
The change in location of point determines the settling height of tested building.
8. according to the dilapidated house automatic monitoring system described in claim 1 or 2 or 3, it is characterised in that the multiple Laser emission
The quantity of terminal (1) is no less than 4, and is equably located at the outside wall in house;
Wherein towards the laser pick-off terminal (2) the Laser emission terminal (1) directly to the laser pick-off terminal (2)
Launch laser, wherein the Laser emission terminal (1) backwards to the laser pick-off terminal (2) is reflected indirectly by minute surface (3)
Launch laser to the laser pick-off terminal (2).
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109322336A (en) * | 2018-11-22 | 2019-02-12 | 中国南方电网有限责任公司超高压输电公司昆明局 | A kind of monitoring device for pipeline framework foundation settlement |
CN109781009A (en) * | 2019-01-11 | 2019-05-21 | 杨润琴 | Residential building data alarm mechanism |
CN110006482A (en) * | 2019-03-12 | 2019-07-12 | 中国建筑科学研究院有限公司 | Method for monitoring safety of old house |
KR102051904B1 (en) * | 2019-07-18 | 2020-01-08 | 문형민 | The Module Device for Sensing a Soil Settlement in Civil Engineering and Building Structures and Controlling Method for the Same |
-
2017
- 2017-07-03 CN CN201720795618.0U patent/CN206876155U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109322336A (en) * | 2018-11-22 | 2019-02-12 | 中国南方电网有限责任公司超高压输电公司昆明局 | A kind of monitoring device for pipeline framework foundation settlement |
CN109781009A (en) * | 2019-01-11 | 2019-05-21 | 杨润琴 | Residential building data alarm mechanism |
CN110006482A (en) * | 2019-03-12 | 2019-07-12 | 中国建筑科学研究院有限公司 | Method for monitoring safety of old house |
CN110006482B (en) * | 2019-03-12 | 2021-09-17 | 中国建筑科学研究院有限公司 | Method for monitoring safety of old house |
KR102051904B1 (en) * | 2019-07-18 | 2020-01-08 | 문형민 | The Module Device for Sensing a Soil Settlement in Civil Engineering and Building Structures and Controlling Method for the Same |
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