CN108230450A - Construction object methods of exhibiting and device - Google Patents

Abstract

An embodiment of the present invention provides a kind of construction object methods of exhibiting and devices, belong to data display technique field.Method includes：Obtain the surface subsidence information for the tested construction object that inclinometer measures；According to the location information of inclinometer in surface subsidence information, the coordinate points of inclinometer are shown in the threedimensional model of tested construction object pre-established, so that position and coordinate points location matches on threedimensional model of the inclinometer on tested construction object；Judge whether the surface subsidence value in surface subsidence information meets threshold range；When to be, the displaying color of adjustment coordinate points in the three-dimensional model.By the adjustment for observing the displaying color of coordinate points in the three-dimensional model, so that surface subsidence value of the engineering staff at the physical location corresponding to the coordinate points knows that the surface subsidence value of the position has approached exception in advance before being in exception, and then can adopt remedial measures in advance, greatly improve flexibility and applicability.

Description

Construction object methods of exhibiting and device

Technical field

The present invention relates to data display technique field, in particular to a kind of construction object methods of exhibiting and device.

Background technology

With the continuous development of China's economic strength, a large amount of engineering is being constantly updated and is being built, for improving people Quality of life.

In the construction of construction work, measured by inclinometer come the surface subsidence information to object of constructing for ensureing Construction safety is extremely important.At present, survey crew can be needed by the way that inclinometer is arranged on construction object at the position measured, and Whether the surface subsidence of the position of the object that judges to construct that the information that observation inclinometer is shown after measuring is come is normal.But due to needing Survey crew is wanted to go to can know which position measured by inclinometer be, causes which time-consuming and laborious on the spot.In addition, Which can not so that whether the surface subsidence that survey crew judges the position in advance is abnormal, can only measure exception When go to adopt remedial measures again, flexibility and applicability are all extremely limited.

Invention content

In view of this, it is above-mentioned to be effectively improved the purpose of the present invention is to provide a kind of construction object methods of exhibiting and device Defect.

The embodiment of the present invention is realized in the following way：

In a first aspect, an embodiment of the present invention provides a kind of construction object methods of exhibiting.The method includes：Obtain inclinometer The surface subsidence information of the tested construction object measured；According to the location information of inclinometer in the surface subsidence information, by described in The coordinate points of inclinometer are shown in the threedimensional model of the tested construction object pre-established, so that the inclinometer is described Position and location matches of the coordinate points on the threedimensional model on tested construction object；Judge the surface subsidence information In surface subsidence value whether meet threshold range；When to be, displaying of the coordinate points in the threedimensional model is adjusted Color.

Further, the threshold range is made of side by side multiple threshold cell ranges, described when to be, described in adjustment Displaying color of the coordinate points in the threedimensional model.Including：When to be, determined from multiple threshold cell ranges described The targets threshold unit range that surface subsidence value is located at；Displaying color of the coordinate points in the threedimensional model is adjusted For corresponding intended display color.

Further, the displaying color by the coordinate points in the threedimensional model is adjusted to corresponding target exhibition Show color, including：The correspondence of each threshold cell range of basis and the displaying color of the coordinate points obtains institute State the target correspondence of targets threshold unit range and the intended display color.According to the target correspondence by described in Displaying color of the coordinate points in the threedimensional model is adjusted to the corresponding intended display color.

Further, after whether the surface subsidence value judged in the surface subsidence information meets threshold range. The method further includes：Judge whether the surface subsidence value in the surface subsidence information is more than in the threshold range Maximum value；When to be, the warning message of the surface subsidence information is generated, the warning message is sent to the user terminal.

Further, the location information according to inclinometer in the surface subsidence information, by the seat of the inclinometer Punctuate is shown in the threedimensional model of the tested construction object pre-established.Including：Obtain institute in the surface subsidence information State the location information of inclinometer；The longitude and latitude height value symbolized according to the location information, from the threedimensional model The coordinate points of the corresponding inclinometer of the longitude and latitude height value, the longitude and latitude height are determined in longitude and latitude altitude range value The shapes and sizes of the threedimensional model of the tested construction object that value range pre-establishes for characterization；By the coordinate points It is shown in the threedimensional model.

Second aspect, an embodiment of the present invention provides a kind of construction object displaying devices.Described device includes：Obtain module, For obtaining the surface subsidence information of the tested construction object of inclinometer measurement.Display module, for being believed according to the surface subsidence The location information of inclinometer in breath, by the coordinate points of the inclinometer in the threedimensional model of the tested construction object pre-established Middle displaying, so that position and coordinate points position on the threedimensional model of the inclinometer on the tested construction object Put matching.First judgment module, for judging whether the surface subsidence value in the surface subsidence information meets threshold range.It adjusts Mould preparation block, for when to be, adjusting displaying color of the coordinate points in the threedimensional model.

Further, the threshold range is made of side by side multiple threshold cell ranges, and the adjustment module includes：Range Determination unit, for when to be, determining the target threshold that the surface subsidence value is located at from multiple threshold cell ranges Value cell range.Color adjusting unit, for displaying color of the coordinate points in the threedimensional model to be adjusted to corresponding Intended display color.

Further, the color adjusting unit includes：Correspondence obtains subelement, for each threshold value of the basis The correspondence of unit range and the displaying color of the coordinate points, obtains the targets threshold unit range and the target Show the target correspondence of color.Show color adjustment subelement, for according to the target correspondence by the coordinate Displaying color of the point in the threedimensional model is adjusted to the corresponding intended display color.

Further, described device further includes：Second judgment module, described in judging in the surface subsidence information Whether surface subsidence value is more than the maximum value in the threshold range.Alarm module, for when to be, generating under the earth's surface The warning message of heavy information, the warning message is sent to the user terminal.

Further, the display module includes：Information obtainment unit, for obtaining described in the surface subsidence information The location information of inclinometer.Coordinate determination unit, for the longitude and latitude height value symbolized according to the location information, from The coordinate of the corresponding inclinometer of the longitude and latitude height value is determined in the longitude and latitude altitude range value of the threedimensional model Point, the longitude and latitude altitude range value is for characterizing the shape of the threedimensional model of the tested construction object pre-established and big It is small.Display unit, for the coordinate points to be shown in the threedimensional model.

The advantageous effect of the embodiment of the present invention is：

User terminal can obtain the surface subsidence information of the tested construction object of inclinometer measurement, to be believed according to surface subsidence The location information of inclinometer in breath shows the coordinate points of inclinometer in the threedimensional model of tested construction object pre-established, So that physical location of position of the coordinate that is shown of terminal device on threedimensional model with inclinometer on tested construction object Match.Further, whether user terminal meets threshold range by the surface subsidence value judged in surface subsidence information, is being yes When, then it is engineering staff to be needed to pay attention in real time close to exceptional value, and then user terminal adjusts coordinate to illustrate the surface subsidence value The displaying color of point in the three-dimensional model.Therefore, user terminal is emulated on threedimensional model by coordinate points and shows inclinometer Actual measurement location after so that engineering staff easily obtains the actual measurement location of inclinometer by user terminal, no longer It is bothersome laborious.In addition, the adjustment by observing the displaying color of coordinate points in the three-dimensional model so that engineering staff is in the seat Surface subsidence value at physical location corresponding to punctuate knows that the surface subsidence value of the position has connect in advance before being in abnormal It is near abnormal, and then can adopt remedial measures in advance, greatly improve flexibility and applicability.

For the above objects, features and advantages of the present invention is enable to be clearer and more comprehensible, preferred embodiment cited below particularly, and coordinate Appended attached drawing, is described in detail below.

Description of the drawings

It in order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range, for those of ordinary skill in the art, without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 shows a kind of structure diagram for construction object display systems that first embodiment of the invention provides；

The structural frames of user terminal in a kind of construction object display systems provided Fig. 2 shows first embodiment of the invention Figure；

Fig. 3 shows a kind of flow chart for construction object methods of exhibiting that second embodiment of the invention provides；

Fig. 4 shows the first structure block diagram of a kind of construction object displaying device that third embodiment of the invention provides；

Fig. 5 shows the structural frames of the display module in a kind of construction object displaying device that third embodiment of the invention provides Figure；

Fig. 6 shows the structural frames of the adjustment module in a kind of construction object displaying device that third embodiment of the invention provides Figure；

Fig. 7 shows the knot of the color adjusting unit in a kind of construction object displaying device that third embodiment of the invention provides Structure block diagram；

Fig. 8 shows the second structure diagram of a kind of construction object displaying device that third embodiment of the invention provides.

Specific embodiment

Below in conjunction with attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Ground describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.Usually exist The component of the embodiment of the present invention described and illustrated in attached drawing can be configured to arrange and design with a variety of different herein.Cause This, the detailed description of the embodiment of the present invention to providing in the accompanying drawings is not intended to limit claimed invention below Range, but it is merely representative of the selected embodiment of the present invention.Based on the embodiment of the present invention, those skilled in the art are not doing Go out all other embodiments obtained under the premise of creative work, shall fall within the protection scope of the present invention.

First embodiment

Referring to Fig. 1, the present invention implements to provide a kind of construction object display systems 10, which wraps It includes：Inclinometer 11 and user terminal 12.

Inclinometer 11 is at least one, wherein, the model of each inclinometer 11 all can be at least one inclinometer 11 Such as：BSIL-C12A/C12B types (mems) stationary slope level.Each inclinometer 11 can be mounted on (example on construction object Such as, tunnel) a position to be measured at.Each inclinometer 11 is about 10 meters of radius to the measurement range of position to be measured, because This, each inclinometer 11 setting interval on construction object can be 20 meters.Each inclinometer 11 by network and user terminal 12 connections, therefore each inclinometer 11 will can in real time be passed in the surface subsidence information measured of corresponding position to be measured Transport to user terminal 12.

User terminal 12 can be PC (personal computer, PC), tablet computer, smart mobile phone, individual Digital assistants (personal digital assistant, PDA) etc..In the present embodiment, user terminal 12 can be engineering people The personal mobile phone of member.User terminal 12 has processing to data, renders and demonstrate one's ability, therefore user terminal 12 is by figure Rendering capability, can show the threedimensional model of the tested construction object corresponding with practical tested construction object.The present embodiment In, user terminal 12 can obtain the surface subsidence information that each inclinometer 11 is sent, and each inclinometer 11 is surveyed with practical The coordinate points of location matches are measured in threedimensional model to correspond to the color shows of measurement result.

Referring to Fig. 2, Fig. 2 is the block diagram of user terminal 12.The user terminal 12 includes：Object displaying of constructing fills It puts, memory 101, storage control 102, processor 103, Peripheral Interface 104, input-output unit 105, display unit 106.

The memory 101, processor 103, Peripheral Interface 104, input-output unit 105, is shown storage control 102 Show unit 106, each element is directly or indirectly electrically connected between each other, to realize the transmission of data or interaction.For example, these Element can be realized by one or more communication bus or signal wire be electrically connected between each other.The construction object displaying device packet Include that at least one can be stored in the memory or be solidificated in the user in the form of software or firmware (firmware) whole Software function module in the operating system at end 12.The processor 103 is used to perform the executable mould stored in memory 101 Block, such as the software function module or computer program that the construction object displaying device includes.

Wherein, memory 101 may be, but not limited to, random access memory (Random Access Memory, RAM), read-only memory (Read Only Memory, ROM), programmable read only memory (Programmable Read-Only Memory, PROM), erasable read-only memory (Erasable Programmable Read-Only Memory, EPROM), Electricallyerasable ROM (EEROM) (Electric Erasable Programmable Read-Only Memory, EEPROM) etc.. Wherein, for memory 101 for storing program, the processor 103 performs described program, subsequently after execute instruction is received The method performed by user terminal 12 that the process that any embodiment of the embodiment of the present invention discloses defines can be applied to processor It is realized in 103 or by processor 103.

Processor 103 can be a kind of IC chip, have the processing capacity of signal.Above-mentioned processor can be General processor, including central processing unit (Central Processing Unit, abbreviation CPU), network processing unit (Network Processor, abbreviation NP) etc.；It can also be digital signal processor (DSP), application-specific integrated circuit (ASIC), ready-made programmable Gate array (FPGA) either other programmable logic device, discrete gate or transistor logic, discrete hardware components, can be with Realize or perform disclosed each method, step and the logic diagram in the embodiment of the present invention.General processor 103 can be micro- Processor or the processor can also be any conventional processors etc..

Various input-output units 105 are coupled to processor 103 and memory 101 by the Peripheral Interface 104.One In a little embodiments, Peripheral Interface, processor and storage control can be realized in one single chip.In some other example In, they can be realized by independent chip respectively.

Input-output unit 105 is used for the interaction that user input data is supplied to realize user and data collection station.Institute It states input-output unit may be, but not limited to, mouse and keyboard etc..

Display unit 106 provides an interactive interface, such as user's operation circle between the user terminal 12 and user Face refers to for display image data to user.In the present embodiment, the display unit can be liquid crystal display or touch Control display.Can be that the capacitance type touch control screen or resistance-type of single-point and multi-point touch operation is supported to touch if touch control display Control screen etc..Single-point and multi-point touch operation is supported to refer to that touch control display can sense on the touch control display one or more The touch control operation generated simultaneously at a position, and processor is transferred to be calculated and handled the touch control operation that this is sensed.

Second embodiment

Referring to Fig. 3, an embodiment of the present invention provides a kind of construction object methods of exhibiting, which is applied to One user terminal, construction object methods of exhibiting include：Step S100, step S200, step S300 and step S400.

In the present embodiment, since the quantity of inclinometer is at least one, therefore user terminal is equal after being interacted with each inclinometer The construction object methods of exhibiting is able to carry out, and then at least one construction object methods of exhibiting can be performed.Due to user terminal with The flow all same of performed construction object methods of exhibiting during each inclinometer interaction, therefore in the present embodiment, to user terminal Performed construction object methods of exhibiting is described in detail when being interacted with any one inclinometer at least one inclinometer.

Step S100：Obtain the surface subsidence information for the tested construction object that inclinometer measures.

Inclinometer is mounted at a position to be measured of tested construction object, therefore inclinometer can be measured and be treated at this in real time Measure the surface subsidence value of the tested construction object at position.Since inclinometer has the function of GPS (Global Positioning System, global positioning system), therefore inclinometer also is able to obtain the location information of itself in real time, and the location information also with Position of the inclinometer actual installation on tested construction object corresponds to.Specifically, the location information contains triaxial coordinate, three axis Coordinate has symbolized the longitude and latitude height value of the inclinometer, i.e. location information includes x-axis coordinate, y-axis coordinate and z-axis coordinate.x Axial coordinate and y-axis coordinate can represent the longitude coordinate and latitude coordinate of the inclinometer respectively, and z-axis coordinate can represent the inclinometer Height above sea level coordinate.Based on the surface subsidence value obtained and location information, inclinometer can be by surface subsidence value and positioning Information carries out being packaged as surface subsidence information.

Further, after user terminal is by the connection of network and inclinometer and realizing mutual data interaction, when After inclinometer is measuring tested construction object, and the surface subsidence information that measurement is obtained is sent to network, user terminal can be real When the surface subsidence information that is packaged after the tested construction object of measurement of acquisition inclinometer.

Step S200：According to the location information of inclinometer in the surface subsidence information, by the coordinate points of the inclinometer It is shown in the threedimensional model of the tested construction object pre-established, so that the inclinometer is on the tested construction object Position and location matches of the coordinate points on the threedimensional model.

In the present embodiment, the threedimensional model of tested construction object can be pre-established in the user terminal.Specifically, it can lead to Cross the three-dimensional mould using the tested construction object of BIM softwares (Building Information Modeling, Building Information Model) Type.In the threedimensional model for establishing the tested construction object, it is high that longitude and latitude of the tested construction object in actual scene can be used in the present embodiment Value range is spent to be built to the threedimensional model.Specifically, longitude and latitude altitude range value of the tested construction object in actual scene It may include：Multiple longitude and latitude height coordinate points, each longitude and latitude height coordinate point include x-axis coordinate, y-axis coordinate and z-axis and sit Mark, and x-axis coordinate and y-axis coordinate can represent the longitude coordinate and latitude coordinate of the longitude and latitude height coordinate point respectively, and z-axis coordinate It can represent the height above sea level coordinate of the longitude and latitude height coordinate point.Therefore, the principle in face is made up of a composition line, line, thus it is multiple Longitude and latitude height coordinate point can then construct the threedimensional model with the tested construction object grade ratios, to be characterized by longitude and latitude altitude range value Go out the shapes and sizes of the threedimensional model of the tested construction object.And in threedimensional model each longitude and latitude height coordinate point in the three-dimensional mould Relative position in type can be represented with longitude, latitude value and height above sea level angle value.For example, the reality of the apex angle of tested construction object Border longitude and latitude height is：(A, B, C), then the apex angle correspondence of the reality is in the three-dimensional model longitude and latitude height coordinate point X, and the longitude and latitude The coordinates of height coordinate point X in the three-dimensional model are also represented with (A, B, C).

After the surface subsidence information that inclinometer is sent is obtained, user terminal is by itself to the parsing of data and processing energy Power, user terminal unzip it the surface subsidence information, so as to obtain the positioning of the inclinometer in the surface subsidence information Information.It is characterized since location information employs practical longitude and latitude height value, therefore user terminal can be by the location information Longitude and latitude height value is corresponded in threedimensional model, to obtain a longitude and latitude height coordinate corresponding with the location information from threedimensional model Point.For example, the longitude and latitude height value of location information is (A, B, C), then user terminal finds a longitude and latitude height from threedimensional model Coordinate points X=(A, B, C) is spent, and then the longitude and latitude height coordinate point is corresponding with the location information.It further, will be with location information Corresponding longitude and latitude height coordinate point corresponds to coordinate points in the three-dimensional model as the physical location of the inclinometer.

It will be appreciated that the practical peace of position of the coordinate points of the inclinometer on threedimensional model namely inclinometer Position on tested construction object.

Further, the coordinate points on the threedimensional model is determined, user terminal, can should by the display interface of itself Threedimensional model is shown, and this also being determined, coordinate points are come out on the threedimensional model with the first color shows.Wherein, the first color It can be the conventional colors selection such as white, blue or green, to this and be not specifically limited.Engineering staff is by observing user's end It holds shown threedimensional model and observes the coordinate points shown on the threedimensional model with the first color, engineering staff is based on Content shown by user terminal can intuitively learn actual installation position of the inclinometer on actually tested construction object.

Step S300：Judge whether the surface subsidence value in the surface subsidence information meets threshold range.

After the surface subsidence information that inclinometer is sent is obtained, user terminal is also by itself parsing and processing to data Ability, user terminal unzip it the surface subsidence information, so as to the inclinometer in the surface subsidence information is obtained While location information, additionally it is possible to obtain the surface subsidence value that inclinometer is acquired.

The threshold range of a default surface subsidence value, the threshold range are pre-set in the present embodiment, in user terminal Interior default surface subsidence value is used to symbolize the degree of surface subsidence already close to exception, but and is less than exception.For example, ground Table sinking is to be abnormal when more than 50cm, then the threshold range can be 45cm-50cm.

Further, user terminal is when obtaining the surface subsidence value, user terminal can by surface subsidence value with it is preset Threshold range is matched, to judge whether the surface subsidence value meets threshold range by matching, i.e. the surface subsidence value Whether it is located within threshold range.

Step S400：When to be, displaying color of the coordinate points in the threedimensional model is adjusted.

When by the way that surface subsidence value is matched with preset threshold range, when user terminal is judged as YES, that is, judging When surface subsidence value is located within threshold range.It illustrates that the surface subsidence value already close to exceptional value, needs engineering staff It pays close attention to.And then user terminal will adjust the displaying color of coordinate points in the three-dimensional model, example according to preset control program Such as, the white of the first displaying color of coordinate points is adjusted to yellow.To realize by showing the variation of color come timely and effective Prompting engineering staff the surface subsidence value close to exceptional value is paid close attention to.

As a kind of embodiment, further to realize that surface subsidence value nearer it is to exceptional value, more needs engineering people Member pays close attention to, therefore threshold range is divided into multiple threshold cell ranges, and multiple threshold cell ranges form the threshold value side by side Range.For example, threshold range is 45cm-50cm, and threshold range is made of 5 threshold cell ranges, then 5 threshold cells Range can be followed successively by：45cm-46cm, 46cm-47cm, 47cm-48cm, 48cm-49cm and 49cm-50cm.In addition, for so that ground Table sinking is more needed with other nearer it is to exceptional value, then the displaying color of the coordinate points corresponding to the surface subsidence value The displaying color of the different coordinate points of table sinking distinguishes.Therefore each threshold cell range and one is additionally provided in user terminal The correspondence of the displaying color of coordinate points, each correspondence are storable in a report of user terminal.For example, in the report In, the threshold cell range of 45cm-46cm and the displaying color of coordinate points establish correspondence for yellow, and the threshold of 49m-50cm Value cell range then establishes correspondence with the displaying color of coordinate points for red.

Therefore when user terminal judges that the surface subsidence value is located within threshold range, user terminal is according to the surface subsidence Value determines that the surface subsidence value is located at a threshold cell range, and the threshold that will be determined from multiple threshold cell ranges Value cell range is as targets threshold unit range.Further, the targets threshold unit range is being determined, according in report Each threshold cell range and the correspondence of the displaying color of a coordinate points, then obtain the targets threshold unit model out of report Enclose the target correspondence with intended display color.Further, it obtains target correspondence and is that of obtaining the intended display Color, and then the displaying color of the coordinate points in the three-dimensional model is just adjusted to corresponding intended display color by user terminal. For example, the surface subsidence value corresponding to a target point A is initially 45cm, then the displaying color of target point A is yellow at this time. After a period of time, if the displaying color of the variation of surface subsidence the value most 49cm, at this time target point A corresponding to target point A It is adjusted to red by yellow, engineering staff further to be prompted to need to pay close attention to target point A, and takes certain Measure.

It is understood that when whether surface subsidence value of the user terminal in surface subsidence information is judged meets threshold value model It encloses, if user terminal is judged as NO, that is, when judging that the surface subsidence value is not located within threshold range, user terminal can also be held Row follow-up process.

As shown in figure 3, it specifically includes：Step S500 and step S600.

Step S500：Judge whether the surface subsidence value in the surface subsidence information is more than in the threshold range Maximum value.

When user terminal is judged as NO, user terminal can further judge whether the surface subsidence value is less than threshold range Minimum value or judge the surface subsidence value whether be more than threshold range maximum value.

Step S600：When to be, the warning message of the surface subsidence information is generated, the warning message is sent to User terminal.

If it is determined that the minimum value to be less than threshold range, then illustrate that the surface subsidence value is in normal level, and then user Terminal keeps the displaying color of the coordinate points corresponding to the surface subsidence value.

If it is determined that the maximum value to be more than threshold range, then illustrate that the surface subsidence value is in abnormal level, and then user Terminal is sent to user's end according to the preset warning message for controlling the Program Generating surface subsidence information, and by warning message End, engineering staff to be prompted to adopt remedial measures in time.

3rd embodiment

Referring to Fig. 4, an embodiment of the present invention provides a kind of construction object displaying device 100, construction object displaying device 100 Including：

Module 110 is obtained, for obtaining the surface subsidence information of the tested construction object of inclinometer measurement.

Display module 120, for the location information according to inclinometer in the surface subsidence information, by the inclinometer Coordinate points are shown in the threedimensional model of the tested construction object pre-established, so that the inclinometer is in the tested construction Position and location matches of the coordinate points on the threedimensional model on object.

First judgment module 130, for judging whether the surface subsidence value in the surface subsidence information meets threshold value model It encloses.

Module 140 is adjusted, for when to be, adjusting displaying color of the coordinate points in the threedimensional model.

Referring to Fig. 5, in a kind of construction object displaying device 100 provided in an embodiment of the present invention, display module 120 wraps It includes：

Information obtainment unit 121, for obtaining the location information of inclinometer described in the surface subsidence information.

Coordinate determination unit 122, for the longitude and latitude height value symbolized according to the location information, from the three-dimensional mould The coordinate points of the corresponding inclinometer of the longitude and latitude height value, the longitude and latitude are determined in the longitude and latitude altitude range value of type The shapes and sizes of the threedimensional model of the tested construction object that altitude range value pre-establishes for characterization.

Display unit 123, for the coordinate points to be shown in the threedimensional model.

Referring to Fig. 6, it is provided in an embodiment of the present invention it is a kind of construction object displaying device 100 in, the threshold range by Multiple threshold cell ranges form side by side, and adjustment module 140 includes：

Range determination unit 141, for when to be, the surface subsidence value to be determined from multiple threshold cell ranges The targets threshold unit range being located at.

Color adjusting unit 142, for displaying color of the coordinate points in the threedimensional model to be adjusted to corresponding Intended display color.

Referring to Fig. 7, in a kind of construction object displaying device 100 provided in an embodiment of the present invention, color adjusting unit 142 Including：

Correspondence obtains subelement 1421, for the exhibition of each threshold cell range of the basis and the coordinate points Show the correspondence of color, obtain the target correspondence of the targets threshold unit range and the intended display color.

Show color adjustment subelement 1422, for according to the target correspondence by the coordinate points in the three-dimensional Displaying color in model is adjusted to the corresponding intended display color.

Referring to Fig. 8, in a kind of construction object displaying device 100 provided in an embodiment of the present invention, construction object displaying device 100 further include：

Second judgment module 150, for judging whether the surface subsidence value in the surface subsidence information is more than institute State the maximum value in threshold range.

Alarm module 160, for when to be, generating the warning message of the surface subsidence information, by the alarm signal Breath is sent to the user terminal.

It should be noted that due to it is apparent to those skilled in the art that, convenience and letter for description Clean, the specific work process of the system of foregoing description, device and unit can refer to corresponding in preceding method embodiment Journey, details are not described herein.

The computer-readable of non-volatile program code that the progress processor that the embodiment of the present invention is provided can perform is deposited The computer program product of storage media, the computer readable storage medium including storing program code, said program code packet The instruction included can be used for performing the method described in previous methods embodiment, and specific implementation can be found in embodiment of the method, herein not It repeats again.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit can refer to the corresponding process in preceding method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with It realizes by another way.The apparatus embodiments described above are merely exemplary, for example, the division of the unit, Only a kind of division of logic function, can there is other dividing mode in actual implementation, in another example, multiple units or component can To combine or be desirably integrated into another system or some features can be ignored or does not perform.Another point, it is shown or beg for The mutual coupling, direct-coupling or communication connection of opinion can be by some communication interfaces, device or unit it is indirect Coupling or communication connection can be electrical, machinery or other forms.

The unit illustrated as separating component may or may not be physically separate, be shown as unit The component shown may or may not be physical unit, you can be located at a place or can also be distributed to multiple In network element.Some or all of unit therein can be selected according to the actual needs to realize the mesh of this embodiment scheme 's.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, it can also That each unit is individually physically present, can also two or more units integrate in a unit.

If the function is realized in the form of SFU software functional unit and is independent product sale or in use, can be with It is stored in a computer read/write memory medium.Based on such understanding, technical scheme of the present invention is substantially in other words The part contribute to the prior art or the part of the technical solution can be embodied in the form of software product, the meter Calculation machine software product is stored in a storage medium, is used including some instructions so that a computer equipment (can be People's computer, server or network equipment etc.) perform all or part of the steps of the method according to each embodiment of the present invention. And aforementioned storage medium includes：USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited The various media that can store program code such as reservoir (RAM, Random Access Memory), magnetic disc or CD.

In conclusion an embodiment of the present invention provides a kind of construction object methods of exhibiting and device, belong to data display technique Field.Method includes：Obtain the surface subsidence information for the tested construction object that inclinometer measures；According to deviational survey in surface subsidence information The location information of instrument shows the coordinate points of inclinometer, so that deviational survey in the threedimensional model of tested construction object pre-established Position and coordinate points location matches on threedimensional model of the instrument on tested construction object；Judge the earth's surface in surface subsidence information Whether sinking meets threshold range；When to be, the displaying color of adjustment coordinate points in the three-dimensional model.

User terminal can obtain the surface subsidence information of the tested construction object of inclinometer measurement, to be believed according to surface subsidence The location information of inclinometer in breath shows the coordinate points of inclinometer in the threedimensional model of tested construction object pre-established, So that physical location of position of the coordinate that is shown of terminal device on threedimensional model with inclinometer on tested construction object Match.Further, whether user terminal meets threshold range by the surface subsidence value judged in surface subsidence information, is being yes When, then it is engineering staff to be needed to pay attention in real time close to exceptional value, and then user terminal adjusts coordinate to illustrate the surface subsidence value The displaying color of point in the three-dimensional model.Therefore, user terminal is emulated on threedimensional model by coordinate points and shows inclinometer Actual measurement location after so that engineering staff easily obtains the actual measurement location of inclinometer by user terminal, no longer It is bothersome laborious.In addition, the adjustment by observing the displaying color of coordinate points in the three-dimensional model so that engineering staff is in the seat Surface subsidence value at physical location corresponding to punctuate knows that the surface subsidence value of the position has connect in advance before being in abnormal It is near abnormal, and then can adopt remedial measures in advance, greatly improve flexibility and applicability.

It these are only the preferred embodiment of the present invention, be not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.Any modification for all within the spirits and principles of the present invention, being made, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.It should be noted that：Similar label and letter are under Similar terms are represented in the attached drawing in face, therefore, once being defined in a certain Xiang Yi attached drawing, are not then needed in subsequent attached drawing It is further defined and explained.

More than, only specific embodiment of the invention, but protection scope of the present invention is not limited thereto is any to be familiar with Those skilled in the art in the technical scope disclosed by the present invention, can readily occur in change or replacement, should all cover Within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (10)

1. a kind of construction object methods of exhibiting, which is characterized in that the method includes：

Obtain the surface subsidence information for the tested construction object that inclinometer measures；

According to the location information of inclinometer in the surface subsidence information, by the coordinate points of the inclinometer in the institute pre-established It states and is shown in the threedimensional model of tested construction object, so that position and the coordinate of the inclinometer on the tested construction object Location matches of the point on the threedimensional model；

Judge whether the surface subsidence value in the surface subsidence information meets threshold range；

When to be, displaying color of the coordinate points in the threedimensional model is adjusted.

2. construction object methods of exhibiting according to claim 1, which is characterized in that the threshold range is by multiple threshold cells Range forms side by side, described when to be, adjusts displaying color of the coordinate points in the threedimensional model, including：

When to be, the targets threshold unit model that the surface subsidence value is located at is determined from multiple threshold cell ranges It encloses；

Displaying color of the coordinate points in the threedimensional model is adjusted to corresponding intended display color.

3. it is according to claim 2 construction object methods of exhibiting, which is characterized in that it is described by the coordinate points in the three-dimensional Displaying color in model is adjusted to corresponding intended display color, including：

According to the correspondence of each threshold cell range and the displaying color of the coordinate points, the targets threshold list is obtained The target correspondence of first range and the intended display color；

Displaying color of the coordinate points in the threedimensional model is adjusted to by corresponding institute according to the target correspondence State intended display color.

4. construction object methods of exhibiting according to claim 1, which is characterized in that described to judge in the surface subsidence information Surface subsidence value whether meet threshold range after；The method further includes：

Judge the maximum value whether the surface subsidence value in the surface subsidence information is more than in the threshold range；

When to be, the warning message of the surface subsidence information is generated, the warning message is sent to the user terminal.

5. construction object methods of exhibiting according to claim 1, which is characterized in that described according in the surface subsidence information The location information of inclinometer opens up the coordinate points of the inclinometer in the threedimensional model of the tested construction object pre-established Show, including：

Obtain the location information of inclinometer described in the surface subsidence information；

The longitude and latitude height value symbolized according to the location information is determined out of the threedimensional model longitude and latitude altitude range value Go out the coordinate points of the corresponding inclinometer of the longitude and latitude height value, the longitude and latitude altitude range value is built in advance for characterizing The shapes and sizes of the threedimensional model of the vertical tested construction object；

The coordinate points are shown in the threedimensional model.

6. a kind of construction object displaying device, which is characterized in that described device includes：

Module is obtained, for obtaining the surface subsidence information of the tested construction object of inclinometer measurement；

Display module, for the location information according to inclinometer in the surface subsidence information, by the coordinate points of the inclinometer It is shown in the threedimensional model of the tested construction object pre-established, so that the inclinometer is on the tested construction object Position and location matches of the coordinate points on the threedimensional model；

First judgment module, for judging whether the surface subsidence value in the surface subsidence information meets threshold range；

Module is adjusted, for when to be, adjusting displaying color of the coordinate points in the threedimensional model.

7. construction object displaying device according to claim 6, which is characterized in that the threshold range is by multiple threshold cells Range forms side by side, and the adjustment module includes：

Range determination unit, for when to be, determining that the surface subsidence value is located at from multiple threshold cell ranges Targets threshold unit range；

Color adjusting unit, for displaying color of the coordinate points in the threedimensional model to be adjusted to corresponding target exhibition Show color.

8. construction object displaying device according to claim 7, which is characterized in that the color adjusting unit includes：

Correspondence obtains subelement, for corresponding with the displaying color of the coordinate points according to each threshold cell range Relationship obtains the target correspondence of the targets threshold unit range and the intended display color；

Show color adjustment subelement, for according to the target correspondence by the coordinate points in the threedimensional model Displaying color is adjusted to the corresponding intended display color.

9. construction object displaying device according to claim 6, which is characterized in that described device further includes：

Second judgment module, for judging whether the surface subsidence value in the surface subsidence information is more than the threshold value model Maximum value in enclosing；

For when to be, generating the warning message of the surface subsidence information, the warning message is sent to for alarm module User terminal.

10. construction object displaying device according to claim 6, which is characterized in that the display module includes：

Information obtainment unit, for obtaining the location information of inclinometer described in the surface subsidence information；

Coordinate determination unit, for the longitude and latitude height value symbolized according to the location information, from the warp of the threedimensional model The coordinate points of the corresponding inclinometer of the longitude and latitude height value, the longitude and latitude height model are determined in latitude altitude range value Enclose value for characterize pre-establish it is described it is tested construct object the threedimensional model shapes and sizes；

Display unit, for the coordinate points to be shown in the threedimensional model.