CN207456401U - A kind of deformable body deformation monitoring device - Google Patents

Abstract

The utility model discloses a kind of deformable body deformation monitoring devices, including laser mirror and deformation monitoring module, the deformation monitoring module includes data acquisition transmitter structure and computer platform, the data acquisition transmitter structure includes box body, laser emitter and light reflection receiving mechanism, and controlling transmission module and CCD camera, the light reflection receiving mechanism includes convex lens and reflection light receives screen, the controlling transmission module includes controller and first data transmission module, the laser emitter is controlled by controller, the CCD camera connects with controller, the controller passes through first data transmission module and the computer platform wireless communication.The utility model is simple in structure, can quickly and accurately realize the dynamic monitoring of deformable body deformation and the monitoring of overall deformation, monitoring effect is good, at low cost, time saving and energy saving, can provide foundation for deformable body safe construction and operation maintenance, highly practical.

Description

A kind of deformable body deformation monitoring device

Technical field

The utility model belongs to deformable body deflection monitoring technical field, is filled more particularly, to a kind of deformable body deformation monitoring It puts.

Background technology

Deformation monitoring is exactly that the metaboly of deformable body is carried out continuing observation using measuring instrument, deforms shape to deformable body State carries out analysis and the developing state of deformable body deformation carries out the work in every such as predicting.At present, traditional deformation monitoring generally wraps It includes：

First, carry out the measurement of the level using spirit level or measured using triangulated height, although these device precision are high, Using flexible, a variety of deformable bodys and different monitoring of environmental are applicable in, but use the field work of this monitoring device Amount is big, it is necessary to which putting into substantial amounts of manpower and materials can complete.

2nd, the measuring devices such as global positioning system, satellite laser range-measurement system and synthetic aperture radar, monitoring dress are utilized Large-scale deformation monitoring can be completed by putting, but used equipment price is expensive.

3rd, it is monitored using photographic device by close-shot photography measure technique, the workload of the device field industry is small, energy Enough provide on deformable body more deformation point and for statistical analysis, but the photographic device is more demanding to use environment and ring Precision is relatively low when border is bad.

4th, existing measuring device, such as collimation measuring device, dipmeter monitoring device, strain measuring device, these Measuring device continuous, automatic Observation easy to implement during implementation, and with higher relative accuracy.But these are measured The shortcomings that device is the local deformation information that can only provide deformable body, for the overall deformation situation of deformable body, can not be united Meter analysis.Therefore, nowadays lack it is a kind of it is simple in structure, design rationally and simple operation deformable body deformation monitoring device, energy Quickly, accurately, accurately deformable body overall deformation is monitored, and can be to the real-time continuous monitoring energy of deformable body deflection Enough foundation is provided for deformable body safe construction and operation maintenance.

Utility model content

The technical problem to be solved by the utility model is to the deficiencies in for the above-mentioned prior art, provide a kind of deformation Body deformation monitoring device, it is simple in structure, design it is reasonable and easy to use, can quickly and accurately realize deformable body deform Dynamic monitoring and overall deformation monitoring, monitoring effect is good, at low cost, time saving and energy saving, can be deformable body safe construction Foundation is provided with operation maintenance, it is highly practical, convenient for promoting the use of.

In order to solve the above technical problems, the technical solution adopted in the utility model is：A kind of deformable body deformation monitoring device, It is characterized in that：Including the laser mirror being arranged on deformable body and the deformation monitoring mould being detected to deformable body deflection Block, the deformation monitoring module include data acquisition transmitter structure and the calculating with the data acquisition transmitter structure wireless communication Machine platform, the data acquisition transmitter structure include box body, the laser emitter being arranged on box body and are arranged on box body It light reflection receiving mechanism and is arranged on the in vivo controlling transmission module of box and is arranged in box body and to reflection light receiving screen The CCD camera that reflection light point image on curtain is acquired, the light reflection receiving mechanism include being arranged on box body and to warps The convex lens and be arranged on box body side and to passing through convex lens that the reflection light of the laser mirror reflection is focused Reflection light carry out receive formed reflection light point reflection light receive screen, the controlling transmission module include controller, The first data transmission module to connect with controller, the laser emitter are controlled by controller, the CCD camera and control Device processed connects, and the controller passes through first data transmission module and the computer platform wireless communication.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：Lithium battery, the lithium are provided in the box body Battery device and other electricity consumption module for power supply in order to control.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：The computer platform include computer and with The second data transmission module that computer connects, the first data transmission module carry out two-way nothing with the second data transmission module Line communicates.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：The data acquisition transmitter structure further includes number According to memory, the data storage connects with controller.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：Further include elevating mechanism and traveling wheel, the number It is mounted on according to acquisition transmission mechanism on the elevating mechanism, the traveling wheel is mounted on the elevating mechanism bottom.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：The elevating mechanism includes pedestal, is vertically arranged Telescopic component and the cross bar that is arranged between two telescopic components at pedestal both ends, the telescopic component includes and pedestal The lower upright bar that is fixedly connected, the upper pright stanchion for being arranged in lower upright bar and adjusting stretching time upright bar length and it is arranged on upper pright stanchion top The limited block at end, the both ends of the cross bar set connector, and the connector is sleeved on upper pright stanchion, and the connector and horizontal stroke The both ends of bar are hinged, and the data acquisition transmitter structure is mounted in the middle part of cross bar.

A kind of above-mentioned deformable body deformation monitoring device, it is characterised in that：The upper pright stanchion is threadedly coupled with lower upright bar, institute It states data acquisition transmitter structure to be mounted in the middle part of cross bar by connecting plate, and the data acquisition transmitter structure and connecting plate are removable Connection is unloaded, reinforcing bar is provided between the lower upright bar and pedestal.

The utility model has the following advantages compared with prior art：

1st, used deformation monitoring device is simple in structure, design is reasonable and installation operation is easy, and input cost is relatively low.

2nd, used data acquisition transmitter structure using effect is good, controller control laser transmitter projects laser to change On laser mirror physically, the reflection light reflected by laser mirror is focused by convex lens, after focusing Reflection light finally by reflection light receive screen receive, and reflection light receive screen on form reflection light point；Then, CCD camera receives the reflection light point image on screen to reflection light and is acquired, and the reflection light point image collected is sent out It send to controller, the reflection light point image wireless received is sent to computer platform, then completes reflected light point diagram by controller The acquisition and transmission of picture.

3rd, used computer platform, data processing is quick, by computer platform to reflection light point image at Reason, computer platform handles reflection light point image, and computer platform is according to the shifting of reflection light point in reflection light point image Momentum obtains the deflection of deformable body, and energy is real-time, the deflection of deformable body is monitored exactly, and monitoring result is accurate, Reflect deformable body deformation.

4th, used data acquisition transmitter structure passes through first data transmission module and computer platform wireless communication, side Just the installation of data acquisition transmitter structure, and ensure the accurate of reflection light point image transmitting.

5th, used controller control CCD camera carries out reflection light point Image Acquisition according to setpoint frequency, so as to obtain The consecutive variations situation of reflection light point, so as to fulfill the real-time continuous monitoring to deformable body deflection.

In conclusion the utility model is simple in structure, design is reasonable and easy to use, can quickly and accurately realize The dynamic monitoring of deformable body deformation and the monitoring of overall deformation, monitoring effect is good, at low cost, time saving and energy saving, can be deformation Body safe construction and operation maintenance provide foundation, highly practical, convenient for promoting the use of.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Description of the drawings

Fig. 1 is the schematic block circuit diagram of the utility model.

Fig. 2 is the structure diagram of the utility model data acquisition transmitter structure.

Fig. 3 is the connection relationship diagram of the utility model data acquisition transmitter structure, elevating mechanism and traveling wheel.

Reference sign:

1-controller；2-box body；3-laser emitter；

4-convex lens；5-reflection light receives screen；7-first data transmission module；

8-CCD camera；9-lithium battery；10-computer；

11-the second data transmission module；12-data storage；

13-1-pedestal；13-2-traveling wheel；13-3-lower upright bar；

13-4-upper pright stanchion；13-5-connector；13-6-limited block；

13-7-cross bar；13-8-connecting plate；13-9-reinforcing bar.

Specific embodiment

As depicted in figs. 1 and 2, the utility model includes the laser mirror being arranged on deformable body and deformable body is deformed Measure the deformation monitoring module that is detected, the deformation monitoring module include data acquisition transmitter structure and with the data acquisition The computer platform of transmission mechanism wireless communication, the data acquisition transmitter structure include box body 2, are arranged on swashing on box body 2 It optical transmitting set 3 and the light reflection receiving mechanism being arranged on box body 2 and the controlling transmission module being arranged in box body 2 and sets It puts in box body 2 and the CCD camera 8 that the reflection light point image on screen 5 is acquired, the light reflection is received to reflection light Receiving mechanism includes being arranged on the convex lens 4 that on box body 2 and the reflection light to reflecting through the laser mirror is focused It is connect with being arranged on 2 side of box body and the reflection light by convex lens 4 being carried out receiving the reflection light for forming reflection light point Receive screen 5, the first data transmission module 7 that the controlling transmission module includes controller 1, connects with controller 1, the laser Transmitter 3 is controlled by controller 1, and the CCD camera 8 connects with controller 1, and the controller 1 is passed by the first data Defeated module 7 and the computer platform wireless communication.

In the present embodiment, the reflection light receives and is provided with graduated scale on screen 5, convenient for detection.

In the present embodiment, the reflection light receives two opposite flanks that screen 5 and convex lens 4 are located at box body 2 respectively On.

In the present embodiment, lithium battery 9 is provided in the box body 2, the lithium battery 9 device 1 and other electricity consumption moulds in order to control Block is powered.

As shown in Figure 1, in the present embodiment, the computer platform includes computer 10 and connect with computer 10 second Data transmission module 11,7 and second data transmission module 11 of first data transmission module carry out two-way wireless communication.

In the present embodiment, the data acquisition transmitter structure further includes data storage 12, the data storage 12 with Controller 1 connects.

In the present embodiment, used data storage 12 is in order to which controller 1 deposits reflection light point image data Storage, convenient for carrying out backup management to reflection light point image data.

In the present embodiment, the controller 1 is microcontroller, DSP microcontrollers and ARM microcontroller.

In the present embodiment, by setting 7 and second data transmission module 11 of first data transmission module, controller 1 is realized With the wireless communication of computer 10, facilitate the installation of the data acquisition transmitter structure, and ensure reflection light point image transmitting Accurately.

As shown in figure 3, in the present embodiment, elevating mechanism and traveling wheel 13-2, the data acquisition transmitter structure are further included On the elevating mechanism, the traveling wheel 13-2 is mounted on the elevating mechanism bottom.

In the present embodiment, by the way that elevating mechanism is set to facilitate the adjusting of the data acquisition transmitter structure setting height(from bottom), and Traveling wheel 13-2 is set, facilitates the movement of the elevating mechanism, and then convenient for the movement of the data acquisition transmitter structure.

As shown in figure 3, in the present embodiment, the elevating mechanism includes pedestal 13-1, is vertically arranged in pedestal 13-1 both ends Telescopic component and the cross bar 13-7 that is arranged between two telescopic components, the telescopic component include consolidating with pedestal 13-1 Surely the lower upright bar 13-3 that connects, the upper pright stanchion 13-4 for being arranged in lower upright bar 13-3 and adjusting stretching time upright bar 13-3 length and The both ends for being arranged on the limited block 13-6, the cross bar 13-7 on upper pright stanchion 13-4 tops set connector 13-5, the connector 13-5 is sleeved on upper pright stanchion 13-4, and the both ends of the connector 13-5 and cross bar 13-7 are hinged, the data acquisition transmission Mechanism is mounted in the middle part of cross bar 13-7.

In the present embodiment, connector 13-5 and the both ends of cross bar 13-7 are hinged, convenient for adjusting the folder of box body 2 and horizontal plane Angle, so as to fulfill the adjusting to 3 direction of illumination of laser emitter in box body 2.

In the present embodiment, the both ends of the connector 13-5 and cross bar 13-7 are set with the locking screw locked to cross bar 13-7 The both ends of cross bar 13-7 when the adjustment of 3 direction of illumination of laser emitter is met the requirements in box body 2, are passed through connector 13-5 by bolt It is fixedly connected with upper pright stanchion 13-4.

In the present embodiment, by the way that the upper pright stanchion 13-4 is set to be threadedly coupled with lower upright bar 13-3, facilitate adjusting upper pright stanchion 13-4 stretches out the length of lower upright bar 13-3, so as to fulfill the adjusting of cross bar 13-7 height, further realizes and is mounted on cross bar 13-7 On the data acquisition transmitter structure setting height(from bottom) adjust.

As shown in figure 3, in the present embodiment, the upper pright stanchion 13-4 is threadedly coupled with lower upright bar 13-3, the data acquisition Transmission mechanism is mounted on by connecting plate 13-8 in the middle part of cross bar 13-7, and the data acquisition transmitter structure can with connecting plate 13-8 Dismantling connection is provided with reinforcing bar 13-9 between the lower upright bar 13-3 and pedestal 13-1.

The utility model is when it is implemented, first, being mounted on cross bar 13-7 middle parts by the data acquisition transmitter structure, inciting somebody to action The elevating mechanism is moved to by traveling wheel 13-2 beside deformable body, and sends out the laser in the data acquisition transmitter structure 3 transmitting terminal of emitter adjusts the length that upper pright stanchion 13-4 stretches out lower upright bar 13-3 towards deformable body, until cross bar 13-7 is away from pedestal 13-1 setting heights, and laser mirror is set on deformable body, then controller 1 laser emitter 3 is controlled to emit laser to setting It puts on the laser mirror on deformable body, convex lens 4 is passed through by the reflection light that the laser mirror reflects It is focused, the reflection light after focusing finally receives screen 5 by reflection light and receives, and is received in reflection light on screen 5 Form reflection light point；Meanwhile CCD camera 8 receives the reflection light point image on screen 5 to reflection light and is acquired, and will adopt The the first reflection light point image collected is sent to controller 1, and controller 1 is by the first reflection light point image received by first 7 and second data transmission module 11 of data transmission module is wirelessly transmitted to computer 10；When deformable body deforms upon, it is mounted on The laser mirror on deformable body can also occur to change accordingly, so as to change the reflection path of transmitting light, reflected light Line is focused by convex lens 4, and the position of the second reflection light point formed on reflection light reception screen 5 can also occur Corresponding variation is acquired at this point, CCD camera 8 receives the second reflection light point image on screen 5 to reflection light, and will The the second reflection light point image collected is sent to controller 1, and the second reflection light point image received is passed through by controller 1 One data transmission module 7 and the second data transmission module 11 are wirelessly transmitted to computer 10, computer 10 will receive first Reflection light point image and the second reflection light point image are handled, and the amount of movement for obtaining reflection light point is (reversed including X-direction and Y Offset), then computer 10 is according to the amount of movement (including the reversed offset of X-direction and Y) of reflection light point, so as to obtain The vertical direction deflection (Y-direction deflection) of deformable body entirety and horizontal direction deflection (X-direction deflection).Controller 1 CCD camera 8 is controlled to carry out reflection light point Image Acquisition according to setpoint frequency, so as to obtain the consecutive variations situation of reflection light point, So as to fulfill the real-time continuous monitoring to deformable body deflection.The monitoring device can quickly and accurately realize deformable body deformation Dynamic monitoring and the monitoring of overall deformation, monitoring effect is good, at low cost, time saving and energy saving, can be deformable body safe construction and Operation maintenance provides foundation, highly practical.

The above is only the preferred embodiment of the utility model, not the utility model imposed any restrictions, every Any simple modification, change and the equivalent structure made according to the utility model technical spirit to above example change, still Belong in the protection domain of technical solutions of the utility model.

Claims (7)

1. a kind of deformable body deformation monitoring device, it is characterised in that：Including the laser mirror being arranged on deformable body and to becoming The deformation monitoring module that body deflection is detected, the deformation monitoring module include data acquisition transmitter structure and with it is described The computer platform of data acquisition transmitter structure wireless communication, the data acquisition transmitter structure include box body (2), are arranged on box It laser emitter (3) on body (2) and the light reflection receiving mechanism being arranged on box body (2) and is arranged in box body (2) It controlling transmission module and is arranged in box body (2) and the reflection light point image on screen (5) is received to reflection light and be acquired CCD camera (8), the light reflection receiving mechanism includes being arranged on box body (2) and to being reflected through the laser mirror Convex lens (4) that reflection light is focused and be arranged on box body (2) side and to the reflection light by convex lens (4) into Row receives the reflection light reception screen (5) for forming reflection light point, and the controlling transmission module includes controller (1) and control The first data transmission module (7) that device (1) connects, the laser emitter (3) are controlled by controller (1), the CCD phases Machine (8) connects with controller (1), and the controller (1) is wireless by first data transmission module (7) and the computer platform Communication.

2. a kind of deformable body deformation monitoring device described in accordance with the claim 1, it is characterised in that：It is set in the box body (2) There is a lithium battery (9), the lithium battery (9) device (1) and other electricity consumption module for power supply in order to control.

3. according to a kind of deformable body deformation monitoring device described in claim 1 or 2, it is characterised in that：The computer platform The second data transmission module (11) to connect including computer (10) and with computer (10), the first data transmission module (7) two-way wireless communication is carried out with the second data transmission module (11).

4. according to a kind of deformable body deformation monitoring device described in claim 1 or 2, it is characterised in that：The data acquisition passes Transfer mechanism further includes data storage (12), and the data storage (12) connects with controller (1).

5. according to a kind of deformable body deformation monitoring device described in claim 1 or 2, it is characterised in that：Further include elevating mechanism With traveling wheel (13-2), the data acquisition transmitter structure is mounted on the elevating mechanism, traveling wheel (13-2) installation In the elevating mechanism bottom.

6. according to a kind of deformable body deformation monitoring device described in claim 5, it is characterised in that：The elevating mechanism includes bottom Seat (13-1), the cross bar for being vertically arranged in the telescopic component at pedestal (13-1) both ends and being arranged between two telescopic components (13-7), the telescopic component include the lower upright bar (13-3) being fixedly connected with pedestal (13-1), are arranged on lower upright bar (13-3) Upper pright stanchion (13-4) interior and that lower upright bar (13-3) length of stretching can be adjusted and the limited block for being arranged on upper pright stanchion (13-4) top (13-6), the both ends of the cross bar (13-7) set connector (13-5), and the connector (13-5) is sleeved on upper pright stanchion (13- 4) on, and the connector (13-5) and the both ends of cross bar (13-7) are hinged, and the data acquisition transmitter structure is mounted on cross bar In the middle part of (13-7).

7. according to a kind of deformable body deformation monitoring device described in claim 6, it is characterised in that：The upper pright stanchion (13-4) with Lower upright bar (13-3) is threadedly coupled, and the data acquisition transmitter structure is mounted on by connecting plate (13-8) in cross bar (13-7) Portion, and the data acquisition transmitter structure is detachably connected with connecting plate (13-8), the lower upright bar (13-3) and pedestal (13- 1) reinforcing bar (13-9) is provided between.