CN202024740U - Visual measuring device for moving fire source flame front structure - Google Patents

Abstract

The utility model provides a visual measuring device for a moving fire source flame front structure, which includes a control computer, a combustor, a rotary table mechanism, an image acquisition device, a rotary table driving device and a supporting seat, wherein the combustor is connected onto the rotary table mechanism; the rotary table mechanism is arranged on the supporting seat; the rotary table driving device is placed in the supporting seat and connected with the rotary table mechanism through a rotating shaft; the rotary table driving device and the image acquisition device are connected with the control computer respectively; and the image acquisition device is connected with the rotary table mechanism and arranged oppositely to the combustor. In the visual measuring device, the rotation speed of the combustor can be adjusted and the size of the generated flame of the combustor can be controlled through a variable frequency motor, and flame fronts of fire sources at various moving speeds and under various combustion intensity are produced, so that the visual measuring device has wide application range and simple structure, and can be operated flexibly and conveniently.

Description

A kind of visualization measurement device of motion burning things which may cause a fire disaster flame front structure

Technical field

The utility model relates to the flame front measurement mechanism, the true equipment technical field of testing, the visualization measurement device of the motion burning things which may cause a fire disaster flame front structure that particularly a kind of movement velocity is adjustable.

Background technology

Flame front (flame front) is also referred to as flame front, also claims " flame wavefront ", " flame front " or " flame ripple ".Finger with products of combustion and unburned mixture thin layer spaced apart from each other, is the part of most critical in the combustion field in the combustion mixture of having lighted.In order to understand the influence of flame front in depth to rate of heat release, pollutant generation and flame holding etc., need its geometric properties of research and motion dynamic behaviour, this also is to explore the necessary method of describing turbulent flame.

In the method for the geometric properties of studying flame front and motion dynamic behaviour thereof, flame experiment, numerical simulation and theoretical analysis three major types are arranged.The geometric properties of flame front and the characteristics of motion thereof are very complicated, influence factor is also more, carry out visual research by numerical simulation and theoretical derivation fully at present and also have certain difficulty.Thereby means by experiment---flame visualization is tested the geometric properties and the characteristics of motion thereof of inquiring after flame front and is just seemed very necessary.

In recent years, the experimental study of flame front related science problem many work have been carried out both at home and abroad, people such as Cao Hongjia in 2010 the 16th of " combustion science and technology " magazine volume the 1st phase " sound wave is to the influence of V-arrangement premixed flame sharp side gauffer " literary compositions to the sound wave disturbance under the sharp side gauffer of V-arrangement premixed flame carried out performance analysis, set up the experiment table of sound wave disturbance V-arrangement premixed flame, by the variation of meticulous thermopair detection flame front gauffer, measured the sharp side gauffer of the V-arrangement premixed flame under the different sound wave forcing frequencies.People such as Yang Hongmin utilize laser chromatographic technique and digital image processing techniques that the structure and the flame-out characteristic of turbulent flow premixed flame under the mode of liquidating have been carried out experimental study in 2002 the 8th the 1st phases of volume of " combustion science and technology " magazine " turbulent flow premix flames in opposing direction structure and flame-out attribute testing research " literary composition, adopt the PIV method to measure cold conditions, obtained the velocity strain rate as weighing the parameter of flow field to the sharp side combustion effects near the velocity field the impulse face.The somebody has proposed employing methane air potpourri, carries out explosion test in semi-enclosed pipeline, obtains the superpressure value of flame location in the blast process, shape and generation.The superfine people of He Xue utilizes means such as high-speed photography shooting in 2009 the 39th volume the 4th phase " experiment and the numerical simulation study of methane air premixed flame propagation characteristic in the pipeline " literary compositions of " China Science ﹠ Technology University's journal " magazine, flame structure, velocity of propagation and pressure characteristic in the methane air premixed gas flame propagation process in the closed conduct have been carried out experimental study, and carried out numerical simulation in conjunction with the EBU-Arrhenius hybrid reaction model of revising.

From present existing research situation, the experimental study of these flame fronts almost all is based on following 2 preconditions, that is: the burning things which may cause a fire disaster point in (1) flame combustion and the evolution is actionless with respect to the space that catches fire, the external world, and this and the stationary combustion source burning sight that causes such as catch fire coincide; But under some actual conditions, burning things which may cause a fire disaster also might take place still be in this class burning scene of moving situation, catch fire the initial stage as the bullet train surface, the driver can be under ignorant or situation that train can't stop at once, the train that catches fire continues to overtake, and the burning things which may cause a fire disaster under this class situation is kept in motion; (2) experiment of flame front mainly concentrates on controlled burning or normal gravity (acceleration a=1g=9.8m/s ²) and microgravity [a=(0～1) g] environment under, still, combustion process also may occur in the volume field of force of acceleration a＞1g, catches fire or is in catching fire of flying object surface under the accelerating mode as the body surface of high speed rotating.Although many scholars admit the multiple existence form of flame front, and consistently think that turbulent flow brings out the flame front fold, increased the area of flame front, strengthened combustion process, body force is all influential to the general characteristic and the frontal structure of fold sharp side premixed flame, and body force produces different effects in laminar flow and turbulent flame.But also seldom to the experimental observation under the improper gravity.

Body force is influenced the complete analysis of flame front structure, should not only comprise the scope of acceleration a=(0～1) g, also should comprise the scope of acceleration a＞gravity acceleration g.Yet, rare to the research report of flame front structure in the large volume field of force.In addition, the difference of burning things which may cause a fire disaster translational speed does not also relate to the research of the influence of flame front structure and metamorphosis thereof.This is because present flame assay device has the following disadvantages when measuring the flame front structure: (1) volume field of force can't be regulated on a large scale, can not measure the influence of acceleration change to flame front structure and metamorphosis thereof from experimental viewpoint; (2) size of burning things which may cause a fire disaster point travelling speed is very big to the variable effect in temperature field in the flame front structure and the space that catches fire thereof, but experimental provision can't be realized moving of burning things which may cause a fire disaster point, and its travelling speed is controlled.

The utility model content

The purpose of this utility model is to overcome the shortcoming of above-mentioned prior art with not enough, a kind of visualization measurement device of motion burning things which may cause a fire disaster flame front structure simple and reasonable for structure is provided, this device can solve acceleration a in the volume field of force of implement device in the prior art can't regulate on a large scale with experimental provision in catch fire that the burning things which may cause a fire disaster point can't move and the uncontrollable defective of its travelling speed.

For reaching above-mentioned purpose, the utility model adopts following technical scheme: a kind of visualization measurement device of motion burning things which may cause a fire disaster flame front structure, comprise controlling computer, burner, rotating disk mechanism, image collecting device, rotating blade drive and supporting seat, described burner is connected on the rotating disk mechanism, and rotating disk mechanism is arranged on the supporting seat; Described rotating blade drive places in the supporting seat, and is connected with rotating disk mechanism by rotating shaft; Described rotating blade drive, image collecting device are connected with controlling computer respectively; Image collecting device is connected with rotating disk mechanism, and corresponding setting with the position of burner.

Fuel in the burner can be a kind of in gaseous fuel, the solid or liquid fuel, regulates the size of the aperture flame that may command produces of nozzle in the weight of fuel in the solid combustion device or the liquid burner.

Described image collecting device comprises CCD camera, high-speed camera instrument, pulsed laser and isochronous controller, and described CCD camera is connected on the rotating disk mechanism, and high-speed camera instrument, pulsed laser, isochronous controller are arranged on the outside worktable; Corresponding with the position of the burner respectively setting of the camera of the camera lens of CCD camera, high-speed camera instrument, pulsed laser; Described pulsed laser is connected with isochronous controller, and isochronous controller, CCD camera, high-speed camera instrument are connected with controlling computer respectively.

Wherein, the CCD camera rotates synchronously with burner and gathers its flame front structural images, the high-speed camera instrument is gathered its flame front structure instantaneous variation image for rotating with respect to the fixed support dwell of sley, with respect to burner, the still image that is the flame front structure is obtained by the CCD camera, and flame front structure instantaneous variation image is obtained by the high-speed camera instrument.

Pulsed laser is used to improve the sharpness of the flame front structure instantaneous variation image that obtains.

Described high-speed camera instrument is two, corresponding with the position of burner respectively setting.

Described rotating disk mechanism comprises rotary case, camera bearing and shaft seating, and described camera bearing, shaft seating all are arranged at the center of rotary case, and the camera bearing is connected the upper surface of rotary case, and shaft seating is connected the lower surface of rotary case; The camera bearing is connected with CCD camera in the image collecting device, and shaft seating is connected with rotating shaft.

The CCD camera is fixed in the flame that produces when the center of round turntable body and its camera lens face burner combustion.

As preferably, burner by bolted on rotary case.

As preferably, described rotary case is a kind of steel plate of solid panels structure, in case the spline disk body is when high speed rotating, and the rotary case bottom air axia flow that makes progress, and produce the axial air flow field that the flame front structure is had added influence.

The lower surface of described rotary case is provided with several radially stiffening rib framves and circumferentially stiffening rib frame, and described radially stiffening rib frame is along the radially setting of rotary case, and each radially the stiffening rib frame evenly distribute; Described circumferential stiffening rib frame is connected adjacent two radially between the stiffening rib frame.

Described shaft seating is provided with the rotating shaft mounting hole, and the upper end of described rotating shaft and rotating shaft mounting hole are connected, and its lower end is connected with supporting seat; Described camera bearing is provided with the camera pilot hole, and CCD camera and camera pilot hole in the described image collecting device are connected.

Described rotary case is circular, and its external diameter is 800mm～2000mm.

Described rotating blade drive comprises interconnective frequency-variable controller and adjustable frequency motor, and described frequency-variable controller is connected with controlling computer, and described adjustable frequency motor is connected with rotating shaft by shaft coupling.

The rotating speed of rotary case is to reach by the rotating speed of regulating adjustable frequency motor, and adjustable frequency motor links to each other with controlling computer by frequency-variable controller.Regulate the rotating speed of adjustable frequency motor, the rotating speed that can make rotary case and be fixed in the lip-deep burner of rotary case is regulated between 0～3000 commentaries on classics/min.

Described supporting seat comprises successively last fixed frame, column support, time fixed frame that connects, and described column support is several, and described disk body mechanism is arranged on the fixed frame, and described rotating blade drive places in the framework that each column support surrounds; Described rotating shaft is passed fixed frame and is connected with described rotating blade drive.Wherein, column support is preferably 4.

The visualization measurement process of the motion burning things which may cause a fire disaster flame front structure that is realized by said apparatus: controlling computer, image collecting device, rotating blade drive power on respectively, and the ignition combustion device makes it produce flame simultaneously; Controlling computer control of conversion controller starts adjustable frequency motor, and adjustable frequency motor drives rotating shaft and rotates, and rotating shaft drive rotary case, burner, CCD camera rotate synchronously; Simultaneously, controlling computer sends signal to isochronous controller, starts by isochronous controller gating pulse laser instrument, and pulsed laser is luminous and illuminate tested flame; Burner is when rotating, and the relative CCD camera of flame is static, and flame rotates relative to the high-speed camera instrument, and the CCD camera is gathered the still image of flame front structure in real time, and the high-speed camera instrument is gathered flame front structure instantaneous variation image in real time; The image that CCD camera and high-speed camera instrument collect is sent to controlling computer, carries out subsequent treatment for controlling computer; In measuring process, regulate the output frequency of frequency-variable controller by controlling computer, thereby regulate the rotating speed of adjustable frequency motor, and then the rotating speed of change rotating shaft, regulate the rotating speed of rotating disk, burner,, use for subsequent experimental to measure the image information of flame front structure under the friction speed.

Adopt the utility model, can carry out noncontact to the flame that burner produces, instantaneous, dynamically, directly measure in the entire process, it adopts very short pulsed laser of the time interval to illuminate the flame front of required measurement and flow field on every side thereof, utilize CCD camera or high-speed camera instrument that the flame front structure of being thrown light on is noted, utilize controlling computer to carry out the numerical information that follow-up image processing obtains flame front structure and circumferential velocity field thereof, improve the speed and the precision of data handling procedure, can be used for studying the transient process of motion burning things which may cause a fire disaster flame front structure and physical aspects change thereof, realize that really the flame front structure shows the visual and real time implementation of measuring.

Compared with prior art, the utlity model has following advantage and beneficial effect:

1, the utility model can be regulated the rotating speed of burner and the size that the control burner produces flame by adjustable frequency motor, produces the flame front of burning things which may cause a fire disaster under various movement velocitys and combustion intensity, and is applied widely, and apparatus structure is simple, flexible and convenient operation.

2, the utility model is aided with various testing tools and instrument such as CCD camera, high-speed camera instrument, pulsed laser, can carry out high-acruracy survey to the flame front structure, for geometric properties and the motion thereof of studying motion burning things which may cause a fire disaster flame front structure dynamically provides experiment basis.

3, the utility model can be controlled the rotating speed of burner, thereby can present the flame front structure of burning things which may cause a fire disaster under various movement velocity v; Simultaneously, can be by the control of burner rotating speed, the suffered volume field of force (specifically being embodied by centrifugal acceleration) of flame that burner produces is done to regulate on a large scale, the range of adjustment of centrifugal acceleration a between (0～2500) g, thereby can be presented on normal gravity (acceleration a=1g=9.8m/s ²) and hypergravity (the flame front structure under the environment of acceleration a＞1g); Be aided with various testing tools and instrument, can with regard to the volume field of force and burning things which may cause a fire disaster point travelling speed the influence of flame front structure and metamorphosis thereof be measured and study from experimental viewpoint.

4, owing in the process of utilizing experimental provision of the present utility model that motion burning things which may cause a fire disaster flame front structure is measured, do not have disturbance flame front and flow field on every side thereof such as instrument probe, the light beam that pulsed laser produces does not cause interference to it after by flame front to be measured, thereby avoids consequent measuring error.

Description of drawings

Fig. 1 is the general structure synoptic diagram of the utility model device.

Fig. 2 is visual angle, the top schematic perspective view of rotating disk mechanism shown in Figure 1.

Fig. 3 is visual angle, the bottom schematic perspective view of rotating disk mechanism shown in Figure 1.

Fig. 4 is the schematic perspective view of supporting seat shown in Figure 1.

Embodiment

Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment 1

Fig. 1～Fig. 4 shows the concrete structure synoptic diagram of present embodiment, as shown in Figure 1, the visualization measurement device of this motion burning things which may cause a fire disaster flame front structure, comprise controlling computer 1, burner 6, rotating disk mechanism 7, image collecting device, rotating blade drive and supporting seat 12, described burner 6 is connected on the rotating disk mechanism 7, and rotating disk mechanism 7 is arranged on the supporting seat 12; Described rotating blade drive places in the supporting seat 12, and is connected with rotating disk mechanism 7 by rotating shaft 9; Described rotating blade drive, image collecting device are connected with controlling computer 1 respectively; Image collecting device is connected with rotating disk mechanism 7, and corresponding setting with the position of burner 6.

Before the test, produce the fuel type of flame 5 according to burning, select a kind of in solid fuel device or the liquid fuel device, and with it by on the rotary case 17 that is bolted to rotating disk mechanism 7, regulate the size of the aperture flame that may command produces 5 of nozzle in the weight of fuel in the solid combustion device 6 or the liquid burner 6.

The flame front structural images that burning produces in the test is obtained by image collecting device.

For obtaining the flame front structural images that the operating point burning things which may cause a fire disaster produces, image collecting device comprises the CCD camera 2 that a cover rotates synchronously with burner 6, CCD camera 2 adopts bolt on the camera bearing 15 of rotating disk mechanism 7, the flame 5 that produces when making its camera lens face burner 6 burnings by camera pilot hole 16.CCD camera 2 is connected with controlling computer 1 simultaneously, with storage in the flame front structural images input controlling computer 1 of gathering.

For obtaining flame front structure instantaneous variation image, image collecting device also comprises high-speed camera instrument 3, high-speed camera instrument 4, pulsed laser 8 and the isochronous controller 13 that a cover is static with respect to supporting seat 12, wherein, the sharpness of the flame front structure instantaneous variation image that obtains for raising of pulsed laser 8 is provided with; High-speed camera instrument 3, high-speed camera instrument 4, pulsed laser 8, isochronous controller 13 are arranged on the outside worktable; Corresponding with the position of the burner 6 respectively setting of the camera of the camera lens of CCD camera 2, high-speed camera instrument 3, high-speed camera instrument 4, pulsed laser 8; Described pulsed laser 8 is connected with isochronous controller 13, and isochronous controller 13, high-speed camera instrument 3, high-speed camera instrument 4 are connected with controlling computer 1 respectively.

The laser beam that pulsed laser 8 sends forms the sheet laser with certain thickness and subtended angle through a kind of cylindrical lens, be incorporated on the tested flame front by light path, image capturing system when work, control and coordinate work between each building block by the software in the controlling computer 1.

Wherein, CCD camera 2 rotates synchronously with burner 6 and gathers its flame front structural images, high-speed camera instrument 3, high-speed camera instrument 4 for 12 static with respect to fixed supporting seat, rotate with respect to burner 6 and to gather its flame front structure instantaneous variation image, the still image that is the flame front structure is obtained by CCD camera 2, and flame front structure instantaneous variation image is obtained by high-speed camera instrument 3, high-speed camera instrument 4.

Pulsed laser 8 is used to improve the sharpness of the flame front structure instantaneous variation image that obtains.

Described high-speed camera instrument 3, high-speed camera instrument 4 are two, corresponding with the position of burner 6 respectively setting.

As shown in Figure 2, described rotating disk mechanism 7 comprises rotary case 17, camera bearing 15 and shaft seating 21, described camera bearing 15, shaft seating 21 all are arranged at the center of rotary case 17, and camera bearing 15 is connected the upper surface of rotary case 17, and shaft seating 21 is connected the lower surface of rotary case 17; Camera bearing 15 is connected with CCD camera 2 in the image collecting device, and shaft seating 21 is connected with rotating shaft 9.Camera bearing 15, shaft seating 21 and rotary case 17 welding.

Center and its camera lens that CCD camera 2 is fixed in round turntable body 17 face the flame 5 that produces when burner 6 burns.

Burner 6 by bolted on rotary case 17.

Described rotary case 17 is circular.

Described rotary case 17 is steel plates of a kind of solid panels structure, in case spline disk body 17 is when high speed rotating, and the rotary case 17 bottom air axia flow that makes progress, and produce the axial air flow field that the flame front structure is had added influence.

Rotary case 17 is the thick steel plate of 12mm, and external diameter is 1200mm, and its effect is to prevent round turntable body 17 when high speed rotating, the rotary case 17 bottom air axia flow that makes progress, and produce the axial air flow field that the flame front structure is had added influence.

As shown in Figure 3, the lower surface of described rotary case 17 is provided with several radially stiffening rib framves 18 and circumferentially stiffening rib frame 19, and described radially stiffening rib frame 18 is along the radially setting of rotary case 17, and each radially stiffening rib frame 18 evenly distribute; Described circumferential stiffening rib frame 19 is connected adjacent two radially between the stiffening rib frame 18.

Radially stiffening rib frame 18 and circumferential stiffening rib frame 19 are welded on the lower surface of rotary case 17.

Described shaft seating 21 is provided with rotating shaft mounting hole 20, and the upper end of described rotating shaft 9 and rotating shaft mounting hole 20 are connected, and its lower end is connected with supporting seat 12; Described camera bearing 15 is provided with camera pilot hole 16, and the CCD camera 2 in the described image collecting device is connected with camera pilot hole 16.

Described rotating blade drive comprises interconnective frequency-variable controller 14 and adjustable frequency motor 11, and described frequency-variable controller 14 is connected with controlling computer 1, and described adjustable frequency motor 11 is connected with rotating shaft 9 by shaft coupling 10.

The rotating speed of rotary case 17 is to reach by the rotating speed of regulating adjustable frequency motor 11, and adjustable frequency motor 11 links to each other with controlling computer 1 by frequency-variable controller 14.Regulate the rotating speed of adjustable frequency motor 11, the rotating speed that can make rotary case 17 and be fixed in rotary case 17 lip-deep burners 6 is regulated between 0～3000 commentaries on classics/min.

The rotating speed of adjustable frequency motor 11 is to realize by the output frequency of adjusting frequency-variable controller 14.During work, come the output frequency of control of conversion controller 14 by controlling computer 1.

Therefore, by regulating the rotating speed of adjustable frequency motor 11, realize the flame 5 suffered centrifugal accelerations of burner 6 generations are done to regulate on a large scale, range of adjustment is between (0～2500) g.During test,, flame 5 suffered centrifugal accelerations are changed in (0～2500) g scope, be used for being presented on various body forces flame front structure after the match by regulating the output frequency of control of conversion controller 14.

As shown in Figure 4, described supporting seat 12 comprises last fixed frame 22, column support 23, the following fixed frame 24 that connects successively, described column support 23 is several, and described disk body mechanism is arranged on the fixed frame 22, and described rotating blade drive places in the framework that each column support 23 surrounds; Described rotating shaft 9 is passed fixed frame 22 and is connected with described rotating blade drive.Wherein, column support 23 is 4.Wherein, last fixed frame 22 is used for countershaft 9 and vertically locatees, and following fixed frame 24 is connected with ground by anchoring bolt, to prevent producing excessive vibration in the experimentation.In the installation process, should guarantee the card maintenance level of rotary case 17.

The visualization measurement process of the motion burning things which may cause a fire disaster flame front structure that is realized by said apparatus: controlling computer 1, image collecting device, rotating blade drive power on respectively, and ignition combustion device 6 makes it produce flame 5 simultaneously; Controlling computer 1 control of conversion controller 14 starts adjustable frequency motor 11, and adjustable frequency motor 11 drives rotating shaft 9 and rotates, and rotating shaft 9 drive rotary cases 17, burner 6, CCD camera 2 rotate synchronously; Simultaneously, controlling computer 1 sends signals to isochronous controller 13, starts by isochronous controller 13 gating pulse laser instruments 8, and pulsed laser 8 is luminous and illuminate tested flame 5; Burner 6 is when rotating, flame 5 relative CCD cameras 2 are static, flame 5 rotates relative to high-speed camera instrument 3, high-speed camera instrument 4, CCD camera 2 is gathered the still image of flame front structure in real time, and high-speed camera instrument 3, high-speed camera instrument 4 are gathered flame front structure instantaneous variation image in real time; The image that CCD camera 2 and high-speed camera instrument 3, high-speed camera instrument 4 collect is sent to controlling computer 1, carries out subsequent treatment for controlling computer 1; In measuring process, regulate the output frequency of frequency-variable controller 14 by controlling computer 1, thereby regulate the rotating speed of adjustable frequency motor 11, and then the rotating speed of change rotating shaft 9, regulate the rotating speed of rotating disk, burner 6, to measure the image information of flame front structure under the friction speed, use for subsequent experimental.

Be to detect of the influence of burning things which may cause a fire disaster point movement velocity, its process of the test: at first arrange the division of labor properly, experimenter's preparing experiment that puts in place respectively to the flame front structure of solid fuel ignition generation.Whether each parts of checking this device move normally; Regulate the weight of fuel in the burner 6, fire fuel reaches flame 5 sizes that configure; This experiment is in order to measure the influence of burning things which may cause a fire disaster point movement velocity to the flame front structure of fuel combustion generation, the flame front structural images when the burning things which may cause a fire disaster point of measurement does not earlier move; Flame 5 height settings are 0.20m, and fixing fire location is positioned at the edge of rotary case 17; Press working specification and start image collecting devices such as CCD camera 2, high-speed camera instrument 3, high-speed camera instrument 4, the data acquisition of start-up control computer 1 beginning flame front structural images; Add the fuel for preparing in the burner 6, treat that this device begins igniting after stable; The experimenter has write down all kinds of experimental datas of 5～8min in burning time; This group experiment finishes, and fire extinguishes, and keeps the experimental data of gained, and arrangement experiment place and Experimental Establishment are cleaned out the residual fuel in the burner 6, and each parts of this device are returned to original state, carries out next group experiment again.The rotating speed that utilizes frequency-variable controller 14 to regulate adjustable frequency motor 11 respectively is 100 commentaries on classics/min, 300 commentaries on classics/min, 500 commentaries on classics/min, 1000 commentaries on classics/min, 1500 commentaries on classics/min, 2000 commentaries on classics/min, 2500 commentaries on classics/min, 3000 commentaries on classics/min, other is provided with constant, by the above-mentioned described several groups of experiments of carrying out respectively, with the influence of the experimental data comparative analysis burning things which may cause a fire disaster point movement velocity of gained to the flame front structure.

Embodiment 2

Present embodiment except that following characteristics other structures with embodiment 1: the external diameter of rotary case is 800mm.

The fuel of described burner is liquid fuel.

The influence of the flame front structure that liquid fuel combustion is produced when different for the suffered volume field of force of flame detection, its process of the test: test preceding the preparation according to embodiment 1 described carrying out, change burner into the fluid combustion device, the height of regulating the aperture control flame that produces of nozzle in the burner is 0.15m.This experiment presents the flame structure image under the different volumes field of force, utilize frequency-variable controller to regulate the rotating speed of adjustable frequency motor respectively, make the suffered volume field of force of flame, promptly suffered centrifugal acceleration a is 2g, 10g, 20g, 50g, 100g, 200g, 500g, 1000g, 1500g, 2500g.Starting various image collecting devices and controlling computer by working specification, to note burning time respectively be flame front structural images in 3～4min.The influence of the flame front structure that when the volume field of force that the experimental data comparative analysis flame of gained is suffered is different liquid fuel combustion is produced.

Embodiment 3

Present embodiment except that following characteristics other structures with embodiment 1: the external diameter of rotary case is 1000mm.

The foregoing description is the utility model preferred implementation; but embodiment of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under spirit of the present utility model and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within the protection domain of the present utility model.

Claims (9)

1. the visualization measurement device of a motion burning things which may cause a fire disaster flame front structure, it is characterized in that: comprise controlling computer, burner, rotating disk mechanism, image collecting device, rotating blade drive and supporting seat, described burner is connected on the rotating disk mechanism, and rotating disk mechanism is arranged on the supporting seat; Described rotating blade drive places in the supporting seat, and is connected with rotating disk mechanism by rotating shaft; Described rotating blade drive, image collecting device are connected with controlling computer respectively; Image collecting device is connected with rotating disk mechanism, and corresponding setting with the position of burner.

2. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 1, it is characterized in that: described image collecting device comprises CCD camera, high-speed camera instrument, pulsed laser and isochronous controller, described CCD camera is connected on the rotating disk mechanism, and high-speed camera instrument, pulsed laser, isochronous controller are arranged on the outside worktable; Corresponding with the position of the burner respectively setting of the camera of the camera lens of CCD camera, high-speed camera instrument, pulsed laser; Described pulsed laser is connected with isochronous controller, and isochronous controller, CCD camera, high-speed camera instrument are connected with controlling computer respectively.

3. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 2 is characterized in that: described high-speed camera instrument is two, corresponding with the position of burner respectively setting.

4. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 2, it is characterized in that: described rotating disk mechanism comprises rotary case, camera bearing and shaft seating, described camera bearing, shaft seating all are arranged at the center of rotary case, and the camera bearing is connected the upper surface of rotary case, and shaft seating is connected the lower surface of rotary case; The camera bearing is connected with CCD camera in the image collecting device, and shaft seating is connected with rotating shaft.

5. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 4, it is characterized in that: the lower surface of described rotary case is provided with several radially stiffening rib framves and circumferentially stiffening rib frame, described radially stiffening rib frame is along the radially setting of rotary case, and each radially the stiffening rib frame evenly distribute; Described circumferential stiffening rib frame is connected adjacent two radially between the stiffening rib frame.

6. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 4, it is characterized in that: described shaft seating is provided with the rotating shaft mounting hole, and the upper end of described rotating shaft and rotating shaft mounting hole are connected, and its lower end is connected with supporting seat; Described camera bearing is provided with the camera pilot hole, and CCD camera and camera pilot hole in the described image collecting device are connected.

7. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 4 is characterized in that: described rotary case is for circular, and its external diameter is 800～2000mm.

8. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 4, it is characterized in that: described rotating blade drive comprises interconnective frequency-variable controller and adjustable frequency motor, described frequency-variable controller is connected with controlling computer, and described adjustable frequency motor is connected with rotating shaft by shaft coupling.

9. the visualization measurement device of motion burning things which may cause a fire disaster flame front structure according to claim 1, it is characterized in that: described supporting seat comprises last fixed frame, column support, the following fixed frame that connects successively, described column support is several, described disk body mechanism is arranged on the fixed frame, and described rotating blade drive places in the framework that each column support surrounds; Described rotating shaft is passed fixed frame and is connected with described rotating blade drive.

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