CN201413302Y - Test device for explosion, propagation and explosion suppressed property of inflammable gas and dust - Google Patents

Abstract

The utility model discloses a test device for explosion, propagation and explosion suppressed property of inflammable gas and dust, which comprises an explosion test pipeline, a distribution system and a powder spraying system respectively communicated with the explosion test pipeline, an ignition system for igniting the inflammable gas or the dust introduced into the explosion test pipeline, a data testing and acquiring system and a host computer connected with the data testing and acquiring system; and the data testing and acquiring system comprises a sensor set, a signal conditioner and a dynamic data acquiring and analyzing system which are distributed on the explosion test pipeline. The utility model has reasonable design, simple and convenient operation and use, multiple test functions and good test effect and can effectively solve various practical problems existing in the prior test device.

Description

Inflammable gas, dust explosion, propagation and datonation-inhibition characteristic test device

Technical field

The utility model belongs to inflammable gas or dust explosion, propagation characteristic and datonation-inhibition characteristic technical field, especially relates to a kind of inflammable gas, dust explosion, propagation and datonation-inhibition characteristic test device.

Background technology

At present, mensuration to inflammable gas or dust explosion, propagation characteristic and datonation-inhibition characteristic, the following technical barrier of main existence: the first, the current experiments device is mainly measured the explosion pressure curve in explosion limits and the blast process, then can't more accurately measure temperature in the blast process and flame propagation velocity.The second, the bearing capacity of current experiments device is all less, generally only can carry out the experiment under the normal temperature and pressure, can't finish under high temperature, the high pressure mensuration of all kinds of parameters in the blast process.Three, generally can't realize inflammable gas or Characteristics of Dust Explosion, propagation characteristic and datonation-inhibition characteristic are measured simultaneously with a kind of experimental provision.Four, because in the experimentation, the impermeability of device itself, the homogeneity of distribution and precision are the keys that guarantees the experimental data correctness, also are the difficult points in such experimentation.In addition, the current experiments device generally can't carry out all kinds of explosion tests under the long-pending situation of transfiguration.

The utility model content

Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, a kind of inflammable gas, dust explosion, propagation and datonation-inhibition characteristic test device are provided, it is reasonable in design, manipulate easy and test function is many, good test effect, can effectively solve the existing existing multiple practical problems of experimental provision.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of inflammable gas, dust explosion, propagation and datonation-inhibition characteristic test device is characterized in that: comprise explosion test pipeline, the gas distributing system that communicates with the explosion test pipeline respectively and powder sprinkling system, to feeding firing system, data test acquisition system that inflammable gas in the explosion test pipeline or dust light a fire and the host computer that joins with described data test acquisition system; Described data test acquisition system comprises the sensor groups that is laid on the explosion test pipeline, respectively described sensor groups institute detection signal is amplified the signal conditioner of conditioning and the Dynamic Data Acquiring analytic system of joining with described signal conditioner, and described Dynamic Data Acquiring analytic system connects host computer; Described sensor groups comprises in the experimentation respectively temperature sensor, pressure transducer and the ultraviolet flame detector that temperature, pressure and the flame propagation velocity to the explosion test pipe interior detects in real time; Described gas distributing system comprises air compressor machine, vacuum pump and gas cylinder, all links to each other by pipeline between described air compressor machine, vacuum pump and gas cylinder and the explosion test pipeline; Correspondence is provided with exhausr port, supplies the dust of powder sprinkling system installation and Explosion suppressant to spray all mixed mozzle of interface, distribution and supply described air compressor machine and the air compressor machine interface and the vacuum pump interface of vacuum pump installation on the described explosion test pipeline, and described gas cylinder all mixes mozzle by polycomponent combustibility mixed gas distribution pipeline and described distribution and joins.

Described explosion test pipeline is tightly connected successively by the multistage pipeline and forms.

Have a plurality of differing heights on the flammable mixed gas distribution of the described polycomponent pipeline and supply the air intake opening of the gas feeding of different densities respectively.

The quantity of described temperature sensor, pressure transducer and ultraviolet flame detector is a plurality of, and the three evenly is laid on the explosion test pipeline.

Connect by flange between adjacent two segment pipes in the described multistage pipeline, and each flange connections all adopts German-style metal lensring to seal.

Described explosion test pipeline is provided with one or more spare interface.

Described firing system comprises high-energy igniter and the spark electrode that joins with described high-energy igniter, and spark electrode is installed on the explosion test pipeline.

Described gas distributing system also comprises high accuracy number vacuum manometer and tensimeter, corresponding high accuracy number vacuum manometer and the pressure gauge connection that is provided with for described high accuracy number vacuum manometer and tensimeter installation on the explosion test pipeline.

Described explosion test pipeline carries out support fixation by fixed support, and the explosion test pipeline is that level is to pipeline;

Described distribution all mixes mozzle from left to right through whole explosion test pipeline, and has the venthole in a plurality of different apertures on it continuously.

Described dust and Explosion suppressant spray interface and all mixed mozzle of distribution all is arranged on explosion test pipeline left part, and described exhausr port is arranged on explosion test pipeline right part.

The utility model compared with prior art has the following advantages: 1, can be simultaneously the explosion limits of inflammable gas or dust, explosion pressure, blast temperature and flame propagation velocity etc. in the blast process be measured.2, not only can prepare the test of exploding of normal pressure and high pressure gas sample, also can change the initial temperature test of exploding at the outside additional heating device of explosion test pipeline, the design bearing capacity is 3 0MPa, thereby can carry out the gas under high temperature, the high pressure or all kinds of explosion tests of dust; Can carry out simultaneously the blast test under the datonation-inhibition environment, the datonation-inhibition function of Explosion suppressant is investigated.Measure when 3, can carry out the blast characteristics, detonation propagation characteristic of unit and polynary inflammable gas, inflammable gas and dust or unit and polynary dust and datonation-inhibition characteristic respectively, measure when promptly finishing the blast characteristics, detonation propagation characteristic of inflammable gas or dust and datonation-inhibition characteristic by same experimental provision.4, this experimental provision volume is adjustable, can carry out the above-mentioned all kinds of experiments under three kinds of volumes.5, efficiently solve problems such as the homogeneity of impermeability, distribution of existing experimental provision and precision.In sum, the utility model is reasonable in design, manipulate easy and test function is many, good test effect, can effectively solve the existing existing multiple practical problems of experimental provision.

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

Description of drawings

Fig. 1 is a theory diagram of the present utility model.

Fig. 2 is the structural representation of the utility model explosion test pipeline.

Description of reference numerals:

1-explosion test pipeline; The 1-1-exhausr port; 1-2-dust and Explosion suppressant spray

Spill interface;

1-3-air compressor machine interface; 1-4-vacuum pump interface; The 1-5-polycomponent is flammable to be mixed

Close the gas distribution pipeline;

The 1-6-spare interface; The 1-7-fixed support; The 1-8-distribution all mixes mozzle;

1-9-high accuracy number vacuum is pressed the 2-firing system; The 2-1-spark electrode;

Power meter and pressure gauge connection;

The 3-gas distributing system; 4-powder sprinkling system; The 5-host computer;

The 6-temperature sensor; 6-1-temperature sensor one; 6-2-temperature sensor two;

6-3-temperature sensor three; The 7-pressure transducer; 7-1-pressure transducer one;

7-2-pressure transducer two; 7-3-pressure transducer three; The 8-ultraviolet flame detector;

8-1-ultraviolet flame detector one; The 8-2-ultraviolet flame is surveyed the 8-3-ultraviolet flame detector

Device two; Three;

9-1-signal conditioner one; 9-2-signal conditioner two; 9-3-signal conditioner three;

10-Dynamic Data Acquiring analysis system

System.

Embodiment

As shown in Figure 1 and Figure 2, the utility model comprise explosion test pipeline 1, the gas distributing system 3 that communicates with explosion test pipeline 1 respectively and powder sprinkling system 4, to feeding firing system 2, data test acquisition system that inflammable gas in the explosion test pipeline 1 or dust light a fire and the host computer 5 that joins with described data test acquisition system.Described firing system 2 comprises high-energy igniter and the spark electrode 2-1 that joins with described high-energy igniter, and spark electrode 2-1 is installed on the explosion test pipeline 1.Described explosion test pipeline 1 is tightly connected successively by the multistage pipeline and forms, and it is the main part of whole testing device.In the present embodiment, connect by flange between adjacent two segment pipes in the described multistage pipeline, and each flange connections all adopts German-style metal lensring to seal.

Described data test acquisition system comprises the sensor groups that is laid on the explosion test pipeline 1, respectively described sensor groups institute detection signal is amplified the signal conditioner of conditioning and the Dynamic Data Acquiring analytic system 10 of joining with described signal conditioner, and described Dynamic Data Acquiring analytic system 10 connects host computer 5.Described sensor groups comprises temperature sensor 6, pressure transducer 7 and the ultraviolet flame detector 8 that respectively explosion test pipeline 1 temperature inside, pressure and flame propagation velocity is detected in real time in the experimentation.The quantity of described temperature sensor 6, pressure transducer 7 and ultraviolet flame detector 8 is a plurality of, and the three evenly is laid on the explosion test pipeline 1.In the present embodiment, the quantity of temperature sensor 6, pressure transducer 7 and ultraviolet flame detector 8 is three and be separately positioned on front portion, middle part and the rear portion of explosion test pipeline 1, be specially temperature sensor one 6-1, temperature sensor two 6-2 and temperature sensor three 6-3, pressure transducer one 7-1, pressure transducer two 7-2 and pressure transducer three 7-3, ultraviolet flame detector one 8-1, ultraviolet flame detector two 8-2 and ultraviolet flame detector three 8-3.Correspondingly, the signal conditioner that joins with temperature sensor 6, pressure transducer 7 and ultraviolet flame detector 8 is respectively signal conditioner one 9-1, signal conditioner two 9-2 and signal conditioner three 9-3.

Described gas distributing system 3 comprises air compressor machine, vacuum pump and gas cylinder, all links to each other by pipeline between described air compressor machine, vacuum pump and gas cylinder and the explosion test pipeline 1.

Correspondence is provided with exhausr port 1-1, supplies the dust of powder sprinkling system 4 installations and Explosion suppressant to spray all mixed mozzle 1-8 of interface 1-2, distribution and supply described air compressor machine and the air compressor machine interface 1-3 and the vacuum pump interface 1-4 of vacuum pump installation on the described explosion test pipeline 1, described gas cylinder all mixes mozzle 1-8 by flammable mixed gas distribution pipeline 1-5 of polycomponent and described distribution and joins, and has a plurality of differing heights and supplies the air intake opening of the gas feeding of different densities respectively on the flammable mixed gas distribution of the described polycomponent pipeline 1-5.In the present embodiment, described gas distributing system 3 also comprises high accuracy number vacuum manometer and tensimeter, corresponding high accuracy number vacuum manometer and the pressure gauge connection 1-9 that is provided with for described high accuracy number vacuum manometer and tensimeter installation on the explosion test pipeline 1.In addition, in the present embodiment, described explosion test pipeline 1 is provided with one or more spare interface 1-6.

In the present embodiment, described explosion test pipeline 1 carries out support fixation by fixed support 1-7, and explosion test pipeline 1 is that level is to pipeline; Described dust and Explosion suppressant spray interface 1-2 and all mixed mozzle 1-8 of distribution all is arranged on explosion test pipeline 1 left part, and described exhausr port 1-1 is arranged on explosion test pipeline 1 right part, and spark electrode 2-1 is installed in the center, right part of explosion test pipeline 1.Described distribution all mixes mozzle 1-8 from left to right through whole explosion test pipeline 1, and have the venthole in a plurality of different apertures on it continuously, can make the gas sample of being prepared enter explosion test pipeline 1 inside equably, guarantee that each component gas sample is evenly distributed on the inner space of explosion test pipeline 1 by flows such as each ventholes.

The course of work of the present utility model is: at first, in conjunction with gas distributing system 3, the preparation of the flammable combination gas sample that utilizes branchs platen press to experimentize to test required component, concentration in the process for preparation, is guaranteed the distribution precision with described high accuracy number vacuum manometer, tensimeter and high-air-tightness distribution pipeline.During concrete distribution, according to concrete test needs, needed multiple different densities inflammable gas is entered the distribution pipeline by the air intake opening that is arranged on a plurality of differing heights on the flammable mixed gas distribution of the polycomponent pipeline 1-5 respectively, then all mix mozzle 1-8 and enter explosion test pipeline 1 inside, make each component gas be evenly distributed on the inner chamber of explosion test pipeline 1 by the distribution of joining with the flammable mixed gas distribution of polycomponent pipeline 1-5.To sum up, all mix the even mixing that mozzle 1-8 can guarantee flammable each component of combination gas sample by flammable mixed gas distribution pipeline 1-5 of polycomponent and distribution.During test, in the time of testing dust explosion as if need, then need high pressure dust storage tank is attached to dust and Explosion suppressant sprinkling interface 1-2, can realize the preparation of explosive dust cloud.

Secondly, after flammable combination gas sample preparation was finished, opening point ignition system 2 was ignited inflammable gas or dust by the high-voltage arc of spark electrode 2-1; Simultaneously, Dynamic Data Acquiring analytic system 10 with temperature sensor 6, pressure transducer 7 and the real-time data acquisition of testing of ultraviolet flame detector 8 three class sensors, be stored to host computer 5, and draw out the time dependent curve of each detected parameters by host computer 5.Experiment test can be pressed into air by described air compressor machine from air compressor machine interface 1-3 after finishing repeatedly, orders about residual gas and discharges by exhausr port 1-1.

In the experiment test, can prepare the test of exploding of normal pressure and high pressure gas sample, also can change the initial temperature test of exploding at explosion test pipeline 1 outside additional heating device.Simultaneously, can spray interface 1-2 by dust and Explosion suppressant and spray into Explosion suppressant (gas, water smoke and powder etc.), carry out the blast test under the datonation-inhibition environment, characterize datonation-inhibition effect by indexs such as explosion pressure, temperature and flame propagation velocities equally, and then investigate the Explosion suppressant datonation-inhibition function.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of technical solutions of the utility model according to the utility model technical spirit.

Claims (10)

1. an inflammable gas, dust explosion, propagation and datonation-inhibition characteristic test device is characterized in that: comprise explosion test pipeline (1), the gas distributing system (3) that communicates with explosion test pipeline (1) respectively and powder sprinkling system (4), to feeding firing system (2), data test acquisition system that inflammable gas in the explosion test pipeline (1) or dust light a fire and the host computer (5) that joins with described data test acquisition system; Described data test acquisition system comprises the sensor groups that is laid on the explosion test pipeline (1), respectively described sensor groups institute detection signal is amplified the signal conditioner of conditioning and the Dynamic Data Acquiring analytic system (10) of joining with described signal conditioner, and described Dynamic Data Acquiring analytic system (10) connects host computer (5); Described sensor groups comprises temperature sensor (6), pressure transducer (7) and the ultraviolet flame detector (8) that respectively explosion test pipeline (1) temperature inside, pressure and flame propagation velocity is detected in real time in the experimentation; Described gas distributing system (3) comprises air compressor machine, vacuum pump and gas cylinder, all links to each other by pipeline between described air compressor machine, vacuum pump and gas cylinder and the explosion test pipeline (1); Described explosion test pipeline (1) goes up that correspondence is provided with exhausr port (1-1), the dust installed for powder sprinkling system (4) and Explosion suppressant spray interface (1-2), distribution and all mix mozzle (1-8) and meet (1-4) for air compressor machine interface (1-3) and vacuum pump that described air compressor machine and vacuum pump are installed, and described gas cylinder joins by flammable mixed gas distribution pipeline of polycomponent (1-5) and all mixed mozzle (1-8) of described distribution.

2. according to the described inflammable gas of claim 1, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: described explosion test pipeline (1) is tightly connected successively by the multistage pipeline and forms.

3. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: have a plurality of differing heights on the flammable mixed gas distribution pipeline of described polycomponent (1-5) and supply the air intake opening of the gas feeding of different densities respectively.

4. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: the quantity of described temperature sensor (6), pressure transducer (7) and ultraviolet flame detector (8) is a plurality of, and the three evenly is laid on the explosion test pipeline (1).

5. according to the described inflammable gas of claim 2, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: connect by flange between adjacent two segment pipes in the described multistage pipeline, and each flange connections all adopts German-style metal lensring to seal.

6. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: described explosion test pipeline (1) is provided with one or more spare interface (1-6).

7. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: the spark electrode (2-1) that described firing system (2) comprises high-energy igniter and joins with described high-energy igniter, spark electrode (2-1) is installed on the explosion test pipeline (1).

8. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: described gas distributing system (3) also comprises high accuracy number vacuum manometer and tensimeter, and explosion test pipeline (1) is gone up correspondence and is provided with high accuracy number vacuum manometer and the pressure gauge connection (1-9) that supplies described high accuracy number vacuum manometer and tensimeter to install.

9. according to claim 1 or 2 described inflammable gass, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: described explosion test pipeline (1) carries out support fixation by fixed support (1-7), and explosion test pipeline (1) is that level is to pipeline;

Described distribution all mixes mozzle (1-8) from left to right through whole explosion test pipeline (1), and has the venthole in a plurality of different apertures on it continuously.

10. according to the described inflammable gas of claim 9, dust explosion, propagation and datonation-inhibition characteristic test device, it is characterized in that: described dust and Explosion suppressant spray interface (1-2) and all mixed mozzle (1-8) of distribution all is arranged on explosion test pipeline (1) left part, and described exhausr port (1-1) is arranged on explosion test pipeline (1) right part.

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