CN209707305U - A kind of heat-resistance type superfine particulate matter grain size grading detection device - Google Patents

Abstract

The utility model relates to a kind of heat-resistance type superfine particulate matter grain size grading detection devices.Detection device includes the charged module of heatproof, grain size grading detection module and main control module.The charged module of heatproof includes the charged shell of heatproof, corona needle assemblies, sheath gas shielded cover and metal Loadings On Hemispherical Shell.Grain size grading detection module includes grain size grading test chamber, top electrode, lower electrode, the first porous plate, the second porous plate, heatproof Faraday cup shell and porous metal electrode.Main control module includes amplifier, electrometer, controller, scanning voltage module, corona voltage module and heatproof vacuum pump module.The utility model can make up for it the deficiency of existing high temperature superfine particulate matter measuring technique, especially can solve existing measuring device structure is complicated, direct-on-line measurement that is bulky and cannot achieve high temperature superfine particulate matter Size the problem of.

Description

A kind of heat-resistance type superfine particulate matter grain size grading detection device

Technical field

The utility model relates to high temperature stationary sources and moving source superfine particulate matter multi-step detection of moving field, and in particular to one Kind heat-resistance type superfine particulate matter grain size grading detection device.

Background technique

Recently as the continuous rising of the level of economic development, air pollution situation constantly deteriorates, and people are gradually sight Invest atmosphere pollution field.Control atmosphere pollution, most important or source emission reduction.Wherein, Combustion Source superfine particulate matter discharges Control have become one of the major tasks of current atmospheric pollution prevention.

Under normal temperature environment in terms of the method for measuring of superfine particulate matter particle diameter distribution, it is classified in the world frequently with electromigration Method.Electromigration stage division is according to the inconsistent particle to differentiate different-grain diameter of the electromobility of different-grain diameter particle, then It is finally inversed by particle concentration size according to the carried charge of detection, in principle without Monitoring lower-cut.

Currently, existing superfine particulate matter particles diameter measuring device, generallys use concentric circles pillar DMA electromigration classification dress It sets, which requires processing and assembly precision high, and certain system parameter deviation will lead to that diffusion coefficient becomes larger, partial size is differentiated The problems such as rate reduces, and need when carrying out high temperature superfine particulate matter partial size spectrometry to cool to the dilution of sample gas 50 DEG C hereinafter, It may result in the growth of particulate matter coalescence, to reduce the Surveying Actual Precision of Size, cannot achieve high temperature ultra-fine grain The direct-on-line of object Size measures.In addition, for superfine particulate matter there are significant diffusion effect, particulate matter is charged under hot environment With the correlation of electromigration characteristic and particle diameter distribution there is also it is indefinite the problems such as.

Utility model content

The purpose of this utility model is to provide a kind of heat-resistance type superfine particulate matter grain size grading detection device, detection dresses The deficiency that can make up for it existing high temperature superfine particulate matter measuring technique is set, especially can solve existing measuring device, structure is complicated, body The problem of product is huge and cannot achieve the measurement of the direct-on-line of high temperature superfine particulate matter Size.

To achieve the above object, the utility model uses following technical scheme:

A kind of heat-resistance type superfine particulate matter grain size grading detection device, including the charged module of heatproof and grain size grading detect mould Block.

The corona pin group that the charged module of heatproof includes the charged shell of heatproof, is mounted on the inside of the charged housing bottom of heatproof Part, the sheath gas shielded cover being located on the outside of corona needle assemblies and the metal hemispherical Shell being mounted at the charged shell upper end opening of heatproof Body；Charged sample gas air inlet is offered at the top of the metal Loadings On Hemispherical Shell；The bottom of the charged shell of heatproof offers Equally gas gas outlet；The lower end of the sheath gas shielded cover offers charged sheath gas air inlet, offers at the top of sheath gas shielded cover Charged sheath gas gas outlet；The corona needle assemblies include being mounted on heatproof collets on the inside of the charged housing bottom of heatproof, installation Copper post on heatproof collets and the corona pin for being mounted on copper post top.

The grain size grading detection module includes grain size grading test chamber, setting on grain size grading test chamber middle section top Top electrode on portion's inner wall and be arranged in the bottom interior wall of grain size grading test chamber middle section and with the setting of top electrode face Lower electrode；The first porous plate set gradually from outside to inside is mounted on inside the left and right ends of the grain size grading test chamber With the second porous plate；First porous plate and the second porous plate include porous plate main body and are provided in porous plate main body Several equally distributed ventholes；The left and right ends of the grain size grading test chamber are the tubaeform of outer narrow inner width；It is described Grain size grading test chamber, middle section top offer the sample gas air inlet being connected with the first sample gas gas outlet, middle section bottom Portion offers classification sample gas gas outlet, and left end offers sheath gas air inlet, and right end offers sheath gas gas outlet；The partial size The bottom of hierarchical detection cavity is equipped with the heatproof Faraday cup shell being located at immediately below classification sample gas gas outlet；The resistance to warm therapy Draw the enclosure interior that porous metal electrode is installed, the bottom of heatproof Faraday cup shell offers the second sample gas gas outlet.

The device further includes main control module；The main control module includes amplifier, electrometer, controller, scanning electricity Die block, corona voltage module and heatproof vacuum pump module；The input of the amplifier terminates porous metal electrode, output termination The input terminal of electrometer；The input terminal of the output termination controller of the electrometer；The output end of the controller connects respectively to be swept Retouch the input terminal of voltage module, the input terminal of corona voltage module, heatproof vacuum pump module input terminal；The scanning voltage mould The output end of block connects electrode and lower electrode respectively；The output of the corona voltage module terminates copper post；The heatproof vacuum pump The output end of module connects charged sheath gas air inlet, sheath gas air inlet and sheath gas gas outlet respectively.

Further, the charged shell of the heatproof, sheath gas shielded cover, grain size grading test chamber, the first porous plate, second The material of porous plate and heatproof Faraday cup shell is aluminium oxide ceramics.The top electrode and lower electrode are all made of thick film ceramic Processing technology preparation, the two are separately positioned on the two sides up and down of grain size grading test chamber middle section inner wall and opposition setting.Wherein, Thick film ceramic processing technology machined electrode is that the slurry modulated is printed in substrate, is finally sintered using ceramic wafer as substrate Form thick film, i.e., upper and lower electrode herein.

Further, the spacing of first porous plate and the second porous plate is 1~20mm；Second porous plate with it is upper The horizontal spacing of electrode or lower electrode is 1~20mm；The aperture of the venthole is 0.5~5mm.

Further, the metal Loadings On Hemispherical Shell is the hollow hemisphere body that Open Side Down, and its internal-and external diameter and heatproof are charged The internal-and external diameter of shell is equal；Metal Loadings On Hemispherical Shell ground connection.

Further, the upper end of the sheath gas shielded cover is up-narrow and down-wide tubaeform.

Further, the corona pin is individually placed, and the material of corona pin is tungsten, copper, any one in stainless steel, electricity The needle point radius of curvature having a fainting spell during acupuncture treatment is 10~50mm.

Further, the porous metal electrode uses the expanded metal of foam metal material preparation；The foam gold The resistivity for belonging to material is lower than 3.5 × 10^-8Ω·m；The foam metal material includes silver, red copper, gold；The foam metal material The void density of material is 20~150.

Compared to the prior art, the utility model has the following beneficial effects:

(1) the utility model is added using alumina ceramic material as the insulating materials in device, and using thick film ceramic Work technique processes upper and lower electrode on grain size grading test chamber, 800 DEG C of high temperature is resistant to, in the same of the testing requirements that reach a high temperature When do not increase manufacture craft difficulty.

(2) when the grain size grading detection module of the utility model detects under high temperature environment, superfine particulate matter one is heated again Raw, achievable automatically cleaning avoids the blocking for causing porous plate.

(3) left and right ends of grain size grading test chamber are designed to the tubaeform of outer narrow inner width by the utility model, and The first porous plate and the second porous plate of setting aluminium oxide ceramics material, greatly increase on the inside of the middle section of grain size grading test chamber The stability and uniformity of sheath gas air-flow, improves the hierarchical detection efficiency of superfine particulate matter.

(4) structure of the detecting device described in the utility model is simple, small in size, it can be achieved that up to 800 DEG C of high temperature stationary sources With the superfine particulate matter hierarchical detection of moving source.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of detection device in the utility model；

Fig. 2 is the side view of the first porous plate in the utility model；

Fig. 3 is the side view of the second porous plate in the utility model；

Fig. 4 is the side view of porous metal electrode in the utility model.

Wherein:

1, the charged module of heatproof, 11, the charged shell of heatproof, 12, heatproof collets, 13, copper post, 14, corona pin, 15, sheath Gas shielded cover, 16, metal Loadings On Hemispherical Shell, 17, charged sheath gas air inlet, 18, charged sheath gas gas outlet, 191, charged sample gas air inlet Mouthful, the 192, first sample gas gas outlet, 2, grain size grading detection module, 21, top panel, 22, lower panel, 23, horn mouth, 24, the One porous plate, the 25, second porous plate, 261, sheath gas air inlet, 262, sheath gas gas outlet, 263, sample gas air inlet, 264, classification Sample gas gas outlet, 27, top electrode, 28, lower electrode, 291, heatproof Faraday cup shell, 292, porous metal electrode, 293, second Sample gas gas outlet, 3, main control module, 31, amplifier, 32, electrometer, 33, controller, 34, scanning voltage module, 35, corona Voltage module, 36, heatproof vacuum pump module.

Specific embodiment

The utility model is described further with reference to the accompanying drawing:

A kind of heat-resistance type superfine particulate matter grain size grading detection device as shown in Figure 1, including the charged module 1 of heatproof, grain Radial sector detection module 2 and main control module 3.

The charged module 1 of heatproof includes the charged shell 11 of heatproof, the electricity for being mounted on charged 11 bottom inside of shell of heatproof It has a fainting spell during acupuncture treatment and component, the sheath gas shielded cover 15 that is located on the outside of corona needle assemblies and is mounted at charged 11 upper end opening of shell of heatproof Metal Loadings On Hemispherical Shell 16.The top of the metal Loadings On Hemispherical Shell 16 offers charged sample gas air inlet 191.The charged shell of heatproof The bottom of body 11 offers the first sample gas gas outlet 192.The insertion of sheath gas shielded cover 15 is mounted in charged 11 inner cavity of shell of heatproof. The cross section in the region between the charged shell 11 of heatproof and sheath gas shielded cover 15 is annular, and the first sample gas gas outlet is provided with The bottom of the annular region, and its quantity is symmetrically arranged two, can guarantee the uniformity of air-flow flowing in this way.The sheath The lower end of gas shielded cover 15 offers charged sheath gas air inlet 17, and the top of sheath gas shielded cover 15 offers charged sheath gas gas outlet 18.The corona needle assemblies include the heatproof collets 12 for being mounted on charged 11 bottom inside of shell of heatproof, to be mounted on heatproof exhausted Copper post 13 on edge block 12 and the corona pin 14 for being mounted on 13 top of copper post.Sheath gas shielded cover 15 plays the guarantor to corona needle assemblies Shield effect.When sheath gas enters sheath gas shielded cover 15 from charged sheath gas air inlet 17 with certain flow rate, then by charged sheath gas gas outlet 18 outflows, mix with sample gas.The flow velocity for setting sheath gas Yu sample gas may be prevented from sample gas and enter the pollution corona of sheath gas shielded cover 15 Needle.Meanwhile sheath gas shielded cover 15 can also prevent the mixed gas in annular region from entering, and corona pin 15 is prevented to be contaminated.

Further, the metal Loadings On Hemispherical Shell 16 is the hollow hemisphere body that Open Side Down, and its internal-and external diameter and heatproof lotus The internal-and external diameter of electric shell 11 is equal, i.e. metal Loadings On Hemispherical Shell 16 and the charged shell 11 of heatproof is tangent.Metal Loadings On Hemispherical Shell 16 connects Ground.Metal Loadings On Hemispherical Shell 16 is located at the upper outer of charged sheath gas gas outlet 18.Metal Loadings On Hemispherical Shell 16 is compared to cylindrical shell Body, inner wall is rounder and more smooth, helps to reduce particle loss (particle in air-flow can collide inner wall and cause damages).Meanwhile metal The round and smooth inner wall of Loadings On Hemispherical Shell facilitates mixed gas and flows to annular region from 15 upper end of sheath gas shielded cover.

Further, the upper end of the sheath gas shielded cover 15 is up-narrow and down-wide tubaeform.Up-narrow and down-wide tubaeform have Help the aggregation of inner sheath gas, mixed in 15 upper end of sheath gas shielded cover with sample gas, while it is dirty to prevent sample gas from entering sheath gas shielded cover 15 Contaminate corona pin 14.

Further, the corona pin 14 is individually placed, and the material of corona pin 14 is tungsten, copper, any one in stainless steel Kind, the needle point radius of curvature of corona pin 14 is 10~50mm.The needle point of corona pin 14 is located at charged sheath gas gas outlet 18.Corona Region around 14 needle point of needle is charged region.

The grain size grading detection module 2 includes grain size grading test chamber.The grain size grading test chamber includes just To the middle interval for the upper surface of being arranged and being parallel to each other plate 21 and lower panel 22 and be connected between top panel 21 and lower panel 22 Plate.Top panel 21, lower panel 22 and intermediate bulkhead surround the cavity of left and right ends opening, open in the left and right ends of the cavity A horn mouth 23 is separately installed at mouthful.The horn mouth 23 is the tubaeform of outer narrow inner width, that is, will by horn mouth 23 The left and right ends of grain size grading test chamber are designed as the tubaeform of outer narrow inner width.The tubaeform of outer narrow inner width enters left end Sheath gas air-flow lenitively enters grain size grading test chamber, rather than abruptly enters a biggish sky by a lesser space Between, help to improve the uniformity of sheath gas air-flow.The bottom of the top panel 21 is equipped with top electrode 27.The lower panel 22 Top is equipped with lower electrode 28.The top electrode 27 is arranged with lower 28 face of electrode.The top electrode 27 and lower electrode 28 are adopted It is prepared with thick film ceramic processing technology.It is mounted on from outside to inside inside the left and right ends of the grain size grading test chamber The first porous plate 24 and the second porous plate 25 set gradually.The insertion of first porous plate 24 is mounted in horn mouth 23.Institute The second porous plate 25 is stated to be vertically mounted between top panel 21 and lower panel 22.The horn mouth 23 uses aluminium oxide ceramics inclined plate Preparation.Sheath gas air-flow by that can improve the uniformity of sheath gas air-flow with several porous plates for being uniformly distributed venthole again.If Meter two porous plates can either have the function that double raising uniformity, and will not make partial size point because porous plate quantity is excessive Air pressure inside grade test chamber increases, and influences air-flow velocity.First porous plate designs in horn mouth, can combine horn mouth With the structure feature of porous plate, the uniformity of sheath gas air-flow is further increased.But consider the totality of grain size grading detection module Size, horn mouth size should not be too large, therefore design second block of porous plate and be vertically mounted between top panel and lower panel, also make sheath Gas air-flow passes through the second porous plate before entering electric field region, improves airflow homogeneity again.

Further, as shown in Figures 2 and 3, first porous plate 24 and the second porous plate 25 are all made of porous oxidation The preparation of aluminium ceramic wafer.First porous plate 24 and the second porous plate 25 include porous plate main body and are provided with porous plate main body On several equally distributed ventholes.The venthole includes m row, n column, by the central point line of the venthole of every a line, By the central point line of the venthole of each column, this two lines is perpendicular, and the central point line of the venthole of each row is mutual In parallel, the central point line of the venthole respectively arranged is also parallel to each other.By the way that equally distributed venthole is arranged, air-flow can be improved Uniformity, so that it is eventually become laminar flow.Briefly, i.e., by the way that after porous plate, one every little airflow will mutual equideparture Row flowing, therefore the venthole on porous plate will mutual equidistant parallel.

First porous plate is straight quadrangular shape, and the bottom surface of this cube is isosceles trapezoid.First porous plate 24 and second porous plate 25 be rectangular-shape.Horn mouth 23 is equipped with the notch being adapted with the first porous plate 24, convenient for the One porous plate 24 is installed therein.The spacing of first porous plate 24 and the second porous plate 25 is 1~20mm；More than described second The horizontal spacing of orifice plate 25 and top electrode 27 or lower electrode 28 is 1~20mm；The aperture of the venthole is 0.5~5mm.It is comprehensive Consider grain size grading detection device the size of each part and overall dimension, designs spacing between each plate.Venthole aperture is too small to be made Air pressure increases in grain size grading test chamber, influences air-flow velocity, conference is crossed in aperture makes uniformity be deteriorated.It is finally selected in conjunction with experience Determine value range.

The grain size grading test chamber, middle section top offer the sample gas being connected with the first sample gas gas outlet 192 Air inlet 263, middle section bottom offer classification sample gas gas outlet 264, and left end offers sheath gas air inlet 261, right end Offer sheath gas gas outlet 262.Sample gas air inlet 263, classification sample gas gas outlet 264 are connected with the inner cavity of grain size grading cavity It is logical.Sample gas air inlet 263 is provided on top panel 21, and is located on the inside of the left end of top electrode 27.It opens classification sample gas gas outlet 264 It is located on lower panel 22 and is located on the inside of the right end of lower electrode 28.Sheath gas air inlet 261 is the bell-mouthed left end opening in left side. Sheath gas gas outlet 262 is the bell-mouthed right-end openings in right side.Sheath gas enters in the horn mouth of left side from sheath gas air inlet, successively After first porous plate in left side and the second porous plate, enters in the electric field between upper and lower electrode, then pass sequentially through again It after second porous plate and the first porous plate on right side, is flowed out from sheath gas gas outlet, the sheath gas after outflow is passed into sheath gas air inlet again It is recycled at mouthful.

The bottom of the grain size grading test chamber is equipped with the heatproof farad being located at immediately below classification sample gas gas outlet 264 Glass shell body 291.Heatproof Faraday cup shell 291 is mounted on the bottom of lower panel 22.In the heatproof Faraday cup shell 291 Portion is equipped with porous metal electrode 292, and the bottom of heatproof Faraday cup shell 291 is offered with classification sample gas gas outlet 264 just To the second sample gas gas outlet 293 of setting.

As shown in figure 4, the porous metal electrode 292 includes the fixation being connected with 291 inner wall of heatproof Faraday cup shell The electrode among fixed disc is arranged in disk and insertion.The porous metal electrode 292 is prepared using foam metal material Expanded metal；The resistivity of the foam metal material is lower than 3.5 × 10^-8Ω·m；The foam metal material includes Silver, red copper, gold；The void density of the foam metal material is 20~150.

As shown in Figure 1, the main control module 3 includes amplifier 31, electrometer 32, controller 33, scanning voltage module 34, corona voltage module 35 and heatproof vacuum pump module 36.The input of the amplifier 31 terminates porous metal electrode 292, defeated The input terminal of electrometer 32 is terminated out；The input terminal of the output termination controller 33 of the electrometer 32；The controller 33 Output end connects the input terminal of scanning voltage module 34, the input terminal of corona voltage module 35, heatproof vacuum pump module 36 respectively Input terminal；The output end of the scanning voltage module 34 connects electrode 27 and lower electrode 28 respectively；The corona voltage module 35 Output terminate copper post 13；The output end of the heatproof vacuum pump module 36 connects charged sheath gas air inlet 17, sheath gas air inlet respectively Mouth 261 and sheath gas gas outlet 262.

Further, the charged shell of the heatproof, sheath gas shielded cover, grain size grading test chamber, the first porous plate, second The material of porous plate and heatproof Faraday cup shell is aluminium oxide ceramics.The top electrode and lower electrode are all made of thick film ceramic Processing technology preparation, the two are separately positioned on the two sides up and down of grain size grading test chamber middle section inner wall and opposition setting.Wherein, Thick film ceramic processing technology machined electrode is that the slurry modulated is printed in substrate, is finally sintered using ceramic wafer as substrate Form thick film, i.e., upper and lower electrode herein.

Embodiment described above is only that preferred embodiments of the present invention are described, not practical to this Novel range is defined, and under the premise of not departing from the spirit of the design of the utility model, those of ordinary skill in the art are to this The various changes and improvements that the technical solution of utility model is made should all fall into the protection that the utility model claims book determines In range.

Claims (8)

1. a kind of heat-resistance type superfine particulate matter grain size grading detection device, it is characterised in that: including the charged module of heatproof and partial size Hierarchical detection module；

The charged module of heatproof include the charged shell of heatproof, the corona needle assemblies being mounted on the inside of the charged housing bottom of heatproof, The metal Loadings On Hemispherical Shell for being located at the sheath gas shielded cover on the outside of corona needle assemblies and being mounted at the charged shell upper end opening of heatproof； Charged sample gas air inlet is offered at the top of the metal Loadings On Hemispherical Shell；The bottom of the charged shell of heatproof offers the first sample Gas gas outlet；The lower end of the sheath gas shielded cover offers charged sheath gas air inlet, offers at the top of sheath gas shielded cover charged Sheath gas gas outlet；The corona needle assemblies include be mounted on heatproof collets on the inside of the charged housing bottom of heatproof, be mounted on it is resistance to Copper post on warm collets and the corona pin for being mounted on copper post top；

In the grain size grading detection module includes grain size grading test chamber, is arranged at the top of grain size grading test chamber middle section Top electrode on wall and lower electricity in the bottom interior wall of grain size grading test chamber middle section and with the setting of top electrode face is set Pole；The first porous plate set gradually from outside to inside and are mounted on inside the left and right ends of the grain size grading test chamber Two porous plates；First porous plate and the second porous plate include porous plate main body and are provided with several in porous plate main body Equally distributed venthole；The left and right ends of the grain size grading test chamber are the tubaeform of outer narrow inner width；The partial size Hierarchical detection cavity, middle section top offer the sample gas air inlet being connected with the first sample gas gas outlet, and middle section bottom is opened Equipped with classification sample gas gas outlet, left end offers sheath gas air inlet, and right end offers sheath gas gas outlet；The grain size grading The bottom of test chamber is equipped with the heatproof Faraday cup shell being located at immediately below classification sample gas gas outlet；The heatproof faraday Cup enclosure interior is equipped with porous metal electrode, and the bottom of heatproof Faraday cup shell offers the second sample gas gas outlet.

2. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: the dress Setting further includes main control module；The main control module includes amplifier, electrometer, controller, scanning voltage module, corona electricity Die block and heatproof vacuum pump module；The input of the amplifier terminates porous metal electrode, the input of output termination electrometer End；The input terminal of the output termination controller of the electrometer；The output end of the controller connects scanning voltage module respectively Input terminal, the input terminal of corona voltage module, heatproof vacuum pump module input terminal；The output end of the scanning voltage module point Electrode and lower electrode are not connected；The output of the corona voltage module terminates copper post；The output end of the heatproof vacuum pump module Charged sheath gas air inlet, sheath gas air inlet and sheath gas gas outlet are connect respectively.

3. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described The charged shell of heatproof, sheath gas shielded cover, grain size grading test chamber, the first porous plate, the second porous plate and heatproof Faraday cup The material of shell is aluminium oxide ceramics；The top electrode and lower electrode are all made of the preparation of thick film ceramic processing technology, the two point The two sides up and down of grain size grading test chamber middle section inner wall and opposition setting are not set.

4. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described The spacing of first porous plate and the second porous plate is 1~20mm；Between second porous plate and top electrode or the transverse direction of lower electrode Away from for 1~20mm；The aperture of the venthole is 0.5~5mm.

5. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described Metal Loadings On Hemispherical Shell is the hollow hemisphere body that Open Side Down, and the internal-and external diameter of its internal-and external diameter and the charged shell of heatproof is equal；Gold Belong to Loadings On Hemispherical Shell ground connection.

6. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described The upper end of sheath gas shielded cover is up-narrow and down-wide tubaeform.

7. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described Corona pin is individually placed, and the material of corona pin is tungsten, copper, any one in stainless steel, and the needle point radius of curvature of corona pin is 10~50mm.

8. a kind of heat-resistance type superfine particulate matter grain size grading detection device according to claim 1, it is characterised in that: described Porous metal electrode uses the expanded metal of foam metal material preparation；The resistivity of the foam metal material is lower than 3.5 ×10^-8Ω m, void density are 20~150.