CN108722673A - Load adjustable high frequency electric source debugging simulation electric field - Google Patents

Abstract

The invention discloses a kind of adjustable high frequency electric source debugging simulation electric fields of load, including electric field ontology and tail gas airborne dust circulator；Anode plate arranged in parallel is provided in the electric field ontology, cathode line is arranged in the region between anode plate；The electric field ontology is divided into fixed load area and dynamic load area；The spacing of anode plate in fixed load area immobilizes；Anode plate in dynamic load area uses slidable connection with plate supports beam；The anode plate and cathode line is connected with electric precipitation high frequency electric source；Described tail gas airborne dust circulator one end is connected with the air outlet of electric field ontology, and the other end is connected with the air inlet of electric field ontology.The present invention can be changed full load electric field by anode, cathode structure, can meet the debugging of high frequency electric source electric field simulation, tail gas airborne dust circulator is arranged, and meet power supply operation dedusting simulation.

Description

Load adjustable high frequency electric source debugging simulation electric field

Technical field

The invention belongs to Electrical Dust Precipitation Industry high frequency electric source debugging field more particularly to a kind of adjustable high frequency electric source tune of load Electric field is intended in die trial.

Background technology

The power supply mode of electric precipitation substantially there are three types of：Power frequency supply, high frequency electric source and pulse power power supply.It is now most of Electric dust-removing power supply is all power frequency supply, but power frequency supply generally existing output voltage ripple is big, and grid side harmonic wave is serious, dedusting effect The problems such as rate is low, and high frequency electric source can effectively solve the problems, such as that power frequency supply exists.

High frequency electric source debugging technique scheme uses resistance fictitious load to test substantially both at home and abroad at present, or passes through partial simulation Electric field+resistance fictitious load composite test.

Dalian Ying Bo Ingegneria Ambientale SRL discloses a kind of tune applied and used in electric precipitation field medium-high frequency power supply Electric field arrangement is tried, including：Wall, divider wall, switch board, disconnecting switch, noninductive resistance, arrange, high pressure gauge divider resistance stick, put Acusector and cooling fan；Although the technical solution obtains performance verification to a certain extent, it is unable to get reliability in all directions Safety verification, especially highly reliable safe high-current supply.

Invention content

The purpose of the present invention is to provide a kind of adjustable high frequency electric source debugging simulation electric fields of load, for investigating and debugging The performance of various aspects of the high frequency electric source under more true electric precipitation environment, and the power supply in the case of load change can be studied Energy.Technical scheme is as follows：

Present invention firstly provides a kind of adjustable high frequency electric source debugging simulation electric fields of load, including electric field ontology and tail gas Airborne dust circulator；

The electric field ontology is arranged in enclosing wall body, and the ground in enclosing wall body uses inclined design, sloping floor Low side is equipped with rhone；Anode plate arranged in parallel is provided in the electric field ontology, the region arrangement between anode plate is cloudy Polar curve；The electric field ontology is divided into fixed load area and dynamic load area；The spacing of anode plate in fixed load area immobilizes；It is dynamic Anode plate in load region uses slidable connection with plate supports beam；The anode plate and cathode line and electric precipitation high-frequency electrical Source is connected；Described tail gas airborne dust circulator one end is connected with the air outlet of electric field ontology, the other end and electric field ontology into Air port is connected.

Preferably, the tail gas airborne dust circulator includes circulating line, dust addition mouth and circulating fan；Described Dust is added mouth and is located on circulating line tube wall, and the circulating fan is arranged in circulating line, circulating line one end and electricity The air outlet of field ontology is connected, and the other end is connected with the air inlet of electric field ontology.

Preferably, the pipeline between the circulating fan and air inlet is equipped with flow-disturbing device；The dust is added Mouth is on the circulating line between circulating fan and flow-disturbing device.

Preferably, the simulation electric field further includes spray equipment, and spray equipment is located at electric field bodies top；The spray Shower device includes sink；Bottom of gullet offers trepanning, and sink trepanning is passed through at the top of anode plate；Sink open pore size is more than anode Plate outer diameter, flow are flowed down from anode plate top.

Preferably, the cathode line is prickle wire, anode plate height and cathode line equal length.

Preferably, the cathode line length is 9000mm, pierces spacing 100mm, and the anode plate height is 9000mm, Width is 480mm；Two cathode lines are set between every two pieces of anode plates.

Preferably, the anode plate upper and lower part in the dynamic load area is equipped with trepanning, top crown beam and bottom crown Beam, which is each passed through the trepanning, allows anode plate be translated on beam to adjust pole plate spacing；After anode plate is moved to required position It is positioned by the pole plate locating rod positioned at electric field body bottom portion.

Preferably, the fixed load area and dynamic load area can be independently accessed high frequency electric source and be debugged, and can also connect together Enter high frequency electric source to be debugged, the change of access way is realized by the opening and closing switched.

Preferably, the electric field ontology integrally uses iron shield electric field magnetic field to interfere.

Preferably, it is provided with cooling fan in the electric field ontology.

Compared with prior art, the advantageous effect of present invention is that：

1) full load electric field is built by anode, cathode, the debugging of high frequency electric source electric field simulation can be met, setting tail gas is raised Dirt circulator meets power supply operation dedusting simulation.

2) by the selection or allotment of dust in dust charge door, meet the powder under the parameters such as various concentration, viscosity, granularity Dirt debugging verification.

3) electric field ontology includes fixed load area and dynamic load area；Fixed load and dynamic load are divided into two independent regions.It is fixed The spacing of anode plate in load region immobilizes；Anode plate in dynamic load area uses slidable connection with plate supports beam； Can be moved by the sliding of pole plate, adjust pole plate spacing, realize various electric field poles away from electric field load.

4) by 1 group of+1 group dynamic load negative and positive printed line Combination Design of fixed load, it is 3.0A to meet maximum output secondary current High frequency electric source electric field simulation commissioning test, while can realize 1.0A/100kV or less power supply commissioning tests.

5) simulation test station compensates whole electric field magnetic field using iron shield and interferes, and realizes experiment station's bulk shielding, avoids electricity Source flashover is to external influence.

Description of the drawings

Fig. 1 is the schematic diagram that the present invention loads adjustable electric precipitation high frequency electric source debugging simulation electric field；

Fig. 2 is the electric field body construction schematic diagram (unit mm) in inventive closure wall；

Fig. 3 is electric field body interior structural schematic diagram；

Fig. 4 is the enlarged drawing in the regions I in Fig. 3；

Fig. 5 is the structural schematic diagram of dynamic load area anode plate.

Specific implementation mode

The present invention will be further described With reference to embodiment.

As shown in Figure 1, the adjustable high frequency electric source debugging simulation electric field of the load of the present embodiment, including electric field ontology and tail gas Airborne dust circulator 3；The electric field ontology is arranged in enclosing wall body, and the ground in enclosing wall body uses inclined design, tilts The low side on ground is equipped with rhone 4；Anode plate arranged in parallel, the region between anode plate are provided in the electric field ontology Arrange cathode line；The electric field ontology is divided into fixed load area 1 and dynamic load area 2；The spacing of anode plate in fixed load area is solid It is fixed constant；Anode plate in dynamic load area uses slidable connection with plate supports beam；The anode plate and cathode line and electricity Dedusting high frequency electric source is connected；Described tail gas airborne dust circulator one end is connected with the air outlet of electric field ontology, the other end and electricity The air inlet of field ontology is connected.

In a preferred embodiment, fixed load area 1 and dynamic load area 2 respectively account for the half of electric field body regions, twoth area Domain is independent mutually, and parallel arrangement is in the direction of the air flow.Dismountable air-duct clapboard is provided between load region 1 and dynamic load area 2； Fixed load area 1 and dynamic load area 2 are equipped with valve with air inlet and air outlet connecting place；According to the opening and closing of valve, may be selected to contain Dust and gas body enters fixed load area 1 or dynamic load area 2；Also it can enter fixed load area and dynamic load area simultaneously；As needed, air inlet Gas distributor can also be arranged in place.The fixed load area and dynamic load area can be independently accessed high frequency electric source and be debugged, High frequency electric source can be accessed together to be debugged, the change of access way is realized by the opening and closing switched.

When dusty gas enters between the fixed load area 1 of simulation electric field or the pole plate in dynamic load area 2；Cathode line is discharged, Dust is charged and is accumulated on anode plate；It is consistent with electrostatic precipitation principle to simulate field operation principle, can be removed with real simulation electricity Dirt process.High frequency electric source can be taken liberties with by detecting high frequency electric source primary voltage, primary current, secondary voltage, primary current, also Can to an overcurrent of high frequency electric source, IGBT overcurrent and overheating protections, second open circuit, second short circuit, DC bus-bar voltage it is too low, The protection components such as IGBT radiators and transformer oil overheat, tank pressure is excessively high, secondary under-voltage, flashover exception are debugged.

Gas is recycled after dedusting, tail gas airborne dust circulator 3 for introducing pending gas as experimental gas, Or it introduces dust and is mixed with recyclegas；By the selection of dust or the selection of pending gas, difference can be met Dust debugging verification under the parameters such as concentration, viscosity, granularity.

The simulation electric field of the present invention can be used for the interference solution party under high-frequency power supply circuit structure design, high power high frequency Research, the technical research of voltage signal sampling solution, the fever of storage capacitor and the integrity problem of method solve technical research.

After tested, it is 3.0A high frequency electric source electric field moulds that the simulation electric field of the present embodiment, which can meet maximum output secondary current, Quasi- commissioning test, while can realize 1.0A/100kV or less power supply commissioning tests.

In a preferred embodiment of the invention, spray equipment, spray equipment position is arranged in the electric field bodies top In electric field bodies top；The spray equipment includes sink；Bottom of gullet offers trepanning, is opened across sink at the top of anode plate Hole；Sink open pore size is more than anode plate outer diameter, and flow is flowed down from anode plate top.When needing to clear up electric field ontology When, you can open spray equipment；Electric field ontology is cleaned；Spray equipment can also simulate the case where wet-esp.Isolation Wall bottom uses inclined design, avoids ponding.

As shown in Figure 1, in another specific implementation of the present invention, the tail gas airborne dust circulator includes circulation pipe Mouth and circulating fan is added in road, dust；The dust is added mouth and is located on circulating line tube wall, circulating fan setting In circulating line, circulating line one end is connected with the air outlet of electric field ontology, and the other end is connected with the air inlet of electric field ontology. Pipeline between the circulating fan and air inlet is equipped with flow-disturbing device；The dust be added mouth be located at circulating fan with On circulating line between flow-disturbing device.

It is illustrated in figure 2 a specific layout drawing of the electric field ontology of the present invention, the electric field ontology and isolated wall Between a certain distance is set, the cathode line is prickle wire, anode plate height and cathode line equal length.The cathode Line length is 9000mm, pierces spacing 100mm, and the anode plate height is 9000mm, width 480mm；Every two pieces of anode plates Between be arranged two cathode lines.In a specific embodiment of invention, 414 pieces of anode plate quantity, cathode line quantity 792； 23 row of anode plate (i.e. with 18 pieces of anode arranged plate row for a row), 22 row of corona wire.The cloth of anode plate and cathode line in electric field ontology Set to be changed according to need, be preferred with energy accurate simulation field regime.

As shown in figure 3, the upper and lower ends of the anode plate are attached with top crown beam 17 and bottom crown beam respectively, sun The position of pole plate 11 is positioned by the pole plate locating rod positioned at electric field body lower part, pole plate locating rod by locating rod holder 13 into Row support；Cathode line 12 is connect with cathode sunpender 16, and cathode line upper and lower ends are connected with upper polar curve beam and lower polar curve beam respectively It connects, electric field body lower part is connect by a small screw 14 with bearing porcelain vase 15, wherein small screw and bearing porcelain vase hinge (Fig. 4). Spray equipment can be located at top crown beam top in this embodiment.

As shown in figure 5, the anode plate top in the dynamic load area is equipped with top trepanning 110, lower part is opened equipped with lower part Hole 111, top crown beam and bottom crown beam, which can be each passed through the trepanning, allows anode plate to be moved along Liangping to adjust between pole plate Away from；Anode plate is limited after being moved to required position by the pole plate locating rod positioned at electric field body bottom portion.Transversal in Fig. 5 Omission for indicating anode plate middle section.

Preferably, the electric field ontology integrally uses iron shield electric field magnetic field to interfere.It realizes experiment station's bulk shielding, keeps away Power-free flashover is to external influence.

Preferably, it is provided with cooling fan in the electric field ontology, for strengthening heat dissipation.

The present invention is not limited to above-mentioned preferred forms, anyone can show that other are various under the inspiration of the present invention The product of form, however, make any variation in its shape or structure, it is every that there is skill identical or similar to the present application Art scheme, is within the scope of the present invention.

Claims (10)

1. a kind of adjustable high frequency electric source debugging simulation electric field of load, it is characterised in that recycled including electric field ontology and tail gas airborne dust Device；

The electric field ontology is arranged in enclosing wall body, and the ground in enclosing wall body uses inclined design, the low side of sloping floor Equipped with rhone；Anode plate arranged in parallel is provided in the electric field ontology, cathode line is arranged in the region between anode plate； The electric field ontology is divided into fixed load area and dynamic load area；The spacing of anode plate in fixed load area immobilizes；Dynamic load Anode plate in area uses slidable connection with plate supports beam；The anode plate and cathode line and electric precipitation high frequency electric source phase Even；Described tail gas airborne dust circulator one end is connected with the air outlet of electric field ontology, the air inlet of the other end and electric field ontology It is connected.

2. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the tail gas airborne dust Circulator includes circulating line, dust addition mouth and circulating fan；The dust is added mouth and is located on circulating line tube wall, The circulating fan is arranged in circulating line, and circulating line one end is connected with the air outlet of electric field ontology, the other end and electricity The air inlet of field ontology is connected.

3. electric precipitation high frequency electric source debugging simulation electric field according to claim 2, it is characterised in that the circulating fan Pipeline between air inlet is equipped with flow-disturbing device；Mouth is added between circulating fan and flow-disturbing device in the dust On circulating line.

4. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the simulation electric field Further include spray equipment, spray equipment is located at electric field bodies top；The spray equipment includes sink；Bottom of gullet offers Trepanning, anode plate top pass through sink trepanning；Sink open pore size is more than anode plate outer diameter, and flow is flowed down from anode plate top.

5. electric precipitation high frequency electric source according to claim 1 debugging simulation electric field, it is characterised in that the cathode line is Prickle wire, anode plate height and cathode line equal length.

6. electric precipitation high frequency electric source debugging simulation electric field according to claim 5, it is characterised in that the cathode line length Degree is 9000mm, pierces spacing 100mm, and the anode plate height is 9000mm, width 480mm；Between every two pieces of anode plates Two cathode lines are set.

7. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the dynamic load area Interior anode plate upper and lower part is equipped with trepanning, and top crown beam and bottom crown beam, which are each passed through the trepanning, makes anode plate can be with Translation is to adjust pole plate spacing on beam；Anode plate is moved to behind required position by the pole plate locating rod positioned at electric field body bottom portion It is positioned.

8. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the fixed load area High frequency electric source can be independently accessed with dynamic load area to be debugged, also can access high frequency electric source together is debugged, access way Change and is realized by the opening and closing switched.

9. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the electric field ontology It is whole to be interfered using iron shield electric field magnetic field.

10. electric precipitation high frequency electric source debugging simulation electric field according to claim 1, it is characterised in that the electric field ontology Inside it is provided with cooling fan.