CN205308140U - SCR catalyst regeneration production line ultrasonic cleaning pond - Google Patents

Abstract

The utility model belongs to the technical field of SCR catalyst belt cleaning device, concretely relates to SCR catalyst regeneration production line ultrasonic cleaning pond, the cleaning equipment comprises a cleaning pool, the inside upper end in washing pond, lower extreme all be equipped with ultrasonic transducer, rinse the inside lower extreme in pond and still be equipped with the tympanic bulla coil pipe, ultrasonic wave physics cleaning performance is strengthened in the complete SCR catalyst pore of running through of looks pair emission ultrasonic wave, improves and rinses work efficiency, reduces water waste.

Description

A kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond

Technical field

This utility model belongs to SCR catalyst rinser technical field, is specifically related to a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond.

Background technology

The service life of SCR catalyst is shorter, within general about 3 years, is accomplished by changing. Waste flue gas denitration catalyst is except titanium dioxide, vanadic anhydride, Tungstic anhydride., and possibly together with heavy metals such as arsenic, mishandling meeting pollutes transfer. According to " notice about strengthening waste flue gas denitration catalyst supervision " (ring does letter [2014] 990), waste flue gas denitration catalyst (vanadium titanium system) has the hazard properties such as Leaching, use for reference domestic and international management practice, include waste flue gas denitration catalyst (vanadium titanium system) in hazardous waste to be managed, and classified as " other refuses of HW49 " in " register ".

" thermal power plant's nitrogen oxides technological policy for treatment " (environment-development [2010] 10) clearly proposes: decaying catalyst should preferentially carry out Regeneration Treatment, encourage the development and application of the regeneration techniques of low-cost and high-performance decaying catalyst. Instruction in " suggestion about accelerating development energy-conserving and environment-protective industry " that in August, 2013, State Council put into effect " greatly develops denitrating catalyst preparation and regeneration, resource desulfurization technical equipment, accelerate development SCR technology and SNCR technology and equipment thereof ".

Catalyst wash is one of important process in catalyst regeneration techniques, in order to dredge catalyst blockage duct, the pollutant removed on catalyst. Ultrasound wave because of cavitation in a liquid, acceleration effect and direct flow effect to liquid and dirt directly, indirectly act on, make crud layer be disperseed, emulsifying, stripping and reach to clean purpose, be widely used at present in the matting of catalyst. Utilize specific ultrasonic cleaning equipment cleaning catalyst, remove the pollutant on catalyst, the pollutant being attached in catalyst surface and catalyst duct, aperture can be removed to a certain extent, improve waste catalyst physical cleaning efficiency. But, catalyst module sectional dimension (L*W) the about 2000mm*1000mm of existing market, highly (H) is typically in 1000～1500mm, and ultrasonic waves for cleaning radiation scope generally only has 500～600mm, therefore provide in ultrasound wave situation at only one side supersonic generator, be difficult to catalyst complete opening road reaches desirable cleaning performance.

Clean field in SCR catalyst, traditional ultrasonic waves for cleaning mode and device be roughly divided into two kinds i.e. bottom ultrasonic transducer rinser as shown in Figure 3, both sides ultrasonic transducer rinser as shown in Figure 4.As shown in Figure 3, being installed on by ultrasonic transducer bottom service sink, service sink vertically put into by catalyst, and ultrasound wave sends from bottom and from top to bottom catalyst produced cleaning performance along catalyst duct, but ultrasonic waves for cleaning scope only has about the half of catalyst duct, and cleaning performance is not good. the shortcoming not good for improving cleaning performance, also has and designs the ultrasonic cleaning equipment installing two sides ultrasonic transducer at side, ultrasonic waves for cleaning pond right opposite. as shown in Figure 4. in ultrasonic cleaning pond, respectively two pieces of ultrasonic transducers are vertically mounted on the side in ultrasonic cleaning pond, then need to turn over catalyst to be washed turn 90 degrees rear side be put in service sink, two-way ultrasound wave sends from the side respectively and carries out ultrasonic cleaning through catalyst duct, clean range basic covering catalyst complete opening road after the superposition of both sides, improve cleaning performance, but the shortcoming of this cleaning method and device is in that, after catalyst being entered before pond is cleaned and cleaning, catalyst all needs upset once, catalyst is from weighing about 1-1.5 ton, twice upset is wasted time and energy, it is very unfavorable to whole cleaning and regeneration process implementing efficiency. in addition, due under this kind of cleaning way, catalyst needs turnover side to pour in pond, catalyst duct and plane-parallel, decrease the removal effect of dirt gravitational settling in vertical cleaning process, still need to water, catalyst duct is rinsed after cleaning terminates, further increase workload, reduce cleaning efficiency, additionally cause the waste of water resource.

Utility model content

Technical problem to be solved in the utility model is for drawbacks described above, thering is provided a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond, relative transmission ultrasound wave runs through SCR catalyst duct completely, strengthens ultrasound wave physical cleaning effect, improve cleaning efficiency, reduce water resource waste.

The technical scheme that this utility model solves the employing of its technical problem is as follows:

A kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond, including service sink, described service sink inner upper end, lower end are equipped with ultrasonic transducer, service sink interior lower end is additionally provided with bubbling coil pipe, SCR catalyst keep its duct vertical put into service sink, ultrasonic transducer is distributed in the upper and lower both sides of SCR catalyst, the through SCR catalyst duct of ultrasonic wave energy launched, bubbling effect in conjunction with bubbling coil pipe, improve the cleaning performance of SCR catalyst, and avoiding SCR catalyst to overturn, improve cleaning efficiency, what make that SCR catalyst cleans is thorough.

Further, the supersonic generator that described ultrasonic transducer is arranged with service sink is connected, supersonic generator converts the electrical signal to the high-frequency ac signal of telecommunication matched with ultrasonic transducer, drive ultrasonic transducer operating emission ultrasound wave, ultrasound wave cavitation in service sink cleanout fluid, acceleration effect and direct flow effect are direct to liquid and dirt, indirectly act on, crud layer is made to be disperseed, emulsifying, peel off and reach to clean purpose, removal is attached to catalyst surface and catalyst duct, pollutant in aperture, improve waste catalyst physical cleaning efficiency.

Preferably, described ultrasonic transducer is ultrasound wave shake plate, and ultrasound wave shake plate is easy to arrange.

Further, service sink upper end ultrasound wave shake plate is integral slab, ultrasound wave shake plate one end, service sink upper end is flexibly connected with trip shaft with service sink corresponding position, active connection place is provided with and controls the switching mechanism that the ultrasound wave shake plate upset of service sink upper end is opened, service sink lower end ultrasound wave shake plate is positioned at bubbling coil pipe bottom side, the size of integral slab coordinates with service sink, SCR catalyst is covered all during Guan Bi, and be there is ultrasound wave in SCR catalyst region, complete to clean, integral slab simple in construction, it is easily installed, bubbling coil pipe is positioned on the upside of the ultrasound wave shake plate of service sink lower end, ultrasound wave shake project is avoided to ring bubbling effect.

Further, service sink upper end ultrasound wave shake plate includes left side ultrasound wave shake plate, right-side ultrasonic-wave shake plate, left side ultrasound wave shake plate, right-side ultrasonic-wave shake corresponding being flexibly connected with trip shaft with corresponding position, service sink top in plate end, active connection place is equipped with and controls the switching mechanism that left side ultrasound wave shakes plate, right-side ultrasonic-wave shake plate upset is opened, bottom service sink, ultrasound wave shake plate is positioned at bubbling coil pipe bottom side, left side ultrasound wave shake plate, the upset that right-side ultrasonic-wave shake plate is relative are opened, when opening, requisite space is little, it is simple to production operation.

Preferably, described ultrasonic transducer is ultrasound wave shake pipe, service sink top is provided with the cover plate that upset is opened, cover plate is flexibly connected with trip shaft with service sink corresponding position, active connection place is provided with the switching mechanism controlling cover plate upset, service sink upper end ultrasound wave shake pipe is arranged on cover plate internal face, service sink lower end ultrasound wave shake pipe is positioned on the upside of bubbling coil pipe, multiple ultrasound wave shake pipe laid out in parallel, cover SCR catalyst scope, SCR catalyst is carried out the ultrasonic waves for cleaning of up/down perforation, bubbling coil pipe is positioned at ultrasound wave shake pipe bottom side, lower end, spacing between ultrasound wave shake pipe is without influence on the effect of bubbling, ultrasound wave shake pipe is easy to arrange, and it is less to occupy space in service sink.

Further, described switching mechanism includes upset motor, upset motor output shaft and pitch wheel group on trip shaft, and upset motor is arranged on service sink.

Further, described service sink upper side is provided with overfall, the cleanout fluid drain will overflowed when SCR catalyst is put into, it is to avoid waste.

Provide the benefit that acquired by this utility model: adopt such scheme, ultrasonic transducer is arranged on the two ends up and down of service sink opposition, the ultrasonic transducer on service sink top is flexibly connected with service sink, before cleaning, upset is opened, SCR catalyst is vertically put in service sink, need not overturn, SCR catalyst duct is parallel with service sink vertical direction, laborsaving convenient, increase substantially efficiency, top ultrasonic transducer Guan Bi, ultrasound wave launched by upper and lower two ends ultrasonic transducer simultaneously, the ultrasound wave at two ends can run through whole SCR catalyst duct, do not stay dead angle, dirt in SCR catalyst duct is thoroughly peeled off, " bubbling " effect in conjunction with bubbling coil pipe, strengthen cleanout fluid disturbance, thoroughly remove SCR catalyst duct, disperseed by ultrasound wave in aperture, emulsifying, the dirt peeled off, what make that SCR catalyst cleans is more thorough, and owing to SCR catalyst is vertically arranged, the dirt washed out settles under gravity, make the SCR catalyst after cleaning need not rinse with water, reduce the waste of water resource, cleaning efficiency is greatly improved.

Accompanying drawing explanation

By the detailed description below in conjunction with accompanying drawing, this utility model is aforesaid be will become clear from other purpose, feature and advantage.

Fig. 1 is the cross section structure schematic diagram of this utility model embodiment 1.

Fig. 2 is the cross section structure schematic diagram of this utility model embodiment 2.

Fig. 3 is traditional bottom ultrasonic transducer rinser cross section structure schematic diagram.

Fig. 4 is traditional both sides ultrasonic transducer rinser cross section structure schematic diagram.

Wherein: 1 is service sink, 2 shake plate for ultrasound wave, and 2.1 shake plate for left side ultrasound wave, and 2.2 shake plate for right-side ultrasonic-wave, and 3 is bubbling coil pipe, and 4 is trip shaft, and 5 is SCR catalyst.

Detailed description of the invention

Embodiment 1: with reference to a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond shown in 1, including service sink 1, service sink 1 inner upper end, the hyperacoustic ultrasonic transducer of relative transmission that lower end is arranged, ultrasonic transducer is connected with the outside supersonic generator arranged of service sink 1, in order to simplify overall structure, it is easy to manufacture, preferred ultrasonic transducer is overall ultrasound wave shake plate 2, the bottom of service sink 1 is additionally provided with bubbling coil pipe 3, bubbling coil pipe 3 is arranged on the top of ultrasound wave shake plate 2 corresponding bottom service sink 1, ultrasonic waves shake plate 2 and bubbling coil pipe 3 hocket ultrasonic waves for cleaning, pressure pulse cleaning, one end correspondence of service sink 1 upper end ultrasound wave shake plate 2 is flexibly connected with trip shaft 4 with service sink 1 top, trip shaft 4 is fixing with ultrasound wave shake plate 2 end to be connected, service sink 1 top is with bearing and trip shaft 4 clearance fit, corresponding position, service sink 1 top is provided with and controls the switching mechanism that ultrasound wave shake plate 2 upset is opened, switching mechanism includes the upset motor 1.1 being arranged on service sink 1 top, upset motor 1.1 output shaft and pitch wheel group on trip shaft 4, upset motor 1.1 rotates, meshed gears drives ultrasound wave shake plate 2 upset to open, SCR catalyst 5 is vertically put into, the duct of SCR catalyst 5 is parallel with the vertical direction of service sink 1, the relative ultrasound wave shake plate 2 in upper and lower two ends is launched ultrasound wave and can be run through completely in SCR catalyst 5 duct, by SCR catalyst 5 duct, dirt in aperture is disperseed by ultrasound wave, emulsifying, peel off, the bubbling that bubbling coil pipe 3 produces strengthens cleanout fluid disturbance, strengthen the effect that dirt is peeled off, SCR catalyst 5 is made to be cleaned thoroughly, it is vertically arranged, the dirt peeled off settles under gravity, the SCR catalyst 5 cleaned does not need to rinse with water again, save water resource, SCR catalyst 5 is being put into and need not overturn in taking-up process, ultrasound wave shake plate 2 and bubbling coil pipe 3 hocket ultrasonic waves for cleaning, pressure pulse cleaning, significantly improve the efficiency of cleaning, the effect cleaned is obviously enhanced, the upper side of service sink 1 is provided with overfall 1.2, when putting into SCR catalyst 5, the cleanout fluid of spilling is caused circular treatment mechanism, avoid waste.

Embodiment 2: with reference to a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond shown in 2, including service sink 1, service sink 1 inner upper end, the hyperacoustic ultrasonic transducer of relative transmission that lower end is arranged, ultrasonic transducer is connected with the internal supersonic generator arranged of service sink 1, ultrasonic transducer is ultrasound wave shake plate, the bottom of service sink 1 is additionally provided with bubbling coil pipe 3, bubbling coil pipe 3 is arranged on the top of ultrasound wave shake plate 2 corresponding bottom service sink 1, avoid bubbling effect to be shaken plate 2 by the ultrasound wave of lower end to affect, on recycling line, equipment is many, in order to reduce occupying of space, the ultrasound wave shake plate 2 of service sink 1 upper end is split-type structural, including left side ultrasound wave shake plate 2.1, right-side ultrasonic-wave shake plate 2.2, left side ultrasound wave shake plate 2.1, the end of right-side ultrasonic-wave shake plate 2.2 is all flexibly connected with the both sides, top of service sink 1 with trip shaft 4, trip shaft 4 and left side ultrasound wave shake plate 2.1, right-side ultrasonic-wave shake plate 2.2 is fixing to be connected, service sink 1 top is with bearing and trip shaft 4 clearance fit, corresponding position, both sides, service sink 1 top is equipped with control left side ultrasound wave shake plate 2.1, the switching mechanism that right-side ultrasonic-wave shake plate 2.2 is opened relatively, left side ultrasound wave shake plate 2.1, the half that width is service sink 1 width of right-side ultrasonic-wave shake plate 2.2, SCR catalyst 5 can be completely covered during Guan Bi, in the process opened, required space is little, it is easy to operation, switching mechanism includes the upset motor 1.1 being arranged on service sink 1 top, upset motor 1.1 output shaft and pitch wheel group on trip shaft 4, upset motor 1.1 rotates, meshed gears drives left side ultrasound wave shake plate 2.1, right-side ultrasonic-wave shake plate 2.2 overturns relatively to be opened, SCR catalyst 5 is vertically put into, the duct of SCR catalyst 5 is parallel with service sink vertical direction, ultrasonic transducer 2 and bubbling coil pipe 3 hocket ultrasonic waves for cleaning, pressure pulse cleaning, the relative ultrasonic transducer 2 in upper and lower two ends is launched ultrasound wave and can be run through completely in SCR catalyst 5 duct, by SCR catalyst 5 duct, dirt in aperture is disperseed by ultrasound wave, emulsifying, peel off, the bubbling that bubbling coil pipe 3 produces strengthens cleanout fluid disturbance, further enhance the peeling effect of dirt, SCR catalyst 5 is made to be cleaned thoroughly, it is vertically arranged, the dirt peeled off settles under gravity, the SCR catalyst 5 cleaned does not need to rinse with water again, save water resource, SCR catalyst 5 is being put into and need not overturn in taking-up process, opposing upper and lower carry out ultrasonic waves for cleaning, and ultrasonic waves for cleaning and pressure pulse cleaning hocket, significantly improve the efficiency of cleaning, the effect cleaned is obviously enhanced, the upper side of service sink 1 is provided with overfall 1.2, when putting into SCR catalyst 5, the cleanout fluid of spilling is caused circular treatment mechanism, avoid waste, service sink 1 inwall is relative to the Shang Yanchu of bubbling coil pipe 3, it is provided with the support protrusion of carrying SCR catalyst 5, SCR catalyst 5 is avoided directly to contact with bubbling coil pipe 3, ensure the bubbling effect of bubbling coil pipe 3.

Embodiment 3: with reference to a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond shown in 1, including service sink 1, service sink 1 inner upper end, the hyperacoustic ultrasonic transducer of relative transmission that lower end is arranged, ultrasonic transducer is connected with the outside supersonic generator arranged of service sink 1, in order to simplify overall structure, it is easy to manufacture, preferred ultrasonic transducer is overall ultrasound wave shake plate 2, the bottom of service sink 1 is additionally provided with bubbling coil pipe 3, bubbling coil pipe 3 is arranged on the top of ultrasound wave shake plate 2 corresponding bottom service sink 1, one end correspondence of service sink 1 upper end ultrasound wave shake plate 2 is flexibly connected with trip shaft 4 with service sink 1 top, trip shaft 4 is fixing with ultrasound wave shake plate 2 end to be connected, service sink 1 top is with bearing and trip shaft 4 clearance fit, corresponding position, service sink 1 top is provided with and controls the switching mechanism that ultrasound wave shake plate 2 upset is opened, switching mechanism includes the upset motor 1.1 being arranged on service sink 1 top, upset motor 1.1 output shaft and pitch wheel group on trip shaft 4, upset motor 1.1 rotates, meshed gears drives ultrasound wave shake plate 2 upset to open, SCR catalyst 5 is vertically put into, the duct of SCR catalyst 5 is parallel with the vertical direction of service sink 1, the relative ultrasound wave shake plate 2 in upper and lower two ends is launched ultrasound wave and can be run through completely in SCR catalyst 5 duct, by SCR catalyst 5 duct, dirt in aperture is disperseed by ultrasound wave, emulsifying, peel off, the bubbling that bubbling coil pipe 3 produces strengthens cleanout fluid disturbance, strengthen the effect that dirt is peeled off, SCR catalyst 5 is made to be cleaned thoroughly, it is vertically arranged, the dirt peeled off settles under gravity, the SCR catalyst 5 cleaned does not need to rinse with water again, save water resource, SCR catalyst 5 is being put into and need not overturn in taking-up process, ultrasound wave shake plate 2 and bubbling coil pipe 3 hocket ultrasonic waves for cleaning, pressure pulse cleaning, significantly improve the efficiency of cleaning, the effect cleaned is obviously enhanced, and bubbling coil pipe 3 produce bubbling under hyperacoustic effect in service sink any position crush, broken generation shock wave, dirt in SCR catalyst 5 is further impacted by shock wave, the impact of bubbling adds, in conjunction with hyperacoustic impact, the impact that bubbling is broken under hyperacoustic effect, the dirt of attachment in SCR catalyst 5 surface and duct can be peeled off thoroughly, improve the cleaning performance of SCR catalyst 5 further, improve the efficiency of cleaning, the upper side of service sink 1 is provided with overfall 1.2, when putting into SCR catalyst 5, the cleanout fluid of spilling is caused circular treatment mechanism, avoid waste.

Embodiment 4: with reference to a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond shown in 1, including service sink 1, upper end within service sink 1, lower end is provided with the hyperacoustic ultrasonic transducer of generation that can be relative, ultrasonic transducer is connected with the outside supersonic generator arranged of service sink 1, the bottom of service sink 1 is additionally provided with bubbling coil pipe 3, for the ease of arranging, reduce the volume exclusion in service sink 1, ultrasonic transducer is ultrasound wave shake pipe, the ultrasound wave shake pipe of service sink 1 lower end is arranged on the top of bubbling coil pipe 3, ultrasound wave shake pipe can multiple laid out in parallel, to ensure all to cover ultrasonic emitting in the scope of SCR catalyst 5, the top of service sink 1 is provided with the basin lid that upset is opened, basin lid upset is opened, the speed opened is fast, compared to sliding opening or lifting, there is opening speed faster, the saving time, promote the raising of efficiency, basin lid internal face is provided with the ultrasound wave shake pipe of multiple laid out in parallel, ultrasound wave shake pipe is with basin lid synchronizing moving, the upset of service sink 1 basin lid is opened, SCR catalyst 5 is vertically put into, the duct of SCR catalyst 5 is parallel with service sink vertical direction, ultrasound wave launched by the ultrasound wave shake pipe at upper and lower two ends, bubbling coil pipe 3 bubbling, hocket ultrasonic waves for cleaning, pressure pulse cleaning, or ultrasonic waves for cleaning, pressure pulse cleaning is synchronously performed, SCR catalyst 5 duct can be run through by upper and lower two ends relative ultrasound wave completely, by SCR catalyst 5 duct, dirt in aperture is disperseed by ultrasound wave, emulsifying, peel off, the bubbling that bubbling coil pipe 3 produces strengthens cleanout fluid disturbance, SCR catalyst 5 is made to be cleaned thoroughly, and bubbling coil pipe 3 produce bubbling under hyperacoustic effect in service sink any position crush, broken generation shock wave, dirt in SCR catalyst 5 is further impacted by shock wave, the impact of bubbling adds, in conjunction with hyperacoustic impact, the impact that bubbling is broken under hyperacoustic effect, the dirt of attachment in SCR catalyst 5 surface and duct can be peeled off thoroughly, improve the cleaning performance of SCR catalyst 5 further, improve the efficiency of cleaning, it is vertically arranged, the dirt peeled off settles under gravity, the SCR catalyst 5 cleaned does not need to rinse with water again, save water resource, SCR catalyst 5 is being put into and need not overturn in taking-up process, significantly improve the efficiency of cleaning, the effect cleaned is obviously enhanced, the upper side of service sink 1 is provided with overfall 1.2, when putting into SCR catalyst 5, the cleanout fluid of spilling is caused circular treatment mechanism, avoid waste, the internal support protrusion being provided with carrying SCR catalyst 5 of service sink 1, SCR catalyst 5 is avoided directly to contact with ultrasound wave shake pipe, collision free damages together.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to make or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, all in like manner include in scope of patent protection of the present utility model.

Claims (8)

1. a SCR catalyst regeneration production line ultrasonic waves for cleaning pond, including service sink, it is characterised in that: described service sink inner upper end, lower end are equipped with ultrasonic transducer, and service sink interior lower end is additionally provided with bubbling coil pipe.

2. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 1, it is characterised in that: the supersonic generator that described ultrasonic transducer is arranged with service sink is connected.

3. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 1 or 2 any one, it is characterised in that: described ultrasonic transducer is ultrasound wave shake plate.

4. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 3, it is characterized in that: ultrasound wave shake plate in service sink upper end is integral slab, ultrasound wave shake plate one end, service sink upper end is flexibly connected with trip shaft with service sink corresponding position, active connection place is provided with and controls the switching mechanism that the ultrasound wave shake plate upset of service sink upper end is opened, and ultrasound wave shake plate in service sink lower end is positioned at bubbling coil pipe bottom side.

5. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 3, it is characterized in that: ultrasound wave shake plate in service sink upper end includes left side ultrasound wave shake plate, right-side ultrasonic-wave shake plate, left side ultrasound wave shake plate, right-side ultrasonic-wave shake corresponding being flexibly connected with trip shaft with corresponding position, service sink top in plate end, active connection place is equipped with and controls the switching mechanism that left side ultrasound wave shakes plate, right-side ultrasonic-wave shake plate upset is opened, and bottom service sink, ultrasound wave shake plate is positioned at bubbling coil pipe bottom side.

6. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 1 or 2 any one, it is characterized in that: described ultrasonic transducer is ultrasound wave shake pipe, service sink top is provided with the cover plate that upset is opened, cover plate is flexibly connected with trip shaft with service sink corresponding position, active connection place is provided with the switching mechanism controlling cover plate upset, service sink upper end ultrasound wave shake pipe is arranged on cover plate internal face, and ultrasound wave shake pipe in service sink lower end is positioned on the upside of bubbling coil pipe.

7. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 4,5 any one, it is characterized in that: described switching mechanism includes upset motor, upset motor output shaft and pitch wheel group on trip shaft, and upset motor is arranged on service sink.

8. a kind of SCR catalyst regeneration production line ultrasonic waves for cleaning pond according to claim 1, it is characterised in that: described service sink upper side is provided with overfall.