CN109333826A - Mixer with dust pelletizing system - Google Patents

Abstract

The invention relates to the technical field of mixers, in particular to a mixer with a dust removal system, which comprises a mixer body with the dust removal system and a wet dust remover arranged on the mixer body, wherein the wet dust remover comprises an atomization spraying system, a fan system and a gas-water separation system, the atomization spraying system comprises a water tank, a water pump and a first nozzle which are sequentially connected through a water pipe, the fan system comprises a fan, the steam-water separation system comprises a dust collection box, an exhaust pipe and a drain outlet, one end of the exhaust pipe penetrates through the upper end of the dust collection box, the drain outlet is located at the lower end opening of the dust collection box, the inner wall of the exhaust pipe and the inner wall of the dust collection box are arranged in a tangent mode, and the other end of the exhaust pipe extends to the 1/4-2/3 height of the dust collector. The stirrer with the dust removal system is provided with the dust removal system, and is energy-saving and environment-friendly.

Description

Blender with dust pelletizing system

Technical field

The present invention relates to blender technical fields, remove more particularly to included dust pelletizing system, energy-saving and environment-friendly have The blender of dirt system.

Background technique

Concrete mixing plant is always to perplex the problem of manufacturer and user for the disposition of dust pollution, in atmosphere dirt Dye problem increasingly severe today it is extremely urgent to eliminate concrete mixing plant dust pollution.The dust pelletizing system that mixing plant is equipped with Being not thorough in terms of dust processing causes the shortening of mixing plant Production Life, concrete processing cost is promoted and atmosphere is dirty The problems such as dye, existing blender generate position not to cause dust due to the difference of agitating mode in whipping process Certainty, mixing plant are mostly the unified cleaners of setting to eliminate the dusty gas that contains of entire mixing plant, but for stirring The cleaner of machine then vacancy always, blender is as the main output equipment containing dusty gas, for the dedusting of this equipment Measure excessively lags.

Summary of the invention

The present invention solves the technical issues of existing blender is without dust-extraction unit, pollution environment, and provides a kind of carry and remove Dirt system, the energy-saving and environment-friendly blender with dust pelletizing system.

The technical scheme adopted by the invention is that:

A kind of blender with dust pelletizing system, the blender with dust pelletizing system include blender ontology and blender sheet The wet scrubber being arranged on body, the wet scrubber include atomizing sprinkling system, blower fan system and steam-water separation system, institute State atomizing sprinkling system include by water pipe connect water pump and first jet, the blower fan system include blower, air inlet pipe and Escape pipe, the steam-water separation system include disposal box, exhaust pipe and sewage draining exit, and the first jet is set to the air inlet pipe Interior, the first jet is atomization conical nozzle, and the quantity of the first jet is at least one, the air inlet pipe and described Escape pipe is the hollow tubular structure of both ends open, and one end of the air inlet pipe is connected with the air inlet of the blower, institute The one end for stating escape pipe is connected with the air outlet of the blower, the top phase of the other end of the escape pipe and the disposal box Even, the disposal box is in the hollow barrel-type structure of upper end closed, lower ending opening, and the sewage draining exit is located at the lower end of the disposal box Opening, the other end of the escape pipe and the inner wall on the top of the disposal box are tangentially-arranged, and the exhaust pipe is opened in both ends The hollow tubular structure of mouth, one end run through the upper end of the disposal box and are connected with the disposal box, and the other end extends to institute It states at 1/4 to 2/3 height of disposal box, the direction and the air inlet of the other end of the air inlet pipe of the jet port of the first jet Direction is identical.

The disposal box including barrel and is set to cylinder in the hollow pyramidal structure of upper end closed, lower ending opening Cone portion below portion.

The first jet is set to the port of the other end of the air inlet pipe and is located on the center line of the air inlet pipe.

The quantity of the first jet is multiple and is sequentially arranged along the center line of the air inlet pipe.

It is provided with second nozzle in the escape pipe, the second nozzle passes through the first water pipe and the water pump and described the The pipeline section of the water pipe between one nozzle is connected, and the second nozzle is atomization conical nozzle, and the number of the second nozzle Amount be at least one, the second nozzle be set to the escape pipe close to the blower air outlet one end port and On the center line of the escape pipe, the direction and the outlet of the other end of the escape pipe of the jet port of the second nozzle Direction is identical.

The quantity of the second nozzle is multiple and is sequentially arranged along the center line of the escape pipe.

The exhaust pipe is straight pipe.

The operating pressure of the water pump is 1-7MPa.

The blower is centrifugal blower.

The center line of the exhaust pipe and the center line of the disposal box coincide.

The blender ontology is continuous mixer, and the upper cover of cylinder is mixed corresponding to the discharge port of the blender ontology On be provided with first through hole, the other end of the air inlet pipe is connected with the first through hole.

The blender ontology is continuous mixer, and dust dress is provided with beside the discharge port of the blender ontology It sets, which is polyhedral structure, and the dust collect plant is close to the side of the discharge port of the blender ontology and this The adjacent bottom surface in side is open, and the other end of the air inlet pipe is connected with the dust collect plant.

Be provided with the second through-hole on the upper lid for mixing cylinder beside the feed inlet of the blender ontology, the air inlet pipe it is another One end is connected with second through-hole and the dust collect plant.

Third through-hole, the sewage draining exit and institute are provided on the upper lid for mixing cylinder beside the feed inlet of the blender ontology Third through-hole is stated to be connected.

The blender ontology is periodic blender, is provided with water metering device, the water on the blender ontology The first water pump and filler pipe are provided on metering device, the water metering device is additionally provided with water gage probe, described plus water Pipe is detachably connected to the sewage draining exit, and water level limit sensors are provided on the disposal box, are provided on the sewage draining exit The butterfly valve to match with the water level limit sensors, the water level limit sensors include under water level upper limit sensor and water level Sensor is limited, the sewage outfalls setting is above the water metering device.

Fourth hole, the fourth hole circle are provided on the upper lid for mixing cylinder beside the feed inlet of the blender ontology Flexible cloth bag, rigid backbone, the other end of the air inlet pipe and institute built in the flexibility cloth bag are riveted on the upper lid of circumferential direction Flexible cloth bag is stated to be connected.

The beneficial effects of the present invention are:

1. wet scrubber is set on blender, it can be generated containing dusty gas progress in process of production by mixture Absorption processing solves the pollution problem containing dusty gas to air from source, reduces the workload of cleaner in mixing plant；

2. first jet is atomization conical nozzle, the direction of jet port is identical as the airintake direction of the other end of air inlet pipe, first The water mist that nozzle sprays is in space cone, can be realized and is atomized to 360 ° containing dusty gas without dead angle, increases gas containing dust The mixing velocity of body and water mist, and then the power consumption of blower is greatly lowered；

3. disposal box is located at the lower ending opening of disposal box in the hollow barrel-type structure of upper end closed, lower ending opening, sewage draining exit, out The tangent setting of inner wall on the top of the inner wall and disposal box of tracheae, exhaust pipe are in the hollow tubular structure of both ends open, one end Through disposal box upper end and with disposal box be connected, the other end extend to dust arrester 1/4 to 2/3 height locate, prevented contain powder The phenomenon that gas of dirt and the mixture of water mist just from exhaust pipe are directly discharged to atmosphere in the case where not being completely segregated, Meanwhile the effective use volume of disposal box is also increased, the swabbing action of blower makes in negative pressure in air inlet pipe, and exhaust pipe will collect Dirt case is connected so that in positive pressure in disposal box with atmosphere, and the water mist sprayed with first jet containing dusty gas is mixed to be mixed Object is entered in disposal box after being accelerated by blower by escape pipe, and containing the dust particles in dusty gas, rear quality increases in conjunction with water mist Add, wash away dust chamber interior wall along dust chamber interior wall tangential direction under the influence of centrifugal force, form swirling eddy in disposal box, The waste water containing dusty gas after in conjunction with water mist is agglomerated into the bigger water droplet of quality again on dust chamber interior wall, in gravity It is flowed to below disposal box under effect along dust chamber interior wall, the clean air after mist purification then relies on the positive pressure in disposal box By emission by exhaust pipe into atmosphere, high dust collection efficiency；

4. first jet is set to the port of the other end of air inlet pipe and is located on the center line of air inlet pipe, first jet is ejected The cone water mist come can cover the cross section of entire air inlet pipe, containing dusty gas and water mist in the port of the other end of air inlet pipe It begins to mix, this gives containing incorporation time longer between dusty gas and water mist, has reached preferable mixed effect, together When, water mist with containing dusty gas mix after into escape pipe traveling process to air inlet tube wall generation souring, avoid and contain Dust in dusty gas is adhered on the tube wall of air inlet pipe, reduces running resistance and wind containing dusty gas in air inlet pipe The loss of machine guarantees the service life of deduster；

5. the quantity of first jet is that multiple and along air inlet pipe center lines are sequentially arranged, realize containing dusty gas and water mist It is sufficiently mixed, substantially reduces the dust concentration containing dusty gas, achieved the effect that preferable eliminate gathers clustering phenomena, first The installation number of nozzle can also be chosen according to specific requirements；

6. the operating pressure of water pump is 1-7MPa, atomizing sprinkling system has certain pressure, and the water mist ejected is made to radiate model Enclose big, atomizing effect is good, while it is clean to play the role of strong flushing to air inlet pipe, dust chamber interior wall, reduces dedusting The daily cleaning maintenance work of device；

7. being provided with second nozzle in escape pipe, second nozzle passes through the water pipe between the first water pipe and water pump and first jet Pipeline section is connected, and second nozzle is atomization conical nozzle, and the quantity of second nozzle is at least one, and second nozzle is set to outlet Pipe close to the blower air outlet one end port and be located at escape pipe center line on, the jet port of second nozzle Towards identical as the outgassing direction of the other end of escape pipe, to by first jet with containing the mixed mixture of dusty gas into Row secondary spraying improves the mixed effect containing dusty gas and water mist；

8. blender ontology is continuous mixer, mixes corresponding to the discharge port of blender ontology and be provided with the on the upper lid of cylinder The other end of one through-hole, air inlet pipe is connected with first through hole, and in running, mixture persistently stirs continuous mixer, The position where first through hole on the corresponding upper lid for mixing cylinder of discharge port is the position concentrated containing dusty gas in whipping process It sets, the other end of air inlet pipe is connected with first through hole, can be realized optimal dust removing effects；

9. blender ontology is continuous mixer, there is dust collect plant beside the discharge port of blender ontology, the dust collect plant For polyhedral structure, and dust collect plant is open close to the side of the discharge port of the blender ontology bottom surface adjacent with the side, The other end of air inlet pipe is connected with dust collect plant, due to continuous mixer continued operation, easily causes to contain at discharge port A large amount of aggregations of dusty gas, on the side of discharge port, installation dust collect plant can be collected to containing dusty gas, then be passed through Air inlet pipe enters wet scrubber and is eliminated；

10. blender ontology is periodic blender, it is provided with water metering device on blender ontology, is arranged on water metering device There are the first water pump and filler pipe, water metering device is additionally provided with water gage probe, and filler pipe is detachably connected to sewage draining exit, collection It is provided with water level limit sensors on dirt case, the butterfly valve to match with water level limit sensors, water level limit are provided on sewage draining exit Level sensor includes water level upper limit sensor and water level lower limited sensor, and sewage outfalls setting is stirring above water metering device The course of work of wet scrubber can be controlled the intelligence control system for being incorporated to mixing plant when operating by machine ontology, realize automation The waste water containing dust of operation, the discharge of disposal box sewage draining exit is flow in water metering device, enters blender sheet by the first water pump In vivo for stirring next time, recycling for waste water of the realization containing dust is energy saving；

11. blender ontology is periodic blender, it is provided with fourth hole on the upper lid for mixing cylinder beside feed inlet, the 4th Flexible cloth bag, rigid backbone built in flexible cloth bag, the other end and flexibility of air inlet pipe are riveted on the upper lid of through-hole circumferencial direction Cloth bag is connected, and in running, all mixture raw materials are disposably put into periodic blender, are contained caused by these raw materials Dusty gas has upward impact force, and the rigid backbone arranged in flexible cloth bag is conducive to branch of the flexible cloth bag in negative pressure Support, flexible cloth bag are absorbing when containing dusty gas, can play the role of buffering containing impact force caused by dusty gas these, together When, it prevents the large volume containing dusty gas from distributing, is effectively collected to containing dusty gas, more conducively disappearing containing dusty gas It removes.

In short, the blender provided by the invention with dust pelletizing system has the advantages that included dust pelletizing system, energy conservation and environmental protection.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the embodiment 1 of the blender of the present invention with dust pelletizing system；

Fig. 2 is the structural schematic diagram of the wet scrubber in the embodiment 1 of the blender of the present invention with dust pelletizing system；

Fig. 3 is the structural schematic diagram of the embodiment 2 of the blender of the present invention with dust pelletizing system；

Fig. 4 is the structural schematic diagram of the wet scrubber in the embodiment 2 of the blender of the present invention with dust pelletizing system；

Fig. 5 is the structural schematic diagram of the embodiment 3 of the blender of the present invention with dust pelletizing system；

Fig. 6 is the structural schematic diagram of the wet scrubber in the embodiment 3 of the blender of the present invention with dust pelletizing system.

In figure: 1, blender ontology；101, first through hole；102, the second through-hole；103, third through-hole；104, four-way Hole；2, wet scrubber；3, water pipe；4, water pump；5, first jet；6, blower；601, air inlet；602, air outlet；7, air inlet Pipe；8, escape pipe；9, disposal box；901, barrel；902, cone portion；10, exhaust pipe；11, sewage draining exit；1101, butterfly valve；12, Second nozzle；13, the first water pipe；14, dust collect plant；15, flexible cloth bag；16, water metering device；1601, the first water pump； 1602, filler pipe.

Specific embodiment:

Embodiment 1

As depicted in figs. 1 and 2, pacify on a kind of blender with dust pelletizing system, including blender ontology 1 and blender ontology 1 The wet scrubber 2 of dress, in the present embodiment, blender ontology 1 is continuous mixer, and wet scrubber 2 includes atomizing spray System, blower fan system and steam-water separation system, atomizing sprinkling system include the water pump 4 and first jet 5 connected by water pipe 3, Wherein, the operating pressure of water pump 4 is 2MPa, and first jet 5 is atomization conical nozzle, and its quantity is one, blower fan system packet Include blower 6, air inlet pipe 7 and escape pipe 8, air inlet pipe 7 and escape pipe 8 are the hollow tubular structure of both ends open, blower 6 be from Heart blower, flanged joint between one end of air inlet pipe 7 and the air inlet 601 of blower 6, one end of escape pipe 8 and the outlet air of blower 6 Flanged joint between mouth 602, first jet 5 are installed in air inlet pipe 7, and the end of its other end for being specifically mounted on air inlet pipe 7 Mouth position is simultaneously located on the center line of air inlet pipe 7, the direction of the jet port of first jet 5 and the air inlet of the other end of air inlet pipe 7 Direction is identical, and so as to form " fair current " injection, steam-water separation system includes disposal box 9, exhaust pipe 10 and sewage draining exit 11, escape pipe 8 other end and the top of disposal box 9 are welded, hollow barrel-type structure of the disposal box 9 in upper end closed, lower ending opening, sewage draining exit 11 are located at the lower ending opening of disposal box 9, and the inner wall of escape pipe 8 and the inner wall on the top of disposal box 9 are tangent, and exhaust pipe 10 is in two The hollow tubular structure of end opening and be straight pipe, one end through disposal box 9 upper end and with disposal box 9 weld, the other end It extends at 1/4 height of disposal box 9, the center line of exhaust pipe 10 is overlapped with the center line of disposal box 9, in blender ontology 1 Discharge port corresponding to mix on the upper lid of cylinder and have first through hole 101, be equipped on the upper lid of 101 circumferencial direction of first through hole Flange, the other end of air inlet pipe 7 are equipped with the method to match with the flange installed on the upper lid of 101 circumferencial direction of first through hole Orchid, first through hole 101 and the other end of air inlet pipe 7 realize the connection that is connected of the two by flange arrangement, blender ontology 1 There is third through-hole 103 on the upper lid for mixing cylinder beside feed inlet, the end of sewage draining exit 11 is welded with connecting pipe, the connecting pipe The other end extend in third through-hole 103, to realize that being connected for both sewage draining exit 11 and third through-hole 103 connect.

When specifically used, power on for blender ontology 1 and wet scrubber 2, blender ontology 1, wet scrubber 2 Blower 6 and water pump 4 start to work, water pump 4 extract mixing plant water source be air inlet pipe 7 in first jet 5 supply water, blower 6 By being extracted out containing dusty gas by first through hole 101 in blender ontology 1 and out of the other end of air inlet pipe 7 sucking air inlet pipe 7, The water mist sprayed through first jet 5 by escape pipe 8 enters disposal box 9 after being sufficiently mixed acceleration therewith, and the swabbing action of blower 6 makes Obtaining is in negative pressure in air inlet pipe 7, and disposal box 9 is connected so that in positive pressure in disposal box 9 by exhaust pipe 10 with atmosphere, contains dusty gas The mixed mixture of water mist sprayed with first jet 5 is entered in disposal box 9 after being accelerated by blower 6 by escape pipe 8, contains powder Dust particles rear quality increase in conjunction with water mist in dust and gas body, under the influence of centrifugal force along 9 inner wall tangential direction of disposal box Wash away 9 inner wall of disposal box, form swirling eddy in disposal box 9, in conjunction with water mist after the waste water containing dusty gas in dust The bigger water droplet of quality is agglomerated on 9 inner wall of case again, flows to 9 lower section of disposal box along 9 inner wall of disposal box under gravity Stirring for subsequent mixture raw material inside blender ontology 1 is drained by connecting pipe and third through-hole 103 by sewage draining exit 11 Process is mixed, the clean air after mist purification then relies on the positive pressure in disposal box 9 to be emitted into atmosphere by exhaust pipe 10.

Embodiment 2

As shown in Figure 3 and Figure 4, pacify on a kind of blender with dust pelletizing system, including blender ontology 1 and blender ontology 1 The wet scrubber 2 of dress, in the present embodiment, blender ontology 1 is continuous mixer, and wet scrubber 2 includes atomizing spray System, blower fan system and steam-water separation system, atomizing sprinkling system include the water pump 4 and first jet 5 connected by water pipe 3, Wherein, the operating pressure of water pump 4 is 7MPa, and first jet 5 is atomization conical nozzle, and its quantity is three, blower fan system packet Include blower 6, air inlet pipe 7 and escape pipe 8, air inlet pipe 7 and escape pipe 8 are the hollow tubular structure of both ends open, blower 6 be from Heart blower, flanged joint between one end of air inlet pipe 7 and the air inlet 601 of blower 6, one end of escape pipe 8 and the outlet air of blower 6 Flanged joint between mouth 602, first jet 5 are installed in air inlet pipe 7, and the end of its other end for being specifically mounted on air inlet pipe 7 Mouthful position is simultaneously sequentially arranged on the center line of air inlet pipe 7, the direction of the jet port of first jet 5 and the other end of air inlet pipe 7 Airintake direction it is identical, so as to form " fair current " injection, second nozzle 12 is installed in escape pipe 8, second nozzle 12 passes through the One water pipe 13 is connected with the pipeline section of the water pipe 3 between water pump 4 and first jet 5, and second nozzle 12 is atomization conical nozzle, and its Quantity is one, and second nozzle 12 is specifically mounted on the port position of one end of the air outlet 602 of the close blower 6 of escape pipe 8 And it is located on the center line of escape pipe 8, the direction and the outgassing direction phase of the other end of escape pipe 8 of the jet port of second nozzle 12 Together, steam-water separation system includes disposal box 9, exhaust pipe 10 and sewage draining exit 11, the top of the other end and disposal box 9 of escape pipe 8 Welding, disposal box 9 including barrel 901 and are shaped in cylinder in the hollow pyramidal structure of upper end closed, lower ending opening The cone portion 902 of 901 lower section of portion, sewage draining exit 11 are located at the lower ending opening of disposal box 9, inner wall and the disposal box 9 of escape pipe 8 The inner wall on top is tangent, and exhaust pipe 10 is in the hollow tubular structure of both ends open and is straight pipe, and one end is through disposal box 9 Upper end is simultaneously welded with disposal box 9, and the other end extends at 2/3 height of disposal box 9, the center line and disposal box 9 of exhaust pipe 10 Center line be overlapped, be welded with dust collect plant 14 beside the discharge port of blender ontology 1, which is hexahedron knot Structure, and dust collect plant 14 is open close to the side of the discharge port of blender ontology 1 bottom surface adjacent with the side, blender sheet There are the second through-hole 102, the other end of air inlet pipe 7 and the second through-hole 102 and dust on the upper lid for mixing cylinder beside the feed inlet of body 1 Device 14 is connected by tee tube, which includes three root canal roads, wherein one end of first pipe is another with air inlet pipe 7 The end thread of one end connects, the through-hole circumference side reserved on the side of the non-opening of one end and dust collect plant 14 of second pipe To dust collect plant 14 weld, the upper cover of one end of third pipeline and 102 circumferencial direction of the second through-hole is welded, three root canal roads it is another One end is converged to three-way fitting, realizes what the other end of air inlet pipe 7 was connected with the second through-hole 102 and dust collect plant 14 with this Connection relationship has third through-hole 103, the end weldering of sewage draining exit 11 on the upper lid for mixing cylinder beside the feed inlet of blender ontology 1 It is connected to connecting pipe, the other end of the connecting pipe extends in third through-hole 103, to realize sewage draining exit 11 and third through-hole Both 103 connection that is connected.

When specifically used, power on for blender ontology 1 and wet scrubber 2, blender ontology 1, wet scrubber 2 Blower 6 and water pump 4 start to work, water pump 4 extract mixing plant water source be air inlet pipe 7 in first jet 5 and escape pipe 8 in Second nozzle 12 supply water, blower 6 will be taken out containing dusty gas by the second through-hole 102 and dust collect plant 14 in blender ontology 1 Out and from the other end of air inlet pipe 7 sucking air inlet pipe 7 in, the water mist sprayed through first jet 5 be sufficiently mixed therewith acceleration after by Escape pipe 8 enters disposal box 9, in water mist and the process for entering disposal box 9 by escape pipe 8 containing the mixed mixture of dusty gas In, water mist that the second nozzle 12 in escape pipe 8 is gushed out carries out secondary spraying effect to mixture, make containing dusty gas with Reach better mixed effect between water mist, the swabbing action of blower 6 makes in air inlet pipe 7 in negative pressure, and exhaust pipe 10 is by dust Case 9 is connected with atmosphere so that in positive pressure in disposal box 9, the water mist sprayed containing dusty gas and first jet 5 is mixed mixed Close object by blower 6 accelerate after by escape pipe 8 enter disposal box 9 in during carried out again with second nozzle 12 it is secondary mix, Containing the dust particles in dusty gas, rear quality increases in conjunction with water mist, under the influence of centrifugal force along 9 inner wall tangent line of disposal box 9 inner wall of disposal box is washed away in direction, forms swirling eddy in disposal box 9, in conjunction with water mist after the waste water containing dusty gas exist The bigger water droplet of quality is agglomerated on 9 inner wall of disposal box again, flows to disposal box 9 along 9 inner wall of disposal box under gravity Lower section is drained into inside blender ontology 1 by connecting pipe and third through-hole 103 for subsequent mixture raw material by sewage draining exit 11 Whipping process, the clean air after mist purification then relies on the positive pressure in disposal box 9 to be emitted into atmosphere by exhaust pipe 10 In.

Embodiment 3

As shown in Figure 5 and Figure 6, pacify on a kind of blender with dust pelletizing system, including blender ontology 1 and blender ontology 1 The wet scrubber 2 of dress, in the present embodiment, blender ontology 1 is periodic blender, and wet scrubber 2 includes atomizing spray System, blower fan system and steam-water separation system, atomizing sprinkling system include the water pump 4 and first jet 5 connected by water pipe 3, Wherein, the operating pressure of water pump 4 is 5MPa, and first jet 5 is atomization conical nozzle, and its quantity is two, blower fan system packet Include blower 6, air inlet pipe 7 and escape pipe 8, air inlet pipe 7 and escape pipe 8 are the hollow tubular structure of both ends open, blower 6 be from Heart blower, flanged joint between one end of air inlet pipe 7 and the air inlet 601 of blower 6, one end of escape pipe 8 and the outlet air of blower 6 Flanged joint between mouth 602, first jet 5 are installed in air inlet pipe 7, and the end of its other end for being specifically mounted on air inlet pipe 7 Mouthful position is simultaneously sequentially arranged on the center line of air inlet pipe 7, the direction of the jet port of first jet 5 and the other end of air inlet pipe 7 Airintake direction it is identical, so as to form " fair current " injection, second nozzle 12 is installed in escape pipe 8, second nozzle 12 passes through the One water pipe 13 is connected with the pipeline section of the water pipe 3 between water pump 4 and first jet 5, and second nozzle 12 is atomization conical nozzle, and its Quantity is two, and second nozzle 12 is specifically mounted on the port position of one end of the air outlet 602 of the close blower 6 of escape pipe 8 And it is sequentially arranged on the center line of escape pipe 8, the direction of the jet port of second nozzle 12 and the outlet of the other end of escape pipe 8 Direction is identical, and steam-water separation system includes disposal box 9, exhaust pipe 10 and sewage draining exit 11, the other end and disposal box 9 of escape pipe 8 Top welding, disposal box 9 in upper end closed, lower ending opening hollow pyramidal structure, including barrel 901 and be integrally formed Cone portion 902 in 901 lower section of barrel, sewage draining exit 11 are located at the lower ending opening of disposal box 9, the inner wall and collection of escape pipe 8 The inner wall on the top of dirt case 9 is tangent, and exhaust pipe 10 is in the hollow tubular structure of both ends open and is straight pipe, and one end is through collection The upper end of dirt case 9 simultaneously with disposal box 9 weld, the other end extend to disposal box 9 1/3 height locate, the center line of exhaust pipe 10 and The center line of disposal box 9 is overlapped, and is equipped with water metering device 16 on blender ontology 1, is equipped with first on water metering device 16 Water pump 1601 and filler pipe 1602, filler pipe 1602 are connected with sewage draining exit 11 by pipeline, and water metering device 16 is also equipped Water gage probe is equipped with water level limit sensors on disposal box 9, is equipped on sewage draining exit 11 and water level limit sensors phase Matched butterfly valve 1101, water level limit sensors include water level upper limit sensor and water level lower limited sensor, and sewage draining exit 11 is located at Above water metering device 16, there are fourth hole 104, fourth hole on the upper lid for mixing cylinder beside the feed inlet of blender ontology 1 Flexible cloth bag 15 is riveted on the upper lid of 104 circumferencial directions, flexible cloth bag 15 is built-in with rigid backbone, the other end of air inlet pipe 7 It is connected with flexible cloth bag 15 by flange arrangement and is connect.

When specifically used, power on for blender ontology 1 and wet scrubber 2, by the course of work of wet scrubber 1 Control is incorporated to the intelligence control system of mixing plant, and blender ontology 1, the blower 6 of wet scrubber 2 and water pump 4 are started to work, water Pump 4 extracts the water source of mixing plant and supplies water for the second nozzle 12 in the first jet 5 and escape pipe 8 in air inlet pipe 7, and blower 6 will Being extracted out containing dusty gas by fourth hole 104 and being inhaled by flexible cloth bag 15 from the other end of air inlet pipe 7 in blender ontology 1 Enter in air inlet pipe 7, the water mist sprayed through first jet 5 be sufficiently mixed therewith acceleration after by escape pipe 8 enter disposal box 9, in water Mist with disposal box 9 is entered by escape pipe 8 containing dusty gas mixed mixture during, second nozzle in escape pipe 8 12 water mists to be gushed out carry out secondary spraying effect to mixture, make to mix containing reaching better between dusty gas and water mist Effect, the swabbing action of blower 6 make in flexible cloth bag 15 and air inlet pipe 7 in negative pressure, and exhaust pipe 10 is by disposal box 9 and atmosphere It is connected so that in positive pressure in disposal box 9, the mixed mixture of water mist sprayed containing dusty gas and first jet 5 passes through wind Machine 6 accelerate after by escape pipe 8 enter disposal box 9 in during carried out again with second nozzle 12 it is secondary mix, contain dusty gas In dust particles in conjunction with water mist rear quality increase, wash away collection along 9 inner wall tangential direction of disposal box under the influence of centrifugal force 9 inner wall of dirt case, forms swirling eddy in disposal box 9, in conjunction with water mist after the waste water containing dusty gas in 9 inner wall of disposal box On be agglomerated into the bigger water droplet of quality again, flow to the lower section of disposal box 9, sewage draining exit along 9 inner wall of disposal box under gravity For the butterfly valve 1101 installed on 11 in a closed condition by storage of waste water in disposal box 9, the cleaning after mist purification is empty Gas then relies on the positive pressure in disposal box 9 to be emitted into atmosphere by exhaust pipe 10, the water when the storage capacity of waste water reaches the water level upper limit Position upper limit sensor issues warning signal, and wet scrubber 2 stops working, and checks the failure cause of wet scrubber 2 at this time, and When exclude, machine ontology 1 to be mixed stops after stirring and drawing off mixture, opened butterfly valve 1101, and the waste water in disposal box 9 passes through Filler pipe 1602 is fallen into inside water metering device 16, is opened the first water pump 1601, waste water is flow in blender ontology 1 and by stirring The discharge port discharge of machine ontology 1 is mixed, water level lower limited sensor issues signal when the storage capacity of waste water reaches water level lower limit, closes Butterfly valve 1101；After blender ontology 1 completes a whipping process, butterfly valve 1101 is opened, the waste water in disposal box 9 passes through Filler pipe 1602 is fallen into inside water metering device 16, water needed for the water to store in water metering device 16 meets a whipping process When amount, the water gage probe installed on water metering device 16 just issues signal, after next whipping process starts, the first water Pump 1601 is started to work, and will be used to stir use inside the water pump in water metering device 16 to blender ontology 1, is realized and is contained dust Waste water recycle.

The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair The equivalent structure or equivalent flow shift that bright specification and accompanying drawing content are done is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (16)

1. a kind of blender with dust pelletizing system, it is characterised in that: the blender with dust pelletizing system includes blender The wet scrubber being arranged on ontology and blender ontology, the wet scrubber include atomizing sprinkling system, blower fan system and Steam-water separation system, the atomizing sprinkling system include the water pump and first jet connected by water pipe, the blower fan system packet Blower, air inlet pipe and an air outlet pipe are included, the steam-water separation system includes disposal box, exhaust pipe and sewage draining exit, the first jet It being set in the air inlet pipe, the first jet is atomization conical nozzle, and the quantity of the first jet is at least one, The air inlet pipe and the escape pipe are the hollow tubular structure of both ends open, one end of the air inlet pipe and the blower Air inlet is connected, and one end of the escape pipe is connected with the air outlet of the blower, the other end of the escape pipe and institute The top for stating disposal box is connected, and the disposal box is in the hollow barrel-type structure of upper end closed, lower ending opening, and the sewage draining exit is located at At the lower ending opening of the disposal box, the other end of the escape pipe and the inner wall on the top of the disposal box are tangentially-arranged, institute The hollow tubular structure that exhaust pipe is in both ends open is stated, one end runs through the upper end of the disposal box and consolidates with the disposal box Even, the other end extend to the disposal box 1/4 to 2/3 height locate, the jet port of the first jet towards with it is described into The airintake direction of the other end of tracheae is identical.

2. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the disposal box presents end seal It closes, the hollow pyramidal structure of lower ending opening, including barrel and the cone portion being set to below barrel.

3. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the first jet is set to institute It states the port of the other end of air inlet pipe and is located on the center line of the air inlet pipe.

4. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the quantity of the first jet is It is multiple and be sequentially arranged along the center line of the air inlet pipe.

5. the blender according to claim 1 with dust pelletizing system, it is characterised in that: be provided in the escape pipe Two nozzles, the pipeline section phase that the second nozzle passes through the water pipe between the first water pipe and the water pump and the first jet Even, the second nozzle is atomization conical nozzle, and the quantity of the second nozzle is at least one, the second nozzle setting Close to the port of one end of the air outlet of the blower and it is located on the center line of the escape pipe in the escape pipe, it is described The direction of the jet port of second nozzle is identical as the outgassing direction of the other end of the escape pipe.

6. the blender according to claim 5 with dust pelletizing system, it is characterised in that: the quantity of the second nozzle is It is multiple and be sequentially arranged along the center line of the escape pipe.

7. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the exhaust pipe is straight pipe.

8. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the operating pressure of the water pump is 1-7MPa。

9. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the blower is centrifugal blower.

10. the blender according to claim 7 with dust pelletizing system, it is characterised in that: the center line of the exhaust pipe It coincides with the center line of the disposal box.

11. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the blender ontology is to connect Continue formula blender, is mixed corresponding to the discharge port of the blender ontology and be provided with first through hole, the air inlet on the upper lid of cylinder The other end of pipe is connected with the first through hole.

12. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the blender ontology is to connect Continue formula blender, is provided with dust collect plant beside the discharge port of the blender ontology, which is polyhedral structure, And the dust collect plant bottom surface adjacent with the side close to the side of the discharge port of the blender ontology is open, it is described into The other end of tracheae is connected with the dust collect plant.

13. the blender according to claim 12 with dust pelletizing system, it is characterised in that: the blender ontology into The second through-hole, the other end of the air inlet pipe and second through-hole and the collection are provided on the upper lid for mixing cylinder beside material mouth Dirt device is connected.

14. the blender of dust pelletizing system is had described in any one of 1-13 according to claim 1, it is characterised in that: described to stir It mixes and is provided with third through-hole on the upper lid for mixing cylinder beside the feed inlet of machine ontology, the sewage draining exit is connected with the third through-hole It is logical.

15. the blender according to claim 1 with dust pelletizing system, it is characterised in that: the blender ontology is week Phase formula blender is provided with water metering device on the blender ontology, be provided on the water metering device the first water pump and Filler pipe, the water metering device are additionally provided with water gage probe, and the filler pipe is detachably connected to the sewage draining exit, institute It states and is provided with water level limit sensors on disposal box, be provided on the sewage draining exit and match with the water level limit sensors Butterfly valve, the water level limit sensors include water level upper limit sensor and water level lower limited sensor, and the sewage outfalls setting is in institute It states above water metering device.

16. the blender according to claim 15 with dust pelletizing system, it is characterised in that: the blender ontology into It is provided with fourth hole on the upper lid for mixing cylinder beside material mouth, rivets flexible cloth on the upper lid of the fourth hole circumferencial direction Bag, rigid backbone built in the flexibility cloth bag, the other end of the air inlet pipe are connected with the flexible cloth bag.